diff options
Diffstat (limited to 'packages/linux/linux-rp-2.6.23/htcuni-acx.patch')
-rw-r--r-- | packages/linux/linux-rp-2.6.23/htcuni-acx.patch | 33526 |
1 files changed, 0 insertions, 33526 deletions
diff --git a/packages/linux/linux-rp-2.6.23/htcuni-acx.patch b/packages/linux/linux-rp-2.6.23/htcuni-acx.patch deleted file mode 100644 index 769674c935..0000000000 --- a/packages/linux/linux-rp-2.6.23/htcuni-acx.patch +++ /dev/null @@ -1,33526 +0,0 @@ ---- - drivers/net/wireless/Kconfig | 31 - drivers/net/wireless/Makefile | 2 - drivers/net/wireless/acx/Kconfig | 113 - drivers/net/wireless/acx/Makefile | 21 - drivers/net/wireless/acx/acx.h | 14 - drivers/net/wireless/acx/acx_config.h | 50 - drivers/net/wireless/acx/acx_func.h | 710 ++ - drivers/net/wireless/acx/acx_hw.h | 18 - drivers/net/wireless/acx/acx_struct.h | 2114 ++++++++ - drivers/net/wireless/acx/common.c | 7388 ++++++++++++++++++++++++++++ - drivers/net/wireless/acx/conv.c | 504 + - drivers/net/wireless/acx/cs.c | 5703 +++++++++++++++++++++ - drivers/net/wireless/acx/htcsable_acx.c | 118 - drivers/net/wireless/acx/htcuniversal_acx.c | 108 - drivers/net/wireless/acx/hx4700_acx.c | 108 - drivers/net/wireless/acx/ioctl.c | 2748 ++++++++++ - drivers/net/wireless/acx/mem.c | 5363 ++++++++++++++++++++ - drivers/net/wireless/acx/pci.c | 4234 ++++++++++++++++ - drivers/net/wireless/acx/rx3000_acx.c | 110 - drivers/net/wireless/acx/setrate.c | 213 - drivers/net/wireless/acx/usb.c | 1922 +++++++ - drivers/net/wireless/acx/wlan.c | 424 + - drivers/net/wireless/acx/wlan_compat.h | 260 - drivers/net/wireless/acx/wlan_hdr.h | 497 + - drivers/net/wireless/acx/wlan_mgmt.h | 582 ++ - 25 files changed, 33355 insertions(+) - -Index: linux-2.6.22/drivers/net/wireless/acx/acx_config.h -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/acx_config.h 2007-08-23 18:46:40.000000000 +0200 -@@ -0,0 +1,50 @@ -+#define ACX_RELEASE "v0.3.36" -+ -+/* -+ * Test out all the channels in reg domain 0x10 -+ */ -+#define ACX_ALLOW_ALLCHANNELS -+ -+/* set to 0 if you don't want any debugging code to be compiled in */ -+/* set to 1 if you want some debugging */ -+/* set to 2 if you want extensive debug log */ -+#define ACX_DEBUG 0 -+ -+/* -+ * Since we'll be changing channels a lot -+#define ACX_DEFAULT_MSG (L_ASSOC|L_INIT) -+*/ -+#define ACX_DEFAULT_MSG (L_ASSOC|L_INIT) -+ -+/* assume 32bit I/O width -+ * (16bit is also compatible with Compact Flash) */ -+#define ACX_IO_WIDTH 32 -+ -+/* Set this to 1 if you want monitor mode to use -+ * phy header. Currently it is not useful anyway since we -+ * don't know what useful info (if any) is in phy header. -+ * If you want faster/smaller code, say 0 here */ -+#define WANT_PHY_HDR 0 -+ -+/* whether to do Tx descriptor cleanup in softirq (i.e. not in IRQ -+ * handler) or not. Note that doing it later does slightly increase -+ * system load, so still do that stuff in the IRQ handler for now, -+ * even if that probably means worse latency */ -+#define TX_CLEANUP_IN_SOFTIRQ 0 -+ -+/* if you want very experimental 802.11 power save mode features */ -+#define POWER_SAVE_80211 0 -+ -+/* if you want very early packet fragmentation bits and pieces */ -+#define ACX_FRAGMENTATION 0 -+ -+/* Locking: */ -+/* very talkative */ -+/* #define PARANOID_LOCKING 1 */ -+/* normal (use when bug-free) */ -+#define DO_LOCKING 1 -+/* else locking is disabled! */ -+ -+/* 0 - normal mode */ -+/* 1 - development/debug: probe for IEs on modprobe */ -+#define CMD_DISCOVERY 0 -Index: linux-2.6.22/drivers/net/wireless/acx/acx_func.h -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/acx_func.h 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,710 @@ -+/*********************************************************************** -+** Copyright (C) 2003 ACX100 Open Source Project -+** -+** The contents of this file are subject to the Mozilla Public -+** License Version 1.1 (the "License"); you may not use this file -+** except in compliance with the License. You may obtain a copy of -+** the License at http://www.mozilla.org/MPL/ -+** -+** Software distributed under the License is distributed on an "AS -+** IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -+** implied. See the License for the specific language governing -+** rights and limitations under the License. -+** -+** Alternatively, the contents of this file may be used under the -+** terms of the GNU Public License version 2 (the "GPL"), in which -+** case the provisions of the GPL are applicable instead of the -+** above. If you wish to allow the use of your version of this file -+** only under the terms of the GPL and not to allow others to use -+** your version of this file under the MPL, indicate your decision -+** by deleting the provisions above and replace them with the notice -+** and other provisions required by the GPL. If you do not delete -+** the provisions above, a recipient may use your version of this -+** file under either the MPL or the GPL. -+** --------------------------------------------------------------------- -+** Inquiries regarding the ACX100 Open Source Project can be -+** made directly to: -+** -+** acx100-users@lists.sf.net -+** http://acx100.sf.net -+** --------------------------------------------------------------------- -+*/ -+ -+ -+/*********************************************************************** -+** LOGGING -+** -+** - Avoid SHOUTING needlessly. Avoid excessive verbosity. -+** Gradually remove messages which are old debugging aids. -+** -+** - Use printk() for messages which are to be always logged. -+** Supply either 'acx:' or '<devname>:' prefix so that user -+** can figure out who's speaking among other kernel chatter. -+** acx: is for general issues (e.g. "acx: no firmware image!") -+** while <devname>: is related to a particular device -+** (think about multi-card setup). Double check that message -+** is not confusing to the average user. -+** -+** - use printk KERN_xxx level only if message is not a WARNING -+** but is INFO, ERR etc. -+** -+** - Use printk_ratelimited() for messages which may flood -+** (e.g. "rx DUP pkt!"). -+** -+** - Use log() for messages which may be omitted (and they -+** _will_ be omitted in non-debug builds). Note that -+** message levels may be disabled at compile-time selectively, -+** thus select them wisely. Example: L_DEBUG is the lowest -+** (most likely to be compiled out) -> use for less important stuff. -+** -+** - Do not print important stuff with log(), or else people -+** will never build non-debug driver. -+** -+** Style: -+** hex: capital letters, zero filled (e.g. 0x02AC) -+** str: dont start from capitals, no trailing periods ("tx: queue is stopped") -+*/ -+#if ACX_DEBUG > 1 -+ -+void log_fn_enter(const char *funcname); -+void log_fn_exit(const char *funcname); -+void log_fn_exit_v(const char *funcname, int v); -+ -+#define FN_ENTER \ -+ do { \ -+ if (unlikely(acx_debug & L_FUNC)) { \ -+ log_fn_enter(__func__); \ -+ } \ -+ } while (0) -+ -+#define FN_EXIT1(v) \ -+ do { \ -+ if (unlikely(acx_debug & L_FUNC)) { \ -+ log_fn_exit_v(__func__, v); \ -+ } \ -+ } while (0) -+#define FN_EXIT0 \ -+ do { \ -+ if (unlikely(acx_debug & L_FUNC)) { \ -+ log_fn_exit(__func__); \ -+ } \ -+ } while (0) -+ -+#else -+ -+#define FN_ENTER -+#define FN_EXIT1(v) -+#define FN_EXIT0 -+ -+#endif /* ACX_DEBUG > 1 */ -+ -+ -+#if ACX_DEBUG -+ -+#define log(chan, args...) \ -+ do { \ -+ if (acx_debug & (chan)) \ -+ printk(KERN_DEBUG args); \ -+ } while (0) -+#define printk_ratelimited(args...) printk(args) -+ -+#else /* Non-debug build: */ -+ -+#define log(chan, args...) -+/* Standard way of log flood prevention */ -+#define printk_ratelimited(args...) \ -+do { \ -+ if (printk_ratelimit()) \ -+ printk(args); \ -+} while (0) -+ -+#endif /* ACX_DEBUG */ -+ -+void acx_print_mac(const char *head, const u8 *mac, const char *tail); -+ -+/* Optimized out to nothing in non-debug build */ -+static inline void -+acxlog_mac(int level, const char *head, const u8 *mac, const char *tail) -+{ -+ if (acx_debug & level) { -+ acx_print_mac(head, mac, tail); -+ } -+} -+ -+ -+/*********************************************************************** -+** MAC address helpers -+*/ -+static inline void -+MAC_COPY(u8 *mac, const u8 *src) -+{ -+ *(u32*)mac = *(u32*)src; -+ ((u16*)mac)[2] = ((u16*)src)[2]; -+ /* kernel's memcpy will do the same: memcpy(dst, src, ETH_ALEN); */ -+} -+ -+static inline void -+MAC_FILL(u8 *mac, u8 val) -+{ -+ memset(mac, val, ETH_ALEN); -+} -+ -+static inline void -+MAC_BCAST(u8 *mac) -+{ -+ ((u16*)mac)[2] = *(u32*)mac = -1; -+} -+ -+static inline void -+MAC_ZERO(u8 *mac) -+{ -+ ((u16*)mac)[2] = *(u32*)mac = 0; -+} -+ -+static inline int -+mac_is_equal(const u8 *a, const u8 *b) -+{ -+ /* can't beat this */ -+ return memcmp(a, b, ETH_ALEN) == 0; -+} -+ -+static inline int -+mac_is_bcast(const u8 *mac) -+{ -+ /* AND together 4 first bytes with sign-extended 2 last bytes -+ ** Only bcast address gives 0xffffffff. +1 gives 0 */ -+ return ( *(s32*)mac & ((s16*)mac)[2] ) + 1 == 0; -+} -+ -+static inline int -+mac_is_zero(const u8 *mac) -+{ -+ return ( *(u32*)mac | ((u16*)mac)[2] ) == 0; -+} -+ -+static inline int -+mac_is_directed(const u8 *mac) -+{ -+ return (mac[0] & 1)==0; -+} -+ -+static inline int -+mac_is_mcast(const u8 *mac) -+{ -+ return (mac[0] & 1) && !mac_is_bcast(mac); -+} -+ -+#define MACSTR "%02X:%02X:%02X:%02X:%02X:%02X" -+#define MAC(bytevector) \ -+ ((unsigned char *)bytevector)[0], \ -+ ((unsigned char *)bytevector)[1], \ -+ ((unsigned char *)bytevector)[2], \ -+ ((unsigned char *)bytevector)[3], \ -+ ((unsigned char *)bytevector)[4], \ -+ ((unsigned char *)bytevector)[5] -+ -+ -+/*********************************************************************** -+** Random helpers -+*/ -+#define TO_STRING(x) #x -+#define STRING(x) TO_STRING(x) -+ -+#define CLEAR_BIT(val, mask) ((val) &= ~(mask)) -+#define SET_BIT(val, mask) ((val) |= (mask)) -+ -+/* undefined if v==0 */ -+static inline unsigned int -+lowest_bit(u16 v) -+{ -+ unsigned int n = 0; -+ while (!(v & 0xf)) { v>>=4; n+=4; } -+ while (!(v & 1)) { v>>=1; n++; } -+ return n; -+} -+ -+/* undefined if v==0 */ -+static inline unsigned int -+highest_bit(u16 v) -+{ -+ unsigned int n = 0; -+ while (v>0xf) { v>>=4; n+=4; } -+ while (v>1) { v>>=1; n++; } -+ return n; -+} -+ -+/* undefined if v==0 */ -+static inline int -+has_only_one_bit(u16 v) -+{ -+ return ((v-1) ^ v) >= v; -+} -+ -+ -+static inline int -+is_hidden_essid(char *essid) -+{ -+ return (('\0' == essid[0]) || -+ ((' ' == essid[0]) && ('\0' == essid[1]))); -+} -+ -+/*********************************************************************** -+** LOCKING -+** We have adev->sem and adev->lock. -+** -+** We employ following naming convention in order to get locking right: -+** -+** acx_e_xxxx - external entry points called from process context. -+** It is okay to sleep. adev->sem is to be taken on entry. -+** acx_i_xxxx - external entry points possibly called from atomic context. -+** Sleeping is not allowed (and thus down(sem) is not legal!) -+** acx_s_xxxx - potentially sleeping functions. Do not ever call under lock! -+** acx_l_xxxx - functions which expect lock to be already taken. -+** rest - non-sleeping functions which do not require locking -+** but may be run under lock -+** -+** A small number of local helpers do not have acx_[eisl]_ prefix. -+** They are always close to caller and are to be reviewed locally. -+** -+** Theory of operation: -+** -+** All process-context entry points (_e_ functions) take sem -+** immediately. IRQ handler and other 'atomic-context' entry points -+** (_i_ functions) take lock immediately on entry, but dont take sem -+** because that might sleep. -+** -+** Thus *all* code is either protected by sem or lock, or both. -+** -+** Code which must not run concurrently with IRQ takes lock. -+** Such code is marked with _l_. -+** -+** This results in the following rules of thumb useful in code review: -+** -+** + If a function calls _s_ fn, it must be an _s_ itself. -+** + You can call _l_ fn only (a) from another _l_ fn -+** or (b) from _s_, _e_ or _i_ fn by taking lock, calling _l_, -+** and dropping lock. -+** + All IRQ code runs under lock. -+** + Any _s_ fn is running under sem. -+** + Code under sem can race only with IRQ code. -+** + Code under sem+lock cannot race with anything. -+*/ -+ -+/* These functions *must* be inline or they will break horribly on SPARC, due -+ * to its weird semantics for save/restore flags */ -+ -+#if defined(PARANOID_LOCKING) /* Lock debugging */ -+ -+void acx_lock_debug(acx_device_t *adev, const char* where); -+void acx_unlock_debug(acx_device_t *adev, const char* where); -+void acx_down_debug(acx_device_t *adev, const char* where); -+void acx_up_debug(acx_device_t *adev, const char* where); -+void acx_lock_unhold(void); -+void acx_sem_unhold(void); -+ -+static inline void -+acx_lock_helper(acx_device_t *adev, unsigned long *fp, const char* where) -+{ -+ acx_lock_debug(adev, where); -+ spin_lock_irqsave(&adev->lock, *fp); -+} -+static inline void -+acx_unlock_helper(acx_device_t *adev, unsigned long *fp, const char* where) -+{ -+ acx_unlock_debug(adev, where); -+ spin_unlock_irqrestore(&adev->lock, *fp); -+} -+static inline void -+acx_down_helper(acx_device_t *adev, const char* where) -+{ -+ acx_down_debug(adev, where); -+} -+static inline void -+acx_up_helper(acx_device_t *adev, const char* where) -+{ -+ acx_up_debug(adev, where); -+} -+#define acx_lock(adev, flags) acx_lock_helper(adev, &(flags), __FILE__ ":" STRING(__LINE__)) -+#define acx_unlock(adev, flags) acx_unlock_helper(adev, &(flags), __FILE__ ":" STRING(__LINE__)) -+#define acx_sem_lock(adev) acx_down_helper(adev, __FILE__ ":" STRING(__LINE__)) -+#define acx_sem_unlock(adev) acx_up_helper(adev, __FILE__ ":" STRING(__LINE__)) -+ -+#elif defined(DO_LOCKING) -+ -+#define acx_lock(adev, flags) spin_lock_irqsave(&adev->lock, flags) -+#define acx_unlock(adev, flags) spin_unlock_irqrestore(&adev->lock, flags) -+#define acx_sem_lock(adev) down(&adev->sem) -+#define acx_sem_unlock(adev) up(&adev->sem) -+#define acx_lock_unhold() ((void)0) -+#define acx_sem_unhold() ((void)0) -+ -+#else /* no locking! :( */ -+ -+#define acx_lock(adev, flags) ((void)0) -+#define acx_unlock(adev, flags) ((void)0) -+#define acx_sem_lock(adev) ((void)0) -+#define acx_sem_unlock(adev) ((void)0) -+#define acx_lock_unhold() ((void)0) -+#define acx_sem_unhold() ((void)0) -+ -+#endif -+ -+ -+/*********************************************************************** -+*/ -+ -+/* Can race with rx path (which is not protected by sem): -+** rx -> process_[re]assocresp() -> set_status(ASSOCIATED) -> wake_queue() -+** Can race with tx_complete IRQ: -+** IRQ -> acxpci_l_clean_txdesc -> acx_wake_queue -+** Review carefully all callsites */ -+static inline void -+acx_stop_queue(struct net_device *ndev, const char *msg) -+{ -+ if (netif_queue_stopped(ndev)) -+ return; -+ -+ netif_stop_queue(ndev); -+ if (msg) -+ log(L_BUFT, "tx: stop queue %s\n", msg); -+} -+ -+static inline int -+acx_queue_stopped(struct net_device *ndev) -+{ -+ return netif_queue_stopped(ndev); -+} -+ -+/* -+static inline void -+acx_start_queue(struct net_device *ndev, const char *msg) -+{ -+ netif_start_queue(ndev); -+ if (msg) -+ log(L_BUFT, "tx: start queue %s\n", msg); -+} -+*/ -+ -+static inline void -+acx_wake_queue(struct net_device *ndev, const char *msg) -+{ -+ netif_wake_queue(ndev); -+ if (msg) -+ log(L_BUFT, "tx: wake queue %s\n", msg); -+} -+ -+static inline void -+acx_carrier_off(struct net_device *ndev, const char *msg) -+{ -+ netif_carrier_off(ndev); -+ if (msg) -+ log(L_BUFT, "tx: carrier off %s\n", msg); -+} -+ -+static inline void -+acx_carrier_on(struct net_device *ndev, const char *msg) -+{ -+ netif_carrier_on(ndev); -+ if (msg) -+ log(L_BUFT, "tx: carrier on %s\n", msg); -+} -+ -+/* This function does not need locking UNLESS you call it -+** as acx_set_status(ACX_STATUS_4_ASSOCIATED), bacause this can -+** wake queue. This can race with stop_queue elsewhere. */ -+void acx_set_status(acx_device_t *adev, u16 status); -+ -+ -+/*********************************************************************** -+** Communication with firmware -+*/ -+#define CMD_TIMEOUT_MS(n) (n) -+#define ACX_CMD_TIMEOUT_DEFAULT CMD_TIMEOUT_MS(50) -+ -+#if ACX_DEBUG -+ -+/* We want to log cmd names */ -+int acxpci_s_issue_cmd_timeo_debug(acx_device_t *adev, unsigned cmd, void *param, unsigned len, unsigned timeout, const char* cmdstr); -+int acxmem_s_issue_cmd_timeo_debug(acx_device_t *adev, unsigned cmd, void *param, unsigned len, unsigned timeout, const char* cmdstr); -+int acxusb_s_issue_cmd_timeo_debug(acx_device_t *adev, unsigned cmd, void *param, unsigned len, unsigned timeout, const char* cmdstr); -+static inline int -+acx_s_issue_cmd_timeo_debug(acx_device_t *adev, unsigned cmd, void *param, unsigned len, unsigned timeout, const char* cmdstr) -+{ -+ if (IS_MEM(adev)) -+ return acxmem_s_issue_cmd_timeo_debug(adev, cmd, param, len, timeout, cmdstr); -+ if (IS_PCI(adev)) -+ return acxpci_s_issue_cmd_timeo_debug(adev, cmd, param, len, timeout, cmdstr); -+ return acxusb_s_issue_cmd_timeo_debug(adev, cmd, param, len, timeout, cmdstr); -+} -+#define acx_s_issue_cmd(adev,cmd,param,len) \ -+ acx_s_issue_cmd_timeo_debug(adev,cmd,param,len,ACX_CMD_TIMEOUT_DEFAULT,#cmd) -+#define acx_s_issue_cmd_timeo(adev,cmd,param,len,timeo) \ -+ acx_s_issue_cmd_timeo_debug(adev,cmd,param,len,timeo,#cmd) -+int acx_s_configure_debug(acx_device_t *adev, void *pdr, int type, const char* str); -+#define acx_s_configure(adev,pdr,type) \ -+ acx_s_configure_debug(adev,pdr,type,#type) -+int acx_s_interrogate_debug(acx_device_t *adev, void *pdr, int type, const char* str); -+#define acx_s_interrogate(adev,pdr,type) \ -+ acx_s_interrogate_debug(adev,pdr,type,#type) -+ -+#else -+ -+int acxpci_s_issue_cmd_timeo(acx_device_t *adev, unsigned cmd, void *param, unsigned len, unsigned timeout); -+int acxmem_s_issue_cmd_timeo(acx_device_t *adev, unsigned cmd, void *param, unsigned len, unsigned timeout); -+int acxusb_s_issue_cmd_timeo(acx_device_t *adev, unsigned cmd, void *param, unsigned len, unsigned timeout); -+static inline int -+acx_s_issue_cmd_timeo(acx_device_t *adev, unsigned cmd, void *param, unsigned len, unsigned timeout) -+{ -+ if (IS_MEM(adev)) -+ return acxmem_s_issue_cmd_timeo(adev, cmd, param, len, timeout); -+ if (IS_PCI(adev)) -+ return acxpci_s_issue_cmd_timeo(adev, cmd, param, len, timeout); -+ return acxusb_s_issue_cmd_timeo(adev, cmd, param, len, timeout); -+} -+static inline int -+acx_s_issue_cmd(acx_device_t *adev, unsigned cmd, void *param, unsigned len) -+{ -+ if (IS_MEM(adev)) -+ return acxmem_s_issue_cmd_timeo(adev, cmd, param, len, ACX_CMD_TIMEOUT_DEFAULT); -+ if (IS_PCI(adev)) -+ return acxpci_s_issue_cmd_timeo(adev, cmd, param, len, ACX_CMD_TIMEOUT_DEFAULT); -+ return acxusb_s_issue_cmd_timeo(adev, cmd, param, len, ACX_CMD_TIMEOUT_DEFAULT); -+} -+int acx_s_configure(acx_device_t *adev, void *pdr, int type); -+int acx_s_interrogate(acx_device_t *adev, void *pdr, int type); -+ -+#endif -+ -+void acx_s_cmd_start_scan(acx_device_t *adev); -+ -+ -+/*********************************************************************** -+** Ioctls -+*/ -+int -+acx111pci_ioctl_info( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ struct iw_param *vwrq, -+ char *extra); -+int -+acx100pci_ioctl_set_phy_amp_bias( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ struct iw_param *vwrq, -+ char *extra); -+int -+acx100mem_ioctl_set_phy_amp_bias( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ struct iw_param *vwrq, -+ char *extra); -+ -+ -+/*********************************************************************** -+** /proc -+*/ -+#ifdef CONFIG_PROC_FS -+int acx_proc_register_entries(const struct net_device *ndev); -+int acx_proc_unregister_entries(const struct net_device *ndev); -+#else -+static inline int -+acx_proc_register_entries(const struct net_device *ndev) { return OK; } -+static inline int -+acx_proc_unregister_entries(const struct net_device *ndev) { return OK; } -+#endif -+ -+ -+/*********************************************************************** -+*/ -+firmware_image_t *acx_s_read_fw(struct device *dev, const char *file, u32 *size); -+int acxpci_s_upload_radio(acx_device_t *adev); -+int acxmem_s_upload_radio(acx_device_t *adev); -+ -+ -+/*********************************************************************** -+** Unsorted yet :) -+*/ -+int acxpci_s_read_phy_reg(acx_device_t *adev, u32 reg, u8 *charbuf); -+int acxmem_s_read_phy_reg(acx_device_t *adev, u32 reg, u8 *charbuf); -+int acxusb_s_read_phy_reg(acx_device_t *adev, u32 reg, u8 *charbuf); -+static inline int -+acx_s_read_phy_reg(acx_device_t *adev, u32 reg, u8 *charbuf) -+{ -+ if (IS_MEM(adev)) -+ return acxmem_s_read_phy_reg(adev, reg, charbuf); -+ if (IS_PCI(adev)) -+ return acxpci_s_read_phy_reg(adev, reg, charbuf); -+ return acxusb_s_read_phy_reg(adev, reg, charbuf); -+} -+ -+int acxpci_s_write_phy_reg(acx_device_t *adev, u32 reg, u8 value); -+int acxmem_s_write_phy_reg(acx_device_t *adev, u32 reg, u8 value); -+int acxusb_s_write_phy_reg(acx_device_t *adev, u32 reg, u8 value); -+static inline int -+acx_s_write_phy_reg(acx_device_t *adev, u32 reg, u8 value) -+{ -+ if (IS_MEM(adev)) -+ return acxmem_s_write_phy_reg(adev, reg, value); -+ if (IS_PCI(adev)) -+ return acxpci_s_write_phy_reg(adev, reg, value); -+ return acxusb_s_write_phy_reg(adev, reg, value); -+} -+ -+tx_t* acxpci_l_alloc_tx(acx_device_t *adev); -+tx_t* acxmem_l_alloc_tx(acx_device_t *adev); -+tx_t* acxusb_l_alloc_tx(acx_device_t *adev); -+static inline tx_t* -+acx_l_alloc_tx(acx_device_t *adev) -+{ -+ if (IS_MEM(adev)) -+ return acxmem_l_alloc_tx(adev); -+ if (IS_PCI(adev)) -+ return acxpci_l_alloc_tx(adev); -+ return acxusb_l_alloc_tx(adev); -+} -+ -+void acxusb_l_dealloc_tx(tx_t *tx_opaque); -+void acxmem_l_dealloc_tx(acx_device_t *adev, tx_t *tx_opaque); -+static inline void -+acx_l_dealloc_tx(acx_device_t *adev, tx_t *tx_opaque) -+{ -+#ifdef ACX_MEM -+ acxmem_l_dealloc_tx (adev, tx_opaque); -+#else -+ if (IS_USB(adev)) -+ acxusb_l_dealloc_tx(tx_opaque); -+#endif -+} -+ -+void* acxpci_l_get_txbuf(acx_device_t *adev, tx_t *tx_opaque); -+void* acxmem_l_get_txbuf(acx_device_t *adev, tx_t *tx_opaque); -+void* acxusb_l_get_txbuf(acx_device_t *adev, tx_t *tx_opaque); -+static inline void* -+acx_l_get_txbuf(acx_device_t *adev, tx_t *tx_opaque) -+{ -+#if defined (ACX_MEM) -+ return acxmem_l_get_txbuf(adev, tx_opaque); -+#else -+ if (IS_PCI(adev)) -+ return acxpci_l_get_txbuf(adev, tx_opaque); -+ return acxusb_l_get_txbuf(adev, tx_opaque); -+#endif -+} -+ -+void acxpci_l_tx_data(acx_device_t *adev, tx_t *tx_opaque, int len); -+void acxmem_l_tx_data(acx_device_t *adev, tx_t *tx_opaque, int len); -+void acxusb_l_tx_data(acx_device_t *adev, tx_t *tx_opaque, int len); -+static inline void -+acx_l_tx_data(acx_device_t *adev, tx_t *tx_opaque, int len) -+{ -+#if defined (ACX_MEM) -+ acxmem_l_tx_data(adev, tx_opaque, len); -+#else -+ if (IS_PCI(adev)) -+ acxpci_l_tx_data(adev, tx_opaque, len); -+ else -+ acxusb_l_tx_data(adev, tx_opaque, len); -+#endif -+} -+ -+static inline wlan_hdr_t* -+acx_get_wlan_hdr(acx_device_t *adev, const rxbuffer_t *rxbuf) -+{ -+ return (wlan_hdr_t*)((u8*)&rxbuf->hdr_a3 + adev->phy_header_len); -+} -+ -+void acxpci_l_power_led(acx_device_t *adev, int enable); -+int acxpci_read_eeprom_byte(acx_device_t *adev, u32 addr, u8 *charbuf); -+unsigned int acxpci_l_clean_txdesc(acx_device_t *adev); -+void acxpci_l_clean_txdesc_emergency(acx_device_t *adev); -+int acxpci_s_create_hostdesc_queues(acx_device_t *adev); -+void acxpci_create_desc_queues(acx_device_t *adev, u32 tx_queue_start, u32 rx_queue_start); -+void acxpci_free_desc_queues(acx_device_t *adev); -+char* acxpci_s_proc_diag_output(char *p, acx_device_t *adev); -+int acxpci_proc_eeprom_output(char *p, acx_device_t *adev); -+void acxpci_set_interrupt_mask(acx_device_t *adev); -+int acx100pci_s_set_tx_level(acx_device_t *adev, u8 level_dbm); -+ -+void acxmem_l_power_led(acx_device_t *adev, int enable); -+int acxmem_read_eeprom_byte(acx_device_t *adev, u32 addr, u8 *charbuf); -+unsigned int acxmem_l_clean_txdesc(acx_device_t *adev); -+void acxmem_l_clean_txdesc_emergency(acx_device_t *adev); -+int acxmem_s_create_hostdesc_queues(acx_device_t *adev); -+void acxmem_create_desc_queues(acx_device_t *adev, u32 tx_queue_start, u32 rx_queue_start); -+void acxmem_free_desc_queues(acx_device_t *adev); -+char* acxmem_s_proc_diag_output(char *p, acx_device_t *adev); -+int acxmem_proc_eeprom_output(char *p, acx_device_t *adev); -+void acxmem_set_interrupt_mask(acx_device_t *adev); -+int acx100mem_s_set_tx_level(acx_device_t *adev, u8 level_dbm); -+ -+void acx_s_msleep(int ms); -+int acx_s_init_mac(acx_device_t *adev); -+void acx_set_reg_domain(acx_device_t *adev, unsigned char reg_dom_id); -+void acx_set_timer(acx_device_t *adev, int timeout_us); -+void acx_update_capabilities(acx_device_t *adev); -+void acx_s_start(acx_device_t *adev); -+ -+void acx_s_update_card_settings(acx_device_t *adev); -+void acx_s_parse_configoption(acx_device_t *adev, const acx111_ie_configoption_t *pcfg); -+void acx_l_update_ratevector(acx_device_t *adev); -+ -+void acx_init_task_scheduler(acx_device_t *adev); -+void acx_schedule_task(acx_device_t *adev, unsigned int set_flag); -+ -+int acx_e_ioctl_old(struct net_device *ndev, struct ifreq *ifr, int cmd); -+ -+client_t *acx_l_sta_list_get(acx_device_t *adev, const u8 *address); -+void acx_l_sta_list_del(acx_device_t *adev, client_t *clt); -+ -+int acx_l_transmit_disassoc(acx_device_t *adev, client_t *clt); -+void acx_i_timer(unsigned long a); -+int acx_s_complete_scan(acx_device_t *adev); -+ -+struct sk_buff *acx_rxbuf_to_ether(acx_device_t *adev, rxbuffer_t *rxbuf); -+int acx_ether_to_txbuf(acx_device_t *adev, void *txbuf, const struct sk_buff *skb); -+ -+u8 acx_signal_determine_quality(u8 signal, u8 noise); -+ -+void acx_l_process_rxbuf(acx_device_t *adev, rxbuffer_t *rxbuf); -+void acx_l_handle_txrate_auto(acx_device_t *adev, struct client *txc, -+ u16 intended_rate, u8 rate100, u16 rate111, u8 error, -+ int pkts_to_ignore); -+ -+void acx_dump_bytes(const void *, int); -+void acx_log_bad_eid(wlan_hdr_t* hdr, int len, wlan_ie_t* ie_ptr); -+ -+u8 acx_rate111to100(u16); -+ -+void acx_s_set_defaults(acx_device_t *adev); -+ -+#if !ACX_DEBUG -+static inline const char* acx_get_packet_type_string(u16 fc) { return ""; } -+#else -+const char* acx_get_packet_type_string(u16 fc); -+#endif -+const char* acx_cmd_status_str(unsigned int state); -+ -+int acx_i_start_xmit(struct sk_buff *skb, struct net_device *ndev); -+ -+void great_inquisitor(acx_device_t *adev); -+ -+void acx_s_get_firmware_version(acx_device_t *adev); -+void acx_display_hardware_details(acx_device_t *adev); -+ -+int acx_e_change_mtu(struct net_device *ndev, int mtu); -+struct net_device_stats* acx_e_get_stats(struct net_device *ndev); -+struct iw_statistics* acx_e_get_wireless_stats(struct net_device *ndev); -+ -+#ifdef ACX_MEM -+int __init acxmem_e_init_module(void); -+void __exit acxmem_e_cleanup_module(void); -+void acxmem_e_release(struct device *dev); -+#else -+int __init acxpci_e_init_module(void); -+int __init acxusb_e_init_module(void); -+void __exit acxpci_e_cleanup_module(void); -+void __exit acxusb_e_cleanup_module(void); -+#endif -+int __init acx_cs_init(void); -+void __exit acx_cs_cleanup(void); -Index: linux-2.6.22/drivers/net/wireless/acx/acx.h -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/acx.h 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,14 @@ -+#if defined(CONFIG_ACX_MEM) && !defined(ACX_MEM) -+#define ACX_MEM -+#endif -+ -+#if defined(CONFIG_ACX_CS) && !defined(ACX_MEM) -+#define ACX_MEM -+#endif -+ -+#include "acx_config.h" -+#include "wlan_compat.h" -+#include "wlan_hdr.h" -+#include "wlan_mgmt.h" -+#include "acx_struct.h" -+#include "acx_func.h" -Index: linux-2.6.22/drivers/net/wireless/acx/acx_hw.h -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/acx_hw.h 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,18 @@ -+/* -+ * Interface for ACX slave memory driver -+ * -+ * Copyright (c) 2006 SDG Systems, LLC -+ * -+ * GPL -+ * -+ */ -+ -+#ifndef _ACX_HW_H -+#define _ACX_HW_H -+ -+struct acx_hardware_data { -+ int (*start_hw)( void ); -+ int (*stop_hw)( void ); -+}; -+ -+#endif /* _ACX_HW_H */ -Index: linux-2.6.22/drivers/net/wireless/acx/acx_struct.h -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/acx_struct.h 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,2114 @@ -+/*********************************************************************** -+** Copyright (C) 2003 ACX100 Open Source Project -+** -+** The contents of this file are subject to the Mozilla Public -+** License Version 1.1 (the "License"); you may not use this file -+** except in compliance with the License. You may obtain a copy of -+** the License at http://www.mozilla.org/MPL/ -+** -+** Software distributed under the License is distributed on an "AS -+** IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -+** implied. See the License for the specific language governing -+** rights and limitations under the License. -+** -+** Alternatively, the contents of this file may be used under the -+** terms of the GNU Public License version 2 (the "GPL"), in which -+** case the provisions of the GPL are applicable instead of the -+** above. If you wish to allow the use of your version of this file -+** only under the terms of the GPL and not to allow others to use -+** your version of this file under the MPL, indicate your decision -+** by deleting the provisions above and replace them with the notice -+** and other provisions required by the GPL. If you do not delete -+** the provisions above, a recipient may use your version of this -+** file under either the MPL or the GPL. -+** --------------------------------------------------------------------- -+** Inquiries regarding the ACX100 Open Source Project can be -+** made directly to: -+** -+** acx100-users@lists.sf.net -+** http://acx100.sf.net -+** --------------------------------------------------------------------- -+*/ -+ -+/*********************************************************************** -+** Forward declarations of types -+*/ -+typedef struct tx tx_t; -+typedef struct acx_device acx_device_t; -+typedef struct client client_t; -+typedef struct rxdesc rxdesc_t; -+typedef struct txdesc txdesc_t; -+typedef struct rxhostdesc rxhostdesc_t; -+typedef struct txhostdesc txhostdesc_t; -+ -+ -+/*********************************************************************** -+** Debug / log functionality -+*/ -+enum { -+ L_LOCK = (ACX_DEBUG>1)*0x0001, /* locking debug log */ -+ L_INIT = (ACX_DEBUG>0)*0x0002, /* special card initialization logging */ -+ L_IRQ = (ACX_DEBUG>0)*0x0004, /* interrupt stuff */ -+ L_ASSOC = (ACX_DEBUG>0)*0x0008, /* assocation (network join) and station log */ -+ L_FUNC = (ACX_DEBUG>1)*0x0020, /* logging of function enter / leave */ -+ L_XFER = (ACX_DEBUG>1)*0x0080, /* logging of transfers and mgmt */ -+ L_DATA = (ACX_DEBUG>1)*0x0100, /* logging of transfer data */ -+ L_DEBUG = (ACX_DEBUG>1)*0x0200, /* log of debug info */ -+ L_IOCTL = (ACX_DEBUG>0)*0x0400, /* log ioctl calls */ -+ L_CTL = (ACX_DEBUG>1)*0x0800, /* log of low-level ctl commands */ -+ L_BUFR = (ACX_DEBUG>1)*0x1000, /* debug rx buffer mgmt (ring buffer etc.) */ -+ L_XFER_BEACON = (ACX_DEBUG>1)*0x2000, /* also log beacon packets */ -+ L_BUFT = (ACX_DEBUG>1)*0x4000, /* debug tx buffer mgmt (ring buffer etc.) */ -+ L_USBRXTX = (ACX_DEBUG>0)*0x8000, /* debug USB rx/tx operations */ -+ L_BUF = L_BUFR + L_BUFT, -+ L_ANY = 0xffff -+}; -+ -+#if ACX_DEBUG -+extern unsigned int acx_debug; -+#else -+enum { acx_debug = 0 }; -+#endif -+ -+ -+/*********************************************************************** -+** Random helpers -+*/ -+#define ACX_PACKED __attribute__ ((packed)) -+ -+#define VEC_SIZE(a) (sizeof(a)/sizeof(a[0])) -+ -+/* Use worker_queues for 2.5/2.6 kernels and queue tasks for 2.4 kernels -+ (used for the 'bottom half' of the interrupt routine) */ -+ -+#include <linux/workqueue.h> -+#define USE_WORKER_TASKS -+#define WORK_STRUCT struct work_struct -+#define SCHEDULE_WORK schedule_work -+#define FLUSH_SCHEDULED_WORK flush_scheduled_work -+ -+ -+/*********************************************************************** -+** Constants -+*/ -+#define OK 0 -+#define NOT_OK 1 -+ -+/* The supported chip models */ -+#define CHIPTYPE_ACX100 1 -+#define CHIPTYPE_ACX111 2 -+ -+#define IS_ACX100(adev) ((adev)->chip_type == CHIPTYPE_ACX100) -+#define IS_ACX111(adev) ((adev)->chip_type == CHIPTYPE_ACX111) -+ -+/* Supported interfaces */ -+#define DEVTYPE_PCI 0 -+#define DEVTYPE_USB 1 -+#define DEVTYPE_MEM 2 -+ -+#if !defined(CONFIG_ACX_PCI) && !defined(CONFIG_ACX_USB) && !defined(CONFIG_ACX_MEM) && !defined(CONFIG_ACX_CS) -+#error Driver must include PCI, USB, PCMCIA or memory mapped interface support. You selected none of them. -+#endif -+ -+#if defined(CONFIG_ACX_PCI) -+ #if !defined(CONFIG_ACX_USB) -+ #define IS_PCI(adev) 1 -+ #else -+ #define IS_PCI(adev) ((adev)->dev_type == DEVTYPE_PCI) -+ #endif -+#else -+ #define IS_PCI(adev) 0 -+#endif -+ -+#if defined(CONFIG_ACX_USB) -+ #if !defined(CONFIG_ACX_PCI) -+ #define IS_USB(adev) 1 -+ #else -+ #define IS_USB(adev) ((adev)->dev_type == DEVTYPE_USB) -+ #endif -+#else -+ #define IS_USB(adev) 0 -+#endif -+ -+#if defined(CONFIG_ACX_MEM) || defined(CONFIG_ACX_CS) -+ #define IS_MEM(adev) 1 -+#else -+ #define IS_MEM(adev) 0 -+#endif -+ -+/* Driver defaults */ -+#define DEFAULT_DTIM_INTERVAL 10 -+/* used to be 2048, but FreeBSD driver changed it to 4096 to work properly -+** in noisy wlans */ -+#define DEFAULT_MSDU_LIFETIME 4096 -+#define DEFAULT_RTS_THRESHOLD 2312 /* max. size: disable RTS mechanism */ -+#define DEFAULT_BEACON_INTERVAL 100 -+ -+#define ACX100_BAP_DATALEN_MAX 4096 -+#define ACX100_RID_GUESSING_MAXLEN 2048 /* I'm not really sure */ -+#define ACX100_RIDDATA_MAXLEN ACX100_RID_GUESSING_MAXLEN -+ -+/* Support Constants */ -+/* Radio type names, found in Win98 driver's TIACXLN.INF */ -+#define RADIO_MAXIM_0D 0x0d -+#define RADIO_RFMD_11 0x11 -+#define RADIO_RALINK_15 0x15 -+/* used in ACX111 cards (WG311v2, WL-121, ...): */ -+#define RADIO_RADIA_16 0x16 -+/* most likely *sometimes* used in ACX111 cards: */ -+#define RADIO_UNKNOWN_17 0x17 -+/* FwRad19.bin was found in a Safecom driver; must be an ACX111 radio: */ -+#define RADIO_UNKNOWN_19 0x19 -+#define RADIO_UNKNOWN_1B 0x1b /* radio in SafeCom SWLUT-54125 USB adapter; entirely unknown!! */ -+ -+/* Controller Commands */ -+/* can be found in table cmdTable in firmware "Rev. 1.5.0" (FW150) */ -+#define ACX1xx_CMD_RESET 0x00 -+#define ACX1xx_CMD_INTERROGATE 0x01 -+#define ACX1xx_CMD_CONFIGURE 0x02 -+#define ACX1xx_CMD_ENABLE_RX 0x03 -+#define ACX1xx_CMD_ENABLE_TX 0x04 -+#define ACX1xx_CMD_DISABLE_RX 0x05 -+#define ACX1xx_CMD_DISABLE_TX 0x06 -+#define ACX1xx_CMD_FLUSH_QUEUE 0x07 -+#define ACX1xx_CMD_SCAN 0x08 -+#define ACX1xx_CMD_STOP_SCAN 0x09 -+#define ACX1xx_CMD_CONFIG_TIM 0x0a -+#define ACX1xx_CMD_JOIN 0x0b -+#define ACX1xx_CMD_WEP_MGMT 0x0c -+#ifdef OLD_FIRMWARE_VERSIONS -+#define ACX100_CMD_HALT 0x0e /* mapped to unknownCMD in FW150 */ -+#else -+#define ACX1xx_CMD_MEM_READ 0x0d -+#define ACX1xx_CMD_MEM_WRITE 0x0e -+#endif -+#define ACX1xx_CMD_SLEEP 0x0f -+#define ACX1xx_CMD_WAKE 0x10 -+#define ACX1xx_CMD_UNKNOWN_11 0x11 /* mapped to unknownCMD in FW150 */ -+#define ACX100_CMD_INIT_MEMORY 0x12 -+#define ACX1FF_CMD_DISABLE_RADIO 0x12 /* new firmware? TNETW1450? */ -+#define ACX1xx_CMD_CONFIG_BEACON 0x13 -+#define ACX1xx_CMD_CONFIG_PROBE_RESPONSE 0x14 -+#define ACX1xx_CMD_CONFIG_NULL_DATA 0x15 -+#define ACX1xx_CMD_CONFIG_PROBE_REQUEST 0x16 -+#define ACX1xx_CMD_FCC_TEST 0x17 -+#define ACX1xx_CMD_RADIOINIT 0x18 -+#define ACX111_CMD_RADIOCALIB 0x19 -+#define ACX1FF_CMD_NOISE_HISTOGRAM 0x1c /* new firmware? TNETW1450? */ -+#define ACX1FF_CMD_RX_RESET 0x1d /* new firmware? TNETW1450? */ -+#define ACX1FF_CMD_LNA_CONTROL 0x20 /* new firmware? TNETW1450? */ -+#define ACX1FF_CMD_CONTROL_DBG_TRACE 0x21 /* new firmware? TNETW1450? */ -+ -+/* 'After Interrupt' Commands */ -+#define ACX_AFTER_IRQ_CMD_STOP_SCAN 0x01 -+#define ACX_AFTER_IRQ_CMD_ASSOCIATE 0x02 -+#define ACX_AFTER_IRQ_CMD_RADIO_RECALIB 0x04 -+#define ACX_AFTER_IRQ_UPDATE_CARD_CFG 0x08 -+#define ACX_AFTER_IRQ_TX_CLEANUP 0x10 -+#define ACX_AFTER_IRQ_COMPLETE_SCAN 0x20 -+#define ACX_AFTER_IRQ_RESTART_SCAN 0x40 -+ -+/*********************************************************************** -+** Tx/Rx buffer sizes and watermarks -+** -+** This will alloc and use DMAable buffers of -+** WLAN_A4FR_MAXLEN_WEP_FCS * (RX_CNT + TX_CNT) bytes -+** RX/TX_CNT=32 -> ~150k DMA buffers -+** RX/TX_CNT=16 -> ~75k DMA buffers -+** -+** 2005-10-10: reduced memory usage by lowering both to 16 -+*/ -+#define RX_CNT 16 -+#define TX_CNT 16 -+ -+/* we clean up txdescs when we have N free txdesc: */ -+#define TX_CLEAN_BACKLOG (TX_CNT/4) -+#define TX_START_CLEAN (TX_CNT - TX_CLEAN_BACKLOG) -+#define TX_EMERG_CLEAN 2 -+/* we stop queue if we have < N free txbufs: */ -+#define TX_STOP_QUEUE 3 -+/* we start queue if we have >= N free txbufs: */ -+#define TX_START_QUEUE 5 -+ -+/*********************************************************************** -+** Interrogate/Configure cmd constants -+** -+** NB: length includes JUST the data part of the IE -+** (does not include size of the (type,len) pair) -+** -+** TODO: seems that acx100, acx100usb, acx111 have some differences, -+** fix code with regard to this! -+*/ -+ -+#define DEF_IE(name, val, len) enum { ACX##name=val, ACX##name##_LEN=len } -+ -+/* Information Elements: Network Parameters, Static Configuration Entities */ -+/* these are handled by real_cfgtable in firmware "Rev 1.5.0" (FW150) */ -+DEF_IE(1xx_IE_UNKNOWN_00 ,0x0000, -1); /* mapped to cfgInvalid in FW150 */ -+DEF_IE(100_IE_ACX_TIMER ,0x0001, 0x10); -+DEF_IE(1xx_IE_POWER_MGMT ,0x0002, 0x06); /* TNETW1450: length 0x18!! */ -+DEF_IE(1xx_IE_QUEUE_CONFIG ,0x0003, 0x1c); -+DEF_IE(100_IE_BLOCK_SIZE ,0x0004, 0x02); -+DEF_IE(1FF_IE_SLOT_TIME ,0x0004, 0x08); /* later firmware versions only? */ -+DEF_IE(1xx_IE_MEMORY_CONFIG_OPTIONS ,0x0005, 0x14); -+DEF_IE(1FF_IE_QUEUE_HEAD ,0x0005, 0x14 /* FIXME: length? */); -+DEF_IE(1xx_IE_RATE_FALLBACK ,0x0006, 0x01); /* TNETW1450: length 2 */ -+DEF_IE(100_IE_WEP_OPTIONS ,0x0007, 0x03); -+DEF_IE(111_IE_RADIO_BAND ,0x0007, -1); -+DEF_IE(1FF_IE_TIMING_CFG ,0x0007, -1); /* later firmware versions; TNETW1450 only? */ -+DEF_IE(100_IE_SSID ,0x0008, 0x20); /* huh? */ -+DEF_IE(1xx_IE_MEMORY_MAP ,0x0008, 0x28); /* huh? TNETW1450 has length 0x40!! */ -+DEF_IE(1xx_IE_SCAN_STATUS ,0x0009, 0x04); /* mapped to cfgInvalid in FW150 */ -+DEF_IE(1xx_IE_ASSOC_ID ,0x000a, 0x02); -+DEF_IE(1xx_IE_UNKNOWN_0B ,0x000b, -1); /* mapped to cfgInvalid in FW150 */ -+DEF_IE(1FF_IE_TX_POWER_LEVEL_TABLE ,0x000b, 0x18); /* later firmware versions; TNETW1450 only? */ -+DEF_IE(100_IE_UNKNOWN_0C ,0x000c, -1); /* very small implementation in FW150! */ -+/* ACX100 has an equivalent struct in the cmd mailbox directly after reset. -+ * 0x14c seems extremely large, will trash stack on failure (memset!) -+ * in case of small input struct --> OOPS! */ -+DEF_IE(111_IE_CONFIG_OPTIONS ,0x000c, 0x14c); -+DEF_IE(1xx_IE_FWREV ,0x000d, 0x18); -+DEF_IE(1xx_IE_FCS_ERROR_COUNT ,0x000e, 0x04); -+DEF_IE(1xx_IE_MEDIUM_USAGE ,0x000f, 0x08); -+DEF_IE(1xx_IE_RXCONFIG ,0x0010, 0x04); -+DEF_IE(100_IE_UNKNOWN_11 ,0x0011, -1); /* NONBINARY: large implementation in FW150! link quality readings or so? */ -+DEF_IE(111_IE_QUEUE_THRESH ,0x0011, -1); -+DEF_IE(100_IE_UNKNOWN_12 ,0x0012, -1); /* NONBINARY: VERY large implementation in FW150!! */ -+DEF_IE(111_IE_BSS_POWER_SAVE ,0x0012, /* -1 */ 2); -+DEF_IE(1xx_IE_FIRMWARE_STATISTICS ,0x0013, 0x9c); /* TNETW1450: length 0x134!! */ -+DEF_IE(1FF_IE_RX_INTR_CONFIG ,0x0014, 0x14); /* later firmware versions, TNETW1450 only? */ -+DEF_IE(1xx_IE_FEATURE_CONFIG ,0x0015, 0x08); -+DEF_IE(111_IE_KEY_CHOOSE ,0x0016, 0x04); /* for rekeying. really len=4?? */ -+DEF_IE(1FF_IE_MISC_CONFIG_TABLE ,0x0017, 0x04); /* later firmware versions, TNETW1450 only? */ -+DEF_IE(1FF_IE_WONE_CONFIG ,0x0018, -1); /* later firmware versions, TNETW1450 only? */ -+DEF_IE(1FF_IE_TID_CONFIG ,0x001a, 0x2c); /* later firmware versions, TNETW1450 only? */ -+DEF_IE(1FF_IE_CALIB_ASSESSMENT ,0x001e, 0x04); /* later firmware versions, TNETW1450 only? */ -+DEF_IE(1FF_IE_BEACON_FILTER_OPTIONS ,0x001f, 0x02); /* later firmware versions, TNETW1450 only? */ -+DEF_IE(1FF_IE_LOW_RSSI_THRESH_OPT ,0x0020, 0x04); /* later firmware versions, TNETW1450 only? */ -+DEF_IE(1FF_IE_NOISE_HISTOGRAM_RESULTS ,0x0021, 0x30); /* later firmware versions, TNETW1450 only? */ -+DEF_IE(1FF_IE_PACKET_DETECT_THRESH ,0x0023, 0x04); /* later firmware versions, TNETW1450 only? */ -+DEF_IE(1FF_IE_TX_CONFIG_OPTIONS ,0x0024, 0x04); /* later firmware versions, TNETW1450 only? */ -+DEF_IE(1FF_IE_CCA_THRESHOLD ,0x0025, 0x02); /* later firmware versions, TNETW1450 only? */ -+DEF_IE(1FF_IE_EVENT_MASK ,0x0026, 0x08); /* later firmware versions, TNETW1450 only? */ -+DEF_IE(1FF_IE_DTIM_PERIOD ,0x0027, 0x02); /* later firmware versions, TNETW1450 only? */ -+DEF_IE(1FF_IE_ACI_CONFIG_SET ,0x0029, 0x06); /* later firmware versions; maybe TNETW1450 only? */ -+DEF_IE(1FF_IE_EEPROM_VER ,0x0030, 0x04); /* later firmware versions; maybe TNETW1450 only? */ -+DEF_IE(1xx_IE_DOT11_STATION_ID ,0x1001, 0x06); -+DEF_IE(100_IE_DOT11_UNKNOWN_1002 ,0x1002, -1); /* mapped to cfgInvalid in FW150 */ -+DEF_IE(111_IE_DOT11_FRAG_THRESH ,0x1002, -1); /* mapped to cfgInvalid in FW150; TNETW1450 has length 2!! */ -+DEF_IE(100_IE_DOT11_BEACON_PERIOD ,0x1003, 0x02); /* mapped to cfgInvalid in FW150 */ -+DEF_IE(1xx_IE_DOT11_DTIM_PERIOD ,0x1004, -1); /* mapped to cfgInvalid in FW150 */ -+DEF_IE(1FF_IE_DOT11_MAX_RX_LIFETIME ,0x1004, -1); /* later firmware versions; maybe TNETW1450 only? */ -+DEF_IE(1xx_IE_DOT11_SHORT_RETRY_LIMIT ,0x1005, 0x01); /* TNETW1450: length 2 */ -+DEF_IE(1xx_IE_DOT11_LONG_RETRY_LIMIT ,0x1006, 0x01); /* TNETW1450: length 2 */ -+DEF_IE(100_IE_DOT11_WEP_DEFAULT_KEY_WRITE ,0x1007, 0x20); /* configure default keys; TNETW1450 has length 0x24!! */ -+DEF_IE(1xx_IE_DOT11_MAX_XMIT_MSDU_LIFETIME ,0x1008, 0x04); -+DEF_IE(1xx_IE_DOT11_GROUP_ADDR ,0x1009, -1); -+DEF_IE(1xx_IE_DOT11_CURRENT_REG_DOMAIN ,0x100a, 0x02); -+/* It's harmless to have larger struct. Use USB case always. */ -+DEF_IE(1xx_IE_DOT11_CURRENT_ANTENNA ,0x100b, 0x02); /* in fact len=1 for PCI */ -+DEF_IE(1xx_IE_DOT11_UNKNOWN_100C ,0x100c, -1); /* mapped to cfgInvalid in FW150 */ -+DEF_IE(1xx_IE_DOT11_TX_POWER_LEVEL ,0x100d, 0x01); /* TNETW1450 has length 2!! */ -+DEF_IE(1xx_IE_DOT11_CURRENT_CCA_MODE ,0x100e, 0x02); /* in fact len=1 for PCI */ -+/* USB doesn't return anything - len==0?! */ -+DEF_IE(100_IE_DOT11_ED_THRESHOLD ,0x100f, 0x04); -+DEF_IE(1xx_IE_DOT11_WEP_DEFAULT_KEY_SET ,0x1010, 0x01); /* set default key ID; TNETW1450: length 2 */ -+DEF_IE(100_IE_DOT11_UNKNOWN_1011 ,0x1011, -1); /* mapped to cfgInvalid in FW150 */ -+DEF_IE(1FF_IE_DOT11_CURR_5GHZ_REGDOM ,0x1011, -1); /* later firmware versions; maybe TNETW1450 only? */ -+DEF_IE(100_IE_DOT11_UNKNOWN_1012 ,0x1012, -1); /* mapped to cfgInvalid in FW150 */ -+DEF_IE(100_IE_DOT11_UNKNOWN_1013 ,0x1013, -1); /* mapped to cfgInvalid in FW150 */ -+ -+#if 0 -+/* Experimentally obtained on acx100, fw 1.9.8.b -+** -1 means that fw returned 'invalid IE' -+** 0200 FC00 nnnn... are test read contents: u16 type, u16 len, data -+** (AA are poison bytes marking bytes not written by fw) -+** -+** Looks like acx100 fw does not update len field (thus len=256-4=FC here) -+** A number of IEs seem to trash type,len fields -+** IEs marked 'huge' return gobs of data (no poison bytes remain) -+*/ -+DEF_IE(100_IE_INVAL_00, 0x0000, -1); -+DEF_IE(100_IE_INVAL_01, 0x0001, -1); /* IE_ACX_TIMER, len=16 on older fw */ -+DEF_IE(100_IE_POWER_MGMT, 0x0002, 4); /* 0200FC00 00040000 AAAAAAAA */ -+DEF_IE(100_IE_QUEUE_CONFIG, 0x0003, 28); /* 0300FC00 48060000 9CAD0000 0101AAAA DCB00000 E4B00000 9CAA0000 00AAAAAA */ -+DEF_IE(100_IE_BLOCK_SIZE, 0x0004, 2); /* 0400FC00 0001AAAA AAAAAAAA AAAAAAAA */ -+/* write only: */ -+DEF_IE(100_IE_MEMORY_CONFIG_OPTIONS, 0x0005, 20); -+DEF_IE(100_IE_RATE_FALLBACK, 0x0006, 1); /* 0600FC00 00AAAAAA AAAAAAAA AAAAAAAA */ -+/* write only: */ -+DEF_IE(100_IE_WEP_OPTIONS, 0x0007, 3); -+DEF_IE(100_IE_MEMORY_MAP, 0x0008, 40); /* huge: 0800FC00 30000000 6CA20000 70A20000... */ -+/* gives INVAL on read: */ -+DEF_IE(100_IE_SCAN_STATUS, 0x0009, -1); -+DEF_IE(100_IE_ASSOC_ID, 0x000a, 2); /* huge: 0A00FC00 00000000 01040800 00000000... */ -+DEF_IE(100_IE_INVAL_0B, 0x000b, -1); -+/* 'command rejected': */ -+DEF_IE(100_IE_CONFIG_OPTIONS, 0x000c, -3); -+DEF_IE(100_IE_FWREV, 0x000d, 24); /* 0D00FC00 52657620 312E392E 382E6200 AAAAAAAA AAAAAAAA 05050201 AAAAAAAA */ -+DEF_IE(100_IE_FCS_ERROR_COUNT, 0x000e, 4); -+DEF_IE(100_IE_MEDIUM_USAGE, 0x000f, 8); /* E41F0000 2D780300 FCC91300 AAAAAAAA */ -+DEF_IE(100_IE_RXCONFIG, 0x0010, 4); /* 1000FC00 00280000 AAAAAAAA AAAAAAAA */ -+DEF_IE(100_IE_QUEUE_THRESH, 0x0011, 12); /* 1100FC00 AAAAAAAA 00000000 00000000 */ -+DEF_IE(100_IE_BSS_POWER_SAVE, 0x0012, 1); /* 1200FC00 00AAAAAA AAAAAAAA AAAAAAAA */ -+/* read only, variable len */ -+DEF_IE(100_IE_FIRMWARE_STATISTICS, 0x0013, 256); /* 0000AC00 00000000 ... */ -+DEF_IE(100_IE_INT_CONFIG, 0x0014, 20); /* 00000000 00000000 00000000 00000000 5D74D105 00000000 AAAAAAAA AAAAAAAA */ -+DEF_IE(100_IE_FEATURE_CONFIG, 0x0015, 8); /* 1500FC00 16000000 AAAAAAAA AAAAAAAA */ -+/* returns 'invalid MAC': */ -+DEF_IE(100_IE_KEY_CHOOSE, 0x0016, -4); -+DEF_IE(100_IE_INVAL_17, 0x0017, -1); -+DEF_IE(100_IE_UNKNOWN_18, 0x0018, 0); /* null len?! 1800FC00 AAAAAAAA AAAAAAAA AAAAAAAA */ -+DEF_IE(100_IE_UNKNOWN_19, 0x0019, 256); /* huge: 1900FC00 9C1F00EA FEFFFFEA FEFFFFEA... */ -+DEF_IE(100_IE_INVAL_1A, 0x001A, -1); -+ -+DEF_IE(100_IE_DOT11_INVAL_1000, 0x1000, -1); -+DEF_IE(100_IE_DOT11_STATION_ID, 0x1001, 6); /* huge: 0110FC00 58B10E2F 03000000 00000000... */ -+DEF_IE(100_IE_DOT11_INVAL_1002, 0x1002, -1); -+DEF_IE(100_IE_DOT11_INVAL_1003, 0x1003, -1); -+DEF_IE(100_IE_DOT11_INVAL_1004, 0x1004, -1); -+DEF_IE(100_IE_DOT11_SHORT_RETRY_LIMIT, 0x1005, 1); -+DEF_IE(100_IE_DOT11_LONG_RETRY_LIMIT, 0x1006, 1); -+/* write only: */ -+DEF_IE(100_IE_DOT11_WEP_DEFAULT_KEY_WRITE, 0x1007, 32); -+DEF_IE(100_IE_DOT11_MAX_XMIT_MSDU_LIFETIME, 0x1008, 4); /* huge: 0810FC00 00020000 F4010000 00000000... */ -+/* undoc but returns something */ -+DEF_IE(100_IE_DOT11_GROUP_ADDR, 0x1009, 12); /* huge: 0910FC00 00000000 00000000 00000000... */ -+DEF_IE(100_IE_DOT11_CURRENT_REG_DOMAIN, 0x100a, 1); /* 0A10FC00 30AAAAAA AAAAAAAA AAAAAAAA */ -+DEF_IE(100_IE_DOT11_CURRENT_ANTENNA, 0x100b, 1); /* 0B10FC00 8FAAAAAA AAAAAAAA AAAAAAAA */ -+DEF_IE(100_IE_DOT11_INVAL_100C, 0x100c, -1); -+DEF_IE(100_IE_DOT11_TX_POWER_LEVEL, 0x100d, 2); /* 00000000 0100AAAA AAAAAAAA AAAAAAAA */ -+DEF_IE(100_IE_DOT11_CURRENT_CCA_MODE, 0x100e, 1); /* 0E10FC00 0DAAAAAA AAAAAAAA AAAAAAAA */ -+DEF_IE(100_IE_DOT11_ED_THRESHOLD, 0x100f, 4); /* 0F10FC00 70000000 AAAAAAAA AAAAAAAA */ -+/* set default key ID */ -+DEF_IE(100_IE_DOT11_WEP_DEFAULT_KEY_SET, 0x1010, 1); /* 1010FC00 00AAAAAA AAAAAAAA AAAAAAAA */ -+DEF_IE(100_IE_DOT11_INVAL_1011, 0x1011, -1); -+DEF_IE(100_IE_DOT11_INVAL_1012, 0x1012, -1); -+DEF_IE(100_IE_DOT11_INVAL_1013, 0x1013, -1); -+DEF_IE(100_IE_DOT11_UNKNOWN_1014, 0x1014, 256); /* huge */ -+DEF_IE(100_IE_DOT11_UNKNOWN_1015, 0x1015, 256); /* huge */ -+DEF_IE(100_IE_DOT11_UNKNOWN_1016, 0x1016, 256); /* huge */ -+DEF_IE(100_IE_DOT11_UNKNOWN_1017, 0x1017, 256); /* huge */ -+DEF_IE(100_IE_DOT11_UNKNOWN_1018, 0x1018, 256); /* huge */ -+DEF_IE(100_IE_DOT11_UNKNOWN_1019, 0x1019, 256); /* huge */ -+#endif -+ -+#if 0 -+/* Experimentally obtained on PCI acx111 Xterasys XN-2522g, fw 1.2.1.34 -+** -1 means that fw returned 'invalid IE' -+** 0400 0800 nnnn... are test read contents: u16 type, u16 len, data -+** (AA are poison bytes marking bytes not written by fw) -+** -+** Looks like acx111 fw reports real len! -+*/ -+DEF_IE(111_IE_INVAL_00, 0x0000, -1); -+DEF_IE(111_IE_INVAL_01, 0x0001, -1); -+DEF_IE(111_IE_POWER_MGMT, 0x0002, 12); -+/* write only, variable len: 12 + rxqueue_cnt*8 + txqueue_cnt*4: */ -+DEF_IE(111_IE_MEMORY_CONFIG, 0x0003, 24); -+DEF_IE(111_IE_BLOCK_SIZE, 0x0004, 8); /* 04000800 AA00AAAA AAAAAAAA */ -+/* variable len: 8 + rxqueue_cnt*8 + txqueue_cnt*8: */ -+DEF_IE(111_IE_QUEUE_HEAD, 0x0005, 24); -+DEF_IE(111_IE_RATE_FALLBACK, 0x0006, 1); -+/* acx100 name:WEP_OPTIONS */ -+/* said to have len:1 (not true, actually returns 12 bytes): */ -+DEF_IE(111_IE_RADIO_BAND, 0x0007, 12); /* 07000C00 AAAA1F00 FF03AAAA AAAAAAAA */ -+DEF_IE(111_IE_MEMORY_MAP, 0x0008, 48); -+/* said to have len:4, but gives INVAL on read: */ -+DEF_IE(111_IE_SCAN_STATUS, 0x0009, -1); -+DEF_IE(111_IE_ASSOC_ID, 0x000a, 2); -+/* write only, len is not known: */ -+DEF_IE(111_IE_UNKNOWN_0B, 0x000b, 0); -+/* read only, variable len. I see 67 byte reads: */ -+DEF_IE(111_IE_CONFIG_OPTIONS, 0x000c, 67); /* 0C004300 01160500 ... */ -+DEF_IE(111_IE_FWREV, 0x000d, 24); -+DEF_IE(111_IE_FCS_ERROR_COUNT, 0x000e, 4); -+DEF_IE(111_IE_MEDIUM_USAGE, 0x000f, 8); -+DEF_IE(111_IE_RXCONFIG, 0x0010, 4); -+DEF_IE(111_IE_QUEUE_THRESH, 0x0011, 12); -+DEF_IE(111_IE_BSS_POWER_SAVE, 0x0012, 1); -+/* read only, variable len. I see 240 byte reads: */ -+DEF_IE(111_IE_FIRMWARE_STATISTICS, 0x0013, 240); /* 1300F000 00000000 ... */ -+/* said to have len=17. looks like fw pads it to 20: */ -+DEF_IE(111_IE_INT_CONFIG, 0x0014, 20); /* 14001400 00000000 00000000 00000000 00000000 00000000 */ -+DEF_IE(111_IE_FEATURE_CONFIG, 0x0015, 8); -+/* said to be name:KEY_INDICATOR, len:4, but gives INVAL on read: */ -+DEF_IE(111_IE_KEY_CHOOSE, 0x0016, -1); -+/* said to have len:4, but in fact returns 8: */ -+DEF_IE(111_IE_MAX_USB_XFR, 0x0017, 8); /* 17000800 00014000 00000000 */ -+DEF_IE(111_IE_INVAL_18, 0x0018, -1); -+DEF_IE(111_IE_INVAL_19, 0x0019, -1); -+/* undoc but returns something: */ -+/* huh, fw indicates len=20 but uses 4 more bytes in buffer??? */ -+DEF_IE(111_IE_UNKNOWN_1A, 0x001A, 20); /* 1A001400 AA00AAAA 0000020F FF030000 00020000 00000007 04000000 */ -+ -+DEF_IE(111_IE_DOT11_INVAL_1000, 0x1000, -1); -+DEF_IE(111_IE_DOT11_STATION_ID, 0x1001, 6); -+DEF_IE(111_IE_DOT11_FRAG_THRESH, 0x1002, 2); -+/* acx100 only? gives INVAL on read: */ -+DEF_IE(111_IE_DOT11_BEACON_PERIOD, 0x1003, -1); -+/* said to be MAX_RECV_MSDU_LIFETIME: */ -+DEF_IE(111_IE_DOT11_DTIM_PERIOD, 0x1004, 4); -+DEF_IE(111_IE_DOT11_SHORT_RETRY_LIMIT, 0x1005, 1); -+DEF_IE(111_IE_DOT11_LONG_RETRY_LIMIT, 0x1006, 1); -+/* acx100 only? gives INVAL on read: */ -+DEF_IE(111_IE_DOT11_WEP_DEFAULT_KEY_WRITE, 0x1007, -1); -+DEF_IE(111_IE_DOT11_MAX_XMIT_MSDU_LIFETIME, 0x1008, 4); -+/* undoc but returns something. maybe it's 2 multicast MACs to listen to? */ -+DEF_IE(111_IE_DOT11_GROUP_ADDR, 0x1009, 12); /* 09100C00 00000000 00000000 00000000 */ -+DEF_IE(111_IE_DOT11_CURRENT_REG_DOMAIN, 0x100a, 1); -+DEF_IE(111_IE_DOT11_CURRENT_ANTENNA, 0x100b, 2); -+DEF_IE(111_IE_DOT11_INVAL_100C, 0x100c, -1); -+DEF_IE(111_IE_DOT11_TX_POWER_LEVEL, 0x100d, 1); -+/* said to have len=1 but gives INVAL on read: */ -+DEF_IE(111_IE_DOT11_CURRENT_CCA_MODE, 0x100e, -1); -+/* said to have len=4 but gives INVAL on read: */ -+DEF_IE(111_IE_DOT11_ED_THRESHOLD, 0x100f, -1); -+/* set default key ID. write only: */ -+DEF_IE(111_IE_DOT11_WEP_DEFAULT_KEY_SET, 0x1010, 1); -+/* undoc but returns something: */ -+DEF_IE(111_IE_DOT11_UNKNOWN_1011, 0x1011, 1); /* 11100100 20 */ -+DEF_IE(111_IE_DOT11_INVAL_1012, 0x1012, -1); -+DEF_IE(111_IE_DOT11_INVAL_1013, 0x1013, -1); -+#endif -+ -+ -+/*********************************************************************** -+**Information Frames Structures -+*/ -+ -+/* Used in beacon frames and the like */ -+#define DOT11RATEBYTE_1 (1*2) -+#define DOT11RATEBYTE_2 (2*2) -+#define DOT11RATEBYTE_5_5 (5*2+1) -+#define DOT11RATEBYTE_11 (11*2) -+#define DOT11RATEBYTE_22 (22*2) -+#define DOT11RATEBYTE_6_G (6*2) -+#define DOT11RATEBYTE_9_G (9*2) -+#define DOT11RATEBYTE_12_G (12*2) -+#define DOT11RATEBYTE_18_G (18*2) -+#define DOT11RATEBYTE_24_G (24*2) -+#define DOT11RATEBYTE_36_G (36*2) -+#define DOT11RATEBYTE_48_G (48*2) -+#define DOT11RATEBYTE_54_G (54*2) -+#define DOT11RATEBYTE_BASIC 0x80 /* flags rates included in basic rate set */ -+ -+ -+/*********************************************************************** -+** rxbuffer_t -+** -+** This is the format of rx data returned by acx -+*/ -+ -+/* I've hoped it's a 802.11 PHY header, but no... -+ * so far, I've seen on acx111: -+ * 0000 3a00 0000 0000 IBSS Beacons -+ * 0000 3c00 0000 0000 ESS Beacons -+ * 0000 2700 0000 0000 Probe requests -+ * --vda -+ */ -+typedef struct phy_hdr { -+ u8 unknown[4]; -+ u8 acx111_unknown[4]; -+} ACX_PACKED phy_hdr_t; -+ -+/* seems to be a bit similar to hfa384x_rx_frame. -+ * These fields are still not quite obvious, though. -+ * Some seem to have different meanings... */ -+ -+#define RXBUF_HDRSIZE 12 -+#define RXBUF_BYTES_RCVD(adev, rxbuf) \ -+ ((le16_to_cpu((rxbuf)->mac_cnt_rcvd) & 0xfff) - (adev)->phy_header_len) -+#define RXBUF_BYTES_USED(rxbuf) \ -+ ((le16_to_cpu((rxbuf)->mac_cnt_rcvd) & 0xfff) + RXBUF_HDRSIZE) -+/* USBism */ -+#define RXBUF_IS_TXSTAT(rxbuf) (le16_to_cpu((rxbuf)->mac_cnt_rcvd) & 0x8000) -+/* -+mac_cnt_rcvd: -+ 12 bits: length of frame from control field to first byte of FCS -+ 3 bits: reserved -+ 1 bit: 1 = it's a tx status info, not a rx packet (USB only) -+ -+mac_cnt_mblks: -+ 6 bits: number of memory block used to store frame in adapter memory -+ 1 bit: Traffic Indicator bit in TIM of received Beacon was set -+ -+mac_status: 1 byte (bitmap): -+ 7 Matching BSSID -+ 6 Matching SSID -+ 5 BDCST Address 1 field is a broadcast -+ 4 VBM received beacon frame has more than one set bit (?!) -+ 3 TIM Set bit representing this station is set in TIM of received beacon -+ 2 GROUP Address 1 is a multicast -+ 1 ADDR1 Address 1 matches our MAC -+ 0 FCSGD FSC is good -+ -+phy_stat_baseband: 1 byte (bitmap): -+ 7 Preamble frame had a long preamble -+ 6 PLCP Error CRC16 error in PLCP header -+ 5 Unsup_Mod unsupported modulation -+ 4 Selected Antenna antenna 1 was used to receive this frame -+ 3 PBCC/CCK frame used: 1=PBCC, 0=CCK modulation -+ 2 OFDM frame used OFDM modulation -+ 1 TI Protection protection frame was detected -+ 0 Reserved -+ -+phy_plcp_signal: 1 byte: -+ Receive PLCP Signal field from the Baseband Processor -+ -+phy_level: 1 byte: -+ receive AGC gain level (can be used to measure receive signal strength) -+ -+phy_snr: 1 byte: -+ estimated noise power of equalized receive signal -+ at input of FEC decoder (can be used to measure receive signal quality) -+ -+time: 4 bytes: -+ timestamp sampled from either the Access Manager TSF counter -+ or free-running microsecond counter when the MAC receives -+ first byte of PLCP header. -+*/ -+ -+typedef struct rxbuffer { -+ u16 mac_cnt_rcvd; /* only 12 bits are len! (0xfff) */ -+ u8 mac_cnt_mblks; -+ u8 mac_status; -+ u8 phy_stat_baseband; /* bit 0x80: used LNA (Low-Noise Amplifier) */ -+ u8 phy_plcp_signal; -+ u8 phy_level; /* PHY stat */ -+ u8 phy_snr; /* PHY stat */ -+ u32 time; /* timestamp upon MAC rcv first byte */ -+/* 4-byte (acx100) or 8-byte (acx111) phy header will be here -+** if RX_CFG1_INCLUDE_PHY_HDR is in effect: -+** phy_hdr_t phy */ -+ wlan_hdr_a3_t hdr_a3; -+ /* maximally sized data part of wlan packet */ -+ u8 data_a3[WLAN_A4FR_MAXLEN_WEP_FCS - WLAN_HDR_A3_LEN]; -+ /* can add hdr/data_a4 if needed */ -+} ACX_PACKED rxbuffer_t; -+ -+ -+/*--- Firmware statistics ----------------------------------------------------*/ -+ -+/* define a random 100 bytes more to catch firmware versions which -+ * provide a bigger struct */ -+#define FW_STATS_FUTURE_EXTENSION 100 -+ -+typedef struct fw_stats_tx { -+ u32 tx_desc_of; -+} ACX_PACKED fw_stats_tx_t; -+ -+typedef struct fw_stats_rx { -+ u32 rx_oom; -+ u32 rx_hdr_of; -+ u32 rx_hw_stuck; /* old: u32 rx_hdr_use_next */ -+ u32 rx_dropped_frame; -+ u32 rx_frame_ptr_err; -+ u32 rx_xfr_hint_trig; -+ u32 rx_aci_events; /* later versions only */ -+ u32 rx_aci_resets; /* later versions only */ -+} ACX_PACKED fw_stats_rx_t; -+ -+typedef struct fw_stats_dma { -+ u32 rx_dma_req; -+ u32 rx_dma_err; -+ u32 tx_dma_req; -+ u32 tx_dma_err; -+} ACX_PACKED fw_stats_dma_t; -+ -+typedef struct fw_stats_irq { -+ u32 cmd_cplt; -+ u32 fiq; -+ u32 rx_hdrs; -+ u32 rx_cmplt; -+ u32 rx_mem_of; -+ u32 rx_rdys; -+ u32 irqs; -+ u32 tx_procs; -+ u32 decrypt_done; -+ u32 dma_0_done; -+ u32 dma_1_done; -+ u32 tx_exch_complet; -+ u32 commands; -+ u32 rx_procs; -+ u32 hw_pm_mode_changes; -+ u32 host_acks; -+ u32 pci_pm; -+ u32 acm_wakeups; -+} ACX_PACKED fw_stats_irq_t; -+ -+typedef struct fw_stats_wep { -+ u32 wep_key_count; -+ u32 wep_default_key_count; -+ u32 dot11_def_key_mib; -+ u32 wep_key_not_found; -+ u32 wep_decrypt_fail; -+ u32 wep_pkt_decrypt; -+ u32 wep_decrypt_irqs; -+} ACX_PACKED fw_stats_wep_t; -+ -+typedef struct fw_stats_pwr { -+ u32 tx_start_ctr; -+ u32 no_ps_tx_too_short; -+ u32 rx_start_ctr; -+ u32 no_ps_rx_too_short; -+ u32 lppd_started; -+ u32 no_lppd_too_noisy; -+ u32 no_lppd_too_short; -+ u32 no_lppd_matching_frame; -+} ACX_PACKED fw_stats_pwr_t; -+ -+typedef struct fw_stats_mic { -+ u32 mic_rx_pkts; -+ u32 mic_calc_fail; -+} ACX_PACKED fw_stats_mic_t; -+ -+typedef struct fw_stats_aes { -+ u32 aes_enc_fail; -+ u32 aes_dec_fail; -+ u32 aes_enc_pkts; -+ u32 aes_dec_pkts; -+ u32 aes_enc_irq; -+ u32 aes_dec_irq; -+} ACX_PACKED fw_stats_aes_t; -+ -+typedef struct fw_stats_event { -+ u32 heartbeat; -+ u32 calibration; -+ u32 rx_mismatch; -+ u32 rx_mem_empty; -+ u32 rx_pool; -+ u32 oom_late; -+ u32 phy_tx_err; -+ u32 tx_stuck; -+} ACX_PACKED fw_stats_event_t; -+ -+/* mainly for size calculation only */ -+typedef struct fw_stats { -+ u16 type; -+ u16 len; -+ fw_stats_tx_t tx; -+ fw_stats_rx_t rx; -+ fw_stats_dma_t dma; -+ fw_stats_irq_t irq; -+ fw_stats_wep_t wep; -+ fw_stats_pwr_t pwr; -+ fw_stats_mic_t mic; -+ fw_stats_aes_t aes; -+ fw_stats_event_t evt; -+ u8 _padding[FW_STATS_FUTURE_EXTENSION]; -+} fw_stats_t; -+ -+/* Firmware version struct */ -+ -+typedef struct fw_ver { -+ u16 cmd; -+ u16 size; -+ char fw_id[20]; -+ u32 hw_id; -+} ACX_PACKED fw_ver_t; -+ -+#define FW_ID_SIZE 20 -+ -+typedef struct shared_queueindicator { -+ u32 indicator; -+ u16 host_lock; -+ u16 fw_lock; -+} ACX_PACKED queueindicator_t; -+ -+/*--- WEP stuff --------------------------------------------------------------*/ -+#define DOT11_MAX_DEFAULT_WEP_KEYS 4 -+ -+/* non-firmware struct, no packing necessary */ -+typedef struct wep_key { -+ size_t size; /* most often used member first */ -+ u8 index; -+ u8 key[29]; -+ u16 strange_filler; -+} wep_key_t; /* size = 264 bytes (33*8) */ -+/* FIXME: We don't have size 264! Or is there 2 bytes beyond the key -+ * (strange_filler)? */ -+ -+/* non-firmware struct, no packing necessary */ -+typedef struct key_struct { -+ u8 addr[ETH_ALEN]; /* 0x00 */ -+ u16 filler1; /* 0x06 */ -+ u32 filler2; /* 0x08 */ -+ u32 index; /* 0x0c */ -+ u16 len; /* 0x10 */ -+ u8 key[29]; /* 0x12; is this long enough??? */ -+} key_struct_t; /* size = 276. FIXME: where is the remaining space?? */ -+ -+ -+/*--- Client (peer) info -----------------------------------------------------*/ -+/* adev->sta_list[] is used for: -+** accumulating and processing of scan results -+** keeping client info in AP mode -+** keeping AP info in STA mode (AP is the only one 'client') -+** keeping peer info in ad-hoc mode -+** non-firmware struct --> no packing necessary */ -+enum { -+ CLIENT_EMPTY_SLOT_0 = 0, -+ CLIENT_EXIST_1 = 1, -+ CLIENT_AUTHENTICATED_2 = 2, -+ CLIENT_ASSOCIATED_3 = 3, -+ CLIENT_JOIN_CANDIDATE = 4 -+}; -+struct client { -+ /* most frequent access first */ -+ u8 used; /* misnamed, more like 'status' */ -+ struct client* next; -+ unsigned long mtime; /* last time we heard it, in jiffies */ -+ size_t essid_len; /* length of ESSID (without '\0') */ -+ u32 sir; /* Standard IR */ -+ u32 snr; /* Signal to Noise Ratio */ -+ u16 aid; /* association ID */ -+ u16 seq; /* from client's auth req */ -+ u16 auth_alg; /* from client's auth req */ -+ u16 cap_info; /* from client's assoc req */ -+ u16 rate_cap; /* what client supports (all rates) */ -+ u16 rate_bas; /* what client supports (basic rates) */ -+ u16 rate_cfg; /* what is allowed (by iwconfig etc) */ -+ u16 rate_cur; /* currently used rate mask */ -+ u8 rate_100; /* currently used rate byte (acx100 only) */ -+ u8 address[ETH_ALEN]; -+ u8 bssid[ETH_ALEN]; /* ad-hoc hosts can have bssid != mac */ -+ u8 channel; -+ u8 auth_step; -+ u8 ignore_count; -+ u8 fallback_count; -+ u8 stepup_count; -+ char essid[IW_ESSID_MAX_SIZE + 1]; /* ESSID and trailing '\0' */ -+/* FIXME: this one is too damn big */ -+ char challenge_text[WLAN_CHALLENGE_LEN]; -+}; -+ -+ -+/*********************************************************************** -+** Hardware structures -+*/ -+ -+/* An opaque typesafe helper type -+ * -+ * Some hardware fields are actually pointers, -+ * but they have to remain u32, since using ptr instead -+ * (8 bytes on 64bit systems!) would disrupt the fixed descriptor -+ * format the acx firmware expects in the non-user area. -+ * Since we cannot cram an 8 byte ptr into 4 bytes, we need to -+ * enforce that pointed to data remains in low memory -+ * (address value needs to fit in 4 bytes) on 64bit systems. -+ * -+ * This is easy to get wrong, thus we are using a small struct -+ * and special macros to access it. Macros will check for -+ * attempts to overflow an acx_ptr with value > 0xffffffff. -+ * -+ * Attempts to use acx_ptr without macros result in compile-time errors */ -+ -+typedef struct { -+ u32 v; -+} ACX_PACKED acx_ptr; -+ -+#if ACX_DEBUG -+#define CHECK32(n) BUG_ON(sizeof(n)>4 && (long)(n)>0xffffff00) -+#else -+#define CHECK32(n) ((void)0) -+#endif -+ -+/* acx_ptr <-> integer conversion */ -+#define cpu2acx(n) ({ CHECK32(n); ((acx_ptr){ .v = cpu_to_le32(n) }); }) -+#define acx2cpu(a) (le32_to_cpu(a.v)) -+ -+/* acx_ptr <-> pointer conversion */ -+#define ptr2acx(p) ({ CHECK32(p); ((acx_ptr){ .v = cpu_to_le32((u32)(long)(p)) }); }) -+#define acx2ptr(a) ((void*)le32_to_cpu(a.v)) -+ -+/* Values for rate field (acx100 only) */ -+#define RATE100_1 10 -+#define RATE100_2 20 -+#define RATE100_5 55 -+#define RATE100_11 110 -+#define RATE100_22 220 -+/* This bit denotes use of PBCC: -+** (PBCC encoding is usable with 11 and 22 Mbps speeds only) */ -+#define RATE100_PBCC511 0x80 -+ -+/* Bit values for rate111 field */ -+#define RATE111_1 0x0001 /* DBPSK */ -+#define RATE111_2 0x0002 /* DQPSK */ -+#define RATE111_5 0x0004 /* CCK or PBCC */ -+#define RATE111_6 0x0008 /* CCK-OFDM or OFDM */ -+#define RATE111_9 0x0010 /* CCK-OFDM or OFDM */ -+#define RATE111_11 0x0020 /* CCK or PBCC */ -+#define RATE111_12 0x0040 /* CCK-OFDM or OFDM */ -+#define RATE111_18 0x0080 /* CCK-OFDM or OFDM */ -+#define RATE111_22 0x0100 /* PBCC */ -+#define RATE111_24 0x0200 /* CCK-OFDM or OFDM */ -+#define RATE111_36 0x0400 /* CCK-OFDM or OFDM */ -+#define RATE111_48 0x0800 /* CCK-OFDM or OFDM */ -+#define RATE111_54 0x1000 /* CCK-OFDM or OFDM */ -+#define RATE111_RESERVED 0x2000 -+#define RATE111_PBCC511 0x4000 /* PBCC mod at 5.5 or 11Mbit (else CCK) */ -+#define RATE111_SHORTPRE 0x8000 /* short preamble */ -+/* Special 'try everything' value */ -+#define RATE111_ALL 0x1fff -+/* These bits denote acx100 compatible settings */ -+#define RATE111_ACX100_COMPAT 0x0127 -+/* These bits denote 802.11b compatible settings */ -+#define RATE111_80211B_COMPAT 0x0027 -+ -+/* Descriptor Ctl field bits -+ * init value is 0x8e, "idle" value is 0x82 (in idle tx descs) -+ */ -+#define DESC_CTL_SHORT_PREAMBLE 0x01 /* preamble type: 0 = long; 1 = short */ -+#define DESC_CTL_FIRSTFRAG 0x02 /* this is the 1st frag of the frame */ -+#define DESC_CTL_AUTODMA 0x04 -+#define DESC_CTL_RECLAIM 0x08 /* ready to reuse */ -+#define DESC_CTL_HOSTDONE 0x20 /* host has finished processing */ -+#define DESC_CTL_ACXDONE 0x40 /* acx has finished processing */ -+/* host owns the desc [has to be released last, AFTER modifying all other desc fields!] */ -+#define DESC_CTL_HOSTOWN 0x80 -+#define DESC_CTL_ACXDONE_HOSTOWN (DESC_CTL_ACXDONE | DESC_CTL_HOSTOWN) -+ -+/* Descriptor Status field -+ */ -+#define DESC_STATUS_FULL (1 << 31) -+ -+/* NB: some bits may be interesting for Monitor mode tx (aka Raw tx): */ -+#define DESC_CTL2_SEQ 0x01 /* don't increase sequence field */ -+#define DESC_CTL2_FCS 0x02 /* don't add the FCS */ -+#define DESC_CTL2_MORE_FRAG 0x04 -+#define DESC_CTL2_RETRY 0x08 /* don't increase retry field */ -+#define DESC_CTL2_POWER 0x10 /* don't increase power mgmt. field */ -+#define DESC_CTL2_RTS 0x20 /* do RTS/CTS magic before sending */ -+#define DESC_CTL2_WEP 0x40 /* encrypt this frame */ -+#define DESC_CTL2_DUR 0x80 /* don't increase duration field */ -+ -+/*********************************************************************** -+** PCI structures -+*/ -+/* IRQ Constants -+** (outside of "#ifdef PCI" because USB (mis)uses HOST_INT_SCAN_COMPLETE) */ -+#define HOST_INT_RX_DATA 0x0001 -+#define HOST_INT_TX_COMPLETE 0x0002 -+#define HOST_INT_TX_XFER 0x0004 -+#define HOST_INT_RX_COMPLETE 0x0008 -+#define HOST_INT_DTIM 0x0010 -+#define HOST_INT_BEACON 0x0020 -+#define HOST_INT_TIMER 0x0040 -+#define HOST_INT_KEY_NOT_FOUND 0x0080 -+#define HOST_INT_IV_ICV_FAILURE 0x0100 -+#define HOST_INT_CMD_COMPLETE 0x0200 -+#define HOST_INT_INFO 0x0400 -+#define HOST_INT_OVERFLOW 0x0800 -+#define HOST_INT_PROCESS_ERROR 0x1000 -+#define HOST_INT_SCAN_COMPLETE 0x2000 -+#define HOST_INT_FCS_THRESHOLD 0x4000 -+#define HOST_INT_UNKNOWN 0x8000 -+ -+/* Outside of "#ifdef PCI" because USB needs to know sizeof() -+** of txdesc and rxdesc: */ -+struct txdesc { -+ acx_ptr pNextDesc; /* pointer to next txdesc */ -+ acx_ptr HostMemPtr; /* 0x04 */ -+ acx_ptr AcxMemPtr; /* 0x08 */ -+ u32 tx_time; /* 0x0c */ -+ u16 total_length; /* 0x10 */ -+ u16 Reserved; /* 0x12 */ -+ -+/* The following 16 bytes do not change when acx100 owns the descriptor */ -+/* BUG: fw clears last byte of this area which is supposedly reserved -+** for driver use. amd64 blew up. We dare not use it now */ -+ u32 dummy[4]; -+ -+ u8 Ctl_8; /* 0x24, 8bit value */ -+ u8 Ctl2_8; /* 0x25, 8bit value */ -+ u8 error; /* 0x26 */ -+ u8 ack_failures; /* 0x27 */ -+ -+ union { -+ /* -+ * Packing doesn't work correctly on ARM unless unions are on -+ * 4 byte boundaries. -+ */ -+ struct { -+ u8 rts_failures; /* 0x28 */ -+ u8 rts_ok; /* 0x29 */ -+ u16 d1; -+ } ACX_PACKED rts; -+ struct { -+ u16 d1; -+ u8 rate; /* 0x2a */ -+ u8 queue_ctrl; /* 0x2b */ -+ } ACX_PACKED r1; -+ struct { -+ u16 d1; -+ u16 rate111; /* 0x2a */ -+ } ACX_PACKED r2; -+ } ACX_PACKED u; -+ u32 queue_info; /* 0x2c (acx100, reserved on acx111) */ -+} ACX_PACKED; /* size : 48 = 0x30 */ -+/* NB: acx111 txdesc structure is 4 byte larger */ -+/* All these 4 extra bytes are reserved. tx alloc code takes them into account */ -+ -+struct rxdesc { -+ acx_ptr pNextDesc; /* 0x00 */ -+ acx_ptr HostMemPtr; /* 0x04 */ -+ acx_ptr ACXMemPtr; /* 0x08 */ -+ u32 rx_time; /* 0x0c */ -+ u16 total_length; /* 0x10 */ -+ u16 WEP_length; /* 0x12 */ -+ u32 WEP_ofs; /* 0x14 */ -+ -+/* the following 16 bytes do not change when acx100 owns the descriptor */ -+ u8 driverWorkspace[16]; /* 0x18 */ -+ -+ u8 Ctl_8; -+ u8 rate; -+ u8 error; -+ u8 SNR; /* Signal-to-Noise Ratio */ -+ u8 RxLevel; -+ u8 queue_ctrl; -+ u16 unknown; -+ u32 unknown2; -+} ACX_PACKED; /* size 52 = 0x34 */ -+ -+#if defined(ACX_PCI) || defined(ACX_MEM) -+ -+/* Register I/O offsets */ -+#define ACX100_EEPROM_ID_OFFSET 0x380 -+ -+/* please add further ACX hardware register definitions only when -+ it turns out you need them in the driver, and please try to use -+ firmware functionality instead, since using direct I/O access instead -+ of letting the firmware do it might confuse the firmware's state -+ machine */ -+ -+/* ***** ABSOLUTELY ALWAYS KEEP OFFSETS IN SYNC WITH THE INITIALIZATION -+** OF THE I/O ARRAYS!!!! (grep for '^IO_ACX') ***** */ -+enum { -+ IO_ACX_SOFT_RESET = 0, -+ -+ IO_ACX_SLV_MEM_ADDR, -+ IO_ACX_SLV_MEM_DATA, -+ IO_ACX_SLV_MEM_CTL, -+ IO_ACX_SLV_END_CTL, -+ -+ IO_ACX_FEMR, /* Function Event Mask */ -+ -+ IO_ACX_INT_TRIG, -+ IO_ACX_IRQ_MASK, -+ IO_ACX_IRQ_STATUS_NON_DES, -+ IO_ACX_IRQ_STATUS_CLEAR, /* CLEAR = clear on read */ -+ IO_ACX_IRQ_ACK, -+ IO_ACX_HINT_TRIG, -+ -+ IO_ACX_ENABLE, -+ -+ IO_ACX_EEPROM_CTL, -+ IO_ACX_EEPROM_ADDR, -+ IO_ACX_EEPROM_DATA, -+ IO_ACX_EEPROM_CFG, -+ -+ IO_ACX_PHY_ADDR, -+ IO_ACX_PHY_DATA, -+ IO_ACX_PHY_CTL, -+ -+ IO_ACX_GPIO_OE, -+ -+ IO_ACX_GPIO_OUT, -+ -+ IO_ACX_CMD_MAILBOX_OFFS, -+ IO_ACX_INFO_MAILBOX_OFFS, -+ IO_ACX_EEPROM_INFORMATION, -+ -+ IO_ACX_EE_START, -+ IO_ACX_SOR_CFG, -+ IO_ACX_ECPU_CTRL -+}; -+/* ***** ABSOLUTELY ALWAYS KEEP OFFSETS IN SYNC WITH THE INITIALIZATION -+** OF THE I/O ARRAYS!!!! (grep for '^IO_ACX') ***** */ -+ -+/* Values for IO_ACX_INT_TRIG register: */ -+/* inform hw that rxdesc in queue needs processing */ -+#define INT_TRIG_RXPRC 0x08 -+/* inform hw that txdesc in queue needs processing */ -+#define INT_TRIG_TXPRC 0x04 -+/* ack that we received info from info mailbox */ -+#define INT_TRIG_INFOACK 0x02 -+/* inform hw that we have filled command mailbox */ -+#define INT_TRIG_CMD 0x01 -+ -+struct txhostdesc { -+ acx_ptr data_phy; /* 0x00 [u8 *] */ -+ u16 data_offset; /* 0x04 */ -+ u16 reserved; /* 0x06 */ -+ u16 Ctl_16; /* 16bit value, endianness!! */ -+ u16 length; /* 0x0a */ -+ acx_ptr desc_phy_next; /* 0x0c [txhostdesc *] */ -+ acx_ptr pNext; /* 0x10 [txhostdesc *] */ -+ u32 Status; /* 0x14, unused on Tx */ -+/* From here on you can use this area as you want (variable length, too!) */ -+ u8 *data; -+} ACX_PACKED; -+ -+struct rxhostdesc { -+ acx_ptr data_phy; /* 0x00 [rxbuffer_t *] */ -+ u16 data_offset; /* 0x04 */ -+ u16 reserved; /* 0x06 */ -+ u16 Ctl_16; /* 0x08; 16bit value, endianness!! */ -+ u16 length; /* 0x0a */ -+ acx_ptr desc_phy_next; /* 0x0c [rxhostdesc_t *] */ -+ acx_ptr pNext; /* 0x10 [rxhostdesc_t *] */ -+ u32 Status; /* 0x14 */ -+/* From here on you can use this area as you want (variable length, too!) */ -+ rxbuffer_t *data; -+} ACX_PACKED; -+ -+#endif /* ACX_PCI */ -+ -+/*********************************************************************** -+** USB structures and constants -+*/ -+#ifdef ACX_USB -+ -+/* Used for usb_txbuffer.desc field */ -+#define USB_TXBUF_TXDESC 0xA -+/* Size of header (everything up to data[]) */ -+#define USB_TXBUF_HDRSIZE 14 -+typedef struct usb_txbuffer { -+ u16 desc; -+ u16 mpdu_len; -+ u8 queue_index; -+ u8 rate; -+ u32 hostdata; -+ u8 ctrl1; -+ u8 ctrl2; -+ u16 data_len; -+ /* wlan packet content is placed here: */ -+ u8 data[WLAN_A4FR_MAXLEN_WEP_FCS]; -+} ACX_PACKED usb_txbuffer_t; -+ -+/* USB returns either rx packets (see rxbuffer) or -+** these "tx status" structs: */ -+typedef struct usb_txstatus { -+ u16 mac_cnt_rcvd; /* only 12 bits are len! (0xfff) */ -+ u8 queue_index; -+ u8 mac_status; /* seen 0x20 on tx failure */ -+ u32 hostdata; -+ u8 rate; -+ u8 ack_failures; -+ u8 rts_failures; -+ u8 rts_ok; -+} ACX_PACKED usb_txstatus_t; -+ -+typedef struct usb_tx { -+ unsigned busy:1; -+ struct urb *urb; -+ acx_device_t *adev; -+ /* actual USB bulk output data block is here: */ -+ usb_txbuffer_t bulkout; -+} usb_tx_t; -+ -+struct usb_rx_plain { -+ unsigned busy:1; -+ struct urb *urb; -+ acx_device_t *adev; -+ rxbuffer_t bulkin; -+}; -+ -+typedef struct usb_rx { -+ unsigned busy:1; -+ struct urb *urb; -+ acx_device_t *adev; -+ rxbuffer_t bulkin; -+ /* Make entire structure 4k. Report if it breaks something. */ -+ u8 padding[4*1024 - sizeof(struct usb_rx_plain)]; -+} usb_rx_t; -+#endif /* ACX_USB */ -+ -+ -+/* Config Option structs */ -+ -+typedef struct co_antennas { -+ u8 type; -+ u8 len; -+ u8 list[2]; -+} ACX_PACKED co_antennas_t; -+ -+typedef struct co_powerlevels { -+ u8 type; -+ u8 len; -+ u16 list[8]; -+} ACX_PACKED co_powerlevels_t; -+ -+typedef struct co_datarates { -+ u8 type; -+ u8 len; -+ u8 list[8]; -+} ACX_PACKED co_datarates_t; -+ -+typedef struct co_domains { -+ u8 type; -+ u8 len; -+ u8 list[6]; -+} ACX_PACKED co_domains_t; -+ -+typedef struct co_product_id { -+ u8 type; -+ u8 len; -+ u8 list[128]; -+} ACX_PACKED co_product_id_t; -+ -+typedef struct co_manuf_id { -+ u8 type; -+ u8 len; -+ u8 list[128]; -+} ACX_PACKED co_manuf_t; -+ -+typedef struct co_fixed { -+ char NVSv[8]; -+/* u16 NVS_vendor_offs; ACX111-only */ -+/* u16 unknown; ACX111-only */ -+ u8 MAC[6]; /* ACX100-only */ -+ u16 probe_delay; /* ACX100-only */ -+ u32 eof_memory; -+ u8 dot11CCAModes; -+ u8 dot11Diversity; -+ u8 dot11ShortPreambleOption; -+ u8 dot11PBCCOption; -+ u8 dot11ChannelAgility; -+ u8 dot11PhyType; /* FIXME: does 802.11 call it "dot11PHYType"? */ -+ u8 dot11TempType; -+ u8 table_count; -+} ACX_PACKED co_fixed_t; -+ -+typedef struct acx111_ie_configoption { -+ u16 type; -+ u16 len; -+/* Do not access below members directly, they are in fact variable length */ -+ co_fixed_t fixed; -+ co_antennas_t antennas; -+ co_powerlevels_t power_levels; -+ co_datarates_t data_rates; -+ co_domains_t domains; -+ co_product_id_t product_id; -+ co_manuf_t manufacturer; -+ u8 _padding[4]; -+} ACX_PACKED acx111_ie_configoption_t; -+ -+ -+/*********************************************************************** -+** Main acx per-device data structure -+*/ -+#define ACX_STATE_FW_LOADED 0x01 -+#define ACX_STATE_IFACE_UP 0x02 -+ -+/* MAC mode (BSS type) defines -+ * Note that they shouldn't be redefined, since they are also used -+ * during communication with firmware */ -+#define ACX_MODE_0_ADHOC 0 -+#define ACX_MODE_1_UNUSED 1 -+#define ACX_MODE_2_STA 2 -+#define ACX_MODE_3_AP 3 -+/* These are our own inventions. Sending these to firmware -+** makes it stop emitting beacons, which is exactly what we want -+** for these modes */ -+#define ACX_MODE_MONITOR 0xfe -+#define ACX_MODE_OFF 0xff -+/* 'Submode': identifies exact status of ADHOC/STA host */ -+#define ACX_STATUS_0_STOPPED 0 -+#define ACX_STATUS_1_SCANNING 1 -+#define ACX_STATUS_2_WAIT_AUTH 2 -+#define ACX_STATUS_3_AUTHENTICATED 3 -+#define ACX_STATUS_4_ASSOCIATED 4 -+ -+/* FIXME: this should be named something like struct acx_priv (typedef'd to -+ * acx_priv_t) */ -+ -+/* non-firmware struct, no packing necessary */ -+struct acx_device { -+ /* most frequent accesses first (dereferencing and cache line!) */ -+ -+ /*** Locking ***/ -+ /* FIXME: try to convert semaphore to more efficient mutex according -+ to Ingo Molnar's docs (but not before driver is in mainline or -+ pre-mutex Linux 2.6.10 is very outdated). */ -+ struct semaphore sem; -+ spinlock_t lock; -+#if defined(PARANOID_LOCKING) /* Lock debugging */ -+ const char *last_sem; -+ const char *last_lock; -+ unsigned long sem_time; -+ unsigned long lock_time; -+#endif -+#ifdef ACX_MEM -+ spinlock_t txbuf_lock; -+#endif -+ -+ /*** Linux network device ***/ -+ struct net_device *ndev; /* pointer to linux netdevice */ -+ -+ /*** Device statistics ***/ -+ struct net_device_stats stats; /* net device statistics */ -+#ifdef WIRELESS_EXT -+ struct iw_statistics wstats; /* wireless statistics */ -+#endif -+ /*** Power managment ***/ -+ struct pm_dev *pm; /* PM crap */ -+ -+ /*** Management timer ***/ -+ struct timer_list mgmt_timer; -+ -+ /*** Hardware identification ***/ -+ const char *chip_name; -+ u8 dev_type; -+ u8 chip_type; -+ u8 form_factor; -+ u8 radio_type; -+ u8 eeprom_version; -+ -+ /*** Config retrieved from EEPROM ***/ -+ char cfgopt_NVSv[8]; -+ u16 cfgopt_NVS_vendor_offs; -+ u8 cfgopt_MAC[6]; -+ u16 cfgopt_probe_delay; -+ u32 cfgopt_eof_memory; -+ u8 cfgopt_dot11CCAModes; -+ u8 cfgopt_dot11Diversity; -+ u8 cfgopt_dot11ShortPreambleOption; -+ u8 cfgopt_dot11PBCCOption; -+ u8 cfgopt_dot11ChannelAgility; -+ u8 cfgopt_dot11PhyType; -+ u8 cfgopt_dot11TempType; -+ co_antennas_t cfgopt_antennas; -+ co_powerlevels_t cfgopt_power_levels; -+ co_datarates_t cfgopt_data_rates; -+ co_domains_t cfgopt_domains; -+ co_product_id_t cfgopt_product_id; -+ co_manuf_t cfgopt_manufacturer; -+ -+ /*** Firmware identification ***/ -+ char firmware_version[FW_ID_SIZE+1]; -+ u32 firmware_numver; -+ u32 firmware_id; -+ const u16 *ie_len; -+ const u16 *ie_len_dot11; -+ -+ /*** Device state ***/ -+ u16 dev_state_mask; -+ u8 led_power; /* power LED status */ -+ u32 get_mask; /* mask of settings to fetch from the card */ -+ u32 set_mask; /* mask of settings to write to the card */ -+ -+ /* Barely used in USB case */ -+ u16 irq_status; -+ -+ u8 after_interrupt_jobs; /* mini job list for doing actions after an interrupt occurred */ -+ WORK_STRUCT after_interrupt_task; /* our task for after interrupt actions */ -+ -+ /*** scanning ***/ -+ u16 scan_count; /* number of times to do channel scan */ -+ u8 scan_mode; /* 0 == active, 1 == passive, 2 == background */ -+ u8 scan_rate; -+ u16 scan_duration; -+ u16 scan_probe_delay; -+#if WIRELESS_EXT > 15 -+ struct iw_spy_data spy_data; /* FIXME: needs to be implemented! */ -+#endif -+ -+ /*** Wireless network settings ***/ -+ /* copy of the device address (ifconfig hw ether) that we actually use -+ ** for 802.11; copied over from the network device's MAC address -+ ** (ifconfig) when it makes sense only */ -+ u8 dev_addr[MAX_ADDR_LEN]; -+ u8 bssid[ETH_ALEN]; /* the BSSID after having joined */ -+ u8 ap[ETH_ALEN]; /* The AP we want, FF:FF:FF:FF:FF:FF is any */ -+ u16 aid; /* The Association ID sent from the AP / last used AID if we're an AP */ -+ u16 mode; /* mode from iwconfig */ -+ int monitor_type; /* ARPHRD_IEEE80211 or ARPHRD_IEEE80211_PRISM */ -+ u16 status; /* 802.11 association status */ -+ u8 essid_active; /* specific ESSID active, or select any? */ -+ u8 essid_len; /* to avoid dozens of strlen() */ -+ /* INCLUDES \0 termination for easy printf - but many places -+ ** simply want the string data memcpy'd plus a length indicator! -+ ** Keep that in mind... */ -+ char essid[IW_ESSID_MAX_SIZE+1]; -+ /* essid we are going to use for association, in case of "essid 'any'" -+ ** and in case of hidden ESSID (use configured ESSID then) */ -+ char essid_for_assoc[IW_ESSID_MAX_SIZE+1]; -+ char nick[IW_ESSID_MAX_SIZE+1]; /* see essid! */ -+ u8 channel; -+ u8 reg_dom_id; /* reg domain setting */ -+ u16 reg_dom_chanmask; -+ u16 auth_or_assoc_retries; -+ u16 scan_retries; -+ unsigned long scan_start; /* YES, jiffies is defined as "unsigned long" */ -+ -+ /* stations known to us (if we're an ap) */ -+ client_t sta_list[32]; /* tab is larger than list, so that */ -+ client_t *sta_hash_tab[64]; /* hash collisions are not likely */ -+ client_t *ap_client; /* this one is our AP (STA mode only) */ -+ -+ int dup_count; -+ int nondup_count; -+ unsigned long dup_msg_expiry; -+ u16 last_seq_ctrl; /* duplicate packet detection */ -+ -+ /* 802.11 power save mode */ -+ u8 ps_wakeup_cfg; -+ u8 ps_listen_interval; -+ u8 ps_options; -+ u8 ps_hangover_period; -+ u32 ps_enhanced_transition_time; -+ u32 ps_beacon_rx_time; -+ -+ /*** PHY settings ***/ -+ u8 fallback_threshold; -+ u8 stepup_threshold; -+ u16 rate_basic; -+ u16 rate_oper; -+ u16 rate_bcast; -+ u16 rate_bcast100; -+ u8 rate_auto; /* false if "iwconfig rate N" (WITHOUT 'auto'!) */ -+ u8 preamble_mode; /* 0 == Long Preamble, 1 == Short, 2 == Auto */ -+ u8 preamble_cur; -+ -+ u8 tx_disabled; -+ u8 tx_level_dbm; -+ /* u8 tx_level_val; */ -+ /* u8 tx_level_auto; whether to do automatic power adjustment */ -+ -+ unsigned long recalib_time_last_success; -+ unsigned long recalib_time_last_attempt; -+ int recalib_failure_count; -+ int recalib_msg_ratelimit; -+ int retry_errors_msg_ratelimit; -+ -+ unsigned long brange_time_last_state_change; /* time the power LED was last changed */ -+ u8 brange_last_state; /* last state of the LED */ -+ u8 brange_max_quality; /* maximum quality that equates to full speed */ -+ -+ u8 sensitivity; -+ u8 antenna; /* antenna settings */ -+ u8 ed_threshold; /* energy detect threshold */ -+ u8 cca; /* clear channel assessment */ -+ -+ u16 rts_threshold; -+ u16 frag_threshold; -+ u32 short_retry; -+ u32 long_retry; -+ u16 msdu_lifetime; -+ u16 listen_interval; /* given in units of beacon interval */ -+ u32 beacon_interval; -+ -+ u16 capabilities; -+ u8 rate_supported_len; -+ u8 rate_supported[13]; -+ -+ /*** Encryption settings (WEP) ***/ -+ u32 auth_alg; /* used in transmit_authen1 */ -+ u8 wep_enabled; -+ u8 wep_restricted; -+ u8 wep_current_index; -+ wep_key_t wep_keys[DOT11_MAX_DEFAULT_WEP_KEYS]; /* the default WEP keys */ -+ key_struct_t wep_key_struct[10]; -+ -+ /*** Unknown ***/ -+ u8 dtim_interval; -+ -+#ifdef ACX_MEM -+ u32 acx_txbuf_start; -+ int acx_txbuf_numblocks; -+ u32 acx_txbuf_free; /* addr of head of free list */ -+ int acx_txbuf_blocks_free; /* how many are still open */ -+ queueindicator_t *acx_queue_indicator; -+#endif -+ -+ /*** Card Rx/Tx management ***/ -+ u16 rx_config_1; -+ u16 rx_config_2; -+ u16 memblocksize; -+ unsigned int tx_free; -+ unsigned int tx_head; /* keep as close as possible to Tx stuff below (cache line) */ -+ u16 phy_header_len; -+ -+/************************************************************************* -+ *** PCI/USB/... must be last or else hw agnostic code breaks horribly *** -+ *************************************************************************/ -+ -+ /* hack to let common code compile. FIXME */ -+ dma_addr_t rxhostdesc_startphy; -+ -+ /*** PCI stuff ***/ -+#if defined(ACX_PCI) || defined(ACX_MEM) -+ /* pointers to tx buffers, tx host descriptors (in host memory) -+ ** and tx descs in device memory */ -+ unsigned int tx_tail; -+ u8 *txbuf_start; -+ txhostdesc_t *txhostdesc_start; -+ txdesc_t *txdesc_start; /* points to PCI-mapped memory */ -+ dma_addr_t txbuf_startphy; -+ dma_addr_t txhostdesc_startphy; -+ /* sizes of above host memory areas */ -+ unsigned int txbuf_area_size; -+ unsigned int txhostdesc_area_size; -+ -+ unsigned int txdesc_size; /* size of txdesc; ACX111 = ACX100 + 4 */ -+ client_t *txc[TX_CNT]; -+ u16 txr[TX_CNT]; -+ -+ /* same for rx */ -+ unsigned int rx_tail; -+ rxbuffer_t *rxbuf_start; -+ rxhostdesc_t *rxhostdesc_start; -+ rxdesc_t *rxdesc_start; -+ /* physical addresses of above host memory areas */ -+ dma_addr_t rxbuf_startphy; -+ /* dma_addr_t rxhostdesc_startphy; */ -+ unsigned int rxbuf_area_size; -+ unsigned int rxhostdesc_area_size; -+ -+ u8 need_radio_fw; -+ u8 irqs_active; /* whether irq sending is activated */ -+ -+ const u16 *io; /* points to ACX100 or ACX111 PCI I/O register address set */ -+ -+#ifdef ACX_PCI -+ struct pci_dev *pdev; -+#endif -+#ifdef ACX_MEM -+ struct device *dev; -+#endif -+ -+#ifdef ACX_PCI -+ unsigned long membase; -+#endif -+#ifdef ACX_MEM -+ volatile u32 *membase; -+#endif -+ unsigned long membase2; -+#ifdef ACX_PCI -+ void __iomem *iobase; -+#endif -+#ifdef ACX_MEM -+ volatile u32 *iobase; -+#endif -+ void __iomem *iobase2; -+ /* command interface */ -+ u8 __iomem *cmd_area; -+ u8 __iomem *info_area; -+ -+ u16 irq_mask; /* interrupt types to mask out (not wanted) with many IRQs activated */ -+ u16 irq_mask_off; /* interrupt types to mask out (not wanted) with IRQs off */ -+ unsigned int irq_loops_this_jiffy; -+ unsigned long irq_last_jiffies; -+#endif -+ -+ /*** USB stuff ***/ -+#ifdef ACX_USB -+ struct usb_device *usbdev; -+ -+ rxbuffer_t rxtruncbuf; -+ -+ usb_tx_t *usb_tx; -+ usb_rx_t *usb_rx; -+ -+ int bulkinep; /* bulk-in endpoint */ -+ int bulkoutep; /* bulk-out endpoint */ -+ int rxtruncsize; -+#endif -+ -+}; -+ -+static inline acx_device_t* -+ndev2adev(struct net_device *ndev) -+{ -+ return netdev_priv(ndev); -+} -+ -+ -+/* For use with ACX1xx_IE_RXCONFIG */ -+/* bit description -+ * 13 include additional header (length etc.) *required* -+ * struct is defined in 'struct rxbuffer' -+ * is this bit acx100 only? does acx111 always put the header, -+ * and bit setting is irrelevant? --vda -+ * 10 receive frames only with SSID used in last join cmd -+ * 9 discard broadcast -+ * 8 receive packets for multicast address 1 -+ * 7 receive packets for multicast address 0 -+ * 6 discard all multicast packets -+ * 5 discard frames from foreign BSSID -+ * 4 discard frames with foreign destination MAC address -+ * 3 promiscuous mode (receive ALL frames, disable filter) -+ * 2 include FCS -+ * 1 include phy header -+ * 0 ??? -+ */ -+#define RX_CFG1_INCLUDE_RXBUF_HDR 0x2000 /* ACX100 only */ -+#define RX_CFG1_FILTER_SSID 0x0400 -+#define RX_CFG1_FILTER_BCAST 0x0200 -+#define RX_CFG1_RCV_MC_ADDR1 0x0100 -+#define RX_CFG1_RCV_MC_ADDR0 0x0080 -+#define RX_CFG1_FILTER_ALL_MULTI 0x0040 -+#define RX_CFG1_FILTER_BSSID 0x0020 -+#define RX_CFG1_FILTER_MAC 0x0010 -+#define RX_CFG1_RCV_PROMISCUOUS 0x0008 -+#define RX_CFG1_INCLUDE_FCS 0x0004 -+#define RX_CFG1_INCLUDE_PHY_HDR (WANT_PHY_HDR ? 0x0002 : 0) -+/* bit description -+ * 11 receive association requests etc. -+ * 10 receive authentication frames -+ * 9 receive beacon frames -+ * 8 receive contention free packets -+ * 7 receive control frames -+ * 6 receive data frames -+ * 5 receive broken frames -+ * 4 receive management frames -+ * 3 receive probe requests -+ * 2 receive probe responses -+ * 1 receive RTS/CTS/ACK frames -+ * 0 receive other -+ */ -+#define RX_CFG2_RCV_ASSOC_REQ 0x0800 -+#define RX_CFG2_RCV_AUTH_FRAMES 0x0400 -+#define RX_CFG2_RCV_BEACON_FRAMES 0x0200 -+#define RX_CFG2_RCV_CONTENTION_FREE 0x0100 -+#define RX_CFG2_RCV_CTRL_FRAMES 0x0080 -+#define RX_CFG2_RCV_DATA_FRAMES 0x0040 -+#define RX_CFG2_RCV_BROKEN_FRAMES 0x0020 -+#define RX_CFG2_RCV_MGMT_FRAMES 0x0010 -+#define RX_CFG2_RCV_PROBE_REQ 0x0008 -+#define RX_CFG2_RCV_PROBE_RESP 0x0004 -+#define RX_CFG2_RCV_ACK_FRAMES 0x0002 -+#define RX_CFG2_RCV_OTHER 0x0001 -+ -+/* For use with ACX1xx_IE_FEATURE_CONFIG */ -+#define FEATURE1_80MHZ_CLOCK 0x00000040L -+#define FEATURE1_4X 0x00000020L -+#define FEATURE1_LOW_RX 0x00000008L -+#define FEATURE1_EXTRA_LOW_RX 0x00000001L -+ -+#define FEATURE2_SNIFFER 0x00000080L -+#define FEATURE2_NO_TXCRYPT 0x00000001L -+ -+/*-- get and set mask values --*/ -+#define GETSET_LED_POWER 0x00000001L -+#define GETSET_STATION_ID 0x00000002L -+#define SET_TEMPLATES 0x00000004L -+#define SET_STA_LIST 0x00000008L -+#define GETSET_TX 0x00000010L -+#define GETSET_RX 0x00000020L -+#define SET_RXCONFIG 0x00000040L -+#define GETSET_ANTENNA 0x00000080L -+#define GETSET_SENSITIVITY 0x00000100L -+#define GETSET_TXPOWER 0x00000200L -+#define GETSET_ED_THRESH 0x00000400L -+#define GETSET_CCA 0x00000800L -+#define GETSET_POWER_80211 0x00001000L -+#define GETSET_RETRY 0x00002000L -+#define GETSET_REG_DOMAIN 0x00004000L -+#define GETSET_CHANNEL 0x00008000L -+/* Used when ESSID changes etc and we need to scan for AP anew */ -+#define GETSET_RESCAN 0x00010000L -+#define GETSET_MODE 0x00020000L -+#define GETSET_WEP 0x00040000L -+#define SET_WEP_OPTIONS 0x00080000L -+#define SET_MSDU_LIFETIME 0x00100000L -+#define SET_RATE_FALLBACK 0x00200000L -+ -+/* keep in sync with the above */ -+#define GETSET_ALL (0 \ -+/* GETSET_LED_POWER */ | 0x00000001L \ -+/* GETSET_STATION_ID */ | 0x00000002L \ -+/* SET_TEMPLATES */ | 0x00000004L \ -+/* SET_STA_LIST */ | 0x00000008L \ -+/* GETSET_TX */ | 0x00000010L \ -+/* GETSET_RX */ | 0x00000020L \ -+/* SET_RXCONFIG */ | 0x00000040L \ -+/* GETSET_ANTENNA */ | 0x00000080L \ -+/* GETSET_SENSITIVITY */| 0x00000100L \ -+/* GETSET_TXPOWER */ | 0x00000200L \ -+/* GETSET_ED_THRESH */ | 0x00000400L \ -+/* GETSET_CCA */ | 0x00000800L \ -+/* GETSET_POWER_80211 */| 0x00001000L \ -+/* GETSET_RETRY */ | 0x00002000L \ -+/* GETSET_REG_DOMAIN */ | 0x00004000L \ -+/* GETSET_CHANNEL */ | 0x00008000L \ -+/* GETSET_RESCAN */ | 0x00010000L \ -+/* GETSET_MODE */ | 0x00020000L \ -+/* GETSET_WEP */ | 0x00040000L \ -+/* SET_WEP_OPTIONS */ | 0x00080000L \ -+/* SET_MSDU_LIFETIME */ | 0x00100000L \ -+/* SET_RATE_FALLBACK */ | 0x00200000L \ -+ ) -+ -+ -+/*********************************************************************** -+** Firmware loading -+*/ -+#include <linux/firmware.h> /* request_firmware() */ -+#include <linux/pci.h> /* struct pci_device */ -+ -+ -+/*********************************************************************** -+*/ -+typedef struct acx100_ie_memblocksize { -+ u16 type; -+ u16 len; -+ u16 size; -+} ACX_PACKED acx100_ie_memblocksize_t; -+ -+typedef struct acx100_ie_queueconfig { -+ u16 type; -+ u16 len; -+ u32 AreaSize; -+ u32 RxQueueStart; -+ u8 QueueOptions; -+ u8 NumTxQueues; -+ u8 NumRxDesc; /* for USB only */ -+ u8 pad1; -+ u32 QueueEnd; -+ u32 HostQueueEnd; /* QueueEnd2 */ -+ u32 TxQueueStart; -+ u8 TxQueuePri; -+ u8 NumTxDesc; -+ u16 pad2; -+} ACX_PACKED acx100_ie_queueconfig_t; -+ -+typedef struct acx111_ie_queueconfig { -+ u16 type; -+ u16 len; -+ u32 tx_memory_block_address; -+ u32 rx_memory_block_address; -+ u32 rx1_queue_address; -+ u32 reserved1; -+ u32 tx1_queue_address; -+ u8 tx1_attributes; -+ u16 reserved2; -+ u8 reserved3; -+} ACX_PACKED acx111_ie_queueconfig_t; -+ -+typedef struct acx100_ie_memconfigoption { -+ u16 type; -+ u16 len; -+ u32 DMA_config; -+ acx_ptr pRxHostDesc; -+ u32 rx_mem; -+ u32 tx_mem; -+ u16 RxBlockNum; -+ u16 TxBlockNum; -+} ACX_PACKED acx100_ie_memconfigoption_t; -+ -+typedef struct acx111_ie_memoryconfig { -+ u16 type; -+ u16 len; -+ u16 no_of_stations; -+ u16 memory_block_size; -+ u8 tx_rx_memory_block_allocation; -+ u8 count_rx_queues; -+ u8 count_tx_queues; -+ u8 options; -+ u8 fragmentation; -+ u16 reserved1; -+ u8 reserved2; -+ -+ /* start of rx1 block */ -+ u8 rx_queue1_count_descs; -+ u8 rx_queue1_reserved1; -+ u8 rx_queue1_type; /* must be set to 7 */ -+ u8 rx_queue1_prio; /* must be set to 0 */ -+ acx_ptr rx_queue1_host_rx_start; -+ /* end of rx1 block */ -+ -+ /* start of tx1 block */ -+ u8 tx_queue1_count_descs; -+ u8 tx_queue1_reserved1; -+ u8 tx_queue1_reserved2; -+ u8 tx_queue1_attributes; -+ /* end of tx1 block */ -+} ACX_PACKED acx111_ie_memoryconfig_t; -+ -+typedef struct acx_ie_memmap { -+ u16 type; -+ u16 len; -+ u32 CodeStart; -+ u32 CodeEnd; -+ u32 WEPCacheStart; -+ u32 WEPCacheEnd; -+ u32 PacketTemplateStart; -+ u32 PacketTemplateEnd; -+ u32 QueueStart; -+ u32 QueueEnd; -+ u32 PoolStart; -+ u32 PoolEnd; -+} ACX_PACKED acx_ie_memmap_t; -+ -+typedef struct acx111_ie_feature_config { -+ u16 type; -+ u16 len; -+ u32 feature_options; -+ u32 data_flow_options; -+} ACX_PACKED acx111_ie_feature_config_t; -+ -+typedef struct acx111_ie_tx_level { -+ u16 type; -+ u16 len; -+ u8 level; -+} ACX_PACKED acx111_ie_tx_level_t; -+ -+#define PS_CFG_ENABLE 0x80 -+#define PS_CFG_PENDING 0x40 /* status flag when entering PS */ -+#define PS_CFG_WAKEUP_MODE_MASK 0x07 -+#define PS_CFG_WAKEUP_BY_HOST 0x03 -+#define PS_CFG_WAKEUP_EACH_ITVL 0x02 -+#define PS_CFG_WAKEUP_ON_DTIM 0x01 -+#define PS_CFG_WAKEUP_ALL_BEAC 0x00 -+ -+/* Enhanced PS mode: sleep until Rx Beacon w/ the STA's AID bit set -+** in the TIM; newer firmwares only(?) */ -+#define PS_OPT_ENA_ENHANCED_PS 0x04 -+#define PS_OPT_TX_PSPOLL 0x02 /* send PSPoll frame to fetch waiting frames from AP (on frame with matching AID) */ -+#define PS_OPT_STILL_RCV_BCASTS 0x01 -+ -+typedef struct acx100_ie_powersave { -+ u16 type; -+ u16 len; -+ u8 wakeup_cfg; -+ u8 listen_interval; /* for EACH_ITVL: wake up every "beacon units" interval */ -+ u8 options; -+ u8 hangover_period; /* remaining wake time after Tx MPDU w/ PS bit, in values of 1/1024 seconds */ -+ u16 enhanced_ps_transition_time; /* rem. wake time for Enh. PS */ -+} ACX_PACKED acx100_ie_powersave_t; -+ -+typedef struct acx111_ie_powersave { -+ u16 type; -+ u16 len; -+ u8 wakeup_cfg; -+ u8 listen_interval; /* for EACH_ITVL: wake up every "beacon units" interval */ -+ u8 options; -+ u8 hangover_period; /* remaining wake time after Tx MPDU w/ PS bit, in values of 1/1024 seconds */ -+ u32 beacon_rx_time; -+ u32 enhanced_ps_transition_time; /* rem. wake time for Enh. PS */ -+} ACX_PACKED acx111_ie_powersave_t; -+ -+ -+/*********************************************************************** -+** Commands and template structures -+*/ -+ -+/* -+** SCAN command structure -+** -+** even though acx100 scan rates match RATE100 constants, -+** acx111 ones do not match! Therefore we do not use RATE100 #defines */ -+#define ACX_SCAN_RATE_1 10 -+#define ACX_SCAN_RATE_2 20 -+#define ACX_SCAN_RATE_5 55 -+#define ACX_SCAN_RATE_11 110 -+#define ACX_SCAN_RATE_22 220 -+#define ACX_SCAN_RATE_PBCC 0x80 /* OR with this if needed */ -+#define ACX_SCAN_OPT_ACTIVE 0x00 /* a bit mask */ -+#define ACX_SCAN_OPT_PASSIVE 0x01 -+/* Background scan: we go into Power Save mode (by transmitting -+** NULL data frame to AP with the power mgmt bit set), do the scan, -+** and then exit Power Save mode. A plus is that AP buffers frames -+** for us while we do background scan. Thus we avoid frame losses. -+** Background scan can be active or passive, just like normal one */ -+#define ACX_SCAN_OPT_BACKGROUND 0x02 -+typedef struct acx100_scan { -+ u16 count; /* number of scans to do, 0xffff == continuous */ -+ u16 start_chan; -+ u16 flags; /* channel list mask; 0x8000 == all channels? */ -+ u8 max_rate; /* max. probe rate */ -+ u8 options; /* bit mask, see defines above */ -+ u16 chan_duration; -+ u16 max_probe_delay; -+} ACX_PACKED acx100_scan_t; /* length 0xc */ -+ -+#define ACX111_SCAN_RATE_6 0x0B -+#define ACX111_SCAN_RATE_9 0x0F -+#define ACX111_SCAN_RATE_12 0x0A -+#define ACX111_SCAN_RATE_18 0x0E -+#define ACX111_SCAN_RATE_24 0x09 -+#define ACX111_SCAN_RATE_36 0x0D -+#define ACX111_SCAN_RATE_48 0x08 -+#define ACX111_SCAN_RATE_54 0x0C -+#define ACX111_SCAN_OPT_5GHZ 0x04 /* else 2.4GHZ */ -+#define ACX111_SCAN_MOD_SHORTPRE 0x01 /* you can combine SHORTPRE and PBCC */ -+#define ACX111_SCAN_MOD_PBCC 0x80 -+#define ACX111_SCAN_MOD_OFDM 0x40 -+typedef struct acx111_scan { -+ u16 count; /* number of scans to do */ -+ u8 channel_list_select; /* 0: scan all channels, 1: from chan_list only */ -+ u16 reserved1; -+ u8 reserved2; -+ u8 rate; /* rate for probe requests (if active scan) */ -+ u8 options; /* bit mask, see defines above */ -+ u16 chan_duration; /* min time to wait for reply on one channel (in TU) */ -+ /* (active scan only) (802.11 section 11.1.3.2.2) */ -+ u16 max_probe_delay; /* max time to wait for reply on one channel (active scan) */ -+ /* time to listen on a channel (passive scan) */ -+ u8 modulation; -+ u8 channel_list[26]; /* bits 7:0 first byte: channels 8:1 */ -+ /* bits 7:0 second byte: channels 16:9 */ -+ /* 26 bytes is enough to cover 802.11a */ -+} ACX_PACKED acx111_scan_t; -+ -+ -+/* -+** Radio calibration command structure -+*/ -+typedef struct acx111_cmd_radiocalib { -+/* 0x80000000 == automatic calibration by firmware, according to interval; -+ * bits 0..3: select calibration methods to go through: -+ * calib based on DC, AfeDC, Tx mismatch, Tx equilization */ -+ u32 methods; -+ u32 interval; -+} ACX_PACKED acx111_cmd_radiocalib_t; -+ -+ -+/* -+** Packet template structures -+** -+** Packet templates store contents of Beacon, Probe response, Probe request, -+** Null data frame, and TIM data frame. Firmware automatically transmits -+** contents of template at appropriate time: -+** - Beacon: when configured as AP or Ad-hoc -+** - Probe response: when configured as AP or Ad-hoc, whenever -+** a Probe request frame is received -+** - Probe request: when host issues SCAN command (active) -+** - Null data frame: when entering 802.11 power save mode -+** - TIM data: at the end of Beacon frames (if no TIM template -+** is configured, then transmits default TIM) -+** NB: -+** - size field must be set to size of actual template -+** (NOT sizeof(struct) - templates are variable in length), -+** size field is not itself counted. -+** - members flagged with an asterisk must be initialized with host, -+** rest must be zero filled. -+** - variable length fields shown only in comments */ -+typedef struct acx_template_tim { -+ u16 size; -+ u8 tim_eid; /* 00 1 TIM IE ID * */ -+ u8 len; /* 01 1 Length * */ -+ u8 dtim_cnt; /* 02 1 DTIM Count */ -+ u8 dtim_period; /* 03 1 DTIM Period */ -+ u8 bitmap_ctrl; /* 04 1 Bitmap Control * (except bit0) */ -+ /* 05 n Partial Virtual Bitmap * */ -+ u8 variable[0x100 - 1-1-1-1-1]; -+} ACX_PACKED acx_template_tim_t; -+ -+typedef struct acx_template_probereq { -+ u16 size; -+ u16 fc; /* 00 2 fc * */ -+ u16 dur; /* 02 2 Duration */ -+ u8 da[6]; /* 04 6 Destination Address * */ -+ u8 sa[6]; /* 0A 6 Source Address * */ -+ u8 bssid[6]; /* 10 6 BSSID * */ -+ u16 seq; /* 16 2 Sequence Control */ -+ /* 18 n SSID * */ -+ /* nn n Supported Rates * */ -+ u8 variable[0x44 - 2-2-6-6-6-2]; -+} ACX_PACKED acx_template_probereq_t; -+ -+typedef struct acx_template_proberesp { -+ u16 size; -+ u16 fc; /* 00 2 fc * (bits [15:12] and [10:8] per 802.11 section 7.1.3.1) */ -+ u16 dur; /* 02 2 Duration */ -+ u8 da[6]; /* 04 6 Destination Address */ -+ u8 sa[6]; /* 0A 6 Source Address */ -+ u8 bssid[6]; /* 10 6 BSSID */ -+ u16 seq; /* 16 2 Sequence Control */ -+ u8 timestamp[8];/* 18 8 Timestamp */ -+ u16 beacon_interval; /* 20 2 Beacon Interval * */ -+ u16 cap; /* 22 2 Capability Information * */ -+ /* 24 n SSID * */ -+ /* nn n Supported Rates * */ -+ /* nn 1 DS Parameter Set * */ -+ u8 variable[0x54 - 2-2-6-6-6-2-8-2-2]; -+} ACX_PACKED acx_template_proberesp_t; -+#define acx_template_beacon_t acx_template_proberesp_t -+#define acx_template_beacon acx_template_proberesp -+ -+typedef struct acx_template_nullframe { -+ u16 size; -+ struct wlan_hdr_a3 hdr; -+} ACX_PACKED acx_template_nullframe_t; -+ -+ -+/* -+** JOIN command structure -+** -+** as opposed to acx100, acx111 dtim interval is AFTER rates_basic111. -+** NOTE: took me about an hour to get !@#$%^& packing right --> struct packing is eeeeevil... */ -+typedef struct acx_joinbss { -+ u8 bssid[ETH_ALEN]; -+ u16 beacon_interval; -+ union { -+ struct { -+ u8 dtim_interval; -+ u8 rates_basic; -+ u8 rates_supported; -+ /* -+ * ARM compiler doesn't pack correctly unless unions -+ * inside structures are multiples of 4 bytes. Ugh. -+ */ -+ u8 genfrm_txrate; /* generated frame (bcn, proberesp, RTS, PSpoll) tx rate */ -+ } ACX_PACKED acx100; -+ struct { -+ u16 rates_basic; -+ u8 dtim_interval; -+ u8 genfrm_txrate; /* generated frame (bcn, proberesp, RTS, PSpoll) tx rate */ -+ } ACX_PACKED acx111; -+ /* -+ * ARM compiler doesn't pack correctly unles unions are aligned on -+ * 4 byte boundaries and are multiples of 4 bytes. -+ */ -+ struct { -+ u8 d1; -+ u8 d2; -+ u8 d3; -+ u8 genfrm_txrate; -+ } ACX_PACKED txrate; -+ } ACX_PACKED u; -+ u8 genfrm_mod_pre; /* generated frame modulation/preamble: -+ ** bit7: PBCC, bit6: OFDM (else CCK/DQPSK/DBPSK) -+ ** bit5: short pre */ -+ u8 macmode; /* BSS Type, must be one of ACX_MODE_xxx */ -+ u8 channel; -+ u8 essid_len; -+ char essid[IW_ESSID_MAX_SIZE]; -+} ACX_PACKED acx_joinbss_t; -+ -+#define JOINBSS_RATES_1 0x01 -+#define JOINBSS_RATES_2 0x02 -+#define JOINBSS_RATES_5 0x04 -+#define JOINBSS_RATES_11 0x08 -+#define JOINBSS_RATES_22 0x10 -+ -+/* Looks like missing bits are used to indicate 11g rates! -+** (it follows from the fact that constants below match 1:1 to RATE111_nn) -+** This was actually seen! Look at that Assoc Request sent by acx111, -+** it _does_ contain 11g rates in basic set: -+01:30:20.070772 Beacon (xxx) [1.0* 2.0* 5.5* 11.0* 6.0* 9.0* 12.0* 18.0* 24.0* 36.0* 48.0* 54.0* Mbit] ESS CH: 1 -+01:30:20.074425 Authentication (Open System)-1: Succesful -+01:30:20.076539 Authentication (Open System)-2: -+01:30:20.076620 Acknowledgment -+01:30:20.088546 Assoc Request (xxx) [1.0* 2.0* 5.5* 6.0* 9.0* 11.0* 12.0* 18.0* 24.0* 36.0* 48.0* 54.0* Mbit] -+01:30:20.122413 Assoc Response AID(1) :: Succesful -+01:30:20.122679 Acknowledgment -+01:30:20.173204 Beacon (xxx) [1.0* 2.0* 5.5* 11.0* 6.0* 9.0* 12.0* 18.0* 24.0* 36.0* 48.0* 54.0* Mbit] ESS CH: 1 -+*/ -+#define JOINBSS_RATES_BASIC111_1 0x0001 -+#define JOINBSS_RATES_BASIC111_2 0x0002 -+#define JOINBSS_RATES_BASIC111_5 0x0004 -+#define JOINBSS_RATES_BASIC111_11 0x0020 -+#define JOINBSS_RATES_BASIC111_22 0x0100 -+ -+ -+/*********************************************************************** -+*/ -+typedef struct mem_read_write { -+ u16 addr; -+ u16 type; /* 0x0 int. RAM / 0xffff MAC reg. / 0x81 PHY RAM / 0x82 PHY reg.; or maybe it's actually 0x30 for MAC? Better verify it by writing and reading back and checking whether the value holds! */ -+ u32 len; -+ u32 data; -+} ACX_PACKED mem_read_write_t; -+ -+typedef struct firmware_image { -+ u32 chksum; -+ u32 size; -+ u8 data[1]; /* the byte array of the actual firmware... */ -+} ACX_PACKED firmware_image_t; -+ -+typedef struct acx_cmd_radioinit { -+ u32 offset; -+ u32 len; -+} ACX_PACKED acx_cmd_radioinit_t; -+ -+typedef struct acx100_ie_wep_options { -+ u16 type; -+ u16 len; -+ u16 NumKeys; /* max # of keys */ -+ u8 WEPOption; /* 0 == decrypt default key only, 1 == override decrypt */ -+ u8 Pad; /* used only for acx111 */ -+} ACX_PACKED acx100_ie_wep_options_t; -+ -+typedef struct ie_dot11WEPDefaultKey { -+ u16 type; -+ u16 len; -+ u8 action; -+ u8 keySize; -+ u8 defaultKeyNum; -+ u8 key[29]; /* check this! was Key[19] */ -+} ACX_PACKED ie_dot11WEPDefaultKey_t; -+ -+typedef struct acx111WEPDefaultKey { -+ u8 MacAddr[ETH_ALEN]; -+ u16 action; /* NOTE: this is a u16, NOT a u8!! */ -+ u16 reserved; -+ u8 keySize; -+ u8 type; -+ u8 index; -+ u8 defaultKeyNum; -+ u8 counter[6]; -+ u8 key[32]; /* up to 32 bytes (for TKIP!) */ -+} ACX_PACKED acx111WEPDefaultKey_t; -+ -+typedef struct ie_dot11WEPDefaultKeyID { -+ u16 type; -+ u16 len; -+ u8 KeyID; -+} ACX_PACKED ie_dot11WEPDefaultKeyID_t; -+ -+typedef struct acx100_cmd_wep_mgmt { -+ u8 MacAddr[ETH_ALEN]; -+ u16 Action; -+ u16 KeySize; -+ u8 Key[29]; /* 29*8 == 232bits == WEP256 */ -+} ACX_PACKED acx100_cmd_wep_mgmt_t; -+ -+typedef struct acx_ie_generic { -+ u16 type; -+ u16 len; -+ union { -+ /* Association ID IE: just a 16bit value: */ -+ u16 aid; -+ /* generic member for quick implementation of commands */ -+ u8 bytes[32]; -+ } ACX_PACKED m; -+} ACX_PACKED acx_ie_generic_t; -+ -+/*********************************************************************** -+*/ -+#define CHECK_SIZEOF(type,size) { \ -+ extern void BUG_bad_size_for_##type(void); \ -+ if (sizeof(type)!=(size)) BUG_bad_size_for_##type(); \ -+} -+ -+static inline void -+acx_struct_size_check(void) -+{ -+ CHECK_SIZEOF(txdesc_t, 0x30); -+ CHECK_SIZEOF(acx100_ie_memconfigoption_t, 24); -+ CHECK_SIZEOF(acx100_ie_queueconfig_t, 0x20); -+ CHECK_SIZEOF(acx_joinbss_t, 0x30); -+ /* IEs need 4 bytes for (type,len) tuple */ -+ CHECK_SIZEOF(acx111_ie_configoption_t, ACX111_IE_CONFIG_OPTIONS_LEN + 4); -+} -+ -+ -+/*********************************************************************** -+** Global data -+*/ -+extern const u8 acx_bitpos2ratebyte[]; -+extern const u8 acx_bitpos2rate100[]; -+ -+extern const u8 acx_reg_domain_ids[]; -+extern const char * const acx_reg_domain_strings[]; -+enum { -+ acx_reg_domain_ids_len = 8 -+}; -+ -+extern const struct iw_handler_def acx_ioctl_handler_def; -Index: linux-2.6.22/drivers/net/wireless/acx/common.c -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/common.c 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,7388 @@ -+/*********************************************************************** -+** Copyright (C) 2003 ACX100 Open Source Project -+** -+** The contents of this file are subject to the Mozilla Public -+** License Version 1.1 (the "License"); you may not use this file -+** except in compliance with the License. You may obtain a copy of -+** the License at http://www.mozilla.org/MPL/ -+** -+** Software distributed under the License is distributed on an "AS -+** IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -+** implied. See the License for the specific language governing -+** rights and limitations under the License. -+** -+** Alternatively, the contents of this file may be used under the -+** terms of the GNU Public License version 2 (the "GPL"), in which -+** case the provisions of the GPL are applicable instead of the -+** above. If you wish to allow the use of your version of this file -+** only under the terms of the GPL and not to allow others to use -+** your version of this file under the MPL, indicate your decision -+** by deleting the provisions above and replace them with the notice -+** and other provisions required by the GPL. If you do not delete -+** the provisions above, a recipient may use your version of this -+** file under either the MPL or the GPL. -+** --------------------------------------------------------------------- -+** Inquiries regarding the ACX100 Open Source Project can be -+** made directly to: -+** -+** acx100-users@lists.sf.net -+** http://acx100.sf.net -+** --------------------------------------------------------------------- -+*/ -+ -+#include <linux/version.h> -+#if LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 18) -+#include <linux/config.h> -+#endif -+#include <linux/module.h> -+#include <linux/kernel.h> -+#include <linux/sched.h> -+#include <linux/types.h> -+#include <linux/slab.h> -+#include <linux/delay.h> -+#include <linux/proc_fs.h> -+#include <linux/if_arp.h> -+#include <linux/rtnetlink.h> -+#include <linux/netdevice.h> -+#include <linux/etherdevice.h> -+#include <linux/wireless.h> -+#include <linux/pm.h> -+#include <linux/vmalloc.h> -+#include <net/iw_handler.h> -+ -+#include "acx_hw.h" -+#include "acx.h" -+ -+ -+/*********************************************************************** -+*/ -+static client_t *acx_l_sta_list_alloc(acx_device_t *adev); -+static client_t *acx_l_sta_list_get_from_hash(acx_device_t *adev, const u8 *address); -+ -+static int acx_l_process_data_frame_master(acx_device_t *adev, rxbuffer_t *rxbuf); -+static int acx_l_process_data_frame_client(acx_device_t *adev, rxbuffer_t *rxbuf); -+/* static int acx_l_process_NULL_frame(acx_device_t *adev, rxbuffer_t *rxbuf, int vala); */ -+static int acx_l_process_mgmt_frame(acx_device_t *adev, rxbuffer_t *rxbuf); -+static void acx_l_process_disassoc_from_sta(acx_device_t *adev, const wlan_fr_disassoc_t *req); -+static void acx_l_process_disassoc_from_ap(acx_device_t *adev, const wlan_fr_disassoc_t *req); -+static void acx_l_process_deauth_from_sta(acx_device_t *adev, const wlan_fr_deauthen_t *req); -+static void acx_l_process_deauth_from_ap(acx_device_t *adev, const wlan_fr_deauthen_t *req); -+static int acx_l_process_probe_response(acx_device_t *adev, wlan_fr_proberesp_t *req, const rxbuffer_t *rxbuf); -+static int acx_l_process_assocresp(acx_device_t *adev, const wlan_fr_assocresp_t *req); -+static int acx_l_process_reassocresp(acx_device_t *adev, const wlan_fr_reassocresp_t *req); -+static int acx_l_process_authen(acx_device_t *adev, const wlan_fr_authen_t *req); -+static int acx_l_transmit_assocresp(acx_device_t *adev, const wlan_fr_assocreq_t *req); -+static int acx_l_transmit_reassocresp(acx_device_t *adev, const wlan_fr_reassocreq_t *req); -+static int acx_l_transmit_deauthen(acx_device_t *adev, const u8 *addr, u16 reason); -+static int acx_l_transmit_authen1(acx_device_t *adev); -+static int acx_l_transmit_authen2(acx_device_t *adev, const wlan_fr_authen_t *req, client_t *clt); -+static int acx_l_transmit_authen3(acx_device_t *adev, const wlan_fr_authen_t *req); -+static int acx_l_transmit_authen4(acx_device_t *adev, const wlan_fr_authen_t *req); -+static int acx_l_transmit_assoc_req(acx_device_t *adev); -+ -+ -+/*********************************************************************** -+*/ -+#if ACX_DEBUG -+unsigned int acx_debug /* will add __read_mostly later */ = ACX_DEFAULT_MSG; -+/* parameter is 'debug', corresponding var is acx_debug */ -+module_param_named(debug, acx_debug, uint, 0); -+MODULE_PARM_DESC(debug, "Debug level mask (see L_xxx constants)"); -+#endif -+ -+#ifdef MODULE_LICENSE -+MODULE_LICENSE("Dual MPL/GPL"); -+#endif -+/* USB had this: MODULE_AUTHOR("Martin Wawro <martin.wawro AT uni-dortmund.de>"); */ -+MODULE_AUTHOR("ACX100 Open Source Driver development team"); -+MODULE_DESCRIPTION("Driver for TI ACX1xx based wireless cards (CardBus/PCI/USB)"); -+ -+ -+/*********************************************************************** -+*/ -+/* Probably a number of acx's intermediate buffers for USB transfers, -+** not to be confused with number of descriptors in tx/rx rings -+** (which are not directly accessible to host in USB devices) */ -+#define USB_RX_CNT 10 -+#define USB_TX_CNT 10 -+ -+ -+/*********************************************************************** -+*/ -+ -+/* minutes to wait until next radio recalibration: */ -+#define RECALIB_PAUSE 5 -+ -+/* Please keep acx_reg_domain_ids_len in sync... */ -+const u8 acx_reg_domain_ids[acx_reg_domain_ids_len] = -+ { 0x10, 0x20, 0x30, 0x31, 0x32, 0x40, 0x41, 0x51 }; -+static const u16 reg_domain_channel_masks[acx_reg_domain_ids_len] = -+#ifdef ACX_ALLOW_ALLCHANNELS -+ { 0x3fff, 0x07ff, 0x1fff, 0x0600, 0x1e00, 0x2000, 0x3fff, 0x01fc }; -+#else -+ { 0x07ff, 0x07ff, 0x1fff, 0x0600, 0x1e00, 0x2000, 0x3fff, 0x01fc }; -+#endif -+const char * const -+acx_reg_domain_strings[] = { -+ /* 0 */ " 1-11 FCC (USA)", -+ /* 1 */ " 1-11 DOC/IC (Canada)", -+/* BTW: WLAN use in ETSI is regulated by ETSI standard EN 300 328-2 V1.1.2 */ -+ /* 2 */ " 1-13 ETSI (Europe)", -+ /* 3 */ "10-11 Spain", -+ /* 4 */ "10-13 France", -+ /* 5 */ " 14 MKK (Japan)", -+ /* 6 */ " 1-14 MKK1", -+ /* 7 */ " 3-9 Israel (not all firmware versions)", -+ NULL /* needs to remain as last entry */ -+}; -+ -+ -+ -+/*********************************************************************** -+** Debugging support -+*/ -+#ifdef PARANOID_LOCKING -+static unsigned max_lock_time; -+static unsigned max_sem_time; -+ -+void -+acx_lock_unhold() { max_lock_time = 0; } -+void -+acx_sem_unhold() { max_sem_time = 0; } -+ -+static inline const char* -+sanitize_str(const char *s) -+{ -+ const char* t = strrchr(s, '/'); -+ if (t) return t + 1; -+ return s; -+} -+ -+void -+acx_lock_debug(acx_device_t *adev, const char* where) -+{ -+ unsigned int count = 100*1000*1000; -+ where = sanitize_str(where); -+ while (--count) { -+ if (!spin_is_locked(&adev->lock)) break; -+ cpu_relax(); -+ } -+ if (!count) { -+ printk(KERN_EMERG "LOCKUP: already taken at %s!\n", adev->last_lock); -+ BUG(); -+ } -+ adev->last_lock = where; -+ rdtscl(adev->lock_time); -+} -+void -+acx_unlock_debug(acx_device_t *adev, const char* where) -+{ -+#ifdef SMP -+ if (!spin_is_locked(&adev->lock)) { -+ where = sanitize_str(where); -+ printk(KERN_EMERG "STRAY UNLOCK at %s!\n", where); -+ BUG(); -+ } -+#endif -+ if (acx_debug & L_LOCK) { -+ unsigned long diff; -+ rdtscl(diff); -+ diff -= adev->lock_time; -+ if (diff > max_lock_time) { -+ where = sanitize_str(where); -+ printk("max lock hold time %ld CPU ticks from %s " -+ "to %s\n", diff, adev->last_lock, where); -+ max_lock_time = diff; -+ } -+ } -+} -+void -+acx_down_debug(acx_device_t *adev, const char* where) -+{ -+ int sem_count; -+ unsigned long timeout = jiffies + 5*HZ; -+ -+ where = sanitize_str(where); -+ -+ for (;;) { -+ sem_count = atomic_read(&adev->sem.count); -+ if (sem_count) break; -+ if (time_after(jiffies, timeout)) -+ break; -+ msleep(5); -+ } -+ if (!sem_count) { -+ printk(KERN_EMERG "D STATE at %s! last sem at %s\n", -+ where, adev->last_sem); -+ dump_stack(); -+ } -+ adev->last_sem = where; -+ adev->sem_time = jiffies; -+ down(&adev->sem); -+ if (acx_debug & L_LOCK) { -+ printk("%s: sem_down %d -> %d\n", -+ where, sem_count, atomic_read(&adev->sem.count)); -+ } -+} -+void -+acx_up_debug(acx_device_t *adev, const char* where) -+{ -+ int sem_count = atomic_read(&adev->sem.count); -+ if (sem_count) { -+ where = sanitize_str(where); -+ printk(KERN_EMERG "STRAY UP at %s! sem.count=%d\n", where, sem_count); -+ dump_stack(); -+ } -+ if (acx_debug & L_LOCK) { -+ unsigned long diff = jiffies - adev->sem_time; -+ if (diff > max_sem_time) { -+ where = sanitize_str(where); -+ printk("max sem hold time %ld jiffies from %s " -+ "to %s\n", diff, adev->last_sem, where); -+ max_sem_time = diff; -+ } -+ } -+ up(&adev->sem); -+ if (acx_debug & L_LOCK) { -+ where = sanitize_str(where); -+ printk("%s: sem_up %d -> %d\n", -+ where, sem_count, atomic_read(&adev->sem.count)); -+ } -+} -+#endif /* PARANOID_LOCKING */ -+ -+ -+/*********************************************************************** -+*/ -+#if ACX_DEBUG > 1 -+ -+static int acx_debug_func_indent; -+#define DEBUG_TSC 0 -+#define FUNC_INDENT_INCREMENT 2 -+ -+#if DEBUG_TSC -+#define TIMESTAMP(d) unsigned long d; rdtscl(d) -+#else -+#define TIMESTAMP(d) unsigned long d = jiffies -+#endif -+ -+static const char -+spaces[] = " " " "; /* Nx10 spaces */ -+ -+void -+log_fn_enter(const char *funcname) -+{ -+ int indent; -+ TIMESTAMP(d); -+ -+ indent = acx_debug_func_indent; -+ if (indent >= sizeof(spaces)) -+ indent = sizeof(spaces)-1; -+ -+ printk("%08ld %s==> %s\n", -+ d % 100000000, -+ spaces + (sizeof(spaces)-1) - indent, -+ funcname -+ ); -+ -+ acx_debug_func_indent += FUNC_INDENT_INCREMENT; -+} -+void -+log_fn_exit(const char *funcname) -+{ -+ int indent; -+ TIMESTAMP(d); -+ -+ acx_debug_func_indent -= FUNC_INDENT_INCREMENT; -+ -+ indent = acx_debug_func_indent; -+ if (indent >= sizeof(spaces)) -+ indent = sizeof(spaces)-1; -+ -+ printk("%08ld %s<== %s\n", -+ d % 100000000, -+ spaces + (sizeof(spaces)-1) - indent, -+ funcname -+ ); -+} -+void -+log_fn_exit_v(const char *funcname, int v) -+{ -+ int indent; -+ TIMESTAMP(d); -+ -+ acx_debug_func_indent -= FUNC_INDENT_INCREMENT; -+ -+ indent = acx_debug_func_indent; -+ if (indent >= sizeof(spaces)) -+ indent = sizeof(spaces)-1; -+ -+ printk("%08ld %s<== %s: %08X\n", -+ d % 100000000, -+ spaces + (sizeof(spaces)-1) - indent, -+ funcname, -+ v -+ ); -+} -+#endif /* ACX_DEBUG > 1 */ -+ -+ -+/*********************************************************************** -+** Basically a msleep with logging -+*/ -+void -+acx_s_msleep(int ms) -+{ -+ FN_ENTER; -+ msleep(ms); -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** Not inlined: it's larger than it seems -+*/ -+void -+acx_print_mac(const char *head, const u8 *mac, const char *tail) -+{ -+ printk("%s"MACSTR"%s", head, MAC(mac), tail); -+} -+ -+ -+/*********************************************************************** -+** acx_get_status_name -+*/ -+static const char* -+acx_get_status_name(u16 status) -+{ -+ static const char * const str[] = { -+ "STOPPED", "SCANNING", "WAIT_AUTH", -+ "AUTHENTICATED", "ASSOCIATED", "INVALID??" -+ }; -+ if (status > VEC_SIZE(str)-1) -+ status = VEC_SIZE(str)-1; -+ -+ return str[status]; -+} -+ -+ -+/*********************************************************************** -+** acx_get_packet_type_string -+*/ -+#if ACX_DEBUG -+const char* -+acx_get_packet_type_string(u16 fc) -+{ -+ static const char * const mgmt_arr[] = { -+ "MGMT/AssocReq", "MGMT/AssocResp", "MGMT/ReassocReq", -+ "MGMT/ReassocResp", "MGMT/ProbeReq", "MGMT/ProbeResp", -+ "MGMT/UNKNOWN", "MGMT/UNKNOWN", "MGMT/Beacon", "MGMT/ATIM", -+ "MGMT/Disassoc", "MGMT/Authen", "MGMT/Deauthen" -+ }; -+ static const char * const ctl_arr[] = { -+ "CTL/PSPoll", "CTL/RTS", "CTL/CTS", "CTL/Ack", "CTL/CFEnd", -+ "CTL/CFEndCFAck" -+ }; -+ static const char * const data_arr[] = { -+ "DATA/DataOnly", "DATA/Data CFAck", "DATA/Data CFPoll", -+ "DATA/Data CFAck/CFPoll", "DATA/Null", "DATA/CFAck", -+ "DATA/CFPoll", "DATA/CFAck/CFPoll" -+ }; -+ const char *str; -+ u8 fstype = (WF_FC_FSTYPE & fc) >> 4; -+ u8 ctl; -+ -+ switch (WF_FC_FTYPE & fc) { -+ case WF_FTYPE_MGMT: -+ if (fstype < VEC_SIZE(mgmt_arr)) -+ str = mgmt_arr[fstype]; -+ else -+ str = "MGMT/UNKNOWN"; -+ break; -+ case WF_FTYPE_CTL: -+ ctl = fstype - 0x0a; -+ if (ctl < VEC_SIZE(ctl_arr)) -+ str = ctl_arr[ctl]; -+ else -+ str = "CTL/UNKNOWN"; -+ break; -+ case WF_FTYPE_DATA: -+ if (fstype < VEC_SIZE(data_arr)) -+ str = data_arr[fstype]; -+ else -+ str = "DATA/UNKNOWN"; -+ break; -+ default: -+ str = "UNKNOWN"; -+ break; -+ } -+ return str; -+} -+#endif -+ -+ -+/*********************************************************************** -+** acx_wlan_reason_str -+*/ -+static inline const char* -+acx_wlan_reason_str(u16 reason) -+{ -+ static const char* const reason_str[] = { -+ /* 0 */ "?", -+ /* 1 */ "unspecified", -+ /* 2 */ "prev auth is not valid", -+ /* 3 */ "leaving BBS", -+ /* 4 */ "due to inactivity", -+ /* 5 */ "AP is busy", -+ /* 6 */ "got class 2 frame from non-auth'ed STA", -+ /* 7 */ "got class 3 frame from non-assoc'ed STA", -+ /* 8 */ "STA has left BSS", -+ /* 9 */ "assoc without auth is not allowed", -+ /* 10 */ "bad power setting (802.11h)", -+ /* 11 */ "bad channel (802.11i)", -+ /* 12 */ "?", -+ /* 13 */ "invalid IE", -+ /* 14 */ "MIC failure", -+ /* 15 */ "four-way handshake timeout", -+ /* 16 */ "group key handshake timeout", -+ /* 17 */ "IE is different", -+ /* 18 */ "invalid group cipher", -+ /* 19 */ "invalid pairwise cipher", -+ /* 20 */ "invalid AKMP", -+ /* 21 */ "unsupported RSN version", -+ /* 22 */ "invalid RSN IE cap", -+ /* 23 */ "802.1x failed", -+ /* 24 */ "cipher suite rejected" -+ }; -+ return reason < VEC_SIZE(reason_str) ? reason_str[reason] : "?"; -+} -+ -+ -+/*********************************************************************** -+** acx_cmd_status_str -+*/ -+const char* -+acx_cmd_status_str(unsigned int state) -+{ -+ static const char * const cmd_error_strings[] = { -+ "Idle", -+ "Success", -+ "Unknown Command", -+ "Invalid Information Element", -+ "Channel rejected", -+ "Channel invalid in current regulatory domain", -+ "MAC invalid", -+ "Command rejected (read-only information element)", -+ "Command rejected", -+ "Already asleep", -+ "TX in progress", -+ "Already awake", -+ "Write only", -+ "RX in progress", -+ "Invalid parameter", -+ "Scan in progress", -+ "Failed" -+ }; -+ return state < VEC_SIZE(cmd_error_strings) ? -+ cmd_error_strings[state] : "?"; -+} -+ -+ -+/*********************************************************************** -+** get_status_string -+*/ -+static inline const char* -+get_status_string(unsigned int status) -+{ -+ /* A bit shortened, but hopefully still understandable */ -+ static const char * const status_str[] = { -+ /* 0 */ "Successful", -+ /* 1 */ "Unspecified failure", -+ /* 2 */ "reserved", -+ /* 3 */ "reserved", -+ /* 4 */ "reserved", -+ /* 5 */ "reserved", -+ /* 6 */ "reserved", -+ /* 7 */ "reserved", -+ /* 8 */ "reserved", -+ /* 9 */ "reserved", -+ /*10 */ "Cannot support all requested capabilities in Capability Information field", -+ /*11 */ "Reassoc denied (reason outside of 802.11b scope)", -+ /*12 */ "Assoc denied (reason outside of 802.11b scope) -- maybe MAC filtering by peer?", -+ /*13 */ "Responding station doesnt support specified auth algorithm -- maybe WEP auth Open vs. Restricted?", -+ /*14 */ "Auth rejected: wrong transaction sequence number", -+ /*15 */ "Auth rejected: challenge failure", -+ /*16 */ "Auth rejected: timeout for next frame in sequence", -+ /*17 */ "Assoc denied: too many STAs on this AP", -+ /*18 */ "Assoc denied: requesting STA doesnt support all data rates in basic set", -+ /*19 */ "Assoc denied: requesting STA doesnt support Short Preamble", -+ /*20 */ "Assoc denied: requesting STA doesnt support PBCC Modulation", -+ /*21 */ "Assoc denied: requesting STA doesnt support Channel Agility" -+ /*22 */ "reserved", -+ /*23 */ "reserved", -+ /*24 */ "reserved", -+ /*25 */ "Assoc denied: requesting STA doesnt support Short Slot Time", -+ /*26 */ "Assoc denied: requesting STA doesnt support DSSS-OFDM" -+ }; -+ -+ return status_str[status < VEC_SIZE(status_str) ? status : 2]; -+} -+ -+ -+/*********************************************************************** -+*/ -+void -+acx_log_bad_eid(wlan_hdr_t* hdr, int len, wlan_ie_t* ie_ptr) -+{ -+ if (acx_debug & L_ASSOC) { -+ int offset = (u8*)ie_ptr - (u8*)hdr; -+ printk("acx: unknown EID %d in mgmt frame at offset %d. IE: ", -+ ie_ptr->eid, offset); -+ /* IE len can be bogus, IE can extend past packet end. Oh well... */ -+ acx_dump_bytes(ie_ptr, ie_ptr->len + 2); -+ if (acx_debug & L_DATA) { -+ printk("frame (%s): ", -+ acx_get_packet_type_string(le16_to_cpu(hdr->fc))); -+ acx_dump_bytes(hdr, len); -+ } -+ } -+} -+ -+ -+/*********************************************************************** -+*/ -+#if ACX_DEBUG -+void -+acx_dump_bytes(const void *data, int num) -+{ -+ const u8* ptr = (const u8*)data; -+ -+ if (num <= 0) { -+ printk("\n"); -+ return; -+ } -+ -+ while (num >= 16) { -+ printk( "%02X %02X %02X %02X %02X %02X %02X %02X " -+ "%02X %02X %02X %02X %02X %02X %02X %02X\n", -+ ptr[0], ptr[1], ptr[2], ptr[3], -+ ptr[4], ptr[5], ptr[6], ptr[7], -+ ptr[8], ptr[9], ptr[10], ptr[11], -+ ptr[12], ptr[13], ptr[14], ptr[15]); -+ num -= 16; -+ ptr += 16; -+ } -+ if (num > 0) { -+ while (--num > 0) -+ printk("%02X ", *ptr++); -+ printk("%02X\n", *ptr); -+ } -+} -+#endif -+ -+ -+/*********************************************************************** -+** acx_s_get_firmware_version -+*/ -+void -+acx_s_get_firmware_version(acx_device_t *adev) -+{ -+ fw_ver_t fw; -+ u8 hexarr[4] = { 0, 0, 0, 0 }; -+ int hexidx = 0, val = 0; -+ const char *num; -+ char c; -+ -+ FN_ENTER; -+ -+ memset(fw.fw_id, 'E', FW_ID_SIZE); -+ acx_s_interrogate(adev, &fw, ACX1xx_IE_FWREV); -+ memcpy(adev->firmware_version, fw.fw_id, FW_ID_SIZE); -+ adev->firmware_version[FW_ID_SIZE] = '\0'; -+ -+ log(L_DEBUG, "fw_ver: fw_id='%s' hw_id=%08X\n", -+ adev->firmware_version, fw.hw_id); -+ -+ if (strncmp(fw.fw_id, "Rev ", 4) != 0) { -+ printk("acx: strange firmware version string " -+ "'%s', please report\n", adev->firmware_version); -+ adev->firmware_numver = 0x01090407; /* assume 1.9.4.7 */ -+ } else { -+ num = &fw.fw_id[4]; -+ while (1) { -+ c = *num++; -+ if ((c == '.') || (c == '\0')) { -+ hexarr[hexidx++] = val; -+ if ((hexidx > 3) || (c == '\0')) /* end? */ -+ break; -+ val = 0; -+ continue; -+ } -+ if ((c >= '0') && (c <= '9')) -+ c -= '0'; -+ else -+ c = c - 'a' + (char)10; -+ val = val*16 + c; -+ } -+ -+ adev->firmware_numver = (u32)( -+ (hexarr[0] << 24) | (hexarr[1] << 16) -+ | (hexarr[2] << 8) | hexarr[3]); -+ log(L_DEBUG, "firmware_numver 0x%08X\n", adev->firmware_numver); -+ } -+ if (IS_ACX111(adev)) { -+ if (adev->firmware_numver == 0x00010011) { -+ /* This one does not survive floodpinging */ -+ printk("acx: firmware '%s' is known to be buggy, " -+ "please upgrade\n", adev->firmware_version); -+ } -+ } -+ -+ adev->firmware_id = le32_to_cpu(fw.hw_id); -+ -+ /* we're able to find out more detailed chip names now */ -+ switch (adev->firmware_id & 0xffff0000) { -+ case 0x01010000: -+ case 0x01020000: -+ adev->chip_name = "TNETW1100A"; -+ break; -+ case 0x01030000: -+ adev->chip_name = "TNETW1100B"; -+ break; -+ case 0x03000000: -+ case 0x03010000: -+ adev->chip_name = "TNETW1130"; -+ break; -+ case 0x04030000: /* 0x04030101 is TNETW1450 */ -+ adev->chip_name = "TNETW1450"; -+ break; -+ default: -+ printk("acx: unknown chip ID 0x%08X, " -+ "please report\n", adev->firmware_id); -+ break; -+ } -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_display_hardware_details -+** -+** Displays hw/fw version, radio type etc... -+*/ -+void -+acx_display_hardware_details(acx_device_t *adev) -+{ -+ const char *radio_str, *form_str; -+ -+ FN_ENTER; -+ -+ switch (adev->radio_type) { -+ case RADIO_MAXIM_0D: -+ radio_str = "Maxim"; -+ break; -+ case RADIO_RFMD_11: -+ radio_str = "RFMD"; -+ break; -+ case RADIO_RALINK_15: -+ radio_str = "Ralink"; -+ break; -+ case RADIO_RADIA_16: -+ radio_str = "Radia"; -+ break; -+ case RADIO_UNKNOWN_17: -+ /* TI seems to have a radio which is -+ * additionally 802.11a capable, too */ -+ radio_str = "802.11a/b/g radio?! Please report"; -+ break; -+ case RADIO_UNKNOWN_19: -+ radio_str = "A radio used by Safecom cards?! Please report"; -+ break; -+ case RADIO_UNKNOWN_1B: -+ radio_str = "An unknown radio used by TNETW1450 USB adapters"; -+ break; -+ default: -+ radio_str = "UNKNOWN, please report radio type name!"; -+ break; -+ } -+ -+ switch (adev->form_factor) { -+ case 0x00: -+ form_str = "unspecified"; -+ break; -+ case 0x01: -+ form_str = "(mini-)PCI / CardBus"; -+ break; -+ case 0x02: -+ form_str = "USB"; -+ break; -+ case 0x03: -+ form_str = "Compact Flash"; -+ break; -+ default: -+ form_str = "UNKNOWN, please report"; -+ break; -+ } -+ -+ printk("acx: === chipset %s, radio type 0x%02X (%s), " -+ "form factor 0x%02X (%s), EEPROM version 0x%02X: " -+ "uploaded firmware '%s' ===\n", -+ adev->chip_name, adev->radio_type, radio_str, -+ adev->form_factor, form_str, adev->eeprom_version, -+ adev->firmware_version); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+*/ -+int -+acx_e_change_mtu(struct net_device *ndev, int mtu) -+{ -+ enum { -+ MIN_MTU = 256, -+ MAX_MTU = WLAN_DATA_MAXLEN - (ETH_HLEN) -+ }; -+ -+ if (mtu < MIN_MTU || mtu > MAX_MTU) -+ return -EINVAL; -+ -+ ndev->mtu = mtu; -+ return 0; -+} -+ -+ -+/*********************************************************************** -+** acx_e_get_stats, acx_e_get_wireless_stats -+*/ -+struct net_device_stats* -+acx_e_get_stats(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ return &adev->stats; -+} -+ -+struct iw_statistics* -+acx_e_get_wireless_stats(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ return &adev->wstats; -+} -+ -+ -+/*********************************************************************** -+** maps acx111 tx descr rate field to acx100 one -+*/ -+const u8 -+acx_bitpos2rate100[] = { -+ RATE100_1 ,/* 0 */ -+ RATE100_2 ,/* 1 */ -+ RATE100_5 ,/* 2 */ -+ RATE100_2 ,/* 3, should not happen */ -+ RATE100_2 ,/* 4, should not happen */ -+ RATE100_11 ,/* 5 */ -+ RATE100_2 ,/* 6, should not happen */ -+ RATE100_2 ,/* 7, should not happen */ -+ RATE100_22 ,/* 8 */ -+ RATE100_2 ,/* 9, should not happen */ -+ RATE100_2 ,/* 10, should not happen */ -+ RATE100_2 ,/* 11, should not happen */ -+ RATE100_2 ,/* 12, should not happen */ -+ RATE100_2 ,/* 13, should not happen */ -+ RATE100_2 ,/* 14, should not happen */ -+ RATE100_2 ,/* 15, should not happen */ -+}; -+ -+u8 -+acx_rate111to100(u16 r) { -+ return acx_bitpos2rate100[highest_bit(r)]; -+} -+ -+ -+/*********************************************************************** -+** Calculate level like the feb 2003 windows driver seems to do -+*/ -+static u8 -+acx_signal_to_winlevel(u8 rawlevel) -+{ -+ /* u8 winlevel = (u8) (0.5 + 0.625 * rawlevel); */ -+ u8 winlevel = ((4 + (rawlevel * 5)) / 8); -+ -+ if (winlevel > 100) -+ winlevel = 100; -+ return winlevel; -+} -+ -+u8 -+acx_signal_determine_quality(u8 signal, u8 noise) -+{ -+ int qual; -+ -+ qual = (((signal - 30) * 100 / 70) + (100 - noise * 4)) / 2; -+ -+ if (qual > 100) -+ return 100; -+ if (qual < 0) -+ return 0; -+ return qual; -+} -+ -+ -+/*********************************************************************** -+** Interrogate/configure commands -+*/ -+ -+/* FIXME: the lengths given here probably aren't always correct. -+ * They should be gradually replaced by proper "sizeof(acx1XX_ie_XXXX)-4", -+ * unless the firmware actually expects a different length than the struct length */ -+static const u16 -+acx100_ie_len[] = { -+ 0, -+ ACX100_IE_ACX_TIMER_LEN, -+ sizeof(acx100_ie_powersave_t)-4, /* is that 6 or 8??? */ -+ ACX1xx_IE_QUEUE_CONFIG_LEN, -+ ACX100_IE_BLOCK_SIZE_LEN, -+ ACX1xx_IE_MEMORY_CONFIG_OPTIONS_LEN, -+ ACX1xx_IE_RATE_FALLBACK_LEN, -+ ACX100_IE_WEP_OPTIONS_LEN, -+ ACX1xx_IE_MEMORY_MAP_LEN, /* ACX1xx_IE_SSID_LEN, */ -+ 0, -+ ACX1xx_IE_ASSOC_ID_LEN, -+ 0, -+ ACX111_IE_CONFIG_OPTIONS_LEN, -+ ACX1xx_IE_FWREV_LEN, -+ ACX1xx_IE_FCS_ERROR_COUNT_LEN, -+ ACX1xx_IE_MEDIUM_USAGE_LEN, -+ ACX1xx_IE_RXCONFIG_LEN, -+ 0, -+ 0, -+ sizeof(fw_stats_t)-4, -+ 0, -+ ACX1xx_IE_FEATURE_CONFIG_LEN, -+ ACX111_IE_KEY_CHOOSE_LEN, -+ ACX1FF_IE_MISC_CONFIG_TABLE_LEN, -+ ACX1FF_IE_WONE_CONFIG_LEN, -+ 0, -+ ACX1FF_IE_TID_CONFIG_LEN, -+ 0, -+ 0, -+ 0, -+ ACX1FF_IE_CALIB_ASSESSMENT_LEN, -+ ACX1FF_IE_BEACON_FILTER_OPTIONS_LEN, -+ ACX1FF_IE_LOW_RSSI_THRESH_OPT_LEN, -+ ACX1FF_IE_NOISE_HISTOGRAM_RESULTS_LEN, -+ 0, -+ ACX1FF_IE_PACKET_DETECT_THRESH_LEN, -+ ACX1FF_IE_TX_CONFIG_OPTIONS_LEN, -+ ACX1FF_IE_CCA_THRESHOLD_LEN, -+ ACX1FF_IE_EVENT_MASK_LEN, -+ ACX1FF_IE_DTIM_PERIOD_LEN, -+ 0, -+ ACX1FF_IE_ACI_CONFIG_SET_LEN, -+ 0, -+ 0, -+ 0, -+ 0, -+ 0, -+ 0, -+ ACX1FF_IE_EEPROM_VER_LEN, -+}; -+ -+static const u16 -+acx100_ie_len_dot11[] = { -+ 0, -+ ACX1xx_IE_DOT11_STATION_ID_LEN, -+ 0, -+ ACX100_IE_DOT11_BEACON_PERIOD_LEN, -+ ACX1xx_IE_DOT11_DTIM_PERIOD_LEN, -+ ACX1xx_IE_DOT11_SHORT_RETRY_LIMIT_LEN, -+ ACX1xx_IE_DOT11_LONG_RETRY_LIMIT_LEN, -+ ACX100_IE_DOT11_WEP_DEFAULT_KEY_WRITE_LEN, -+ ACX1xx_IE_DOT11_MAX_XMIT_MSDU_LIFETIME_LEN, -+ 0, -+ ACX1xx_IE_DOT11_CURRENT_REG_DOMAIN_LEN, -+ ACX1xx_IE_DOT11_CURRENT_ANTENNA_LEN, -+ 0, -+ ACX1xx_IE_DOT11_TX_POWER_LEVEL_LEN, -+ ACX1xx_IE_DOT11_CURRENT_CCA_MODE_LEN, -+ ACX100_IE_DOT11_ED_THRESHOLD_LEN, -+ ACX1xx_IE_DOT11_WEP_DEFAULT_KEY_SET_LEN, -+ 0, -+ 0, -+ 0, -+}; -+ -+static const u16 -+acx111_ie_len[] = { -+ 0, -+ ACX100_IE_ACX_TIMER_LEN, -+ sizeof(acx111_ie_powersave_t)-4, -+ ACX1xx_IE_QUEUE_CONFIG_LEN, -+ ACX100_IE_BLOCK_SIZE_LEN, -+ ACX1xx_IE_MEMORY_CONFIG_OPTIONS_LEN, -+ ACX1xx_IE_RATE_FALLBACK_LEN, -+ ACX100_IE_WEP_OPTIONS_LEN, -+ ACX1xx_IE_MEMORY_MAP_LEN, /* ACX1xx_IE_SSID_LEN, */ -+ 0, -+ ACX1xx_IE_ASSOC_ID_LEN, -+ 0, -+ ACX111_IE_CONFIG_OPTIONS_LEN, -+ ACX1xx_IE_FWREV_LEN, -+ ACX1xx_IE_FCS_ERROR_COUNT_LEN, -+ ACX1xx_IE_MEDIUM_USAGE_LEN, -+ ACX1xx_IE_RXCONFIG_LEN, -+ 0, -+ 0, -+ sizeof(fw_stats_t)-4, -+ 0, -+ ACX1xx_IE_FEATURE_CONFIG_LEN, -+ ACX111_IE_KEY_CHOOSE_LEN, -+ ACX1FF_IE_MISC_CONFIG_TABLE_LEN, -+ ACX1FF_IE_WONE_CONFIG_LEN, -+ 0, -+ ACX1FF_IE_TID_CONFIG_LEN, -+ 0, -+ 0, -+ 0, -+ ACX1FF_IE_CALIB_ASSESSMENT_LEN, -+ ACX1FF_IE_BEACON_FILTER_OPTIONS_LEN, -+ ACX1FF_IE_LOW_RSSI_THRESH_OPT_LEN, -+ ACX1FF_IE_NOISE_HISTOGRAM_RESULTS_LEN, -+ 0, -+ ACX1FF_IE_PACKET_DETECT_THRESH_LEN, -+ ACX1FF_IE_TX_CONFIG_OPTIONS_LEN, -+ ACX1FF_IE_CCA_THRESHOLD_LEN, -+ ACX1FF_IE_EVENT_MASK_LEN, -+ ACX1FF_IE_DTIM_PERIOD_LEN, -+ 0, -+ ACX1FF_IE_ACI_CONFIG_SET_LEN, -+ 0, -+ 0, -+ 0, -+ 0, -+ 0, -+ 0, -+ ACX1FF_IE_EEPROM_VER_LEN, -+}; -+ -+static const u16 -+acx111_ie_len_dot11[] = { -+ 0, -+ ACX1xx_IE_DOT11_STATION_ID_LEN, -+ 0, -+ ACX100_IE_DOT11_BEACON_PERIOD_LEN, -+ ACX1xx_IE_DOT11_DTIM_PERIOD_LEN, -+ ACX1xx_IE_DOT11_SHORT_RETRY_LIMIT_LEN, -+ ACX1xx_IE_DOT11_LONG_RETRY_LIMIT_LEN, -+ ACX100_IE_DOT11_WEP_DEFAULT_KEY_WRITE_LEN, -+ ACX1xx_IE_DOT11_MAX_XMIT_MSDU_LIFETIME_LEN, -+ 0, -+ ACX1xx_IE_DOT11_CURRENT_REG_DOMAIN_LEN, -+ ACX1xx_IE_DOT11_CURRENT_ANTENNA_LEN, -+ 0, -+ ACX1xx_IE_DOT11_TX_POWER_LEVEL_LEN, -+ ACX1xx_IE_DOT11_CURRENT_CCA_MODE_LEN, -+ ACX100_IE_DOT11_ED_THRESHOLD_LEN, -+ ACX1xx_IE_DOT11_WEP_DEFAULT_KEY_SET_LEN, -+ 0, -+ 0, -+ 0, -+}; -+ -+ -+#undef FUNC -+#define FUNC "configure" -+#if !ACX_DEBUG -+int -+acx_s_configure(acx_device_t *adev, void *pdr, int type) -+{ -+#else -+int -+acx_s_configure_debug(acx_device_t *adev, void *pdr, int type, const char* typestr) -+{ -+#endif -+ u16 len; -+ int res; -+ -+ if (type < 0x1000) -+ len = adev->ie_len[type]; -+ else -+ len = adev->ie_len_dot11[type - 0x1000]; -+ -+ log(L_CTL, FUNC"(type:%s,len:%u)\n", typestr, len); -+ if (unlikely(!len)) { -+ log(L_DEBUG, "zero-length type %s?!\n", typestr); -+ } -+ -+ ((acx_ie_generic_t *)pdr)->type = cpu_to_le16(type); -+ ((acx_ie_generic_t *)pdr)->len = cpu_to_le16(len); -+ res = acx_s_issue_cmd(adev, ACX1xx_CMD_CONFIGURE, pdr, len + 4); -+ if (unlikely(OK != res)) { -+#if ACX_DEBUG -+ printk("%s: "FUNC"(type:%s) FAILED\n", adev->ndev->name, typestr); -+#else -+ printk("%s: "FUNC"(type:0x%X) FAILED\n", adev->ndev->name, type); -+#endif -+ /* dump_stack() is already done in issue_cmd() */ -+ } -+ return res; -+} -+ -+#undef FUNC -+#define FUNC "interrogate" -+#if !ACX_DEBUG -+int -+acx_s_interrogate(acx_device_t *adev, void *pdr, int type) -+{ -+#else -+int -+acx_s_interrogate_debug(acx_device_t *adev, void *pdr, int type, -+ const char* typestr) -+{ -+#endif -+ u16 len; -+ int res; -+ -+ /* FIXME: no check whether this exceeds the array yet. -+ * We should probably remember the number of entries... */ -+ if (type < 0x1000) -+ len = adev->ie_len[type]; -+ else -+ len = adev->ie_len_dot11[type-0x1000]; -+ -+ log(L_CTL, FUNC"(type:%s,len:%u)\n", typestr, len); -+ -+ ((acx_ie_generic_t *)pdr)->type = cpu_to_le16(type); -+ ((acx_ie_generic_t *)pdr)->len = cpu_to_le16(len); -+ res = acx_s_issue_cmd(adev, ACX1xx_CMD_INTERROGATE, pdr, len + 4); -+ if (unlikely(OK != res)) { -+#if ACX_DEBUG -+ printk("%s: "FUNC"(type:%s) FAILED\n", adev->ndev->name, typestr); -+#else -+ printk("%s: "FUNC"(type:0x%X) FAILED\n", adev->ndev->name, type); -+#endif -+ /* dump_stack() is already done in issue_cmd() */ -+ } -+ return res; -+} -+ -+#if CMD_DISCOVERY -+void -+great_inquisitor(acx_device_t *adev) -+{ -+ static struct { -+ u16 type; -+ u16 len; -+ /* 0x200 was too large here: */ -+ u8 data[0x100 - 4]; -+ } ACX_PACKED ie; -+ u16 type; -+ -+ FN_ENTER; -+ -+ /* 0..0x20, 0x1000..0x1020 */ -+ for (type = 0; type <= 0x1020; type++) { -+ if (type == 0x21) -+ type = 0x1000; -+ ie.type = cpu_to_le16(type); -+ ie.len = cpu_to_le16(sizeof(ie) - 4); -+ acx_s_issue_cmd(adev, ACX1xx_CMD_INTERROGATE, &ie, sizeof(ie)); -+ } -+ FN_EXIT0; -+} -+#endif -+ -+ -+#ifdef CONFIG_PROC_FS -+/*********************************************************************** -+** /proc files -+*/ -+/*********************************************************************** -+** acx_l_proc_output -+** Generate content for our /proc entry -+** -+** Arguments: -+** buf is a pointer to write output to -+** adev is the usual pointer to our private struct acx_device -+** Returns: -+** number of bytes actually written to buf -+** Side effects: -+** none -+*/ -+static int -+acx_l_proc_output(char *buf, acx_device_t *adev) -+{ -+ char *p = buf; -+ int i; -+ -+ FN_ENTER; -+ -+ p += sprintf(p, -+ "acx driver version:\t\t" ACX_RELEASE "\n" -+ "Wireless extension version:\t" STRING(WIRELESS_EXT) "\n" -+ "chip name:\t\t\t%s (0x%08X)\n" -+ "radio type:\t\t\t0x%02X\n" -+ "form factor:\t\t\t0x%02X\n" -+ "EEPROM version:\t\t\t0x%02X\n" -+ "firmware version:\t\t%s (0x%08X)\n", -+ adev->chip_name, adev->firmware_id, -+ adev->radio_type, -+ adev->form_factor, -+ adev->eeprom_version, -+ adev->firmware_version, adev->firmware_numver); -+ -+ for (i = 0; i < VEC_SIZE(adev->sta_list); i++) { -+ struct client *bss = &adev->sta_list[i]; -+ if (!bss->used) continue; -+ p += sprintf(p, "BSS %u BSSID "MACSTR" ESSID %s channel %u " -+ "Cap 0x%X SIR %u SNR %u\n", -+ i, MAC(bss->bssid), (char*)bss->essid, bss->channel, -+ bss->cap_info, bss->sir, bss->snr); -+ } -+ p += sprintf(p, "status:\t\t\t%u (%s)\n", -+ adev->status, acx_get_status_name(adev->status)); -+ -+ FN_EXIT1(p - buf); -+ return p - buf; -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx_s_proc_diag_output(char *buf, acx_device_t *adev) -+{ -+ char *p = buf; -+ unsigned long flags; -+ unsigned int len = 0, partlen; -+ u32 temp1, temp2; -+ u8 *st, *st_end; -+#ifdef __BIG_ENDIAN -+ u8 *st2; -+#endif -+ fw_stats_t *fw_stats; -+ char *part_str = NULL; -+ fw_stats_tx_t *tx = NULL; -+ fw_stats_rx_t *rx = NULL; -+ fw_stats_dma_t *dma = NULL; -+ fw_stats_irq_t *irq = NULL; -+ fw_stats_wep_t *wep = NULL; -+ fw_stats_pwr_t *pwr = NULL; -+ fw_stats_mic_t *mic = NULL; -+ fw_stats_aes_t *aes = NULL; -+ fw_stats_event_t *evt = NULL; -+ -+ FN_ENTER; -+ -+ acx_lock(adev, flags); -+ -+#if defined (ACX_MEM) -+ p = acxmem_s_proc_diag_output(p, adev); -+#else -+ if (IS_PCI(adev)) -+ p = acxpci_s_proc_diag_output(p, adev); -+#endif -+ -+ p += sprintf(p, -+ "\n" -+ "** network status **\n" -+ "dev_state_mask 0x%04X\n" -+ "status %u (%s), " -+ "mode %u, channel %u, " -+ "reg_dom_id 0x%02X, reg_dom_chanmask 0x%04X, ", -+ adev->dev_state_mask, -+ adev->status, acx_get_status_name(adev->status), -+ adev->mode, adev->channel, -+ adev->reg_dom_id, adev->reg_dom_chanmask -+ ); -+ p += sprintf(p, -+ "ESSID \"%s\", essid_active %d, essid_len %d, " -+ "essid_for_assoc \"%s\", nick \"%s\"\n" -+ "WEP ena %d, restricted %d, idx %d\n", -+ adev->essid, adev->essid_active, (int)adev->essid_len, -+ adev->essid_for_assoc, adev->nick, -+ adev->wep_enabled, adev->wep_restricted, -+ adev->wep_current_index); -+ p += sprintf(p, "dev_addr "MACSTR"\n", MAC(adev->dev_addr)); -+ p += sprintf(p, "bssid "MACSTR"\n", MAC(adev->bssid)); -+ p += sprintf(p, "ap_filter "MACSTR"\n", MAC(adev->ap)); -+ -+ p += sprintf(p, -+ "\n" -+ "** PHY status **\n" -+ "tx_disabled %d, tx_level_dbm %d\n" /* "tx_level_val %d, tx_level_auto %d\n" */ -+ "sensitivity %d, antenna 0x%02X, ed_threshold %d, cca %d, preamble_mode %d\n" -+ "rate_basic 0x%04X, rate_oper 0x%04X\n" -+ "rts_threshold %d, frag_threshold %d, short_retry %d, long_retry %d\n" -+ "msdu_lifetime %d, listen_interval %d, beacon_interval %d\n", -+ adev->tx_disabled, adev->tx_level_dbm, /* adev->tx_level_val, adev->tx_level_auto, */ -+ adev->sensitivity, adev->antenna, adev->ed_threshold, adev->cca, adev->preamble_mode, -+ adev->rate_basic, adev->rate_oper, -+ adev->rts_threshold, adev->frag_threshold, adev->short_retry, adev->long_retry, -+ adev->msdu_lifetime, adev->listen_interval, adev->beacon_interval); -+ -+ acx_unlock(adev, flags); -+ -+ p += sprintf(p, -+ "\n" -+ "** Firmware **\n" -+ "NOTE: version dependent statistics layout, " -+ "please report if you suspect wrong parsing!\n" -+ "\n" -+ "version \"%s\"\n", adev->firmware_version); -+ -+ /* TODO: may replace kmalloc/memset with kzalloc once -+ * Linux 2.6.14 is widespread */ -+ fw_stats = kmalloc(sizeof(*fw_stats), GFP_KERNEL); -+ if (!fw_stats) { -+ FN_EXIT1(0); -+ return 0; -+ } -+ memset(fw_stats, 0, sizeof(*fw_stats)); -+ -+ st = (u8 *)fw_stats; -+ -+ part_str = "statistics query command"; -+ -+ if (OK != acx_s_interrogate(adev, st, ACX1xx_IE_FIRMWARE_STATISTICS)) -+ goto fw_stats_end; -+ -+ st += sizeof(u16); -+ len = *(u16 *)st; -+ -+ if (len > sizeof(*fw_stats)) { -+ p += sprintf(p, -+ "firmware version with bigger fw_stats struct detected\n" -+ "(%u vs. %u), please report\n", len, sizeof(fw_stats_t)); -+ if (len > sizeof(*fw_stats)) { -+ p += sprintf(p, "struct size exceeded allocation!\n"); -+ len = sizeof(*fw_stats); -+ } -+ } -+ st += sizeof(u16); -+ st_end = st - 2*sizeof(u16) + len; -+ -+#ifdef __BIG_ENDIAN -+ /* let's make one bold assumption here: -+ * (hopefully!) *all* statistics fields are u32 only, -+ * thus if we need to make endianness corrections -+ * we can simply do them in one go, in advance */ -+ st2 = (u8 *)fw_stats; -+ for (temp1 = 0; temp1 < len; temp1 += 4, st2 += 4) -+ *(u32 *)st2 = le32_to_cpu(*(u32 *)st2); -+#endif -+ -+ part_str = "Rx/Tx"; -+ -+ /* directly at end of a struct part? --> no error! */ -+ if (st == st_end) -+ goto fw_stats_end; -+ -+ tx = (fw_stats_tx_t *)st; -+ st += sizeof(fw_stats_tx_t); -+ rx = (fw_stats_rx_t *)st; -+ st += sizeof(fw_stats_rx_t); -+ partlen = sizeof(fw_stats_tx_t) + sizeof(fw_stats_rx_t); -+ -+ if (IS_ACX100(adev)) { -+ /* at least ACX100 PCI F/W 1.9.8.b -+ * and ACX100 USB F/W 1.0.7-USB -+ * don't have those two fields... */ -+ st -= 2*sizeof(u32); -+ -+ /* our parsing doesn't quite match this firmware yet, -+ * log failure */ -+ if (st > st_end) -+ goto fw_stats_fail; -+ temp1 = temp2 = 999999999; -+ } else { -+ if (st > st_end) -+ goto fw_stats_fail; -+ temp1 = rx->rx_aci_events; -+ temp2 = rx->rx_aci_resets; -+ } -+ -+ p += sprintf(p, -+ "%s:\n" -+ " tx_desc_overfl %u\n" -+ " rx_OutOfMem %u, rx_hdr_overfl %u, rx_hw_stuck %u\n" -+ " rx_dropped_frame %u, rx_frame_ptr_err %u, rx_xfr_hint_trig %u\n" -+ " rx_aci_events %u, rx_aci_resets %u\n", -+ part_str, -+ tx->tx_desc_of, -+ rx->rx_oom, -+ rx->rx_hdr_of, -+ rx->rx_hw_stuck, -+ rx->rx_dropped_frame, -+ rx->rx_frame_ptr_err, -+ rx->rx_xfr_hint_trig, -+ temp1, -+ temp2); -+ -+ part_str = "DMA"; -+ -+ if (st == st_end) -+ goto fw_stats_end; -+ -+ dma = (fw_stats_dma_t *)st; -+ partlen = sizeof(fw_stats_dma_t); -+ st += partlen; -+ -+ if (st > st_end) -+ goto fw_stats_fail; -+ -+ p += sprintf(p, -+ "%s:\n" -+ " rx_dma_req %u, rx_dma_err %u, tx_dma_req %u, tx_dma_err %u\n", -+ part_str, -+ dma->rx_dma_req, -+ dma->rx_dma_err, -+ dma->tx_dma_req, -+ dma->tx_dma_err); -+ -+ part_str = "IRQ"; -+ -+ if (st == st_end) -+ goto fw_stats_end; -+ -+ irq = (fw_stats_irq_t *)st; -+ partlen = sizeof(fw_stats_irq_t); -+ st += partlen; -+ -+ if (st > st_end) -+ goto fw_stats_fail; -+ -+ p += sprintf(p, -+ "%s:\n" -+ " cmd_cplt %u, fiq %u\n" -+ " rx_hdrs %u, rx_cmplt %u, rx_mem_overfl %u, rx_rdys %u\n" -+ " irqs %u, tx_procs %u, decrypt_done %u\n" -+ " dma_0_done %u, dma_1_done %u, tx_exch_complet %u\n" -+ " commands %u, rx_procs %u, hw_pm_mode_changes %u\n" -+ " host_acks %u, pci_pm %u, acm_wakeups %u\n", -+ part_str, -+ irq->cmd_cplt, -+ irq->fiq, -+ irq->rx_hdrs, -+ irq->rx_cmplt, -+ irq->rx_mem_of, -+ irq->rx_rdys, -+ irq->irqs, -+ irq->tx_procs, -+ irq->decrypt_done, -+ irq->dma_0_done, -+ irq->dma_1_done, -+ irq->tx_exch_complet, -+ irq->commands, -+ irq->rx_procs, -+ irq->hw_pm_mode_changes, -+ irq->host_acks, -+ irq->pci_pm, -+ irq->acm_wakeups); -+ -+ part_str = "WEP"; -+ -+ if (st == st_end) -+ goto fw_stats_end; -+ -+ wep = (fw_stats_wep_t *)st; -+ partlen = sizeof(fw_stats_wep_t); -+ st += partlen; -+ -+ if ( -+ (IS_PCI(adev) && IS_ACX100(adev)) -+ || (IS_USB(adev) && IS_ACX100(adev)) -+ || (IS_MEM(adev) && IS_ACX100(adev)) -+ ) { -+ /* at least ACX100 PCI F/W 1.9.8.b, -+ * ACX100 USB F/W 1.0.7-USB -+ * and ACX100 Generic Slave F/W 1.10.7.K -+ * don't have those two fields... -+ */ -+ st -= 2*sizeof(u32); -+ if (st > st_end) -+ goto fw_stats_fail; -+ temp1 = temp2 = 999999999; -+ } else { -+ if (st > st_end) -+ goto fw_stats_fail; -+ temp1 = wep->wep_pkt_decrypt; -+ temp2 = wep->wep_decrypt_irqs; -+ } -+ -+ p += sprintf(p, -+ "%s:\n" -+ " wep_key_count %u, wep_default_key_count %u, dot11_def_key_mib %u\n" -+ " wep_key_not_found %u, wep_decrypt_fail %u\n" -+ " wep_pkt_decrypt %u, wep_decrypt_irqs %u\n", -+ part_str, -+ wep->wep_key_count, -+ wep->wep_default_key_count, -+ wep->dot11_def_key_mib, -+ wep->wep_key_not_found, -+ wep->wep_decrypt_fail, -+ temp1, -+ temp2); -+ -+ part_str = "power"; -+ -+ if (st == st_end) -+ goto fw_stats_end; -+ -+ pwr = (fw_stats_pwr_t *)st; -+ partlen = sizeof(fw_stats_pwr_t); -+ st += partlen; -+ -+ if (st > st_end) -+ goto fw_stats_fail; -+ -+ p += sprintf(p, -+ "%s:\n" -+ " tx_start_ctr %u, no_ps_tx_too_short %u\n" -+ " rx_start_ctr %u, no_ps_rx_too_short %u\n" -+ " lppd_started %u\n" -+ " no_lppd_too_noisy %u, no_lppd_too_short %u, no_lppd_matching_frame %u\n", -+ part_str, -+ pwr->tx_start_ctr, -+ pwr->no_ps_tx_too_short, -+ pwr->rx_start_ctr, -+ pwr->no_ps_rx_too_short, -+ pwr->lppd_started, -+ pwr->no_lppd_too_noisy, -+ pwr->no_lppd_too_short, -+ pwr->no_lppd_matching_frame); -+ -+ part_str = "MIC"; -+ -+ if (st == st_end) -+ goto fw_stats_end; -+ -+ mic = (fw_stats_mic_t *)st; -+ partlen = sizeof(fw_stats_mic_t); -+ st += partlen; -+ -+ if (st > st_end) -+ goto fw_stats_fail; -+ -+ p += sprintf(p, -+ "%s:\n" -+ " mic_rx_pkts %u, mic_calc_fail %u\n", -+ part_str, -+ mic->mic_rx_pkts, -+ mic->mic_calc_fail); -+ -+ part_str = "AES"; -+ -+ if (st == st_end) -+ goto fw_stats_end; -+ -+ aes = (fw_stats_aes_t *)st; -+ partlen = sizeof(fw_stats_aes_t); -+ st += partlen; -+ -+ if (st > st_end) -+ goto fw_stats_fail; -+ -+ p += sprintf(p, -+ "%s:\n" -+ " aes_enc_fail %u, aes_dec_fail %u\n" -+ " aes_enc_pkts %u, aes_dec_pkts %u\n" -+ " aes_enc_irq %u, aes_dec_irq %u\n", -+ part_str, -+ aes->aes_enc_fail, -+ aes->aes_dec_fail, -+ aes->aes_enc_pkts, -+ aes->aes_dec_pkts, -+ aes->aes_enc_irq, -+ aes->aes_dec_irq); -+ -+ part_str = "event"; -+ -+ if (st == st_end) -+ goto fw_stats_end; -+ -+ evt = (fw_stats_event_t *)st; -+ partlen = sizeof(fw_stats_event_t); -+ st += partlen; -+ -+ if (st > st_end) -+ goto fw_stats_fail; -+ -+ p += sprintf(p, -+ "%s:\n" -+ " heartbeat %u, calibration %u\n" -+ " rx_mismatch %u, rx_mem_empty %u, rx_pool %u\n" -+ " oom_late %u\n" -+ " phy_tx_err %u, tx_stuck %u\n", -+ part_str, -+ evt->heartbeat, -+ evt->calibration, -+ evt->rx_mismatch, -+ evt->rx_mem_empty, -+ evt->rx_pool, -+ evt->oom_late, -+ evt->phy_tx_err, -+ evt->tx_stuck); -+ -+ if (st < st_end) -+ goto fw_stats_bigger; -+ -+ goto fw_stats_end; -+ -+fw_stats_fail: -+ st -= partlen; -+ p += sprintf(p, -+ "failed at %s part (size %u), offset %u (struct size %u), " -+ "please report\n", part_str, partlen, -+ (int)st - (int)fw_stats, len); -+ -+fw_stats_bigger: -+ for (; st < st_end; st += 4) -+ p += sprintf(p, -+ "UNKN%3d: %u\n", (int)st - (int)fw_stats, *(u32 *)st); -+ -+fw_stats_end: -+ kfree(fw_stats); -+ -+ FN_EXIT1(p - buf); -+ return p - buf; -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx_s_proc_phy_output(char *buf, acx_device_t *adev) -+{ -+ char *p = buf; -+ int i; -+ -+ FN_ENTER; -+ -+ /* -+ if (RADIO_RFMD_11 != adev->radio_type) { -+ printk("sorry, not yet adapted for radio types " -+ "other than RFMD, please verify " -+ "PHY size etc. first!\n"); -+ goto end; -+ } -+ */ -+ -+ /* The PHY area is only 0x80 bytes long; further pages after that -+ * only have some page number registers with altered value, -+ * all other registers remain the same. */ -+ for (i = 0; i < 0x80; i++) { -+ acx_s_read_phy_reg(adev, i, p++); -+ } -+ -+ FN_EXIT1(p - buf); -+ return p - buf; -+} -+ -+ -+/*********************************************************************** -+** acx_e_read_proc_XXXX -+** Handle our /proc entry -+** -+** Arguments: -+** standard kernel read_proc interface -+** Returns: -+** number of bytes written to buf -+** Side effects: -+** none -+*/ -+static int -+acx_e_read_proc(char *buf, char **start, off_t offset, int count, -+ int *eof, void *data) -+{ -+ acx_device_t *adev = (acx_device_t*)data; -+ unsigned long flags; -+ int length; -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ acx_lock(adev, flags); -+ /* fill buf */ -+ length = acx_l_proc_output(buf, adev); -+ acx_unlock(adev, flags); -+ acx_sem_unlock(adev); -+ -+ /* housekeeping */ -+ if (length <= offset + count) -+ *eof = 1; -+ *start = buf + offset; -+ length -= offset; -+ if (length > count) -+ length = count; -+ if (length < 0) -+ length = 0; -+ FN_EXIT1(length); -+ return length; -+} -+ -+static char _buf[32768]; -+static int -+acx_e_read_proc_diag(char *buf, char **start, off_t offset, int count, -+ int *eof, void *data) -+{ -+ acx_device_t *adev = (acx_device_t*)data; -+ int length; -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ /* fill buf */ -+ length = acx_s_proc_diag_output(_buf, adev); -+ acx_sem_unlock(adev); -+ -+ memcpy(buf, _buf + offset, count); -+ -+ /* housekeeping */ -+ if (length <= offset + count) -+ *eof = 1; -+ *start = count; -+ length -= offset; -+ if (length > count) -+ length = count; -+ if (length < 0) -+ length = 0; -+ FN_EXIT1(length); -+ return length; -+} -+ -+static int -+acx_e_read_proc_eeprom(char *buf, char **start, off_t offset, int count, -+ int *eof, void *data) -+{ -+ acx_device_t *adev = (acx_device_t*)data; -+ int length; -+ -+ FN_ENTER; -+ -+ /* fill buf */ -+ length = 0; -+#if defined (ACX_MEM) -+ acx_sem_lock(adev); -+ length = acxmem_proc_eeprom_output(buf, adev); -+ acx_sem_unlock(adev); -+#else -+ if (IS_PCI(adev)) { -+ acx_sem_lock(adev); -+ length = acxpci_proc_eeprom_output(buf, adev); -+ acx_sem_unlock(adev); -+ } -+#endif -+ -+ /* housekeeping */ -+ if (length <= offset + count) -+ *eof = 1; -+ *start = buf + offset; -+ length -= offset; -+ if (length > count) -+ length = count; -+ if (length < 0) -+ length = 0; -+ FN_EXIT1(length); -+ return length; -+} -+ -+static int -+acx_e_read_proc_phy(char *buf, char **start, off_t offset, int count, -+ int *eof, void *data) -+{ -+ acx_device_t *adev = (acx_device_t*)data; -+ int length; -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ /* fill buf */ -+ length = acx_s_proc_phy_output(buf, adev); -+ acx_sem_unlock(adev); -+ -+ /* housekeeping */ -+ if (length <= offset + count) -+ *eof = 1; -+ *start = buf + offset; -+ length -= offset; -+ if (length > count) -+ length = count; -+ if (length < 0) -+ length = 0; -+ FN_EXIT1(length); -+ return length; -+} -+ -+ -+/*********************************************************************** -+** /proc files registration -+*/ -+static const char * const -+proc_files[] = { "", "_diag", "_eeprom", "_phy" }; -+ -+static read_proc_t * const -+proc_funcs[] = { -+ acx_e_read_proc, -+ acx_e_read_proc_diag, -+ acx_e_read_proc_eeprom, -+ acx_e_read_proc_phy -+}; -+ -+static int -+manage_proc_entries(const struct net_device *ndev, int remove) -+{ -+ acx_device_t *adev = ndev2adev((struct net_device *)ndev); -+ char procbuf[80]; -+ int i; -+ -+ for (i = 0; i < VEC_SIZE(proc_files); i++) { -+ snprintf(procbuf, sizeof(procbuf), -+ "driver/acx_%s%s", ndev->name, proc_files[i]); -+ log(L_INIT, "%sing /proc entry %s\n", -+ remove ? "remov" : "creat", procbuf); -+ if (!remove) { -+ if (!create_proc_read_entry(procbuf, 0, 0, proc_funcs[i], adev)) { -+ printk("acx: cannot register /proc entry %s\n", procbuf); -+ return NOT_OK; -+ } -+ } else { -+ remove_proc_entry(procbuf, NULL); -+ } -+ } -+ return OK; -+} -+ -+int -+acx_proc_register_entries(const struct net_device *ndev) -+{ -+ return manage_proc_entries(ndev, 0); -+} -+ -+int -+acx_proc_unregister_entries(const struct net_device *ndev) -+{ -+ return manage_proc_entries(ndev, 1); -+} -+#endif /* CONFIG_PROC_FS */ -+ -+ -+/*********************************************************************** -+** acx_cmd_join_bssid -+** -+** Common code for both acx100 and acx111. -+*/ -+/* NB: does NOT match RATE100_nn but matches ACX[111]_SCAN_RATE_n */ -+static const u8 -+bitpos2genframe_txrate[] = { -+ 10, /* 0. 1 Mbit/s */ -+ 20, /* 1. 2 Mbit/s */ -+ 55, /* 2. 5.5 Mbit/s */ -+ 0x0B, /* 3. 6 Mbit/s */ -+ 0x0F, /* 4. 9 Mbit/s */ -+ 110, /* 5. 11 Mbit/s */ -+ 0x0A, /* 6. 12 Mbit/s */ -+ 0x0E, /* 7. 18 Mbit/s */ -+ 220, /* 8. 22 Mbit/s */ -+ 0x09, /* 9. 24 Mbit/s */ -+ 0x0D, /* 10. 36 Mbit/s */ -+ 0x08, /* 11. 48 Mbit/s */ -+ 0x0C, /* 12. 54 Mbit/s */ -+ 10, /* 13. 1 Mbit/s, should never happen */ -+ 10, /* 14. 1 Mbit/s, should never happen */ -+ 10, /* 15. 1 Mbit/s, should never happen */ -+}; -+ -+/* Looks scary, eh? -+** Actually, each one compiled into one AND and one SHIFT, -+** 31 bytes in x86 asm (more if uints are replaced by u16/u8) */ -+static inline unsigned int -+rate111to5bits(unsigned int rate) -+{ -+ return (rate & 0x7) -+ | ( (rate & RATE111_11) / (RATE111_11/JOINBSS_RATES_11) ) -+ | ( (rate & RATE111_22) / (RATE111_22/JOINBSS_RATES_22) ) -+ ; -+} -+ -+static void -+acx_s_cmd_join_bssid(acx_device_t *adev, const u8 *bssid) -+{ -+ acx_joinbss_t tmp; -+ int dtim_interval; -+ int i; -+ -+ if (mac_is_zero(bssid)) -+ return; -+ -+ FN_ENTER; -+ -+ dtim_interval = (ACX_MODE_0_ADHOC == adev->mode) ? -+ 1 : adev->dtim_interval; -+ -+ memset(&tmp, 0, sizeof(tmp)); -+ -+ for (i = 0; i < ETH_ALEN; i++) { -+ tmp.bssid[i] = bssid[ETH_ALEN-1 - i]; -+ } -+ -+ tmp.beacon_interval = cpu_to_le16(adev->beacon_interval); -+ -+ /* Basic rate set. Control frame responses (such as ACK or CTS frames) -+ ** are sent with one of these rates */ -+ if (IS_ACX111(adev)) { -+ /* It was experimentally determined that rates_basic -+ ** can take 11g rates as well, not only rates -+ ** defined with JOINBSS_RATES_BASIC111_nnn. -+ ** Just use RATE111_nnn constants... */ -+ tmp.u.acx111.dtim_interval = dtim_interval; -+ tmp.u.acx111.rates_basic = cpu_to_le16(adev->rate_basic); -+ log(L_ASSOC, "rates_basic:%04X, rates_supported:%04X\n", -+ adev->rate_basic, adev->rate_oper); -+ } else { -+ tmp.u.acx100.dtim_interval = dtim_interval; -+ tmp.u.acx100.rates_basic = rate111to5bits(adev->rate_basic); -+ tmp.u.acx100.rates_supported = rate111to5bits(adev->rate_oper); -+ log(L_ASSOC, "rates_basic:%04X->%02X, " -+ "rates_supported:%04X->%02X\n", -+ adev->rate_basic, tmp.u.acx100.rates_basic, -+ adev->rate_oper, tmp.u.acx100.rates_supported); -+ } -+ -+ /* Setting up how Beacon, Probe Response, RTS, and PS-Poll frames -+ ** will be sent (rate/modulation/preamble) */ -+ tmp.u.txrate.genfrm_txrate = bitpos2genframe_txrate[lowest_bit(adev->rate_basic)]; -+ tmp.genfrm_mod_pre = 0; /* FIXME: was = adev->capab_short (which was always 0); */ -+ /* we can use short pre *if* all peers can understand it */ -+ /* FIXME #2: we need to correctly set PBCC/OFDM bits here too */ -+ -+ /* we switch fw to STA mode in MONITOR mode, it seems to be -+ ** the only mode where fw does not emit beacons by itself -+ ** but allows us to send anything (we really want to retain -+ ** ability to tx arbitrary frames in MONITOR mode) -+ */ -+ tmp.macmode = (adev->mode != ACX_MODE_MONITOR ? adev->mode : ACX_MODE_2_STA); -+ tmp.channel = adev->channel; -+ tmp.essid_len = adev->essid_len; -+ /* NOTE: the code memcpy'd essid_len + 1 before, which is WRONG! */ -+ memcpy(tmp.essid, adev->essid, tmp.essid_len); -+ acx_s_issue_cmd(adev, ACX1xx_CMD_JOIN, &tmp, tmp.essid_len + 0x11); -+ -+ log(L_ASSOC|L_DEBUG, "BSS_Type = %u\n", tmp.macmode); -+ acxlog_mac(L_ASSOC|L_DEBUG, "JoinBSSID MAC:", adev->bssid, "\n"); -+ -+ acx_update_capabilities(adev); -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_s_cmd_start_scan -+** -+** Issue scan command to the hardware -+** -+** unified function for both ACX111 and ACX100 -+*/ -+static void -+acx_s_scan_chan(acx_device_t *adev) -+{ -+ union { -+ acx111_scan_t acx111; -+ acx100_scan_t acx100; -+ } s; -+ -+ FN_ENTER; -+ -+ memset(&s, 0, sizeof(s)); -+ -+ /* first common positions... */ -+ -+ s.acx111.count = cpu_to_le16(adev->scan_count); -+ s.acx111.rate = adev->scan_rate; -+ s.acx111.options = adev->scan_mode; -+ s.acx111.chan_duration = cpu_to_le16(adev->scan_duration); -+ s.acx111.max_probe_delay = cpu_to_le16(adev->scan_probe_delay); -+ -+ /* ...then differences */ -+ -+ if (IS_ACX111(adev)) { -+ s.acx111.channel_list_select = 0; /* scan every allowed channel */ -+ /*s.acx111.channel_list_select = 1;*/ /* scan given channels */ -+ /*s.acx111.modulation = 0x40;*/ /* long preamble? OFDM? -> only for active scan */ -+ s.acx111.modulation = 0; -+ /*s.acx111.channel_list[0] = 6; -+ s.acx111.channel_list[1] = 4;*/ -+ } else { -+ s.acx100.start_chan = cpu_to_le16(1); -+ s.acx100.flags = cpu_to_le16(0x8000); -+ } -+ -+ acx_s_issue_cmd(adev, ACX1xx_CMD_SCAN, &s, sizeof(s)); -+ FN_EXIT0; -+} -+ -+ -+void -+acx_s_cmd_start_scan(acx_device_t *adev) -+{ -+ /* time_before check is 'just in case' thing */ -+ if (!(adev->irq_status & HOST_INT_SCAN_COMPLETE) -+ && time_before(jiffies, adev->scan_start + 10*HZ) -+ ) { -+ log(L_INIT, "start_scan: seems like previous scan " -+ "is still running. Not starting anew. Please report\n"); -+ return; -+ } -+ -+ log(L_INIT, "starting radio scan\n"); -+ /* remember that fw is commanded to do scan */ -+ adev->scan_start = jiffies; -+ CLEAR_BIT(adev->irq_status, HOST_INT_SCAN_COMPLETE); -+ /* issue it */ -+ acx_s_scan_chan(adev); -+} -+ -+ -+/*********************************************************************** -+** acx111 feature config -+*/ -+static int -+acx111_s_get_feature_config(acx_device_t *adev, -+ u32 *feature_options, u32 *data_flow_options) -+{ -+ struct acx111_ie_feature_config feat; -+ -+ if (!IS_ACX111(adev)) { -+ return NOT_OK; -+ } -+ -+ memset(&feat, 0, sizeof(feat)); -+ -+ if (OK != acx_s_interrogate(adev, &feat, ACX1xx_IE_FEATURE_CONFIG)) { -+ return NOT_OK; -+ } -+ log(L_DEBUG, -+ "got Feature option:0x%X, DataFlow option: 0x%X\n", -+ feat.feature_options, -+ feat.data_flow_options); -+ -+ if (feature_options) -+ *feature_options = le32_to_cpu(feat.feature_options); -+ if (data_flow_options) -+ *data_flow_options = le32_to_cpu(feat.data_flow_options); -+ -+ return OK; -+} -+ -+static int -+acx111_s_set_feature_config(acx_device_t *adev, -+ u32 feature_options, u32 data_flow_options, -+ unsigned int mode /* 0 == remove, 1 == add, 2 == set */) -+{ -+ struct acx111_ie_feature_config feat; -+ -+ if (!IS_ACX111(adev)) { -+ return NOT_OK; -+ } -+ -+ if ((mode < 0) || (mode > 2)) -+ return NOT_OK; -+ -+ if (mode != 2) -+ /* need to modify old data */ -+ acx111_s_get_feature_config(adev, &feat.feature_options, &feat.data_flow_options); -+ else { -+ /* need to set a completely new value */ -+ feat.feature_options = 0; -+ feat.data_flow_options = 0; -+ } -+ -+ if (mode == 0) { /* remove */ -+ CLEAR_BIT(feat.feature_options, cpu_to_le32(feature_options)); -+ CLEAR_BIT(feat.data_flow_options, cpu_to_le32(data_flow_options)); -+ } else { /* add or set */ -+ SET_BIT(feat.feature_options, cpu_to_le32(feature_options)); -+ SET_BIT(feat.data_flow_options, cpu_to_le32(data_flow_options)); -+ } -+ -+ log(L_DEBUG, -+ "old: feature 0x%08X dataflow 0x%08X. mode: %u\n" -+ "new: feature 0x%08X dataflow 0x%08X\n", -+ feature_options, data_flow_options, mode, -+ le32_to_cpu(feat.feature_options), -+ le32_to_cpu(feat.data_flow_options)); -+ -+ if (OK != acx_s_configure(adev, &feat, ACX1xx_IE_FEATURE_CONFIG)) { -+ return NOT_OK; -+ } -+ -+ return OK; -+} -+ -+static inline int -+acx111_s_feature_off(acx_device_t *adev, u32 f, u32 d) -+{ -+ return acx111_s_set_feature_config(adev, f, d, 0); -+} -+static inline int -+acx111_s_feature_on(acx_device_t *adev, u32 f, u32 d) -+{ -+ return acx111_s_set_feature_config(adev, f, d, 1); -+} -+static inline int -+acx111_s_feature_set(acx_device_t *adev, u32 f, u32 d) -+{ -+ return acx111_s_set_feature_config(adev, f, d, 2); -+} -+ -+ -+/*********************************************************************** -+** acx100_s_init_memory_pools -+*/ -+static int -+acx100_s_init_memory_pools(acx_device_t *adev, const acx_ie_memmap_t *mmt) -+{ -+ acx100_ie_memblocksize_t MemoryBlockSize; -+ acx100_ie_memconfigoption_t MemoryConfigOption; -+ int TotalMemoryBlocks; -+ int RxBlockNum; -+ int TotalRxBlockSize; -+ int TxBlockNum; -+ int TotalTxBlockSize; -+ -+ FN_ENTER; -+ -+ /* Let's see if we can follow this: -+ first we select our memory block size (which I think is -+ completely arbitrary) */ -+ MemoryBlockSize.size = cpu_to_le16(adev->memblocksize); -+ -+ /* Then we alert the card to our decision of block size */ -+ if (OK != acx_s_configure(adev, &MemoryBlockSize, ACX100_IE_BLOCK_SIZE)) { -+ goto bad; -+ } -+ -+ /* We figure out how many total blocks we can create, using -+ the block size we chose, and the beginning and ending -+ memory pointers, i.e.: end-start/size */ -+ TotalMemoryBlocks = (le32_to_cpu(mmt->PoolEnd) - le32_to_cpu(mmt->PoolStart)) / adev->memblocksize; -+ -+ log(L_DEBUG, "TotalMemoryBlocks=%u (%u bytes)\n", -+ TotalMemoryBlocks, TotalMemoryBlocks*adev->memblocksize); -+ -+ /* MemoryConfigOption.DMA_config bitmask: -+ access to ACX memory is to be done: -+ 0x00080000 using PCI conf space?! -+ 0x00040000 using IO instructions? -+ 0x00000000 using memory access instructions -+ 0x00020000 using local memory block linked list (else what?) -+ 0x00010000 using host indirect descriptors (else host must access ACX memory?) -+ */ -+#if defined (ACX_MEM) -+ /* -+ * ACX ignores DMA_config for generic slave mode. -+ */ -+ MemoryConfigOption.DMA_config = 0; -+ /* Declare start of the Rx host pool */ -+ MemoryConfigOption.pRxHostDesc = cpu2acx(0); -+ log(L_DEBUG, "pRxHostDesc 0x%08X, rxhostdesc_startphy 0x%lX\n", -+ acx2cpu(MemoryConfigOption.pRxHostDesc), -+ (long)adev->rxhostdesc_startphy); -+#else -+ if (IS_PCI(adev)) { -+ MemoryConfigOption.DMA_config = cpu_to_le32(0x30000); -+ /* Declare start of the Rx host pool */ -+ MemoryConfigOption.pRxHostDesc = cpu2acx(adev->rxhostdesc_startphy); -+ log(L_DEBUG, "pRxHostDesc 0x%08X, rxhostdesc_startphy 0x%lX\n", -+ acx2cpu(MemoryConfigOption.pRxHostDesc), -+ (long)adev->rxhostdesc_startphy); -+ } else { -+ MemoryConfigOption.DMA_config = cpu_to_le32(0x20000); -+ } -+#endif -+ -+ /* 50% of the allotment of memory blocks go to tx descriptors */ -+ TxBlockNum = TotalMemoryBlocks / 2; -+ MemoryConfigOption.TxBlockNum = cpu_to_le16(TxBlockNum); -+ -+ /* and 50% go to the rx descriptors */ -+ RxBlockNum = TotalMemoryBlocks - TxBlockNum; -+ MemoryConfigOption.RxBlockNum = cpu_to_le16(RxBlockNum); -+ -+ /* size of the tx and rx descriptor queues */ -+ TotalTxBlockSize = TxBlockNum * adev->memblocksize; -+ TotalRxBlockSize = RxBlockNum * adev->memblocksize; -+ log(L_DEBUG, "TxBlockNum %u RxBlockNum %u TotalTxBlockSize %u " -+ "TotalTxBlockSize %u\n", TxBlockNum, RxBlockNum, -+ TotalTxBlockSize, TotalRxBlockSize); -+ -+ -+ /* align the tx descriptor queue to an alignment of 0x20 (32 bytes) */ -+ MemoryConfigOption.rx_mem = -+ cpu_to_le32((le32_to_cpu(mmt->PoolStart) + 0x1f) & ~0x1f); -+ -+ /* align the rx descriptor queue to units of 0x20 -+ * and offset it by the tx descriptor queue */ -+ MemoryConfigOption.tx_mem = -+ cpu_to_le32((le32_to_cpu(mmt->PoolStart) + TotalRxBlockSize + 0x1f) & ~0x1f); -+ log(L_DEBUG, "rx_mem %08X rx_mem %08X\n", -+ MemoryConfigOption.tx_mem, MemoryConfigOption.rx_mem); -+ -+ /* alert the device to our decision */ -+ if (OK != acx_s_configure(adev, &MemoryConfigOption, ACX1xx_IE_MEMORY_CONFIG_OPTIONS)) { -+ goto bad; -+ } -+ -+ /* and tell the device to kick it into gear */ -+ if (OK != acx_s_issue_cmd(adev, ACX100_CMD_INIT_MEMORY, NULL, 0)) { -+ goto bad; -+ } -+#ifdef ACX_MEM -+ /* -+ * slave memory interface has to manage the transmit pools for the ACX, -+ * so it needs to know what we chose here. -+ */ -+ adev->acx_txbuf_start = MemoryConfigOption.tx_mem; -+ adev->acx_txbuf_numblocks = MemoryConfigOption.TxBlockNum; -+#endif -+ -+ FN_EXIT1(OK); -+ return OK; -+bad: -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*********************************************************************** -+** acx100_s_create_dma_regions -+** -+** Note that this fn messes up heavily with hardware, but we cannot -+** lock it (we need to sleep). Not a problem since IRQs can't happen -+*/ -+static int -+acx100_s_create_dma_regions(acx_device_t *adev) -+{ -+ acx100_ie_queueconfig_t queueconf; -+ acx_ie_memmap_t memmap; -+ int res = NOT_OK; -+ u32 tx_queue_start, rx_queue_start; -+ -+ FN_ENTER; -+ -+ /* read out the acx100 physical start address for the queues */ -+ if (OK != acx_s_interrogate(adev, &memmap, ACX1xx_IE_MEMORY_MAP)) { -+ goto fail; -+ } -+ -+ tx_queue_start = le32_to_cpu(memmap.QueueStart); -+ rx_queue_start = tx_queue_start + TX_CNT * sizeof(txdesc_t); -+ -+ log(L_DEBUG, "initializing Queue Indicator\n"); -+ -+ memset(&queueconf, 0, sizeof(queueconf)); -+ -+ /* Not needed for PCI or slave memory, so we can avoid setting them altogether */ -+ if (IS_USB(adev)) { -+ queueconf.NumTxDesc = USB_TX_CNT; -+ queueconf.NumRxDesc = USB_RX_CNT; -+ } -+ -+ /* calculate size of queues */ -+ queueconf.AreaSize = cpu_to_le32( -+ TX_CNT * sizeof(txdesc_t) + -+ RX_CNT * sizeof(rxdesc_t) + 8 -+ ); -+ queueconf.NumTxQueues = 1; /* number of tx queues */ -+ /* sets the beginning of the tx descriptor queue */ -+ queueconf.TxQueueStart = memmap.QueueStart; -+ /* done by memset: queueconf.TxQueuePri = 0; */ -+ queueconf.RxQueueStart = cpu_to_le32(rx_queue_start); -+ queueconf.QueueOptions = 1; /* auto reset descriptor */ -+ /* sets the end of the rx descriptor queue */ -+ queueconf.QueueEnd = cpu_to_le32( -+ rx_queue_start + RX_CNT * sizeof(rxdesc_t) -+ ); -+ /* sets the beginning of the next queue */ -+ queueconf.HostQueueEnd = cpu_to_le32(le32_to_cpu(queueconf.QueueEnd) + 8); -+ if (OK != acx_s_configure(adev, &queueconf, ACX1xx_IE_QUEUE_CONFIG)) { -+ goto fail; -+ } -+ -+#if defined (ACX_MEM) -+ /* sets the beginning of the rx descriptor queue, after the tx descrs */ -+ adev->acx_queue_indicator = -+ (queueindicator_t *) le32_to_cpu (queueconf.QueueEnd); -+ if (OK != acxmem_s_create_hostdesc_queues(adev)) -+ goto fail; -+ -+ acxmem_create_desc_queues(adev, tx_queue_start, rx_queue_start); -+#else -+ if (IS_PCI(adev)) { -+ /* sets the beginning of the rx descriptor queue, after the tx descrs */ -+ if (OK != acxpci_s_create_hostdesc_queues(adev)) -+ goto fail; -+ acxpci_create_desc_queues(adev, tx_queue_start, rx_queue_start); -+ } -+#endif -+ -+ if (OK != acx_s_interrogate(adev, &memmap, ACX1xx_IE_MEMORY_MAP)) { -+ goto fail; -+ } -+ -+ /* -+ * Have to make sure we skip past the Queue Indicator (QueueEnd) and Host Queue Indicator -+ * maps, each of which are 8 bytes and follow immediately after the transmit and -+ * receive queues. -+ */ -+ memmap.PoolStart = cpu_to_le32( -+ (le32_to_cpu(memmap.QueueEnd) + 4 + 0x1f) & ~0x1f -+ ); -+ -+ if (OK != acx_s_configure(adev, &memmap, ACX1xx_IE_MEMORY_MAP)) { -+ goto fail; -+ } -+ -+ if (OK != acx100_s_init_memory_pools(adev, &memmap)) { -+ goto fail; -+ } -+ -+ res = OK; -+ goto end; -+ -+fail: -+ acx_s_msleep(1000); /* ? */ -+#if defined (ACX_MEM) -+ acxmem_free_desc_queues(adev); -+#else -+ if (IS_PCI(adev)) -+ acxpci_free_desc_queues(adev); -+#endif -+end: -+ FN_EXIT1(res); -+ return res; -+} -+ -+ -+/*********************************************************************** -+** acx111_s_create_dma_regions -+** -+** Note that this fn messes heavily with hardware, but we cannot -+** lock it (we need to sleep). Not a problem since IRQs can't happen -+*/ -+#define ACX111_PERCENT(percent) ((percent)/5) -+ -+static int -+acx111_s_create_dma_regions(acx_device_t *adev) -+{ -+ struct acx111_ie_memoryconfig memconf; -+ struct acx111_ie_queueconfig queueconf; -+ u32 tx_queue_start, rx_queue_start; -+ -+ FN_ENTER; -+ -+ /* Calculate memory positions and queue sizes */ -+ -+ /* Set up our host descriptor pool + data pool */ -+#if defined (ACX_MEM) -+ if (OK != acxmem_s_create_hostdesc_queues(adev)) -+ goto fail; -+#else -+ if (IS_PCI(adev)) { -+ if (OK != acxpci_s_create_hostdesc_queues(adev)) -+ goto fail; -+ } -+#endif -+ -+ memset(&memconf, 0, sizeof(memconf)); -+ /* the number of STAs (STA contexts) to support -+ ** NB: was set to 1 and everything seemed to work nevertheless... */ -+ memconf.no_of_stations = cpu_to_le16(VEC_SIZE(adev->sta_list)); -+ /* specify the memory block size. Default is 256 */ -+ memconf.memory_block_size = cpu_to_le16(adev->memblocksize); -+ /* let's use 50%/50% for tx/rx (specify percentage, units of 5%) */ -+ memconf.tx_rx_memory_block_allocation = ACX111_PERCENT(50); -+ /* set the count of our queues -+ ** NB: struct acx111_ie_memoryconfig shall be modified -+ ** if we ever will switch to more than one rx and/or tx queue */ -+ memconf.count_rx_queues = 1; -+ memconf.count_tx_queues = 1; -+ /* 0 == Busmaster Indirect Memory Organization, which is what we want -+ * (using linked host descs with their allocated mem). -+ * 2 == Generic Bus Slave */ -+ /* done by memset: memconf.options = 0; */ -+ /* let's use 25% for fragmentations and 75% for frame transfers -+ * (specified in units of 5%) */ -+ memconf.fragmentation = ACX111_PERCENT(75); -+ /* Rx descriptor queue config */ -+ memconf.rx_queue1_count_descs = RX_CNT; -+ memconf.rx_queue1_type = 7; /* must be set to 7 */ -+ /* done by memset: memconf.rx_queue1_prio = 0; low prio */ -+#if defined (ACX_MEM) -+ memconf.rx_queue1_host_rx_start = cpu2acx(adev->rxhostdesc_startphy); -+#else -+ if (IS_PCI(adev)) { -+ memconf.rx_queue1_host_rx_start = cpu2acx(adev->rxhostdesc_startphy); -+ } -+#endif -+ /* Tx descriptor queue config */ -+ memconf.tx_queue1_count_descs = TX_CNT; -+ /* done by memset: memconf.tx_queue1_attributes = 0; lowest priority */ -+ -+ /* NB1: this looks wrong: (memconf,ACX1xx_IE_QUEUE_CONFIG), -+ ** (queueconf,ACX1xx_IE_MEMORY_CONFIG_OPTIONS) look swapped, eh? -+ ** But it is actually correct wrt IE numbers. -+ ** NB2: sizeof(memconf) == 28 == 0x1c but configure(ACX1xx_IE_QUEUE_CONFIG) -+ ** writes 0x20 bytes (because same IE for acx100 uses struct acx100_ie_queueconfig -+ ** which is 4 bytes larger. what a mess. TODO: clean it up) */ -+ if (OK != acx_s_configure(adev, &memconf, ACX1xx_IE_QUEUE_CONFIG)) { -+ goto fail; -+ } -+ -+ acx_s_interrogate(adev, &queueconf, ACX1xx_IE_MEMORY_CONFIG_OPTIONS); -+ -+ tx_queue_start = le32_to_cpu(queueconf.tx1_queue_address); -+ rx_queue_start = le32_to_cpu(queueconf.rx1_queue_address); -+ -+ log(L_INIT, "dump queue head (from card):\n" -+ "len: %u\n" -+ "tx_memory_block_address: %X\n" -+ "rx_memory_block_address: %X\n" -+ "tx1_queue address: %X\n" -+ "rx1_queue address: %X\n", -+ le16_to_cpu(queueconf.len), -+ le32_to_cpu(queueconf.tx_memory_block_address), -+ le32_to_cpu(queueconf.rx_memory_block_address), -+ tx_queue_start, -+ rx_queue_start); -+ -+#if defined (ACX_MEM) -+ acxmem_create_desc_queues(adev, tx_queue_start, rx_queue_start); -+#else -+ if (IS_PCI(adev)) -+ acxpci_create_desc_queues(adev, tx_queue_start, rx_queue_start); -+#endif -+ -+ FN_EXIT1(OK); -+ return OK; -+fail: -+#if defined (ACX_MEM) -+ acxmem_free_desc_queues(adev); -+#else -+ if (IS_PCI(adev)) -+ acxpci_free_desc_queues(adev); -+#endif -+ -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*********************************************************************** -+*/ -+static void -+acx_s_initialize_rx_config(acx_device_t *adev) -+{ -+ struct { -+ u16 id; -+ u16 len; -+ u16 rx_cfg1; -+ u16 rx_cfg2; -+ } ACX_PACKED cfg; -+ -+ switch (adev->mode) { -+ case ACX_MODE_OFF: -+ adev->rx_config_1 = (u16) (0 -+ /* | RX_CFG1_INCLUDE_RXBUF_HDR */ -+ /* | RX_CFG1_FILTER_SSID */ -+ /* | RX_CFG1_FILTER_BCAST */ -+ /* | RX_CFG1_RCV_MC_ADDR1 */ -+ /* | RX_CFG1_RCV_MC_ADDR0 */ -+ /* | RX_CFG1_FILTER_ALL_MULTI */ -+ /* | RX_CFG1_FILTER_BSSID */ -+ /* | RX_CFG1_FILTER_MAC */ -+ /* | RX_CFG1_RCV_PROMISCUOUS */ -+ /* | RX_CFG1_INCLUDE_FCS */ -+ /* | RX_CFG1_INCLUDE_PHY_HDR */ -+ ); -+ adev->rx_config_2 = (u16) (0 -+ /*| RX_CFG2_RCV_ASSOC_REQ */ -+ /*| RX_CFG2_RCV_AUTH_FRAMES */ -+ /*| RX_CFG2_RCV_BEACON_FRAMES */ -+ /*| RX_CFG2_RCV_CONTENTION_FREE */ -+ /*| RX_CFG2_RCV_CTRL_FRAMES */ -+ /*| RX_CFG2_RCV_DATA_FRAMES */ -+ /*| RX_CFG2_RCV_BROKEN_FRAMES */ -+ /*| RX_CFG2_RCV_MGMT_FRAMES */ -+ /*| RX_CFG2_RCV_PROBE_REQ */ -+ /*| RX_CFG2_RCV_PROBE_RESP */ -+ /*| RX_CFG2_RCV_ACK_FRAMES */ -+ /*| RX_CFG2_RCV_OTHER */ -+ ); -+ break; -+ case ACX_MODE_MONITOR: -+ adev->rx_config_1 = (u16) (0 -+ /* | RX_CFG1_INCLUDE_RXBUF_HDR */ -+ /* | RX_CFG1_FILTER_SSID */ -+ /* | RX_CFG1_FILTER_BCAST */ -+ /* | RX_CFG1_RCV_MC_ADDR1 */ -+ /* | RX_CFG1_RCV_MC_ADDR0 */ -+ /* | RX_CFG1_FILTER_ALL_MULTI */ -+ /* | RX_CFG1_FILTER_BSSID */ -+ /* | RX_CFG1_FILTER_MAC */ -+ | RX_CFG1_RCV_PROMISCUOUS -+ /* | RX_CFG1_INCLUDE_FCS */ -+ /* | RX_CFG1_INCLUDE_PHY_HDR */ -+ ); -+ adev->rx_config_2 = (u16) (0 -+ | RX_CFG2_RCV_ASSOC_REQ -+ | RX_CFG2_RCV_AUTH_FRAMES -+ | RX_CFG2_RCV_BEACON_FRAMES -+ | RX_CFG2_RCV_CONTENTION_FREE -+ | RX_CFG2_RCV_CTRL_FRAMES -+ | RX_CFG2_RCV_DATA_FRAMES -+ | RX_CFG2_RCV_BROKEN_FRAMES -+ | RX_CFG2_RCV_MGMT_FRAMES -+ | RX_CFG2_RCV_PROBE_REQ -+ | RX_CFG2_RCV_PROBE_RESP -+ | RX_CFG2_RCV_ACK_FRAMES -+ | RX_CFG2_RCV_OTHER -+ ); -+ break; -+ default: -+ adev->rx_config_1 = (u16) (0 -+ /* | RX_CFG1_INCLUDE_RXBUF_HDR */ -+ /* | RX_CFG1_FILTER_SSID */ -+ /* | RX_CFG1_FILTER_BCAST */ -+ /* | RX_CFG1_RCV_MC_ADDR1 */ -+ /* | RX_CFG1_RCV_MC_ADDR0 */ -+ /* | RX_CFG1_FILTER_ALL_MULTI */ -+ /* | RX_CFG1_FILTER_BSSID */ -+ | RX_CFG1_FILTER_MAC -+ /* | RX_CFG1_RCV_PROMISCUOUS */ -+ /* | RX_CFG1_INCLUDE_FCS */ -+ /* | RX_CFG1_INCLUDE_PHY_HDR */ -+ ); -+ adev->rx_config_2 = (u16) (0 -+ | RX_CFG2_RCV_ASSOC_REQ -+ | RX_CFG2_RCV_AUTH_FRAMES -+ | RX_CFG2_RCV_BEACON_FRAMES -+ | RX_CFG2_RCV_CONTENTION_FREE -+ | RX_CFG2_RCV_CTRL_FRAMES -+ | RX_CFG2_RCV_DATA_FRAMES -+ /*| RX_CFG2_RCV_BROKEN_FRAMES */ -+ | RX_CFG2_RCV_MGMT_FRAMES -+ | RX_CFG2_RCV_PROBE_REQ -+ | RX_CFG2_RCV_PROBE_RESP -+ /*| RX_CFG2_RCV_ACK_FRAMES */ -+ | RX_CFG2_RCV_OTHER -+ ); -+ break; -+ } -+ adev->rx_config_1 |= RX_CFG1_INCLUDE_RXBUF_HDR; -+ -+ if ((adev->rx_config_1 & RX_CFG1_INCLUDE_PHY_HDR) -+ || (adev->firmware_numver >= 0x02000000)) -+ adev->phy_header_len = IS_ACX111(adev) ? 8 : 4; -+ else -+ adev->phy_header_len = 0; -+ -+ log(L_INIT, "setting RXconfig to %04X:%04X\n", -+ adev->rx_config_1, adev->rx_config_2); -+ cfg.rx_cfg1 = cpu_to_le16(adev->rx_config_1); -+ cfg.rx_cfg2 = cpu_to_le16(adev->rx_config_2); -+ acx_s_configure(adev, &cfg, ACX1xx_IE_RXCONFIG); -+} -+ -+ -+/*********************************************************************** -+** acx_s_set_defaults -+*/ -+void -+acx_s_set_defaults(acx_device_t *adev) -+{ -+ unsigned long flags; -+ -+ FN_ENTER; -+ -+ /* do it before getting settings, prevent bogus channel 0 warning */ -+ adev->channel = 1; -+ -+ /* query some settings from the card. -+ * NOTE: for some settings, e.g. CCA and ED (ACX100!), an initial -+ * query is REQUIRED, otherwise the card won't work correctly! */ -+ adev->get_mask = GETSET_ANTENNA|GETSET_SENSITIVITY|GETSET_STATION_ID|GETSET_REG_DOMAIN; -+ /* Only ACX100 supports ED and CCA */ -+ if (IS_ACX100(adev)) -+ adev->get_mask |= GETSET_CCA|GETSET_ED_THRESH; -+ -+ acx_s_update_card_settings(adev); -+ -+ acx_lock(adev, flags); -+ -+ /* set our global interrupt mask */ -+#if defined (ACX_MEM) -+ acxmem_set_interrupt_mask(adev); -+#else -+ if (IS_PCI(adev)) -+ acxpci_set_interrupt_mask(adev); -+#endif -+ -+ adev->led_power = 1; /* LED is active on startup */ -+ adev->brange_max_quality = 60; /* LED blink max quality is 60 */ -+ adev->brange_time_last_state_change = jiffies; -+ -+ /* copy the MAC address we just got from the card -+ * into our MAC address used during current 802.11 session */ -+ MAC_COPY(adev->dev_addr, adev->ndev->dev_addr); -+ MAC_BCAST(adev->ap); -+ -+ adev->essid_len = -+ snprintf(adev->essid, sizeof(adev->essid), "STA%02X%02X%02X", -+ adev->dev_addr[3], adev->dev_addr[4], adev->dev_addr[5]); -+ adev->essid_active = 1; -+ -+ /* we have a nick field to waste, so why not abuse it -+ * to announce the driver version? ;-) */ -+ strncpy(adev->nick, "acx " ACX_RELEASE, IW_ESSID_MAX_SIZE); -+ -+#if defined (ACX_MEM) -+ adev->reg_dom_id = adev->cfgopt_domains.list[0]; -+#else -+ if (IS_PCI(adev)) { /* FIXME: this should be made to apply to USB, too! */ -+ /* first regulatory domain entry in EEPROM == default reg. domain */ -+ adev->reg_dom_id = adev->cfgopt_domains.list[0]; -+ } -+#endif -+ -+ /* 0xffff would be better, but then we won't get a "scan complete" -+ * interrupt, so our current infrastructure will fail: */ -+ adev->scan_count = 1; -+ adev->scan_mode = ACX_SCAN_OPT_ACTIVE; -+ adev->scan_duration = 100; -+ adev->scan_probe_delay = 200; -+ /* reported to break scanning: adev->scan_probe_delay = adev->cfgopt_probe_delay; */ -+ adev->scan_rate = ACX_SCAN_RATE_1; -+ -+ adev->mode = ACX_MODE_2_STA; -+ adev->auth_alg = WLAN_AUTH_ALG_OPENSYSTEM; -+ adev->listen_interval = 100; -+ adev->beacon_interval = DEFAULT_BEACON_INTERVAL; -+ adev->dtim_interval = DEFAULT_DTIM_INTERVAL; -+ -+ adev->msdu_lifetime = DEFAULT_MSDU_LIFETIME; -+ -+ adev->rts_threshold = DEFAULT_RTS_THRESHOLD; -+ adev->frag_threshold = 2346; -+ -+ /* use standard default values for retry limits */ -+ adev->short_retry = 7; /* max. retries for (short) non-RTS packets */ -+ adev->long_retry = 4; /* max. retries for long (RTS) packets */ -+ -+ adev->preamble_mode = 2; /* auto */ -+ adev->fallback_threshold = 3; -+ adev->stepup_threshold = 10; -+ adev->rate_bcast = RATE111_1; -+ adev->rate_bcast100 = RATE100_1; -+ adev->rate_basic = RATE111_1 | RATE111_2; -+ adev->rate_auto = 1; -+ if (IS_ACX111(adev)) { -+ adev->rate_oper = RATE111_ALL; -+ } else { -+ adev->rate_oper = RATE111_ACX100_COMPAT; -+ } -+ -+ /* Supported Rates element - the rates here are given in units of -+ * 500 kbit/s, plus 0x80 added. See 802.11-1999.pdf item 7.3.2.2 */ -+ acx_l_update_ratevector(adev); -+ -+ /* set some more defaults */ -+ if (IS_ACX111(adev)) { -+ /* 30mW (15dBm) is default, at least in my acx111 card: */ -+ adev->tx_level_dbm = 15; -+ } else { -+ /* don't use max. level, since it might be dangerous -+ * (e.g. WRT54G people experience -+ * excessive Tx power damage!) */ -+ adev->tx_level_dbm = 18; -+ /* -+ * Lower power for the iPaq hx4700 -+ */ -+ if (IS_MEM(adev)) { -+ adev->tx_level_dbm = 14; -+ } -+ } -+ /* adev->tx_level_auto = 1; */ -+ if (IS_ACX111(adev)) { -+ /* start with sensitivity level 1 out of 3: */ -+ adev->sensitivity = 1; -+ } -+ -+/* #define ENABLE_POWER_SAVE */ -+#ifdef ENABLE_POWER_SAVE -+ adev->ps_wakeup_cfg = PS_CFG_ENABLE | PS_CFG_WAKEUP_ALL_BEAC; -+ adev->ps_listen_interval = 1; -+ adev->ps_options = PS_OPT_ENA_ENHANCED_PS | PS_OPT_TX_PSPOLL | PS_OPT_STILL_RCV_BCASTS; -+ adev->ps_hangover_period = 30; -+ adev->ps_enhanced_transition_time = 0; -+#else -+ adev->ps_wakeup_cfg = 0; -+ adev->ps_listen_interval = 0; -+ adev->ps_options = 0; -+ adev->ps_hangover_period = 0; -+ adev->ps_enhanced_transition_time = 0; -+#endif -+ -+ /* These settings will be set in fw on ifup */ -+ adev->set_mask = 0 -+ | GETSET_RETRY -+ | SET_MSDU_LIFETIME -+ /* configure card to do rate fallback when in auto rate mode */ -+ | SET_RATE_FALLBACK -+ | SET_RXCONFIG -+ | GETSET_TXPOWER -+ /* better re-init the antenna value we got above */ -+ | GETSET_ANTENNA -+#if POWER_SAVE_80211 -+ | GETSET_POWER_80211 -+#endif -+ ; -+ -+ acx_unlock(adev, flags); -+ acx_lock_unhold(); /* hold time 844814 CPU ticks @2GHz */ -+ -+ acx_s_initialize_rx_config(adev); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** FIXME: this should be solved in a general way for all radio types -+** by decoding the radio firmware module, -+** since it probably has some standard structure describing how to -+** set the power level of the radio module which it controls. -+** Or maybe not, since the radio module probably has a function interface -+** instead which then manages Tx level programming :-\ -+*/ -+static int -+acx111_s_set_tx_level(acx_device_t *adev, u8 level_dbm) -+{ -+ struct acx111_ie_tx_level tx_level; -+ -+ /* my acx111 card has two power levels in its configoptions (== EEPROM): -+ * 1 (30mW) [15dBm] -+ * 2 (10mW) [10dBm] -+ * For now, just assume all other acx111 cards have the same. -+ * FIXME: Ideally we would query it here, but we first need a -+ * standard way to query individual configoptions easily. -+ * Well, now we have proper cfgopt txpower variables, but this still -+ * hasn't been done yet, since it also requires dBm <-> mW conversion here... */ -+ if (level_dbm <= 12) { -+ tx_level.level = 2; /* 10 dBm */ -+ adev->tx_level_dbm = 10; -+ } else { -+ tx_level.level = 1; /* 15 dBm */ -+ adev->tx_level_dbm = 15; -+ } -+ if (level_dbm != adev->tx_level_dbm) -+ log(L_INIT, "acx111 firmware has specific " -+ "power levels only: adjusted %d dBm to %d dBm!\n", -+ level_dbm, adev->tx_level_dbm); -+ -+ return acx_s_configure(adev, &tx_level, ACX1xx_IE_DOT11_TX_POWER_LEVEL); -+} -+ -+static int -+acx_s_set_tx_level(acx_device_t *adev, u8 level_dbm) -+{ -+ if (IS_ACX111(adev)) { -+ return acx111_s_set_tx_level(adev, level_dbm); -+ } -+#if defined (ACX_MEM) -+ return acx100mem_s_set_tx_level(adev, level_dbm); -+#else -+ if (IS_PCI(adev)) { -+ return acx100pci_s_set_tx_level(adev, level_dbm); -+ } -+#endif -+ return OK; -+} -+ -+ -+/*********************************************************************** -+*/ -+#ifdef UNUSED -+/* Returns the current tx level (ACX111) */ -+static u8 -+acx111_s_get_tx_level(acx_device_t *adev) -+{ -+ struct acx111_ie_tx_level tx_level; -+ -+ tx_level.level = 0; -+ acx_s_interrogate(adev, &tx_level, ACX1xx_IE_DOT11_TX_POWER_LEVEL); -+ return tx_level.level; -+} -+#endif -+ -+ -+/*********************************************************************** -+** acx_l_rxmonitor -+** Called from IRQ context only -+*/ -+static void -+acx_l_rxmonitor(acx_device_t *adev, const rxbuffer_t *rxbuf) -+{ -+ wlansniffrm_t *msg; -+ struct sk_buff *skb; -+ void *datap; -+ unsigned int skb_len; -+ int payload_offset; -+ -+ FN_ENTER; -+ -+ /* we are in big luck: the acx100 doesn't modify any of the fields */ -+ /* in the 802.11 frame. just pass this packet into the PF_PACKET */ -+ /* subsystem. yeah. */ -+ payload_offset = ((u8*)acx_get_wlan_hdr(adev, rxbuf) - (u8*)rxbuf); -+ skb_len = RXBUF_BYTES_USED(rxbuf) - payload_offset; -+ -+ /* sanity check */ -+ if (unlikely(skb_len > WLAN_A4FR_MAXLEN_WEP)) { -+ printk("%s: monitor mode panic: oversized frame!\n", -+ adev->ndev->name); -+ goto end; -+ } -+ -+ if (adev->ndev->type == ARPHRD_IEEE80211_PRISM) -+ skb_len += sizeof(*msg); -+ -+ /* allocate skb */ -+ skb = dev_alloc_skb(skb_len); -+ if (unlikely(!skb)) { -+ printk("%s: no memory for skb (%u bytes)\n", -+ adev->ndev->name, skb_len); -+ goto end; -+ } -+ -+ skb_put(skb, skb_len); -+ -+ if (adev->ndev->type == ARPHRD_IEEE80211) { -+ /* when in raw 802.11 mode, just copy frame as-is */ -+ datap = skb->data; -+ } else if (adev->ndev->type == ARPHRD_IEEE80211_PRISM) { -+ /* emulate prism header */ -+ msg = (wlansniffrm_t*)skb->data; -+ datap = msg + 1; -+ -+ msg->msgcode = WLANSNIFFFRM; -+ msg->msglen = sizeof(*msg); -+ strncpy(msg->devname, adev->ndev->name, sizeof(msg->devname)-1); -+ msg->devname[sizeof(msg->devname)-1] = '\0'; -+ -+ msg->hosttime.did = WLANSNIFFFRM_hosttime; -+ msg->hosttime.status = WLANITEM_STATUS_data_ok; -+ msg->hosttime.len = 4; -+ msg->hosttime.data = jiffies; -+ -+ msg->mactime.did = WLANSNIFFFRM_mactime; -+ msg->mactime.status = WLANITEM_STATUS_data_ok; -+ msg->mactime.len = 4; -+ msg->mactime.data = rxbuf->time; -+ -+ msg->channel.did = WLANSNIFFFRM_channel; -+ msg->channel.status = WLANITEM_STATUS_data_ok; -+ msg->channel.len = 4; -+ msg->channel.data = adev->channel; -+ -+ msg->rssi.did = WLANSNIFFFRM_rssi; -+ msg->rssi.status = WLANITEM_STATUS_no_value; -+ msg->rssi.len = 4; -+ msg->rssi.data = 0; -+ -+ msg->sq.did = WLANSNIFFFRM_sq; -+ msg->sq.status = WLANITEM_STATUS_no_value; -+ msg->sq.len = 4; -+ msg->sq.data = 0; -+ -+ msg->signal.did = WLANSNIFFFRM_signal; -+ msg->signal.status = WLANITEM_STATUS_data_ok; -+ msg->signal.len = 4; -+ msg->signal.data = rxbuf->phy_snr; -+ -+ msg->noise.did = WLANSNIFFFRM_noise; -+ msg->noise.status = WLANITEM_STATUS_data_ok; -+ msg->noise.len = 4; -+ msg->noise.data = rxbuf->phy_level; -+ -+ msg->rate.did = WLANSNIFFFRM_rate; -+ msg->rate.status = WLANITEM_STATUS_data_ok; -+ msg->rate.len = 4; -+ msg->rate.data = rxbuf->phy_plcp_signal / 5; -+ -+ msg->istx.did = WLANSNIFFFRM_istx; -+ msg->istx.status = WLANITEM_STATUS_data_ok; -+ msg->istx.len = 4; -+ msg->istx.data = 0; /* tx=0: it's not a tx packet */ -+ -+ skb_len -= sizeof(*msg); -+ -+ msg->frmlen.did = WLANSNIFFFRM_signal; -+ msg->frmlen.status = WLANITEM_STATUS_data_ok; -+ msg->frmlen.len = 4; -+ msg->frmlen.data = skb_len; -+ } else { -+ printk("acx: unsupported netdev type %d!\n", adev->ndev->type); -+ dev_kfree_skb(skb); -+ return; -+ } -+ -+ /* sanity check (keep it here) */ -+ if (unlikely((int)skb_len < 0)) { -+ printk("acx: skb_len=%d. Driver bug, please report\n", (int)skb_len); -+ dev_kfree_skb(skb); -+ return; -+ } -+ memcpy(datap, ((unsigned char*)rxbuf)+payload_offset, skb_len); -+ -+ skb->dev = adev->ndev; -+ skb->dev->last_rx = jiffies; -+ -+ skb_reset_mac_header(skb); -+ skb->ip_summed = CHECKSUM_NONE; -+ skb->pkt_type = PACKET_OTHERHOST; -+ skb->protocol = htons(ETH_P_80211_RAW); -+ netif_rx(skb); -+ -+ adev->stats.rx_packets++; -+ adev->stats.rx_bytes += skb->len; -+ -+end: -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_l_rx_ieee802_11_frame -+** -+** Called from IRQ context only -+*/ -+ -+/* All these contortions are for saner dup logging -+** -+** We want: (a) to know about excessive dups -+** (b) to not spam kernel log about occasional dups -+** -+** 1/64 threshold was chosen by running "ping -A" -+** It gave "rx: 59 DUPs in 2878 packets" only with 4 parallel -+** "ping -A" streams running. */ -+/* 2005-10-11: bumped up to 1/8 -+** subtract a $smallint from dup_count in order to -+** avoid "2 DUPs in 19 packets" messages */ -+static inline int -+acx_l_handle_dup(acx_device_t *adev, u16 seq) -+{ -+ if (adev->dup_count) { -+ adev->nondup_count++; -+ if (time_after(jiffies, adev->dup_msg_expiry)) { -+ /* Log only if more than 1 dup in 64 packets */ -+ if (adev->nondup_count/8 < adev->dup_count-5) { -+ printk(KERN_INFO "%s: rx: %d DUPs in " -+ "%d packets received in 10 secs\n", -+ adev->ndev->name, -+ adev->dup_count, -+ adev->nondup_count); -+ } -+ adev->dup_count = 0; -+ adev->nondup_count = 0; -+ } -+ } -+ if (unlikely(seq == adev->last_seq_ctrl)) { -+ if (!adev->dup_count++) -+ adev->dup_msg_expiry = jiffies + 10*HZ; -+ adev->stats.rx_errors++; -+ return 1; /* a dup */ -+ } -+ adev->last_seq_ctrl = seq; -+ return 0; -+} -+ -+static int -+acx_l_rx_ieee802_11_frame(acx_device_t *adev, rxbuffer_t *rxbuf) -+{ -+ unsigned int ftype, fstype; -+ const wlan_hdr_t *hdr; -+ int result = NOT_OK; -+ -+ FN_ENTER; -+ -+ hdr = acx_get_wlan_hdr(adev, rxbuf); -+ -+ /* see IEEE 802.11-1999.pdf chapter 7 "MAC frame formats" */ -+ if (unlikely((hdr->fc & WF_FC_PVERi) != 0)) { -+ printk_ratelimited(KERN_INFO "rx: unsupported 802.11 protocol\n"); -+ goto end; -+ } -+ -+ ftype = hdr->fc & WF_FC_FTYPEi; -+ fstype = hdr->fc & WF_FC_FSTYPEi; -+ -+ switch (ftype) { -+ /* check data frames first, for speed */ -+ case WF_FTYPE_DATAi: -+ switch (fstype) { -+ case WF_FSTYPE_DATAONLYi: -+ if (acx_l_handle_dup(adev, hdr->seq)) -+ break; /* a dup, simply discard it */ -+ -+ /* TODO: -+ if (WF_FC_FROMTODSi == (hdr->fc & WF_FC_FROMTODSi)) { -+ result = acx_l_process_data_frame_wds(adev, rxbuf); -+ break; -+ } -+ */ -+ -+ switch (adev->mode) { -+ case ACX_MODE_3_AP: -+ result = acx_l_process_data_frame_master(adev, rxbuf); -+ break; -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_2_STA: -+ result = acx_l_process_data_frame_client(adev, rxbuf); -+ break; -+ } -+ case WF_FSTYPE_DATA_CFACKi: -+ case WF_FSTYPE_DATA_CFPOLLi: -+ case WF_FSTYPE_DATA_CFACK_CFPOLLi: -+ case WF_FSTYPE_CFPOLLi: -+ case WF_FSTYPE_CFACK_CFPOLLi: -+ /* see above. -+ acx_process_class_frame(adev, rxbuf, 3); */ -+ break; -+ case WF_FSTYPE_NULLi: -+ /* acx_l_process_NULL_frame(adev, rxbuf, 3); */ -+ break; -+ /* FIXME: same here, see above */ -+ case WF_FSTYPE_CFACKi: -+ default: -+ break; -+ } -+ break; -+ case WF_FTYPE_MGMTi: -+ result = acx_l_process_mgmt_frame(adev, rxbuf); -+ break; -+ case WF_FTYPE_CTLi: -+ if (fstype == WF_FSTYPE_PSPOLLi) -+ result = OK; -+ /* this call is irrelevant, since -+ * acx_process_class_frame is a stub, so return -+ * immediately instead. -+ * return acx_process_class_frame(adev, rxbuf, 3); */ -+ break; -+ default: -+ break; -+ } -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_l_process_rxbuf -+** -+** NB: used by USB code also -+*/ -+void -+acx_l_process_rxbuf(acx_device_t *adev, rxbuffer_t *rxbuf) -+{ -+ struct wlan_hdr *hdr; -+ unsigned int qual; -+ int buf_len; -+ u16 fc; -+ -+ hdr = acx_get_wlan_hdr(adev, rxbuf); -+ fc = le16_to_cpu(hdr->fc); -+ /* length of frame from control field to first byte of FCS */ -+ buf_len = RXBUF_BYTES_RCVD(adev, rxbuf); -+ -+ if ( ((WF_FC_FSTYPE & fc) != WF_FSTYPE_BEACON) -+ || (acx_debug & L_XFER_BEACON) -+ ) { -+ log(L_XFER|L_DATA, "rx: %s " -+ "time:%u len:%u signal:%u SNR:%u macstat:%02X " -+ "phystat:%02X phyrate:%u status:%u\n", -+ acx_get_packet_type_string(fc), -+ le32_to_cpu(rxbuf->time), -+ buf_len, -+ acx_signal_to_winlevel(rxbuf->phy_level), -+ acx_signal_to_winlevel(rxbuf->phy_snr), -+ rxbuf->mac_status, -+ rxbuf->phy_stat_baseband, -+ rxbuf->phy_plcp_signal, -+ adev->status); -+ } -+ -+ if (unlikely(acx_debug & L_DATA)) { -+ printk("rx: 802.11 buf[%u]: ", buf_len); -+ acx_dump_bytes(hdr, buf_len); -+ } -+ -+ /* FIXME: should check for Rx errors (rxbuf->mac_status? -+ * discard broken packets - but NOT for monitor!) -+ * and update Rx packet statistics here */ -+ -+ if (unlikely(adev->mode == ACX_MODE_MONITOR)) { -+ acx_l_rxmonitor(adev, rxbuf); -+ } else if (likely(buf_len >= WLAN_HDR_A3_LEN)) { -+ acx_l_rx_ieee802_11_frame(adev, rxbuf); -+ } else { -+ log(L_DEBUG|L_XFER|L_DATA, -+ "rx: NOT receiving packet (%s): " -+ "size too small (%u)\n", -+ acx_get_packet_type_string(fc), -+ buf_len); -+ } -+ -+ /* Now check Rx quality level, AFTER processing packet. -+ * I tried to figure out how to map these levels to dBm -+ * values, but for the life of me I really didn't -+ * manage to get it. Either these values are not meant to -+ * be expressed in dBm, or it's some pretty complicated -+ * calculation. */ -+ -+#ifdef FROM_SCAN_SOURCE_ONLY -+ /* only consider packets originating from the MAC -+ * address of the device that's managing our BSSID. -+ * Disable it for now, since it removes information (levels -+ * from different peers) and slows the Rx path. */ -+ if (adev->ap_client -+ && mac_is_equal(hdr->a2, adev->ap_client->address)) { -+#endif -+ adev->wstats.qual.level = acx_signal_to_winlevel(rxbuf->phy_level); -+ adev->wstats.qual.noise = acx_signal_to_winlevel(rxbuf->phy_snr); -+#ifndef OLD_QUALITY -+ qual = acx_signal_determine_quality(adev->wstats.qual.level, -+ adev->wstats.qual.noise); -+#else -+ qual = (adev->wstats.qual.noise <= 100) ? -+ 100 - adev->wstats.qual.noise : 0; -+#endif -+ adev->wstats.qual.qual = qual; -+ adev->wstats.qual.updated = 7; /* all 3 indicators updated */ -+#ifdef FROM_SCAN_SOURCE_ONLY -+ } -+#endif -+} -+ -+ -+/*********************************************************************** -+** acx_l_handle_txrate_auto -+** -+** Theory of operation: -+** client->rate_cap is a bitmask of rates client is capable of. -+** client->rate_cfg is a bitmask of allowed (configured) rates. -+** It is set as a result of iwconfig rate N [auto] -+** or iwpriv set_rates "N,N,N N,N,N" commands. -+** It can be fixed (e.g. 0x0080 == 18Mbit only), -+** auto (0x00ff == 18Mbit or any lower value), -+** and code handles any bitmask (0x1081 == try 54Mbit,18Mbit,1Mbit _only_). -+** -+** client->rate_cur is a value for rate111 field in tx descriptor. -+** It is always set to txrate_cfg sans zero or more most significant -+** bits. This routine handles selection of new rate_cur value depending on -+** outcome of last tx event. -+** -+** client->rate_100 is a precalculated rate value for acx100 -+** (we can do without it, but will need to calculate it on each tx). -+** -+** You cannot configure mixed usage of 5.5 and/or 11Mbit rate -+** with PBCC and CCK modulation. Either both at CCK or both at PBCC. -+** In theory you can implement it, but so far it is considered not worth doing. -+** -+** 22Mbit, of course, is PBCC always. */ -+ -+/* maps acx100 tx descr rate field to acx111 one */ -+static u16 -+rate100to111(u8 r) -+{ -+ switch (r) { -+ case RATE100_1: return RATE111_1; -+ case RATE100_2: return RATE111_2; -+ case RATE100_5: -+ case (RATE100_5 | RATE100_PBCC511): return RATE111_5; -+ case RATE100_11: -+ case (RATE100_11 | RATE100_PBCC511): return RATE111_11; -+ case RATE100_22: return RATE111_22; -+ default: -+ printk("acx: unexpected acx100 txrate: %u! " -+ "Please report\n", r); -+ return RATE111_1; -+ } -+} -+ -+ -+void -+acx_l_handle_txrate_auto(acx_device_t *adev, struct client *txc, -+ u16 cur, u8 rate100, u16 rate111, -+ u8 error, int pkts_to_ignore) -+{ -+ u16 sent_rate; -+ int slower_rate_was_used; -+ -+ /* vda: hmm. current code will do this: -+ ** 1. send packets at 11 Mbit, stepup++ -+ ** 2. will try to send at 22Mbit. hardware will see no ACK, -+ ** retries at 11Mbit, success. code notes that used rate -+ ** is lower. stepup = 0, fallback++ -+ ** 3. repeat step 2 fallback_count times. Fall back to -+ ** 11Mbit. go to step 1. -+ ** If stepup_count is large (say, 16) and fallback_count -+ ** is small (3), this wouldn't be too bad wrt throughput */ -+ -+ if (unlikely(!cur)) { -+ printk("acx: BUG! ratemask is empty\n"); -+ return; /* or else we may lock up the box */ -+ } -+ -+ /* do some preparations, i.e. calculate the one rate that was -+ * used to send this packet */ -+ if (IS_ACX111(adev)) { -+ sent_rate = 1 << highest_bit(rate111 & RATE111_ALL); -+ } else { -+ sent_rate = rate100to111(rate100); -+ } -+ /* sent_rate has only one bit set now, corresponding to tx rate -+ * which was used by hardware to tx this particular packet */ -+ -+ /* now do the actual auto rate management */ -+ log(L_XFER, "tx: %sclient=%p/"MACSTR" used=%04X cur=%04X cfg=%04X " -+ "__=%u/%u ^^=%u/%u\n", -+ (txc->ignore_count > 0) ? "[IGN] " : "", -+ txc, MAC(txc->address), sent_rate, cur, txc->rate_cfg, -+ txc->fallback_count, adev->fallback_threshold, -+ txc->stepup_count, adev->stepup_threshold -+ ); -+ -+ /* we need to ignore old packets already in the tx queue since -+ * they use older rate bytes configured before our last rate change, -+ * otherwise our mechanism will get confused by interpreting old data. -+ * Do it after logging above */ -+ if (txc->ignore_count) { -+ txc->ignore_count--; -+ return; -+ } -+ -+ /* true only if the only nonzero bit in sent_rate is -+ ** less significant than highest nonzero bit in cur */ -+ slower_rate_was_used = ( cur > ((sent_rate<<1)-1) ); -+ -+ if (slower_rate_was_used || error) { -+ txc->stepup_count = 0; -+ if (++txc->fallback_count <= adev->fallback_threshold) -+ return; -+ txc->fallback_count = 0; -+ -+ /* clear highest 1 bit in cur */ -+ sent_rate = RATE111_54; -+ while (!(cur & sent_rate)) sent_rate >>= 1; -+ CLEAR_BIT(cur, sent_rate); -+ if (!cur) /* we can't disable all rates! */ -+ cur = sent_rate; -+ log(L_XFER, "tx: falling back to ratemask %04X\n", cur); -+ -+ } else { /* there was neither lower rate nor error */ -+ txc->fallback_count = 0; -+ if (++txc->stepup_count <= adev->stepup_threshold) -+ return; -+ txc->stepup_count = 0; -+ -+ /* Sanitize. Sort of not needed, but I dont trust hw that much... -+ ** what if it can report bogus tx rates sometimes? */ -+ while (!(cur & sent_rate)) sent_rate >>= 1; -+ -+ /* try to find a higher sent_rate that isn't yet in our -+ * current set, but is an allowed cfg */ -+ while (1) { -+ sent_rate <<= 1; -+ if (sent_rate > txc->rate_cfg) -+ /* no higher rates allowed by config */ -+ return; -+ if (!(cur & sent_rate) && (txc->rate_cfg & sent_rate)) -+ /* found */ -+ break; -+ /* not found, try higher one */ -+ } -+ SET_BIT(cur, sent_rate); -+ log(L_XFER, "tx: stepping up to ratemask %04X\n", cur); -+ } -+ -+ txc->rate_cur = cur; -+ txc->ignore_count = pkts_to_ignore; -+ /* calculate acx100 style rate byte if needed */ -+ if (IS_ACX100(adev)) { -+ txc->rate_100 = acx_bitpos2rate100[highest_bit(cur)]; -+ } -+} -+ -+ -+/*********************************************************************** -+** acx_i_start_xmit -+** -+** Called by network core. Can be called outside of process context. -+*/ -+int -+acx_i_start_xmit(struct sk_buff *skb, struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ tx_t *tx; -+ void *txbuf; -+ unsigned long flags; -+ int txresult = NOT_OK; -+ int len; -+ -+ FN_ENTER; -+ -+ if (unlikely(!skb)) { -+ /* indicate success */ -+ txresult = OK; -+ goto end_no_unlock; -+ } -+ if (unlikely(!adev)) { -+ goto end_no_unlock; -+ } -+ -+ acx_lock(adev, flags); -+ -+ if (unlikely(!(adev->dev_state_mask & ACX_STATE_IFACE_UP))) { -+ goto end; -+ } -+ if (unlikely(adev->mode == ACX_MODE_OFF)) { -+ goto end; -+ } -+ if (unlikely(acx_queue_stopped(ndev))) { -+ log(L_DEBUG, "%s: called when queue stopped\n", __func__); -+ goto end; -+ } -+ if (unlikely(ACX_STATUS_4_ASSOCIATED != adev->status)) { -+ log(L_XFER, "trying to xmit, but not associated yet: " -+ "aborting...\n"); -+ /* silently drop the packet, since we're not connected yet */ -+ txresult = OK; -+ /* ...but indicate an error nevertheless */ -+ adev->stats.tx_errors++; -+ goto end; -+ } -+ -+ tx = acx_l_alloc_tx(adev); -+ if (unlikely(!tx)) { -+#ifndef ACX_MEM -+ /* -+ * generic slave interface has to make do with the tiny amount, around -+ * 7k, of transmit buffer space on the ACX itself. It is likely this will -+ * frequently be full. -+ */ -+ printk_ratelimited("%s: start_xmit: txdesc ring is full, " -+ "dropping tx\n", ndev->name); -+#endif -+ txresult = NOT_OK; -+ goto end; -+ } -+ -+ txbuf = acx_l_get_txbuf(adev, tx); -+ if (unlikely(!txbuf)) { -+ /* Card was removed */ -+ txresult = NOT_OK; -+ acx_l_dealloc_tx(adev, tx); -+ goto end; -+ } -+ len = acx_ether_to_txbuf(adev, txbuf, skb); -+ if (unlikely(len < 0)) { -+ /* Error in packet conversion */ -+ txresult = NOT_OK; -+ acx_l_dealloc_tx(adev, tx); -+ goto end; -+ } -+ acx_l_tx_data(adev, tx, len); -+ ndev->trans_start = jiffies; -+ -+ txresult = OK; -+ adev->stats.tx_packets++; -+ adev->stats.tx_bytes += skb->len; -+ -+end: -+ acx_unlock(adev, flags); -+ -+end_no_unlock: -+ if ((txresult == OK) && skb) -+ dev_kfree_skb_any(skb); -+ -+ FN_EXIT1(txresult); -+ return txresult; -+} -+ -+ -+/*********************************************************************** -+** acx_l_update_ratevector -+** -+** Updates adev->rate_supported[_len] according to rate_{basic,oper} -+*/ -+const u8 -+acx_bitpos2ratebyte[] = { -+ DOT11RATEBYTE_1, -+ DOT11RATEBYTE_2, -+ DOT11RATEBYTE_5_5, -+ DOT11RATEBYTE_6_G, -+ DOT11RATEBYTE_9_G, -+ DOT11RATEBYTE_11, -+ DOT11RATEBYTE_12_G, -+ DOT11RATEBYTE_18_G, -+ DOT11RATEBYTE_22, -+ DOT11RATEBYTE_24_G, -+ DOT11RATEBYTE_36_G, -+ DOT11RATEBYTE_48_G, -+ DOT11RATEBYTE_54_G, -+}; -+ -+void -+acx_l_update_ratevector(acx_device_t *adev) -+{ -+ u16 bcfg = adev->rate_basic; -+ u16 ocfg = adev->rate_oper; -+ u8 *supp = adev->rate_supported; -+ const u8 *dot11 = acx_bitpos2ratebyte; -+ -+ FN_ENTER; -+ -+ while (ocfg) { -+ if (ocfg & 1) { -+ *supp = *dot11; -+ if (bcfg & 1) { -+ *supp |= 0x80; -+ } -+ supp++; -+ } -+ dot11++; -+ ocfg >>= 1; -+ bcfg >>= 1; -+ } -+ adev->rate_supported_len = supp - adev->rate_supported; -+ if (acx_debug & L_ASSOC) { -+ printk("new ratevector: "); -+ acx_dump_bytes(adev->rate_supported, adev->rate_supported_len); -+ } -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_l_sta_list_init -+*/ -+static void -+acx_l_sta_list_init(acx_device_t *adev) -+{ -+ FN_ENTER; -+ memset(adev->sta_hash_tab, 0, sizeof(adev->sta_hash_tab)); -+ memset(adev->sta_list, 0, sizeof(adev->sta_list)); -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_l_sta_list_get_from_hash -+*/ -+static inline client_t* -+acx_l_sta_list_get_from_hash(acx_device_t *adev, const u8 *address) -+{ -+ return adev->sta_hash_tab[address[5] % VEC_SIZE(adev->sta_hash_tab)]; -+} -+ -+ -+/*********************************************************************** -+** acx_l_sta_list_get -+*/ -+client_t* -+acx_l_sta_list_get(acx_device_t *adev, const u8 *address) -+{ -+ client_t *client; -+ FN_ENTER; -+ client = acx_l_sta_list_get_from_hash(adev, address); -+ while (client) { -+ if (mac_is_equal(address, client->address)) { -+ client->mtime = jiffies; -+ break; -+ } -+ client = client->next; -+ } -+ FN_EXIT0; -+ return client; -+} -+ -+ -+/*********************************************************************** -+** acx_l_sta_list_del -+*/ -+void -+acx_l_sta_list_del(acx_device_t *adev, client_t *victim) -+{ -+ client_t *client, *next; -+ -+ client = acx_l_sta_list_get_from_hash(adev, victim->address); -+ next = client; -+ /* tricky. next = client on first iteration only, -+ ** on all other iters next = client->next */ -+ while (next) { -+ if (next == victim) { -+ client->next = victim->next; -+ /* Overkill */ -+ memset(victim, 0, sizeof(*victim)); -+ break; -+ } -+ client = next; -+ next = client->next; -+ } -+} -+ -+ -+/*********************************************************************** -+** acx_l_sta_list_alloc -+** -+** Never fails - will evict oldest client if needed -+*/ -+static client_t* -+acx_l_sta_list_alloc(acx_device_t *adev) -+{ -+ int i; -+ unsigned long age, oldest_age; -+ client_t *client, *oldest; -+ -+ FN_ENTER; -+ -+ oldest = &adev->sta_list[0]; -+ oldest_age = 0; -+ for (i = 0; i < VEC_SIZE(adev->sta_list); i++) { -+ client = &adev->sta_list[i]; -+ -+ if (!client->used) { -+ goto found; -+ } else { -+ age = jiffies - client->mtime; -+ if (oldest_age < age) { -+ oldest_age = age; -+ oldest = client; -+ } -+ } -+ } -+ acx_l_sta_list_del(adev, oldest); -+ client = oldest; -+found: -+ memset(client, 0, sizeof(*client)); -+ FN_EXIT0; -+ return client; -+} -+ -+ -+/*********************************************************************** -+** acx_l_sta_list_add -+** -+** Never fails - will evict oldest client if needed -+*/ -+/* In case we will reimplement it differently... */ -+#define STA_LIST_ADD_CAN_FAIL 0 -+ -+static client_t* -+acx_l_sta_list_add(acx_device_t *adev, const u8 *address) -+{ -+ client_t *client; -+ int index; -+ -+ FN_ENTER; -+ -+ client = acx_l_sta_list_alloc(adev); -+ -+ client->mtime = jiffies; -+ MAC_COPY(client->address, address); -+ client->used = CLIENT_EXIST_1; -+ client->auth_alg = WLAN_AUTH_ALG_SHAREDKEY; -+ client->auth_step = 1; -+ /* give some tentative peer rate values -+ ** (needed because peer may do auth without probing us first, -+ ** thus we'll have no idea of peer's ratevector yet). -+ ** Will be overwritten by scanning or assoc code */ -+ client->rate_cap = adev->rate_basic; -+ client->rate_cfg = adev->rate_basic; -+ client->rate_cur = 1 << lowest_bit(adev->rate_basic); -+ -+ index = address[5] % VEC_SIZE(adev->sta_hash_tab); -+ client->next = adev->sta_hash_tab[index]; -+ adev->sta_hash_tab[index] = client; -+ -+ acxlog_mac(L_ASSOC, "sta_list_add: sta=", address, "\n"); -+ -+ FN_EXIT0; -+ return client; -+} -+ -+ -+/*********************************************************************** -+** acx_l_sta_list_get_or_add -+** -+** Never fails - will evict oldest client if needed -+*/ -+static client_t* -+acx_l_sta_list_get_or_add(acx_device_t *adev, const u8 *address) -+{ -+ client_t *client = acx_l_sta_list_get(adev, address); -+ if (!client) -+ client = acx_l_sta_list_add(adev, address); -+ return client; -+} -+ -+ -+/*********************************************************************** -+** acx_set_status -+** -+** This function is called in many atomic regions, must not sleep -+** -+** This function does not need locking UNLESS you call it -+** as acx_set_status(ACX_STATUS_4_ASSOCIATED), bacause this can -+** wake queue. This can race with stop_queue elsewhere. -+** See acx_stop_queue comment. */ -+void -+acx_set_status(acx_device_t *adev, u16 new_status) -+{ -+#define QUEUE_OPEN_AFTER_ASSOC 1 /* this really seems to be needed now */ -+ u16 old_status = adev->status; -+ -+ FN_ENTER; -+ -+ log(L_ASSOC, "%s(%d):%s\n", -+ __func__, new_status, acx_get_status_name(new_status)); -+ -+ /* wireless_send_event never sleeps */ -+ if (ACX_STATUS_4_ASSOCIATED == new_status) { -+ union iwreq_data wrqu; -+ -+ wrqu.data.length = 0; -+ wrqu.data.flags = 0; -+ wireless_send_event(adev->ndev, SIOCGIWSCAN, &wrqu, NULL); -+ -+ wrqu.data.length = 0; -+ wrqu.data.flags = 0; -+ MAC_COPY(wrqu.ap_addr.sa_data, adev->bssid); -+ wrqu.ap_addr.sa_family = ARPHRD_ETHER; -+ wireless_send_event(adev->ndev, SIOCGIWAP, &wrqu, NULL); -+ } else { -+ union iwreq_data wrqu; -+ -+ /* send event with empty BSSID to indicate we're not associated */ -+ MAC_ZERO(wrqu.ap_addr.sa_data); -+ wrqu.ap_addr.sa_family = ARPHRD_ETHER; -+ wireless_send_event(adev->ndev, SIOCGIWAP, &wrqu, NULL); -+ } -+ -+ adev->status = new_status; -+ -+ switch (new_status) { -+ case ACX_STATUS_1_SCANNING: -+ adev->scan_retries = 0; -+ /* 1.0 s initial scan time */ -+ acx_set_timer(adev, 1000000); -+ break; -+ case ACX_STATUS_2_WAIT_AUTH: -+ case ACX_STATUS_3_AUTHENTICATED: -+ adev->auth_or_assoc_retries = 0; -+ acx_set_timer(adev, 1500000); /* 1.5 s */ -+ break; -+ } -+ -+#if QUEUE_OPEN_AFTER_ASSOC -+ if (new_status == ACX_STATUS_4_ASSOCIATED) { -+ if (old_status < ACX_STATUS_4_ASSOCIATED) { -+ /* ah, we're newly associated now, -+ * so let's indicate carrier */ -+ acx_carrier_on(adev->ndev, "after association"); -+ acx_wake_queue(adev->ndev, "after association"); -+ } -+ } else { -+ /* not associated any more, so let's kill carrier */ -+ if (old_status >= ACX_STATUS_4_ASSOCIATED) { -+ acx_carrier_off(adev->ndev, "after losing association"); -+ acx_stop_queue(adev->ndev, "after losing association"); -+ } -+ } -+#endif -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_i_timer -+** -+** Fires up periodically. Used to kick scan/auth/assoc if something goes wrong -+*/ -+void -+acx_i_timer(unsigned long address) -+{ -+ unsigned long flags; -+ acx_device_t *adev = (acx_device_t*)address; -+ -+ FN_ENTER; -+ -+ acx_lock(adev, flags); -+ -+ log(L_DEBUG|L_ASSOC, "%s: adev->status=%d (%s)\n", -+ __func__, adev->status, acx_get_status_name(adev->status)); -+ -+ switch (adev->status) { -+ case ACX_STATUS_1_SCANNING: -+ /* was set to 0 by set_status() */ -+ if (++adev->scan_retries < 7) { -+ acx_set_timer(adev, 1000000); -+ /* used to interrogate for scan status. -+ ** We rely on SCAN_COMPLETE IRQ instead */ -+ log(L_ASSOC, "continuing scan (%d sec)\n", -+ adev->scan_retries); -+ } else { -+ log(L_ASSOC, "stopping scan\n"); -+ /* send stop_scan cmd when we leave the interrupt context, -+ * and make a decision what to do next (COMPLETE_SCAN) */ -+ acx_schedule_task(adev, -+ ACX_AFTER_IRQ_CMD_STOP_SCAN + ACX_AFTER_IRQ_COMPLETE_SCAN); -+ } -+ break; -+ case ACX_STATUS_2_WAIT_AUTH: -+ /* was set to 0 by set_status() */ -+ if (++adev->auth_or_assoc_retries < 10) { -+ log(L_ASSOC, "resend authen1 request (attempt %d)\n", -+ adev->auth_or_assoc_retries + 1); -+ acx_l_transmit_authen1(adev); -+ } else { -+ /* time exceeded: fall back to scanning mode */ -+ log(L_ASSOC, -+ "authen1 request reply timeout, giving up\n"); -+ /* we are a STA, need to find AP anyhow */ -+ acx_set_status(adev, ACX_STATUS_1_SCANNING); -+ acx_schedule_task(adev, ACX_AFTER_IRQ_RESTART_SCAN); -+ } -+ /* used to be 1500000, but some other driver uses 2.5s */ -+ acx_set_timer(adev, 2500000); -+ break; -+ case ACX_STATUS_3_AUTHENTICATED: -+ /* was set to 0 by set_status() */ -+ if (++adev->auth_or_assoc_retries < 10) { -+ log(L_ASSOC, "resend assoc request (attempt %d)\n", -+ adev->auth_or_assoc_retries + 1); -+ acx_l_transmit_assoc_req(adev); -+ } else { -+ /* time exceeded: give up */ -+ log(L_ASSOC, -+ "association request reply timeout, giving up\n"); -+ /* we are a STA, need to find AP anyhow */ -+ acx_set_status(adev, ACX_STATUS_1_SCANNING); -+ acx_schedule_task(adev, ACX_AFTER_IRQ_RESTART_SCAN); -+ } -+ acx_set_timer(adev, 2500000); /* see above */ -+ break; -+ case ACX_STATUS_4_ASSOCIATED: -+ default: -+ break; -+ } -+ -+ acx_unlock(adev, flags); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_set_timer -+** -+** Sets the 802.11 state management timer's timeout. -+*/ -+void -+acx_set_timer(acx_device_t *adev, int timeout_us) -+{ -+ FN_ENTER; -+ -+ log(L_DEBUG|L_IRQ, "%s(%u ms)\n", __func__, timeout_us/1000); -+ if (!(adev->dev_state_mask & ACX_STATE_IFACE_UP)) { -+ printk("attempt to set the timer " -+ "when the card interface is not up!\n"); -+ goto end; -+ } -+ -+ /* first check if the timer was already initialized, THEN modify it */ -+ if (adev->mgmt_timer.function) { -+ mod_timer(&adev->mgmt_timer, -+ jiffies + (timeout_us * HZ / 1000000)); -+ } -+end: -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_l_transmit_assocresp -+** -+** We are an AP here -+*/ -+static const u8 -+dot11ratebyte[] = { -+ DOT11RATEBYTE_1, -+ DOT11RATEBYTE_2, -+ DOT11RATEBYTE_5_5, -+ DOT11RATEBYTE_6_G, -+ DOT11RATEBYTE_9_G, -+ DOT11RATEBYTE_11, -+ DOT11RATEBYTE_12_G, -+ DOT11RATEBYTE_18_G, -+ DOT11RATEBYTE_22, -+ DOT11RATEBYTE_24_G, -+ DOT11RATEBYTE_36_G, -+ DOT11RATEBYTE_48_G, -+ DOT11RATEBYTE_54_G, -+}; -+ -+static inline int -+find_pos(const u8 *p, int size, u8 v) -+{ -+ int i; -+ for (i = 0; i < size; i++) -+ if (p[i] == v) -+ return i; -+ /* printk a message about strange byte? */ -+ return 0; -+} -+ -+static void -+add_bits_to_ratemasks(u8* ratevec, int len, u16* brate, u16* orate) -+{ -+ while (len--) { -+ int n = 1 << find_pos(dot11ratebyte, -+ sizeof(dot11ratebyte), *ratevec & 0x7f); -+ if (*ratevec & 0x80) -+ *brate |= n; -+ *orate |= n; -+ ratevec++; -+ } -+} -+ -+static int -+acx_l_transmit_assocresp(acx_device_t *adev, const wlan_fr_assocreq_t *req) -+{ -+ struct tx *tx; -+ struct wlan_hdr_mgmt *head; -+ struct assocresp_frame_body *body; -+ u8 *p; -+ const u8 *da; -+ /* const u8 *sa; */ -+ const u8 *bssid; -+ client_t *clt; -+ -+ FN_ENTER; -+ -+ /* sa = req->hdr->a1; */ -+ da = req->hdr->a2; -+ bssid = req->hdr->a3; -+ -+ clt = acx_l_sta_list_get(adev, da); -+ if (!clt) -+ goto ok; -+ -+ /* Assoc without auth is a big no-no */ -+ /* Let's be liberal: if already assoc'ed STA sends assoc req again, -+ ** we won't be rude */ -+ if (clt->used != CLIENT_AUTHENTICATED_2 -+ && clt->used != CLIENT_ASSOCIATED_3) { -+ acx_l_transmit_deauthen(adev, da, WLAN_MGMT_REASON_CLASS2_NONAUTH); -+ goto bad; -+ } -+ -+ clt->used = CLIENT_ASSOCIATED_3; -+ -+ if (clt->aid == 0) -+ clt->aid = ++adev->aid; -+ clt->cap_info = ieee2host16(*(req->cap_info)); -+ -+ /* We cheat here a bit. We don't really care which rates are flagged -+ ** as basic by the client, so we stuff them in single ratemask */ -+ clt->rate_cap = 0; -+ if (req->supp_rates) -+ add_bits_to_ratemasks(req->supp_rates->rates, -+ req->supp_rates->len, &clt->rate_cap, &clt->rate_cap); -+ if (req->ext_rates) -+ add_bits_to_ratemasks(req->ext_rates->rates, -+ req->ext_rates->len, &clt->rate_cap, &clt->rate_cap); -+ /* We can check that client supports all basic rates, -+ ** and deny assoc if not. But let's be liberal, right? ;) */ -+ clt->rate_cfg = clt->rate_cap & adev->rate_oper; -+ if (!clt->rate_cfg) clt->rate_cfg = 1 << lowest_bit(adev->rate_oper); -+ clt->rate_cur = 1 << lowest_bit(clt->rate_cfg); -+ if (IS_ACX100(adev)) -+ clt->rate_100 = acx_bitpos2rate100[lowest_bit(clt->rate_cfg)]; -+ clt->fallback_count = clt->stepup_count = 0; -+ clt->ignore_count = 16; -+ -+ tx = acx_l_alloc_tx(adev); -+ if (!tx) -+ goto bad; -+ head = acx_l_get_txbuf(adev, tx); -+ if (!head) { -+ acx_l_dealloc_tx(adev, tx); -+ goto bad; -+ } -+ body = (void*)(head + 1); -+ -+ head->fc = WF_FSTYPE_ASSOCRESPi; -+ head->dur = req->hdr->dur; -+ MAC_COPY(head->da, da); -+ MAC_COPY(head->sa, adev->dev_addr); -+ MAC_COPY(head->bssid, bssid); -+ head->seq = req->hdr->seq; -+ -+ body->cap_info = host2ieee16(adev->capabilities); -+ body->status = host2ieee16(0); -+ body->aid = host2ieee16(clt->aid); -+ p = wlan_fill_ie_rates((u8*)&body->rates, adev->rate_supported_len, -+ adev->rate_supported); -+ p = wlan_fill_ie_rates_ext(p, adev->rate_supported_len, -+ adev->rate_supported); -+ -+ acx_l_tx_data(adev, tx, p - (u8*)head); -+ok: -+ FN_EXIT1(OK); -+ return OK; -+bad: -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*********************************************************************** -+* acx_l_transmit_reassocresp -+ -+You may be wondering, just like me, what the hell ReAuth is. -+In practice it was seen sent by STA when STA feels like losing connection. -+ -+[802.11] -+ -+5.4.2.3 Reassociation -+ -+Association is sufficient for no-transition message delivery between -+IEEE 802.11 stations. Additional functionality is needed to support -+BSS-transition mobility. The additional required functionality -+is provided by the reassociation service. Reassociation is a DSS. -+The reassociation service is invoked to 'move' a current association -+from one AP to another. This keeps the DS informed of the current -+mapping between AP and STA as the station moves from BSS to BSS within -+an ESS. Reassociation also enables changing association attributes -+of an established association while the STA remains associated with -+the same AP. Reassociation is always initiated by the mobile STA. -+ -+5.4.3.1 Authentication -+... -+A STA may be authenticated with many other STAs at any given instant. -+ -+5.4.3.1.1 Preauthentication -+ -+Because the authentication process could be time-consuming (depending -+on the authentication protocol in use), the authentication service can -+be invoked independently of the association service. Preauthentication -+is typically done by a STA while it is already associated with an AP -+(with which it previously authenticated). IEEE 802.11 does not require -+that STAs preauthenticate with APs. However, authentication is required -+before an association can be established. If the authentication is left -+until reassociation time, this may impact the speed with which a STA can -+reassociate between APs, limiting BSS-transition mobility performance. -+The use of preauthentication takes the authentication service overhead -+out of the time-critical reassociation process. -+ -+5.7.3 Reassociation -+ -+For a STA to reassociate, the reassociation service causes the following -+message to occur: -+ -+ Reassociation request -+ -+* Message type: Management -+* Message subtype: Reassociation request -+* Information items: -+ - IEEE address of the STA -+ - IEEE address of the AP with which the STA will reassociate -+ - IEEE address of the AP with which the STA is currently associated -+ - ESSID -+* Direction of message: From STA to 'new' AP -+ -+The address of the current AP is included for efficiency. The inclusion -+of the current AP address facilitates MAC reassociation to be independent -+of the DS implementation. -+ -+ Reassociation response -+* Message type: Management -+* Message subtype: Reassociation response -+* Information items: -+ - Result of the requested reassociation. (success/failure) -+ - If the reassociation is successful, the response shall include the AID. -+* Direction of message: From AP to STA -+ -+7.2.3.6 Reassociation Request frame format -+ -+The frame body of a management frame of subtype Reassociation Request -+contains the information shown in Table 9. -+ -+Table 9 Reassociation Request frame body -+Order Information -+1 Capability information -+2 Listen interval -+3 Current AP address -+4 SSID -+5 Supported rates -+ -+7.2.3.7 Reassociation Response frame format -+ -+The frame body of a management frame of subtype Reassociation Response -+contains the information shown in Table 10. -+ -+Table 10 Reassociation Response frame body -+Order Information -+1 Capability information -+2 Status code -+3 Association ID (AID) -+4 Supported rates -+ -+*/ -+static int -+acx_l_transmit_reassocresp(acx_device_t *adev, const wlan_fr_reassocreq_t *req) -+{ -+ struct tx *tx; -+ struct wlan_hdr_mgmt *head; -+ struct reassocresp_frame_body *body; -+ u8 *p; -+ const u8 *da; -+ /* const u8 *sa; */ -+ const u8 *bssid; -+ client_t *clt; -+ -+ FN_ENTER; -+ -+ /* sa = req->hdr->a1; */ -+ da = req->hdr->a2; -+ bssid = req->hdr->a3; -+ -+ /* Must be already authenticated, so it must be in the list */ -+ clt = acx_l_sta_list_get(adev, da); -+ if (!clt) -+ goto ok; -+ -+ /* Assoc without auth is a big no-no */ -+ /* Already assoc'ed STAs sending ReAssoc req are ok per 802.11 */ -+ if (clt->used != CLIENT_AUTHENTICATED_2 -+ && clt->used != CLIENT_ASSOCIATED_3) { -+ acx_l_transmit_deauthen(adev, da, WLAN_MGMT_REASON_CLASS2_NONAUTH); -+ goto bad; -+ } -+ -+ clt->used = CLIENT_ASSOCIATED_3; -+ if (clt->aid == 0) { -+ clt->aid = ++adev->aid; -+ } -+ if (req->cap_info) -+ clt->cap_info = ieee2host16(*(req->cap_info)); -+ -+ /* We cheat here a bit. We don't really care which rates are flagged -+ ** as basic by the client, so we stuff them in single ratemask */ -+ clt->rate_cap = 0; -+ if (req->supp_rates) -+ add_bits_to_ratemasks(req->supp_rates->rates, -+ req->supp_rates->len, &clt->rate_cap, &clt->rate_cap); -+ if (req->ext_rates) -+ add_bits_to_ratemasks(req->ext_rates->rates, -+ req->ext_rates->len, &clt->rate_cap, &clt->rate_cap); -+ /* We can check that client supports all basic rates, -+ ** and deny assoc if not. But let's be liberal, right? ;) */ -+ clt->rate_cfg = clt->rate_cap & adev->rate_oper; -+ if (!clt->rate_cfg) clt->rate_cfg = 1 << lowest_bit(adev->rate_oper); -+ clt->rate_cur = 1 << lowest_bit(clt->rate_cfg); -+ if (IS_ACX100(adev)) -+ clt->rate_100 = acx_bitpos2rate100[lowest_bit(clt->rate_cfg)]; -+ -+ clt->fallback_count = clt->stepup_count = 0; -+ clt->ignore_count = 16; -+ -+ tx = acx_l_alloc_tx(adev); -+ if (!tx) -+ goto ok; -+ head = acx_l_get_txbuf(adev, tx); -+ if (!head) { -+ acx_l_dealloc_tx(adev, tx); -+ goto ok; -+ } -+ body = (void*)(head + 1); -+ -+ head->fc = WF_FSTYPE_REASSOCRESPi; -+ head->dur = req->hdr->dur; -+ MAC_COPY(head->da, da); -+ MAC_COPY(head->sa, adev->dev_addr); -+ MAC_COPY(head->bssid, bssid); -+ head->seq = req->hdr->seq; -+ -+ /* IEs: 1. caps */ -+ body->cap_info = host2ieee16(adev->capabilities); -+ /* 2. status code */ -+ body->status = host2ieee16(0); -+ /* 3. AID */ -+ body->aid = host2ieee16(clt->aid); -+ /* 4. supp rates */ -+ p = wlan_fill_ie_rates((u8*)&body->rates, adev->rate_supported_len, -+ adev->rate_supported); -+ /* 5. ext supp rates */ -+ p = wlan_fill_ie_rates_ext(p, adev->rate_supported_len, -+ adev->rate_supported); -+ -+ acx_l_tx_data(adev, tx, p - (u8*)head); -+ok: -+ FN_EXIT1(OK); -+ return OK; -+bad: -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*********************************************************************** -+** acx_l_process_disassoc_from_sta -+*/ -+static void -+acx_l_process_disassoc_from_sta(acx_device_t *adev, const wlan_fr_disassoc_t *req) -+{ -+ const u8 *ta; -+ client_t *clt; -+ -+ FN_ENTER; -+ -+ ta = req->hdr->a2; -+ clt = acx_l_sta_list_get(adev, ta); -+ if (!clt) -+ goto end; -+ -+ if (clt->used != CLIENT_ASSOCIATED_3 -+ && clt->used != CLIENT_AUTHENTICATED_2) { -+ /* it's disassociating, but it's -+ ** not even authenticated! Let it know that */ -+ acxlog_mac(L_ASSOC|L_XFER, "peer ", ta, "has sent disassoc " -+ "req but it is not even auth'ed! sending deauth\n"); -+ acx_l_transmit_deauthen(adev, ta, -+ WLAN_MGMT_REASON_CLASS2_NONAUTH); -+ clt->used = CLIENT_EXIST_1; -+ } else { -+ /* mark it as auth'ed only */ -+ clt->used = CLIENT_AUTHENTICATED_2; -+ } -+end: -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_l_process_deauthen_from_sta -+*/ -+static void -+acx_l_process_deauth_from_sta(acx_device_t *adev, const wlan_fr_deauthen_t *req) -+{ -+ const wlan_hdr_t *hdr; -+ client_t *client; -+ -+ FN_ENTER; -+ -+ hdr = req->hdr; -+ -+ if (acx_debug & L_ASSOC) { -+ acx_print_mac("got deauth from sta:", hdr->a2, " "); -+ acx_print_mac("a1:", hdr->a1, " "); -+ acx_print_mac("a3:", hdr->a3, " "); -+ acx_print_mac("adev->addr:", adev->dev_addr, " "); -+ acx_print_mac("adev->bssid:", adev->bssid, "\n"); -+ } -+ -+ if (!mac_is_equal(adev->dev_addr, hdr->a1)) { -+ goto end; -+ } -+ -+ client = acx_l_sta_list_get(adev, hdr->a2); -+ if (!client) { -+ goto end; -+ } -+ client->used = CLIENT_EXIST_1; -+end: -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_l_process_disassoc_from_ap -+*/ -+static void -+acx_l_process_disassoc_from_ap(acx_device_t *adev, const wlan_fr_disassoc_t *req) -+{ -+ FN_ENTER; -+ -+ if (!adev->ap_client) { -+ /* Hrm, we aren't assoc'ed yet anyhow... */ -+ goto end; -+ } -+ -+ printk("%s: got disassoc frame with reason %d (%s)\n", -+ adev->ndev->name, *req->reason, -+ acx_wlan_reason_str(*req->reason)); -+ -+ if (mac_is_equal(adev->dev_addr, req->hdr->a1)) { -+ acx_l_transmit_deauthen(adev, adev->bssid, -+ WLAN_MGMT_REASON_DEAUTH_LEAVING); -+ SET_BIT(adev->set_mask, GETSET_RESCAN); -+ acx_schedule_task(adev, ACX_AFTER_IRQ_UPDATE_CARD_CFG); -+ } -+end: -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_l_process_deauth_from_ap -+*/ -+static void -+acx_l_process_deauth_from_ap(acx_device_t *adev, const wlan_fr_deauthen_t *req) -+{ -+ FN_ENTER; -+ -+ if (!adev->ap_client) { -+ /* Hrm, we aren't assoc'ed yet anyhow... */ -+ goto end; -+ } -+ -+ printk("%s: got deauth frame with reason %d (%s)\n", -+ adev->ndev->name, *req->reason, -+ acx_wlan_reason_str(*req->reason)); -+ -+ /* Chk: is ta verified to be from our AP? */ -+ if (mac_is_equal(adev->dev_addr, req->hdr->a1)) { -+ log(L_DEBUG, "AP sent us deauth packet\n"); -+ SET_BIT(adev->set_mask, GETSET_RESCAN); -+ acx_schedule_task(adev, ACX_AFTER_IRQ_UPDATE_CARD_CFG); -+ } -+end: -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_l_rx -+** -+** The end of the Rx path. Pulls data from a rxhostdesc into a socket -+** buffer and feeds it to the network stack via netif_rx(). -+*/ -+static void -+acx_l_rx(acx_device_t *adev, rxbuffer_t *rxbuf) -+{ -+ FN_ENTER; -+ if (likely(adev->dev_state_mask & ACX_STATE_IFACE_UP)) { -+ struct sk_buff *skb; -+ skb = acx_rxbuf_to_ether(adev, rxbuf); -+ if (likely(skb)) { -+ netif_rx(skb); -+ adev->ndev->last_rx = jiffies; -+ adev->stats.rx_packets++; -+ adev->stats.rx_bytes += skb->len; -+ } -+ } -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_l_process_data_frame_master -+*/ -+static int -+acx_l_process_data_frame_master(acx_device_t *adev, rxbuffer_t *rxbuf) -+{ -+ struct wlan_hdr *hdr; -+ struct tx *tx; -+ void *txbuf; -+ int len; -+ int result = NOT_OK; -+ -+ FN_ENTER; -+ -+ hdr = acx_get_wlan_hdr(adev, rxbuf); -+ -+ switch (WF_FC_FROMTODSi & hdr->fc) { -+ case 0: -+ case WF_FC_FROMDSi: -+ log(L_DEBUG, "ap->sta or adhoc->adhoc data frame ignored\n"); -+ goto done; -+ case WF_FC_TODSi: -+ break; -+ default: /* WF_FC_FROMTODSi */ -+ log(L_DEBUG, "wds data frame ignored (TODO)\n"); -+ goto done; -+ } -+ -+ /* check if it is our BSSID, if not, leave */ -+ if (!mac_is_equal(adev->bssid, hdr->a1)) { -+ goto done; -+ } -+ -+ if (mac_is_equal(adev->dev_addr, hdr->a3)) { -+ /* this one is for us */ -+ acx_l_rx(adev, rxbuf); -+ } else { -+ if (mac_is_bcast(hdr->a3)) { -+ /* this one is bcast, rx it too */ -+ acx_l_rx(adev, rxbuf); -+ } -+ tx = acx_l_alloc_tx(adev); -+ if (!tx) { -+ goto fail; -+ } -+ /* repackage, tx, and hope it someday reaches its destination */ -+ /* order is important, we do it in-place */ -+ MAC_COPY(hdr->a1, hdr->a3); -+ MAC_COPY(hdr->a3, hdr->a2); -+ MAC_COPY(hdr->a2, adev->bssid); -+ /* To_DS = 0, From_DS = 1 */ -+ hdr->fc = WF_FC_FROMDSi + WF_FTYPE_DATAi; -+ -+ txbuf = acx_l_get_txbuf(adev, tx); -+ if (txbuf) { -+ len = RXBUF_BYTES_RCVD(adev, rxbuf); -+ memcpy(txbuf, hdr, len); -+ acx_l_tx_data(adev, tx, len); -+ } else { -+ acx_l_dealloc_tx(adev, tx); -+ } -+ } -+done: -+ result = OK; -+fail: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_l_process_data_frame_client -+*/ -+static int -+acx_l_process_data_frame_client(acx_device_t *adev, rxbuffer_t *rxbuf) -+{ -+ const u8 *da, *bssid; -+ const wlan_hdr_t *hdr; -+ struct net_device *ndev = adev->ndev; -+ int result = NOT_OK; -+ -+ FN_ENTER; -+ -+ if (ACX_STATUS_4_ASSOCIATED != adev->status) -+ goto drop; -+ -+ hdr = acx_get_wlan_hdr(adev, rxbuf); -+ -+ switch (WF_FC_FROMTODSi & hdr->fc) { -+ case 0: -+ if (adev->mode != ACX_MODE_0_ADHOC) { -+ log(L_DEBUG, "adhoc->adhoc data frame ignored\n"); -+ goto drop; -+ } -+ bssid = hdr->a3; -+ break; -+ case WF_FC_FROMDSi: -+ if (adev->mode != ACX_MODE_2_STA) { -+ log(L_DEBUG, "ap->sta data frame ignored\n"); -+ goto drop; -+ } -+ bssid = hdr->a2; -+ break; -+ case WF_FC_TODSi: -+ log(L_DEBUG, "sta->ap data frame ignored\n"); -+ goto drop; -+ default: /* WF_FC_FROMTODSi: wds->wds */ -+ log(L_DEBUG, "wds data frame ignored (todo)\n"); -+ goto drop; -+ } -+ -+ da = hdr->a1; -+ -+ if (unlikely(acx_debug & L_DEBUG)) { -+ acx_print_mac("rx: da=", da, ""); -+ acx_print_mac(" bssid=", bssid, ""); -+ acx_print_mac(" adev->bssid=", adev->bssid, ""); -+ acx_print_mac(" adev->addr=", adev->dev_addr, "\n"); -+ } -+ -+ /* promiscuous mode --> receive all packets */ -+ if (unlikely(ndev->flags & IFF_PROMISC)) -+ goto process; -+ -+ /* FIRST, check if it is our BSSID */ -+ if (!mac_is_equal(adev->bssid, bssid)) { -+ /* is not our BSSID, so bail out */ -+ goto drop; -+ } -+ -+ /* then, check if it is our address */ -+ if (mac_is_equal(adev->dev_addr, da)) { -+ goto process; -+ } -+ -+ /* then, check if it is broadcast */ -+ if (mac_is_bcast(da)) { -+ goto process; -+ } -+ -+ if (mac_is_mcast(da)) { -+ /* unconditionally receive all multicasts */ -+ if (ndev->flags & IFF_ALLMULTI) -+ goto process; -+ -+ /* FIXME: need to check against the list of -+ * multicast addresses that are configured -+ * for the interface (ifconfig) */ -+ log(L_XFER, "FIXME: multicast packet, need to check " -+ "against a list of multicast addresses " -+ "(to be created!); accepting packet for now\n"); -+ /* for now, just accept it here */ -+ goto process; -+ } -+ -+ log(L_DEBUG, "rx: foreign packet, dropping\n"); -+ goto drop; -+process: -+ /* receive packet */ -+ acx_l_rx(adev, rxbuf); -+ -+ result = OK; -+drop: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_l_process_mgmt_frame -+** -+** Theory of operation: mgmt packet gets parsed (to make it easy -+** to access variable-sized IEs), results stored in 'parsed'. -+** Then we react to the packet. -+*/ -+typedef union parsed_mgmt_req { -+ wlan_fr_mgmt_t mgmt; -+ wlan_fr_assocreq_t assocreq; -+ wlan_fr_reassocreq_t reassocreq; -+ wlan_fr_assocresp_t assocresp; -+ wlan_fr_reassocresp_t reassocresp; -+ wlan_fr_beacon_t beacon; -+ wlan_fr_disassoc_t disassoc; -+ wlan_fr_authen_t authen; -+ wlan_fr_deauthen_t deauthen; -+ wlan_fr_proberesp_t proberesp; -+} parsed_mgmt_req_t; -+ -+void BUG_excessive_stack_usage(void); -+ -+static int -+acx_l_process_mgmt_frame(acx_device_t *adev, rxbuffer_t *rxbuf) -+{ -+ parsed_mgmt_req_t parsed; /* takes ~100 bytes of stack */ -+ wlan_hdr_t *hdr; -+ int adhoc, sta_scan, sta, ap; -+ int len; -+ -+ if (sizeof(parsed) > 256) -+ BUG_excessive_stack_usage(); -+ -+ FN_ENTER; -+ -+ hdr = acx_get_wlan_hdr(adev, rxbuf); -+ -+ /* Management frames never have these set */ -+ if (WF_FC_FROMTODSi & hdr->fc) { -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+ } -+ -+ len = RXBUF_BYTES_RCVD(adev, rxbuf); -+ if (WF_FC_ISWEPi & hdr->fc) -+ len -= 0x10; -+ -+ adhoc = (adev->mode == ACX_MODE_0_ADHOC); -+ sta_scan = ((adev->mode == ACX_MODE_2_STA) -+ && (adev->status != ACX_STATUS_4_ASSOCIATED)); -+ sta = ((adev->mode == ACX_MODE_2_STA) -+ && (adev->status == ACX_STATUS_4_ASSOCIATED)); -+ ap = (adev->mode == ACX_MODE_3_AP); -+ -+ switch (WF_FC_FSTYPEi & hdr->fc) { -+ /* beacons first, for speed */ -+ case WF_FSTYPE_BEACONi: -+ memset(&parsed.beacon, 0, sizeof(parsed.beacon)); -+ parsed.beacon.hdr = hdr; -+ parsed.beacon.len = len; -+ if (acx_debug & L_DATA) { -+ printk("beacon len:%d fc:%04X dur:%04X seq:%04X", -+ len, hdr->fc, hdr->dur, hdr->seq); -+ acx_print_mac(" a1:", hdr->a1, ""); -+ acx_print_mac(" a2:", hdr->a2, ""); -+ acx_print_mac(" a3:", hdr->a3, "\n"); -+ } -+ wlan_mgmt_decode_beacon(&parsed.beacon); -+ /* beacon and probe response are very similar, so... */ -+ acx_l_process_probe_response(adev, &parsed.beacon, rxbuf); -+ break; -+ case WF_FSTYPE_ASSOCREQi: -+ if (!ap) -+ break; -+ memset(&parsed.assocreq, 0, sizeof(parsed.assocreq)); -+ parsed.assocreq.hdr = hdr; -+ parsed.assocreq.len = len; -+ wlan_mgmt_decode_assocreq(&parsed.assocreq); -+ if (mac_is_equal(hdr->a1, adev->bssid) -+ && mac_is_equal(hdr->a3, adev->bssid)) { -+ acx_l_transmit_assocresp(adev, &parsed.assocreq); -+ } -+ break; -+ case WF_FSTYPE_REASSOCREQi: -+ if (!ap) -+ break; -+ memset(&parsed.assocreq, 0, sizeof(parsed.assocreq)); -+ parsed.assocreq.hdr = hdr; -+ parsed.assocreq.len = len; -+ wlan_mgmt_decode_assocreq(&parsed.assocreq); -+ /* reassocreq and assocreq are equivalent */ -+ acx_l_transmit_reassocresp(adev, &parsed.reassocreq); -+ break; -+ case WF_FSTYPE_ASSOCRESPi: -+ if (!sta_scan) -+ break; -+ memset(&parsed.assocresp, 0, sizeof(parsed.assocresp)); -+ parsed.assocresp.hdr = hdr; -+ parsed.assocresp.len = len; -+ wlan_mgmt_decode_assocresp(&parsed.assocresp); -+ acx_l_process_assocresp(adev, &parsed.assocresp); -+ break; -+ case WF_FSTYPE_REASSOCRESPi: -+ if (!sta_scan) -+ break; -+ memset(&parsed.assocresp, 0, sizeof(parsed.assocresp)); -+ parsed.assocresp.hdr = hdr; -+ parsed.assocresp.len = len; -+ wlan_mgmt_decode_assocresp(&parsed.assocresp); -+ acx_l_process_reassocresp(adev, &parsed.reassocresp); -+ break; -+ case WF_FSTYPE_PROBEREQi: -+ if (ap || adhoc) { -+ /* FIXME: since we're supposed to be an AP, -+ ** we need to return a Probe Response packet. -+ ** Currently firmware is doing it for us, -+ ** but firmware is buggy! See comment elsewhere --vda */ -+ } -+ break; -+ case WF_FSTYPE_PROBERESPi: -+ memset(&parsed.proberesp, 0, sizeof(parsed.proberesp)); -+ parsed.proberesp.hdr = hdr; -+ parsed.proberesp.len = len; -+ wlan_mgmt_decode_proberesp(&parsed.proberesp); -+ acx_l_process_probe_response(adev, &parsed.proberesp, rxbuf); -+ break; -+ case 6: -+ case 7: -+ /* exit */ -+ break; -+ case WF_FSTYPE_ATIMi: -+ /* exit */ -+ break; -+ case WF_FSTYPE_DISASSOCi: -+ if (!sta && !ap) -+ break; -+ memset(&parsed.disassoc, 0, sizeof(parsed.disassoc)); -+ parsed.disassoc.hdr = hdr; -+ parsed.disassoc.len = len; -+ wlan_mgmt_decode_disassoc(&parsed.disassoc); -+ if (sta) -+ acx_l_process_disassoc_from_ap(adev, &parsed.disassoc); -+ else -+ acx_l_process_disassoc_from_sta(adev, &parsed.disassoc); -+ break; -+ case WF_FSTYPE_AUTHENi: -+ if (!sta_scan && !ap) -+ break; -+ memset(&parsed.authen, 0, sizeof(parsed.authen)); -+ parsed.authen.hdr = hdr; -+ parsed.authen.len = len; -+ wlan_mgmt_decode_authen(&parsed.authen); -+ acx_l_process_authen(adev, &parsed.authen); -+ break; -+ case WF_FSTYPE_DEAUTHENi: -+ if (!sta && !ap) -+ break; -+ memset(&parsed.deauthen, 0, sizeof(parsed.deauthen)); -+ parsed.deauthen.hdr = hdr; -+ parsed.deauthen.len = len; -+ wlan_mgmt_decode_deauthen(&parsed.deauthen); -+ if (sta) -+ acx_l_process_deauth_from_ap(adev, &parsed.deauthen); -+ else -+ acx_l_process_deauth_from_sta(adev, &parsed.deauthen); -+ break; -+ } -+ -+ FN_EXIT1(OK); -+ return OK; -+} -+ -+ -+#ifdef UNUSED -+/*********************************************************************** -+** acx_process_class_frame -+** -+** Called from IRQ context only -+*/ -+static int -+acx_process_class_frame(acx_device_t *adev, rxbuffer_t *rxbuf, int vala) -+{ -+ return OK; -+} -+#endif -+ -+ -+/*********************************************************************** -+** acx_l_process_NULL_frame -+*/ -+#ifdef BOGUS_ITS_NOT_A_NULL_FRAME_HANDLER_AT_ALL -+static int -+acx_l_process_NULL_frame(acx_device_t *adev, rxbuffer_t *rxbuf, int vala) -+{ -+ const signed char *esi; -+ const u8 *ebx; -+ const wlan_hdr_t *hdr; -+ const client_t *client; -+ int result = NOT_OK; -+ -+ hdr = acx_get_wlan_hdr(adev, rxbuf); -+ -+ switch (WF_FC_FROMTODSi & hdr->fc) { -+ case 0: -+ esi = hdr->a1; -+ ebx = hdr->a2; -+ break; -+ case WF_FC_FROMDSi: -+ esi = hdr->a1; -+ ebx = hdr->a3; -+ break; -+ case WF_FC_TODSi: -+ esi = hdr->a1; -+ ebx = hdr->a2; -+ break; -+ default: /* WF_FC_FROMTODSi */ -+ esi = hdr->a1; /* added by me! --vda */ -+ ebx = hdr->a2; -+ } -+ -+ if (esi[0x0] < 0) { -+ result = OK; -+ goto done; -+ } -+ -+ client = acx_l_sta_list_get(adev, ebx); -+ if (client) -+ result = NOT_OK; -+ else { -+#ifdef IS_IT_BROKEN -+ log(L_DEBUG|L_XFER, "<transmit_deauth 7>\n"); -+ acx_l_transmit_deauthen(adev, ebx, -+ WLAN_MGMT_REASON_CLASS2_NONAUTH); -+#else -+ log(L_DEBUG, "received NULL frame from unknown client! " -+ "We really shouldn't send deauthen here, right?\n"); -+#endif -+ result = OK; -+ } -+done: -+ return result; -+} -+#endif -+ -+ -+/*********************************************************************** -+** acx_l_process_probe_response -+*/ -+static int -+acx_l_process_probe_response(acx_device_t *adev, wlan_fr_proberesp_t *req, -+ const rxbuffer_t *rxbuf) -+{ -+ struct client *bss; -+ wlan_hdr_t *hdr; -+ -+ FN_ENTER; -+ -+ hdr = req->hdr; -+ -+ if (mac_is_equal(hdr->a3, adev->dev_addr)) { -+ log(L_ASSOC, "huh, scan found our own MAC!?\n"); -+ goto ok; /* just skip this one silently */ -+ } -+ -+ bss = acx_l_sta_list_get_or_add(adev, hdr->a2); -+ -+ /* NB: be careful modifying bss data! It may be one -+ ** of the already known clients (like our AP if we are a STA) -+ ** Thus do not blindly modify e.g. current ratemask! */ -+ -+ if (STA_LIST_ADD_CAN_FAIL && !bss) { -+ /* uh oh, we found more sites/stations than we can handle with -+ * our current setup: pull the emergency brake and stop scanning! */ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_CMD_STOP_SCAN); -+ /* TODO: a nice comment what below call achieves --vda */ -+ acx_set_status(adev, ACX_STATUS_2_WAIT_AUTH); -+ goto ok; -+ } -+ /* NB: get_or_add already filled bss->address = hdr->a2 */ -+ MAC_COPY(bss->bssid, hdr->a3); -+ -+ /* copy the ESSID element */ -+ if (req->ssid && req->ssid->len <= IW_ESSID_MAX_SIZE) { -+ bss->essid_len = req->ssid->len; -+ memcpy(bss->essid, req->ssid->ssid, req->ssid->len); -+ bss->essid[req->ssid->len] = '\0'; -+ } else { -+ /* Either no ESSID IE or oversized one */ -+ printk("%s: received packet has bogus ESSID\n", -+ adev->ndev->name); -+ } -+ -+ if (req->ds_parms) -+ bss->channel = req->ds_parms->curr_ch; -+ if (req->cap_info) -+ bss->cap_info = ieee2host16(*req->cap_info); -+ -+ bss->sir = acx_signal_to_winlevel(rxbuf->phy_level); -+ bss->snr = acx_signal_to_winlevel(rxbuf->phy_snr); -+ -+ bss->rate_cap = 0; /* operational mask */ -+ bss->rate_bas = 0; /* basic mask */ -+ if (req->supp_rates) -+ add_bits_to_ratemasks(req->supp_rates->rates, -+ req->supp_rates->len, &bss->rate_bas, &bss->rate_cap); -+ if (req->ext_rates) -+ add_bits_to_ratemasks(req->ext_rates->rates, -+ req->ext_rates->len, &bss->rate_bas, &bss->rate_cap); -+ /* Fix up any possible bogosity - code elsewhere -+ * is not expecting empty masks */ -+ if (!bss->rate_cap) -+ bss->rate_cap = adev->rate_basic; -+ if (!bss->rate_bas) -+ bss->rate_bas = 1 << lowest_bit(bss->rate_cap); -+ if (!bss->rate_cur) -+ bss->rate_cur = 1 << lowest_bit(bss->rate_bas); -+ -+ /* People moan about this being too noisy at L_ASSOC */ -+ log(L_DEBUG, -+ "found %s: ESSID=\"%s\" ch=%d " -+ "BSSID="MACSTR" caps=0x%04X SIR=%d SNR=%d\n", -+ (bss->cap_info & WF_MGMT_CAP_IBSS) ? "Ad-Hoc peer" : "AP", -+ bss->essid, bss->channel, MAC(bss->bssid), bss->cap_info, -+ bss->sir, bss->snr); -+ok: -+ FN_EXIT0; -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acx_l_process_assocresp -+*/ -+static int -+acx_l_process_assocresp(acx_device_t *adev, const wlan_fr_assocresp_t *req) -+{ -+ const wlan_hdr_t *hdr; -+ int res = OK; -+ -+ FN_ENTER; -+ -+ hdr = req->hdr; -+ -+ if ((ACX_MODE_2_STA == adev->mode) -+ && mac_is_equal(adev->dev_addr, hdr->a1)) { -+ u16 st = ieee2host16(*(req->status)); -+ if (WLAN_MGMT_STATUS_SUCCESS == st) { -+ adev->aid = ieee2host16(*(req->aid)); -+ /* tell the card we are associated when -+ ** we are out of interrupt context */ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_CMD_ASSOCIATE); -+ } else { -+ -+ /* TODO: we shall delete peer from sta_list, and try -+ ** other candidates... */ -+ -+ printk("%s: association FAILED: peer sent " -+ "Status Code %d (%s)\n", -+ adev->ndev->name, st, get_status_string(st)); -+ res = NOT_OK; -+ } -+ } -+ -+ FN_EXIT1(res); -+ return res; -+} -+ -+ -+/*********************************************************************** -+** acx_l_process_reassocresp -+*/ -+static int -+acx_l_process_reassocresp(acx_device_t *adev, const wlan_fr_reassocresp_t *req) -+{ -+ const wlan_hdr_t *hdr; -+ int result = NOT_OK; -+ u16 st; -+ -+ FN_ENTER; -+ -+ hdr = req->hdr; -+ -+ if (!mac_is_equal(adev->dev_addr, hdr->a1)) { -+ goto end; -+ } -+ st = ieee2host16(*(req->status)); -+ if (st == WLAN_MGMT_STATUS_SUCCESS) { -+ acx_set_status(adev, ACX_STATUS_4_ASSOCIATED); -+ result = OK; -+ } else { -+ printk("%s: reassociation FAILED: peer sent " -+ "response code %d (%s)\n", -+ adev->ndev->name, st, get_status_string(st)); -+ } -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_l_process_authen -+** -+** Called only in STA_SCAN or AP mode -+*/ -+static int -+acx_l_process_authen(acx_device_t *adev, const wlan_fr_authen_t *req) -+{ -+ const wlan_hdr_t *hdr; -+ client_t *clt; -+ wlan_ie_challenge_t *chal; -+ u16 alg, seq, status; -+ int ap, result; -+ -+ FN_ENTER; -+ -+ hdr = req->hdr; -+ -+ if (acx_debug & L_ASSOC) { -+ acx_print_mac("AUTHEN adev->addr=", adev->dev_addr, " "); -+ acx_print_mac("a1=", hdr->a1, " "); -+ acx_print_mac("a2=", hdr->a2, " "); -+ acx_print_mac("a3=", hdr->a3, " "); -+ acx_print_mac("adev->bssid=", adev->bssid, "\n"); -+ } -+ -+ if (!mac_is_equal(adev->dev_addr, hdr->a1) -+ || !mac_is_equal(adev->bssid, hdr->a3)) { -+ result = OK; -+ goto end; -+ } -+ -+ alg = ieee2host16(*(req->auth_alg)); -+ seq = ieee2host16(*(req->auth_seq)); -+ status = ieee2host16(*(req->status)); -+ -+ log(L_ASSOC, "auth algorithm %d, auth sequence %d, status %d\n", alg, seq, status); -+ -+ ap = (adev->mode == ACX_MODE_3_AP); -+ -+ if (adev->auth_alg <= 1) { -+ if (adev->auth_alg != alg) { -+ log(L_ASSOC, "auth algorithm mismatch: " -+ "our:%d peer:%d\n", adev->auth_alg, alg); -+ result = NOT_OK; -+ goto end; -+ } -+ } -+ if (ap) { -+ clt = acx_l_sta_list_get_or_add(adev, hdr->a2); -+ if (STA_LIST_ADD_CAN_FAIL && !clt) { -+ log(L_ASSOC, "could not allocate room for client\n"); -+ result = NOT_OK; -+ goto end; -+ } -+ } else { -+ clt = adev->ap_client; -+ if (!mac_is_equal(clt->address, hdr->a2)) { -+ printk("%s: malformed auth frame from AP?!\n", -+ adev->ndev->name); -+ result = NOT_OK; -+ goto end; -+ } -+ } -+ -+ /* now check which step in the authentication sequence we are -+ * currently in, and act accordingly */ -+ switch (seq) { -+ case 1: -+ if (!ap) -+ break; -+ acx_l_transmit_authen2(adev, req, clt); -+ break; -+ case 2: -+ if (ap) -+ break; -+ if (status == WLAN_MGMT_STATUS_SUCCESS) { -+ if (alg == WLAN_AUTH_ALG_OPENSYSTEM) { -+ acx_set_status(adev, ACX_STATUS_3_AUTHENTICATED); -+ acx_l_transmit_assoc_req(adev); -+ } else -+ if (alg == WLAN_AUTH_ALG_SHAREDKEY) { -+ acx_l_transmit_authen3(adev, req); -+ } -+ } else { -+ printk("%s: auth FAILED: peer sent " -+ "response code %d (%s), " -+ "still waiting for authentication\n", -+ adev->ndev->name, -+ status, get_status_string(status)); -+ acx_set_status(adev, ACX_STATUS_2_WAIT_AUTH); -+ } -+ break; -+ case 3: -+ if (!ap) -+ break; -+ if ((clt->auth_alg != WLAN_AUTH_ALG_SHAREDKEY) -+ || (alg != WLAN_AUTH_ALG_SHAREDKEY) -+ || (clt->auth_step != 2)) -+ break; -+ chal = req->challenge; -+ if (!chal -+ || memcmp(chal->challenge, clt->challenge_text, WLAN_CHALLENGE_LEN) -+ || (chal->eid != WLAN_EID_CHALLENGE) -+ || (chal->len != WLAN_CHALLENGE_LEN) -+ ) -+ break; -+ acx_l_transmit_authen4(adev, req); -+ MAC_COPY(clt->address, hdr->a2); -+ clt->used = CLIENT_AUTHENTICATED_2; -+ clt->auth_step = 4; -+ clt->seq = ieee2host16(hdr->seq); -+ break; -+ case 4: -+ if (ap) -+ break; -+ /* ok, we're through: we're authenticated. Woohoo!! */ -+ acx_set_status(adev, ACX_STATUS_3_AUTHENTICATED); -+ log(L_ASSOC, "Authenticated!\n"); -+ /* now that we're authenticated, request association */ -+ acx_l_transmit_assoc_req(adev); -+ break; -+ } -+ result = OK; -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_gen_challenge -+*/ -+static inline void -+acx_gen_challenge(wlan_ie_challenge_t* d) -+{ -+ FN_ENTER; -+ d->eid = WLAN_EID_CHALLENGE; -+ d->len = WLAN_CHALLENGE_LEN; -+ get_random_bytes(d->challenge, WLAN_CHALLENGE_LEN); -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_l_transmit_deauthen -+*/ -+static int -+acx_l_transmit_deauthen(acx_device_t *adev, const u8 *addr, u16 reason) -+{ -+ struct tx *tx; -+ struct wlan_hdr_mgmt *head; -+ struct deauthen_frame_body *body; -+ -+ FN_ENTER; -+ -+ tx = acx_l_alloc_tx(adev); -+ if (!tx) -+ goto bad; -+ head = acx_l_get_txbuf(adev, tx); -+ if (!head) { -+ acx_l_dealloc_tx(adev, tx); -+ goto bad; -+ } -+ body = (void*)(head + 1); -+ -+ head->fc = (WF_FTYPE_MGMTi | WF_FSTYPE_DEAUTHENi); -+ head->dur = 0; -+ MAC_COPY(head->da, addr); -+ MAC_COPY(head->sa, adev->dev_addr); -+ MAC_COPY(head->bssid, adev->bssid); -+ head->seq = 0; -+ -+ log(L_DEBUG|L_ASSOC|L_XFER, -+ "sending deauthen to "MACSTR" for %d\n", -+ MAC(addr), reason); -+ -+ body->reason = host2ieee16(reason); -+ -+ /* body is fixed size here, but beware of cutting-and-pasting this - -+ ** do not use sizeof(*body) for variable sized mgmt packets! */ -+ acx_l_tx_data(adev, tx, WLAN_HDR_A3_LEN + sizeof(*body)); -+ -+ FN_EXIT1(OK); -+ return OK; -+bad: -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*********************************************************************** -+** acx_l_transmit_authen1 -+*/ -+static int -+acx_l_transmit_authen1(acx_device_t *adev) -+{ -+ struct tx *tx; -+ struct wlan_hdr_mgmt *head; -+ struct auth_frame_body *body; -+ -+ FN_ENTER; -+ -+ log(L_ASSOC, "sending authentication1 request (auth algo %d), " -+ "awaiting response\n", adev->auth_alg); -+ -+ tx = acx_l_alloc_tx(adev); -+ if (!tx) -+ goto bad; -+ head = acx_l_get_txbuf(adev, tx); -+ if (!head) { -+ acx_l_dealloc_tx(adev, tx); -+ goto bad; -+ } -+ body = (void*)(head + 1); -+ -+ head->fc = WF_FSTYPE_AUTHENi; -+ /* duration should be 0 instead of 0x8000 to have -+ * the firmware calculate the value, right? */ -+ head->dur = 0; -+ MAC_COPY(head->da, adev->bssid); -+ MAC_COPY(head->sa, adev->dev_addr); -+ MAC_COPY(head->bssid, adev->bssid); -+ head->seq = 0; -+ -+ body->auth_alg = host2ieee16(adev->auth_alg); -+ body->auth_seq = host2ieee16(1); -+ body->status = host2ieee16(0); -+ -+ acx_l_tx_data(adev, tx, WLAN_HDR_A3_LEN + 2 + 2 + 2); -+ -+ FN_EXIT1(OK); -+ return OK; -+bad: -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*********************************************************************** -+** acx_l_transmit_authen2 -+*/ -+static int -+acx_l_transmit_authen2(acx_device_t *adev, const wlan_fr_authen_t *req, -+ client_t *clt) -+{ -+ struct tx *tx; -+ struct wlan_hdr_mgmt *head; -+ struct auth_frame_body *body; -+ unsigned int packet_len; -+ -+ FN_ENTER; -+ -+ if (!clt) -+ goto ok; -+ -+ MAC_COPY(clt->address, req->hdr->a2); -+#ifdef UNUSED -+ clt->ps = ((WF_FC_PWRMGTi & req->hdr->fc) != 0); -+#endif -+ clt->auth_alg = ieee2host16(*(req->auth_alg)); -+ clt->auth_step = 2; -+ clt->seq = ieee2host16(req->hdr->seq); -+ -+ tx = acx_l_alloc_tx(adev); -+ if (!tx) -+ goto bad; -+ head = acx_l_get_txbuf(adev, tx); -+ if (!head) { -+ acx_l_dealloc_tx(adev, tx); -+ goto bad; -+ } -+ body = (void*)(head + 1); -+ -+ head->fc = WF_FSTYPE_AUTHENi; -+ head->dur = 0 /* req->hdr->dur */; -+ MAC_COPY(head->da, req->hdr->a2); -+ MAC_COPY(head->sa, adev->dev_addr); -+ MAC_COPY(head->bssid, req->hdr->a3); -+ head->seq = 0 /* req->hdr->seq */; -+ -+ /* already in IEEE format, no endianness conversion */ -+ body->auth_alg = *(req->auth_alg); -+ body->auth_seq = host2ieee16(2); -+ body->status = host2ieee16(0); -+ -+ packet_len = WLAN_HDR_A3_LEN + 2 + 2 + 2; -+ if (ieee2host16(*(req->auth_alg)) == WLAN_AUTH_ALG_OPENSYSTEM) { -+ clt->used = CLIENT_AUTHENTICATED_2; -+ } else { /* shared key */ -+ acx_gen_challenge(&body->challenge); -+ memcpy(&clt->challenge_text, body->challenge.challenge, WLAN_CHALLENGE_LEN); -+ packet_len += 2 + 2 + 2 + 1+1+WLAN_CHALLENGE_LEN; -+ } -+ -+ acxlog_mac(L_ASSOC|L_XFER, -+ "transmit_auth2: BSSID=", head->bssid, "\n"); -+ -+ acx_l_tx_data(adev, tx, packet_len); -+ok: -+ FN_EXIT1(OK); -+ return OK; -+bad: -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*********************************************************************** -+** acx_l_transmit_authen3 -+*/ -+static int -+acx_l_transmit_authen3(acx_device_t *adev, const wlan_fr_authen_t *req) -+{ -+ struct tx *tx; -+ struct wlan_hdr_mgmt *head; -+ struct auth_frame_body *body; -+ unsigned int packet_len; -+ -+ FN_ENTER; -+ -+ tx = acx_l_alloc_tx(adev); -+ if (!tx) -+ goto ok; -+ head = acx_l_get_txbuf(adev, tx); -+ if (!head) { -+ acx_l_dealloc_tx(adev, tx); -+ goto ok; -+ } -+ body = (void*)(head + 1); -+ -+ /* add WF_FC_ISWEPi: auth step 3 needs to be encrypted */ -+ head->fc = WF_FC_ISWEPi + WF_FSTYPE_AUTHENi; -+ /* FIXME: is this needed?? authen4 does it... -+ * I think it's even wrong since we shouldn't re-use old -+ * values but instead let the firmware calculate proper ones -+ head->dur = req->hdr->dur; -+ head->seq = req->hdr->seq; -+ */ -+ MAC_COPY(head->da, adev->bssid); -+ MAC_COPY(head->sa, adev->dev_addr); -+ MAC_COPY(head->bssid, adev->bssid); -+ -+ /* already in IEEE format, no endianness conversion */ -+ body->auth_alg = *(req->auth_alg); -+ body->auth_seq = host2ieee16(3); -+ body->status = host2ieee16(0); -+ memcpy(&body->challenge, req->challenge, req->challenge->len + 2); -+ packet_len = WLAN_HDR_A3_LEN + 8 + req->challenge->len; -+ -+ log(L_ASSOC|L_XFER, "transmit_authen3!\n"); -+ -+ acx_l_tx_data(adev, tx, packet_len); -+ok: -+ FN_EXIT1(OK); -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acx_l_transmit_authen4 -+*/ -+static int -+acx_l_transmit_authen4(acx_device_t *adev, const wlan_fr_authen_t *req) -+{ -+ struct tx *tx; -+ struct wlan_hdr_mgmt *head; -+ struct auth_frame_body *body; -+ -+ FN_ENTER; -+ -+ tx = acx_l_alloc_tx(adev); -+ if (!tx) -+ goto ok; -+ head = acx_l_get_txbuf(adev, tx); -+ if (!head) { -+ acx_l_dealloc_tx(adev, tx); -+ goto ok; -+ } -+ body = (void*)(head + 1); -+ -+ head->fc = WF_FSTYPE_AUTHENi; /* 0xb0 */ -+ head->dur = 0 /* req->hdr->dur */; -+ MAC_COPY(head->da, req->hdr->a2); -+ MAC_COPY(head->sa, adev->dev_addr); -+ MAC_COPY(head->bssid, req->hdr->a3); -+ head->seq = 0 /* req->hdr->seq */; -+ -+ /* already in IEEE format, no endianness conversion */ -+ body->auth_alg = *(req->auth_alg); -+ body->auth_seq = host2ieee16(4); -+ body->status = host2ieee16(0); -+ -+ acx_l_tx_data(adev, tx, WLAN_HDR_A3_LEN + 2 + 2 + 2); -+ok: -+ FN_EXIT1(OK); -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acx_l_transmit_assoc_req -+** -+** adev->ap_client is a current candidate AP here -+*/ -+static int -+acx_l_transmit_assoc_req(acx_device_t *adev) -+{ -+ struct tx *tx; -+ struct wlan_hdr_mgmt *head; -+ u8 *body, *p, *prate; -+ unsigned int packet_len; -+ u16 cap; -+ -+ FN_ENTER; -+ -+ log(L_ASSOC, "sending association request, " -+ "awaiting response. NOT ASSOCIATED YET\n"); -+ tx = acx_l_alloc_tx(adev); -+ if (!tx) -+ goto bad; -+ head = acx_l_get_txbuf(adev, tx); -+ if (!head) { -+ acx_l_dealloc_tx(adev, tx); -+ goto bad; -+ } -+ body = (void*)(head + 1); -+ -+ head->fc = WF_FSTYPE_ASSOCREQi; -+ head->dur = host2ieee16(0x8000); -+ MAC_COPY(head->da, adev->bssid); -+ MAC_COPY(head->sa, adev->dev_addr); -+ MAC_COPY(head->bssid, adev->bssid); -+ head->seq = 0; -+ -+ p = body; -+ /* now start filling the AssocReq frame body */ -+ -+ /* since this assoc request will most likely only get -+ * sent in the STA to AP case (and not when Ad-Hoc IBSS), -+ * the cap combination indicated here will thus be -+ * WF_MGMT_CAP_ESSi *always* (no IBSS ever) -+ * The specs are more than non-obvious on all that: -+ * -+ * 802.11 7.3.1.4 Capability Information field -+ ** APs set the ESS subfield to 1 and the IBSS subfield to 0 within -+ ** Beacon or Probe Response management frames. STAs within an IBSS -+ ** set the ESS subfield to 0 and the IBSS subfield to 1 in transmitted -+ ** Beacon or Probe Response management frames -+ ** -+ ** APs set the Privacy subfield to 1 within transmitted Beacon, -+ ** Probe Response, Association Response, and Reassociation Response -+ ** if WEP is required for all data type frames within the BSS. -+ ** STAs within an IBSS set the Privacy subfield to 1 in Beacon -+ ** or Probe Response management frames if WEP is required -+ ** for all data type frames within the IBSS */ -+ -+ /* note that returning 0 will be refused by several APs... -+ * (so this indicates that you're probably supposed to -+ * "confirm" the ESS mode) */ -+ cap = WF_MGMT_CAP_ESSi; -+ -+ /* this one used to be a check on wep_restricted, -+ * but more likely it's wep_enabled instead */ -+ if (adev->wep_enabled) -+ SET_BIT(cap, WF_MGMT_CAP_PRIVACYi); -+ -+ /* Probably we can just set these always, because our hw is -+ ** capable of shortpre and PBCC --vda */ -+ /* only ask for short preamble if the peer station supports it */ -+ if (adev->ap_client->cap_info & WF_MGMT_CAP_SHORT) -+ SET_BIT(cap, WF_MGMT_CAP_SHORTi); -+ /* only ask for PBCC support if the peer station supports it */ -+ if (adev->ap_client->cap_info & WF_MGMT_CAP_PBCC) -+ SET_BIT(cap, WF_MGMT_CAP_PBCCi); -+ -+ /* IEs: 1. caps */ -+ *(u16*)p = cap; p += 2; -+ /* 2. listen interval */ -+ *(u16*)p = host2ieee16(adev->listen_interval); p += 2; -+ /* 3. ESSID */ -+ p = wlan_fill_ie_ssid(p, -+ strlen(adev->essid_for_assoc), adev->essid_for_assoc); -+ /* 4. supp rates */ -+ prate = p; -+ p = wlan_fill_ie_rates(p, -+ adev->rate_supported_len, adev->rate_supported); -+ /* 5. ext supp rates */ -+ p = wlan_fill_ie_rates_ext(p, -+ adev->rate_supported_len, adev->rate_supported); -+ -+ if (acx_debug & L_DEBUG) { -+ printk("association: rates element\n"); -+ acx_dump_bytes(prate, p - prate); -+ } -+ -+ /* calculate lengths */ -+ packet_len = WLAN_HDR_A3_LEN + (p - body); -+ -+ log(L_ASSOC, "association: requesting caps 0x%04X, ESSID \"%s\"\n", -+ cap, adev->essid_for_assoc); -+ -+ acx_l_tx_data(adev, tx, packet_len); -+ FN_EXIT1(OK); -+ return OK; -+bad: -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*********************************************************************** -+** acx_l_transmit_disassoc -+** -+** FIXME: looks like incomplete implementation of a helper: -+** acx_l_transmit_disassoc(adev, clt) - kick this client (we're an AP) -+** acx_l_transmit_disassoc(adev, NULL) - leave BSSID (we're a STA) -+*/ -+#ifdef BROKEN -+int -+acx_l_transmit_disassoc(acx_device_t *adev, client_t *clt) -+{ -+ struct tx *tx; -+ struct wlan_hdr_mgmt *head; -+ struct disassoc_frame_body *body; -+ -+ FN_ENTER; -+/* if (clt != NULL) { */ -+ tx = acx_l_alloc_tx(adev); -+ if (!tx) -+ goto bad; -+ head = acx_l_get_txbuf(adev, tx); -+ if (!head) { -+ acx_l_dealloc_tx(adev, tx); -+ goto bad; -+ } -+ body = (void*)(head + 1); -+ -+/* clt->used = CLIENT_AUTHENTICATED_2; - not (yet?) associated */ -+ -+ head->fc = WF_FSTYPE_DISASSOCi; -+ head->dur = 0; -+ /* huh? It muchly depends on whether we're STA or AP... -+ ** sta->ap: da=bssid, sa=own, bssid=bssid -+ ** ap->sta: da=sta, sa=bssid, bssid=bssid. FIXME! */ -+ MAC_COPY(head->da, adev->bssid); -+ MAC_COPY(head->sa, adev->dev_addr); -+ MAC_COPY(head->bssid, adev->dev_addr); -+ head->seq = 0; -+ -+ /* "Class 3 frame received from nonassociated station." */ -+ body->reason = host2ieee16(7); -+ -+ /* fixed size struct, ok to sizeof */ -+ acx_l_tx_data(adev, tx, WLAN_HDR_A3_LEN + sizeof(*body)); -+/* } */ -+ FN_EXIT1(OK); -+ return OK; -+bad: -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+#endif -+ -+ -+/*********************************************************************** -+** acx_s_complete_scan -+** -+** Called either from after_interrupt_task() if: -+** 1) there was Scan_Complete IRQ, or -+** 2) scanning expired in timer() -+** We need to decide which ESS or IBSS to join. -+** Iterates thru adev->sta_list: -+** if adev->ap is not bcast, will join only specified -+** ESS or IBSS with this bssid -+** checks peers' caps for ESS/IBSS bit -+** checks peers' SSID, allows exact match or hidden SSID -+** If station to join is chosen: -+** points adev->ap_client to the chosen struct client -+** sets adev->essid_for_assoc for future assoc attempt -+** Auth/assoc is not yet performed -+** Returns OK if there is no need to restart scan -+*/ -+int -+acx_s_complete_scan(acx_device_t *adev) -+{ -+ struct client *bss; -+ unsigned long flags; -+ u16 needed_cap; -+ int i; -+ int idx_found = -1; -+ int result = OK; -+ -+ FN_ENTER; -+ -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ needed_cap = WF_MGMT_CAP_IBSS; /* 2, we require Ad-Hoc */ -+ break; -+ case ACX_MODE_2_STA: -+ needed_cap = WF_MGMT_CAP_ESS; /* 1, we require Managed */ -+ break; -+ default: -+ printk("acx: driver bug: mode=%d in complete_scan()\n", adev->mode); -+ dump_stack(); -+ goto end; -+ } -+ -+ acx_lock(adev, flags); -+ -+ /* TODO: sta_iterator hiding implementation would be nice here... */ -+ -+ for (i = 0; i < VEC_SIZE(adev->sta_list); i++) { -+ bss = &adev->sta_list[i]; -+ if (!bss->used) continue; -+ -+ -+ log(L_ASSOC, "scan table: SSID=\"%s\" CH=%d SIR=%d SNR=%d\n", -+ bss->essid, bss->channel, bss->sir, bss->snr); -+ -+ if (!mac_is_bcast(adev->ap)) -+ if (!mac_is_equal(bss->bssid, adev->ap)) -+ continue; /* keep looking */ -+ -+ /* broken peer with no mode flags set? */ -+ if (unlikely(!(bss->cap_info & (WF_MGMT_CAP_ESS | WF_MGMT_CAP_IBSS)))) { -+ printk("%s: strange peer "MACSTR" found with " -+ "neither ESS (AP) nor IBSS (Ad-Hoc) " -+ "capability - skipped\n", -+ adev->ndev->name, MAC(bss->address)); -+ continue; -+ } -+ log(L_ASSOC, "peer_cap 0x%04X, needed_cap 0x%04X\n", -+ bss->cap_info, needed_cap); -+ -+ /* does peer station support what we need? */ -+ if ((bss->cap_info & needed_cap) != needed_cap) -+ continue; /* keep looking */ -+ -+ /* strange peer with NO basic rates?! */ -+ if (unlikely(!bss->rate_bas)) { -+ printk("%s: strange peer "MACSTR" with empty rate set " -+ "- skipped\n", -+ adev->ndev->name, MAC(bss->address)); -+ continue; -+ } -+ -+ /* do we support all basic rates of this peer? */ -+ if ((bss->rate_bas & adev->rate_oper) != bss->rate_bas) { -+/* we probably need to have all rates as operational rates, -+ even in case of an 11M-only configuration */ -+#ifdef THIS_IS_TROUBLESOME -+ printk("%s: peer "MACSTR": incompatible basic rates " -+ "(AP requests 0x%04X, we have 0x%04X) " -+ "- skipped\n", -+ adev->ndev->name, MAC(bss->address), -+ bss->rate_bas, adev->rate_oper); -+ continue; -+#else -+ printk("%s: peer "MACSTR": incompatible basic rates " -+ "(AP requests 0x%04X, we have 0x%04X). " -+ "Considering anyway...\n", -+ adev->ndev->name, MAC(bss->address), -+ bss->rate_bas, adev->rate_oper); -+#endif -+ } -+ -+ if ( !(adev->reg_dom_chanmask & (1<<(bss->channel-1))) ) { -+ printk("%s: warning: peer "MACSTR" is on channel %d " -+ "outside of channel range of current " -+ "regulatory domain - couldn't join " -+ "even if other settings match. " -+ "You might want to adapt your config\n", -+ adev->ndev->name, MAC(bss->address), -+ bss->channel); -+ continue; /* keep looking */ -+ } -+ -+ if (!adev->essid_active || !strcmp(bss->essid, adev->essid)) { -+ log(L_ASSOC, -+ "found station with matching ESSID! ('%s' " -+ "station, '%s' config)\n", -+ bss->essid, -+ (adev->essid_active) ? adev->essid : "[any]"); -+ /* TODO: continue looking for peer with better SNR */ -+ bss->used = CLIENT_JOIN_CANDIDATE; -+ idx_found = i; -+ -+ /* stop searching if this station is -+ * on the current channel, otherwise -+ * keep looking for an even better match */ -+ if (bss->channel == adev->channel) -+ break; -+ } else -+ if (is_hidden_essid(bss->essid)) { -+ /* hmm, station with empty or single-space SSID: -+ * using hidden SSID broadcast? -+ */ -+ /* This behaviour is broken: which AP from zillion -+ ** of APs with hidden SSID you'd try? -+ ** We should use Probe requests to get Probe responses -+ ** and check for real SSID (are those never hidden?) */ -+ bss->used = CLIENT_JOIN_CANDIDATE; -+ if (idx_found == -1) -+ idx_found = i; -+ log(L_ASSOC, "found station with empty or " -+ "single-space (hidden) SSID, considering " -+ "for assoc attempt\n"); -+ /* ...and keep looking for better matches */ -+ } else { -+ log(L_ASSOC, "ESSID doesn't match! ('%s' " -+ "station, '%s' config)\n", -+ bss->essid, -+ (adev->essid_active) ? adev->essid : "[any]"); -+ } -+ } -+ -+ /* TODO: iterate thru join candidates instead */ -+ /* TODO: rescan if not associated within some timeout */ -+ if (idx_found != -1) { -+ char *essid_src; -+ size_t essid_len; -+ -+ bss = &adev->sta_list[idx_found]; -+ adev->ap_client = bss; -+ -+ if (is_hidden_essid(bss->essid)) { -+ /* if the ESSID of the station we found is empty -+ * (no broadcast), then use user-configured ESSID -+ * instead */ -+ essid_src = adev->essid; -+ essid_len = adev->essid_len; -+ } else { -+ essid_src = bss->essid; -+ essid_len = strlen(bss->essid); -+ } -+ -+ acx_update_capabilities(adev); -+ -+ memcpy(adev->essid_for_assoc, essid_src, essid_len); -+ adev->essid_for_assoc[essid_len] = '\0'; -+ adev->channel = bss->channel; -+ MAC_COPY(adev->bssid, bss->bssid); -+ -+ bss->rate_cfg = (bss->rate_cap & adev->rate_oper); -+ bss->rate_cur = 1 << lowest_bit(bss->rate_cfg); -+ bss->rate_100 = acx_rate111to100(bss->rate_cur); -+ -+ acxlog_mac(L_ASSOC, -+ "matching station found: ", adev->bssid, ", joining\n"); -+ -+ /* TODO: do we need to switch to the peer's channel first? */ -+ -+ if (ACX_MODE_0_ADHOC == adev->mode) { -+ acx_set_status(adev, ACX_STATUS_4_ASSOCIATED); -+ } else { -+ acx_l_transmit_authen1(adev); -+ acx_set_status(adev, ACX_STATUS_2_WAIT_AUTH); -+ } -+ } else { /* idx_found == -1 */ -+ /* uh oh, no station found in range */ -+ if (ACX_MODE_0_ADHOC == adev->mode) { -+ printk("%s: no matching station found in range, " -+ "generating our own IBSS instead\n", -+ adev->ndev->name); -+ /* we do it the HostAP way: */ -+ MAC_COPY(adev->bssid, adev->dev_addr); -+ adev->bssid[0] |= 0x02; /* 'local assigned addr' bit */ -+ /* add IBSS bit to our caps... */ -+ acx_update_capabilities(adev); -+ acx_set_status(adev, ACX_STATUS_4_ASSOCIATED); -+ /* In order to cmd_join be called below */ -+ idx_found = 0; -+ } else { -+ /* we shall scan again, AP can be -+ ** just temporarily powered off */ -+ log(L_ASSOC, -+ "no matching station found in range yet\n"); -+ acx_set_status(adev, ACX_STATUS_1_SCANNING); -+ result = NOT_OK; -+ } -+ } -+ -+ acx_unlock(adev, flags); -+ -+ if (idx_found != -1) { -+ if (ACX_MODE_0_ADHOC == adev->mode) { -+ /* need to update channel in beacon template */ -+ SET_BIT(adev->set_mask, SET_TEMPLATES); -+ if (ACX_STATE_IFACE_UP & adev->dev_state_mask) -+ acx_s_update_card_settings(adev); -+ } -+ /* Inform firmware on our decision to start or join BSS */ -+ acx_s_cmd_join_bssid(adev, adev->bssid); -+ } -+ -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_s_read_fw -+** -+** Loads a firmware image -+** -+** Returns: -+** 0 unable to load file -+** pointer to firmware success -+*/ -+firmware_image_t* -+acx_s_read_fw(struct device *dev, const char *file, u32 *size) -+{ -+ firmware_image_t *res; -+ const struct firmware *fw_entry; -+ -+ res = NULL; -+ log(L_INIT, "requesting firmware image '%s'\n", file); -+ if (!request_firmware(&fw_entry, file, dev)) { -+ *size = 8; -+ if (fw_entry->size >= 8) -+ *size = 8 + le32_to_cpu(*(u32 *)(fw_entry->data + 4)); -+ if (fw_entry->size != *size) { -+ printk("acx: firmware size does not match " -+ "firmware header: %d != %d, " -+ "aborting fw upload\n", -+ (int) fw_entry->size, (int) *size); -+ goto release_ret; -+ } -+ res = vmalloc(*size); -+ if (!res) { -+ printk("acx: no memory for firmware " -+ "(%u bytes)\n", *size); -+ goto release_ret; -+ } -+ memcpy(res, fw_entry->data, fw_entry->size); -+release_ret: -+ release_firmware(fw_entry); -+ return res; -+ } -+ printk("acx: firmware image '%s' was not provided. " -+ "Check your hotplug scripts\n", file); -+ -+ /* checksum will be verified in write_fw, so don't bother here */ -+ return res; -+} -+ -+ -+/*********************************************************************** -+** acx_s_set_wepkey -+*/ -+static void -+acx100_s_set_wepkey(acx_device_t *adev) -+{ -+ ie_dot11WEPDefaultKey_t dk; -+ int i; -+ -+ for (i = 0; i < DOT11_MAX_DEFAULT_WEP_KEYS; i++) { -+ if (adev->wep_keys[i].size != 0) { -+ log(L_INIT, "setting WEP key: %d with " -+ "total size: %d\n", i, (int) adev->wep_keys[i].size); -+ dk.action = 1; -+ dk.keySize = adev->wep_keys[i].size; -+ dk.defaultKeyNum = i; -+ memcpy(dk.key, adev->wep_keys[i].key, dk.keySize); -+ acx_s_configure(adev, &dk, ACX100_IE_DOT11_WEP_DEFAULT_KEY_WRITE); -+ } -+ } -+} -+ -+static void -+acx111_s_set_wepkey(acx_device_t *adev) -+{ -+ acx111WEPDefaultKey_t dk; -+ int i; -+ -+ for (i = 0; i < DOT11_MAX_DEFAULT_WEP_KEYS; i++) { -+ if (adev->wep_keys[i].size != 0) { -+ log(L_INIT, "setting WEP key: %d with " -+ "total size: %d\n", i, (int) adev->wep_keys[i].size); -+ memset(&dk, 0, sizeof(dk)); -+ dk.action = cpu_to_le16(1); /* "add key"; yes, that's a 16bit value */ -+ dk.keySize = adev->wep_keys[i].size; -+ -+ /* are these two lines necessary? */ -+ dk.type = 0; /* default WEP key */ -+ dk.index = 0; /* ignored when setting default key */ -+ -+ dk.defaultKeyNum = i; -+ memcpy(dk.key, adev->wep_keys[i].key, dk.keySize); -+ acx_s_issue_cmd(adev, ACX1xx_CMD_WEP_MGMT, &dk, sizeof(dk)); -+ } -+ } -+} -+ -+static void -+acx_s_set_wepkey(acx_device_t *adev) -+{ -+ if (IS_ACX111(adev)) -+ acx111_s_set_wepkey(adev); -+ else -+ acx100_s_set_wepkey(adev); -+} -+ -+ -+/*********************************************************************** -+** acx100_s_init_wep -+** -+** FIXME: this should probably be moved into the new card settings -+** management, but since we're also modifying the memory map layout here -+** due to the WEP key space we want, we should take care... -+*/ -+static int -+acx100_s_init_wep(acx_device_t *adev) -+{ -+ acx100_ie_wep_options_t options; -+ ie_dot11WEPDefaultKeyID_t dk; -+ acx_ie_memmap_t pt; -+ int res = NOT_OK; -+ -+ FN_ENTER; -+ -+ if (OK != acx_s_interrogate(adev, &pt, ACX1xx_IE_MEMORY_MAP)) { -+ goto fail; -+ } -+ -+ log(L_DEBUG, "CodeEnd:%X\n", pt.CodeEnd); -+ -+ pt.WEPCacheStart = cpu_to_le32(le32_to_cpu(pt.CodeEnd) + 0x4); -+ pt.WEPCacheEnd = cpu_to_le32(le32_to_cpu(pt.CodeEnd) + 0x4); -+ -+ if (OK != acx_s_configure(adev, &pt, ACX1xx_IE_MEMORY_MAP)) { -+ goto fail; -+ } -+ -+ /* let's choose maximum setting: 4 default keys, plus 10 other keys: */ -+ options.NumKeys = cpu_to_le16(DOT11_MAX_DEFAULT_WEP_KEYS + 10); -+ options.WEPOption = 0x00; -+ -+ log(L_ASSOC, "%s: writing WEP options\n", __func__); -+ acx_s_configure(adev, &options, ACX100_IE_WEP_OPTIONS); -+ -+ acx100_s_set_wepkey(adev); -+ -+ if (adev->wep_keys[adev->wep_current_index].size != 0) { -+ log(L_ASSOC, "setting active default WEP key number: %d\n", -+ adev->wep_current_index); -+ dk.KeyID = adev->wep_current_index; -+ acx_s_configure(adev, &dk, ACX1xx_IE_DOT11_WEP_DEFAULT_KEY_SET); /* 0x1010 */ -+ } -+ /* FIXME!!! wep_key_struct is filled nowhere! But adev -+ * is initialized to 0, and we don't REALLY need those keys either */ -+/* for (i = 0; i < 10; i++) { -+ if (adev->wep_key_struct[i].len != 0) { -+ MAC_COPY(wep_mgmt.MacAddr, adev->wep_key_struct[i].addr); -+ wep_mgmt.KeySize = cpu_to_le16(adev->wep_key_struct[i].len); -+ memcpy(&wep_mgmt.Key, adev->wep_key_struct[i].key, le16_to_cpu(wep_mgmt.KeySize)); -+ wep_mgmt.Action = cpu_to_le16(1); -+ log(L_ASSOC, "writing WEP key %d (len %d)\n", i, le16_to_cpu(wep_mgmt.KeySize)); -+ if (OK == acx_s_issue_cmd(adev, ACX1xx_CMD_WEP_MGMT, &wep_mgmt, sizeof(wep_mgmt))) { -+ adev->wep_key_struct[i].index = i; -+ } -+ } -+ } -+*/ -+ -+ /* now retrieve the updated WEPCacheEnd pointer... */ -+ if (OK != acx_s_interrogate(adev, &pt, ACX1xx_IE_MEMORY_MAP)) { -+ printk("%s: ACX1xx_IE_MEMORY_MAP read #2 FAILED\n", -+ adev->ndev->name); -+ goto fail; -+ } -+ /* ...and tell it to start allocating templates at that location */ -+ /* (no endianness conversion needed) */ -+ pt.PacketTemplateStart = pt.WEPCacheEnd; -+ -+ if (OK != acx_s_configure(adev, &pt, ACX1xx_IE_MEMORY_MAP)) { -+ printk("%s: ACX1xx_IE_MEMORY_MAP write #2 FAILED\n", -+ adev->ndev->name); -+ goto fail; -+ } -+ res = OK; -+ -+fail: -+ FN_EXIT1(res); -+ return res; -+} -+ -+ -+static int -+acx_s_init_max_template_generic(acx_device_t *adev, unsigned int len, unsigned int cmd) -+{ -+ int res; -+ union { -+ acx_template_nullframe_t null; -+ acx_template_beacon_t b; -+ acx_template_tim_t tim; -+ acx_template_probereq_t preq; -+ acx_template_proberesp_t presp; -+ } templ; -+ -+ memset(&templ, 0, len); -+ templ.null.size = cpu_to_le16(len - 2); -+ res = acx_s_issue_cmd(adev, cmd, &templ, len); -+ return res; -+} -+ -+static inline int -+acx_s_init_max_null_data_template(acx_device_t *adev) -+{ -+ return acx_s_init_max_template_generic( -+ adev, sizeof(acx_template_nullframe_t), ACX1xx_CMD_CONFIG_NULL_DATA -+ ); -+} -+ -+static inline int -+acx_s_init_max_beacon_template(acx_device_t *adev) -+{ -+ return acx_s_init_max_template_generic( -+ adev, sizeof(acx_template_beacon_t), ACX1xx_CMD_CONFIG_BEACON -+ ); -+} -+ -+static inline int -+acx_s_init_max_tim_template(acx_device_t *adev) -+{ -+ return acx_s_init_max_template_generic( -+ adev, sizeof(acx_template_tim_t), ACX1xx_CMD_CONFIG_TIM -+ ); -+} -+ -+static inline int -+acx_s_init_max_probe_response_template(acx_device_t *adev) -+{ -+ return acx_s_init_max_template_generic( -+ adev, sizeof(acx_template_proberesp_t), ACX1xx_CMD_CONFIG_PROBE_RESPONSE -+ ); -+} -+ -+static inline int -+acx_s_init_max_probe_request_template(acx_device_t *adev) -+{ -+ return acx_s_init_max_template_generic( -+ adev, sizeof(acx_template_probereq_t), ACX1xx_CMD_CONFIG_PROBE_REQUEST -+ ); -+} -+ -+/*********************************************************************** -+** acx_s_set_tim_template -+** -+** FIXME: In full blown driver we will regularly update partial virtual bitmap -+** by calling this function -+** (it can be done by irq handler on each DTIM irq or by timer...) -+ -+[802.11 7.3.2.6] TIM information element: -+- 1 EID -+- 1 Length -+1 1 DTIM Count -+ indicates how many beacons (including this) appear before next DTIM -+ (0=this one is a DTIM) -+2 1 DTIM Period -+ number of beacons between successive DTIMs -+ (0=reserved, 1=all TIMs are DTIMs, 2=every other, etc) -+3 1 Bitmap Control -+ bit0: Traffic Indicator bit associated with Assoc ID 0 (Bcast AID?) -+ set to 1 in TIM elements with a value of 0 in the DTIM Count field -+ when one or more broadcast or multicast frames are buffered at the AP. -+ bit1-7: Bitmap Offset (logically Bitmap_Offset = Bitmap_Control & 0xFE). -+4 n Partial Virtual Bitmap -+ Visible part of traffic-indication bitmap. -+ Full bitmap consists of 2008 bits (251 octets) such that bit number N -+ (0<=N<=2007) in the bitmap corresponds to bit number (N mod 8) -+ in octet number N/8 where the low-order bit of each octet is bit0, -+ and the high order bit is bit7. -+ Each set bit in virtual bitmap corresponds to traffic buffered by AP -+ for a specific station (with corresponding AID?). -+ Partial Virtual Bitmap shows a part of bitmap which has non-zero. -+ Bitmap Offset is a number of skipped zero octets (see above). -+ 'Missing' octets at the tail are also assumed to be zero. -+ Example: Length=6, Bitmap_Offset=2, Partial_Virtual_Bitmap=55 55 55 -+ This means that traffic-indication bitmap is: -+ 00000000 00000000 01010101 01010101 01010101 00000000 00000000... -+ (is bit0 in the map is always 0 and real value is in Bitmap Control bit0?) -+*/ -+static int -+acx_s_set_tim_template(acx_device_t *adev) -+{ -+/* For now, configure smallish test bitmap, all zero ("no pending data") */ -+ enum { bitmap_size = 5 }; -+ -+ acx_template_tim_t t; -+ int result; -+ -+ FN_ENTER; -+ -+ memset(&t, 0, sizeof(t)); -+ t.size = 5 + bitmap_size; /* eid+len+count+period+bmap_ctrl + bmap */ -+ t.tim_eid = WLAN_EID_TIM; -+ t.len = 3 + bitmap_size; /* count+period+bmap_ctrl + bmap */ -+ result = acx_s_issue_cmd(adev, ACX1xx_CMD_CONFIG_TIM, &t, sizeof(t)); -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_fill_beacon_or_proberesp_template -+** -+** For frame format info, please see 802.11-1999.pdf item 7.2.3.9 and below!! -+** -+** NB: we use the fact that -+** struct acx_template_proberesp and struct acx_template_beacon are the same -+** (well, almost...) -+** -+** [802.11] Beacon's body consist of these IEs: -+** 1 Timestamp -+** 2 Beacon interval -+** 3 Capability information -+** 4 SSID -+** 5 Supported rates (up to 8 rates) -+** 6 FH Parameter Set (frequency-hopping PHYs only) -+** 7 DS Parameter Set (direct sequence PHYs only) -+** 8 CF Parameter Set (only if PCF is supported) -+** 9 IBSS Parameter Set (ad-hoc only) -+** -+** Beacon only: -+** 10 TIM (AP only) (see 802.11 7.3.2.6) -+** 11 Country Information (802.11d) -+** 12 FH Parameters (802.11d) -+** 13 FH Pattern Table (802.11d) -+** ... (?!! did not yet find relevant PDF file... --vda) -+** 19 ERP Information (extended rate PHYs) -+** 20 Extended Supported Rates (if more than 8 rates) -+** -+** Proberesp only: -+** 10 Country information (802.11d) -+** 11 FH Parameters (802.11d) -+** 12 FH Pattern Table (802.11d) -+** 13-n Requested information elements (802.11d) -+** ???? -+** 18 ERP Information (extended rate PHYs) -+** 19 Extended Supported Rates (if more than 8 rates) -+*/ -+static int -+acx_fill_beacon_or_proberesp_template(acx_device_t *adev, -+ struct acx_template_beacon *templ, -+ u16 fc /* in host order! */) -+{ -+ int len; -+ u8 *p; -+ -+ FN_ENTER; -+ -+ memset(templ, 0, sizeof(*templ)); -+ MAC_BCAST(templ->da); -+ MAC_COPY(templ->sa, adev->dev_addr); -+ MAC_COPY(templ->bssid, adev->bssid); -+ -+ templ->beacon_interval = cpu_to_le16(adev->beacon_interval); -+ acx_update_capabilities(adev); -+ templ->cap = cpu_to_le16(adev->capabilities); -+ -+ p = templ->variable; -+ p = wlan_fill_ie_ssid(p, adev->essid_len, adev->essid); -+ p = wlan_fill_ie_rates(p, adev->rate_supported_len, adev->rate_supported); -+ p = wlan_fill_ie_ds_parms(p, adev->channel); -+ /* NB: should go AFTER tim, but acx seem to keep tim last always */ -+ p = wlan_fill_ie_rates_ext(p, adev->rate_supported_len, adev->rate_supported); -+ -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ /* ATIM window */ -+ p = wlan_fill_ie_ibss_parms(p, 0); break; -+ case ACX_MODE_3_AP: -+ /* TIM IE is set up as separate template */ -+ break; -+ } -+ -+ len = p - (u8*)templ; -+ templ->fc = cpu_to_le16(WF_FTYPE_MGMT | fc); -+ /* - 2: do not count 'u16 size' field */ -+ templ->size = cpu_to_le16(len - 2); -+ -+ FN_EXIT1(len); -+ return len; -+} -+ -+ -+#if POWER_SAVE_80211 -+/*********************************************************************** -+** acx_s_set_null_data_template -+*/ -+static int -+acx_s_set_null_data_template(acx_device_t *adev) -+{ -+ struct acx_template_nullframe b; -+ int result; -+ -+ FN_ENTER; -+ -+ /* memset(&b, 0, sizeof(b)); not needed, setting all members */ -+ -+ b.size = cpu_to_le16(sizeof(b) - 2); -+ b.hdr.fc = WF_FTYPE_MGMTi | WF_FSTYPE_NULLi; -+ b.hdr.dur = 0; -+ MAC_BCAST(b.hdr.a1); -+ MAC_COPY(b.hdr.a2, adev->dev_addr); -+ MAC_COPY(b.hdr.a3, adev->bssid); -+ b.hdr.seq = 0; -+ -+ result = acx_s_issue_cmd(adev, ACX1xx_CMD_CONFIG_NULL_DATA, &b, sizeof(b)); -+ -+ FN_EXIT1(result); -+ return result; -+} -+#endif -+ -+ -+/*********************************************************************** -+** acx_s_set_beacon_template -+*/ -+static int -+acx_s_set_beacon_template(acx_device_t *adev) -+{ -+ struct acx_template_beacon bcn; -+ int len, result; -+ -+ FN_ENTER; -+ -+ len = acx_fill_beacon_or_proberesp_template(adev, &bcn, WF_FSTYPE_BEACON); -+ result = acx_s_issue_cmd(adev, ACX1xx_CMD_CONFIG_BEACON, &bcn, len); -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_s_set_probe_response_template -+*/ -+static int -+acx_s_set_probe_response_template(acx_device_t *adev) -+{ -+ struct acx_template_proberesp pr; -+ int len, result; -+ -+ FN_ENTER; -+ -+ len = acx_fill_beacon_or_proberesp_template(adev, &pr, WF_FSTYPE_PROBERESP); -+ result = acx_s_issue_cmd(adev, ACX1xx_CMD_CONFIG_PROBE_RESPONSE, &pr, len); -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_s_init_packet_templates() -+** -+** NOTE: order is very important here, to have a correct memory layout! -+** init templates: max Probe Request (station mode), max NULL data, -+** max Beacon, max TIM, max Probe Response. -+*/ -+static int -+acx_s_init_packet_templates(acx_device_t *adev) -+{ -+ acx_ie_memmap_t mm; /* ACX100 only */ -+ int result = NOT_OK; -+ -+ FN_ENTER; -+ -+ log(L_DEBUG|L_INIT, "initializing max packet templates\n"); -+ -+ if (OK != acx_s_init_max_probe_request_template(adev)) -+ goto failed; -+ -+ if (OK != acx_s_init_max_null_data_template(adev)) -+ goto failed; -+ -+ if (OK != acx_s_init_max_beacon_template(adev)) -+ goto failed; -+ -+ if (OK != acx_s_init_max_tim_template(adev)) -+ goto failed; -+ -+ if (OK != acx_s_init_max_probe_response_template(adev)) -+ goto failed; -+ -+ if (IS_ACX111(adev)) { -+ /* ACX111 doesn't need the memory map magic below, -+ * and the other templates will be set later (acx_start) */ -+ result = OK; -+ goto success; -+ } -+ -+ /* ACX100 will have its TIM template set, -+ * and we also need to update the memory map */ -+ -+ if (OK != acx_s_set_tim_template(adev)) -+ goto failed_acx100; -+ -+ log(L_DEBUG, "sizeof(memmap)=%d bytes\n", (int)sizeof(mm)); -+ -+ if (OK != acx_s_interrogate(adev, &mm, ACX1xx_IE_MEMORY_MAP)) -+ goto failed_acx100; -+ -+ mm.QueueStart = cpu_to_le32(le32_to_cpu(mm.PacketTemplateEnd) + 4); -+ if (OK != acx_s_configure(adev, &mm, ACX1xx_IE_MEMORY_MAP)) -+ goto failed_acx100; -+ -+ result = OK; -+ goto success; -+ -+failed_acx100: -+ log(L_DEBUG|L_INIT, -+ /* "cb=0x%X\n" */ -+ "ACXMemoryMap:\n" -+ ".CodeStart=0x%X\n" -+ ".CodeEnd=0x%X\n" -+ ".WEPCacheStart=0x%X\n" -+ ".WEPCacheEnd=0x%X\n" -+ ".PacketTemplateStart=0x%X\n" -+ ".PacketTemplateEnd=0x%X\n", -+ /* len, */ -+ le32_to_cpu(mm.CodeStart), -+ le32_to_cpu(mm.CodeEnd), -+ le32_to_cpu(mm.WEPCacheStart), -+ le32_to_cpu(mm.WEPCacheEnd), -+ le32_to_cpu(mm.PacketTemplateStart), -+ le32_to_cpu(mm.PacketTemplateEnd)); -+ -+failed: -+ printk("%s: %s() FAILED\n", adev->ndev->name, __func__); -+ -+success: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx_s_set_probe_request_template(acx_device_t *adev) -+{ -+ struct acx_template_probereq probereq; -+ char *p; -+ int res; -+ int frame_len; -+ -+ FN_ENTER; -+ -+ memset(&probereq, 0, sizeof(probereq)); -+ -+ probereq.fc = WF_FTYPE_MGMTi | WF_FSTYPE_PROBEREQi; -+ MAC_BCAST(probereq.da); -+ MAC_COPY(probereq.sa, adev->dev_addr); -+ MAC_BCAST(probereq.bssid); -+ -+ p = probereq.variable; -+ p = wlan_fill_ie_ssid(p, adev->essid_len, adev->essid); -+ p = wlan_fill_ie_rates(p, adev->rate_supported_len, adev->rate_supported); -+ p = wlan_fill_ie_rates_ext(p, adev->rate_supported_len, adev->rate_supported); -+ frame_len = p - (char*)&probereq; -+ probereq.size = cpu_to_le16(frame_len - 2); -+ -+ res = acx_s_issue_cmd(adev, ACX1xx_CMD_CONFIG_PROBE_REQUEST, &probereq, frame_len); -+ FN_EXIT0; -+ return res; -+} -+ -+ -+/*********************************************************************** -+** acx_s_init_mac -+*/ -+int -+acx_s_init_mac(acx_device_t *adev) -+{ -+ int result = NOT_OK; -+ -+ FN_ENTER; -+ -+ if (IS_ACX111(adev)) { -+ adev->ie_len = acx111_ie_len; -+ adev->ie_len_dot11 = acx111_ie_len_dot11; -+ } else { -+ adev->ie_len = acx100_ie_len; -+ adev->ie_len_dot11 = acx100_ie_len_dot11; -+ } -+ -+#if defined (ACX_MEM) -+ adev->memblocksize = 256; /* 256 is default */ -+ /* try to load radio for both ACX100 and ACX111, since both -+ * chips have at least some firmware versions making use of an -+ * external radio module */ -+ acxmem_s_upload_radio(adev); -+#else -+ if (IS_PCI(adev)) { -+ adev->memblocksize = 256; /* 256 is default */ -+ /* try to load radio for both ACX100 and ACX111, since both -+ * chips have at least some firmware versions making use of an -+ * external radio module */ -+ acxpci_s_upload_radio(adev); -+ } else { -+ adev->memblocksize = 128; -+ } -+#endif -+ -+ if (IS_ACX111(adev)) { -+ /* for ACX111, the order is different from ACX100 -+ 1. init packet templates -+ 2. create station context and create dma regions -+ 3. init wep default keys -+ */ -+ if (OK != acx_s_init_packet_templates(adev)) -+ goto fail; -+ if (OK != acx111_s_create_dma_regions(adev)) { -+ printk("%s: acx111_create_dma_regions FAILED\n", -+ adev->ndev->name); -+ goto fail; -+ } -+ } else { -+ if (OK != acx100_s_init_wep(adev)) -+ goto fail; -+ if (OK != acx_s_init_packet_templates(adev)) -+ goto fail; -+ if (OK != acx100_s_create_dma_regions(adev)) { -+ printk("%s: acx100_create_dma_regions FAILED\n", -+ adev->ndev->name); -+ goto fail; -+ } -+ } -+ -+ MAC_COPY(adev->ndev->dev_addr, adev->dev_addr); -+ result = OK; -+ -+fail: -+ if (result) -+ printk("acx: init_mac() FAILED\n"); -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+void -+acx_s_set_sane_reg_domain(acx_device_t *adev, int do_set) -+{ -+ unsigned mask; -+ -+ unsigned int i; -+ -+ for (i = 0; i < sizeof(acx_reg_domain_ids); i++) -+ if (acx_reg_domain_ids[i] == adev->reg_dom_id) -+ break; -+ -+ if (sizeof(acx_reg_domain_ids) == i) { -+ log(L_INIT, "Invalid or unsupported regulatory domain" -+ " 0x%02X specified, falling back to FCC (USA)!" -+ " Please report if this sounds fishy!\n", -+ adev->reg_dom_id); -+ i = 0; -+ adev->reg_dom_id = acx_reg_domain_ids[i]; -+ -+ /* since there was a mismatch, we need to force updating */ -+ do_set = 1; -+ } -+ -+ if (do_set) { -+ acx_ie_generic_t dom; -+ dom.m.bytes[0] = adev->reg_dom_id; -+ acx_s_configure(adev, &dom, ACX1xx_IE_DOT11_CURRENT_REG_DOMAIN); -+ } -+ -+ adev->reg_dom_chanmask = reg_domain_channel_masks[i]; -+ -+ mask = (1 << (adev->channel - 1)); -+ if (!(adev->reg_dom_chanmask & mask)) { -+ /* hmm, need to adjust our channel to reside within domain */ -+ mask = 1; -+ for (i = 1; i <= 14; i++) { -+ if (adev->reg_dom_chanmask & mask) { -+ printk("%s: adjusting selected channel from %d " -+ "to %d due to new regulatory domain\n", -+ adev->ndev->name, adev->channel, i); -+ adev->channel = i; -+ break; -+ } -+ mask <<= 1; -+ } -+ } -+} -+ -+ -+#if POWER_SAVE_80211 -+static void -+acx_s_update_80211_powersave_mode(acx_device_t *adev) -+{ -+ /* merge both structs in a union to be able to have common code */ -+ union { -+ acx111_ie_powersave_t acx111; -+ acx100_ie_powersave_t acx100; -+ } pm; -+ -+ /* change 802.11 power save mode settings */ -+ log(L_INIT, "updating 802.11 power save mode settings: " -+ "wakeup_cfg 0x%02X, listen interval %u, " -+ "options 0x%02X, hangover period %u, " -+ "enhanced_ps_transition_time %u\n", -+ adev->ps_wakeup_cfg, adev->ps_listen_interval, -+ adev->ps_options, adev->ps_hangover_period, -+ adev->ps_enhanced_transition_time); -+ acx_s_interrogate(adev, &pm, ACX1xx_IE_POWER_MGMT); -+ log(L_INIT, "Previous PS mode settings: wakeup_cfg 0x%02X, " -+ "listen interval %u, options 0x%02X, " -+ "hangover period %u, " -+ "enhanced_ps_transition_time %u, beacon_rx_time %u\n", -+ pm.acx111.wakeup_cfg, -+ pm.acx111.listen_interval, -+ pm.acx111.options, -+ pm.acx111.hangover_period, -+ IS_ACX111(adev) ? -+ pm.acx111.enhanced_ps_transition_time -+ : pm.acx100.enhanced_ps_transition_time, -+ IS_ACX111(adev) ? -+ pm.acx111.beacon_rx_time -+ : (u32)-1 -+ ); -+ pm.acx111.wakeup_cfg = adev->ps_wakeup_cfg; -+ pm.acx111.listen_interval = adev->ps_listen_interval; -+ pm.acx111.options = adev->ps_options; -+ pm.acx111.hangover_period = adev->ps_hangover_period; -+ if (IS_ACX111(adev)) { -+ pm.acx111.beacon_rx_time = cpu_to_le32(adev->ps_beacon_rx_time); -+ pm.acx111.enhanced_ps_transition_time = cpu_to_le32(adev->ps_enhanced_transition_time); -+ } else { -+ pm.acx100.enhanced_ps_transition_time = cpu_to_le16(adev->ps_enhanced_transition_time); -+ } -+ acx_s_configure(adev, &pm, ACX1xx_IE_POWER_MGMT); -+ acx_s_interrogate(adev, &pm, ACX1xx_IE_POWER_MGMT); -+ log(L_INIT, "wakeup_cfg: 0x%02X\n", pm.acx111.wakeup_cfg); -+ acx_s_msleep(40); -+ acx_s_interrogate(adev, &pm, ACX1xx_IE_POWER_MGMT); -+ log(L_INIT, "wakeup_cfg: 0x%02X\n", pm.acx111.wakeup_cfg); -+ log(L_INIT, "power save mode change %s\n", -+ (pm.acx111.wakeup_cfg & PS_CFG_PENDING) ? "FAILED" : "was successful"); -+ /* FIXME: maybe verify via PS_CFG_PENDING bit here -+ * that power save mode change was successful. */ -+ /* FIXME: we shouldn't trigger a scan immediately after -+ * fiddling with power save mode (since the firmware is sending -+ * a NULL frame then). */ -+} -+#endif -+ -+ -+/*********************************************************************** -+** acx_s_update_card_settings -+** -+** Applies accumulated changes in various adev->xxxx members -+** Called by ioctl commit handler, acx_start, acx_set_defaults, -+** acx_s_after_interrupt_task (if IRQ_CMD_UPDATE_CARD_CFG), -+*/ -+static void -+acx111_s_sens_radio_16_17(acx_device_t *adev) -+{ -+ u32 feature1, feature2; -+ -+ if ((adev->sensitivity < 1) || (adev->sensitivity > 3)) { -+ printk("%s: invalid sensitivity setting (1..3), " -+ "setting to 1\n", adev->ndev->name); -+ adev->sensitivity = 1; -+ } -+ acx111_s_get_feature_config(adev, &feature1, &feature2); -+ CLEAR_BIT(feature1, FEATURE1_LOW_RX|FEATURE1_EXTRA_LOW_RX); -+ if (adev->sensitivity > 1) -+ SET_BIT(feature1, FEATURE1_LOW_RX); -+ if (adev->sensitivity > 2) -+ SET_BIT(feature1, FEATURE1_EXTRA_LOW_RX); -+ acx111_s_feature_set(adev, feature1, feature2); -+} -+ -+ -+void -+acx_s_update_card_settings(acx_device_t *adev) -+{ -+ unsigned long flags; -+ unsigned int start_scan = 0; -+ int i; -+ -+ FN_ENTER; -+ -+ log(L_INIT, "get_mask 0x%08X, set_mask 0x%08X\n", -+ adev->get_mask, adev->set_mask); -+ -+ /* Track dependencies betweed various settings */ -+ -+ if (adev->set_mask & (GETSET_MODE|GETSET_RESCAN|GETSET_WEP)) { -+ log(L_INIT, "important setting has been changed. " -+ "Need to update packet templates, too\n"); -+ SET_BIT(adev->set_mask, SET_TEMPLATES); -+ } -+ if (adev->set_mask & GETSET_CHANNEL) { -+ /* This will actually tune RX/TX to the channel */ -+ SET_BIT(adev->set_mask, GETSET_RX|GETSET_TX); -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_3_AP: -+ /* Beacons contain channel# - update them */ -+ SET_BIT(adev->set_mask, SET_TEMPLATES); -+ } -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_2_STA: -+ start_scan = 1; -+ } -+ } -+ -+ /* Apply settings */ -+ -+#ifdef WHY_SHOULD_WE_BOTHER /* imagine we were just powered off */ -+ /* send a disassoc request in case it's required */ -+ if (adev->set_mask & (GETSET_MODE|GETSET_RESCAN|GETSET_CHANNEL|GETSET_WEP)) { -+ if (ACX_MODE_2_STA == adev->mode) { -+ if (ACX_STATUS_4_ASSOCIATED == adev->status) { -+ log(L_ASSOC, "we were ASSOCIATED - " -+ "sending disassoc request\n"); -+ acx_lock(adev, flags); -+ acx_l_transmit_disassoc(adev, NULL); -+ /* FIXME: deauth? */ -+ acx_unlock(adev, flags); -+ } -+ /* need to reset some other stuff as well */ -+ log(L_DEBUG, "resetting bssid\n"); -+ MAC_ZERO(adev->bssid); -+ SET_BIT(adev->set_mask, SET_TEMPLATES|SET_STA_LIST); -+ start_scan = 1; -+ } -+ } -+#endif -+ -+ if (adev->get_mask & GETSET_STATION_ID) { -+ u8 stationID[4 + ACX1xx_IE_DOT11_STATION_ID_LEN]; -+ const u8 *paddr; -+ -+ acx_s_interrogate(adev, &stationID, ACX1xx_IE_DOT11_STATION_ID); -+ paddr = &stationID[4]; -+ for (i = 0; i < ETH_ALEN; i++) { -+ /* we copy the MAC address (reversed in -+ * the card) to the netdevice's MAC -+ * address, and on ifup it will be -+ * copied into iwadev->dev_addr */ -+ adev->ndev->dev_addr[ETH_ALEN - 1 - i] = paddr[i]; -+ } -+ CLEAR_BIT(adev->get_mask, GETSET_STATION_ID); -+ } -+ -+ if (adev->get_mask & GETSET_SENSITIVITY) { -+ if ((RADIO_RFMD_11 == adev->radio_type) -+ || (RADIO_MAXIM_0D == adev->radio_type) -+ || (RADIO_RALINK_15 == adev->radio_type)) { -+ acx_s_read_phy_reg(adev, 0x30, &adev->sensitivity); -+ } else { -+ log(L_INIT, "don't know how to get sensitivity " -+ "for radio type 0x%02X\n", adev->radio_type); -+ adev->sensitivity = 0; -+ } -+ log(L_INIT, "got sensitivity value %u\n", adev->sensitivity); -+ -+ CLEAR_BIT(adev->get_mask, GETSET_SENSITIVITY); -+ } -+ -+ if (adev->get_mask & GETSET_ANTENNA) { -+ u8 antenna[4 + ACX1xx_IE_DOT11_CURRENT_ANTENNA_LEN]; -+ -+ memset(antenna, 0, sizeof(antenna)); -+ acx_s_interrogate(adev, antenna, ACX1xx_IE_DOT11_CURRENT_ANTENNA); -+ adev->antenna = antenna[4]; -+ log(L_INIT, "got antenna value 0x%02X\n", adev->antenna); -+ CLEAR_BIT(adev->get_mask, GETSET_ANTENNA); -+ } -+ -+ if (adev->get_mask & GETSET_ED_THRESH) { -+ if (IS_ACX100(adev)) { -+ u8 ed_threshold[4 + ACX100_IE_DOT11_ED_THRESHOLD_LEN]; -+ -+ memset(ed_threshold, 0, sizeof(ed_threshold)); -+ acx_s_interrogate(adev, ed_threshold, ACX100_IE_DOT11_ED_THRESHOLD); -+ adev->ed_threshold = ed_threshold[4]; -+ } else { -+ log(L_INIT, "acx111 doesn't support ED\n"); -+ adev->ed_threshold = 0; -+ } -+ log(L_INIT, "got Energy Detect (ED) threshold %u\n", adev->ed_threshold); -+ CLEAR_BIT(adev->get_mask, GETSET_ED_THRESH); -+ } -+ -+ if (adev->get_mask & GETSET_CCA) { -+ if (IS_ACX100(adev)) { -+ u8 cca[4 + ACX1xx_IE_DOT11_CURRENT_CCA_MODE_LEN]; -+ -+ memset(cca, 0, sizeof(adev->cca)); -+ acx_s_interrogate(adev, cca, ACX1xx_IE_DOT11_CURRENT_CCA_MODE); -+ adev->cca = cca[4]; -+ } else { -+ log(L_INIT, "acx111 doesn't support CCA\n"); -+ adev->cca = 0; -+ } -+ log(L_INIT, "got Channel Clear Assessment (CCA) value %u\n", adev->cca); -+ CLEAR_BIT(adev->get_mask, GETSET_CCA); -+ } -+ -+ if (adev->get_mask & GETSET_REG_DOMAIN) { -+ acx_ie_generic_t dom; -+ -+ acx_s_interrogate(adev, &dom, ACX1xx_IE_DOT11_CURRENT_REG_DOMAIN); -+ adev->reg_dom_id = dom.m.bytes[0]; -+ acx_s_set_sane_reg_domain(adev, 0); -+ log(L_INIT, "got regulatory domain 0x%02X\n", adev->reg_dom_id); -+ CLEAR_BIT(adev->get_mask, GETSET_REG_DOMAIN); -+ } -+ -+ if (adev->set_mask & GETSET_STATION_ID) { -+ u8 stationID[4 + ACX1xx_IE_DOT11_STATION_ID_LEN]; -+ u8 *paddr; -+ -+ paddr = &stationID[4]; -+ memcpy(adev->dev_addr, adev->ndev->dev_addr, ETH_ALEN); -+ for (i = 0; i < ETH_ALEN; i++) { -+ /* copy the MAC address we obtained when we noticed -+ * that the ethernet iface's MAC changed -+ * to the card (reversed in -+ * the card!) */ -+ paddr[i] = adev->dev_addr[ETH_ALEN - 1 - i]; -+ } -+ acx_s_configure(adev, &stationID, ACX1xx_IE_DOT11_STATION_ID); -+ CLEAR_BIT(adev->set_mask, GETSET_STATION_ID); -+ } -+ -+ if (adev->set_mask & SET_TEMPLATES) { -+ log(L_INIT, "updating packet templates\n"); -+ switch (adev->mode) { -+ case ACX_MODE_2_STA: -+ acx_s_set_probe_request_template(adev); -+#if POWER_SAVE_80211 -+ acx_s_set_null_data_template(adev); -+#endif -+ break; -+ case ACX_MODE_0_ADHOC: -+ acx_s_set_probe_request_template(adev); -+#if POWER_SAVE_80211 -+ /* maybe power save functionality is somehow possible -+ * for Ad-Hoc mode, too... FIXME: verify it somehow? firmware debug fields? */ -+ acx_s_set_null_data_template(adev); -+#endif -+ /* fall through */ -+ case ACX_MODE_3_AP: -+ acx_s_set_beacon_template(adev); -+ acx_s_set_tim_template(adev); -+ /* BTW acx111 firmware would not send probe responses -+ ** if probe request does not have all basic rates flagged -+ ** by 0x80! Thus firmware does not conform to 802.11, -+ ** it should ignore 0x80 bit in ratevector from STA. -+ ** We can 'fix' it by not using this template and -+ ** sending probe responses by hand. TODO --vda */ -+ acx_s_set_probe_response_template(adev); -+ } -+ /* Needed if generated frames are to be emitted at different tx rate now */ -+ log(L_IRQ, "redoing cmd_join_bssid() after template cfg\n"); -+ acx_s_cmd_join_bssid(adev, adev->bssid); -+ CLEAR_BIT(adev->set_mask, SET_TEMPLATES); -+ } -+ if (adev->set_mask & SET_STA_LIST) { -+ acx_lock(adev, flags); -+ acx_l_sta_list_init(adev); -+ CLEAR_BIT(adev->set_mask, SET_STA_LIST); -+ acx_unlock(adev, flags); -+ } -+ if (adev->set_mask & SET_RATE_FALLBACK) { -+ u8 rate[4 + ACX1xx_IE_RATE_FALLBACK_LEN]; -+ -+ /* configure to not do fallbacks when not in auto rate mode */ -+ rate[4] = (adev->rate_auto) ? /* adev->txrate_fallback_retries */ 1 : 0; -+ log(L_INIT, "updating Tx fallback to %u retries\n", rate[4]); -+ acx_s_configure(adev, &rate, ACX1xx_IE_RATE_FALLBACK); -+ CLEAR_BIT(adev->set_mask, SET_RATE_FALLBACK); -+ } -+ if (adev->set_mask & GETSET_TXPOWER) { -+ log(L_INIT, "updating transmit power: %u dBm\n", -+ adev->tx_level_dbm); -+ acx_s_set_tx_level(adev, adev->tx_level_dbm); -+ CLEAR_BIT(adev->set_mask, GETSET_TXPOWER); -+ } -+ -+ if (adev->set_mask & GETSET_SENSITIVITY) { -+ log(L_INIT, "updating sensitivity value: %u\n", -+ adev->sensitivity); -+ switch (adev->radio_type) { -+ case RADIO_RFMD_11: -+ case RADIO_MAXIM_0D: -+ case RADIO_RALINK_15: -+ acx_s_write_phy_reg(adev, 0x30, adev->sensitivity); -+ break; -+ case RADIO_RADIA_16: -+ case RADIO_UNKNOWN_17: -+ acx111_s_sens_radio_16_17(adev); -+ break; -+ default: -+ log(L_INIT, "don't know how to modify sensitivity " -+ "for radio type 0x%02X\n", adev->radio_type); -+ } -+ CLEAR_BIT(adev->set_mask, GETSET_SENSITIVITY); -+ } -+ -+ if (adev->set_mask & GETSET_ANTENNA) { -+ /* antenna */ -+ u8 antenna[4 + ACX1xx_IE_DOT11_CURRENT_ANTENNA_LEN]; -+ -+ memset(antenna, 0, sizeof(antenna)); -+ antenna[4] = adev->antenna; -+ log(L_INIT, "updating antenna value: 0x%02X\n", -+ adev->antenna); -+ acx_s_configure(adev, &antenna, ACX1xx_IE_DOT11_CURRENT_ANTENNA); -+ CLEAR_BIT(adev->set_mask, GETSET_ANTENNA); -+ } -+ -+ if (adev->set_mask & GETSET_ED_THRESH) { -+ /* ed_threshold */ -+ log(L_INIT, "updating Energy Detect (ED) threshold: %u\n", -+ adev->ed_threshold); -+ if (IS_ACX100(adev)) { -+ u8 ed_threshold[4 + ACX100_IE_DOT11_ED_THRESHOLD_LEN]; -+ -+ memset(ed_threshold, 0, sizeof(ed_threshold)); -+ ed_threshold[4] = adev->ed_threshold; -+ acx_s_configure(adev, &ed_threshold, ACX100_IE_DOT11_ED_THRESHOLD); -+ } -+ else -+ log(L_INIT, "acx111 doesn't support ED!\n"); -+ CLEAR_BIT(adev->set_mask, GETSET_ED_THRESH); -+ } -+ -+ if (adev->set_mask & GETSET_CCA) { -+ /* CCA value */ -+ log(L_INIT, "updating Channel Clear Assessment " -+ "(CCA) value: 0x%02X\n", adev->cca); -+ if (IS_ACX100(adev)) { -+ u8 cca[4 + ACX1xx_IE_DOT11_CURRENT_CCA_MODE_LEN]; -+ -+ memset(cca, 0, sizeof(cca)); -+ cca[4] = adev->cca; -+ acx_s_configure(adev, &cca, ACX1xx_IE_DOT11_CURRENT_CCA_MODE); -+ } -+ else -+ log(L_INIT, "acx111 doesn't support CCA!\n"); -+ CLEAR_BIT(adev->set_mask, GETSET_CCA); -+ } -+ -+ if (adev->set_mask & GETSET_LED_POWER) { -+ /* Enable Tx */ -+ log(L_INIT, "updating power LED status: %u\n", adev->led_power); -+ -+ acx_lock(adev, flags); -+#if defined (ACX_MEM) -+ acxmem_l_power_led(adev, adev->led_power); -+#else -+ if (IS_PCI(adev)) -+ acxpci_l_power_led(adev, adev->led_power); -+#endif -+ CLEAR_BIT(adev->set_mask, GETSET_LED_POWER); -+ acx_unlock(adev, flags); -+ } -+ -+ if (adev->set_mask & GETSET_POWER_80211) { -+#if POWER_SAVE_80211 -+ acx_s_update_80211_powersave_mode(adev); -+#endif -+ CLEAR_BIT(adev->set_mask, GETSET_POWER_80211); -+ } -+ -+ if (adev->set_mask & GETSET_CHANNEL) { -+ /* channel */ -+ log(L_INIT, "updating channel to: %u\n", adev->channel); -+ CLEAR_BIT(adev->set_mask, GETSET_CHANNEL); -+ } -+ -+ if (adev->set_mask & GETSET_TX) { -+ /* set Tx */ -+ log(L_INIT, "updating: %s Tx\n", -+ adev->tx_disabled ? "disable" : "enable"); -+ if (adev->tx_disabled) -+ acx_s_issue_cmd(adev, ACX1xx_CMD_DISABLE_TX, NULL, 0); -+ else -+ acx_s_issue_cmd(adev, ACX1xx_CMD_ENABLE_TX, &adev->channel, 1); -+ CLEAR_BIT(adev->set_mask, GETSET_TX); -+ } -+ -+ if (adev->set_mask & GETSET_RX) { -+ /* Enable Rx */ -+ log(L_INIT, "updating: enable Rx on channel: %u\n", -+ adev->channel); -+ acx_s_issue_cmd(adev, ACX1xx_CMD_ENABLE_RX, &adev->channel, 1); -+ CLEAR_BIT(adev->set_mask, GETSET_RX); -+ } -+ -+ if (adev->set_mask & GETSET_RETRY) { -+ u8 short_retry[4 + ACX1xx_IE_DOT11_SHORT_RETRY_LIMIT_LEN]; -+ u8 long_retry[4 + ACX1xx_IE_DOT11_LONG_RETRY_LIMIT_LEN]; -+ -+ log(L_INIT, "updating short retry limit: %u, long retry limit: %u\n", -+ adev->short_retry, adev->long_retry); -+ short_retry[0x4] = adev->short_retry; -+ long_retry[0x4] = adev->long_retry; -+ acx_s_configure(adev, &short_retry, ACX1xx_IE_DOT11_SHORT_RETRY_LIMIT); -+ acx_s_configure(adev, &long_retry, ACX1xx_IE_DOT11_LONG_RETRY_LIMIT); -+ CLEAR_BIT(adev->set_mask, GETSET_RETRY); -+ } -+ -+ if (adev->set_mask & SET_MSDU_LIFETIME) { -+ u8 xmt_msdu_lifetime[4 + ACX1xx_IE_DOT11_MAX_XMIT_MSDU_LIFETIME_LEN]; -+ -+ log(L_INIT, "updating tx MSDU lifetime: %u\n", -+ adev->msdu_lifetime); -+ *(u32 *)&xmt_msdu_lifetime[4] = cpu_to_le32((u32)adev->msdu_lifetime); -+ acx_s_configure(adev, &xmt_msdu_lifetime, ACX1xx_IE_DOT11_MAX_XMIT_MSDU_LIFETIME); -+ CLEAR_BIT(adev->set_mask, SET_MSDU_LIFETIME); -+ } -+ -+ if (adev->set_mask & GETSET_REG_DOMAIN) { -+ log(L_INIT, "updating regulatory domain: 0x%02X\n", -+ adev->reg_dom_id); -+ acx_s_set_sane_reg_domain(adev, 1); -+ CLEAR_BIT(adev->set_mask, GETSET_REG_DOMAIN); -+ } -+ -+ if (adev->set_mask & GETSET_MODE) { -+ adev->ndev->type = (adev->mode == ACX_MODE_MONITOR) ? -+ adev->monitor_type : ARPHRD_ETHER; -+ -+ switch (adev->mode) { -+ case ACX_MODE_3_AP: -+ -+ acx_lock(adev, flags); -+ acx_l_sta_list_init(adev); -+ adev->aid = 0; -+ adev->ap_client = NULL; -+ MAC_COPY(adev->bssid, adev->dev_addr); -+ /* this basically says "we're connected" */ -+ acx_set_status(adev, ACX_STATUS_4_ASSOCIATED); -+ acx_unlock(adev, flags); -+ -+ acx111_s_feature_off(adev, 0, FEATURE2_NO_TXCRYPT|FEATURE2_SNIFFER); -+ /* start sending beacons */ -+ acx_s_cmd_join_bssid(adev, adev->bssid); -+ break; -+ case ACX_MODE_MONITOR: -+ acx111_s_feature_on(adev, 0, FEATURE2_NO_TXCRYPT|FEATURE2_SNIFFER); -+ /* this stops beacons */ -+ acx_s_cmd_join_bssid(adev, adev->bssid); -+ /* this basically says "we're connected" */ -+ acx_set_status(adev, ACX_STATUS_4_ASSOCIATED); -+ SET_BIT(adev->set_mask, SET_RXCONFIG|SET_WEP_OPTIONS); -+ break; -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_2_STA: -+ acx111_s_feature_off(adev, 0, FEATURE2_NO_TXCRYPT|FEATURE2_SNIFFER); -+ -+ acx_lock(adev, flags); -+ adev->aid = 0; -+ adev->ap_client = NULL; -+ acx_unlock(adev, flags); -+ -+ /* we want to start looking for peer or AP */ -+ start_scan = 1; -+ break; -+ case ACX_MODE_OFF: -+ /* TODO: disable RX/TX, stop any scanning activity etc: */ -+ /* adev->tx_disabled = 1; */ -+ /* SET_BIT(adev->set_mask, GETSET_RX|GETSET_TX); */ -+ -+ /* This stops beacons (invalid macmode...) */ -+ acx_s_cmd_join_bssid(adev, adev->bssid); -+ acx_set_status(adev, ACX_STATUS_0_STOPPED); -+ break; -+ } -+ CLEAR_BIT(adev->set_mask, GETSET_MODE); -+ } -+ -+ if (adev->set_mask & SET_RXCONFIG) { -+ acx_s_initialize_rx_config(adev); -+ CLEAR_BIT(adev->set_mask, SET_RXCONFIG); -+ } -+ -+ if (adev->set_mask & GETSET_RESCAN) { -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_2_STA: -+ start_scan = 1; -+ break; -+ } -+ CLEAR_BIT(adev->set_mask, GETSET_RESCAN); -+ } -+ -+ if (adev->set_mask & GETSET_WEP) { -+ /* encode */ -+ -+ ie_dot11WEPDefaultKeyID_t dkey; -+#ifdef DEBUG_WEP -+ struct { -+ u16 type; -+ u16 len; -+ u8 val; -+ } ACX_PACKED keyindic; -+#endif -+ log(L_INIT, "updating WEP key settings\n"); -+ -+ acx_s_set_wepkey(adev); -+ -+ dkey.KeyID = adev->wep_current_index; -+ log(L_INIT, "setting WEP key %u as default\n", dkey.KeyID); -+ acx_s_configure(adev, &dkey, ACX1xx_IE_DOT11_WEP_DEFAULT_KEY_SET); -+#ifdef DEBUG_WEP -+ keyindic.val = 3; -+ acx_s_configure(adev, &keyindic, ACX111_IE_KEY_CHOOSE); -+#endif -+ start_scan = 1; -+ CLEAR_BIT(adev->set_mask, GETSET_WEP); -+ } -+ -+ if (adev->set_mask & SET_WEP_OPTIONS) { -+ acx100_ie_wep_options_t options; -+ if (IS_ACX111(adev)) { -+ log(L_DEBUG, "setting WEP Options for acx111 is not supported\n"); -+ } else { -+ log(L_INIT, "setting WEP Options\n"); -+ acx100_s_init_wep(adev); -+#if 0 -+ /* let's choose maximum setting: 4 default keys, -+ * plus 10 other keys: */ -+ options.NumKeys = cpu_to_le16(DOT11_MAX_DEFAULT_WEP_KEYS + 10); -+ /* don't decrypt default key only, -+ * don't override decryption: */ -+ options.WEPOption = 0; -+ if (adev->mode == ACX_MODE_MONITOR) { -+ /* don't decrypt default key only, -+ * override decryption mechanism: */ -+ options.WEPOption = 2; -+ } -+ -+ acx_s_configure(adev, &options, ACX100_IE_WEP_OPTIONS); -+#endif -+ } -+ CLEAR_BIT(adev->set_mask, SET_WEP_OPTIONS); -+ } -+ -+ /* Rescan was requested */ -+ if (start_scan) { -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_2_STA: -+ /* We can avoid clearing list if join code -+ ** will be a bit more clever about not picking -+ ** 'bad' AP over and over again */ -+ acx_lock(adev, flags); -+ adev->ap_client = NULL; -+ acx_l_sta_list_init(adev); -+ acx_set_status(adev, ACX_STATUS_1_SCANNING); -+ acx_unlock(adev, flags); -+ -+ acx_s_cmd_start_scan(adev); -+ } -+ } -+ -+ /* debug, rate, and nick don't need any handling */ -+ /* what about sniffing mode?? */ -+ -+ log(L_INIT, "get_mask 0x%08X, set_mask 0x%08X - after update\n", -+ adev->get_mask, adev->set_mask); -+ -+/* end: */ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_e_after_interrupt_task -+*/ -+static int -+acx_s_recalib_radio(acx_device_t *adev) -+{ -+ if (IS_ACX111(adev)) { -+ acx111_cmd_radiocalib_t cal; -+ -+ printk("%s: recalibrating radio\n", adev->ndev->name); -+ /* automatic recalibration, choose all methods: */ -+ cal.methods = cpu_to_le32(0x8000000f); -+ /* automatic recalibration every 60 seconds (value in TUs) -+ * I wonder what the firmware default here is? */ -+ cal.interval = cpu_to_le32(58594); -+ return acx_s_issue_cmd_timeo(adev, ACX111_CMD_RADIOCALIB, -+ &cal, sizeof(cal), CMD_TIMEOUT_MS(100)); -+ } else { -+ /* On ACX100, we need to recalibrate the radio -+ * by issuing a GETSET_TX|GETSET_RX */ -+ if (/* (OK == acx_s_issue_cmd(adev, ACX1xx_CMD_DISABLE_TX, NULL, 0)) && -+ (OK == acx_s_issue_cmd(adev, ACX1xx_CMD_DISABLE_RX, NULL, 0)) && */ -+ (OK == acx_s_issue_cmd(adev, ACX1xx_CMD_ENABLE_TX, &adev->channel, 1)) && -+ (OK == acx_s_issue_cmd(adev, ACX1xx_CMD_ENABLE_RX, &adev->channel, 1)) ) -+ return OK; -+ return NOT_OK; -+ } -+} -+ -+static void -+acx_s_after_interrupt_recalib(acx_device_t *adev) -+{ -+ int res; -+ -+ /* this helps with ACX100 at least; -+ * hopefully ACX111 also does a -+ * recalibration here */ -+ -+ /* clear flag beforehand, since we want to make sure -+ * it's cleared; then only set it again on specific circumstances */ -+ CLEAR_BIT(adev->after_interrupt_jobs, ACX_AFTER_IRQ_CMD_RADIO_RECALIB); -+ -+ /* better wait a bit between recalibrations to -+ * prevent overheating due to torturing the card -+ * into working too long despite high temperature -+ * (just a safety measure) */ -+ if (adev->recalib_time_last_success -+ && time_before(jiffies, adev->recalib_time_last_success -+ + RECALIB_PAUSE * 60 * HZ)) { -+ if (adev->recalib_msg_ratelimit <= 4) { -+ printk("%s: less than " STRING(RECALIB_PAUSE) -+ " minutes since last radio recalibration, " -+ "not recalibrating (maybe card is too hot?)\n", -+ adev->ndev->name); -+ adev->recalib_msg_ratelimit++; -+ if (adev->recalib_msg_ratelimit == 5) -+ printk("disabling above message until next recalib\n"); -+ } -+ return; -+ } -+ -+ adev->recalib_msg_ratelimit = 0; -+ -+ /* note that commands sometimes fail (card busy), -+ * so only clear flag if we were fully successful */ -+ res = acx_s_recalib_radio(adev); -+ if (res == OK) { -+ printk("%s: successfully recalibrated radio\n", -+ adev->ndev->name); -+ adev->recalib_time_last_success = jiffies; -+ adev->recalib_failure_count = 0; -+ } else { -+ /* failed: resubmit, but only limited -+ * amount of times within some time range -+ * to prevent endless loop */ -+ -+ adev->recalib_time_last_success = 0; /* we failed */ -+ -+ /* if some time passed between last -+ * attempts, then reset failure retry counter -+ * to be able to do next recalib attempt */ -+ if (time_after(jiffies, adev->recalib_time_last_attempt + 5*HZ)) -+ adev->recalib_failure_count = 0; -+ -+ if (adev->recalib_failure_count < 5) { -+ /* increment inside only, for speedup of outside path */ -+ adev->recalib_failure_count++; -+ adev->recalib_time_last_attempt = jiffies; -+ acx_schedule_task(adev, ACX_AFTER_IRQ_CMD_RADIO_RECALIB); -+ } -+ } -+} -+ -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20) -+static void -+acx_e_after_interrupt_task(struct work_struct *work) -+{ -+ acx_device_t *adev = container_of(work, acx_device_t, after_interrupt_task); -+#else -+ static void -+ acx_e_after_interrupt_task(void *data) -+ { -+ struct net_device *ndev = (struct net_device*)data; -+ acx_device_t *adev = ndev2adev(ndev); -+#endif -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ -+ if (!adev->after_interrupt_jobs) -+ goto end; /* no jobs to do */ -+ -+#if TX_CLEANUP_IN_SOFTIRQ -+ /* can happen only on PCI */ -+ if (adev->after_interrupt_jobs & ACX_AFTER_IRQ_TX_CLEANUP) { -+ acx_lock(adev, flags); -+ acxpci_l_clean_txdesc(adev); -+ CLEAR_BIT(adev->after_interrupt_jobs, ACX_AFTER_IRQ_TX_CLEANUP); -+ acx_unlock(adev, flags); -+ } -+#endif -+ /* we see lotsa tx errors */ -+ if (adev->after_interrupt_jobs & ACX_AFTER_IRQ_CMD_RADIO_RECALIB) { -+ acx_s_after_interrupt_recalib(adev); -+ } -+ -+ /* a poor interrupt code wanted to do update_card_settings() */ -+ if (adev->after_interrupt_jobs & ACX_AFTER_IRQ_UPDATE_CARD_CFG) { -+ if (ACX_STATE_IFACE_UP & adev->dev_state_mask) -+ acx_s_update_card_settings(adev); -+ CLEAR_BIT(adev->after_interrupt_jobs, ACX_AFTER_IRQ_UPDATE_CARD_CFG); -+ } -+ -+ /* 1) we detected that no Scan_Complete IRQ came from fw, or -+ ** 2) we found too many STAs */ -+ if (adev->after_interrupt_jobs & ACX_AFTER_IRQ_CMD_STOP_SCAN) { -+ log(L_IRQ, "sending a stop scan cmd...\n"); -+ acx_s_issue_cmd(adev, ACX1xx_CMD_STOP_SCAN, NULL, 0); -+ /* HACK: set the IRQ bit, since we won't get a -+ * scan complete IRQ any more on ACX111 (works on ACX100!), -+ * since _we_, not a fw, have stopped the scan */ -+ SET_BIT(adev->irq_status, HOST_INT_SCAN_COMPLETE); -+ CLEAR_BIT(adev->after_interrupt_jobs, ACX_AFTER_IRQ_CMD_STOP_SCAN); -+ } -+ -+ /* either fw sent Scan_Complete or we detected that -+ ** no Scan_Complete IRQ came from fw. Finish scanning, -+ ** pick join partner if any */ -+ if (adev->after_interrupt_jobs & ACX_AFTER_IRQ_COMPLETE_SCAN) { -+ if (adev->status == ACX_STATUS_1_SCANNING) { -+ if (OK != acx_s_complete_scan(adev)) { -+ SET_BIT(adev->after_interrupt_jobs, -+ ACX_AFTER_IRQ_RESTART_SCAN); -+ } -+ } else { -+ /* + scan kills current join status - restore it -+ ** (do we need it for STA?) */ -+ /* + does it happen only with active scans? -+ ** active and passive scans? ALL scans including -+ ** background one? */ -+ /* + was not verified that everything is restored -+ ** (but at least we start to emit beacons again) */ -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_3_AP: -+ log(L_IRQ, "redoing cmd_join_bssid() after scan\n"); -+ acx_s_cmd_join_bssid(adev, adev->bssid); -+ } -+ } -+ CLEAR_BIT(adev->after_interrupt_jobs, ACX_AFTER_IRQ_COMPLETE_SCAN); -+ } -+ -+ /* STA auth or assoc timed out, start over again */ -+ if (adev->after_interrupt_jobs & ACX_AFTER_IRQ_RESTART_SCAN) { -+ log(L_IRQ, "sending a start_scan cmd...\n"); -+ acx_s_cmd_start_scan(adev); -+ CLEAR_BIT(adev->after_interrupt_jobs, ACX_AFTER_IRQ_RESTART_SCAN); -+ } -+ -+ /* whee, we got positive assoc response! 8) */ -+ if (adev->after_interrupt_jobs & ACX_AFTER_IRQ_CMD_ASSOCIATE) { -+ acx_ie_generic_t pdr; -+ /* tiny race window exists, checking that we still a STA */ -+ switch (adev->mode) { -+ case ACX_MODE_2_STA: -+ pdr.m.aid = cpu_to_le16(adev->aid); -+ acx_s_configure(adev, &pdr, ACX1xx_IE_ASSOC_ID); -+ acx_set_status(adev, ACX_STATUS_4_ASSOCIATED); -+ log(L_ASSOC|L_DEBUG, "ASSOCIATED!\n"); -+ CLEAR_BIT(adev->after_interrupt_jobs, ACX_AFTER_IRQ_CMD_ASSOCIATE); -+ } -+ } -+end: -+ acx_sem_unlock(adev); -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_schedule_task -+** -+** Schedule the call of the after_interrupt method after leaving -+** the interrupt context. -+*/ -+void -+acx_schedule_task(acx_device_t *adev, unsigned int set_flag) -+{ -+ SET_BIT(adev->after_interrupt_jobs, set_flag); -+ SCHEDULE_WORK(&adev->after_interrupt_task); -+} -+ -+ -+/*********************************************************************** -+*/ -+void -+acx_init_task_scheduler(acx_device_t *adev) -+{ -+ /* configure task scheduler */ -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 20) -+ INIT_WORK(&adev->after_interrupt_task, acx_e_after_interrupt_task); -+#else -+ INIT_WORK(&adev->after_interrupt_task, acx_e_after_interrupt_task, -+ adev->ndev); -+#endif -+} -+ -+ -+/*********************************************************************** -+** acx_s_start -+*/ -+void -+acx_s_start(acx_device_t *adev) -+{ -+ FN_ENTER; -+ -+ /* -+ * Ok, now we do everything that can possibly be done with ioctl -+ * calls to make sure that when it was called before the card -+ * was up we get the changes asked for -+ */ -+ -+ SET_BIT(adev->set_mask, SET_TEMPLATES|SET_STA_LIST|GETSET_WEP -+ |GETSET_TXPOWER|GETSET_ANTENNA|GETSET_ED_THRESH|GETSET_CCA -+ |GETSET_REG_DOMAIN|GETSET_MODE|GETSET_CHANNEL -+ |GETSET_TX|GETSET_RX|GETSET_STATION_ID); -+ -+ log(L_INIT, "updating initial settings on iface activation\n"); -+ acx_s_update_card_settings(adev); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acx_update_capabilities -+*/ -+void -+acx_update_capabilities(acx_device_t *adev) -+{ -+ u16 cap = 0; -+ -+ switch (adev->mode) { -+ case ACX_MODE_3_AP: -+ SET_BIT(cap, WF_MGMT_CAP_ESS); break; -+ case ACX_MODE_0_ADHOC: -+ SET_BIT(cap, WF_MGMT_CAP_IBSS); break; -+ /* other types of stations do not emit beacons */ -+ } -+ -+ if (adev->wep_restricted) { -+ SET_BIT(cap, WF_MGMT_CAP_PRIVACY); -+ } -+ if (adev->cfgopt_dot11ShortPreambleOption) { -+ SET_BIT(cap, WF_MGMT_CAP_SHORT); -+ } -+ if (adev->cfgopt_dot11PBCCOption) { -+ SET_BIT(cap, WF_MGMT_CAP_PBCC); -+ } -+ if (adev->cfgopt_dot11ChannelAgility) { -+ SET_BIT(cap, WF_MGMT_CAP_AGILITY); -+ } -+ log(L_DEBUG, "caps updated from 0x%04X to 0x%04X\n", -+ adev->capabilities, cap); -+ adev->capabilities = cap; -+} -+ -+/*********************************************************************** -+** Common function to parse ALL configoption struct formats -+** (ACX100 and ACX111; FIXME: how to make it work with ACX100 USB!?!?). -+** FIXME: logging should be removed here and added to a /proc file instead -+*/ -+void -+acx_s_parse_configoption(acx_device_t *adev, const acx111_ie_configoption_t *pcfg) -+{ -+ const u8 *pEle; -+ int i; -+ int is_acx111 = IS_ACX111(adev); -+ -+ if (acx_debug & L_DEBUG) { -+ printk("configoption struct content:\n"); -+ acx_dump_bytes(pcfg, sizeof(*pcfg)); -+ } -+ -+ if (( is_acx111 && (adev->eeprom_version == 5)) -+ || (!is_acx111 && (adev->eeprom_version == 4)) -+ || (!is_acx111 && (adev->eeprom_version == 5))) { -+ /* these versions are known to be supported */ -+ } else { -+ printk("unknown chip and EEPROM version combination (%s, v%d), " -+ "don't know how to parse config options yet. " -+ "Please report\n", is_acx111 ? "ACX111" : "ACX100", -+ adev->eeprom_version); -+ return; -+ } -+ -+ /* first custom-parse the first part which has chip-specific layout */ -+ -+ pEle = (const u8 *) pcfg; -+ -+ pEle += 4; /* skip (type,len) header */ -+ -+ memcpy(adev->cfgopt_NVSv, pEle, sizeof(adev->cfgopt_NVSv)); -+ pEle += sizeof(adev->cfgopt_NVSv); -+ -+ if (is_acx111) { -+ adev->cfgopt_NVS_vendor_offs = le16_to_cpu(*(u16 *)pEle); -+ pEle += sizeof(adev->cfgopt_NVS_vendor_offs); -+ -+ adev->cfgopt_probe_delay = 200; /* good default value? */ -+ pEle += 2; /* FIXME: unknown, value 0x0001 */ -+ } else { -+ memcpy(adev->cfgopt_MAC, pEle, sizeof(adev->cfgopt_MAC)); -+ pEle += sizeof(adev->cfgopt_MAC); -+ -+ adev->cfgopt_probe_delay = le16_to_cpu(*(u16 *)pEle); -+ pEle += sizeof(adev->cfgopt_probe_delay); -+ if ((adev->cfgopt_probe_delay < 100) || (adev->cfgopt_probe_delay > 500)) { -+ printk("strange probe_delay value %d, " -+ "tweaking to 200\n", adev->cfgopt_probe_delay); -+ adev->cfgopt_probe_delay = 200; -+ } -+ } -+ -+ adev->cfgopt_eof_memory = le32_to_cpu(*(u32 *)pEle); -+ pEle += sizeof(adev->cfgopt_eof_memory); -+ -+ printk("NVS_vendor_offs:%04X probe_delay:%d eof_memory:%d\n", -+ adev->cfgopt_NVS_vendor_offs, -+ adev->cfgopt_probe_delay, -+ adev->cfgopt_eof_memory); -+ -+ adev->cfgopt_dot11CCAModes = *pEle++; -+ adev->cfgopt_dot11Diversity = *pEle++; -+ adev->cfgopt_dot11ShortPreambleOption = *pEle++; -+ adev->cfgopt_dot11PBCCOption = *pEle++; -+ adev->cfgopt_dot11ChannelAgility = *pEle++; -+ adev->cfgopt_dot11PhyType = *pEle++; -+ adev->cfgopt_dot11TempType = *pEle++; -+ printk("CCAModes:%02X Diversity:%02X ShortPreOpt:%02X " -+ "PBCC:%02X ChanAgil:%02X PHY:%02X Temp:%02X\n", -+ adev->cfgopt_dot11CCAModes, -+ adev->cfgopt_dot11Diversity, -+ adev->cfgopt_dot11ShortPreambleOption, -+ adev->cfgopt_dot11PBCCOption, -+ adev->cfgopt_dot11ChannelAgility, -+ adev->cfgopt_dot11PhyType, -+ adev->cfgopt_dot11TempType); -+ -+ /* then use common parsing for next part which has common layout */ -+ -+ pEle++; /* skip table_count (6) */ -+ -+ if (IS_MEM(adev) && IS_ACX100(adev)) -+ { -+ /* -+ * For iPaq hx4700 Generic Slave F/W 1.10.7.K. I'm not sure if these -+ * 4 extra bytes are before the dot11 things above or after, so I'm just -+ * going to guess after. If someone sees these aren't reasonable numbers, -+ * please fix this. -+ * The area from which the dot11 values above are read contains: -+ * 04 01 01 01 00 05 01 06 00 02 01 02 -+ * the 8 dot11 reads above take care of 8 of them, but which 8... -+ */ -+ pEle += 4; -+ } -+ -+ adev->cfgopt_antennas.type = pEle[0]; -+ adev->cfgopt_antennas.len = pEle[1]; -+ printk("AntennaID:%02X Len:%02X Data:", -+ adev->cfgopt_antennas.type, adev->cfgopt_antennas.len); -+ for (i = 0; i < pEle[1]; i++) { -+ adev->cfgopt_antennas.list[i] = pEle[i+2]; -+ printk("%02X ", pEle[i+2]); -+ } -+ printk("\n"); -+ -+ pEle += pEle[1] + 2; -+ adev->cfgopt_power_levels.type = pEle[0]; -+ adev->cfgopt_power_levels.len = pEle[1]; -+ printk("PowerLevelID:%02X Len:%02X Data:", -+ adev->cfgopt_power_levels.type, adev->cfgopt_power_levels.len); -+ for (i = 0; i < pEle[1]; i++) { -+ adev->cfgopt_power_levels.list[i] = le16_to_cpu(*(u16 *)&pEle[i*2+2]); -+ printk("%04X ", adev->cfgopt_power_levels.list[i]); -+ } -+ printk("\n"); -+ -+ pEle += pEle[1]*2 + 2; -+ adev->cfgopt_data_rates.type = pEle[0]; -+ adev->cfgopt_data_rates.len = pEle[1]; -+ printk("DataRatesID:%02X Len:%02X Data:", -+ adev->cfgopt_data_rates.type, adev->cfgopt_data_rates.len); -+ for (i = 0; i < pEle[1]; i++) { -+ adev->cfgopt_data_rates.list[i] = pEle[i+2]; -+ printk("%02X ", pEle[i+2]); -+ } -+ printk("\n"); -+ -+ pEle += pEle[1] + 2; -+ adev->cfgopt_domains.type = pEle[0]; -+ adev->cfgopt_domains.len = pEle[1]; -+ if (IS_MEM(adev) && IS_ACX100(adev)) -+ { -+ /* -+ * For iPaq hx4700 Generic Slave F/W 1.10.7.K. -+ * There's an extra byte between this structure and the next -+ * that is not accounted for with this structure's length. It's -+ * most likely a bug in the firmware, but we can fix it here -+ * by bumping the length of this field by 1. -+ */ -+ adev->cfgopt_domains.len++; -+ } -+ printk("DomainID:%02X Len:%02X Data:", -+ adev->cfgopt_domains.type, adev->cfgopt_domains.len); -+ for (i = 0; i < adev->cfgopt_domains.len; i++) { -+ adev->cfgopt_domains.list[i] = pEle[i+2]; -+ printk("%02X ", pEle[i+2]); -+ } -+ printk("\n"); -+ -+ pEle += adev->cfgopt_domains.len + 2; -+ -+ adev->cfgopt_product_id.type = pEle[0]; -+ adev->cfgopt_product_id.len = pEle[1]; -+ for (i = 0; i < pEle[1]; i++) { -+ adev->cfgopt_product_id.list[i] = pEle[i+2]; -+ } -+ printk("ProductID:%02X Len:%02X Data:%.*s\n", -+ adev->cfgopt_product_id.type, adev->cfgopt_product_id.len, -+ adev->cfgopt_product_id.len, (char *)adev->cfgopt_product_id.list); -+ -+ pEle += pEle[1] + 2; -+ adev->cfgopt_manufacturer.type = pEle[0]; -+ adev->cfgopt_manufacturer.len = pEle[1]; -+ for (i = 0; i < pEle[1]; i++) { -+ adev->cfgopt_manufacturer.list[i] = pEle[i+2]; -+ } -+ printk("ManufacturerID:%02X Len:%02X Data:%.*s\n", -+ adev->cfgopt_manufacturer.type, adev->cfgopt_manufacturer.len, -+ adev->cfgopt_manufacturer.len, (char *)adev->cfgopt_manufacturer.list); -+/* -+ printk("EEPROM part:\n"); -+ for (i=0; i<58; i++) { -+ printk("%02X =======> 0x%02X\n", -+ i, (u8 *)adev->cfgopt_NVSv[i-2]); -+ } -+*/ -+} -+ -+ -+/*********************************************************************** -+*/ -+static int __init -+acx_e_init_module(void) -+{ -+ int r1,r2,r3,r4; -+ -+ acx_struct_size_check(); -+ -+ printk("acx: this driver is still EXPERIMENTAL\n" -+ "acx: reading README file and/or Craig's HOWTO is " -+ "recommended, visit http://acx100.sf.net in case " -+ "of further questions/discussion\n"); -+ -+#if defined(CONFIG_ACX_PCI) -+ r1 = acxpci_e_init_module(); -+#else -+ r1 = -EINVAL; -+#endif -+#if defined(CONFIG_ACX_MEM) -+ r2 = acxmem_e_init_module(); -+#else -+ r2 = -EINVAL; -+#endif -+#if defined(CONFIG_ACX_USB) -+ r3 = acxusb_e_init_module(); -+#else -+ r3 = -EINVAL; -+#endif -+#if defined(CONFIG_ACX_CS) -+ r4 = acx_cs_init(); -+#else -+ r4 = -EINVAL; -+#endif -+ if (r2 && r1 && r3 && r4) { /* all failed! */ -+ if (r3 || r1) -+ return r3 ? r3 : r1; -+ else -+ return r2; -+ } -+ /* return success if at least one succeeded */ -+ return 0; -+ -+} -+ -+static void __exit -+acx_e_cleanup_module(void) -+{ -+#if defined(CONFIG_ACX_PCI) -+ acxpci_e_cleanup_module(); -+#endif -+#if defined(CONFIG_ACX_MEM) -+ acxmem_e_cleanup_module(); -+#endif -+#if defined(CONFIG_ACX_USB) -+ acxusb_e_cleanup_module(); -+#endif -+#if defined(CONFIG_ACX_CS) -+ acx_cs_cleanup(); -+#endif -+} -+ -+module_init(acx_e_init_module) -+module_exit(acx_e_cleanup_module) -Index: linux-2.6.22/drivers/net/wireless/acx/conv.c -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/conv.c 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,504 @@ -+/*********************************************************************** -+** Copyright (C) 2003 ACX100 Open Source Project -+** -+** The contents of this file are subject to the Mozilla Public -+** License Version 1.1 (the "License"); you may not use this file -+** except in compliance with the License. You may obtain a copy of -+** the License at http://www.mozilla.org/MPL/ -+** -+** Software distributed under the License is distributed on an "AS -+** IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -+** implied. See the License for the specific language governing -+** rights and limitations under the License. -+** -+** Alternatively, the contents of this file may be used under the -+** terms of the GNU Public License version 2 (the "GPL"), in which -+** case the provisions of the GPL are applicable instead of the -+** above. If you wish to allow the use of your version of this file -+** only under the terms of the GPL and not to allow others to use -+** your version of this file under the MPL, indicate your decision -+** by deleting the provisions above and replace them with the notice -+** and other provisions required by the GPL. If you do not delete -+** the provisions above, a recipient may use your version of this -+** file under either the MPL or the GPL. -+** --------------------------------------------------------------------- -+** Inquiries regarding the ACX100 Open Source Project can be -+** made directly to: -+** -+** acx100-users@lists.sf.net -+** http://acx100.sf.net -+** --------------------------------------------------------------------- -+*/ -+ -+#include <linux/version.h> -+#if LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 18) -+#include <linux/config.h> -+#endif -+#include <linux/skbuff.h> -+#include <linux/if_arp.h> -+#include <linux/etherdevice.h> -+#include <linux/wireless.h> -+#include <net/iw_handler.h> -+ -+#include "acx.h" -+ -+ -+/*********************************************************************** -+** proto_is_stt -+** -+** Searches the 802.1h Selective Translation Table for a given -+** protocol. -+** -+** prottype - protocol number (in host order) to search for. -+** -+** Returns: -+** 1 - if the table is empty or a match is found. -+** 0 - if the table is non-empty and a match is not found. -+** -+** Based largely on p80211conv.c of the linux-wlan-ng project -+*/ -+static inline int -+proto_is_stt(unsigned int proto) -+{ -+ /* Always return found for now. This is the behavior used by the */ -+ /* Zoom Win95 driver when 802.1h mode is selected */ -+ /* TODO: If necessary, add an actual search we'll probably -+ need this to match the CMAC's way of doing things. -+ Need to do some testing to confirm. -+ */ -+ -+ if (proto == 0x80f3) /* APPLETALK */ -+ return 1; -+ -+ return 0; -+/* return ((prottype == ETH_P_AARP) || (prottype == ETH_P_IPX)); */ -+} -+ -+/* Helpers */ -+ -+static inline void -+store_llc_snap(struct wlan_llc *llc) -+{ -+ llc->dsap = 0xaa; /* SNAP, see IEEE 802 */ -+ llc->ssap = 0xaa; -+ llc->ctl = 0x03; -+} -+static inline int -+llc_is_snap(const struct wlan_llc *llc) -+{ -+ return (llc->dsap == 0xaa) -+ && (llc->ssap == 0xaa) -+ && (llc->ctl == 0x03); -+} -+static inline void -+store_oui_rfc1042(struct wlan_snap *snap) -+{ -+ snap->oui[0] = 0; -+ snap->oui[1] = 0; -+ snap->oui[2] = 0; -+} -+static inline int -+oui_is_rfc1042(const struct wlan_snap *snap) -+{ -+ return (snap->oui[0] == 0) -+ && (snap->oui[1] == 0) -+ && (snap->oui[2] == 0); -+} -+static inline void -+store_oui_8021h(struct wlan_snap *snap) -+{ -+ snap->oui[0] = 0; -+ snap->oui[1] = 0; -+ snap->oui[2] = 0xf8; -+} -+static inline int -+oui_is_8021h(const struct wlan_snap *snap) -+{ -+ return (snap->oui[0] == 0) -+ && (snap->oui[1] == 0) -+ && (snap->oui[2] == 0xf8); -+} -+ -+ -+/*********************************************************************** -+** acx_ether_to_txbuf -+** -+** Uses the contents of the ether frame to build the elements of -+** the 802.11 frame. -+** -+** We don't actually set up the frame header here. That's the -+** MAC's job. We're only handling conversion of DIXII or 802.3+LLC -+** frames to something that works with 802.11. -+** -+** Based largely on p80211conv.c of the linux-wlan-ng project -+*/ -+int -+acx_ether_to_txbuf(acx_device_t *adev, void *txbuf, const struct sk_buff *skb) -+{ -+ struct wlan_hdr_a3 *w_hdr; -+ struct wlan_ethhdr *e_hdr; -+ struct wlan_llc *e_llc; -+ struct wlan_snap *e_snap; -+ const u8 *a1, *a3; -+ int header_len, payload_len = -1; -+ /* protocol type or data length, depending on whether -+ * DIX or 802.3 ethernet format */ -+ u16 proto; -+ u16 fc; -+ -+ FN_ENTER; -+ -+ if (unlikely(!skb->len)) { -+ log(L_DEBUG, "zero-length skb!\n"); -+ goto end; -+ } -+ -+ w_hdr = (struct wlan_hdr_a3*)txbuf; -+ -+ switch (adev->mode) { -+ case ACX_MODE_MONITOR: -+ /* NB: one day we might want to play with DESC_CTL2_FCS -+ ** Will need to stop doing "- WLAN_FCS_LEN" here then */ -+ if (unlikely(skb->len >= WLAN_A4FR_MAXLEN_WEP_FCS - WLAN_FCS_LEN)) { -+ printk("%s: can't tx oversized frame (%d bytes)\n", -+ adev->ndev->name, skb->len); -+ goto end; -+ } -+ memcpy(w_hdr, skb->data, skb->len); -+ payload_len = skb->len; -+ goto end; -+ } -+ -+ /* step 1: classify ether frame, DIX or 802.3? */ -+ e_hdr = (wlan_ethhdr_t *)skb->data; -+ proto = ntohs(e_hdr->type); -+ if (proto <= 1500) { -+ log(L_DEBUG, "tx: 802.3 len: %d\n", skb->len); -+ /* codes <= 1500 reserved for 802.3 lengths */ -+ /* it's 802.3, pass ether payload unchanged, */ -+ /* trim off ethernet header and copy payload to txdesc */ -+ header_len = WLAN_HDR_A3_LEN; -+ } else { -+ /* it's DIXII, time for some conversion */ -+ /* Create 802.11 packet. Header also contains llc and snap. */ -+ -+ log(L_DEBUG, "tx: DIXII len: %d\n", skb->len); -+ -+ /* size of header is 802.11 header + llc + snap */ -+ header_len = WLAN_HDR_A3_LEN + sizeof(wlan_llc_t) + sizeof(wlan_snap_t); -+ /* llc is located behind the 802.11 header */ -+ e_llc = (wlan_llc_t*)(w_hdr + 1); -+ /* snap is located behind the llc */ -+ e_snap = (wlan_snap_t*)(e_llc + 1); -+ -+ /* setup the LLC header */ -+ store_llc_snap(e_llc); -+ -+ /* setup the SNAP header */ -+ e_snap->type = htons(proto); -+ if (proto_is_stt(proto)) { -+ store_oui_8021h(e_snap); -+ } else { -+ store_oui_rfc1042(e_snap); -+ } -+ } -+ /* trim off ethernet header and copy payload to txbuf */ -+ payload_len = skb->len - sizeof(wlan_ethhdr_t); -+ /* TODO: can we just let acx DMA payload from skb instead? */ -+ memcpy((u8*)txbuf + header_len, skb->data + sizeof(wlan_ethhdr_t), payload_len); -+ payload_len += header_len; -+ -+ /* Set up the 802.11 header */ -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ fc = (WF_FTYPE_DATAi | WF_FSTYPE_DATAONLYi); -+ a1 = e_hdr->daddr; -+ a3 = adev->bssid; -+ break; -+ case ACX_MODE_2_STA: -+ fc = (WF_FTYPE_DATAi | WF_FSTYPE_DATAONLYi | WF_FC_TODSi); -+ a1 = adev->bssid; -+ a3 = e_hdr->daddr; -+ break; -+ case ACX_MODE_3_AP: -+ fc = (WF_FTYPE_DATAi | WF_FSTYPE_DATAONLYi | WF_FC_FROMDSi); -+ a1 = e_hdr->daddr; -+ a3 = e_hdr->saddr; -+ break; -+ default: -+ printk("%s: error - converting eth to wlan in unknown mode\n", -+ adev->ndev->name); -+ payload_len = -1; -+ goto end; -+ } -+ if (adev->wep_enabled) -+ SET_BIT(fc, WF_FC_ISWEPi); -+ -+ w_hdr->fc = fc; -+ w_hdr->dur = 0; -+ MAC_COPY(w_hdr->a1, a1); -+ MAC_COPY(w_hdr->a2, adev->dev_addr); -+ MAC_COPY(w_hdr->a3, a3); -+ w_hdr->seq = 0; -+ -+#ifdef DEBUG_CONVERT -+ if (acx_debug & L_DATA) { -+ printk("original eth frame [%d]: ", skb->len); -+ acx_dump_bytes(skb->data, skb->len); -+ printk("802.11 frame [%d]: ", payload_len); -+ acx_dump_bytes(w_hdr, payload_len); -+ } -+#endif -+ -+end: -+ FN_EXIT1(payload_len); -+ return payload_len; -+} -+ -+ -+/*********************************************************************** -+** acx_rxbuf_to_ether -+** -+** Uses the contents of a received 802.11 frame to build an ether -+** frame. -+** -+** This function extracts the src and dest address from the 802.11 -+** frame to use in the construction of the eth frame. -+** -+** Based largely on p80211conv.c of the linux-wlan-ng project -+*/ -+struct sk_buff* -+acx_rxbuf_to_ether(acx_device_t *adev, rxbuffer_t *rxbuf) -+{ -+ struct wlan_hdr *w_hdr; -+ struct wlan_ethhdr *e_hdr; -+ struct wlan_llc *e_llc; -+ struct wlan_snap *e_snap; -+ struct sk_buff *skb; -+ const u8 *daddr; -+ const u8 *saddr; -+ const u8 *e_payload; -+ int buflen, payload_length; -+ unsigned int payload_offset, mtu; -+ u16 fc; -+ -+ FN_ENTER; -+ -+ /* This looks complex because it must handle possible -+ ** phy header in rxbuff */ -+ w_hdr = acx_get_wlan_hdr(adev, rxbuf); -+ payload_offset = WLAN_HDR_A3_LEN; /* it is relative to w_hdr */ -+ payload_length = RXBUF_BYTES_USED(rxbuf) /* entire rxbuff... */ -+ - ((u8*)w_hdr - (u8*)rxbuf) /* minus space before 802.11 frame */ -+ - WLAN_HDR_A3_LEN; /* minus 802.11 header */ -+ -+ /* setup some vars for convenience */ -+ fc = w_hdr->fc; -+ switch (WF_FC_FROMTODSi & fc) { -+ case 0: -+ daddr = w_hdr->a1; -+ saddr = w_hdr->a2; -+ break; -+ case WF_FC_FROMDSi: -+ daddr = w_hdr->a1; -+ saddr = w_hdr->a3; -+ break; -+ case WF_FC_TODSi: -+ daddr = w_hdr->a3; -+ saddr = w_hdr->a2; -+ break; -+ default: /* WF_FC_FROMTODSi */ -+ payload_offset += (WLAN_HDR_A4_LEN - WLAN_HDR_A3_LEN); -+ payload_length -= (WLAN_HDR_A4_LEN - WLAN_HDR_A3_LEN); -+ daddr = w_hdr->a3; -+ saddr = w_hdr->a4; -+ } -+ -+ if ((WF_FC_ISWEPi & fc) && IS_ACX100(adev)) { -+ /* chop off the IV+ICV WEP header and footer */ -+ log(L_DATA|L_DEBUG, "rx: WEP packet, " -+ "chopping off IV and ICV\n"); -+ payload_offset += WLAN_WEP_IV_LEN; -+ payload_length -= WLAN_WEP_IV_LEN + WLAN_WEP_ICV_LEN; -+ } -+ -+ if (unlikely(payload_length < 0)) { -+ printk("%s: rx frame too short, ignored\n", adev->ndev->name); -+ goto ret_null; -+ } -+ -+ e_hdr = (wlan_ethhdr_t*) ((u8*) w_hdr + payload_offset); -+ e_llc = (wlan_llc_t*) e_hdr; -+ e_snap = (wlan_snap_t*) (e_llc + 1); -+ mtu = adev->ndev->mtu; -+ e_payload = (u8*) (e_snap + 1); -+ -+ log(L_DATA, "rx: payload_offset %d, payload_length %d\n", -+ payload_offset, payload_length); -+ log(L_XFER|L_DATA, -+ "rx: frame info: llc=%02X%02X%02X " -+ "snap.oui=%02X%02X%02X snap.type=%04X\n", -+ e_llc->dsap, e_llc->ssap, e_llc->ctl, -+ e_snap->oui[0], e_snap->oui[1], e_snap->oui[2], -+ ntohs(e_snap->type)); -+ -+ /* Test for the various encodings */ -+ if ((payload_length >= sizeof(wlan_ethhdr_t)) -+ && ((e_llc->dsap != 0xaa) || (e_llc->ssap != 0xaa)) -+ && ( (mac_is_equal(daddr, e_hdr->daddr)) -+ || (mac_is_equal(saddr, e_hdr->saddr)) -+ ) -+ ) { -+ /* 802.3 Encapsulated: */ -+ /* wlan frame body contains complete eth frame (header+body) */ -+ log(L_DEBUG|L_DATA, "rx: 802.3 ENCAP len=%d\n", payload_length); -+ -+ if (unlikely(payload_length > (mtu + ETH_HLEN))) { -+ printk("%s: rx: ENCAP frame too large (%d > %d)\n", -+ adev->ndev->name, -+ payload_length, mtu + ETH_HLEN); -+ goto ret_null; -+ } -+ -+ /* allocate space and setup host buffer */ -+ buflen = payload_length; -+ /* Attempt to align IP header (14 bytes eth header + 2 = 16) */ -+ skb = dev_alloc_skb(buflen + 2); -+ if (unlikely(!skb)) -+ goto no_skb; -+ skb_reserve(skb, 2); -+ skb_put(skb, buflen); /* make room */ -+ -+ /* now copy the data from the 80211 frame */ -+ memcpy(skb->data, e_hdr, payload_length); -+ -+ } else if ( (payload_length >= sizeof(wlan_llc_t)+sizeof(wlan_snap_t)) -+ && llc_is_snap(e_llc) ) { -+ /* wlan frame body contains: AA AA 03 ... (it's a SNAP) */ -+ -+ if ( !oui_is_rfc1042(e_snap) -+ || (proto_is_stt(ieee2host16(e_snap->type)) /* && (ethconv == WLAN_ETHCONV_8021h) */)) { -+ log(L_DEBUG|L_DATA, "rx: SNAP+RFC1042 len=%d\n", payload_length); -+ /* wlan frame body contains: AA AA 03 !(00 00 00) ... -or- */ -+ /* wlan frame body contains: AA AA 03 00 00 00 0x80f3 ... */ -+ /* build eth hdr, type = len, copy AA AA 03... as eth body */ -+ /* it's a SNAP + RFC1042 frame && protocol is in STT */ -+ -+ if (unlikely(payload_length > mtu)) { -+ printk("%s: rx: SNAP frame too large (%d > %d)\n", -+ adev->ndev->name, -+ payload_length, mtu); -+ goto ret_null; -+ } -+ -+ /* allocate space and setup host buffer */ -+ buflen = payload_length + ETH_HLEN; -+ skb = dev_alloc_skb(buflen + 2); -+ if (unlikely(!skb)) -+ goto no_skb; -+ skb_reserve(skb, 2); -+ skb_put(skb, buflen); /* make room */ -+ -+ /* create 802.3 header */ -+ e_hdr = (wlan_ethhdr_t*) skb->data; -+ MAC_COPY(e_hdr->daddr, daddr); -+ MAC_COPY(e_hdr->saddr, saddr); -+ e_hdr->type = htons(payload_length); -+ -+ /* Now copy the data from the 80211 frame. -+ Make room in front for the eth header, and keep the -+ llc and snap from the 802.11 payload */ -+ memcpy(skb->data + ETH_HLEN, -+ e_llc, payload_length); -+ -+ } else { -+ /* wlan frame body contains: AA AA 03 00 00 00 [type] [tail] */ -+ /* build eth hdr, type=[type], copy [tail] as eth body */ -+ log(L_DEBUG|L_DATA, "rx: 802.1h/RFC1042 len=%d\n", -+ payload_length); -+ /* it's an 802.1h frame (an RFC1042 && protocol is not in STT) */ -+ /* build a DIXII + RFC894 */ -+ -+ payload_length -= sizeof(wlan_llc_t) + sizeof(wlan_snap_t); -+ if (unlikely(payload_length > mtu)) { -+ printk("%s: rx: DIXII frame too large (%d > %d)\n", -+ adev->ndev->name, -+ payload_length, mtu); -+ goto ret_null; -+ } -+ -+ /* allocate space and setup host buffer */ -+ buflen = payload_length + ETH_HLEN; -+ skb = dev_alloc_skb(buflen + 2); -+ if (unlikely(!skb)) -+ goto no_skb; -+ skb_reserve(skb, 2); -+ skb_put(skb, buflen); /* make room */ -+ -+ /* create 802.3 header */ -+ e_hdr = (wlan_ethhdr_t *) skb->data; -+ MAC_COPY(e_hdr->daddr, daddr); -+ MAC_COPY(e_hdr->saddr, saddr); -+ e_hdr->type = e_snap->type; -+ -+ /* Now copy the data from the 80211 frame. -+ Make room in front for the eth header, and cut off the -+ llc and snap from the 802.11 payload */ -+ memcpy(skb->data + ETH_HLEN, -+ e_payload, payload_length); -+ } -+ -+ } else { -+ log(L_DEBUG|L_DATA, "rx: NON-ENCAP len=%d\n", payload_length); -+ /* build eth hdr, type=len, copy wlan body as eth body */ -+ /* any NON-ENCAP */ -+ /* it's a generic 80211+LLC or IPX 'Raw 802.3' */ -+ /* build an 802.3 frame */ -+ -+ if (unlikely(payload_length > mtu)) { -+ printk("%s: rx: OTHER frame too large (%d > %d)\n", -+ adev->ndev->name, payload_length, mtu); -+ goto ret_null; -+ } -+ -+ /* allocate space and setup host buffer */ -+ buflen = payload_length + ETH_HLEN; -+ skb = dev_alloc_skb(buflen + 2); -+ if (unlikely(!skb)) -+ goto no_skb; -+ skb_reserve(skb, 2); -+ skb_put(skb, buflen); /* make room */ -+ -+ /* set up the 802.3 header */ -+ e_hdr = (wlan_ethhdr_t *) skb->data; -+ MAC_COPY(e_hdr->daddr, daddr); -+ MAC_COPY(e_hdr->saddr, saddr); -+ e_hdr->type = htons(payload_length); -+ -+ /* now copy the data from the 80211 frame */ -+ memcpy(skb->data + ETH_HLEN, e_llc, payload_length); -+ } -+ -+ skb->dev = adev->ndev; -+ skb->protocol = eth_type_trans(skb, adev->ndev); -+ -+#ifdef DEBUG_CONVERT -+ if (acx_debug & L_DATA) { -+ int len = RXBUF_BYTES_RCVD(adev, rxbuf); -+ printk("p802.11 frame [%d]: ", len); -+ acx_dump_bytes(w_hdr, len); -+ printk("eth frame [%d]: ", skb->len); -+ acx_dump_bytes(skb->data, skb->len); -+ } -+#endif -+ -+ FN_EXIT0; -+ return skb; -+ -+no_skb: -+ printk("%s: rx: no memory for skb (%d bytes)\n", -+ adev->ndev->name, buflen + 2); -+ret_null: -+ FN_EXIT1((int)NULL); -+ return NULL; -+} -Index: linux-2.6.22/drivers/net/wireless/acx/cs.c -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/cs.c 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,5703 @@ -+/*********************************************************************** -+** Copyright (C) 2003 ACX100 Open Source Project -+** -+** The contents of this file are subject to the Mozilla Public -+** License Version 1.1 (the "License"); you may not use this file -+** except in compliance with the License. You may obtain a copy of -+** the License at http://www.mozilla.org/MPL/ -+** -+** Software distributed under the License is distributed on an "AS -+** IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -+** implied. See the License for the specific language governing -+** rights and limitations under the License. -+** -+** Alternatively, the contents of this file may be used under the -+** terms of the GNU Public License version 2 (the "GPL"), in which -+** case the provisions of the GPL are applicable instead of the -+** above. If you wish to allow the use of your version of this file -+** only under the terms of the GPL and not to allow others to use -+** your version of this file under the MPL, indicate your decision -+** by deleting the provisions above and replace them with the notice -+** and other provisions required by the GPL. If you do not delete -+** the provisions above, a recipient may use your version of this -+** file under either the MPL or the GPL. -+** --------------------------------------------------------------------- -+** Inquiries regarding the ACX100 Open Source Project can be -+** made directly to: -+** -+** acx100-users@lists.sf.net -+** http://acx100.sf.net -+** --------------------------------------------------------------------- -+** -+** Slave memory interface support: -+** -+** Todd Blumer - SDG Systems -+** Bill Reese - HP -+** Eric McCorkle - Shadowsun -+** -+** CF support, (c) Fabrice Crohas, Paul Sokolovsky -+*/ -+#define ACX_MEM 1 -+ -+/* -+ * non-zero makes it dump the ACX memory to the console then -+ * panic when you cat /proc/driver/acx_wlan0_diag -+ */ -+#define DUMP_MEM_DEFINED 1 -+ -+#define DUMP_MEM_DURING_DIAG 0 -+#define DUMP_IF_SLOW 0 -+ -+#define PATCH_AROUND_BAD_SPOTS 1 -+#define HX4700_FIRMWARE_CHECKSUM 0x0036862e -+#define HX4700_ALTERNATE_FIRMWARE_CHECKSUM 0x00368a75 -+ -+#include <linux/version.h> -+#if LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 18) -+#include <linux/config.h> -+#endif -+ -+/* Linux 2.6.18+ uses <linux/utsrelease.h> */ -+#ifndef UTS_RELEASE -+#include <linux/utsrelease.h> -+#endif -+ -+#include <linux/compiler.h> /* required for Lx 2.6.8 ?? */ -+#include <linux/kernel.h> -+#include <linux/module.h> -+#include <linux/moduleparam.h> -+#include <linux/sched.h> -+#include <linux/types.h> -+#include <linux/skbuff.h> -+#include <linux/slab.h> -+#include <linux/if_arp.h> -+#include <linux/irq.h> -+#include <linux/rtnetlink.h> -+#include <linux/wireless.h> -+#include <net/iw_handler.h> -+#include <linux/netdevice.h> -+#include <linux/ioport.h> -+#include <linux/pci.h> -+#include <linux/platform_device.h> -+#include <linux/pm.h> -+#include <linux/vmalloc.h> -+#include <linux/delay.h> -+#include <linux/workqueue.h> -+#include <linux/inetdevice.h> -+ -+#define PCMCIA_DEBUG 1 -+ -+/* -+ All the PCMCIA modules use PCMCIA_DEBUG to control debugging. If -+ you do not define PCMCIA_DEBUG at all, all the debug code will be -+ left out. If you compile with PCMCIA_DEBUG=0, the debug code will -+ be present but disabled -- but it can then be enabled for specific -+ modules at load time with a 'pc_debug=#' option to insmod. -+ -+*/ -+#include <pcmcia/cs_types.h> -+#include <pcmcia/cs.h> -+#include <pcmcia/cistpl.h> -+#include <pcmcia/cisreg.h> -+#include <pcmcia/ds.h> -+#include "acx.h" -+#include "acx_hw.h" -+ -+#ifdef PCMCIA_DEBUG -+static int pc_debug = PCMCIA_DEBUG; -+module_param(pc_debug, int, 0); -+static char *version = "$Revision: 1.10 $"; -+#define DEBUG(n, args...) if (pc_debug>(n)) printk(KERN_DEBUG args); -+#else -+#define DEBUG(n, args...) -+#endif -+ -+ -+static win_req_t memwin; -+ -+typedef struct local_info_t { -+ dev_node_t node; -+ struct net_device *ndev; -+} local_info_t; -+ -+static struct net_device *resume_ndev; -+ -+ -+/*********************************************************************** -+*/ -+ -+#define CARD_EEPROM_ID_SIZE 6 -+ -+#include <asm/io.h> -+ -+#define REG_ACX_VENDOR_ID 0x900 -+/* -+ * This is the vendor id on the HX4700, anyway -+ */ -+#define ACX_VENDOR_ID 0x8400104c -+ -+typedef enum { -+ ACX_SOFT_RESET = 0, -+ -+ ACX_SLV_REG_ADDR, -+ ACX_SLV_REG_DATA, -+ ACX_SLV_REG_ADATA, -+ -+ ACX_SLV_MEM_CP, -+ ACX_SLV_MEM_ADDR, -+ ACX_SLV_MEM_DATA, -+ ACX_SLV_MEM_CTL, -+} acxreg_t; -+ -+/*********************************************************************** -+*/ -+static void acxmem_i_tx_timeout(struct net_device *ndev); -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19) -+static irqreturn_t acxmem_i_interrupt(int irq, void *dev_id); -+#else -+static irqreturn_t acxmem_i_interrupt(int irq, void *dev_id, struct pt_regs *regs); -+#endif -+static void acxmem_i_set_multicast_list(struct net_device *ndev); -+ -+static int acxmem_e_open(struct net_device *ndev); -+static int acxmem_e_close(struct net_device *ndev); -+static void acxmem_s_up(struct net_device *ndev); -+static void acxmem_s_down(struct net_device *ndev); -+ -+static void dump_acxmem (acx_device_t *adev, u32 start, int length); -+static int acxmem_complete_hw_reset (acx_device_t *adev); -+static void acxmem_s_delete_dma_regions(acx_device_t *adev); -+ -+static int -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 11) -+acxmem_e_suspend( struct net_device *ndev, pm_message_t state); -+#else -+acxmem_e_suspend( struct net_device *ndev, u32 state); -+#endif -+static void -+fw_resumer(struct work_struct *notused); -+//fw_resumer( void *data ); -+ -+static int acx_netdev_event(struct notifier_block *this, unsigned long event, void *ptr) -+{ -+ struct net_device *ndev = ptr; -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ /* -+ * Upper level ioctl() handlers send a NETDEV_CHANGEADDR if the MAC address changes. -+ */ -+ -+ if (NETDEV_CHANGEADDR == event) { -+ /* -+ * the upper layers put the new MAC address in ndev->dev_addr; we just copy -+ * it over and update the ACX with it. -+ */ -+ MAC_COPY(adev->dev_addr, adev->ndev->dev_addr); -+ adev->set_mask |= GETSET_STATION_ID; -+ acx_s_update_card_settings (adev); -+ } -+ -+ return 0; -+} -+ -+static struct notifier_block acx_netdev_notifier = { -+ .notifier_call = acx_netdev_event, -+}; -+ -+/*********************************************************************** -+** Register access -+*/ -+ -+/* Pick one */ -+/* #define INLINE_IO static */ -+#define INLINE_IO static inline -+ -+INLINE_IO u32 -+read_id_register (acx_device_t *adev) -+{ -+ writel (0x24, &adev->iobase[ACX_SLV_REG_ADDR]); -+ return readl (&adev->iobase[ACX_SLV_REG_DATA]); -+} -+ -+INLINE_IO u32 -+read_reg32(acx_device_t *adev, unsigned int offset) -+{ -+ u32 val; -+ u32 addr; -+ -+ if (offset > IO_ACX_ECPU_CTRL) -+ addr = offset; -+ else -+ addr = adev->io[offset]; -+ -+ if (addr < 0x20) { -+ return readl(((u8*)adev->iobase) + addr); -+ } -+ -+ writel( addr, &adev->iobase[ACX_SLV_REG_ADDR] ); -+ val = readl( &adev->iobase[ACX_SLV_REG_DATA] ); -+ -+ return val; -+} -+ -+INLINE_IO u16 -+read_reg16(acx_device_t *adev, unsigned int offset) -+{ -+ u16 lo; -+ u32 addr; -+ -+ if (offset > IO_ACX_ECPU_CTRL) -+ addr = offset; -+ else -+ addr = adev->io[offset]; -+ -+ if (addr < 0x20) { -+ return readw(((u8 *) adev->iobase) + addr); -+ } -+ -+ writel( addr, &adev->iobase[ACX_SLV_REG_ADDR] ); -+ lo = readw( (u16 *)&adev->iobase[ACX_SLV_REG_DATA] ); -+ -+ return lo; -+} -+ -+INLINE_IO u8 -+read_reg8(acx_device_t *adev, unsigned int offset) -+{ -+ u8 lo; -+ u32 addr; -+ -+ if (offset > IO_ACX_ECPU_CTRL) -+ addr = offset; -+ else -+ addr = adev->io[offset]; -+ -+ if (addr < 0x20) -+ return readb(((u8 *)adev->iobase) + addr); -+ -+ writel( addr, &adev->iobase[ACX_SLV_REG_ADDR] ); -+ lo = readw( (u8 *)&adev->iobase[ACX_SLV_REG_DATA] ); -+ -+ return (u8)lo; -+} -+ -+INLINE_IO void -+write_reg32(acx_device_t *adev, unsigned int offset, u32 val) -+{ -+ u32 addr; -+ -+ if (offset > IO_ACX_ECPU_CTRL) -+ addr = offset; -+ else -+ addr = adev->io[offset]; -+ -+ if (addr < 0x20) { -+ writel(val, ((u8*)adev->iobase) + addr); -+ return; -+ } -+ -+ writel( addr, &adev->iobase[ACX_SLV_REG_ADDR] ); -+ writel( val, &adev->iobase[ACX_SLV_REG_DATA] ); -+} -+ -+INLINE_IO void -+write_reg16(acx_device_t *adev, unsigned int offset, u16 val) -+{ -+ u32 addr; -+ -+ if (offset > IO_ACX_ECPU_CTRL) -+ addr = offset; -+ else -+ addr = adev->io[offset]; -+ -+ if (addr < 0x20) { -+ writew(val, ((u8 *)adev->iobase) + addr); -+ return; -+ } -+ writel( addr, &adev->iobase[ACX_SLV_REG_ADDR] ); -+ writew( val, (u16 *) &adev->iobase[ACX_SLV_REG_DATA] ); -+} -+ -+INLINE_IO void -+write_reg8(acx_device_t *adev, unsigned int offset, u8 val) -+{ -+ u32 addr; -+ -+ if (offset > IO_ACX_ECPU_CTRL) -+ addr = offset; -+ else -+ addr = adev->io[offset]; -+ -+ if (addr < 0x20) { -+ writeb(val, ((u8 *) adev->iobase) + addr); -+ return; -+ } -+ writel( addr, &adev->iobase[ACX_SLV_REG_ADDR] ); -+ writeb( val, (u8 *)&adev->iobase[ACX_SLV_REG_DATA] ); -+} -+ -+/* Handle PCI posting properly: -+ * Make sure that writes reach the adapter in case they require to be executed -+ * *before* the next write, by reading a random (and safely accessible) register. -+ * This call has to be made if there is no read following (which would flush the data -+ * to the adapter), yet the written data has to reach the adapter immediately. */ -+INLINE_IO void -+write_flush(acx_device_t *adev) -+{ -+ /* readb(adev->iobase + adev->io[IO_ACX_INFO_MAILBOX_OFFS]); */ -+ /* faster version (accesses the first register, IO_ACX_SOFT_RESET, -+ * which should also be safe): */ -+ (void) readl(adev->iobase); -+} -+ -+INLINE_IO void -+set_regbits (acx_device_t *adev, unsigned int offset, u32 bits) { -+ u32 tmp; -+ -+ tmp = read_reg32 (adev, offset); -+ tmp = tmp | bits; -+ write_reg32 (adev, offset, tmp); -+ write_flush (adev); -+} -+ -+INLINE_IO void -+clear_regbits (acx_device_t *adev, unsigned int offset, u32 bits) { -+ u32 tmp; -+ -+ tmp = read_reg32 (adev, offset); -+ tmp = tmp & ~bits; -+ write_reg32 (adev, offset, tmp); -+ write_flush (adev); -+} -+ -+/* -+ * Copy from PXA memory to the ACX memory. This assumes both the PXA and ACX -+ * addresses are 32 bit aligned. Count is in bytes. -+ */ -+INLINE_IO void -+write_slavemem32 (acx_device_t *adev, u32 slave_address, u32 val) -+{ -+ write_reg32 (adev, IO_ACX_SLV_MEM_CTL, 0x0); -+ write_reg32 (adev, IO_ACX_SLV_MEM_ADDR, slave_address); -+ udelay (10); -+ write_reg32 (adev, IO_ACX_SLV_MEM_DATA, val); -+} -+ -+INLINE_IO u32 -+read_slavemem32 (acx_device_t *adev, u32 slave_address) -+{ -+ u32 val; -+ -+ write_reg32 (adev, IO_ACX_SLV_MEM_CTL, 0x0); -+ write_reg32 (adev, IO_ACX_SLV_MEM_ADDR, slave_address); -+ udelay (10); -+ val = read_reg32 (adev, IO_ACX_SLV_MEM_DATA); -+ -+ return val; -+} -+ -+INLINE_IO void -+write_slavemem8 (acx_device_t *adev, u32 slave_address, u8 val) -+{ -+ u32 data; -+ u32 base; -+ int offset; -+ -+ /* -+ * Get the word containing the target address and the byte offset in that word. -+ */ -+ base = slave_address & ~3; -+ offset = (slave_address & 3) * 8; -+ -+ data = read_slavemem32 (adev, base); -+ data &= ~(0xff << offset); -+ data |= val << offset; -+ write_slavemem32 (adev, base, data); -+} -+ -+INLINE_IO u8 -+read_slavemem8 (acx_device_t *adev, u32 slave_address) -+{ -+ u8 val; -+ u32 base; -+ u32 data; -+ int offset; -+ -+ base = slave_address & ~3; -+ offset = (slave_address & 3) * 8; -+ -+ data = read_slavemem32 (adev, base); -+ -+ val = (data >> offset) & 0xff; -+ -+ return val; -+} -+ -+/* -+ * doesn't split across word boundaries -+ */ -+INLINE_IO void -+write_slavemem16 (acx_device_t *adev, u32 slave_address, u16 val) -+{ -+ u32 data; -+ u32 base; -+ int offset; -+ -+ /* -+ * Get the word containing the target address and the byte offset in that word. -+ */ -+ base = slave_address & ~3; -+ offset = (slave_address & 3) * 8; -+ -+ data = read_slavemem32 (adev, base); -+ data &= ~(0xffff << offset); -+ data |= val << offset; -+ write_slavemem32 (adev, base, data); -+} -+ -+/* -+ * doesn't split across word boundaries -+ */ -+INLINE_IO u16 -+read_slavemem16 (acx_device_t *adev, u32 slave_address) -+{ -+ u16 val; -+ u32 base; -+ u32 data; -+ int offset; -+ -+ base = slave_address & ~3; -+ offset = (slave_address & 3) * 8; -+ -+ data = read_slavemem32 (adev, base); -+ -+ val = (data >> offset) & 0xffff; -+ -+ return val; -+} -+ -+/* -+ * Copy from slave memory -+ * -+ * TODO - rewrite using address autoincrement, handle partial words -+ */ -+void -+copy_from_slavemem (acx_device_t *adev, u8 *destination, u32 source, int count) { -+ u32 tmp = 0; -+ u8 *ptmp = (u8 *) &tmp; -+ -+ /* -+ * Right now I'm making the assumption that the destination is aligned, but -+ * I'd better check. -+ */ -+ if ((u32) destination & 3) { -+ printk ("acx copy_from_slavemem: warning! destination not word-aligned!\n"); -+ } -+ -+ while (count >= 4) { -+ write_reg32 (adev, IO_ACX_SLV_MEM_ADDR, source); -+ udelay (10); -+ *((u32 *) destination) = read_reg32 (adev, IO_ACX_SLV_MEM_DATA); -+ count -= 4; -+ source += 4; -+ destination += 4; -+ } -+ -+ /* -+ * If the word reads above didn't satisfy the count, read one more word -+ * and transfer a byte at a time until the request is satisfied. -+ */ -+ if (count) { -+ write_reg32 (adev, IO_ACX_SLV_MEM_ADDR, source); -+ udelay (10); -+ tmp = read_reg32 (adev, IO_ACX_SLV_MEM_DATA); -+ while (count--) { -+ *destination++ = *ptmp++; -+ } -+ } -+} -+ -+/* -+ * Copy to slave memory -+ * -+ * TODO - rewrite using autoincrement, handle partial words -+ */ -+void -+copy_to_slavemem (acx_device_t *adev, u32 destination, u8 *source, int count) -+{ -+ u32 tmp = 0; -+ u8* ptmp = (u8 *) &tmp; -+ static u8 src[512]; /* make static to avoid huge stack objects */ -+ -+ /* -+ * For now, make sure the source is word-aligned by copying it to a word-aligned -+ * buffer. Someday rewrite to avoid the extra copy. -+ */ -+ if (count > sizeof (src)) { -+ printk ("acx copy_to_slavemem: Warning! buffer overflow!\n"); -+ count = sizeof (src); -+ } -+ memcpy (src, source, count); -+ source = src; -+ -+ while (count >= 4) { -+ write_reg32 (adev, IO_ACX_SLV_MEM_ADDR, destination); -+ udelay (10); -+ write_reg32 (adev, IO_ACX_SLV_MEM_DATA, *((u32 *) source)); -+ count -= 4; -+ source += 4; -+ destination += 4; -+ } -+ -+ /* -+ * If there are leftovers read the next word from the acx and merge in -+ * what they want to write. -+ */ -+ if (count) { -+ write_reg32 (adev, IO_ACX_SLV_MEM_ADDR, destination); -+ udelay (10); -+ tmp = read_reg32 (adev, IO_ACX_SLV_MEM_DATA); -+ while (count--) { -+ *ptmp++ = *source++; -+ } -+ /* -+ * reset address in case we're currently in auto-increment mode -+ */ -+ write_reg32 (adev, IO_ACX_SLV_MEM_ADDR, destination); -+ udelay (10); -+ write_reg32 (adev, IO_ACX_SLV_MEM_DATA, tmp); -+ udelay (10); -+ } -+ -+} -+ -+/* -+ * Block copy to slave buffers using memory block chain mode. Copies to the ACX -+ * transmit buffer structure with minimal intervention on our part. -+ * Interrupts should be disabled when calling this. -+ */ -+void -+chaincopy_to_slavemem (acx_device_t *adev, u32 destination, u8 *source, int count) -+{ -+ u32 val; -+ u32 *data = (u32 *) source; -+ static u8 aligned_source[WLAN_A4FR_MAXLEN_WEP_FCS]; -+ -+ /* -+ * Warn if the pointers don't look right. Destination must fit in [23:5] with -+ * zero elsewhere and source should be 32 bit aligned. -+ * This should never happen since we're in control of both, but I want to know about -+ * it if it does. -+ */ -+ if ((destination & 0x00ffffe0) != destination) { -+ printk ("acx chaincopy: destination block 0x%04x not aligned!\n", destination); -+ } -+ if (count > sizeof aligned_source) { -+ printk( KERN_ERR "chaincopy_to_slavemem overflow!\n" ); -+ count = sizeof aligned_source; -+ } -+ if ((u32) source & 3) { -+ memcpy (aligned_source, source, count); -+ data = (u32 *) aligned_source; -+ } -+ -+ /* -+ * SLV_MEM_CTL[17:16] = memory block chain mode with auto-increment -+ * SLV_MEM_CTL[5:2] = offset to data portion = 1 word -+ */ -+ val = 2 << 16 | 1 << 2; -+ writel (val, &adev->iobase[ACX_SLV_MEM_CTL]); -+ -+ /* -+ * SLV_MEM_CP[23:5] = start of 1st block -+ * SLV_MEM_CP[3:2] = offset to memblkptr = 0 -+ */ -+ val = destination & 0x00ffffe0; -+ writel (val, &adev->iobase[ACX_SLV_MEM_CP]); -+ -+ /* -+ * SLV_MEM_ADDR[23:2] = SLV_MEM_CTL[5:2] + SLV_MEM_CP[23:5] -+ */ -+ val = (destination & 0x00ffffe0) + (1<<2); -+ writel (val, &adev->iobase[ACX_SLV_MEM_ADDR]); -+ -+ /* -+ * Write the data to the slave data register, rounding up to the end -+ * of the word containing the last byte (hence the > 0) -+ */ -+ while (count > 0) { -+ writel (*data++, &adev->iobase[ACX_SLV_MEM_DATA]); -+ count -= 4; -+ } -+} -+ -+ -+/* -+ * Block copy from slave buffers using memory block chain mode. Copies from the ACX -+ * receive buffer structures with minimal intervention on our part. -+ * Interrupts should be disabled when calling this. -+ */ -+void -+chaincopy_from_slavemem (acx_device_t *adev, u8 *destination, u32 source, int count) -+{ -+ u32 val; -+ u32 *data = (u32 *) destination; -+ static u8 aligned_destination[WLAN_A4FR_MAXLEN_WEP_FCS]; -+ int saved_count = count; -+ -+ /* -+ * Warn if the pointers don't look right. Destination must fit in [23:5] with -+ * zero elsewhere and source should be 32 bit aligned. -+ * Turns out the network stack sends unaligned things, so fix them before -+ * copying to the ACX. -+ */ -+ if ((source & 0x00ffffe0) != source) { -+ printk ("acx chaincopy: source block 0x%04x not aligned!\n", source); -+ dump_acxmem (adev, 0, 0x10000); -+ } -+ if ((u32) destination & 3) { -+ //printk ("acx chaincopy: data destination not word aligned!\n"); -+ data = (u32 *) aligned_destination; -+ if (count > sizeof aligned_destination) { -+ printk( KERN_ERR "chaincopy_from_slavemem overflow!\n" ); -+ count = sizeof aligned_destination; -+ } -+ } -+ -+ /* -+ * SLV_MEM_CTL[17:16] = memory block chain mode with auto-increment -+ * SLV_MEM_CTL[5:2] = offset to data portion = 1 word -+ */ -+ val = (2 << 16) | (1 << 2); -+ writel (val, &adev->iobase[ACX_SLV_MEM_CTL]); -+ -+ /* -+ * SLV_MEM_CP[23:5] = start of 1st block -+ * SLV_MEM_CP[3:2] = offset to memblkptr = 0 -+ */ -+ val = source & 0x00ffffe0; -+ writel (val, &adev->iobase[ACX_SLV_MEM_CP]); -+ -+ /* -+ * SLV_MEM_ADDR[23:2] = SLV_MEM_CTL[5:2] + SLV_MEM_CP[23:5] -+ */ -+ val = (source & 0x00ffffe0) + (1<<2); -+ writel (val, &adev->iobase[ACX_SLV_MEM_ADDR]); -+ -+ /* -+ * Read the data from the slave data register, rounding up to the end -+ * of the word containing the last byte (hence the > 0) -+ */ -+ while (count > 0) { -+ *data++ = readl (&adev->iobase[ACX_SLV_MEM_DATA]); -+ count -= 4; -+ } -+ -+ /* -+ * If the destination wasn't aligned, we would have saved it in -+ * the aligned buffer, so copy it where it should go. -+ */ -+ if ((u32) destination & 3) { -+ memcpy (destination, aligned_destination, saved_count); -+ } -+} -+ -+char -+printable (char c) -+{ -+ return ((c >= 20) && (c < 127)) ? c : '.'; -+} -+ -+#if DUMP_MEM_DEFINED > 0 -+static void -+dump_acxmem (acx_device_t *adev, u32 start, int length) -+{ -+ int i; -+ u8 buf[16]; -+ -+ while (length > 0) { -+ printk ("%04x ", start); -+ copy_from_slavemem (adev, buf, start, 16); -+ for (i = 0; (i < 16) && (i < length); i++) { -+ printk ("%02x ", buf[i]); -+ } -+ for (i = 0; (i < 16) && (i < length); i++) { -+ printk ("%c", printable (buf[i])); -+ } -+ printk ("\n"); -+ start += 16; -+ length -= 16; -+ } -+} -+#endif -+ -+static void -+enable_acx_irq(acx_device_t *adev); -+static void -+disable_acx_irq(acx_device_t *adev); -+ -+/* -+ * Return an acx pointer to the next transmit data block. -+ */ -+u32 -+allocate_acx_txbuf_space (acx_device_t *adev, int count) { -+ u32 block, next, last_block; -+ int blocks_needed; -+ unsigned long flags; -+ -+ spin_lock_irqsave(&adev->txbuf_lock, flags); -+ /* -+ * Take 4 off the memory block size to account for the reserved word at the start of -+ * the block. -+ */ -+ blocks_needed = count / (adev->memblocksize - 4); -+ if (count % (adev->memblocksize - 4)) -+ blocks_needed++; -+ -+ if (blocks_needed <= adev->acx_txbuf_blocks_free) { -+ /* -+ * Take blocks at the head of the free list. -+ */ -+ last_block = block = adev->acx_txbuf_free; -+ -+ /* -+ * Follow block pointers through the requested number of blocks both to -+ * find the new head of the free list and to set the flags for the blocks -+ * appropriately. -+ */ -+ while (blocks_needed--) { -+ /* -+ * Keep track of the last block of the allocation -+ */ -+ last_block = adev->acx_txbuf_free; -+ -+ /* -+ * Make sure the end control flag is not set. -+ */ -+ next = read_slavemem32 (adev, adev->acx_txbuf_free) & 0x7ffff; -+ write_slavemem32 (adev, adev->acx_txbuf_free, next); -+ -+ /* -+ * Update the new head of the free list -+ */ -+ adev->acx_txbuf_free = next << 5; -+ adev->acx_txbuf_blocks_free--; -+ -+ } -+ -+ /* -+ * Flag the last block both by clearing out the next pointer -+ * and marking the control field. -+ */ -+ write_slavemem32 (adev, last_block, 0x02000000); -+ -+ /* -+ * If we're out of buffers make sure the free list pointer is NULL -+ */ -+ if (!adev->acx_txbuf_blocks_free) { -+ adev->acx_txbuf_free = 0; -+ } -+ } -+ else { -+ block = 0; -+ } -+ spin_unlock_irqrestore (&adev->txbuf_lock, flags); -+ return block; -+} -+ -+/* -+ * Return buffer space back to the pool by following the next pointers until we find -+ * the block marked as the end. Point the last block to the head of the free list, -+ * then update the head of the free list to point to the newly freed memory. -+ * This routine gets called in interrupt context, so it shouldn't block to protect -+ * the integrity of the linked list. The ISR already holds the lock. -+ */ -+void -+reclaim_acx_txbuf_space (acx_device_t *adev, u32 blockptr) { -+ u32 cur, last, next; -+ unsigned long flags; -+ -+ spin_lock_irqsave (&adev->txbuf_lock, flags); -+ if ((blockptr >= adev->acx_txbuf_start) && -+ (blockptr <= adev->acx_txbuf_start + -+ (adev->acx_txbuf_numblocks - 1) * adev->memblocksize)) { -+ cur = blockptr; -+ do { -+ last = cur; -+ next = read_slavemem32 (adev, cur); -+ -+ /* -+ * Advance to the next block in this allocation -+ */ -+ cur = (next & 0x7ffff) << 5; -+ -+ /* -+ * This block now counts as free. -+ */ -+ adev->acx_txbuf_blocks_free++; -+ } while (!(next & 0x02000000)); -+ -+ /* -+ * last now points to the last block of that allocation. Update the pointer -+ * in that block to point to the free list and reset the free list to the -+ * first block of the free call. If there were no free blocks, make sure -+ * the new end of the list marks itself as truly the end. -+ */ -+ if (adev->acx_txbuf_free) { -+ write_slavemem32 (adev, last, adev->acx_txbuf_free >> 5); -+ } -+ else { -+ write_slavemem32 (adev, last, 0x02000000); -+ } -+ adev->acx_txbuf_free = blockptr; -+ } -+ spin_unlock_irqrestore(&adev->txbuf_lock, flags); -+} -+ -+/* -+ * Initialize the pieces managing the transmit buffer pool on the ACX. The transmit -+ * buffer is a circular queue with one 32 bit word reserved at the beginning of each -+ * block. The upper 13 bits are a control field, of which only 0x02000000 has any -+ * meaning. The lower 19 bits are the address of the next block divided by 32. -+ */ -+void -+init_acx_txbuf (acx_device_t *adev) { -+ -+ /* -+ * acx100_s_init_memory_pools set up txbuf_start and txbuf_numblocks for us. -+ * All we need to do is reset the rest of the bookeeping. -+ */ -+ -+ adev->acx_txbuf_free = adev->acx_txbuf_start; -+ adev->acx_txbuf_blocks_free = adev->acx_txbuf_numblocks; -+ -+ /* -+ * Initialization leaves the last transmit pool block without a pointer back to -+ * the head of the list, but marked as the end of the list. That's how we want -+ * to see it, too, so leave it alone. This is only ever called after a firmware -+ * reset, so the ACX memory is in the state we want. -+ */ -+ -+} -+ -+INLINE_IO int -+adev_present(acx_device_t *adev) -+{ -+ /* fast version (accesses the first register, IO_ACX_SOFT_RESET, -+ * which should be safe): */ -+ return readl(adev->iobase) != 0xffffffff; -+} -+ -+/*********************************************************************** -+*/ -+static inline txdesc_t* -+get_txdesc(acx_device_t *adev, int index) -+{ -+ return (txdesc_t*) (((u8*)adev->txdesc_start) + index * adev->txdesc_size); -+} -+ -+static inline txdesc_t* -+advance_txdesc(acx_device_t *adev, txdesc_t* txdesc, int inc) -+{ -+ return (txdesc_t*) (((u8*)txdesc) + inc * adev->txdesc_size); -+} -+ -+static txhostdesc_t* -+get_txhostdesc(acx_device_t *adev, txdesc_t* txdesc) -+{ -+ int index = (u8*)txdesc - (u8*)adev->txdesc_start; -+ if (unlikely(ACX_DEBUG && (index % adev->txdesc_size))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return NULL; -+ } -+ index /= adev->txdesc_size; -+ if (unlikely(ACX_DEBUG && (index >= TX_CNT))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return NULL; -+ } -+ return &adev->txhostdesc_start[index*2]; -+} -+ -+static inline client_t* -+get_txc(acx_device_t *adev, txdesc_t* txdesc) -+{ -+ int index = (u8*)txdesc - (u8*)adev->txdesc_start; -+ if (unlikely(ACX_DEBUG && (index % adev->txdesc_size))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return NULL; -+ } -+ index /= adev->txdesc_size; -+ if (unlikely(ACX_DEBUG && (index >= TX_CNT))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return NULL; -+ } -+ return adev->txc[index]; -+} -+ -+static inline u16 -+get_txr(acx_device_t *adev, txdesc_t* txdesc) -+{ -+ int index = (u8*)txdesc - (u8*)adev->txdesc_start; -+ index /= adev->txdesc_size; -+ return adev->txr[index]; -+} -+ -+static inline void -+put_txcr(acx_device_t *adev, txdesc_t* txdesc, client_t* c, u16 r111) -+{ -+ int index = (u8*)txdesc - (u8*)adev->txdesc_start; -+ if (unlikely(ACX_DEBUG && (index % adev->txdesc_size))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return; -+ } -+ index /= adev->txdesc_size; -+ if (unlikely(ACX_DEBUG && (index >= TX_CNT))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return; -+ } -+ adev->txc[index] = c; -+ adev->txr[index] = r111; -+} -+ -+ -+/*********************************************************************** -+** EEPROM and PHY read/write helpers -+*/ -+/*********************************************************************** -+** acxmem_read_eeprom_byte -+** -+** Function called to read an octet in the EEPROM. -+** -+** This function is used by acxmem_e_probe to check if the -+** connected card is a legal one or not. -+** -+** Arguments: -+** adev ptr to acx_device structure -+** addr address to read in the EEPROM -+** charbuf ptr to a char. This is where the read octet -+** will be stored -+*/ -+int -+acxmem_read_eeprom_byte(acx_device_t *adev, u32 addr, u8 *charbuf) -+{ -+ int result; -+ int count; -+ -+ write_reg32(adev, IO_ACX_EEPROM_CFG, 0); -+ write_reg32(adev, IO_ACX_EEPROM_ADDR, addr); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_EEPROM_CTL, 2); -+ -+ count = 0xffff; -+ while (read_reg16(adev, IO_ACX_EEPROM_CTL)) { -+ /* scheduling away instead of CPU burning loop -+ * doesn't seem to work here at all: -+ * awful delay, sometimes also failure. -+ * Doesn't matter anyway (only small delay). */ -+ if (unlikely(!--count)) { -+ printk("%s: timeout waiting for EEPROM read\n", -+ adev->ndev->name); -+ result = NOT_OK; -+ goto fail; -+ } -+ cpu_relax(); -+ } -+ -+ *charbuf = read_reg8(adev, IO_ACX_EEPROM_DATA); -+ log(L_DEBUG, "EEPROM at 0x%04X = 0x%02X\n", addr, *charbuf); -+ result = OK; -+ -+fail: -+ return result; -+} -+ -+ -+/*********************************************************************** -+** We don't lock hw accesses here since we never r/w eeprom in IRQ -+** Note: this function sleeps only because of GFP_KERNEL alloc -+*/ -+#ifdef UNUSED -+int -+acxmem_s_write_eeprom(acx_device_t *adev, u32 addr, u32 len, const u8 *charbuf) -+{ -+ u8 *data_verify = NULL; -+ unsigned long flags; -+ int count, i; -+ int result = NOT_OK; -+ u16 gpio_orig; -+ -+ printk("acx: WARNING! I would write to EEPROM now. " -+ "Since I really DON'T want to unless you know " -+ "what you're doing (THIS CODE WILL PROBABLY " -+ "NOT WORK YET!), I will abort that now. And " -+ "definitely make sure to make a " -+ "/proc/driver/acx_wlan0_eeprom backup copy first!!! " -+ "(the EEPROM content includes the PCI config header!! " -+ "If you kill important stuff, then you WILL " -+ "get in trouble and people DID get in trouble already)\n"); -+ return OK; -+ -+ FN_ENTER; -+ -+ data_verify = kmalloc(len, GFP_KERNEL); -+ if (!data_verify) { -+ goto end; -+ } -+ -+ /* first we need to enable the OE (EEPROM Output Enable) GPIO line -+ * to be able to write to the EEPROM. -+ * NOTE: an EEPROM writing success has been reported, -+ * but you probably have to modify GPIO_OUT, too, -+ * and you probably need to activate a different GPIO -+ * line instead! */ -+ gpio_orig = read_reg16(adev, IO_ACX_GPIO_OE); -+ write_reg16(adev, IO_ACX_GPIO_OE, gpio_orig & ~1); -+ write_flush(adev); -+ -+ /* ok, now start writing the data out */ -+ for (i = 0; i < len; i++) { -+ write_reg32(adev, IO_ACX_EEPROM_CFG, 0); -+ write_reg32(adev, IO_ACX_EEPROM_ADDR, addr + i); -+ write_reg32(adev, IO_ACX_EEPROM_DATA, *(charbuf + i)); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_EEPROM_CTL, 1); -+ -+ count = 0xffff; -+ while (read_reg16(adev, IO_ACX_EEPROM_CTL)) { -+ if (unlikely(!--count)) { -+ printk("WARNING, DANGER!!! " -+ "Timeout waiting for EEPROM write\n"); -+ goto end; -+ } -+ cpu_relax(); -+ } -+ } -+ -+ /* disable EEPROM writing */ -+ write_reg16(adev, IO_ACX_GPIO_OE, gpio_orig); -+ write_flush(adev); -+ -+ /* now start a verification run */ -+ for (i = 0; i < len; i++) { -+ write_reg32(adev, IO_ACX_EEPROM_CFG, 0); -+ write_reg32(adev, IO_ACX_EEPROM_ADDR, addr + i); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_EEPROM_CTL, 2); -+ -+ count = 0xffff; -+ while (read_reg16(adev, IO_ACX_EEPROM_CTL)) { -+ if (unlikely(!--count)) { -+ printk("timeout waiting for EEPROM read\n"); -+ goto end; -+ } -+ cpu_relax(); -+ } -+ -+ data_verify[i] = read_reg16(adev, IO_ACX_EEPROM_DATA); -+ } -+ -+ if (0 == memcmp(charbuf, data_verify, len)) -+ result = OK; /* read data matches, success */ -+ -+end: -+ kfree(data_verify); -+ FN_EXIT1(result); -+ return result; -+} -+#endif /* UNUSED */ -+ -+ -+/*********************************************************************** -+** acxmem_s_read_phy_reg -+** -+** Messing with rx/tx disabling and enabling here -+** (write_reg32(adev, IO_ACX_ENABLE, 0b000000xx)) kills traffic -+*/ -+int -+acxmem_s_read_phy_reg(acx_device_t *adev, u32 reg, u8 *charbuf) -+{ -+ int result = NOT_OK; -+ int count; -+ -+ FN_ENTER; -+ -+ write_reg32(adev, IO_ACX_PHY_ADDR, reg); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_PHY_CTL, 2); -+ -+ count = 0xffff; -+ while (read_reg32(adev, IO_ACX_PHY_CTL)) { -+ /* scheduling away instead of CPU burning loop -+ * doesn't seem to work here at all: -+ * awful delay, sometimes also failure. -+ * Doesn't matter anyway (only small delay). */ -+ if (unlikely(!--count)) { -+ printk("%s: timeout waiting for phy read\n", -+ adev->ndev->name); -+ *charbuf = 0; -+ goto fail; -+ } -+ cpu_relax(); -+ } -+ -+ log(L_DEBUG, "count was %u\n", count); -+ *charbuf = read_reg8(adev, IO_ACX_PHY_DATA); -+ -+ log(L_DEBUG, "radio PHY at 0x%04X = 0x%02X\n", *charbuf, reg); -+ result = OK; -+ goto fail; /* silence compiler warning */ -+fail: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+*/ -+int -+acxmem_s_write_phy_reg(acx_device_t *adev, u32 reg, u8 value) -+{ -+ int count; -+ FN_ENTER; -+ -+ /* mprusko said that 32bit accesses result in distorted sensitivity -+ * on his card. Unconfirmed, looks like it's not true (most likely since we -+ * now properly flush writes). */ -+ write_reg32(adev, IO_ACX_PHY_DATA, value); -+ write_reg32(adev, IO_ACX_PHY_ADDR, reg); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_PHY_CTL, 1); -+ write_flush(adev); -+ -+ count = 0xffff; -+ while (read_reg32(adev, IO_ACX_PHY_CTL)) { -+ /* scheduling away instead of CPU burning loop -+ * doesn't seem to work here at all: -+ * awful delay, sometimes also failure. -+ * Doesn't matter anyway (only small delay). */ -+ if (unlikely(!--count)) { -+ printk("%s: timeout waiting for phy read\n", -+ adev->ndev->name); -+ goto fail; -+ } -+ cpu_relax(); -+ } -+ -+ log(L_DEBUG, "radio PHY write 0x%02X at 0x%04X\n", value, reg); -+ fail: -+ FN_EXIT1(OK); -+ return OK; -+} -+ -+ -+#define NO_AUTO_INCREMENT 1 -+ -+/*********************************************************************** -+** acxmem_s_write_fw -+** -+** Write the firmware image into the card. -+** -+** Arguments: -+** adev wlan device structure -+** fw_image firmware image. -+** -+** Returns: -+** 1 firmware image corrupted -+** 0 success -+*/ -+static int -+acxmem_s_write_fw(acx_device_t *adev, const firmware_image_t *fw_image, u32 offset) -+{ -+ int len, size, checkMismatch = -1; -+ u32 sum, v32, tmp, id; -+ /* we skip the first four bytes which contain the control sum */ -+ const u8 *p = (u8*)fw_image + 4; -+ -+ /* start the image checksum by adding the image size value */ -+ sum = p[0]+p[1]+p[2]+p[3]; -+ p += 4; -+ -+#ifdef NOPE -+#if NO_AUTO_INCREMENT -+ write_reg32(adev, IO_ACX_SLV_MEM_CTL, 0); /* use basic mode */ -+#else -+ write_reg32(adev, IO_ACX_SLV_MEM_CTL, 1); /* use autoincrement mode */ -+ write_reg32(adev, IO_ACX_SLV_MEM_ADDR, offset); /* configure start address */ -+ write_flush(adev); -+#endif -+#endif -+ len = 0; -+ size = le32_to_cpu(fw_image->size) & (~3); -+ -+ while (likely(len < size)) { -+ v32 = be32_to_cpu(*(u32*)p); -+ sum += p[0]+p[1]+p[2]+p[3]; -+ p += 4; -+ len += 4; -+ -+#ifdef NOPE -+#if NO_AUTO_INCREMENT -+ write_reg32(adev, IO_ACX_SLV_MEM_ADDR, offset + len - 4); -+ write_flush(adev); -+#endif -+ write_reg32(adev, IO_ACX_SLV_MEM_DATA, v32); -+ write_flush(adev); -+#endif -+ write_slavemem32 (adev, offset + len - 4, v32); -+ -+ id = read_id_register (adev); -+ -+ /* -+ * check the data written -+ */ -+ tmp = read_slavemem32 (adev, offset + len - 4); -+ if (checkMismatch && (tmp != v32)) { -+ printk ("first data mismatch at 0x%08x good 0x%08x bad 0x%08x id 0x%08x\n", -+ offset + len - 4, v32, tmp, id); -+ checkMismatch = 0; -+ } -+ } -+ log(L_DEBUG, "firmware written, size:%d sum1:%x sum2:%x\n", -+ size, sum, le32_to_cpu(fw_image->chksum)); -+ -+ /* compare our checksum with the stored image checksum */ -+ return (sum != le32_to_cpu(fw_image->chksum)); -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_validate_fw -+** -+** Compare the firmware image given with -+** the firmware image written into the card. -+** -+** Arguments: -+** adev wlan device structure -+** fw_image firmware image. -+** -+** Returns: -+** NOT_OK firmware image corrupted or not correctly written -+** OK success -+*/ -+static int -+acxmem_s_validate_fw(acx_device_t *adev, const firmware_image_t *fw_image, -+ u32 offset) -+{ -+ u32 sum, v32, w32; -+ int len, size; -+ int result = OK; -+ /* we skip the first four bytes which contain the control sum */ -+ const u8 *p = (u8*)fw_image + 4; -+ -+ /* start the image checksum by adding the image size value */ -+ sum = p[0]+p[1]+p[2]+p[3]; -+ p += 4; -+ -+ write_reg32(adev, IO_ACX_SLV_END_CTL, 0); -+ -+#if NO_AUTO_INCREMENT -+ write_reg32(adev, IO_ACX_SLV_MEM_CTL, 0); /* use basic mode */ -+#else -+ write_reg32(adev, IO_ACX_SLV_MEM_CTL, 1); /* use autoincrement mode */ -+ write_reg32(adev, IO_ACX_SLV_MEM_ADDR, offset); /* configure start address */ -+#endif -+ -+ len = 0; -+ size = le32_to_cpu(fw_image->size) & (~3); -+ -+ while (likely(len < size)) { -+ v32 = be32_to_cpu(*(u32*)p); -+ p += 4; -+ len += 4; -+ -+#ifdef NOPE -+#if NO_AUTO_INCREMENT -+ write_reg32(adev, IO_ACX_SLV_MEM_ADDR, offset + len - 4); -+#endif -+ udelay(10); -+ w32 = read_reg32(adev, IO_ACX_SLV_MEM_DATA); -+#endif -+ w32 = read_slavemem32 (adev, offset + len - 4); -+ -+ if (unlikely(w32 != v32)) { -+ printk("acx: FATAL: firmware upload: " -+ "data parts at offset %d don't match\n(0x%08X vs. 0x%08X)!\n" -+ "I/O timing issues or defective memory, with DWL-xx0+? " -+ "ACX_IO_WIDTH=16 may help. Please report\n", -+ len, v32, w32); -+ result = NOT_OK; -+ break; -+ } -+ -+ sum += (u8)w32 + (u8)(w32>>8) + (u8)(w32>>16) + (u8)(w32>>24); -+ } -+ -+ /* sum control verification */ -+ if (result != NOT_OK) { -+ if (sum != le32_to_cpu(fw_image->chksum)) { -+ printk("acx: FATAL: firmware upload: " -+ "checksums don't match!\n"); -+ result = NOT_OK; -+ } -+ } -+ -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_upload_fw -+** -+** Called from acx_reset_dev -+*/ -+static int -+acxmem_s_upload_fw(acx_device_t *adev) -+{ -+ firmware_image_t *fw_image = NULL; -+ int res = NOT_OK; -+ int try; -+ u32 file_size; -+ char *filename = "WLANGEN.BIN"; -+#ifdef PATCH_AROUND_BAD_SPOTS -+ u32 offset; -+ int i; -+ /* -+ * arm-linux-objdump -d patch.bin, or -+ * od -Ax -t x4 patch.bin after finding the bounds -+ * of the .text section with arm-linux-objdump -s patch.bin -+ */ -+ u32 patch[] = { -+ 0xe584c030, 0xe59fc008, -+ 0xe92d1000, 0xe59fc004, 0xe8bd8000, 0x0000080c, -+ 0x0000aa68, 0x605a2200, 0x2c0a689c, 0x2414d80a, -+ 0x2f00689f, 0x1c27d007, 0x06241e7c, 0x2f000e24, -+ 0xe000d1f6, 0x602e6018, 0x23036468, 0x480203db, -+ 0x60ca6003, 0xbdf0750a, 0xffff0808 -+ }; -+#endif -+ -+ FN_ENTER; -+ /* No combined image; tell common we need the radio firmware, too */ -+ adev->need_radio_fw = 1; -+ -+ fw_image = acx_s_read_fw(adev->dev, filename, &file_size); -+ if (!fw_image) { -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+ } -+ -+ for (try = 1; try <= 5; try++) { -+ res = acxmem_s_write_fw(adev, fw_image, 0); -+ log(L_DEBUG|L_INIT, "acx_write_fw (main): %d\n", res); -+ if (OK == res) { -+ res = acxmem_s_validate_fw(adev, fw_image, 0); -+ log(L_DEBUG|L_INIT, "acx_validate_fw " -+ "(main): %d\n", res); -+ } -+ -+ if (OK == res) { -+ SET_BIT(adev->dev_state_mask, ACX_STATE_FW_LOADED); -+ break; -+ } -+ printk("acx: firmware upload attempt #%d FAILED, " -+ "retrying...\n", try); -+ acx_s_msleep(1000); /* better wait for a while... */ -+ } -+ -+#ifdef PATCH_AROUND_BAD_SPOTS -+ /* -+ * Only want to do this if the firmware is exactly what we expect for an -+ * iPaq 4700; otherwise, bad things would ensue. -+ */ -+ if ((HX4700_FIRMWARE_CHECKSUM == fw_image->chksum) || -+ (HX4700_ALTERNATE_FIRMWARE_CHECKSUM == fw_image->chksum)) { -+ /* -+ * Put the patch after the main firmware image. 0x950c contains -+ * the ACX's idea of the end of the firmware. Use that location to -+ * load ours (which depends on that location being 0xab58) then -+ * update that location to point to after ours. -+ */ -+ -+ offset = read_slavemem32 (adev, 0x950c); -+ -+ log (L_DEBUG, "acx: patching in at 0x%04x\n", offset); -+ -+ for (i = 0; i < sizeof(patch) / sizeof(patch[0]); i++) { -+ write_slavemem32 (adev, offset, patch[i]); -+ offset += sizeof(u32); -+ } -+ -+ /* -+ * Patch the instruction at 0x0804 to branch to our ARM patch at 0xab58 -+ */ -+ write_slavemem32 (adev, 0x0804, 0xea000000 + (0xab58-0x0804-8)/4); -+ -+ /* -+ * Patch the instructions at 0x1f40 to branch to our Thumb patch at 0xab74 -+ * -+ * 4a00 ldr r2, [pc, #0] -+ * 4710 bx r2 -+ * .data 0xab74+1 -+ */ -+ write_slavemem32 (adev, 0x1f40, 0x47104a00); -+ write_slavemem32 (adev, 0x1f44, 0x0000ab74+1); -+ -+ /* -+ * Bump the end of the firmware up to beyond our patch. -+ */ -+ write_slavemem32 (adev, 0x950c, offset); -+ -+ } -+#endif -+ -+ vfree(fw_image); -+ -+ FN_EXIT1(res); -+ return res; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_upload_radio -+** -+** Uploads the appropriate radio module firmware into the card. -+*/ -+int -+acxmem_s_upload_radio(acx_device_t *adev) -+{ -+ acx_ie_memmap_t mm; -+ firmware_image_t *radio_image; -+ acx_cmd_radioinit_t radioinit; -+ int res = NOT_OK; -+ int try; -+ u32 offset; -+ u32 size; -+ char filename[sizeof("RADIONN.BIN")]; -+ -+ if (!adev->need_radio_fw) return OK; -+ -+ FN_ENTER; -+ -+ acx_s_interrogate(adev, &mm, ACX1xx_IE_MEMORY_MAP); -+ offset = le32_to_cpu(mm.CodeEnd); -+ -+ snprintf(filename, sizeof(filename), "RADIO%02x.BIN", -+ adev->radio_type); -+ radio_image = acx_s_read_fw(adev->dev, filename, &size); -+ if (!radio_image) { -+ printk("acx: can't load radio module '%s'\n", filename); -+ goto fail; -+ } -+ -+ acx_s_issue_cmd(adev, ACX1xx_CMD_SLEEP, NULL, 0); -+ -+ for (try = 1; try <= 5; try++) { -+ res = acxmem_s_write_fw(adev, radio_image, offset); -+ log(L_DEBUG|L_INIT, "acx_write_fw (radio): %d\n", res); -+ if (OK == res) { -+ res = acxmem_s_validate_fw(adev, radio_image, offset); -+ log(L_DEBUG|L_INIT, "acx_validate_fw (radio): %d\n", res); -+ } -+ -+ if (OK == res) -+ break; -+ printk("acx: radio firmware upload attempt #%d FAILED, " -+ "retrying...\n", try); -+ acx_s_msleep(1000); /* better wait for a while... */ -+ } -+ -+ acx_s_issue_cmd(adev, ACX1xx_CMD_WAKE, NULL, 0); -+ radioinit.offset = cpu_to_le32(offset); -+ -+ /* no endian conversion needed, remains in card CPU area: */ -+ radioinit.len = radio_image->size; -+ -+ vfree(radio_image); -+ -+ if (OK != res) -+ goto fail; -+ -+ /* will take a moment so let's have a big timeout */ -+ acx_s_issue_cmd_timeo(adev, ACX1xx_CMD_RADIOINIT, -+ &radioinit, sizeof(radioinit), CMD_TIMEOUT_MS(1000)); -+ -+ res = acx_s_interrogate(adev, &mm, ACX1xx_IE_MEMORY_MAP); -+ -+fail: -+ FN_EXIT1(res); -+ return res; -+} -+ -+/*********************************************************************** -+** acxmem_l_reset_mac -+** -+** MAC will be reset -+** Call context: reset_dev -+*/ -+static void -+acxmem_l_reset_mac(acx_device_t *adev) -+{ -+ int count; -+ FN_ENTER; -+ -+ /* halt eCPU */ -+ set_regbits (adev, IO_ACX_ECPU_CTRL, 0x1); -+ -+ /* now do soft reset of eCPU, set bit */ -+ set_regbits (adev, IO_ACX_SOFT_RESET, 0x1); -+ log(L_DEBUG, "%s: enable soft reset...\n", __func__); -+ -+ /* Windows driver sleeps here for a while with this sequence */ -+ for (count = 0; count < 200; count++) { -+ udelay (50); -+ } -+ -+ /* now clear bit again: deassert eCPU reset */ -+ log(L_DEBUG, "%s: disable soft reset and go to init mode...\n", __func__); -+ clear_regbits (adev, IO_ACX_SOFT_RESET, 0x1); -+ -+ /* now start a burst read from initial EEPROM */ -+ set_regbits (adev, IO_ACX_EE_START, 0x1); -+ -+ /* -+ * Windows driver sleeps here for a while with this sequence -+ */ -+ for (count = 0; count < 200; count++) { -+ udelay (50); -+ } -+ -+ /* Windows driver writes 0x10000 to register 0x808 here */ -+ -+ write_reg32 (adev, 0x808, 0x10000); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_verify_init -+*/ -+static int -+acxmem_s_verify_init(acx_device_t *adev) -+{ -+ int result = NOT_OK; -+ unsigned long timeout; -+ -+ FN_ENTER; -+ -+ timeout = jiffies + 2*HZ; -+ for (;;) { -+ u32 irqstat = read_reg32(adev, IO_ACX_IRQ_STATUS_NON_DES); -+ if ((irqstat != 0xFFFFFFFF) && (irqstat & HOST_INT_FCS_THRESHOLD)) { -+ result = OK; -+ write_reg32(adev, IO_ACX_IRQ_ACK, HOST_INT_FCS_THRESHOLD); -+ break; -+ } -+ if (time_after(jiffies, timeout)) -+ break; -+ /* Init may take up to ~0.5 sec total */ -+ acx_s_msleep(50); -+ } -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** A few low-level helpers -+** -+** Note: these functions are not protected by lock -+** and thus are never allowed to be called from IRQ. -+** Also they must not race with fw upload which uses same hw regs -+*/ -+ -+/*********************************************************************** -+** acxmem_write_cmd_type_status -+*/ -+ -+static inline void -+acxmem_write_cmd_type_status(acx_device_t *adev, u16 type, u16 status) -+{ -+ write_slavemem32 (adev, (u32) adev->cmd_area, type | (status << 16)); -+ write_flush(adev); -+} -+ -+ -+/*********************************************************************** -+** acxmem_read_cmd_type_status -+*/ -+static u32 -+acxmem_read_cmd_type_status(acx_device_t *adev) -+{ -+ u32 cmd_type, cmd_status; -+ -+ cmd_type = read_slavemem32 (adev, (u32) adev->cmd_area); -+ -+ cmd_status = (cmd_type >> 16); -+ cmd_type = (u16)cmd_type; -+ -+ log(L_CTL, "cmd_type:%04X cmd_status:%04X [%s]\n", -+ cmd_type, cmd_status, -+ acx_cmd_status_str(cmd_status)); -+ -+ return cmd_status; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_reset_dev -+** -+** Arguments: -+** netdevice that contains the adev variable -+** Returns: -+** NOT_OK on fail -+** OK on success -+** Side effects: -+** device is hard reset -+** Call context: -+** acxmem_e_probe -+** Comment: -+** This resets the device using low level hardware calls -+** as well as uploads and verifies the firmware to the card -+*/ -+ -+static inline void -+init_mboxes(acx_device_t *adev) -+{ -+ u32 cmd_offs, info_offs; -+ -+ cmd_offs = read_reg32(adev, IO_ACX_CMD_MAILBOX_OFFS); -+ info_offs = read_reg32(adev, IO_ACX_INFO_MAILBOX_OFFS); -+ adev->cmd_area = (u8*) cmd_offs; -+ adev->info_area = (u8*) info_offs; -+ /* -+ log(L_DEBUG, "iobase2=%p\n" -+ */ -+ log( L_DEBUG, "cmd_mbox_offset=%X cmd_area=%p\n" -+ "info_mbox_offset=%X info_area=%p\n", -+ cmd_offs, adev->cmd_area, -+ info_offs, adev->info_area); -+} -+ -+ -+static inline void -+read_eeprom_area(acx_device_t *adev) -+{ -+#if ACX_DEBUG > 1 -+ int offs; -+ u8 tmp; -+ -+ for (offs = 0x8c; offs < 0xb9; offs++) -+ acxmem_read_eeprom_byte(adev, offs, &tmp); -+#endif -+} -+ -+static int -+acxmem_s_reset_dev(acx_device_t *adev) -+{ -+ const char* msg = ""; -+ unsigned long flags; -+ int result = NOT_OK; -+ u16 hardware_info; -+ u16 ecpu_ctrl; -+ int count; -+ u32 tmp; -+ -+ FN_ENTER; -+ /* -+ write_reg32 (adev, IO_ACX_SLV_MEM_CP, 0); -+ */ -+ /* reset the device to make sure the eCPU is stopped -+ * to upload the firmware correctly */ -+ -+ acx_lock(adev, flags); -+ -+ /* Windows driver does some funny things here */ -+ /* -+ * clear bit 0x200 in register 0x2A0 -+ */ -+ clear_regbits (adev, 0x2A0, 0x200); -+ -+ /* -+ * Set bit 0x200 in ACX_GPIO_OUT -+ */ -+ set_regbits (adev, IO_ACX_GPIO_OUT, 0x200); -+ -+ /* -+ * read register 0x900 until its value is 0x8400104C, sleeping -+ * in between reads if it's not immediate -+ */ -+ tmp = read_reg32 (adev, REG_ACX_VENDOR_ID); -+ count = 500; -+ while (count-- && (tmp != ACX_VENDOR_ID)) { -+ mdelay (10); -+ tmp = read_reg32 (adev, REG_ACX_VENDOR_ID); -+ } -+ -+ /* end what Windows driver does */ -+ -+ acxmem_l_reset_mac(adev); -+ -+ ecpu_ctrl = read_reg32(adev, IO_ACX_ECPU_CTRL) & 1; -+ if (!ecpu_ctrl) { -+ msg = "eCPU is already running. "; -+ goto end_unlock; -+ } -+ -+#ifdef WE_DONT_NEED_THAT_DO_WE -+ if (read_reg16(adev, IO_ACX_SOR_CFG) & 2) { -+ /* eCPU most likely means "embedded CPU" */ -+ msg = "eCPU did not start after boot from flash. "; -+ goto end_unlock; -+ } -+ -+ /* check sense on reset flags */ -+ if (read_reg16(adev, IO_ACX_SOR_CFG) & 0x10) { -+ printk("%s: eCPU did not start after boot (SOR), " -+ "is this fatal?\n", adev->ndev->name); -+ } -+#endif -+ /* scan, if any, is stopped now, setting corresponding IRQ bit */ -+ adev->irq_status |= HOST_INT_SCAN_COMPLETE; -+ -+ acx_unlock(adev, flags); -+ -+ /* need to know radio type before fw load */ -+ /* Need to wait for arrival of this information in a loop, -+ * most probably since eCPU runs some init code from EEPROM -+ * (started burst read in reset_mac()) which also -+ * sets the radio type ID */ -+ -+ count = 0xffff; -+ do { -+ hardware_info = read_reg16(adev, IO_ACX_EEPROM_INFORMATION); -+ if (!--count) { -+ msg = "eCPU didn't indicate radio type"; -+ goto end_fail; -+ } -+ cpu_relax(); -+ } while (!(hardware_info & 0xff00)); /* radio type still zero? */ -+ printk("ACX radio type 0x%02x\n", (hardware_info >> 8) & 0xff); -+ /* printk("DEBUG: count %d\n", count); */ -+ adev->form_factor = hardware_info & 0xff; -+ adev->radio_type = hardware_info >> 8; -+ -+ /* load the firmware */ -+ if (OK != acxmem_s_upload_fw(adev)) -+ goto end_fail; -+ -+ /* acx_s_msleep(10); this one really shouldn't be required */ -+ -+ /* now start eCPU by clearing bit */ -+ clear_regbits (adev, IO_ACX_ECPU_CTRL, 0x1); -+ log(L_DEBUG, "booted eCPU up and waiting for completion...\n"); -+ -+ /* Windows driver clears bit 0x200 in register 0x2A0 here */ -+ clear_regbits (adev, 0x2A0, 0x200); -+ -+ /* Windows driver sets bit 0x200 in ACX_GPIO_OUT here */ -+ set_regbits (adev, IO_ACX_GPIO_OUT, 0x200); -+ /* wait for eCPU bootup */ -+ if (OK != acxmem_s_verify_init(adev)) { -+ msg = "timeout waiting for eCPU. "; -+ goto end_fail; -+ } -+ log(L_DEBUG, "eCPU has woken up, card is ready to be configured\n"); -+ init_mboxes(adev); -+ acxmem_write_cmd_type_status(adev, ACX1xx_CMD_RESET, 0); -+ -+ /* test that EEPROM is readable */ -+ read_eeprom_area(adev); -+ -+ result = OK; -+ goto end; -+ -+/* Finish error message. Indicate which function failed */ -+end_unlock: -+ acx_unlock(adev, flags); -+end_fail: -+ printk("acx: %sreset_dev() FAILED\n", msg); -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_issue_cmd_timeo -+** -+** Sends command to fw, extract result -+** -+** NB: we do _not_ take lock inside, so be sure to not touch anything -+** which may interfere with IRQ handler operation -+** -+** TODO: busy wait is a bit silly, so: -+** 1) stop doing many iters - go to sleep after first -+** 2) go to waitqueue based approach: wait, not poll! -+*/ -+#undef FUNC -+#define FUNC "issue_cmd" -+ -+#if !ACX_DEBUG -+int -+acxmem_s_issue_cmd_timeo( -+ acx_device_t *adev, -+ unsigned int cmd, -+ void *buffer, -+ unsigned buflen, -+ unsigned cmd_timeout) -+{ -+#else -+int -+acxmem_s_issue_cmd_timeo_debug( -+ acx_device_t *adev, -+ unsigned cmd, -+ void *buffer, -+ unsigned buflen, -+ unsigned cmd_timeout, -+ const char* cmdstr) -+{ -+ unsigned long start = jiffies; -+#endif -+ const char *devname; -+ unsigned counter; -+ u16 irqtype; -+ int i, j; -+ u8 *p; -+ u16 cmd_status; -+ unsigned long timeout; -+ -+ FN_ENTER; -+ -+ devname = adev->ndev->name; -+ if (!devname || !devname[0] || devname[4]=='%') -+ devname = "acx"; -+ -+ log(L_CTL, FUNC"(cmd:%s,buflen:%u,timeout:%ums,type:0x%04X)\n", -+ cmdstr, buflen, cmd_timeout, -+ buffer ? le16_to_cpu(((acx_ie_generic_t *)buffer)->type) : -1); -+ -+ if (!(adev->dev_state_mask & ACX_STATE_FW_LOADED)) { -+ printk("%s: "FUNC"(): firmware is not loaded yet, " -+ "cannot execute commands!\n", devname); -+ goto bad; -+ } -+ -+ if ((acx_debug & L_DEBUG) && (cmd != ACX1xx_CMD_INTERROGATE)) { -+ printk("input buffer (len=%u):\n", buflen); -+ acx_dump_bytes(buffer, buflen); -+ } -+ -+ /* wait for firmware to become idle for our command submission */ -+ timeout = HZ/5; -+ counter = (timeout * 1000 / HZ) - 1; /* in ms */ -+ timeout += jiffies; -+ do { -+ cmd_status = acxmem_read_cmd_type_status(adev); -+ /* Test for IDLE state */ -+ if (!cmd_status) -+ break; -+ if (counter % 8 == 0) { -+ if (time_after(jiffies, timeout)) { -+ counter = 0; -+ break; -+ } -+ /* we waited 8 iterations, no luck. Sleep 8 ms */ -+ acx_s_msleep(8); -+ } -+ } while (likely(--counter)); -+ -+ if (!counter) { -+ /* the card doesn't get idle, we're in trouble */ -+ printk("%s: "FUNC"(): cmd_status is not IDLE: 0x%04X!=0\n", -+ devname, cmd_status); -+#if DUMP_IF_SLOW > 0 -+ dump_acxmem (adev, 0, 0x10000); -+ panic ("not idle"); -+#endif -+ goto bad; -+ } else if (counter < 190) { /* if waited >10ms... */ -+ log(L_CTL|L_DEBUG, FUNC"(): waited for IDLE %dms. " -+ "Please report\n", 199 - counter); -+ } -+ -+ /* now write the parameters of the command if needed */ -+ if (buffer && buflen) { -+ /* if it's an INTERROGATE command, just pass the length -+ * of parameters to read, as data */ -+#if CMD_DISCOVERY -+ if (cmd == ACX1xx_CMD_INTERROGATE) -+ memset_io(adev->cmd_area + 4, 0xAA, buflen); -+#endif -+ /* -+ * slave memory version -+ */ -+ copy_to_slavemem (adev, (u32) (adev->cmd_area + 4), buffer, -+ (cmd == ACX1xx_CMD_INTERROGATE) ? 4 : buflen); -+ } -+ /* now write the actual command type */ -+ acxmem_write_cmd_type_status(adev, cmd, 0); -+ -+ /* clear CMD_COMPLETE bit. can be set only by IRQ handler: */ -+ adev->irq_status &= ~HOST_INT_CMD_COMPLETE; -+ -+ /* execute command */ -+ write_reg16(adev, IO_ACX_INT_TRIG, INT_TRIG_CMD); -+ write_flush(adev); -+ -+ /* wait for firmware to process command */ -+ -+ /* Ensure nonzero and not too large timeout. -+ ** Also converts e.g. 100->99, 200->199 -+ ** which is nice but not essential */ -+ cmd_timeout = (cmd_timeout-1) | 1; -+ if (unlikely(cmd_timeout > 1199)) -+ cmd_timeout = 1199; -+ -+ /* we schedule away sometimes (timeout can be large) */ -+ counter = cmd_timeout; -+ timeout = jiffies + cmd_timeout * HZ / 1000; -+ do { -+ if (!adev->irqs_active) { /* IRQ disabled: poll */ -+ irqtype = read_reg16(adev, IO_ACX_IRQ_STATUS_NON_DES); -+ if (irqtype & HOST_INT_CMD_COMPLETE) { -+ write_reg16(adev, IO_ACX_IRQ_ACK, -+ HOST_INT_CMD_COMPLETE); -+ break; -+ } -+ } else { /* Wait when IRQ will set the bit */ -+ irqtype = adev->irq_status; -+ if (irqtype & HOST_INT_CMD_COMPLETE) -+ break; -+ } -+ -+ if (counter % 8 == 0) { -+ if (time_after(jiffies, timeout)) { -+ counter = 0; -+ break; -+ } -+ /* we waited 8 iterations, no luck. Sleep 8 ms */ -+ acx_s_msleep(8); -+ } -+ } while (likely(--counter)); -+ -+ /* save state for debugging */ -+ cmd_status = acxmem_read_cmd_type_status(adev); -+ -+ /* put the card in IDLE state */ -+ acxmem_write_cmd_type_status(adev, ACX1xx_CMD_RESET, 0); -+ -+ if (!counter) { /* timed out! */ -+ printk("%s: "FUNC"(): timed out %s for CMD_COMPLETE. " -+ "irq bits:0x%04X irq_status:0x%04X timeout:%dms " -+ "cmd_status:%d (%s)\n", -+ devname, (adev->irqs_active) ? "waiting" : "polling", -+ irqtype, adev->irq_status, cmd_timeout, -+ cmd_status, acx_cmd_status_str(cmd_status)); -+ printk("%s: "FUNC"(): device irq status 0x%04x\n", -+ devname, read_reg16(adev, IO_ACX_IRQ_STATUS_NON_DES)); -+ printk("%s: "FUNC"(): IO_ACX_IRQ_MASK 0x%04x IO_ACX_FEMR 0x%04x\n", -+ devname, -+ read_reg16 (adev, IO_ACX_IRQ_MASK), -+ read_reg16 (adev, IO_ACX_FEMR)); -+ if (read_reg16 (adev, IO_ACX_IRQ_MASK) == 0xffff) { -+ printk ("acxmem: firmware probably hosed - reloading\n"); -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 11) -+ { -+ pm_message_t state; -+ /* acxmem_e_suspend (resume_pdev, state); */ -+ acxmem_e_suspend (adev->ndev , state); -+ } -+#else -+ acxmem_e_suspend (adev, 0); -+#endif -+ { -+ resume_ndev = adev->ndev; -+ fw_resumer (NULL); -+ } -+ } -+ -+ goto bad; -+ } else if (cmd_timeout - counter > 30) { /* if waited >30ms... */ -+ log(L_CTL|L_DEBUG, FUNC"(): %s for CMD_COMPLETE %dms. " -+ "count:%d. Please report\n", -+ (adev->irqs_active) ? "waited" : "polled", -+ cmd_timeout - counter, counter); -+ } -+ -+ if (1 != cmd_status) { /* it is not a 'Success' */ -+ printk("%s: "FUNC"(): cmd_status is not SUCCESS: %d (%s). " -+ "Took %dms of %d\n", -+ devname, cmd_status, acx_cmd_status_str(cmd_status), -+ cmd_timeout - counter, cmd_timeout); -+ /* zero out result buffer -+ * WARNING: this will trash stack in case of illegally large input -+ * length! */ -+ if (buflen > 388) { -+ /* -+ * 388 is maximum command length -+ */ -+ printk ("invalid length 0x%08x\n", buflen); -+ buflen = 388; -+ } -+ p = (u8 *) buffer; -+ for (i = 0; i < buflen; i+= 16) { -+ printk ("%04x:", i); -+ for (j = 0; (j < 16) && (i+j < buflen); j++) { -+ printk (" %02x", *p++); -+ } -+ printk ("\n"); -+ } -+ if (buffer && buflen) -+ memset(buffer, 0, buflen); -+ goto bad; -+ } -+ -+ /* read in result parameters if needed */ -+ if (buffer && buflen && (cmd == ACX1xx_CMD_INTERROGATE)) { -+ copy_from_slavemem (adev, buffer, (u32) (adev->cmd_area + 4), buflen); -+ if (acx_debug & L_DEBUG) { -+ printk("output buffer (len=%u): ", buflen); -+ acx_dump_bytes(buffer, buflen); -+ } -+ } -+ -+/* ok: */ -+ log(L_CTL, FUNC"(%s): took %ld jiffies to complete\n", -+ cmdstr, jiffies - start); -+ FN_EXIT1(OK); -+ return OK; -+ -+bad: -+ /* Give enough info so that callers can avoid -+ ** printing their own diagnostic messages */ -+#if ACX_DEBUG -+ printk("%s: "FUNC"(cmd:%s) FAILED\n", devname, cmdstr); -+#else -+ printk("%s: "FUNC"(cmd:0x%04X) FAILED\n", devname, cmd); -+#endif -+ dump_stack(); -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*********************************************************************** -+*/ -+#if defined(NONESSENTIAL_FEATURES) -+typedef struct device_id { -+ unsigned char id[6]; -+ char *descr; -+ char *type; -+} device_id_t; -+ -+static const device_id_t -+device_ids[] = -+{ -+ { -+ {'G', 'l', 'o', 'b', 'a', 'l'}, -+ NULL, -+ NULL, -+ }, -+ { -+ {0xff, 0xff, 0xff, 0xff, 0xff, 0xff}, -+ "uninitialized", -+ "SpeedStream SS1021 or Gigafast WF721-AEX" -+ }, -+ { -+ {0x80, 0x81, 0x82, 0x83, 0x84, 0x85}, -+ "non-standard", -+ "DrayTek Vigor 520" -+ }, -+ { -+ {'?', '?', '?', '?', '?', '?'}, -+ "non-standard", -+ "Level One WPC-0200" -+ }, -+ { -+ {0x00, 0x00, 0x00, 0x00, 0x00, 0x00}, -+ "empty", -+ "DWL-650+ variant" -+ } -+}; -+ -+static void -+acx_show_card_eeprom_id(acx_device_t *adev) -+{ -+ unsigned char buffer[CARD_EEPROM_ID_SIZE]; -+ int i; -+ -+ memset(&buffer, 0, CARD_EEPROM_ID_SIZE); -+ /* use direct EEPROM access */ -+ for (i = 0; i < CARD_EEPROM_ID_SIZE; i++) { -+ if (OK != acxmem_read_eeprom_byte(adev, -+ ACX100_EEPROM_ID_OFFSET + i, -+ &buffer[i])) { -+ printk("acx: reading EEPROM FAILED\n"); -+ break; -+ } -+ } -+ -+ for (i = 0; i < VEC_SIZE(device_ids); i++) { -+ if (!memcmp(&buffer, device_ids[i].id, CARD_EEPROM_ID_SIZE)) { -+ if (device_ids[i].descr) { -+ printk("acx: EEPROM card ID string check " -+ "found %s card ID: is this %s?\n", -+ device_ids[i].descr, device_ids[i].type); -+ } -+ break; -+ } -+ } -+ if (i == VEC_SIZE(device_ids)) { -+ printk("acx: EEPROM card ID string check found " -+ "unknown card: expected 'Global', got '%.*s\'. " -+ "Please report\n", CARD_EEPROM_ID_SIZE, buffer); -+ } -+} -+#endif /* NONESSENTIAL_FEATURES */ -+ -+/*********************************************************************** -+** acxmem_free_desc_queues -+** -+** Releases the queues that have been allocated, the -+** others have been initialised to NULL so this -+** function can be used if only part of the queues were allocated. -+*/ -+ -+void -+acxmem_free_desc_queues(acx_device_t *adev) -+{ -+#define ACX_FREE_QUEUE(size, ptr, phyaddr) \ -+ if (ptr) { \ -+ kfree(ptr); \ -+ ptr = NULL; \ -+ size = 0; \ -+ } -+ -+ FN_ENTER; -+ -+ ACX_FREE_QUEUE(adev->txhostdesc_area_size, adev->txhostdesc_start, adev->txhostdesc_startphy); -+ ACX_FREE_QUEUE(adev->txbuf_area_size, adev->txbuf_start, adev->txbuf_startphy); -+ -+ adev->txdesc_start = NULL; -+ -+ ACX_FREE_QUEUE(adev->rxhostdesc_area_size, adev->rxhostdesc_start, adev->rxhostdesc_startphy); -+ ACX_FREE_QUEUE(adev->rxbuf_area_size, adev->rxbuf_start, adev->rxbuf_startphy); -+ -+ adev->rxdesc_start = NULL; -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_delete_dma_regions -+*/ -+static void -+acxmem_s_delete_dma_regions(acx_device_t *adev) -+{ -+ unsigned long flags; -+ -+ FN_ENTER; -+ /* disable radio Tx/Rx. Shouldn't we use the firmware commands -+ * here instead? Or are we that much down the road that it's no -+ * longer possible here? */ -+ /* -+ * slave memory interface really doesn't like this. -+ */ -+ /* -+ write_reg16(adev, IO_ACX_ENABLE, 0); -+ */ -+ -+ acx_s_msleep(100); -+ -+ acx_lock(adev, flags); -+ acxmem_free_desc_queues(adev); -+ acx_unlock(adev, flags); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_e_probe -+** -+** Probe routine called when a PCI device w/ matching ID is found. -+** Here's the sequence: -+** - Allocate the PCI resources. -+** - Read the PCMCIA attribute memory to make sure we have a WLAN card -+** - Reset the MAC -+** - Initialize the dev and wlan data -+** - Initialize the MAC -+** -+** pdev - ptr to pci device structure containing info about pci configuration -+** id - ptr to the device id entry that matched this device -+*/ -+static const u16 -+IO_ACX100[] = -+{ -+ 0x0000, /* IO_ACX_SOFT_RESET */ -+ -+ 0x0014, /* IO_ACX_SLV_MEM_ADDR */ -+ 0x0018, /* IO_ACX_SLV_MEM_DATA */ -+ 0x001c, /* IO_ACX_SLV_MEM_CTL */ -+ 0x0020, /* IO_ACX_SLV_END_CTL */ -+ -+ 0x0034, /* IO_ACX_FEMR */ -+ -+ 0x007c, /* IO_ACX_INT_TRIG */ -+ 0x0098, /* IO_ACX_IRQ_MASK */ -+ 0x00a4, /* IO_ACX_IRQ_STATUS_NON_DES */ -+ 0x00a8, /* IO_ACX_IRQ_STATUS_CLEAR */ -+ 0x00ac, /* IO_ACX_IRQ_ACK */ -+ 0x00b0, /* IO_ACX_HINT_TRIG */ -+ -+ 0x0104, /* IO_ACX_ENABLE */ -+ -+ 0x0250, /* IO_ACX_EEPROM_CTL */ -+ 0x0254, /* IO_ACX_EEPROM_ADDR */ -+ 0x0258, /* IO_ACX_EEPROM_DATA */ -+ 0x025c, /* IO_ACX_EEPROM_CFG */ -+ -+ 0x0268, /* IO_ACX_PHY_ADDR */ -+ 0x026c, /* IO_ACX_PHY_DATA */ -+ 0x0270, /* IO_ACX_PHY_CTL */ -+ -+ 0x0290, /* IO_ACX_GPIO_OE */ -+ -+ 0x0298, /* IO_ACX_GPIO_OUT */ -+ -+ 0x02a4, /* IO_ACX_CMD_MAILBOX_OFFS */ -+ 0x02a8, /* IO_ACX_INFO_MAILBOX_OFFS */ -+ 0x02ac, /* IO_ACX_EEPROM_INFORMATION */ -+ -+ 0x02d0, /* IO_ACX_EE_START */ -+ 0x02d4, /* IO_ACX_SOR_CFG */ -+ 0x02d8 /* IO_ACX_ECPU_CTRL */ -+}; -+ -+static const u16 -+IO_ACX111[] = -+{ -+ 0x0000, /* IO_ACX_SOFT_RESET */ -+ -+ 0x0014, /* IO_ACX_SLV_MEM_ADDR */ -+ 0x0018, /* IO_ACX_SLV_MEM_DATA */ -+ 0x001c, /* IO_ACX_SLV_MEM_CTL */ -+ 0x0020, /* IO_ACX_SLV_MEM_CP */ -+ -+ 0x0034, /* IO_ACX_FEMR */ -+ -+ 0x00b4, /* IO_ACX_INT_TRIG */ -+ 0x00d4, /* IO_ACX_IRQ_MASK */ -+ /* we do mean NON_DES (0xf0), not NON_DES_MASK which is at 0xe0: */ -+ 0x00f0, /* IO_ACX_IRQ_STATUS_NON_DES */ -+ 0x00e4, /* IO_ACX_IRQ_STATUS_CLEAR */ -+ 0x00e8, /* IO_ACX_IRQ_ACK */ -+ 0x00ec, /* IO_ACX_HINT_TRIG */ -+ -+ 0x01d0, /* IO_ACX_ENABLE */ -+ -+ 0x0338, /* IO_ACX_EEPROM_CTL */ -+ 0x033c, /* IO_ACX_EEPROM_ADDR */ -+ 0x0340, /* IO_ACX_EEPROM_DATA */ -+ 0x0344, /* IO_ACX_EEPROM_CFG */ -+ -+ 0x0350, /* IO_ACX_PHY_ADDR */ -+ 0x0354, /* IO_ACX_PHY_DATA */ -+ 0x0358, /* IO_ACX_PHY_CTL */ -+ -+ 0x0374, /* IO_ACX_GPIO_OE */ -+ -+ 0x037c, /* IO_ACX_GPIO_OUT */ -+ -+ 0x0388, /* IO_ACX_CMD_MAILBOX_OFFS */ -+ 0x038c, /* IO_ACX_INFO_MAILBOX_OFFS */ -+ 0x0390, /* IO_ACX_EEPROM_INFORMATION */ -+ -+ 0x0100, /* IO_ACX_EE_START */ -+ 0x0104, /* IO_ACX_SOR_CFG */ -+ 0x0108, /* IO_ACX_ECPU_CTRL */ -+}; -+ -+static void -+dummy_netdev_init(struct net_device *ndev) {} -+ -+/* -+ * Most of the acx specific pieces of hardware reset. -+ */ -+static int -+acxmem_complete_hw_reset (acx_device_t *adev) -+{ -+ acx111_ie_configoption_t co; -+ -+ /* NB: read_reg() reads may return bogus data before reset_dev(), -+ * since the firmware which directly controls large parts of the I/O -+ * registers isn't initialized yet. -+ * acx100 seems to be more affected than acx111 */ -+ if (OK != acxmem_s_reset_dev (adev)) -+ return -1; -+ -+ if (IS_ACX100(adev)) { -+ /* ACX100: configopt struct in cmd mailbox - directly after reset */ -+ copy_from_slavemem (adev, (u8*) &co, (u32) adev->cmd_area, sizeof (co)); -+ } -+ -+ if (OK != acx_s_init_mac(adev)) -+ return -3; -+ -+ if (IS_ACX111(adev)) { -+ /* ACX111: configopt struct needs to be queried after full init */ -+ acx_s_interrogate(adev, &co, ACX111_IE_CONFIG_OPTIONS); -+ } -+ -+ /* -+ * Set up transmit buffer administration -+ */ -+ init_acx_txbuf (adev); -+ -+ /* -+ * Windows driver writes 0x01000000 to register 0x288, RADIO_CTL, if the form factor -+ * is 3. It also write protects the EEPROM by writing 1<<9 to GPIO_OUT -+ */ -+ if (adev->form_factor == 3) { -+ set_regbits (adev, 0x288, 0x01000000); -+ set_regbits (adev, 0x298, 1<<9); -+ } -+ -+/* TODO: merge them into one function, they are called just once and are the same for pci & usb */ -+ if (OK != acxmem_read_eeprom_byte(adev, 0x05, &adev->eeprom_version)) -+ return -2; -+ -+ acx_s_parse_configoption(adev, &co); -+ acx_s_get_firmware_version(adev); /* needs to be after acx_s_init_mac() */ -+ acx_display_hardware_details(adev); -+ -+ return 0; -+} -+ -+static int acx_init_netdev(struct net_device *ndev, struct device *dev, int base_addr, int addr_size, int irq) -+{ -+ const char *chip_name; -+ int result = -EIO; -+ int err; -+ u8 chip_type; -+ acx_device_t *adev = NULL; -+ -+ FN_ENTER; -+ -+ /* FIXME: prism54 calls pci_set_mwi() here, -+ * should we do/support the same? */ -+ -+ /* chiptype is u8 but id->driver_data is ulong -+ ** Works for now (possible values are 1 and 2) */ -+ chip_type = CHIPTYPE_ACX100; -+ /* acx100 and acx111 have different PCI memory regions */ -+ if (chip_type == CHIPTYPE_ACX100) { -+ chip_name = "ACX100"; -+ } else if (chip_type == CHIPTYPE_ACX111) { -+ chip_name = "ACX111"; -+ } else { -+ printk("acx: unknown chip type 0x%04X\n", chip_type); -+ goto fail_unknown_chiptype; -+ } -+ -+ printk("acx: found %s-based wireless network card\n", chip_name); -+ log(L_ANY, "initial debug setting is 0x%04X\n", acx_debug); -+ -+ -+ dev_set_drvdata(dev, ndev); -+ -+ ether_setup(ndev); -+ -+ ndev->irq = irq; -+ -+ ndev->base_addr = base_addr; -+printk (KERN_INFO "memwinbase=%lx memwinsize=%u\n",memwin.Base,memwin.Size); -+ if (addr_size == 0 || ndev->irq == 0) -+ goto fail_hw_params; -+ ndev->open = &acxmem_e_open; -+ ndev->stop = &acxmem_e_close; -+ //pdev->dev.release = &acxmem_e_release; -+ ndev->hard_start_xmit = &acx_i_start_xmit; -+ ndev->get_stats = &acx_e_get_stats; -+#if IW_HANDLER_VERSION <= 5 -+ ndev->get_wireless_stats = &acx_e_get_wireless_stats; -+#endif -+ ndev->wireless_handlers = (struct iw_handler_def *)&acx_ioctl_handler_def; -+ ndev->set_multicast_list = &acxmem_i_set_multicast_list; -+ ndev->tx_timeout = &acxmem_i_tx_timeout; -+ ndev->change_mtu = &acx_e_change_mtu; -+ ndev->watchdog_timeo = 4 * HZ; -+ -+ adev = ndev2adev(ndev); -+ spin_lock_init(&adev->lock); /* initial state: unlocked */ -+ spin_lock_init(&adev->txbuf_lock); -+ /* We do not start with downed sem: we want PARANOID_LOCKING to work */ -+ sema_init(&adev->sem, 1); /* initial state: 1 (upped) */ -+ /* since nobody can see new netdev yet, we can as well -+ ** just _presume_ that we're under sem (instead of actually taking it): */ -+ /* acx_sem_lock(adev); */ -+ adev->dev = dev; -+ adev->ndev = ndev; -+ adev->dev_type = DEVTYPE_MEM; -+ adev->chip_type = chip_type; -+ adev->chip_name = chip_name; -+ adev->io = (CHIPTYPE_ACX100 == chip_type) ? IO_ACX100 : IO_ACX111; -+ adev->membase = (volatile u32 *) ndev->base_addr; -+ adev->iobase = (volatile u32 *) ioremap_nocache (ndev->base_addr, addr_size); -+ /* to find crashes due to weird driver access -+ * to unconfigured interface (ifup) */ -+ adev->mgmt_timer.function = (void (*)(unsigned long))0x0000dead; -+ -+#if defined(NONESSENTIAL_FEATURES) -+ acx_show_card_eeprom_id(adev); -+#endif /* NONESSENTIAL_FEATURES */ -+ -+#ifdef SET_MODULE_OWNER -+ SET_MODULE_OWNER(ndev); -+#endif -+ // need to fix that @@ -+ SET_NETDEV_DEV(ndev, dev); -+ -+ log(L_IRQ|L_INIT, "using IRQ %d\n", ndev->irq); -+ -+ /* ok, pci setup is finished, now start initializing the card */ -+ -+ if (OK != acxmem_complete_hw_reset (adev)) -+ goto fail_reset; -+ -+ /* -+ * Set up default things for most of the card settings. -+ */ -+ acx_s_set_defaults(adev); -+ -+ /* Register the card, AFTER everything else has been set up, -+ * since otherwise an ioctl could step on our feet due to -+ * firmware operations happening in parallel or uninitialized data */ -+ err = register_netdev(ndev); -+ if (OK != err) { -+ printk("acx: register_netdev() FAILED: %d\n", err); -+ goto fail_register_netdev; -+ } -+ -+ acx_proc_register_entries(ndev); -+ -+ /* Now we have our device, so make sure the kernel doesn't try -+ * to send packets even though we're not associated to a network yet */ -+ acx_stop_queue(ndev, "on probe"); -+ acx_carrier_off(ndev, "on probe"); -+ -+ /* -+ * Set up a default monitor type so that poor combinations of initialization -+ * sequences in monitor mode don't end up destroying the hardware type. -+ */ -+ adev->monitor_type = ARPHRD_ETHER; -+ -+ /* -+ * Register to receive inetaddr notifier changes. This will allow us to -+ * catch if the user changes the MAC address of the interface. -+ */ -+ register_netdevice_notifier(&acx_netdev_notifier); -+ -+ /* after register_netdev() userspace may start working with dev -+ * (in particular, on other CPUs), we only need to up the sem */ -+ /* acx_sem_unlock(adev); */ -+ -+ printk("acx "ACX_RELEASE": net device %s, driver compiled " -+ "against wireless extensions %d and Linux %s\n", -+ ndev->name, WIRELESS_EXT, UTS_RELEASE); -+ -+#if CMD_DISCOVERY -+ great_inquisitor(adev); -+#endif -+ -+ result = OK; -+ goto done; -+ -+ /* error paths: undo everything in reverse order... */ -+ -+fail_register_netdev: -+ -+ acxmem_s_delete_dma_regions(adev); -+ -+fail_reset: -+fail_hw_params: -+ free_netdev(ndev); -+fail_unknown_chiptype: -+ -+ -+done: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acxmem_e_remove -+** -+** Shut device down (if not hot unplugged) -+** and deallocate PCI resources for the acx chip. -+** -+** pdev - ptr to PCI device structure containing info about pci configuration -+*/ -+static int __devexit -+acxmem_e_remove(struct pcmcia_device *link) -+{ -+ struct net_device *ndev; -+ acx_device_t *adev; -+ unsigned long flags; -+ -+ FN_ENTER; -+ -+ ndev = ((local_info_t*)link->priv)->ndev; -+ if (!ndev) { -+ log(L_DEBUG, "%s: card is unused. Skipping any release code\n", -+ __func__); -+ goto end; -+ } -+ -+ adev = ndev2adev(ndev); -+ -+ /* If device wasn't hot unplugged... */ -+ if (adev_present(adev)) { -+ -+ acx_sem_lock(adev); -+ -+ /* disable both Tx and Rx to shut radio down properly */ -+ acx_s_issue_cmd(adev, ACX1xx_CMD_DISABLE_TX, NULL, 0); -+ acx_s_issue_cmd(adev, ACX1xx_CMD_DISABLE_RX, NULL, 0); -+ -+#ifdef REDUNDANT -+ /* put the eCPU to sleep to save power -+ * Halting is not possible currently, -+ * since not supported by all firmware versions */ -+ acx_s_issue_cmd(adev, ACX100_CMD_SLEEP, NULL, 0); -+#endif -+ acx_lock(adev, flags); -+ -+ /* disable power LED to save power :-) */ -+ log(L_INIT, "switching off power LED to save power\n"); -+ acxmem_l_power_led(adev, 0); -+ -+ /* stop our eCPU */ -+ if (IS_ACX111(adev)) { -+ /* FIXME: does this actually keep halting the eCPU? -+ * I don't think so... -+ */ -+ acxmem_l_reset_mac(adev); -+ } else { -+ u16 temp; -+ -+ /* halt eCPU */ -+ temp = read_reg16(adev, IO_ACX_ECPU_CTRL) | 0x1; -+ write_reg16(adev, IO_ACX_ECPU_CTRL, temp); -+ write_flush(adev); -+ } -+ -+ acx_unlock(adev, flags); -+ -+ acx_sem_unlock(adev); -+ } -+ -+ -+ /* -+ * Unregister the notifier chain -+ */ -+ unregister_netdevice_notifier(&acx_netdev_notifier); -+ -+ /* unregister the device to not let the kernel -+ * (e.g. ioctls) access a half-deconfigured device -+ * NB: this will cause acxmem_e_close() to be called, -+ * thus we shouldn't call it under sem! */ -+ log(L_INIT, "removing device %s\n", ndev->name); -+ unregister_netdev(ndev); -+ -+ /* unregister_netdev ensures that no references to us left. -+ * For paranoid reasons we continue to follow the rules */ -+ acx_sem_lock(adev); -+ -+ if (adev->dev_state_mask & ACX_STATE_IFACE_UP) { -+ acxmem_s_down(ndev); -+ CLEAR_BIT(adev->dev_state_mask, ACX_STATE_IFACE_UP); -+ } -+ -+ acx_proc_unregister_entries(ndev); -+ -+ acxmem_s_delete_dma_regions(adev); -+ -+ /* finally, clean up PCI bus state */ -+ if (adev->iobase) iounmap((void *)adev->iobase); -+ -+ acx_sem_unlock(adev); -+ -+ /* Free netdev (quite late, -+ * since otherwise we might get caught off-guard -+ * by a netdev timeout handler execution -+ * expecting to see a working dev...) */ -+ free_netdev(ndev); -+ -+ printk ("e_remove done\n"); -+end: -+ FN_EXIT0; -+ -+ return 0; -+} -+ -+ -+/*********************************************************************** -+** TODO: PM code needs to be fixed / debugged / tested. -+*/ -+#ifdef CONFIG_PM -+static int -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 11) -+acxmem_e_suspend( struct net_device *ndev, pm_message_t state) -+#else -+acxmem_e_suspend( struct net_device *ndev, u32 state) -+#endif -+{ -+ FN_ENTER; -+ acx_device_t *adev; -+ printk("acx: suspend handler is experimental!\n"); -+ printk("sus: dev %p\n", ndev); -+ -+ if (!netif_running(ndev)) -+ goto end; -+ // @@ need to get it from link or something like that -+ adev = ndev2adev(ndev); -+ printk("sus: adev %p\n", adev); -+ -+ acx_sem_lock(adev); -+ -+ netif_device_detach(adev->ndev); /* this one cannot sleep */ -+ acxmem_s_down(adev->ndev); -+ /* down() does not set it to 0xffff, but here we really want that */ -+ write_reg16(adev, IO_ACX_IRQ_MASK, 0xffff); -+ write_reg16(adev, IO_ACX_FEMR, 0x0); -+ acxmem_s_delete_dma_regions(adev); -+ -+ /* -+ * Turn the ACX chip off. -+ */ -+ -+ acx_sem_unlock(adev); -+end: -+ FN_EXIT0; -+ return OK; -+} -+ -+ -+static void -+fw_resumer(struct work_struct *notused) -+{ -+ acx_device_t *adev; -+ struct net_device *ndev = resume_ndev; -+ -+ printk("acx: resume handler is experimental!\n"); -+ printk("rsm: got dev %p\n", ndev); -+ -+ if (!netif_running(ndev)) -+ return; -+ -+ adev = ndev2adev(ndev); -+ printk("rsm: got adev %p\n", adev); -+ -+ acx_sem_lock(adev); -+ -+ /* -+ * Turn on the ACX. -+ */ -+ -+ acxmem_complete_hw_reset (adev); -+ -+ /* -+ * done by acx_s_set_defaults for initial startup -+ */ -+ acxmem_set_interrupt_mask(adev); -+ -+ printk ("rsm: bringing up interface\n"); -+ SET_BIT (adev->set_mask, GETSET_ALL); -+ acxmem_s_up(ndev); -+ printk("rsm: acx up done\n"); -+ -+ /* now even reload all card parameters as they were before suspend, -+ * and possibly be back in the network again already :-) -+ */ -+ /* - most settings updated in acxmem_s_up() -+ if (ACX_STATE_IFACE_UP & adev->dev_state_mask) { -+ adev->set_mask = GETSET_ALL; -+ acx_s_update_card_settings(adev); -+ printk("rsm: settings updated\n"); -+ } -+ */ -+ netif_device_attach(ndev); -+ printk("rsm: device attached\n"); -+ -+ acx_sem_unlock(adev); -+} -+ -+DECLARE_WORK( fw_resume_work, fw_resumer ); -+ -+static int -+acxmem_e_resume(struct pcmcia_device *link) -+{ -+ FN_ENTER; -+ -+ //resume_pdev = pdev; -+ schedule_work( &fw_resume_work ); -+ -+ FN_EXIT0; -+ return OK; -+} -+#endif /* CONFIG_PM */ -+ -+ -+/*********************************************************************** -+** acxmem_s_up -+** -+** This function is called by acxmem_e_open (when ifconfig sets the device as up) -+** -+** Side effects: -+** - Enables on-card interrupt requests -+** - calls acx_s_start -+*/ -+ -+static void -+enable_acx_irq(acx_device_t *adev) -+{ -+ FN_ENTER; -+ write_reg16(adev, IO_ACX_IRQ_MASK, adev->irq_mask); -+ write_reg16(adev, IO_ACX_FEMR, 0x8000); -+ adev->irqs_active = 1; -+ FN_EXIT0; -+} -+ -+static void -+acxmem_s_up(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ -+ FN_ENTER; -+ -+ acx_lock(adev, flags); -+ enable_acx_irq(adev); -+ acx_unlock(adev, flags); -+ -+ /* acx fw < 1.9.3.e has a hardware timer, and older drivers -+ ** used to use it. But we don't do that anymore, our OS -+ ** has reliable software timers */ -+ init_timer(&adev->mgmt_timer); -+ adev->mgmt_timer.function = acx_i_timer; -+ adev->mgmt_timer.data = (unsigned long)adev; -+ -+ /* Need to set ACX_STATE_IFACE_UP first, or else -+ ** timer won't be started by acx_set_status() */ -+ SET_BIT(adev->dev_state_mask, ACX_STATE_IFACE_UP); -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_2_STA: -+ /* actual scan cmd will happen in start() */ -+ acx_set_status(adev, ACX_STATUS_1_SCANNING); break; -+ case ACX_MODE_3_AP: -+ case ACX_MODE_MONITOR: -+ acx_set_status(adev, ACX_STATUS_4_ASSOCIATED); break; -+ } -+ -+ acx_s_start(adev); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_down -+** -+** This disables the netdevice -+** -+** Side effects: -+** - disables on-card interrupt request -+*/ -+ -+static void -+disable_acx_irq(acx_device_t *adev) -+{ -+ FN_ENTER; -+ -+ /* I guess mask is not 0xffff because acx100 won't signal -+ ** cmd completion then (needed for ifup). -+ ** Someone with acx100 please confirm */ -+ write_reg16(adev, IO_ACX_IRQ_MASK, adev->irq_mask_off); -+ write_reg16(adev, IO_ACX_FEMR, 0x0); -+ adev->irqs_active = 0; -+ FN_EXIT0; -+} -+ -+static void -+acxmem_s_down(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ -+ FN_ENTER; -+ -+ /* Disable IRQs first, so that IRQs cannot race with us */ -+ /* then wait until interrupts have finished executing on other CPUs */ -+ acx_lock(adev, flags); -+ disable_acx_irq(adev); -+ synchronize_irq(adev->pdev->irq); -+ acx_unlock(adev, flags); -+ -+ /* we really don't want to have an asynchronous tasklet disturb us -+ ** after something vital for its job has been shut down, so -+ ** end all remaining work now. -+ ** -+ ** NB: carrier_off (done by set_status below) would lead to -+ ** not yet fully understood deadlock in FLUSH_SCHEDULED_WORK(). -+ ** That's why we do FLUSH first. -+ ** -+ ** NB2: we have a bad locking bug here: FLUSH_SCHEDULED_WORK() -+ ** waits for acx_e_after_interrupt_task to complete if it is running -+ ** on another CPU, but acx_e_after_interrupt_task -+ ** will sleep on sem forever, because it is taken by us! -+ ** Work around that by temporary sem unlock. -+ ** This will fail miserably if we'll be hit by concurrent -+ ** iwconfig or something in between. TODO! */ -+ acx_sem_unlock(adev); -+ FLUSH_SCHEDULED_WORK(); -+ acx_sem_lock(adev); -+ -+ /* This is possible: -+ ** FLUSH_SCHEDULED_WORK -> acx_e_after_interrupt_task -> -+ ** -> set_status(ASSOCIATED) -> wake_queue() -+ ** That's why we stop queue _after_ FLUSH_SCHEDULED_WORK -+ ** lock/unlock is just paranoia, maybe not needed */ -+ acx_lock(adev, flags); -+ acx_stop_queue(ndev, "on ifdown"); -+ acx_set_status(adev, ACX_STATUS_0_STOPPED); -+ acx_unlock(adev, flags); -+ -+ /* kernel/timer.c says it's illegal to del_timer_sync() -+ ** a timer which restarts itself. We guarantee this cannot -+ ** ever happen because acx_i_timer() never does this if -+ ** status is ACX_STATUS_0_STOPPED */ -+ del_timer_sync(&adev->mgmt_timer); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_e_open -+** -+** Called as a result of SIOCSIFFLAGS ioctl changing the flags bit IFF_UP -+** from clear to set. In other words: ifconfig up. -+** -+** Returns: -+** 0 success -+** >0 f/w reported error -+** <0 driver reported error -+*/ -+static int -+acxmem_e_open(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int result = OK; -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ -+ acx_init_task_scheduler(adev); -+ -+/* TODO: pci_set_power_state(pdev, PCI_D0); ? */ -+ -+#if 0 -+ /* request shared IRQ handler */ -+ if (request_irq(ndev->irq, acxmem_i_interrupt, SA_INTERRUPT, ndev->name, ndev)) { -+ printk("%s: request_irq FAILED\n", ndev->name); -+ result = -EAGAIN; -+ goto done; -+ } -+ set_irq_type (ndev->irq, IRQT_FALLING); -+ log(L_DEBUG|L_IRQ, "request_irq %d successful\n", ndev->irq); -+#endif -+ -+ /* ifup device */ -+ acxmem_s_up(ndev); -+ -+ /* We don't currently have to do anything else. -+ * The setup of the MAC should be subsequently completed via -+ * the mlme commands. -+ * Higher layers know we're ready from dev->start==1 and -+ * dev->tbusy==0. Our rx path knows to pass up received/ -+ * frames because of dev->flags&IFF_UP is true. -+ */ -+done: -+ acx_sem_unlock(adev); -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acxmem_e_close -+** -+** Called as a result of SIOCSIIFFLAGS ioctl changing the flags bit IFF_UP -+** from set to clear. I.e. called by "ifconfig DEV down" -+** -+** Returns: -+** 0 success -+** >0 f/w reported error -+** <0 driver reported error -+*/ -+static int -+acxmem_e_close(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ -+ /* ifdown device */ -+ CLEAR_BIT(adev->dev_state_mask, ACX_STATE_IFACE_UP); -+ if (netif_device_present(ndev)) { -+ acxmem_s_down(ndev); -+ } -+ -+ /* disable all IRQs, release shared IRQ handler */ -+ write_reg16(adev, IO_ACX_IRQ_MASK, 0xffff); -+ write_reg16(adev, IO_ACX_FEMR, 0x0); -+ free_irq(ndev->irq, ndev); -+ -+/* TODO: pci_set_power_state(pdev, PCI_D3hot); ? */ -+ -+ /* We currently don't have to do anything else. -+ * Higher layers know we're not ready from dev->start==0 and -+ * dev->tbusy==1. Our rx path knows to not pass up received -+ * frames because of dev->flags&IFF_UP is false. -+ */ -+ acx_sem_unlock(adev); -+ -+ log(L_INIT, "closed device\n"); -+ FN_EXIT0; -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acxmem_i_tx_timeout -+** -+** Called from network core. Must not sleep! -+*/ -+static void -+acxmem_i_tx_timeout(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ unsigned int tx_num_cleaned; -+ -+ FN_ENTER; -+ -+ acx_lock(adev, flags); -+ -+ /* clean processed tx descs, they may have been completely full */ -+ tx_num_cleaned = acxmem_l_clean_txdesc(adev); -+ -+ /* nothing cleaned, yet (almost) no free buffers available? -+ * --> clean all tx descs, no matter which status!! -+ * Note that I strongly suspect that doing emergency cleaning -+ * may confuse the firmware. This is a last ditch effort to get -+ * ANYTHING to work again... -+ * -+ * TODO: it's best to simply reset & reinit hw from scratch... -+ */ -+ if ((adev->tx_free <= TX_EMERG_CLEAN) && (tx_num_cleaned == 0)) { -+ printk("%s: FAILED to free any of the many full tx buffers. " -+ "Switching to emergency freeing. " -+ "Please report!\n", ndev->name); -+ acxmem_l_clean_txdesc_emergency(adev); -+ } -+ -+ if (acx_queue_stopped(ndev) && (ACX_STATUS_4_ASSOCIATED == adev->status)) -+ acx_wake_queue(ndev, "after tx timeout"); -+ -+ /* stall may have happened due to radio drift, so recalib radio */ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_CMD_RADIO_RECALIB); -+ -+ /* do unimportant work last */ -+ printk("%s: tx timeout!\n", ndev->name); -+ adev->stats.tx_errors++; -+ -+ acx_unlock(adev, flags); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_i_set_multicast_list -+** FIXME: most likely needs refinement -+*/ -+static void -+acxmem_i_set_multicast_list(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ -+ FN_ENTER; -+ -+ acx_lock(adev, flags); -+ -+ /* firmwares don't have allmulti capability, -+ * so just use promiscuous mode instead in this case. */ -+ if (ndev->flags & (IFF_PROMISC|IFF_ALLMULTI)) { -+ SET_BIT(adev->rx_config_1, RX_CFG1_RCV_PROMISCUOUS); -+ CLEAR_BIT(adev->rx_config_1, RX_CFG1_FILTER_ALL_MULTI); -+ SET_BIT(adev->set_mask, SET_RXCONFIG); -+ /* let kernel know in case *we* needed to set promiscuous */ -+ ndev->flags |= (IFF_PROMISC|IFF_ALLMULTI); -+ } else { -+ CLEAR_BIT(adev->rx_config_1, RX_CFG1_RCV_PROMISCUOUS); -+ SET_BIT(adev->rx_config_1, RX_CFG1_FILTER_ALL_MULTI); -+ SET_BIT(adev->set_mask, SET_RXCONFIG); -+ ndev->flags &= ~(IFF_PROMISC|IFF_ALLMULTI); -+ } -+ -+ /* cannot update card settings directly here, atomic context */ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_UPDATE_CARD_CFG); -+ -+ acx_unlock(adev, flags); -+ -+ FN_EXIT0; -+} -+ -+ -+/*************************************************************** -+** acxmem_l_process_rxdesc -+** -+** Called directly and only from the IRQ handler -+*/ -+ -+#if !ACX_DEBUG -+static inline void log_rxbuffer(const acx_device_t *adev) {} -+#else -+static void -+log_rxbuffer(const acx_device_t *adev) -+{ -+ register const struct rxhostdesc *rxhostdesc; -+ int i; -+ /* no FN_ENTER here, we don't want that */ -+ -+ rxhostdesc = adev->rxhostdesc_start; -+ if (unlikely(!rxhostdesc)) return; -+ for (i = 0; i < RX_CNT; i++) { -+ if ((rxhostdesc->Ctl_16 & cpu_to_le16(DESC_CTL_HOSTOWN)) -+ && (rxhostdesc->Status & cpu_to_le32(DESC_STATUS_FULL))) -+ printk("rx: buf %d full\n", i); -+ rxhostdesc++; -+ } -+} -+#endif -+ -+static void -+acxmem_l_process_rxdesc(acx_device_t *adev) -+{ -+ register rxhostdesc_t *hostdesc; -+ register rxdesc_t *rxdesc; -+ unsigned count, tail; -+ u32 addr; -+ u8 Ctl_8; -+ -+ FN_ENTER; -+ -+ if (unlikely(acx_debug & L_BUFR)) -+ log_rxbuffer(adev); -+ -+ /* First, have a loop to determine the first descriptor that's -+ * full, just in case there's a mismatch between our current -+ * rx_tail and the full descriptor we're supposed to handle. */ -+ tail = adev->rx_tail; -+ count = RX_CNT; -+ while (1) { -+ hostdesc = &adev->rxhostdesc_start[tail]; -+ rxdesc = &adev->rxdesc_start[tail]; -+ /* advance tail regardless of outcome of the below test */ -+ tail = (tail + 1) % RX_CNT; -+ -+ /* -+ * Unlike the PCI interface, where the ACX can write directly to -+ * the host descriptors, on the slave memory interface we have to -+ * pull these. All we really need to do is check the Ctl_8 field -+ * in the rx descriptor on the ACX, which should be 0x11000000 if -+ * we should process it. -+ */ -+ Ctl_8 = hostdesc->Ctl_16 = read_slavemem8 (adev, (u32) &(rxdesc->Ctl_8)); -+ if ((Ctl_8 & DESC_CTL_HOSTOWN) && -+ (Ctl_8 & DESC_CTL_ACXDONE)) -+ break; /* found it! */ -+ -+ if (unlikely(!--count)) /* hmm, no luck: all descs empty, bail out */ -+ goto end; -+ } -+ -+ /* now process descriptors, starting with the first we figured out */ -+ while (1) { -+ log(L_BUFR, "rx: tail=%u Ctl_8=%02X\n", tail, Ctl_8); -+ /* -+ * If the ACX has CTL_RECLAIM set on this descriptor there -+ * is no buffer associated; it just wants us to tell it to -+ * reclaim the memory. -+ */ -+ if (!(Ctl_8 & DESC_CTL_RECLAIM)) { -+ -+ /* -+ * slave interface - pull data now -+ */ -+ hostdesc->length = read_slavemem16 (adev, (u32) &(rxdesc->total_length)); -+ -+ /* -+ * hostdesc->data is an rxbuffer_t, which includes header information, -+ * but the length in the data packet doesn't. The header information -+ * takes up an additional 12 bytes, so add that to the length we copy. -+ */ -+ addr = read_slavemem32 (adev, (u32) &(rxdesc->ACXMemPtr)); -+ if (addr) { -+ /* -+ * How can &(rxdesc->ACXMemPtr) above ever be zero? Looks like we -+ * get that now and then - try to trap it for debug. -+ */ -+ if (addr & 0xffff0000) { -+ printk("rxdesc 0x%08x\n", (u32) rxdesc); -+ dump_acxmem (adev, 0, 0x10000); -+ panic ("Bad access!"); -+ } -+ chaincopy_from_slavemem (adev, (u8 *) hostdesc->data, addr, -+ hostdesc->length + -+ (u32) &((rxbuffer_t *)0)->hdr_a3); -+ acx_l_process_rxbuf(adev, hostdesc->data); -+ } -+ } -+ else { -+ printk ("rx reclaim only!\n"); -+ } -+ -+ hostdesc->Status = 0; -+ -+ /* -+ * Let the ACX know we're done. -+ */ -+ CLEAR_BIT (Ctl_8, DESC_CTL_HOSTOWN); -+ SET_BIT (Ctl_8, DESC_CTL_HOSTDONE); -+ SET_BIT (Ctl_8, DESC_CTL_RECLAIM); -+ write_slavemem8 (adev, (u32) &rxdesc->Ctl_8, Ctl_8); -+ -+ /* -+ * Now tell the ACX we've finished with the receive buffer so -+ * it can finish the reclaim. -+ */ -+ write_reg16 (adev, IO_ACX_INT_TRIG, INT_TRIG_RXPRC); -+ -+ /* ok, descriptor is handled, now check the next descriptor */ -+ hostdesc = &adev->rxhostdesc_start[tail]; -+ rxdesc = &adev->rxdesc_start[tail]; -+ -+ Ctl_8 = hostdesc->Ctl_16 = read_slavemem8 (adev, (u32) &(rxdesc->Ctl_8)); -+ -+ /* if next descriptor is empty, then bail out */ -+ if (!(Ctl_8 & DESC_CTL_HOSTOWN) || !(Ctl_8 & DESC_CTL_ACXDONE)) -+ break; -+ -+ tail = (tail + 1) % RX_CNT; -+ } -+end: -+ adev->rx_tail = tail; -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_i_interrupt -+** -+** IRQ handler (atomic context, must not sleep, blah, blah) -+*/ -+ -+/* scan is complete. all frames now on the receive queue are valid */ -+#define INFO_SCAN_COMPLETE 0x0001 -+#define INFO_WEP_KEY_NOT_FOUND 0x0002 -+/* hw has been reset as the result of a watchdog timer timeout */ -+#define INFO_WATCH_DOG_RESET 0x0003 -+/* failed to send out NULL frame from PS mode notification to AP */ -+/* recommended action: try entering 802.11 PS mode again */ -+#define INFO_PS_FAIL 0x0004 -+/* encryption/decryption process on a packet failed */ -+#define INFO_IV_ICV_FAILURE 0x0005 -+ -+/* Info mailbox format: -+2 bytes: type -+2 bytes: status -+more bytes may follow -+ rumors say about status: -+ 0x0000 info available (set by hw) -+ 0x0001 information received (must be set by host) -+ 0x1000 info available, mailbox overflowed (messages lost) (set by hw) -+ but in practice we've seen: -+ 0x9000 when we did not set status to 0x0001 on prev message -+ 0x1001 when we did set it -+ 0x0000 was never seen -+ conclusion: this is really a bitfield: -+ 0x1000 is 'info available' bit -+ 'mailbox overflowed' bit is 0x8000, not 0x1000 -+ value of 0x0000 probably means that there are no messages at all -+ P.S. I dunno how in hell hw is supposed to notice that messages are lost - -+ it does NOT clear bit 0x0001, and this bit will probably stay forever set -+ after we set it once. Let's hope this will be fixed in firmware someday -+*/ -+ -+static void -+handle_info_irq(acx_device_t *adev) -+{ -+#if ACX_DEBUG -+ static const char * const info_type_msg[] = { -+ "(unknown)", -+ "scan complete", -+ "WEP key not found", -+ "internal watchdog reset was done", -+ "failed to send powersave (NULL frame) notification to AP", -+ "encrypt/decrypt on a packet has failed", -+ "TKIP tx keys disabled", -+ "TKIP rx keys disabled", -+ "TKIP rx: key ID not found", -+ "???", -+ "???", -+ "???", -+ "???", -+ "???", -+ "???", -+ "???", -+ "TKIP IV value exceeds thresh" -+ }; -+#endif -+ u32 info_type, info_status; -+ -+ info_type = read_slavemem32 (adev, (u32) adev->info_area); -+ -+ info_status = (info_type >> 16); -+ info_type = (u16)info_type; -+ -+ /* inform fw that we have read this info message */ -+ write_slavemem32(adev, (u32) adev->info_area, info_type | 0x00010000); -+ write_reg16(adev, IO_ACX_INT_TRIG, INT_TRIG_INFOACK); -+ write_flush(adev); -+ -+ log(L_CTL, "info_type:%04X info_status:%04X\n", -+ info_type, info_status); -+ -+ log(L_IRQ, "got Info IRQ: status %04X type %04X: %s\n", -+ info_status, info_type, -+ info_type_msg[(info_type >= VEC_SIZE(info_type_msg)) ? -+ 0 : info_type] -+ ); -+} -+ -+ -+static void -+log_unusual_irq(u16 irqtype) { -+ /* -+ if (!printk_ratelimit()) -+ return; -+ */ -+ -+ printk("acx: got"); -+ if (irqtype & HOST_INT_TX_XFER) { -+ printk(" Tx_Xfer"); -+ } -+ if (irqtype & HOST_INT_RX_COMPLETE) { -+ printk(" Rx_Complete"); -+ } -+ if (irqtype & HOST_INT_DTIM) { -+ printk(" DTIM"); -+ } -+ if (irqtype & HOST_INT_BEACON) { -+ printk(" Beacon"); -+ } -+ if (irqtype & HOST_INT_TIMER) { -+ log(L_IRQ, " Timer"); -+ } -+ if (irqtype & HOST_INT_KEY_NOT_FOUND) { -+ printk(" Key_Not_Found"); -+ } -+ if (irqtype & HOST_INT_IV_ICV_FAILURE) { -+ printk(" IV_ICV_Failure (crypto)"); -+ } -+ /* HOST_INT_CMD_COMPLETE */ -+ /* HOST_INT_INFO */ -+ if (irqtype & HOST_INT_OVERFLOW) { -+ printk(" Overflow"); -+ } -+ if (irqtype & HOST_INT_PROCESS_ERROR) { -+ printk(" Process_Error"); -+ } -+ /* HOST_INT_SCAN_COMPLETE */ -+ if (irqtype & HOST_INT_FCS_THRESHOLD) { -+ printk(" FCS_Threshold"); -+ } -+ if (irqtype & HOST_INT_UNKNOWN) { -+ printk(" Unknown"); -+ } -+ printk(" IRQ(s)\n"); -+} -+ -+ -+static void -+update_link_quality_led(acx_device_t *adev) -+{ -+ int qual; -+ -+ qual = acx_signal_determine_quality(adev->wstats.qual.level, adev->wstats.qual.noise); -+ if (qual > adev->brange_max_quality) -+ qual = adev->brange_max_quality; -+ -+ if (time_after(jiffies, adev->brange_time_last_state_change + -+ (HZ/2 - HZ/2 * (unsigned long)qual / adev->brange_max_quality ) )) { -+ acxmem_l_power_led(adev, (adev->brange_last_state == 0)); -+ adev->brange_last_state ^= 1; /* toggle */ -+ adev->brange_time_last_state_change = jiffies; -+ } -+} -+ -+ -+#define MAX_IRQLOOPS_PER_JIFFY (20000/HZ) /* a la orinoco.c */ -+ -+static irqreturn_t -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19) -+acxmem_i_interrupt(int irq, void *dev_id) -+#else -+acxmwm_i_interrupt(int irq, void *dev_id, struct pt_regs *regs) -+#endif -+{ -+ acx_device_t *adev; -+ unsigned long flags; -+ unsigned int irqcount = MAX_IRQLOOPS_PER_JIFFY; -+ register u16 irqtype; -+ u16 unmasked; -+ -+ adev = ndev2adev((struct net_device*)dev_id); -+ -+ /* LOCKING: can just spin_lock() since IRQs are disabled anyway. -+ * I am paranoid */ -+ acx_lock(adev, flags); -+ -+ unmasked = read_reg16(adev, IO_ACX_IRQ_STATUS_CLEAR); -+ if (unlikely(0xffff == unmasked)) { -+ /* 0xffff value hints at missing hardware, -+ * so don't do anything. -+ * Not very clean, but other drivers do the same... */ -+ log(L_IRQ, "IRQ type:FFFF - device removed? IRQ_NONE\n"); -+ goto none; -+ } -+ -+ /* We will check only "interesting" IRQ types */ -+ irqtype = unmasked & ~adev->irq_mask; -+ if (!irqtype) { -+ /* We are on a shared IRQ line and it wasn't our IRQ */ -+ log(L_IRQ, "IRQ type:%04X, mask:%04X - all are masked, IRQ_NONE\n", -+ unmasked, adev->irq_mask); -+ goto none; -+ } -+ -+ /* Done here because IRQ_NONEs taking three lines of log -+ ** drive me crazy */ -+ FN_ENTER; -+ -+#define IRQ_ITERATE 1 -+#if IRQ_ITERATE -+if (jiffies != adev->irq_last_jiffies) { -+ adev->irq_loops_this_jiffy = 0; -+ adev->irq_last_jiffies = jiffies; -+} -+ -+/* safety condition; we'll normally abort loop below -+ * in case no IRQ type occurred */ -+while (likely(--irqcount)) { -+#endif -+ /* ACK all IRQs ASAP */ -+ write_reg16(adev, IO_ACX_IRQ_ACK, 0xffff); -+ -+ log(L_IRQ, "IRQ type:%04X, mask:%04X, type & ~mask:%04X\n", -+ unmasked, adev->irq_mask, irqtype); -+ -+ /* Handle most important IRQ types first */ -+ if (irqtype & HOST_INT_RX_DATA) { -+ log(L_IRQ, "got Rx_Data IRQ\n"); -+ acxmem_l_process_rxdesc(adev); -+ } -+ if (irqtype & HOST_INT_TX_COMPLETE) { -+ log(L_IRQ, "got Tx_Complete IRQ\n"); -+ /* don't clean up on each Tx complete, wait a bit -+ * unless we're going towards full, in which case -+ * we do it immediately, too (otherwise we might lockup -+ * with a full Tx buffer if we go into -+ * acxmem_l_clean_txdesc() at a time when we won't wakeup -+ * the net queue in there for some reason...) */ -+ if (adev->tx_free <= TX_START_CLEAN) { -+#if TX_CLEANUP_IN_SOFTIRQ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_TX_CLEANUP); -+#else -+ acxmem_l_clean_txdesc(adev); -+#endif -+ } -+ } -+ -+ /* Less frequent ones */ -+ if (irqtype & (0 -+ | HOST_INT_CMD_COMPLETE -+ | HOST_INT_INFO -+ | HOST_INT_SCAN_COMPLETE -+ )) { -+ if (irqtype & HOST_INT_CMD_COMPLETE) { -+ log(L_IRQ, "got Command_Complete IRQ\n"); -+ /* save the state for the running issue_cmd() */ -+ SET_BIT(adev->irq_status, HOST_INT_CMD_COMPLETE); -+ } -+ if (irqtype & HOST_INT_INFO) { -+ handle_info_irq(adev); -+ } -+ if (irqtype & HOST_INT_SCAN_COMPLETE) { -+ log(L_IRQ, "got Scan_Complete IRQ\n"); -+ /* need to do that in process context */ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_COMPLETE_SCAN); -+ /* remember that fw is not scanning anymore */ -+ SET_BIT(adev->irq_status, HOST_INT_SCAN_COMPLETE); -+ } -+ } -+ -+ /* These we just log, but either they happen rarely -+ * or we keep them masked out */ -+ if (irqtype & (0 -+ /* | HOST_INT_RX_DATA */ -+ /* | HOST_INT_TX_COMPLETE */ -+ | HOST_INT_TX_XFER -+ | HOST_INT_RX_COMPLETE -+ | HOST_INT_DTIM -+ | HOST_INT_BEACON -+ | HOST_INT_TIMER -+ | HOST_INT_KEY_NOT_FOUND -+ | HOST_INT_IV_ICV_FAILURE -+ /* | HOST_INT_CMD_COMPLETE */ -+ /* | HOST_INT_INFO */ -+ | HOST_INT_OVERFLOW -+ | HOST_INT_PROCESS_ERROR -+ /* | HOST_INT_SCAN_COMPLETE */ -+ | HOST_INT_FCS_THRESHOLD -+ | HOST_INT_UNKNOWN -+ )) { -+ log_unusual_irq(irqtype); -+ } -+ -+#if IRQ_ITERATE -+ unmasked = read_reg16(adev, IO_ACX_IRQ_STATUS_CLEAR); -+ irqtype = unmasked & ~adev->irq_mask; -+ /* Bail out if no new IRQ bits or if all are masked out */ -+ if (!irqtype) -+ break; -+ -+ if (unlikely(++adev->irq_loops_this_jiffy > MAX_IRQLOOPS_PER_JIFFY)) { -+ printk(KERN_ERR "acx: too many interrupts per jiffy!\n"); -+ /* Looks like card floods us with IRQs! Try to stop that */ -+ write_reg16(adev, IO_ACX_IRQ_MASK, 0xffff); -+ /* This will short-circuit all future attempts to handle IRQ. -+ * We cant do much more... */ -+ adev->irq_mask = 0; -+ break; -+ } -+} -+#endif -+ /* Routine to perform blink with range */ -+ if (unlikely(adev->led_power == 2)) -+ update_link_quality_led(adev); -+ -+/* handled: */ -+ /* write_flush(adev); - not needed, last op was read anyway */ -+ acx_unlock(adev, flags); -+ FN_EXIT0; -+ return IRQ_HANDLED; -+ -+none: -+ acx_unlock(adev, flags); -+ return IRQ_NONE; -+} -+ -+ -+/*********************************************************************** -+** acxmem_l_power_led -+*/ -+void -+acxmem_l_power_led(acx_device_t *adev, int enable) -+{ -+ u16 gpio_pled = IS_ACX111(adev) ? 0x0040 : 0x0800; -+ -+ /* A hack. Not moving message rate limiting to adev->xxx -+ * (it's only a debug message after all) */ -+ static int rate_limit = 0; -+ -+ if (rate_limit++ < 3) -+ log(L_IOCTL, "Please report in case toggling the power " -+ "LED doesn't work for your card!\n"); -+ if (enable) -+ write_reg16(adev, IO_ACX_GPIO_OUT, -+ read_reg16(adev, IO_ACX_GPIO_OUT) & ~gpio_pled); -+ else -+ write_reg16(adev, IO_ACX_GPIO_OUT, -+ read_reg16(adev, IO_ACX_GPIO_OUT) | gpio_pled); -+} -+ -+ -+/*********************************************************************** -+** Ioctls -+*/ -+ -+/*********************************************************************** -+*/ -+int -+acx111pci_ioctl_info( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ struct iw_param *vwrq, -+ char *extra) -+{ -+#if ACX_DEBUG > 1 -+ acx_device_t *adev = ndev2adev(ndev); -+ rxdesc_t *rxdesc; -+ txdesc_t *txdesc; -+ rxhostdesc_t *rxhostdesc; -+ txhostdesc_t *txhostdesc; -+ struct acx111_ie_memoryconfig memconf; -+ struct acx111_ie_queueconfig queueconf; -+ unsigned long flags; -+ int i; -+ char memmap[0x34]; -+ char rxconfig[0x8]; -+ char fcserror[0x8]; -+ char ratefallback[0x5]; -+ -+ if ( !(acx_debug & (L_IOCTL|L_DEBUG)) ) -+ return OK; -+ /* using printk() since we checked debug flag already */ -+ -+ acx_sem_lock(adev); -+ -+ if (!IS_ACX111(adev)) { -+ printk("acx111-specific function called " -+ "with non-acx111 chip, aborting\n"); -+ goto end_ok; -+ } -+ -+ /* get Acx111 Memory Configuration */ -+ memset(&memconf, 0, sizeof(memconf)); -+ /* BTW, fails with 12 (Write only) error code. -+ ** Retained for easy testing of issue_cmd error handling :) */ -+ printk ("Interrogating queue config\n"); -+ acx_s_interrogate(adev, &memconf, ACX1xx_IE_QUEUE_CONFIG); -+ printk ("done with queue config\n"); -+ -+ /* get Acx111 Queue Configuration */ -+ memset(&queueconf, 0, sizeof(queueconf)); -+ printk ("Interrogating mem config options\n"); -+ acx_s_interrogate(adev, &queueconf, ACX1xx_IE_MEMORY_CONFIG_OPTIONS); -+ printk ("done with mem config options\n"); -+ -+ /* get Acx111 Memory Map */ -+ memset(memmap, 0, sizeof(memmap)); -+ printk ("Interrogating mem map\n"); -+ acx_s_interrogate(adev, &memmap, ACX1xx_IE_MEMORY_MAP); -+ printk ("done with mem map\n"); -+ -+ /* get Acx111 Rx Config */ -+ memset(rxconfig, 0, sizeof(rxconfig)); -+ printk ("Interrogating rxconfig\n"); -+ acx_s_interrogate(adev, &rxconfig, ACX1xx_IE_RXCONFIG); -+ printk ("done with queue rxconfig\n"); -+ -+ /* get Acx111 fcs error count */ -+ memset(fcserror, 0, sizeof(fcserror)); -+ printk ("Interrogating fcs err count\n"); -+ acx_s_interrogate(adev, &fcserror, ACX1xx_IE_FCS_ERROR_COUNT); -+ printk ("done with err count\n"); -+ -+ /* get Acx111 rate fallback */ -+ memset(ratefallback, 0, sizeof(ratefallback)); -+ printk ("Interrogating rate fallback\n"); -+ acx_s_interrogate(adev, &ratefallback, ACX1xx_IE_RATE_FALLBACK); -+ printk ("done with rate fallback\n"); -+ -+ /* force occurrence of a beacon interrupt */ -+ /* TODO: comment why is this necessary */ -+ write_reg16(adev, IO_ACX_HINT_TRIG, HOST_INT_BEACON); -+ -+ /* dump Acx111 Mem Configuration */ -+ printk("dump mem config:\n" -+ "data read: %d, struct size: %d\n" -+ "Number of stations: %1X\n" -+ "Memory block size: %1X\n" -+ "tx/rx memory block allocation: %1X\n" -+ "count rx: %X / tx: %X queues\n" -+ "options %1X\n" -+ "fragmentation %1X\n" -+ "Rx Queue 1 Count Descriptors: %X\n" -+ "Rx Queue 1 Host Memory Start: %X\n" -+ "Tx Queue 1 Count Descriptors: %X\n" -+ "Tx Queue 1 Attributes: %X\n", -+ memconf.len, (int) sizeof(memconf), -+ memconf.no_of_stations, -+ memconf.memory_block_size, -+ memconf.tx_rx_memory_block_allocation, -+ memconf.count_rx_queues, memconf.count_tx_queues, -+ memconf.options, -+ memconf.fragmentation, -+ memconf.rx_queue1_count_descs, -+ acx2cpu(memconf.rx_queue1_host_rx_start), -+ memconf.tx_queue1_count_descs, -+ memconf.tx_queue1_attributes); -+ -+ /* dump Acx111 Queue Configuration */ -+ printk("dump queue head:\n" -+ "data read: %d, struct size: %d\n" -+ "tx_memory_block_address (from card): %X\n" -+ "rx_memory_block_address (from card): %X\n" -+ "rx1_queue address (from card): %X\n" -+ "tx1_queue address (from card): %X\n" -+ "tx1_queue attributes (from card): %X\n", -+ queueconf.len, (int) sizeof(queueconf), -+ queueconf.tx_memory_block_address, -+ queueconf.rx_memory_block_address, -+ queueconf.rx1_queue_address, -+ queueconf.tx1_queue_address, -+ queueconf.tx1_attributes); -+ -+ /* dump Acx111 Mem Map */ -+ printk("dump mem map:\n" -+ "data read: %d, struct size: %d\n" -+ "Code start: %X\n" -+ "Code end: %X\n" -+ "WEP default key start: %X\n" -+ "WEP default key end: %X\n" -+ "STA table start: %X\n" -+ "STA table end: %X\n" -+ "Packet template start: %X\n" -+ "Packet template end: %X\n" -+ "Queue memory start: %X\n" -+ "Queue memory end: %X\n" -+ "Packet memory pool start: %X\n" -+ "Packet memory pool end: %X\n" -+ "iobase: %p\n" -+ "iobase2: %p\n", -+ *((u16 *)&memmap[0x02]), (int) sizeof(memmap), -+ *((u32 *)&memmap[0x04]), -+ *((u32 *)&memmap[0x08]), -+ *((u32 *)&memmap[0x0C]), -+ *((u32 *)&memmap[0x10]), -+ *((u32 *)&memmap[0x14]), -+ *((u32 *)&memmap[0x18]), -+ *((u32 *)&memmap[0x1C]), -+ *((u32 *)&memmap[0x20]), -+ *((u32 *)&memmap[0x24]), -+ *((u32 *)&memmap[0x28]), -+ *((u32 *)&memmap[0x2C]), -+ *((u32 *)&memmap[0x30]), -+ adev->iobase, -+ adev->iobase2); -+ -+ /* dump Acx111 Rx Config */ -+ printk("dump rx config:\n" -+ "data read: %d, struct size: %d\n" -+ "rx config: %X\n" -+ "rx filter config: %X\n", -+ *((u16 *)&rxconfig[0x02]), (int) sizeof(rxconfig), -+ *((u16 *)&rxconfig[0x04]), -+ *((u16 *)&rxconfig[0x06])); -+ -+ /* dump Acx111 fcs error */ -+ printk("dump fcserror:\n" -+ "data read: %d, struct size: %d\n" -+ "fcserrors: %X\n", -+ *((u16 *)&fcserror[0x02]), (int) sizeof(fcserror), -+ *((u32 *)&fcserror[0x04])); -+ -+ /* dump Acx111 rate fallback */ -+ printk("dump rate fallback:\n" -+ "data read: %d, struct size: %d\n" -+ "ratefallback: %X\n", -+ *((u16 *)&ratefallback[0x02]), (int) sizeof(ratefallback), -+ *((u8 *)&ratefallback[0x04])); -+ -+ /* protect against IRQ */ -+ acx_lock(adev, flags); -+ -+ /* dump acx111 internal rx descriptor ring buffer */ -+ rxdesc = adev->rxdesc_start; -+ -+ /* loop over complete receive pool */ -+ if (rxdesc) for (i = 0; i < RX_CNT; i++) { -+ printk("\ndump internal rxdesc %d:\n" -+ "mem pos %p\n" -+ "next 0x%X\n" -+ "acx mem pointer (dynamic) 0x%X\n" -+ "CTL (dynamic) 0x%X\n" -+ "Rate (dynamic) 0x%X\n" -+ "RxStatus (dynamic) 0x%X\n" -+ "Mod/Pre (dynamic) 0x%X\n", -+ i, -+ rxdesc, -+ acx2cpu(rxdesc->pNextDesc), -+ acx2cpu(rxdesc->ACXMemPtr), -+ rxdesc->Ctl_8, -+ rxdesc->rate, -+ rxdesc->error, -+ rxdesc->SNR); -+ rxdesc++; -+ } -+ -+ /* dump host rx descriptor ring buffer */ -+ -+ rxhostdesc = adev->rxhostdesc_start; -+ -+ /* loop over complete receive pool */ -+ if (rxhostdesc) for (i = 0; i < RX_CNT; i++) { -+ printk("\ndump host rxdesc %d:\n" -+ "mem pos %p\n" -+ "buffer mem pos 0x%X\n" -+ "buffer mem offset 0x%X\n" -+ "CTL 0x%X\n" -+ "Length 0x%X\n" -+ "next 0x%X\n" -+ "Status 0x%X\n", -+ i, -+ rxhostdesc, -+ acx2cpu(rxhostdesc->data_phy), -+ rxhostdesc->data_offset, -+ le16_to_cpu(rxhostdesc->Ctl_16), -+ le16_to_cpu(rxhostdesc->length), -+ acx2cpu(rxhostdesc->desc_phy_next), -+ rxhostdesc->Status); -+ rxhostdesc++; -+ } -+ -+ /* dump acx111 internal tx descriptor ring buffer */ -+ txdesc = adev->txdesc_start; -+ -+ /* loop over complete transmit pool */ -+ if (txdesc) for (i = 0; i < TX_CNT; i++) { -+ printk("\ndump internal txdesc %d:\n" -+ "size 0x%X\n" -+ "mem pos %p\n" -+ "next 0x%X\n" -+ "acx mem pointer (dynamic) 0x%X\n" -+ "host mem pointer (dynamic) 0x%X\n" -+ "length (dynamic) 0x%X\n" -+ "CTL (dynamic) 0x%X\n" -+ "CTL2 (dynamic) 0x%X\n" -+ "Status (dynamic) 0x%X\n" -+ "Rate (dynamic) 0x%X\n", -+ i, -+ (int) sizeof(struct txdesc), -+ txdesc, -+ acx2cpu(txdesc->pNextDesc), -+ acx2cpu(txdesc->AcxMemPtr), -+ acx2cpu(txdesc->HostMemPtr), -+ le16_to_cpu(txdesc->total_length), -+ txdesc->Ctl_8, -+ txdesc->Ctl2_8, txdesc->error, -+ txdesc->u.r1.rate); -+ txdesc = advance_txdesc(adev, txdesc, 1); -+ } -+ -+ /* dump host tx descriptor ring buffer */ -+ -+ txhostdesc = adev->txhostdesc_start; -+ -+ /* loop over complete host send pool */ -+ if (txhostdesc) for (i = 0; i < TX_CNT * 2; i++) { -+ printk("\ndump host txdesc %d:\n" -+ "mem pos %p\n" -+ "buffer mem pos 0x%X\n" -+ "buffer mem offset 0x%X\n" -+ "CTL 0x%X\n" -+ "Length 0x%X\n" -+ "next 0x%X\n" -+ "Status 0x%X\n", -+ i, -+ txhostdesc, -+ acx2cpu(txhostdesc->data_phy), -+ txhostdesc->data_offset, -+ le16_to_cpu(txhostdesc->Ctl_16), -+ le16_to_cpu(txhostdesc->length), -+ acx2cpu(txhostdesc->desc_phy_next), -+ le32_to_cpu(txhostdesc->Status)); -+ txhostdesc++; -+ } -+ -+ /* write_reg16(adev, 0xb4, 0x4); */ -+ -+ acx_unlock(adev, flags); -+end_ok: -+ -+ acx_sem_unlock(adev); -+#endif /* ACX_DEBUG */ -+ return OK; -+} -+ -+ -+/*********************************************************************** -+*/ -+int -+acx100mem_ioctl_set_phy_amp_bias( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ struct iw_param *vwrq, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ u16 gpio_old; -+ -+ if (!IS_ACX100(adev)) { -+ /* WARNING!!! -+ * Removing this check *might* damage -+ * hardware, since we're tweaking GPIOs here after all!!! -+ * You've been warned... -+ * WARNING!!! */ -+ printk("acx: sorry, setting bias level for non-acx100 " -+ "is not supported yet\n"); -+ return OK; -+ } -+ -+ if (*extra > 7) { -+ printk("acx: invalid bias parameter, range is 0-7\n"); -+ return -EINVAL; -+ } -+ -+ acx_sem_lock(adev); -+ -+ /* Need to lock accesses to [IO_ACX_GPIO_OUT]: -+ * IRQ handler uses it to update LED */ -+ acx_lock(adev, flags); -+ gpio_old = read_reg16(adev, IO_ACX_GPIO_OUT); -+ write_reg16(adev, IO_ACX_GPIO_OUT, (gpio_old & 0xf8ff) | ((u16)*extra << 8)); -+ acx_unlock(adev, flags); -+ -+ log(L_DEBUG, "gpio_old: 0x%04X\n", gpio_old); -+ printk("%s: PHY power amplifier bias: old:%d, new:%d\n", -+ ndev->name, -+ (gpio_old & 0x0700) >> 8, (unsigned char)*extra); -+ -+ acx_sem_unlock(adev); -+ -+ return OK; -+} -+ -+/*************************************************************** -+** acxmem_l_alloc_tx -+** Actually returns a txdesc_t* ptr -+** -+** FIXME: in case of fragments, should allocate multiple descrs -+** after figuring out how many we need and whether we still have -+** sufficiently many. -+*/ -+tx_t* -+acxmem_l_alloc_tx(acx_device_t *adev) -+{ -+ struct txdesc *txdesc; -+ unsigned head; -+ u8 ctl8; -+ static int txattempts = 0; -+ -+ FN_ENTER; -+ -+ if (unlikely(!adev->tx_free)) { -+ printk("acx: BUG: no free txdesc left\n"); -+ /* -+ * Probably the ACX ignored a transmit attempt and now there's a packet -+ * sitting in the queue we think should be transmitting but the ACX doesn't -+ * know about. -+ * On the first pass, send the ACX a TxProc interrupt to try moving -+ * things along, and if that doesn't work (ie, we get called again) completely -+ * flush the transmit queue. -+ */ -+ if (txattempts < 10) { -+ txattempts++; -+ printk ("acx: trying to wake up ACX\n"); -+ write_reg16(adev, IO_ACX_INT_TRIG, INT_TRIG_TXPRC); -+ write_flush(adev); } -+ else { -+ txattempts = 0; -+ printk ("acx: flushing transmit queue.\n"); -+ acxmem_l_clean_txdesc_emergency (adev); -+ } -+ txdesc = NULL; -+ goto end; -+ } -+ -+ /* -+ * Make a quick check to see if there is transmit buffer space on -+ * the ACX. This can't guarantee there is enough space for the packet -+ * since we don't yet know how big it is, but it will prevent at least some -+ * annoyances. -+ */ -+ if (!adev->acx_txbuf_blocks_free) { -+ txdesc = NULL; -+ goto end; -+ } -+ -+ head = adev->tx_head; -+ /* -+ * txdesc points to ACX memory -+ */ -+ txdesc = get_txdesc(adev, head); -+ ctl8 = read_slavemem8 (adev, (u32) &(txdesc->Ctl_8)); -+ -+ /* -+ * If we don't own the buffer (HOSTOWN) it is certainly not free; however, -+ * we may have previously thought we had enough memory to send -+ * a packet, allocated the buffer then gave up when we found not enough -+ * transmit buffer space on the ACX. In that case, HOSTOWN and -+ * ACXDONE will both be set. -+ */ -+ if (unlikely(DESC_CTL_HOSTOWN != (ctl8 & DESC_CTL_HOSTOWN))) { -+ /* whoops, descr at current index is not free, so probably -+ * ring buffer already full */ -+ printk("acx: BUG: tx_head:%d Ctl8:0x%02X - failed to find " -+ "free txdesc\n", head, ctl8); -+ txdesc = NULL; -+ goto end; -+ } -+ -+ /* Needed in case txdesc won't be eventually submitted for tx */ -+ write_slavemem8 (adev, (u32) &(txdesc->Ctl_8), DESC_CTL_ACXDONE_HOSTOWN); -+ -+ adev->tx_free--; -+ log(L_BUFT, "tx: got desc %u, %u remain\n", -+ head, adev->tx_free); -+ /* Keep a few free descs between head and tail of tx ring. -+ ** It is not absolutely needed, just feels safer */ -+ if (adev->tx_free < TX_STOP_QUEUE) { -+ log(L_BUF, "stop queue (%u tx desc left)\n", -+ adev->tx_free); -+ acx_stop_queue(adev->ndev, NULL); -+ } -+ -+ /* returning current descriptor, so advance to next free one */ -+ adev->tx_head = (head + 1) % TX_CNT; -+end: -+ FN_EXIT0; -+ -+ return (tx_t*)txdesc; -+} -+ -+ -+/*************************************************************** -+** acxmem_l_dealloc_tx -+** Clears out a previously allocatedvoid acxmem_l_dealloc_tx(tx_t *tx_opaque); -+ transmit descriptor. The ACX -+** can get confused if we skip transmit descriptors in the queue, -+** so when we don't need a descriptor return it to its original -+** state and move the queue head pointer back. -+** -+*/ -+void -+acxmem_l_dealloc_tx(acx_device_t *adev, tx_t *tx_opaque) -+{ -+ /* -+ * txdesc is the address of the descriptor on the ACX. -+ */ -+ txdesc_t *txdesc = (txdesc_t*)tx_opaque; -+ txdesc_t tmptxdesc; -+ int index; -+ -+ memset (&tmptxdesc, 0, sizeof(tmptxdesc)); -+ tmptxdesc.Ctl_8 = DESC_CTL_HOSTOWN | DESC_CTL_FIRSTFRAG; -+ tmptxdesc.u.r1.rate = 0x0a; -+ -+ /* -+ * Clear out all of the transmit descriptor except for the next pointer -+ */ -+ copy_to_slavemem (adev, (u32) &(txdesc->HostMemPtr), -+ (u8 *) &(tmptxdesc.HostMemPtr), -+ sizeof (tmptxdesc) - sizeof(tmptxdesc.pNextDesc)); -+ -+ /* -+ * This is only called immediately after we've allocated, so we should -+ * be able to set the head back to this descriptor. -+ */ -+ index = ((u8*) txdesc - (u8*)adev->txdesc_start) / adev->txdesc_size; -+ printk ("acx_dealloc: moving head from %d to %d\n", adev->tx_head, index); -+ adev->tx_head = index; -+} -+ -+ -+/*********************************************************************** -+*/ -+void* -+acxmem_l_get_txbuf(acx_device_t *adev, tx_t* tx_opaque) -+{ -+ return get_txhostdesc(adev, (txdesc_t*)tx_opaque)->data; -+} -+ -+ -+/*********************************************************************** -+** acxmem_l_tx_data -+** -+** Can be called from IRQ (rx -> (AP bridging or mgmt response) -> tx). -+** Can be called from acx_i_start_xmit (data frames from net core). -+** -+** FIXME: in case of fragments, should loop over the number of -+** pre-allocated tx descrs, properly setting up transfer data and -+** CTL_xxx flags according to fragment number. -+*/ -+void -+acxmem_update_queue_indicator (acx_device_t *adev, int txqueue) -+{ -+#ifdef USING_MORE_THAN_ONE_TRANSMIT_QUEUE -+ u32 indicator; -+ unsigned long flags; -+ int count; -+ -+ /* -+ * Can't handle an interrupt while we're fiddling with the ACX's lock, -+ * according to TI. The ACX is supposed to hold fw_lock for at most -+ * 500ns. -+ */ -+ local_irq_save (flags); -+ -+ /* -+ * Wait for ACX to release the lock (at most 500ns). -+ */ -+ count = 0; -+ while (read_slavemem16 (adev, (u32) &(adev->acx_queue_indicator->fw_lock)) -+ && (count++ < 50)) { -+ ndelay (10); -+ } -+ if (count < 50) { -+ -+ /* -+ * Take out the host lock - anything non-zero will work, so don't worry about -+ * be/le -+ */ -+ write_slavemem16 (adev, (u32) &(adev->acx_queue_indicator->host_lock), 1); -+ -+ /* -+ * Avoid a race condition -+ */ -+ count = 0; -+ while (read_slavemem16 (adev, (u32) &(adev->acx_queue_indicator->fw_lock)) -+ && (count++ < 50)) { -+ ndelay (10); -+ } -+ -+ if (count < 50) { -+ /* -+ * Mark the queue active -+ */ -+ indicator = read_slavemem32 (adev, (u32) &(adev->acx_queue_indicator->indicator)); -+ indicator |= cpu_to_le32 (1 << txqueue); -+ write_slavemem32 (adev, (u32) &(adev->acx_queue_indicator->indicator), indicator); -+ } -+ -+ /* -+ * Release the host lock -+ */ -+ write_slavemem16 (adev, (u32) &(adev->acx_queue_indicator->host_lock), 0); -+ -+ } -+ -+ /* -+ * Restore interrupts -+ */ -+ local_irq_restore (flags); -+#endif -+} -+ -+void -+acxmem_l_tx_data(acx_device_t *adev, tx_t* tx_opaque, int len) -+{ -+ /* -+ * txdesc is the address on the ACX -+ */ -+ txdesc_t *txdesc = (txdesc_t*)tx_opaque; -+ txhostdesc_t *hostdesc1, *hostdesc2; -+ client_t *clt; -+ u16 rate_cur; -+ u8 Ctl_8, Ctl2_8; -+ u32 addr; -+ -+ FN_ENTER; -+ /* fw doesn't tx such packets anyhow */ -+ if (unlikely(len < WLAN_HDR_A3_LEN)) -+ goto end; -+ -+ hostdesc1 = get_txhostdesc(adev, txdesc); -+ /* modify flag status in separate variable to be able to write it back -+ * in one big swoop later (also in order to have less device memory -+ * accesses) */ -+ Ctl_8 = read_slavemem8 (adev, (u32) &(txdesc->Ctl_8)); -+ Ctl2_8 = 0; /* really need to init it to 0, not txdesc->Ctl2_8, it seems */ -+ -+ hostdesc2 = hostdesc1 + 1; -+ -+ /* DON'T simply set Ctl field to 0 here globally, -+ * it needs to maintain a consistent flag status (those are state flags!!), -+ * otherwise it may lead to severe disruption. Only set or reset particular -+ * flags at the exact moment this is needed... */ -+ -+ /* let chip do RTS/CTS handshaking before sending -+ * in case packet size exceeds threshold */ -+ if (len > adev->rts_threshold) -+ SET_BIT(Ctl2_8, DESC_CTL2_RTS); -+ else -+ CLEAR_BIT(Ctl2_8, DESC_CTL2_RTS); -+ -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_3_AP: -+ clt = acx_l_sta_list_get(adev, ((wlan_hdr_t*)hostdesc1->data)->a1); -+ break; -+ case ACX_MODE_2_STA: -+ clt = adev->ap_client; -+ break; -+#if 0 -+/* testing was done on acx111: */ -+ case ACX_MODE_MONITOR: -+ SET_BIT(Ctl2_8, 0 -+/* sends CTS to self before packet */ -+ + DESC_CTL2_SEQ /* don't increase sequence field */ -+/* not working (looks like good fcs is still added) */ -+ + DESC_CTL2_FCS /* don't add the FCS */ -+/* not tested */ -+ + DESC_CTL2_MORE_FRAG -+/* not tested */ -+ + DESC_CTL2_RETRY /* don't increase retry field */ -+/* not tested */ -+ + DESC_CTL2_POWER /* don't increase power mgmt. field */ -+/* no effect */ -+ + DESC_CTL2_WEP /* encrypt this frame */ -+/* not tested */ -+ + DESC_CTL2_DUR /* don't increase duration field */ -+ ); -+ /* fallthrough */ -+#endif -+ default: /* ACX_MODE_OFF, ACX_MODE_MONITOR */ -+ clt = NULL; -+ break; -+ } -+ -+ rate_cur = clt ? clt->rate_cur : adev->rate_bcast; -+ if (unlikely(!rate_cur)) { -+ printk("acx: driver bug! bad ratemask\n"); -+ goto end; -+ } -+ -+ /* used in tx cleanup routine for auto rate and accounting: */ -+ put_txcr(adev, txdesc, clt, rate_cur); -+ -+ write_slavemem16 (adev, (u32) &(txdesc->total_length), cpu_to_le16(len)); -+ hostdesc2->length = cpu_to_le16(len - WLAN_HDR_A3_LEN); -+ if (IS_ACX111(adev)) { -+ /* note that if !txdesc->do_auto, txrate->cur -+ ** has only one nonzero bit */ -+ txdesc->u.r2.rate111 = cpu_to_le16( -+ rate_cur -+ /* WARNING: I was never able to make it work with prism54 AP. -+ ** It was falling down to 1Mbit where shortpre is not applicable, -+ ** and not working at all at "5,11 basic rates only" setting. -+ ** I even didn't see tx packets in radio packet capture. -+ ** Disabled for now --vda */ -+ /*| ((clt->shortpre && clt->cur!=RATE111_1) ? RATE111_SHORTPRE : 0) */ -+ ); -+#ifdef TODO_FIGURE_OUT_WHEN_TO_SET_THIS -+ /* should add this to rate111 above as necessary */ -+ | (clt->pbcc511 ? RATE111_PBCC511 : 0) -+#endif -+ hostdesc1->length = cpu_to_le16(len); -+ } else { /* ACX100 */ -+ u8 rate_100 = clt ? clt->rate_100 : adev->rate_bcast100; -+ write_slavemem8 (adev, (u32) &(txdesc->u.r1.rate), rate_100); -+#ifdef TODO_FIGURE_OUT_WHEN_TO_SET_THIS -+ if (clt->pbcc511) { -+ if (n == RATE100_5 || n == RATE100_11) -+ n |= RATE100_PBCC511; -+ } -+ -+ if (clt->shortpre && (clt->cur != RATE111_1)) -+ SET_BIT(Ctl_8, DESC_CTL_SHORT_PREAMBLE); /* set Short Preamble */ -+#endif -+ /* set autodma and reclaim and 1st mpdu */ -+ SET_BIT(Ctl_8, DESC_CTL_FIRSTFRAG); -+ -+#if ACX_FRAGMENTATION -+ /* SET_BIT(Ctl2_8, DESC_CTL2_MORE_FRAG); cannot set it unconditionally, needs to be set for all non-last fragments */ -+#endif -+ hostdesc1->length = cpu_to_le16(WLAN_HDR_A3_LEN); -+ -+ /* -+ * Since we're not using autodma copy the packet data to the acx now. -+ * Even host descriptors point to the packet header, and the odd indexed -+ * descriptor following points to the packet data. -+ * -+ * The first step is to find free memory in the ACX transmit buffers. -+ * They don't necessarily map one to one with the transmit queue entries, -+ * so search through them starting just after the last one used. -+ */ -+ addr = allocate_acx_txbuf_space (adev, len); -+ if (addr) { -+ chaincopy_to_slavemem (adev, addr, hostdesc1->data, len); -+ } -+ else { -+ /* -+ * Bummer. We thought we might have enough room in the transmit -+ * buffers to send this packet, but it turns out we don't. alloc_tx -+ * has already marked this transmit descriptor as HOSTOWN and ACXDONE, -+ * which means the ACX will hang when it gets to this descriptor unless -+ * we do something about it. Having a bubble in the transmit queue just -+ * doesn't seem to work, so we have to reset this transmit queue entry's -+ * state to its original value and back up our head pointer to point -+ * back to this entry. -+ */ -+ hostdesc1->length = 0; -+ hostdesc2->length = 0; -+ write_slavemem16 (adev, (u32) &(txdesc->total_length), 0); -+ write_slavemem8 (adev, (u32) &(txdesc->Ctl_8), DESC_CTL_HOSTOWN | DESC_CTL_FIRSTFRAG); -+ adev->tx_head = ((u8*) txdesc - (u8*) adev->txdesc_start) / adev->txdesc_size; -+ goto end; -+ } -+ /* -+ * Tell the ACX where the packet is. -+ */ -+ write_slavemem32 (adev, (u32) &(txdesc->AcxMemPtr), addr); -+ -+ } -+ /* don't need to clean ack/rts statistics here, already -+ * done on descr cleanup */ -+ -+ /* clears HOSTOWN and ACXDONE bits, thus telling that the descriptors -+ * are now owned by the acx100; do this as LAST operation */ -+ CLEAR_BIT(Ctl_8, DESC_CTL_ACXDONE_HOSTOWN); -+ /* flush writes before we release hostdesc to the adapter here */ -+ //wmb(); -+ -+ /* write back modified flags */ -+ /* -+ * At this point Ctl_8 should just be FIRSTFRAG -+ */ -+ write_slavemem8 (adev, (u32) &(txdesc->Ctl2_8),Ctl2_8); -+ write_slavemem8 (adev, (u32) &(txdesc->Ctl_8), Ctl_8); -+ /* unused: txdesc->tx_time = cpu_to_le32(jiffies); */ -+ -+ /* -+ * Update the queue indicator to say there's data on the first queue. -+ */ -+ acxmem_update_queue_indicator (adev, 0); -+ -+ /* flush writes before we tell the adapter that it's its turn now */ -+ mmiowb(); -+ write_reg16(adev, IO_ACX_INT_TRIG, INT_TRIG_TXPRC); -+ write_flush(adev); -+ -+ /* log the packet content AFTER sending it, -+ * in order to not delay sending any further than absolutely needed -+ * Do separate logs for acx100/111 to have human-readable rates */ -+ if (unlikely(acx_debug & (L_XFER|L_DATA))) { -+ u16 fc = ((wlan_hdr_t*)hostdesc1->data)->fc; -+ if (IS_ACX111(adev)) -+ printk("tx: pkt (%s): len %d " -+ "rate %04X%s status %u\n", -+ acx_get_packet_type_string(le16_to_cpu(fc)), len, -+ le16_to_cpu(txdesc->u.r2.rate111), -+ (le16_to_cpu(txdesc->u.r2.rate111) & RATE111_SHORTPRE) ? "(SPr)" : "", -+ adev->status); -+ else -+ printk("tx: pkt (%s): len %d rate %03u%s status %u\n", -+ acx_get_packet_type_string(fc), len, -+ read_slavemem8 (adev, (u32) &(txdesc->u.r1.rate)), -+ (Ctl_8 & DESC_CTL_SHORT_PREAMBLE) ? "(SPr)" : "", -+ adev->status); -+ -+ if (acx_debug & L_DATA) { -+ printk("tx: 802.11 [%d]: ", len); -+ acx_dump_bytes(hostdesc1->data, len); -+ } -+ } -+end: -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_l_clean_txdesc -+** -+** This function resets the txdescs' status when the ACX100 -+** signals the TX done IRQ (txdescs have been processed), starting with -+** the pool index of the descriptor which we would use next, -+** in order to make sure that we can be as fast as possible -+** in filling new txdescs. -+** Everytime we get called we know where the next packet to be cleaned is. -+*/ -+ -+#if !ACX_DEBUG -+static inline void log_txbuffer(const acx_device_t *adev) {} -+#else -+static void -+log_txbuffer(acx_device_t *adev) -+{ -+ txdesc_t *txdesc; -+ int i; -+ u8 Ctl_8; -+ -+ /* no FN_ENTER here, we don't want that */ -+ /* no locks here, since it's entirely non-critical code */ -+ txdesc = adev->txdesc_start; -+ if (unlikely(!txdesc)) return; -+ printk("tx: desc->Ctl8's:"); -+ for (i = 0; i < TX_CNT; i++) { -+ Ctl_8 = read_slavemem8 (adev, (u32) &(txdesc->Ctl_8)); -+ printk(" %02X", Ctl_8); -+ txdesc = advance_txdesc(adev, txdesc, 1); -+ } -+ printk("\n"); -+} -+#endif -+ -+ -+static void -+handle_tx_error(acx_device_t *adev, u8 error, unsigned int finger) -+{ -+ const char *err = "unknown error"; -+ -+ /* hmm, should we handle this as a mask -+ * of *several* bits? -+ * For now I think only caring about -+ * individual bits is ok... */ -+ switch (error) { -+ case 0x01: -+ err = "no Tx due to error in other fragment"; -+ adev->wstats.discard.fragment++; -+ break; -+ case 0x02: -+ err = "Tx aborted"; -+ adev->stats.tx_aborted_errors++; -+ break; -+ case 0x04: -+ err = "Tx desc wrong parameters"; -+ adev->wstats.discard.misc++; -+ break; -+ case 0x08: -+ err = "WEP key not found"; -+ adev->wstats.discard.misc++; -+ break; -+ case 0x10: -+ err = "MSDU lifetime timeout? - try changing " -+ "'iwconfig retry lifetime XXX'"; -+ adev->wstats.discard.misc++; -+ break; -+ case 0x20: -+ err = "excessive Tx retries due to either distance " -+ "too high or unable to Tx or Tx frame error - " -+ "try changing 'iwconfig txpower XXX' or " -+ "'sens'itivity or 'retry'"; -+ adev->wstats.discard.retries++; -+ /* Tx error 0x20 also seems to occur on -+ * overheating, so I'm not sure whether we -+ * actually want to do aggressive radio recalibration, -+ * since people maybe won't notice then that their hardware -+ * is slowly getting cooked... -+ * Or is it still a safe long distance from utter -+ * radio non-functionality despite many radio recalibs -+ * to final destructive overheating of the hardware? -+ * In this case we really should do recalib here... -+ * I guess the only way to find out is to do a -+ * potentially fatal self-experiment :-\ -+ * Or maybe only recalib in case we're using Tx -+ * rate auto (on errors switching to lower speed -+ * --> less heat?) or 802.11 power save mode? -+ * -+ * ok, just do it. */ -+ if (++adev->retry_errors_msg_ratelimit % 4 == 0) { -+ if (adev->retry_errors_msg_ratelimit <= 20) { -+ printk("%s: several excessive Tx " -+ "retry errors occurred, attempting " -+ "to recalibrate radio. Radio " -+ "drift might be caused by increasing " -+ "card temperature, please check the card " -+ "before it's too late!\n", -+ adev->ndev->name); -+ if (adev->retry_errors_msg_ratelimit == 20) -+ printk("disabling above message\n"); -+ } -+ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_CMD_RADIO_RECALIB); -+ } -+ break; -+ case 0x40: -+ err = "Tx buffer overflow"; -+ adev->stats.tx_fifo_errors++; -+ break; -+ case 0x80: -+ err = "DMA error"; -+ adev->wstats.discard.misc++; -+ break; -+ } -+ adev->stats.tx_errors++; -+ if (adev->stats.tx_errors <= 20) -+ printk("%s: tx error 0x%02X, buf %02u! (%s)\n", -+ adev->ndev->name, error, finger, err); -+ else -+ printk("%s: tx error 0x%02X, buf %02u!\n", -+ adev->ndev->name, error, finger); -+} -+ -+ -+unsigned int -+acxmem_l_clean_txdesc(acx_device_t *adev) -+{ -+ txdesc_t *txdesc; -+ unsigned finger; -+ int num_cleaned; -+ u16 r111; -+ u8 error, ack_failures, rts_failures, rts_ok, r100, Ctl_8; -+ u32 acxmem; -+ txdesc_t tmptxdesc; -+ -+ FN_ENTER; -+ -+ /* -+ * Set up a template descriptor for re-initialization. The only -+ * things that get set are Ctl_8 and the rate, and the rate defaults -+ * to 1Mbps. -+ */ -+ memset (&tmptxdesc, 0, sizeof (tmptxdesc)); -+ tmptxdesc.Ctl_8 = DESC_CTL_HOSTOWN | DESC_CTL_FIRSTFRAG; -+ tmptxdesc.u.r1.rate = 0x0a; -+ -+ if (unlikely(acx_debug & L_DEBUG)) -+ log_txbuffer(adev); -+ -+ log(L_BUFT, "tx: cleaning up bufs from %u\n", adev->tx_tail); -+ -+ /* We know first descr which is not free yet. We advance it as far -+ ** as we see correct bits set in following descs (if next desc -+ ** is NOT free, we shouldn't advance at all). We know that in -+ ** front of tx_tail may be "holes" with isolated free descs. -+ ** We will catch up when all intermediate descs will be freed also */ -+ -+ finger = adev->tx_tail; -+ num_cleaned = 0; -+ while (likely(finger != adev->tx_head)) { -+ txdesc = get_txdesc(adev, finger); -+ -+ /* If we allocated txdesc on tx path but then decided -+ ** to NOT use it, then it will be left as a free "bubble" -+ ** in the "allocated for tx" part of the ring. -+ ** We may meet it on the next ring pass here. */ -+ -+ /* stop if not marked as "tx finished" and "host owned" */ -+ Ctl_8 = read_slavemem8 (adev, (u32) &(txdesc->Ctl_8)); -+ if ((Ctl_8 & DESC_CTL_ACXDONE_HOSTOWN) -+ != DESC_CTL_ACXDONE_HOSTOWN) { -+ if (unlikely(!num_cleaned)) { /* maybe remove completely */ -+ log(L_BUFT, "clean_txdesc: tail isn't free. " -+ "tail:%d head:%d\n", -+ adev->tx_tail, adev->tx_head); -+ } -+ break; -+ } -+ -+ /* remember desc values... */ -+ error = read_slavemem8 (adev, (u32) &(txdesc->error)); -+ ack_failures = read_slavemem8 (adev, (u32) &(txdesc->ack_failures)); -+ rts_failures = read_slavemem8 (adev, (u32) &(txdesc->u.rts.rts_failures)); -+ rts_ok = read_slavemem8 (adev, (u32) &(txdesc->u.rts.rts_ok)); -+ r100 = read_slavemem8 (adev, (u32) &(txdesc->u.r1.rate)); -+ r111 = le16_to_cpu(read_slavemem16 (adev, (u32) &(txdesc->u.r2.rate111))); -+ -+ /* need to check for certain error conditions before we -+ * clean the descriptor: we still need valid descr data here */ -+ if (unlikely(0x30 & error)) { -+ /* only send IWEVTXDROP in case of retry or lifetime exceeded; -+ * all other errors mean we screwed up locally */ -+ union iwreq_data wrqu; -+ wlan_hdr_t *hdr; -+ txhostdesc_t *hostdesc; -+ -+ hostdesc = get_txhostdesc(adev, txdesc); -+ hdr = (wlan_hdr_t *)hostdesc->data; -+ MAC_COPY(wrqu.addr.sa_data, hdr->a1); -+ wireless_send_event(adev->ndev, IWEVTXDROP, &wrqu, NULL); -+ } -+ -+ /* -+ * Free up the transmit data buffers -+ */ -+ acxmem = read_slavemem32 (adev, (u32) &(txdesc->AcxMemPtr)); -+ if (acxmem) { -+ reclaim_acx_txbuf_space (adev, acxmem); -+ } -+ -+ /* ...and free the desc by clearing all the fields -+ except the next pointer */ -+ copy_to_slavemem (adev, -+ (u32) &(txdesc->HostMemPtr), -+ (u8 *) &(tmptxdesc.HostMemPtr), -+ sizeof (tmptxdesc) - sizeof(tmptxdesc.pNextDesc) -+ ); -+ -+ adev->tx_free++; -+ num_cleaned++; -+ -+ if ((adev->tx_free >= TX_START_QUEUE) -+ && (adev->status == ACX_STATUS_4_ASSOCIATED) -+ && (acx_queue_stopped(adev->ndev)) -+ ) { -+ log(L_BUF, "tx: wake queue (avail. Tx desc %u)\n", -+ adev->tx_free); -+ acx_wake_queue(adev->ndev, NULL); -+ } -+ -+ /* do error checking, rate handling and logging -+ * AFTER having done the work, it's faster */ -+ -+ /* do rate handling */ -+ if (adev->rate_auto) { -+ struct client *clt = get_txc(adev, txdesc); -+ if (clt) { -+ u16 cur = get_txr(adev, txdesc); -+ if (clt->rate_cur == cur) { -+ acx_l_handle_txrate_auto(adev, clt, -+ cur, /* intended rate */ -+ r100, r111, /* actually used rate */ -+ (error & 0x30), /* was there an error? */ -+ TX_CNT + TX_CLEAN_BACKLOG - adev->tx_free); -+ } -+ } -+ } -+ -+ if (unlikely(error)) -+ handle_tx_error(adev, error, finger); -+ -+ if (IS_ACX111(adev)) -+ log(L_BUFT, "tx: cleaned %u: !ACK=%u !RTS=%u RTS=%u r111=%04X\n", -+ finger, ack_failures, rts_failures, rts_ok, r111); -+ else -+ log(L_BUFT, "tx: cleaned %u: !ACK=%u !RTS=%u RTS=%u rate=%u\n", -+ finger, ack_failures, rts_failures, rts_ok, r100); -+ -+ /* update pointer for descr to be cleaned next */ -+ finger = (finger + 1) % TX_CNT; -+ } -+ -+ /* remember last position */ -+ adev->tx_tail = finger; -+/* end: */ -+ FN_EXIT1(num_cleaned); -+ return num_cleaned; -+} -+ -+/* clean *all* Tx descriptors, and regardless of their previous state. -+ * Used for brute-force reset handling. */ -+void -+acxmem_l_clean_txdesc_emergency(acx_device_t *adev) -+{ -+ txdesc_t *txdesc; -+ int i; -+ u32 acxmem; -+ -+ FN_ENTER; -+ -+ for (i = 0; i < TX_CNT; i++) { -+ txdesc = get_txdesc(adev, i); -+ -+ /* free it */ -+ write_slavemem8 (adev, (u32) &(txdesc->ack_failures), 0); -+ write_slavemem8 (adev, (u32) &(txdesc->u.rts.rts_failures), 0); -+ write_slavemem8 (adev, (u32) &(txdesc->u.rts.rts_ok), 0); -+ write_slavemem8 (adev, (u32) &(txdesc->error), 0); -+ write_slavemem8 (adev, (u32) &(txdesc->Ctl_8), DESC_CTL_HOSTOWN); -+ -+ /* -+ * Clean up the memory allocated on the ACX for this transmit descriptor. -+ */ -+ acxmem = read_slavemem32 (adev, (u32) &(txdesc->AcxMemPtr)); -+ if (acxmem) { -+ reclaim_acx_txbuf_space (adev, acxmem); -+ } -+ -+ write_slavemem32 (adev, (u32) &(txdesc->AcxMemPtr), 0); -+ } -+ -+ adev->tx_free = TX_CNT; -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_create_tx_host_desc_queue -+*/ -+ -+static void* -+allocate(acx_device_t *adev, size_t size, dma_addr_t *phy, const char *msg) -+{ -+ void *ptr; -+ ptr = kmalloc (size, GFP_KERNEL); -+ /* -+ * The ACX can't use the physical address, so we'll have to fake it -+ * later and it might be handy to have the virtual address. -+ */ -+ *phy = (dma_addr_t) NULL; -+ -+ if (ptr) { -+ log(L_DEBUG, "%s sz=%d adr=0x%p phy=0x%08llx\n", -+ msg, (int)size, ptr, (unsigned long long)*phy); -+ memset(ptr, 0, size); -+ return ptr; -+ } -+ printk(KERN_ERR "acx: %s allocation FAILED (%d bytes)\n", -+ msg, (int)size); -+ return NULL; -+} -+ -+ -+/* -+ * In the generic slave memory access mode, most of the stuff in -+ * the txhostdesc_t is unused. It's only here because the rest of -+ * the ACX driver expects it to be since the PCI version uses indirect -+ * host memory organization with DMA. Since we're not using DMA the -+ * only use we have for the host descriptors is to store the packets -+ * on the way out. -+ */ -+static int -+acxmem_s_create_tx_host_desc_queue(acx_device_t *adev) -+{ -+ txhostdesc_t *hostdesc; -+ u8 *txbuf; -+ int i; -+ -+ FN_ENTER; -+ -+ /* allocate TX buffer */ -+ adev->txbuf_area_size = TX_CNT * WLAN_A4FR_MAXLEN_WEP_FCS; -+ -+ adev->txbuf_start = allocate(adev, adev->txbuf_area_size, -+ &adev->txbuf_startphy, "txbuf_start"); -+ if (!adev->txbuf_start) -+ goto fail; -+ -+ /* allocate the TX host descriptor queue pool */ -+ adev->txhostdesc_area_size = TX_CNT * 2*sizeof(*hostdesc); -+ -+ adev->txhostdesc_start = allocate(adev, adev->txhostdesc_area_size, -+ &adev->txhostdesc_startphy, "txhostdesc_start"); -+ if (!adev->txhostdesc_start) -+ goto fail; -+ -+ /* check for proper alignment of TX host descriptor pool */ -+ if ((long) adev->txhostdesc_start & 3) { -+ printk("acx: driver bug: dma alloc returns unaligned address\n"); -+ goto fail; -+ } -+ -+ hostdesc = adev->txhostdesc_start; -+ txbuf = adev->txbuf_start; -+ -+#if 0 -+/* Each tx buffer is accessed by hardware via -+** txdesc -> txhostdesc(s) -> txbuffer(s). -+** We use only one txhostdesc per txdesc, but it looks like -+** acx111 is buggy: it accesses second txhostdesc -+** (via hostdesc.desc_phy_next field) even if -+** txdesc->length == hostdesc->length and thus -+** entire packet was placed into first txhostdesc. -+** Due to this bug acx111 hangs unless second txhostdesc -+** has le16_to_cpu(hostdesc.length) = 3 (or larger) -+** Storing NULL into hostdesc.desc_phy_next -+** doesn't seem to help. -+** -+** Update: although it worked on Xterasys XN-2522g -+** with len=3 trick, WG311v2 is even more bogus, doesn't work. -+** Keeping this code (#ifdef'ed out) for documentational purposes. -+*/ -+ for (i = 0; i < TX_CNT*2; i++) { -+ hostdesc_phy += sizeof(*hostdesc); -+ if (!(i & 1)) { -+ hostdesc->data_phy = cpu2acx(txbuf_phy); -+ /* hostdesc->data_offset = ... */ -+ /* hostdesc->reserved = ... */ -+ hostdesc->Ctl_16 = cpu_to_le16(DESC_CTL_HOSTOWN); -+ /* hostdesc->length = ... */ -+ hostdesc->desc_phy_next = cpu2acx(hostdesc_phy); -+ hostdesc->pNext = ptr2acx(NULL); -+ /* hostdesc->Status = ... */ -+ /* below: non-hardware fields */ -+ hostdesc->data = txbuf; -+ -+ txbuf += WLAN_A4FR_MAXLEN_WEP_FCS; -+ txbuf_phy += WLAN_A4FR_MAXLEN_WEP_FCS; -+ } else { -+ /* hostdesc->data_phy = ... */ -+ /* hostdesc->data_offset = ... */ -+ /* hostdesc->reserved = ... */ -+ /* hostdesc->Ctl_16 = ... */ -+ hostdesc->length = cpu_to_le16(3); /* bug workaround */ -+ /* hostdesc->desc_phy_next = ... */ -+ /* hostdesc->pNext = ... */ -+ /* hostdesc->Status = ... */ -+ /* below: non-hardware fields */ -+ /* hostdesc->data = ... */ -+ } -+ hostdesc++; -+ } -+#endif -+/* We initialize two hostdescs so that they point to adjacent -+** memory areas. Thus txbuf is really just a contiguous memory area */ -+ for (i = 0; i < TX_CNT*2; i++) { -+ /* ->data is a non-hardware field: */ -+ hostdesc->data = txbuf; -+ -+ if (!(i & 1)) { -+ txbuf += WLAN_HDR_A3_LEN; -+ } else { -+ txbuf += WLAN_A4FR_MAXLEN_WEP_FCS - WLAN_HDR_A3_LEN; -+ } -+ hostdesc++; -+ } -+ hostdesc--; -+ -+ FN_EXIT1(OK); -+ return OK; -+fail: -+ printk("acx: create_tx_host_desc_queue FAILED\n"); -+ /* dealloc will be done by free function on error case */ -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*************************************************************** -+** acxmem_s_create_rx_host_desc_queue -+*/ -+/* the whole size of a data buffer (header plus data body) -+ * plus 32 bytes safety offset at the end */ -+#define RX_BUFFER_SIZE (sizeof(rxbuffer_t) + 32) -+ -+static int -+acxmem_s_create_rx_host_desc_queue(acx_device_t *adev) -+{ -+ rxhostdesc_t *hostdesc; -+ rxbuffer_t *rxbuf; -+ int i; -+ -+ FN_ENTER; -+ -+ /* allocate the RX host descriptor queue pool */ -+ adev->rxhostdesc_area_size = RX_CNT * sizeof(*hostdesc); -+ -+ adev->rxhostdesc_start = allocate(adev, adev->rxhostdesc_area_size, -+ &adev->rxhostdesc_startphy, "rxhostdesc_start"); -+ if (!adev->rxhostdesc_start) -+ goto fail; -+ -+ /* check for proper alignment of RX host descriptor pool */ -+ if ((long) adev->rxhostdesc_start & 3) { -+ printk("acx: driver bug: dma alloc returns unaligned address\n"); -+ goto fail; -+ } -+ -+ /* allocate Rx buffer pool which will be used by the acx -+ * to store the whole content of the received frames in it */ -+ adev->rxbuf_area_size = RX_CNT * RX_BUFFER_SIZE; -+ -+ adev->rxbuf_start = allocate(adev, adev->rxbuf_area_size, -+ &adev->rxbuf_startphy, "rxbuf_start"); -+ if (!adev->rxbuf_start) -+ goto fail; -+ -+ rxbuf = adev->rxbuf_start; -+ hostdesc = adev->rxhostdesc_start; -+ -+ /* don't make any popular C programming pointer arithmetic mistakes -+ * here, otherwise I'll kill you... -+ * (and don't dare asking me why I'm warning you about that...) */ -+ for (i = 0; i < RX_CNT; i++) { -+ hostdesc->data = rxbuf; -+ hostdesc->length = cpu_to_le16(RX_BUFFER_SIZE); -+ rxbuf++; -+ hostdesc++; -+ } -+ hostdesc--; -+ FN_EXIT1(OK); -+ return OK; -+fail: -+ printk("acx: create_rx_host_desc_queue FAILED\n"); -+ /* dealloc will be done by free function on error case */ -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*************************************************************** -+** acxmem_s_create_hostdesc_queues -+*/ -+int -+acxmem_s_create_hostdesc_queues(acx_device_t *adev) -+{ -+ int result; -+ result = acxmem_s_create_tx_host_desc_queue(adev); -+ if (OK != result) return result; -+ result = acxmem_s_create_rx_host_desc_queue(adev); -+ return result; -+} -+ -+ -+/*************************************************************** -+** acxmem_create_tx_desc_queue -+*/ -+static void -+acxmem_create_tx_desc_queue(acx_device_t *adev, u32 tx_queue_start) -+{ -+ txdesc_t *txdesc; -+ u32 clr; -+ int i; -+ -+ FN_ENTER; -+ -+ if (IS_ACX100(adev)) -+ adev->txdesc_size = sizeof(*txdesc); -+ else -+ /* the acx111 txdesc is 4 bytes larger */ -+ adev->txdesc_size = sizeof(*txdesc) + 4; -+ -+ /* -+ * This refers to an ACX address, not one of ours -+ */ -+ adev->txdesc_start = (txdesc_t *) tx_queue_start; -+ -+ log(L_DEBUG, "adev->txdesc_start=%p\n", -+ adev->txdesc_start); -+ -+ adev->tx_free = TX_CNT; -+ /* done by memset: adev->tx_head = 0; */ -+ /* done by memset: adev->tx_tail = 0; */ -+ txdesc = adev->txdesc_start; -+ -+ if (IS_ACX111(adev)) { -+ /* ACX111 has a preinitialized Tx buffer! */ -+ /* loop over whole send pool */ -+ /* FIXME: do we have to do the hostmemptr stuff here?? */ -+ for (i = 0; i < TX_CNT; i++) { -+ txdesc->Ctl_8 = DESC_CTL_HOSTOWN; -+ /* reserve two (hdr desc and payload desc) */ -+ txdesc = advance_txdesc(adev, txdesc, 1); -+ } -+ } else { -+ /* ACX100 Tx buffer needs to be initialized by us */ -+ /* clear whole send pool. sizeof is safe here (we are acx100) */ -+ -+ /* -+ * adev->txdesc_start refers to device memory, so we can't write -+ * directly to it. -+ */ -+ clr = (u32) adev->txdesc_start; -+ while (clr < (u32) adev->txdesc_start + (TX_CNT * sizeof(*txdesc))) { -+ write_slavemem32 (adev, clr, 0); -+ clr += 4; -+ } -+ -+ /* loop over whole send pool */ -+ for (i = 0; i < TX_CNT; i++) { -+ log(L_DEBUG, "configure card tx descriptor: 0x%p, " -+ "size: 0x%X\n", txdesc, adev->txdesc_size); -+ -+ /* initialise ctl */ -+ /* -+ * No auto DMA here -+ */ -+ write_slavemem8 (adev, (u32) &(txdesc->Ctl_8), -+ (u8) (DESC_CTL_HOSTOWN | DESC_CTL_FIRSTFRAG)); -+ /* done by memset(0): txdesc->Ctl2_8 = 0; */ -+ -+ /* point to next txdesc */ -+ write_slavemem32 (adev, (u32) &(txdesc->pNextDesc), -+ (u32) cpu_to_le32 ((u8 *) txdesc + adev->txdesc_size)); -+ -+ /* go to the next one */ -+ /* ++ is safe here (we are acx100) */ -+ txdesc++; -+ } -+ /* go back to the last one */ -+ txdesc--; -+ /* and point to the first making it a ring buffer */ -+ write_slavemem32 (adev, (u32) &(txdesc->pNextDesc), -+ (u32) cpu_to_le32 (tx_queue_start)); -+ } -+ FN_EXIT0; -+} -+ -+ -+/*************************************************************** -+** acxmem_create_rx_desc_queue -+*/ -+static void -+acxmem_create_rx_desc_queue(acx_device_t *adev, u32 rx_queue_start) -+{ -+ rxdesc_t *rxdesc; -+ u32 mem_offs; -+ int i; -+ -+ FN_ENTER; -+ -+ /* done by memset: adev->rx_tail = 0; */ -+ -+ /* ACX111 doesn't need any further config: preconfigures itself. -+ * Simply print ring buffer for debugging */ -+ if (IS_ACX111(adev)) { -+ /* rxdesc_start already set here */ -+ -+ adev->rxdesc_start = (rxdesc_t *) rx_queue_start; -+ -+ rxdesc = adev->rxdesc_start; -+ for (i = 0; i < RX_CNT; i++) { -+ log(L_DEBUG, "rx descriptor %d @ 0x%p\n", i, rxdesc); -+ rxdesc = adev->rxdesc_start = (rxdesc_t *) -+ acx2cpu(rxdesc->pNextDesc); -+ } -+ } else { -+ /* we didn't pre-calculate rxdesc_start in case of ACX100 */ -+ /* rxdesc_start should be right AFTER Tx pool */ -+ adev->rxdesc_start = (rxdesc_t *) -+ ((u8 *) adev->txdesc_start + (TX_CNT * sizeof(txdesc_t))); -+ /* NB: sizeof(txdesc_t) above is valid because we know -+ ** we are in if (acx100) block. Beware of cut-n-pasting elsewhere! -+ ** acx111's txdesc is larger! */ -+ -+ mem_offs = (u32) adev->rxdesc_start; -+ while (mem_offs < (u32) adev->rxdesc_start + (RX_CNT * sizeof (*rxdesc))) { -+ write_slavemem32 (adev, mem_offs, 0); -+ mem_offs += 4; -+ } -+ -+ /* loop over whole receive pool */ -+ rxdesc = adev->rxdesc_start; -+ for (i = 0; i < RX_CNT; i++) { -+ log(L_DEBUG, "rx descriptor @ 0x%p\n", rxdesc); -+ /* point to next rxdesc */ -+ write_slavemem32 (adev, (u32) &(rxdesc->pNextDesc), -+ (u32) cpu_to_le32 ((u8 *) rxdesc + sizeof(*rxdesc))); -+ /* go to the next one */ -+ rxdesc++; -+ } -+ /* go to the last one */ -+ rxdesc--; -+ -+ /* and point to the first making it a ring buffer */ -+ write_slavemem32 (adev, (u32) &(rxdesc->pNextDesc), -+ (u32) cpu_to_le32 (rx_queue_start)); -+ } -+ FN_EXIT0; -+} -+ -+ -+/*************************************************************** -+** acxmem_create_desc_queues -+*/ -+void -+acxmem_create_desc_queues(acx_device_t *adev, u32 tx_queue_start, u32 rx_queue_start) -+{ -+ u32 *p; -+ int i; -+ -+ acxmem_create_tx_desc_queue(adev, tx_queue_start); -+ acxmem_create_rx_desc_queue(adev, rx_queue_start); -+ p = (u32 *) adev->acx_queue_indicator; -+ for (i = 0; i < 4; i++) { -+ write_slavemem32 (adev, (u32) p, 0); -+ p++; -+ } -+} -+ -+ -+/*************************************************************** -+** acxmem_s_proc_diag_output -+*/ -+char* -+acxmem_s_proc_diag_output(char *p, acx_device_t *adev) -+{ -+ const char *rtl, *thd, *ttl; -+ txdesc_t *txdesc; -+ u8 Ctl_8; -+ rxdesc_t *rxdesc; -+ int i; -+ u32 tmp; -+ txdesc_t txd; -+ u8 buf[0x200]; -+ int j, k; -+ -+ FN_ENTER; -+ -+#if DUMP_MEM_DURING_DIAG > 0 -+ dump_acxmem (adev, 0, 0x10000); -+ panic ("dump finished"); -+#endif -+ -+ p += sprintf(p, "** Rx buf **\n"); -+ rxdesc = adev->rxdesc_start; -+ if (rxdesc) for (i = 0; i < RX_CNT; i++) { -+ rtl = (i == adev->rx_tail) ? " [tail]" : ""; -+ Ctl_8 = read_slavemem8 (adev, (u32) &(rxdesc->Ctl_8)); -+ if (Ctl_8 & DESC_CTL_HOSTOWN) -+ p += sprintf(p, "%02u (%02x) FULL%s\n", i, Ctl_8, rtl); -+ else -+ p += sprintf(p, "%02u (%02x) empty%s\n", i, Ctl_8, rtl); -+ rxdesc++; -+ } -+ p += sprintf(p, "** Tx buf (free %d, Linux netqueue %s) **\n", adev->tx_free, -+ acx_queue_stopped(adev->ndev) ? "STOPPED" : "running"); -+ -+ p += sprintf(p, "** Tx buf %d blocks total, %d available, free list head %04x\n", -+ adev->acx_txbuf_numblocks, adev->acx_txbuf_blocks_free, adev->acx_txbuf_free); -+ txdesc = adev->txdesc_start; -+ if (txdesc) { -+ for (i = 0; i < TX_CNT; i++) { -+ thd = (i == adev->tx_head) ? " [head]" : ""; -+ ttl = (i == adev->tx_tail) ? " [tail]" : ""; -+ copy_from_slavemem (adev, (u8 *) &txd, (u32) txdesc, sizeof (txd)); -+ Ctl_8 = read_slavemem8 (adev, (u32) &(txdesc->Ctl_8)); -+ if (Ctl_8 & DESC_CTL_ACXDONE) -+ p += sprintf(p, "%02u ready to free (%02X)%s%s", i, Ctl_8, thd, ttl); -+ else if (Ctl_8 & DESC_CTL_HOSTOWN) -+ p += sprintf(p, "%02u available (%02X)%s%s", i, Ctl_8, thd, ttl); -+ else -+ p += sprintf(p, "%02u busy (%02X)%s%s", i, Ctl_8, thd, ttl); -+ tmp = read_slavemem32 (adev, (u32) &(txdesc->AcxMemPtr)); -+ if (tmp) { -+ p += sprintf (p, " %04x", tmp); -+ while ((tmp = read_slavemem32 (adev, (u32) tmp)) != 0x02000000) { -+ tmp <<= 5; -+ p += sprintf (p, " %04x", tmp); -+ } -+ } -+ p += sprintf (p, "\n"); -+ p += sprintf (p, " %04x: %04x %04x %04x %04x %04x %04x %04x %04x %04x %04x %02x %02x %02x %02x\n" -+ "%02x %02x %02x %02x %04x\n", -+ (u32) txdesc, -+ txd.pNextDesc.v, txd.HostMemPtr.v, txd.AcxMemPtr.v, txd.tx_time, -+ txd.total_length, txd.Reserved, -+ txd.dummy[0], txd.dummy[1], txd.dummy[2], txd.dummy[3], -+ txd.Ctl_8, txd.Ctl2_8, txd.error, txd.ack_failures, -+ txd.u.rts.rts_failures, txd.u.rts.rts_ok, txd.u.r1.rate, txd.u.r1.queue_ctrl, -+ txd.queue_info -+ ); -+ if (txd.AcxMemPtr.v) { -+ copy_from_slavemem (adev, buf, txd.AcxMemPtr.v, sizeof (buf)); -+ for (j = 0; (j < txd.total_length) && (j<(sizeof(buf)-4)); j+=16) { -+ p += sprintf (p, " "); -+ for (k = 0; (k < 16) && (j+k < txd.total_length); k++) { -+ p += sprintf (p, " %02x", buf[j+k+4]); -+ } -+ p += sprintf (p, "\n"); -+ } -+ } -+ txdesc = advance_txdesc(adev, txdesc, 1); -+ } -+ } -+ -+ p += sprintf(p, -+ "\n" -+ "** Generic slave data **\n" -+ "irq_mask 0x%04x irq_status 0x%04x irq on acx 0x%04x\n" -+ "txbuf_start 0x%p, txbuf_area_size %u\n" -+ "txdesc_size %u, txdesc_start 0x%p\n" -+ "txhostdesc_start 0x%p, txhostdesc_area_size %u\n" -+ "txbuf start 0x%04x, txbuf size %d\n" -+ "rxdesc_start 0x%p\n" -+ "rxhostdesc_start 0x%p, rxhostdesc_area_size %u\n" -+ "rxbuf_start 0x%p, rxbuf_area_size %u\n", -+ adev->irq_mask, adev->irq_status, read_reg32(adev, IO_ACX_IRQ_STATUS_NON_DES), -+ adev->txbuf_start, adev->txbuf_area_size, -+ adev->txdesc_size, adev->txdesc_start, -+ adev->txhostdesc_start, adev->txhostdesc_area_size, -+ adev->acx_txbuf_start, adev->acx_txbuf_numblocks * adev->memblocksize, -+ adev->rxdesc_start, -+ adev->rxhostdesc_start, adev->rxhostdesc_area_size, -+ adev->rxbuf_start, adev->rxbuf_area_size); -+ FN_EXIT0; -+ return p; -+} -+ -+ -+/*********************************************************************** -+*/ -+int -+acxmem_proc_eeprom_output(char *buf, acx_device_t *adev) -+{ -+ char *p = buf; -+ int i; -+ -+ FN_ENTER; -+ -+ for (i = 0; i < 0x400; i++) { -+ acxmem_read_eeprom_byte(adev, i, p++); -+ } -+ -+ FN_EXIT1(p - buf); -+ return p - buf; -+} -+ -+ -+/*********************************************************************** -+*/ -+void -+acxmem_set_interrupt_mask(acx_device_t *adev) -+{ -+ if (IS_ACX111(adev)) { -+ adev->irq_mask = (u16) ~(0 -+ | HOST_INT_RX_DATA -+ | HOST_INT_TX_COMPLETE -+ /* | HOST_INT_TX_XFER */ -+ /* | HOST_INT_RX_COMPLETE */ -+ /* | HOST_INT_DTIM */ -+ /* | HOST_INT_BEACON */ -+ /* | HOST_INT_TIMER */ -+ /* | HOST_INT_KEY_NOT_FOUND */ -+ | HOST_INT_IV_ICV_FAILURE -+ | HOST_INT_CMD_COMPLETE -+ | HOST_INT_INFO -+ | HOST_INT_OVERFLOW -+ /* | HOST_INT_PROCESS_ERROR */ -+ | HOST_INT_SCAN_COMPLETE -+ | HOST_INT_FCS_THRESHOLD -+ | HOST_INT_UNKNOWN -+ ); -+ /* Or else acx100 won't signal cmd completion, right? */ -+ adev->irq_mask_off = (u16)~( HOST_INT_CMD_COMPLETE ); /* 0xfdff */ -+ } else { -+ adev->irq_mask = (u16) ~(0 -+ | HOST_INT_RX_DATA -+ | HOST_INT_TX_COMPLETE -+ /* | HOST_INT_TX_XFER */ -+ /* | HOST_INT_RX_COMPLETE */ -+ /* | HOST_INT_DTIM */ -+ /* | HOST_INT_BEACON */ -+ /* | HOST_INT_TIMER */ -+ /* | HOST_INT_KEY_NOT_FOUND */ -+ /* | HOST_INT_IV_ICV_FAILURE */ -+ | HOST_INT_CMD_COMPLETE -+ | HOST_INT_INFO -+ /* | HOST_INT_OVERFLOW */ -+ /* | HOST_INT_PROCESS_ERROR */ -+ | HOST_INT_SCAN_COMPLETE -+ /* | HOST_INT_FCS_THRESHOLD */ -+ /* | HOST_INT_BEACON_MISSED */ -+ ); -+ adev->irq_mask_off = (u16)~( HOST_INT_UNKNOWN ); /* 0x7fff */ -+ } -+} -+ -+ -+/*********************************************************************** -+*/ -+int -+acx100mem_s_set_tx_level(acx_device_t *adev, u8 level_dbm) -+{ -+ struct acx111_ie_tx_level tx_level; -+ -+ /* since it can be assumed that at least the Maxim radio has a -+ * maximum power output of 20dBm and since it also can be -+ * assumed that these values drive the DAC responsible for -+ * setting the linear Tx level, I'd guess that these values -+ * should be the corresponding linear values for a dBm value, -+ * in other words: calculate the values from that formula: -+ * Y [dBm] = 10 * log (X [mW]) -+ * then scale the 0..63 value range onto the 1..100mW range (0..20 dBm) -+ * and you're done... -+ * Hopefully that's ok, but you never know if we're actually -+ * right... (especially since Windows XP doesn't seem to show -+ * actual Tx dBm values :-P) */ -+ -+ /* NOTE: on Maxim, value 30 IS 30mW, and value 10 IS 10mW - so the -+ * values are EXACTLY mW!!! Not sure about RFMD and others, -+ * though... */ -+ static const u8 dbm2val_maxim[21] = { -+ 63, 63, 63, 62, -+ 61, 61, 60, 60, -+ 59, 58, 57, 55, -+ 53, 50, 47, 43, -+ 38, 31, 23, 13, -+ 0 -+ }; -+ static const u8 dbm2val_rfmd[21] = { -+ 0, 0, 0, 1, -+ 2, 2, 3, 3, -+ 4, 5, 6, 8, -+ 10, 13, 16, 20, -+ 25, 32, 41, 50, -+ 63 -+ }; -+ const u8 *table; -+ -+ switch (adev->radio_type) { -+ case RADIO_MAXIM_0D: -+ table = &dbm2val_maxim[0]; -+ break; -+ case RADIO_RFMD_11: -+ case RADIO_RALINK_15: -+ table = &dbm2val_rfmd[0]; -+ break; -+ default: -+ printk("%s: unknown/unsupported radio type, " -+ "cannot modify tx power level yet!\n", -+ adev->ndev->name); -+ return NOT_OK; -+ } -+ /* -+ * The hx4700 EEPROM, at least, only supports 1 power setting. The configure -+ * routine matches the PA bias with the gain, so just use its default value. -+ * The values are: 0x2b for the gain and 0x03 for the PA bias. The firmware -+ * writes the gain level to the Tx gain control DAC and the PA bias to the Maxim -+ * radio's PA bias register. The firmware limits itself to 0 - 64 when writing to the -+ * gain control DAC. -+ * -+ * Physically between the ACX and the radio, higher Tx gain control DAC values result -+ * in less power output; 0 volts to the Maxim radio results in the highest output power -+ * level, which I'm assuming matches up with 0 in the Tx Gain DAC register. -+ * -+ * Although there is only the 1 power setting, one of the radio firmware functions adjusts -+ * the transmit power level up and down. That function is called by the ACX FIQ handler -+ * under certain conditions. -+ */ -+ tx_level.level = 1; -+ //return acx_s_configure(adev, &tx_level, ACX1xx_IE_DOT11_TX_POWER_LEVEL); -+ -+ printk("%s: changing radio power level to %u dBm (%u)\n", -+ adev->ndev->name, level_dbm, table[level_dbm]); -+ acxmem_s_write_phy_reg(adev, 0x11, table[level_dbm]); -+ -+ return 0; -+} -+ -+void acxmem_e_release(struct device *dev) { -+} -+ -+/*********************************************************************** -+** acx_cs part -+** -+** called by pcmcia card service -+*/ -+ -+/* -+ The event() function is this driver's Card Services event handler. -+ It will be called by Card Services when an appropriate card status -+ event is received. The config() and release() entry points are -+ used to configure or release a socket, in response to card -+ insertion and ejection events. They are invoked from the acx_cs -+ event handler. -+*/ -+ -+static int acx_cs_config(struct pcmcia_device *link); -+static void acx_cs_release(struct pcmcia_device *link); -+ -+/* -+ The attach() and detach() entry points are used to create and destroy -+ "instances" of the driver, where each instance represents everything -+ needed to manage one actual PCMCIA card. -+*/ -+ -+static void acx_cs_detach(struct pcmcia_device *p_dev); -+ -+/* -+ You'll also need to prototype all the functions that will actually -+ be used to talk to your device. See 'pcmem_cs' for a good example -+ of a fully self-sufficient driver; the other drivers rely more or -+ less on other parts of the kernel. -+*/ -+ -+/* -+ A linked list of "instances" of the acxnet device. Each actual -+ PCMCIA card corresponds to one device instance, and is described -+ by one struct pcmcia_device structure (defined in ds.h). -+ -+ You may not want to use a linked list for this -- for example, the -+ memory card driver uses an array of struct pcmcia_device pointers, where minor -+ device numbers are used to derive the corresponding array index. -+*/ -+ -+/* -+ A driver needs to provide a dev_node_t structure for each device -+ on a card. In some cases, there is only one device per card (for -+ example, ethernet cards, modems). In other cases, there may be -+ many actual or logical devices (SCSI adapters, memory cards with -+ multiple partitions). The dev_node_t structures need to be kept -+ in a linked list starting at the 'dev' field of a struct pcmcia_device -+ structure. We allocate them in the card's private data structure, -+ because they generally shouldn't be allocated dynamically. -+ -+ In this case, we also provide a flag to indicate if a device is -+ "stopped" due to a power management event, or card ejection. The -+ device IO routines can use a flag like this to throttle IO to a -+ card that is not ready to accept it. -+*/ -+ -+ -+/*====================================================================== -+ -+ acx_attach() creates an "instance" of the driver, allocating -+ local data structures for one device. The device is registered -+ with Card Services. -+ -+ The dev_link structure is initialized, but we don't actually -+ configure the card at this point -- we wait until we receive a -+ card insertion event. -+ -+ ======================================================================*/ -+ -+static int acx_cs_probe(struct pcmcia_device *link) -+{ -+ local_info_t *local; -+ struct net_device *ndev; -+ -+ DEBUG(0, "acx_attach()\n"); -+ -+ ndev = alloc_netdev(sizeof(acx_device_t), "wlan%d", dummy_netdev_init); -+ if (!ndev) { -+ printk("acx: no memory for netdevice struct\n"); -+ return -ENOMEM; -+ } -+ -+ /* Interrupt setup */ -+ link->irq.Attributes = IRQ_TYPE_EXCLUSIVE | IRQ_HANDLE_PRESENT; -+ link->irq.IRQInfo1 = IRQ_LEVEL_ID; -+ link->irq.Handler = acxmem_i_interrupt; -+ link->irq.Instance = ndev; -+ -+ /* -+ General socket configuration defaults can go here. In this -+ client, we assume very little, and rely on the CIS for almost -+ everything. In most clients, many details (i.e., number, sizes, -+ and attributes of IO windows) are fixed by the nature of the -+ device, and can be hard-wired here. -+ */ -+ link->conf.Attributes = CONF_ENABLE_IRQ; -+ link->conf.IntType = INT_MEMORY_AND_IO; -+ link->conf.Present = PRESENT_OPTION | PRESENT_COPY; -+ -+ /* Allocate space for private device-specific data */ -+ local = kzalloc(sizeof(local_info_t), GFP_KERNEL); -+ if (!local) { -+ printk(KERN_ERR "acx_cs: no memory for new device\n"); -+ return -ENOMEM; -+ } -+ local->ndev = ndev; -+ -+ link->priv = local; -+ -+ return acx_cs_config(link); -+} /* acx_attach */ -+ -+/*====================================================================== -+ -+ This deletes a driver "instance". The device is de-registered -+ with Card Services. If it has been released, all local data -+ structures are freed. Otherwise, the structures will be freed -+ when the device is released. -+ -+ ======================================================================*/ -+ -+static void acx_cs_detach(struct pcmcia_device *link) -+{ -+ DEBUG(0, "acx_detach(0x%p)\n", link); -+ -+ -+ if ( ((local_info_t*)link->priv)->ndev ) { -+ acxmem_e_close( ((local_info_t*)link->priv)->ndev ); -+ } -+ -+ acx_cs_release(link); -+ -+ ((local_info_t*)link->priv)->ndev = NULL; -+ -+ kfree(link->priv); -+} /* acx_detach */ -+ -+/*====================================================================== -+ -+ acx_config() is scheduled to run after a CARD_INSERTION event -+ is received, to configure the PCMCIA socket, and to make the -+ device available to the system. -+ -+ ======================================================================*/ -+ -+#define CS_CHECK(fn, ret) \ -+do { last_fn = (fn); if ((last_ret = (ret)) != 0) goto cs_failed; } while (0) -+ -+static int acx_cs_config(struct pcmcia_device *link) -+{ -+ tuple_t tuple; -+ cisparse_t parse; -+ local_info_t *local = link->priv; -+ int last_fn, last_ret; -+ u_char buf[64]; -+ win_req_t req; -+ memreq_t map; -+// int i; -+// acx_device_t *adev; -+ -+// adev = (acx_device_t *)link->priv; -+ -+ DEBUG(0, "acx_cs_config(0x%p)\n", link); -+ -+ /* -+ In this loop, we scan the CIS for configuration table entries, -+ each of which describes a valid card configuration, including -+ voltage, IO window, memory window, and interrupt settings. -+ -+ We make no assumptions about the card to be configured: we use -+ just the information available in the CIS. In an ideal world, -+ this would work for any PCMCIA card, but it requires a complete -+ and accurate CIS. In practice, a driver usually "knows" most of -+ these things without consulting the CIS, and most client drivers -+ will only use the CIS to fill in implementation-defined details. -+ */ -+ tuple.Attributes = 0; -+ tuple.TupleData = (cisdata_t *)buf; -+ tuple.TupleDataMax = sizeof(buf); -+ tuple.TupleOffset = 0; -+ tuple.DesiredTuple = CISTPL_CFTABLE_ENTRY; -+ -+ /* don't trust the CIS on this; Linksys got it wrong */ -+ //link->conf.Present = 0x63; -+ -+ CS_CHECK(GetFirstTuple, pcmcia_get_first_tuple(link, &tuple)); -+ while (1) { -+ cistpl_cftable_entry_t dflt = { 0 }; -+ cistpl_cftable_entry_t *cfg = &(parse.cftable_entry); -+ if (pcmcia_get_tuple_data(link, &tuple) != 0 || -+ pcmcia_parse_tuple(link, &tuple, &parse) != 0) -+ goto next_entry; -+ -+ if (cfg->flags & CISTPL_CFTABLE_DEFAULT) dflt = *cfg; -+ if (cfg->index == 0) goto next_entry; -+ link->conf.ConfigIndex = cfg->index; -+ -+ /* Does this card need audio output? */ -+ if (cfg->flags & CISTPL_CFTABLE_AUDIO) { -+ link->conf.Attributes |= CONF_ENABLE_SPKR; -+ link->conf.Status = CCSR_AUDIO_ENA; -+ } -+ -+ /* Use power settings for Vcc and Vpp if present */ -+ /* Note that the CIS values need to be rescaled */ -+ if (cfg->vpp1.present & (1<<CISTPL_POWER_VNOM)) -+ link->conf.Vpp = -+ cfg->vpp1.param[CISTPL_POWER_VNOM]/10000; -+ else if (dflt.vpp1.present & (1<<CISTPL_POWER_VNOM)) -+ link->conf.Vpp = -+ dflt.vpp1.param[CISTPL_POWER_VNOM]/10000; -+ -+ /* Do we need to allocate an interrupt? */ -+ if (cfg->irq.IRQInfo1 || dflt.irq.IRQInfo1) -+ link->conf.Attributes |= CONF_ENABLE_IRQ; -+ if ((cfg->mem.nwin > 0) || (dflt.mem.nwin > 0)) { -+ cistpl_mem_t *mem = -+ (cfg->mem.nwin) ? &cfg->mem : &dflt.mem; -+// req.Attributes = WIN_DATA_WIDTH_16|WIN_MEMORY_TYPE_AM|WIN_ENABLE|WIN_USE_WAIT; -+ req.Attributes = WIN_DATA_WIDTH_16|WIN_MEMORY_TYPE_CM|WIN_ENABLE|WIN_USE_WAIT; -+ req.Base = mem->win[0].host_addr; -+ req.Size = mem->win[0].len; -+ req.Size=0x1000; -+ req.AccessSpeed = 0; -+ if (pcmcia_request_window(&link, &req, &link->win) != 0) -+ goto next_entry; -+ map.Page = 0; map.CardOffset = mem->win[0].card_addr; -+ if (pcmcia_map_mem_page(link->win, &map) != 0) -+ goto next_entry; -+ else -+ printk(KERN_INFO "MEMORY WINDOW FOUND!!!\n"); -+ } -+ /* If we got this far, we're cool! */ -+ break; -+ -+ next_entry: -+ CS_CHECK(GetNextTuple, pcmcia_get_next_tuple(link, &tuple)); -+ } -+ -+ if (link->conf.Attributes & CONF_ENABLE_IRQ) { -+ printk(KERN_INFO "requesting Irq...\n"); -+ CS_CHECK(RequestIRQ, pcmcia_request_irq(link, &link->irq)); -+ } -+ -+ /* -+ This actually configures the PCMCIA socket -- setting up -+ the I/O windows and the interrupt mapping, and putting the -+ card and host interface into "Memory and IO" mode. -+ */ -+ CS_CHECK(RequestConfiguration, pcmcia_request_configuration(link, &link->conf)); -+ DEBUG(0,"RequestConfiguration OK\n"); -+ -+ -+ memwin.Base=req.Base; -+ memwin.Size=req.Size; -+ -+ acx_init_netdev(local->ndev, &link->dev, memwin.Base, memwin.Size, link->irq.AssignedIRQ); -+ -+#if 1 -+ /* -+ At this point, the dev_node_t structure(s) need to be -+ initialized and arranged in a linked list at link->dev_node. -+ */ -+ strcpy(local->node.dev_name, local->ndev->name ); -+ local->node.major = local->node.minor = 0; -+ link->dev_node = &local->node; -+ -+ /* Finally, report what we've done */ -+ printk(KERN_INFO "%s: index 0x%02x: ", -+ local->ndev->name, link->conf.ConfigIndex); -+#endif -+ if (link->conf.Attributes & CONF_ENABLE_IRQ) -+ printk("irq %d", link->irq.AssignedIRQ); -+ if (link->io.NumPorts1) -+ printk(", io 0x%04x-0x%04x", link->io.BasePort1, -+ link->io.BasePort1+link->io.NumPorts1-1); -+ if (link->io.NumPorts2) -+ printk(" & 0x%04x-0x%04x", link->io.BasePort2, -+ link->io.BasePort2+link->io.NumPorts2-1); -+ if (link->win) -+ printk(", mem 0x%06lx-0x%06lx\n", req.Base, -+ req.Base+req.Size-1); -+ return 0; -+ -+ cs_failed: -+ cs_error(link, last_fn, last_ret); -+ acx_cs_release(link); -+ return -ENODEV; -+} /* acx_config */ -+ -+/*====================================================================== -+ -+ After a card is removed, acx_release() will unregister the -+ device, and release the PCMCIA configuration. If the device is -+ still open, this will be postponed until it is closed. -+ -+ ======================================================================*/ -+ -+static void acx_cs_release(struct pcmcia_device *link) -+{ -+ DEBUG(0, "acx_release(0x%p)\n", link); -+ acxmem_e_remove(link); -+ pcmcia_disable_device(link); -+} -+ -+static int acx_cs_suspend(struct pcmcia_device *link) -+{ -+ local_info_t *local = link->priv; -+ -+ pm_message_t state; -+ acxmem_e_suspend ( local->ndev, state); -+ /* Already done in suspend -+ * netif_device_detach(local->ndev); */ -+ -+ return 0; -+} -+ -+static int acx_cs_resume(struct pcmcia_device *link) -+{ -+ local_info_t *local = link->priv; -+ -+ FN_ENTER; -+ resume_ndev = local->ndev; -+ -+ schedule_work( &fw_resume_work ); -+ -+ /* Already done in suspend -+ if (link->open) { -+ // do we need reset for ACX, if so what function nane is ? -+ //reset_acx_card(local->eth_dev); -+ netif_device_attach(local->ndev); -+ } */ -+ -+ FN_EXIT0; -+ return 0; -+} -+ -+static struct pcmcia_device_id acx_ids[] = { -+ PCMCIA_DEVICE_MANF_CARD(0x0097, 0x8402), -+ PCMCIA_DEVICE_MANF_CARD(0x0250, 0xb001), -+ PCMCIA_DEVICE_NULL, -+}; -+MODULE_DEVICE_TABLE(pcmcia, acx_ids); -+ -+static struct pcmcia_driver acx_driver = { -+ .owner = THIS_MODULE, -+ .drv = { -+ .name = "acx_cs", -+ }, -+ .probe = acx_cs_probe, -+ .remove = acx_cs_detach, -+ .id_table = acx_ids, -+ .suspend = acx_cs_suspend, -+ .resume = acx_cs_resume, -+}; -+ -+int acx_cs_init(void) -+{ -+ /* return success if at least one succeeded */ -+ DEBUG(0, "acxcs_init()\n"); -+ return pcmcia_register_driver(&acx_driver); -+} -+ -+void acx_cs_cleanup(void) -+{ -+ pcmcia_unregister_driver(&acx_driver); -+} -+ -+/* -+ This program is free software; you can redistribute it and/or -+ modify it under the terms of the GNU General Public License -+ as published by the Free Software Foundation; either version 2 -+ of the License, or (at your option) any later version. -+ -+ This program is distributed in the hope that it will be useful, -+ but WITHOUT ANY WARRANTY; without even the implied warranty of -+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -+ GNU General Public License for more details. -+ -+ In addition: -+ -+ Redistribution and use in source and binary forms, with or without -+ modification, are permitted provided that the following conditions -+ are met: -+ -+ 1. Redistributions of source code must retain the above copyright -+ notice, this list of conditions and the following disclaimer. -+ 2. Redistributions in binary form must reproduce the above copyright -+ notice, this list of conditions and the following disclaimer in the -+ documentation and/or other materials provided with the distribution. -+ 3. The name of the author may not be used to endorse or promote -+ products derived from this software without specific prior written -+ permission. -+ -+ THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR -+ IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED -+ WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE -+ ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, -+ INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -+ (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR -+ SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) -+ HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, -+ STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING -+ IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE -+ POSSIBILITY OF SUCH DAMAGE. -+*/ -+ -+MODULE_DESCRIPTION( "ACX Cardbus Driver" ); -+MODULE_LICENSE( "GPL" ); -+ -Index: linux-2.6.22/drivers/net/wireless/acx/htcsable_acx.c -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/htcsable_acx.c 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,118 @@ -+/* -+ * WLAN (TI TNETW1100B) support in the HTC Sable -+ * -+ * Copyright (c) 2006 SDG Systems, LLC -+ * -+ * This file is subject to the terms and conditions of the GNU General Public -+ * License. See the file COPYING in the main directory of this archive for -+ * more details. -+ * -+ * 28-March-2006 Todd Blumer <todd@sdgsystems.com> -+ */ -+ -+ -+#include <linux/kernel.h> -+#include <linux/platform_device.h> -+#include <linux/delay.h> -+ -+#include <asm/hardware.h> -+ -+#include <asm/arch/pxa-regs.h> -+#include <linux/mfd/asic3_base.h> -+#include <asm/arch/htcsable-gpio.h> -+#include <asm/arch/htcsable-asic.h> -+#include <asm/io.h> -+ -+#include "acx_hw.h" -+ -+#define WLAN_BASE PXA_CS2_PHYS -+ -+/* -+off: b15 c8 d3 -+on: d3 c8 b5 b5- -+*/ -+ -+#define GPIO_NR_HTCSABLE_ACX111 111 -+ -+static int -+htcsable_wlan_stop( void ); -+ -+static int -+htcsable_wlan_start( void ) -+{ -+ printk( "htcsable_wlan_start\n" ); -+ -+ /*asic3_set_gpio_out_c(&htcsable_asic3.dev, 1<<GPIOC_ACX_RESET, 0);*/ -+ asic3_set_gpio_out_c(&htcsable_asic3.dev, 1<<GPIOC_ACX_PWR_3, 1<<GPIOC_ACX_PWR_3); /* related to acx */ -+ SET_HTCSABLE_GPIO(ACX111, 1); -+ asic3_set_gpio_out_b(&htcsable_asic3.dev, 1<<GPIOB_ACX_PWR_1, 1<<GPIOB_ACX_PWR_1); -+ asic3_set_gpio_out_d(&htcsable_asic3.dev, 1<<GPIOD_ACX_PWR_2, 1<<GPIOD_ACX_PWR_2); -+ mdelay(260); -+ asic3_set_gpio_out_c(&htcsable_asic3.dev, 1<<GPIOC_ACX_RESET, 1<<GPIOC_ACX_RESET); -+ -+ return 0; -+} -+ -+static int -+htcsable_wlan_stop( void ) -+{ -+ printk( "htcsable_wlan_stop\n" ); -+ asic3_set_gpio_out_b(&htcsable_asic3.dev, 1<<GPIOB_ACX_PWR_1, 0); -+ asic3_set_gpio_out_c(&htcsable_asic3.dev, 1<<GPIOC_ACX_RESET, 0); -+ asic3_set_gpio_out_d(&htcsable_asic3.dev, 1<<GPIOD_ACX_PWR_2, 0); -+ SET_HTCSABLE_GPIO(ACX111, 0); /* not necessary to power down this one? */ -+ asic3_set_gpio_out_c(&htcsable_asic3.dev, 1<<GPIOC_ACX_PWR_3, 0); /* not necessary to power down this one? */ -+ -+ return 0; -+} -+ -+static struct resource acx_resources[] = { -+ [0] = { -+ .start = WLAN_BASE, -+ .end = WLAN_BASE + 0x20, -+ .flags = IORESOURCE_MEM, -+ }, -+ [1] = { -+// .start = asic3_irq_base(&htcsable_asic3.dev) + ASIC3_GPIOC_IRQ_BASE+GPIOC_WIFI_IRQ_N, -+// .end = asic3_irq_base(&htcsable_asic3.dev) + ASIC3_GPIOC_IRQ_BASE+GPIOC_WIFI_IRQ_N, -+ .flags = IORESOURCE_IRQ, -+ }, -+}; -+ -+static struct acx_hardware_data acx_data = { -+ .start_hw = htcsable_wlan_start, -+ .stop_hw = htcsable_wlan_stop, -+}; -+ -+static struct platform_device acx_device = { -+ .name = "acx-mem", -+ .dev = { -+ .platform_data = &acx_data, -+ }, -+ .num_resources = ARRAY_SIZE( acx_resources ), -+ .resource = acx_resources, -+}; -+ -+static int __init -+htcsable_wlan_init( void ) -+{ -+ printk( "htcsable_wlan_init: acx-mem platform_device_register\n" ); -+ acx_device.resource[1].start = asic3_irq_base(&htcsable_asic3.dev) + ASIC3_GPIOB_IRQ_BASE+GPIOB_ACX_IRQ_N; -+ acx_device.resource[1].end = asic3_irq_base(&htcsable_asic3.dev) + ASIC3_GPIOB_IRQ_BASE+GPIOB_ACX_IRQ_N; -+ return platform_device_register( &acx_device ); -+} -+ -+ -+static void __exit -+htcsable_wlan_exit( void ) -+{ -+ platform_device_unregister( &acx_device ); -+} -+ -+module_init( htcsable_wlan_init ); -+module_exit( htcsable_wlan_exit ); -+ -+MODULE_AUTHOR( "Todd Blumer <todd@sdgsystems.com>" ); -+MODULE_DESCRIPTION( "WLAN driver for HTC Sable" ); -+MODULE_LICENSE( "GPL" ); -+ -Index: linux-2.6.22/drivers/net/wireless/acx/htcuniversal_acx.c -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/htcuniversal_acx.c 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,108 @@ -+/* -+ * WLAN (TI TNETW1100B) support in the HTC Universal -+ * -+ * Copyright (c) 2006 SDG Systems, LLC -+ * -+ * This file is subject to the terms and conditions of the GNU General Public -+ * License. See the file COPYING in the main directory of this archive for -+ * more details. -+ * -+ * 28-March-2006 Todd Blumer <todd@sdgsystems.com> -+ */ -+ -+ -+#include <linux/kernel.h> -+#include <linux/platform_device.h> -+#include <linux/delay.h> -+ -+#include <asm/hardware.h> -+ -+#include <asm/arch/pxa-regs.h> -+#include <linux/soc/asic3_base.h> -+#include <asm/arch/htcuniversal-gpio.h> -+#include <asm/arch/htcuniversal-asic.h> -+#include <asm/io.h> -+ -+#include "acx_hw.h" -+ -+#define WLAN_BASE PXA_CS2_PHYS -+ -+ -+static int -+htcuniversal_wlan_start( void ) -+{ -+ htcuniversal_egpio_enable(1<<EGPIO6_WIFI_ON); -+ asic3_set_gpio_out_c(&htcuniversal_asic3.dev, 1<<GPIOC_WIFI_PWR1_ON, 1<<GPIOC_WIFI_PWR1_ON); -+ asic3_set_gpio_out_d(&htcuniversal_asic3.dev, 1<<GPIOD_WIFI_PWR3_ON, 1<<GPIOD_WIFI_PWR3_ON); -+ asic3_set_gpio_out_d(&htcuniversal_asic3.dev, 1<<GPIOD_WIFI_PWR2_ON, 1<<GPIOD_WIFI_PWR2_ON); -+ mdelay(100); -+ -+ asic3_set_gpio_out_c(&htcuniversal_asic3.dev, 1<<GPIOC_WIFI_RESET, 0); -+ mdelay(100); -+ asic3_set_gpio_out_c(&htcuniversal_asic3.dev, 1<<GPIOC_WIFI_RESET, 1<<GPIOC_WIFI_RESET); -+ mdelay(100); -+ return 0; -+} -+ -+static int -+htcuniversal_wlan_stop( void ) -+{ -+ asic3_set_gpio_out_c(&htcuniversal_asic3.dev, 1<<GPIOC_WIFI_RESET, 0); -+ -+ htcuniversal_egpio_disable(1<<EGPIO6_WIFI_ON); -+ asic3_set_gpio_out_c(&htcuniversal_asic3.dev, 1<<GPIOC_WIFI_PWR1_ON, 0); -+ asic3_set_gpio_out_d(&htcuniversal_asic3.dev, 1<<GPIOD_WIFI_PWR2_ON, 0); -+ asic3_set_gpio_out_d(&htcuniversal_asic3.dev, 1<<GPIOD_WIFI_PWR3_ON, 0); -+ return 0; -+} -+ -+static struct resource acx_resources[] = { -+ [0] = { -+ .start = WLAN_BASE, -+ .end = WLAN_BASE + 0x20, -+ .flags = IORESOURCE_MEM, -+ }, -+ [1] = { -+// .start = asic3_irq_base(&htcuniversal_asic3.dev) + ASIC3_GPIOC_IRQ_BASE+GPIOC_WIFI_IRQ_N, -+// .end = asic3_irq_base(&htcuniversal_asic3.dev) + ASIC3_GPIOC_IRQ_BASE+GPIOC_WIFI_IRQ_N, -+ .flags = IORESOURCE_IRQ, -+ }, -+}; -+ -+static struct acx_hardware_data acx_data = { -+ .start_hw = htcuniversal_wlan_start, -+ .stop_hw = htcuniversal_wlan_stop, -+}; -+ -+static struct platform_device acx_device = { -+ .name = "acx-mem", -+ .dev = { -+ .platform_data = &acx_data, -+ }, -+ .num_resources = ARRAY_SIZE( acx_resources ), -+ .resource = acx_resources, -+}; -+ -+static int __init -+htcuniversal_wlan_init( void ) -+{ -+ printk( "htcuniversal_wlan_init: acx-mem platform_device_register\n" ); -+ acx_device.resource[1].start = asic3_irq_base(&htcuniversal_asic3.dev) + ASIC3_GPIOC_IRQ_BASE+GPIOC_WIFI_IRQ_N; -+ acx_device.resource[1].end = asic3_irq_base(&htcuniversal_asic3.dev) + ASIC3_GPIOC_IRQ_BASE+GPIOC_WIFI_IRQ_N; -+ return platform_device_register( &acx_device ); -+} -+ -+ -+static void __exit -+htcuniversal_wlan_exit( void ) -+{ -+ platform_device_unregister( &acx_device ); -+} -+ -+module_init( htcuniversal_wlan_init ); -+module_exit( htcuniversal_wlan_exit ); -+ -+MODULE_AUTHOR( "Todd Blumer <todd@sdgsystems.com>" ); -+MODULE_DESCRIPTION( "WLAN driver for HTC Universal" ); -+MODULE_LICENSE( "GPL" ); -+ -Index: linux-2.6.22/drivers/net/wireless/acx/hx4700_acx.c -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/hx4700_acx.c 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,108 @@ -+/* -+ * WLAN (TI TNETW1100B) support in the hx470x. -+ * -+ * Copyright (c) 2006 SDG Systems, LLC -+ * -+ * This file is subject to the terms and conditions of the GNU General Public -+ * License. See the file COPYING in the main directory of this archive for -+ * more details. -+ * -+ * 28-March-2006 Todd Blumer <todd@sdgsystems.com> -+ */ -+ -+ -+#include <linux/kernel.h> -+#include <linux/platform_device.h> -+#include <linux/delay.h> -+#include <linux/leds.h> -+ -+#include <asm/hardware.h> -+ -+#include <asm/arch/pxa-regs.h> -+#include <asm/arch/hx4700-gpio.h> -+#include <asm/arch/hx4700-core.h> -+#include <asm/io.h> -+ -+#include "acx_hw.h" -+ -+#define WLAN_OFFSET 0x1000000 -+#define WLAN_BASE (PXA_CS5_PHYS+WLAN_OFFSET) -+ -+ -+static int -+hx4700_wlan_start( void ) -+{ -+ SET_HX4700_GPIO( WLAN_RESET_N, 0 ); -+ mdelay(5); -+ hx4700_egpio_enable( EGPIO0_VCC_3V3_EN ); -+ mdelay(100); -+ hx4700_egpio_enable( EGPIO7_VCC_3V3_WL_EN ); -+ mdelay(150); -+ hx4700_egpio_enable( EGPIO1_WL_VREG_EN | EGPIO2_VCC_2V1_WL_EN | -+ EGPIO6_WL1V8_EN ); -+ mdelay(10); -+ SET_HX4700_GPIO( WLAN_RESET_N, 1 ); -+ mdelay(50); -+ led_trigger_event_shared(hx4700_radio_trig, LED_FULL); -+ return 0; -+} -+ -+static int -+hx4700_wlan_stop( void ) -+{ -+ hx4700_egpio_disable( EGPIO0_VCC_3V3_EN | EGPIO1_WL_VREG_EN | -+ EGPIO7_VCC_3V3_WL_EN | EGPIO2_VCC_2V1_WL_EN | -+ EGPIO6_WL1V8_EN ); -+ SET_HX4700_GPIO( WLAN_RESET_N, 0 ); -+ led_trigger_event_shared(hx4700_radio_trig, LED_OFF); -+ return 0; -+} -+ -+static struct resource acx_resources[] = { -+ [0] = { -+ .start = WLAN_BASE, -+ .end = WLAN_BASE + 0x20, -+ .flags = IORESOURCE_MEM, -+ }, -+ [1] = { -+ .start = HX4700_IRQ(WLAN_IRQ_N), -+ .end = HX4700_IRQ(WLAN_IRQ_N), -+ .flags = IORESOURCE_IRQ, -+ }, -+}; -+ -+static struct acx_hardware_data acx_data = { -+ .start_hw = hx4700_wlan_start, -+ .stop_hw = hx4700_wlan_stop, -+}; -+ -+static struct platform_device acx_device = { -+ .name = "acx-mem", -+ .dev = { -+ .platform_data = &acx_data, -+ }, -+ .num_resources = ARRAY_SIZE( acx_resources ), -+ .resource = acx_resources, -+}; -+ -+static int __init -+hx4700_wlan_init( void ) -+{ -+ printk( "hx4700_wlan_init: acx-mem platform_device_register\n" ); -+ return platform_device_register( &acx_device ); -+} -+ -+ -+static void __exit -+hx4700_wlan_exit( void ) -+{ -+ platform_device_unregister( &acx_device ); -+} -+ -+module_init( hx4700_wlan_init ); -+module_exit( hx4700_wlan_exit ); -+ -+MODULE_AUTHOR( "Todd Blumer <todd@sdgsystems.com>" ); -+MODULE_DESCRIPTION( "WLAN driver for iPAQ hx4700" ); -+MODULE_LICENSE( "GPL" ); -+ -Index: linux-2.6.22/drivers/net/wireless/acx/ioctl.c -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/ioctl.c 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,2748 @@ -+/*********************************************************************** -+** Copyright (C) 2003 ACX100 Open Source Project -+** -+** The contents of this file are subject to the Mozilla Public -+** License Version 1.1 (the "License"); you may not use this file -+** except in compliance with the License. You may obtain a copy of -+** the License at http://www.mozilla.org/MPL/ -+** -+** Software distributed under the License is distributed on an "AS -+** IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -+** implied. See the License for the specific language governing -+** rights and limitations under the License. -+** -+** Alternatively, the contents of this file may be used under the -+** terms of the GNU Public License version 2 (the "GPL"), in which -+** case the provisions of the GPL are applicable instead of the -+** above. If you wish to allow the use of your version of this file -+** only under the terms of the GPL and not to allow others to use -+** your version of this file under the MPL, indicate your decision -+** by deleting the provisions above and replace them with the notice -+** and other provisions required by the GPL. If you do not delete -+** the provisions above, a recipient may use your version of this -+** file under either the MPL or the GPL. -+** --------------------------------------------------------------------- -+** Inquiries regarding the ACX100 Open Source Project can be -+** made directly to: -+** -+** acx100-users@lists.sf.net -+** http://acx100.sf.net -+** --------------------------------------------------------------------- -+*/ -+ -+#include <linux/version.h> -+#if LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 18) -+#include <linux/config.h> -+#endif -+#include <linux/kernel.h> -+#include <linux/types.h> -+#include <asm/io.h> -+/* #include <asm/uaccess.h> */ /* required for 2.4.x kernels; verify_write() */ -+#include <linux/if_arp.h> -+#include <linux/wireless.h> -+#include <net/iw_handler.h> -+ -+#include "acx.h" -+ -+ -+/*********************************************************************** -+*/ -+ -+/* channel frequencies -+ * TODO: Currently, every other 802.11 driver keeps its own copy of this. In -+ * the long run this should be integrated into ieee802_11.h or wireless.h or -+ * whatever IEEE802.11x framework evolves */ -+static const u16 acx_channel_freq[] = { -+ 2412, 2417, 2422, 2427, 2432, 2437, 2442, -+ 2447, 2452, 2457, 2462, 2467, 2472, 2484, -+}; -+ -+ -+/*********************************************************************** -+** acx_ioctl_commit -+*/ -+static int -+acx_ioctl_commit(struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ if (ACX_STATE_IFACE_UP & adev->dev_state_mask) -+ acx_s_update_card_settings(adev); -+ acx_sem_unlock(adev); -+ -+ FN_EXIT0; -+ return OK; -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx_ioctl_get_name( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ static const char * const names[] = { "IEEE 802.11b+/g+", "IEEE 802.11b+" }; -+ -+ strcpy(wrqu->name, names[IS_ACX111(adev) ? 0 : 1]); -+ -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_freq -+*/ -+static int -+acx_ioctl_set_freq( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int channel = -1; -+ unsigned int mult = 1; -+ int result; -+ -+ FN_ENTER; -+ -+ if (wrqu->freq.e == 0 && wrqu->freq.m <= 1000) { -+ /* Setting by channel number */ -+ channel = wrqu->freq.m; -+ } else { -+ /* If setting by frequency, convert to a channel */ -+ int i; -+ -+ for (i = 0; i < (6 - wrqu->freq.e); i++) -+ mult *= 10; -+ -+ for (i = 1; i <= 14; i++) -+ if (wrqu->freq.m == acx_channel_freq[i - 1] * mult) -+ channel = i; -+ } -+ -+ if (channel > 14) { -+ result = -EINVAL; -+ goto end; -+ } -+ -+ acx_sem_lock(adev); -+ -+ adev->channel = channel; -+ /* hmm, the following code part is strange, but this is how -+ * it was being done before... */ -+ log(L_IOCTL, "Changing to channel %d\n", channel); -+ SET_BIT(adev->set_mask, GETSET_CHANNEL); -+ -+ result = -EINPROGRESS; /* need to call commit handler */ -+ -+ acx_sem_unlock(adev); -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+*/ -+static inline int -+acx_ioctl_get_freq( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ wrqu->freq.e = 0; -+ wrqu->freq.m = adev->channel; -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_mode -+*/ -+static int -+acx_ioctl_set_mode( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int result; -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ -+ switch (wrqu->mode) { -+ case IW_MODE_AUTO: -+ adev->mode = ACX_MODE_OFF; -+ break; -+ case IW_MODE_MONITOR: -+ adev->mode = ACX_MODE_MONITOR; -+ break; -+ case IW_MODE_ADHOC: -+ adev->mode = ACX_MODE_0_ADHOC; -+ break; -+ case IW_MODE_INFRA: -+ adev->mode = ACX_MODE_2_STA; -+ break; -+ case IW_MODE_MASTER: -+ printk("acx: master mode (HostAP) is very, very " -+ "experimental! It might work partially, but " -+ "better get prepared for nasty surprises " -+ "at any time\n"); -+ adev->mode = ACX_MODE_3_AP; -+ break; -+ case IW_MODE_REPEAT: -+ case IW_MODE_SECOND: -+ default: -+ result = -EOPNOTSUPP; -+ goto end_unlock; -+ } -+ -+ log(L_ASSOC, "new adev->mode=%d\n", adev->mode); -+ SET_BIT(adev->set_mask, GETSET_MODE); -+ result = -EINPROGRESS; -+ -+end_unlock: -+ acx_sem_unlock(adev); -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx_ioctl_get_mode( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int result = 0; -+ -+ switch (adev->mode) { -+ case ACX_MODE_OFF: -+ wrqu->mode = IW_MODE_AUTO; break; -+ case ACX_MODE_MONITOR: -+ wrqu->mode = IW_MODE_MONITOR; break; -+ case ACX_MODE_0_ADHOC: -+ wrqu->mode = IW_MODE_ADHOC; break; -+ case ACX_MODE_2_STA: -+ wrqu->mode = IW_MODE_INFRA; break; -+ case ACX_MODE_3_AP: -+ wrqu->mode = IW_MODE_MASTER; break; -+ default: -+ result = -EOPNOTSUPP; -+ } -+ return result; -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx_ioctl_set_sens( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->sens; -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ acx_sem_lock(adev); -+ -+ adev->sensitivity = (1 == vwrq->disabled) ? 0 : vwrq->value; -+ SET_BIT(adev->set_mask, GETSET_SENSITIVITY); -+ -+ acx_sem_unlock(adev); -+ -+ return -EINPROGRESS; -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx_ioctl_get_sens( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->sens; -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ if (IS_USB(adev)) -+ /* setting the PHY reg via fw cmd doesn't work yet */ -+ return -EOPNOTSUPP; -+ -+ /* acx_sem_lock(adev); */ -+ -+ vwrq->value = adev->sensitivity; -+ vwrq->disabled = (vwrq->value == 0); -+ vwrq->fixed = 1; -+ -+ /* acx_sem_unlock(adev); */ -+ -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_ap -+** -+** Sets the MAC address of the AP to associate with -+*/ -+static int -+acx_ioctl_set_ap( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct sockaddr *awrq = &wrqu->ap_addr; -+ acx_device_t *adev = ndev2adev(ndev); -+ int result = 0; -+ const u8 *ap; -+ -+ FN_ENTER; -+ if (NULL == awrq) { -+ result = -EFAULT; -+ goto end; -+ } -+ if (ARPHRD_ETHER != awrq->sa_family) { -+ result = -EINVAL; -+ goto end; -+ } -+ -+ ap = awrq->sa_data; -+ acxlog_mac(L_IOCTL, "set AP=", ap, "\n"); -+ -+ MAC_COPY(adev->ap, ap); -+ -+ /* We want to start rescan in managed or ad-hoc mode, -+ ** otherwise just set adev->ap. -+ ** "iwconfig <if> ap <mac> mode managed": we must be able -+ ** to set ap _first_ and _then_ set mode */ -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_2_STA: -+ /* FIXME: if there is a convention on what zero AP means, -+ ** please add a comment about that. I don't know of any --vda */ -+ if (mac_is_zero(ap)) { -+ /* "off" == 00:00:00:00:00:00 */ -+ MAC_BCAST(adev->ap); -+ log(L_IOCTL, "Not reassociating\n"); -+ } else { -+ log(L_IOCTL, "Forcing reassociation\n"); -+ SET_BIT(adev->set_mask, GETSET_RESCAN); -+ } -+ break; -+ } -+ result = -EINPROGRESS; -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx_ioctl_get_ap( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct sockaddr *awrq = &wrqu->ap_addr; -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ if (ACX_STATUS_4_ASSOCIATED == adev->status) { -+ /* as seen in Aironet driver, airo.c */ -+ MAC_COPY(awrq->sa_data, adev->bssid); -+ } else { -+ MAC_ZERO(awrq->sa_data); -+ } -+ awrq->sa_family = ARPHRD_ETHER; -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_get_aplist -+** -+** Deprecated in favor of iwscan. -+** We simply return the list of currently available stations in range, -+** don't do a new scan. -+*/ -+static int -+acx_ioctl_get_aplist( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_point *dwrq = &wrqu->data; -+ acx_device_t *adev = ndev2adev(ndev); -+ struct sockaddr *address = (struct sockaddr *) extra; -+ struct iw_quality qual[IW_MAX_AP]; -+ int i, cur; -+ int result = OK; -+ -+ FN_ENTER; -+ -+ /* we have AP list only in STA mode */ -+ if (ACX_MODE_2_STA != adev->mode) { -+ result = -EOPNOTSUPP; -+ goto end; -+ } -+ -+ cur = 0; -+ for (i = 0; i < VEC_SIZE(adev->sta_list); i++) { -+ struct client *bss = &adev->sta_list[i]; -+ if (!bss->used) continue; -+ MAC_COPY(address[cur].sa_data, bss->bssid); -+ address[cur].sa_family = ARPHRD_ETHER; -+ qual[cur].level = bss->sir; -+ qual[cur].noise = bss->snr; -+#ifndef OLD_QUALITY -+ qual[cur].qual = acx_signal_determine_quality(qual[cur].level, -+ qual[cur].noise); -+#else -+ qual[cur].qual = (qual[cur].noise <= 100) ? -+ 100 - qual[cur].noise : 0; -+#endif -+ /* no scan: level/noise/qual not updated: */ -+ qual[cur].updated = 0; -+ cur++; -+ } -+ if (cur) { -+ dwrq->flags = 1; -+ memcpy(extra + sizeof(struct sockaddr)*cur, &qual, -+ sizeof(struct iw_quality)*cur); -+ } -+ dwrq->length = cur; -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx_ioctl_set_scan( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int result; -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ -+ /* don't start scan if device is not up yet */ -+ if (!(adev->dev_state_mask & ACX_STATE_IFACE_UP)) { -+ result = -EAGAIN; -+ goto end_unlock; -+ } -+ -+ /* This is NOT a rescan for new AP! -+ ** Do not use SET_BIT(GETSET_RESCAN); */ -+ acx_s_cmd_start_scan(adev); -+ result = OK; -+ -+end_unlock: -+ acx_sem_unlock(adev); -+/* end: */ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_s_scan_add_station -+*/ -+/* helper. not sure whether it's really a _s_leeping fn */ -+static char* -+acx_s_scan_add_station( -+ acx_device_t *adev, -+ char *ptr, -+ char *end_buf, -+ struct client *bss) -+{ -+ struct iw_event iwe; -+ char *ptr_rate; -+ -+ FN_ENTER; -+ -+ /* MAC address has to be added first */ -+ iwe.cmd = SIOCGIWAP; -+ iwe.u.ap_addr.sa_family = ARPHRD_ETHER; -+ MAC_COPY(iwe.u.ap_addr.sa_data, bss->bssid); -+ acxlog_mac(L_IOCTL, "scan, station address: ", bss->bssid, "\n"); -+ ptr = iwe_stream_add_event(ptr, end_buf, &iwe, IW_EV_ADDR_LEN); -+ -+ /* Add ESSID */ -+ iwe.cmd = SIOCGIWESSID; -+ iwe.u.data.length = bss->essid_len; -+ iwe.u.data.flags = 1; -+ log(L_IOCTL, "scan, essid: %s\n", bss->essid); -+ ptr = iwe_stream_add_point(ptr, end_buf, &iwe, bss->essid); -+ -+ /* Add mode */ -+ iwe.cmd = SIOCGIWMODE; -+ if (bss->cap_info & (WF_MGMT_CAP_ESS | WF_MGMT_CAP_IBSS)) { -+ if (bss->cap_info & WF_MGMT_CAP_ESS) -+ iwe.u.mode = IW_MODE_MASTER; -+ else -+ iwe.u.mode = IW_MODE_ADHOC; -+ log(L_IOCTL, "scan, mode: %d\n", iwe.u.mode); -+ ptr = iwe_stream_add_event(ptr, end_buf, &iwe, IW_EV_UINT_LEN); -+ } -+ -+ /* Add frequency */ -+ iwe.cmd = SIOCGIWFREQ; -+ iwe.u.freq.m = acx_channel_freq[bss->channel - 1] * 100000; -+ iwe.u.freq.e = 1; -+ log(L_IOCTL, "scan, frequency: %d\n", iwe.u.freq.m); -+ ptr = iwe_stream_add_event(ptr, end_buf, &iwe, IW_EV_FREQ_LEN); -+ -+ /* Add link quality */ -+ iwe.cmd = IWEVQUAL; -+ /* FIXME: these values should be expressed in dBm, but we don't know -+ * how to calibrate it yet */ -+ iwe.u.qual.level = bss->sir; -+ iwe.u.qual.noise = bss->snr; -+#ifndef OLD_QUALITY -+ iwe.u.qual.qual = acx_signal_determine_quality(iwe.u.qual.level, -+ iwe.u.qual.noise); -+#else -+ iwe.u.qual.qual = (iwe.u.qual.noise <= 100) ? -+ 100 - iwe.u.qual.noise : 0; -+#endif -+ iwe.u.qual.updated = 7; -+ log(L_IOCTL, "scan, link quality: %d/%d/%d\n", -+ iwe.u.qual.level, iwe.u.qual.noise, iwe.u.qual.qual); -+ ptr = iwe_stream_add_event(ptr, end_buf, &iwe, IW_EV_QUAL_LEN); -+ -+ /* Add encryption */ -+ iwe.cmd = SIOCGIWENCODE; -+ if (bss->cap_info & WF_MGMT_CAP_PRIVACY) -+ iwe.u.data.flags = IW_ENCODE_ENABLED | IW_ENCODE_NOKEY; -+ else -+ iwe.u.data.flags = IW_ENCODE_DISABLED; -+ iwe.u.data.length = 0; -+ log(L_IOCTL, "scan, encryption flags: %X\n", iwe.u.data.flags); -+ ptr = iwe_stream_add_point(ptr, end_buf, &iwe, bss->essid); -+ -+ /* add rates */ -+ iwe.cmd = SIOCGIWRATE; -+ iwe.u.bitrate.fixed = iwe.u.bitrate.disabled = 0; -+ ptr_rate = ptr + IW_EV_LCP_LEN; -+ -+ { -+ u16 rate = bss->rate_cap; -+ const u8* p = acx_bitpos2ratebyte; -+ while (rate) { -+ if (rate & 1) { -+ iwe.u.bitrate.value = *p * 500000; /* units of 500kb/s */ -+ log(L_IOCTL, "scan, rate: %d\n", iwe.u.bitrate.value); -+ ptr_rate = iwe_stream_add_value(ptr, ptr_rate, end_buf, -+ &iwe, IW_EV_PARAM_LEN); -+ } -+ rate >>= 1; -+ p++; -+ }} -+ -+ if ((ptr_rate - ptr) > (ptrdiff_t)IW_EV_LCP_LEN) -+ ptr = ptr_rate; -+ -+ /* drop remaining station data items for now */ -+ -+ FN_EXIT0; -+ return ptr; -+} -+ -+ -+/*********************************************************************** -+ * acx_ioctl_get_scan -+ */ -+static int -+acx_ioctl_get_scan( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_point *dwrq = &wrqu->data; -+ acx_device_t *adev = ndev2adev(ndev); -+ char *ptr = extra; -+ int i; -+ int result = OK; -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ -+ /* no scan available if device is not up yet */ -+ if (!(adev->dev_state_mask & ACX_STATE_IFACE_UP)) { -+ log(L_IOCTL, "iface not up yet\n"); -+ result = -EAGAIN; -+ goto end_unlock; -+ } -+ -+#ifdef ENODATA_TO_BE_USED_AFTER_SCAN_ERROR_ONLY -+ if (adev->bss_table_count == 0) { -+ /* no stations found */ -+ result = -ENODATA; -+ goto end_unlock; -+ } -+#endif -+ -+ for (i = 0; i < VEC_SIZE(adev->sta_list); i++) { -+ struct client *bss = &adev->sta_list[i]; -+ if (!bss->used) continue; -+ ptr = acx_s_scan_add_station(adev, ptr, -+ extra + IW_SCAN_MAX_DATA, bss); -+ } -+ dwrq->length = ptr - extra; -+ dwrq->flags = 0; -+ -+end_unlock: -+ acx_sem_unlock(adev); -+/* end: */ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_essid -+*/ -+static int -+acx_ioctl_set_essid( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_point *dwrq = &wrqu->essid; -+ acx_device_t *adev = ndev2adev(ndev); -+ int len = dwrq->length; -+ int result; -+ -+ FN_ENTER; -+ -+ if (len < 0) { -+ result = -EINVAL; -+ goto end; -+ } -+ -+ log(L_IOCTL, "set ESSID '%*s', length %d, flags 0x%04X\n", -+ len, extra, len, dwrq->flags); -+ -+#if WIRELESS_EXT >= 21 -+ /* WE 21 gives real ESSID strlen, not +1 (trailing zero): -+ * see LKML "[patch] drivers/net/wireless: correct reported ssid lengths" */ -+ len += 1; -+#endif -+ -+ acx_sem_lock(adev); -+ -+ /* ESSID disabled? */ -+ if (0 == dwrq->flags) { -+ adev->essid_active = 0; -+ -+ } else { -+ if (len > IW_ESSID_MAX_SIZE) { -+ result = -E2BIG; -+ goto end_unlock; -+ } -+ -+ if (len >= sizeof(adev->essid)) -+ len = sizeof(adev->essid) - 1; -+ memcpy(adev->essid, extra, len); -+ adev->essid[len] = '\0'; -+ /* Paranoia: just in case there is a '\0'... */ -+ adev->essid_len = strlen(adev->essid); -+ adev->essid_active = 1; -+ } -+ -+ SET_BIT(adev->set_mask, GETSET_RESCAN); -+ -+ result = -EINPROGRESS; -+ -+end_unlock: -+ acx_sem_unlock(adev); -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx_ioctl_get_essid( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_point *dwrq = &wrqu->essid; -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ dwrq->flags = adev->essid_active; -+ if (adev->essid_active) { -+ memcpy(extra, adev->essid, adev->essid_len); -+ extra[adev->essid_len] = '\0'; -+ dwrq->length = adev->essid_len + 1; -+ dwrq->flags = 1; -+ } -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acx_l_update_client_rates -+*/ -+static void -+acx_l_update_client_rates(acx_device_t *adev, u16 rate) -+{ -+ int i; -+ for (i = 0; i < VEC_SIZE(adev->sta_list); i++) { -+ client_t *clt = &adev->sta_list[i]; -+ if (!clt->used) continue; -+ clt->rate_cfg = (clt->rate_cap & rate); -+ if (!clt->rate_cfg) { -+ /* no compatible rates left: kick client */ -+ acxlog_mac(L_ASSOC, "client ",clt->address," kicked: " -+ "rates are not compatible anymore\n"); -+ acx_l_sta_list_del(adev, clt); -+ continue; -+ } -+ clt->rate_cur &= clt->rate_cfg; -+ if (!clt->rate_cur) { -+ /* current rate become invalid, choose a valid one */ -+ clt->rate_cur = 1 << lowest_bit(clt->rate_cfg); -+ } -+ if (IS_ACX100(adev)) -+ clt->rate_100 = acx_bitpos2rate100[highest_bit(clt->rate_cur)]; -+ clt->fallback_count = clt->stepup_count = 0; -+ clt->ignore_count = 16; -+ } -+ switch (adev->mode) { -+ case ACX_MODE_2_STA: -+ if (adev->ap_client && !adev->ap_client->used) { -+ /* Owwww... we kicked our AP!! :) */ -+ SET_BIT(adev->set_mask, GETSET_RESCAN); -+ } -+ } -+} -+ -+ -+/*********************************************************************** -+*/ -+/* maps bits from acx111 rate to rate in Mbits */ -+static const unsigned int -+acx111_rate_tbl[] = { -+ 1000000, /* 0 */ -+ 2000000, /* 1 */ -+ 5500000, /* 2 */ -+ 6000000, /* 3 */ -+ 9000000, /* 4 */ -+ 11000000, /* 5 */ -+ 12000000, /* 6 */ -+ 18000000, /* 7 */ -+ 22000000, /* 8 */ -+ 24000000, /* 9 */ -+ 36000000, /* 10 */ -+ 48000000, /* 11 */ -+ 54000000, /* 12 */ -+ 500000, /* 13, should not happen */ -+ 500000, /* 14, should not happen */ -+ 500000, /* 15, should not happen */ -+}; -+ -+/*********************************************************************** -+ * acx_ioctl_set_rate -+ */ -+static int -+acx_ioctl_set_rate( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->param; -+ acx_device_t *adev = ndev2adev(ndev); -+ u16 txrate_cfg = 1; -+ unsigned long flags; -+ int autorate; -+ int result = -EINVAL; -+ -+ FN_ENTER; -+ log(L_IOCTL, "rate %d fixed 0x%X disabled 0x%X flags 0x%X\n", -+ vwrq->value, vwrq->fixed, vwrq->disabled, vwrq->flags); -+ -+ if ((0 == vwrq->fixed) || (1 == vwrq->fixed)) { -+ int i = VEC_SIZE(acx111_rate_tbl)-1; -+ if (vwrq->value == -1) -+ /* "iwconfig rate auto" --> choose highest */ -+ vwrq->value = IS_ACX100(adev) ? 22000000 : 54000000; -+ while (i >= 0) { -+ if (vwrq->value == acx111_rate_tbl[i]) { -+ txrate_cfg <<= i; -+ i = 0; -+ break; -+ } -+ i--; -+ } -+ if (i == -1) { /* no matching rate */ -+ result = -EINVAL; -+ goto end; -+ } -+ } else { /* rate N, N<1000 (driver specific): we don't use this */ -+ result = -EOPNOTSUPP; -+ goto end; -+ } -+ /* now: only one bit is set in txrate_cfg, corresponding to -+ ** indicated rate */ -+ -+ autorate = (vwrq->fixed == 0) && (RATE111_1 != txrate_cfg); -+ if (autorate) { -+ /* convert 00100000 -> 00111111 */ -+ txrate_cfg = (txrate_cfg<<1)-1; -+ } -+ -+ if (IS_ACX100(adev)) { -+ txrate_cfg &= RATE111_ACX100_COMPAT; -+ if (!txrate_cfg) { -+ result = -ENOTSUPP; /* rate is not supported by acx100 */ -+ goto end; -+ } -+ } -+ -+ acx_sem_lock(adev); -+ acx_lock(adev, flags); -+ -+ adev->rate_auto = autorate; -+ adev->rate_oper = txrate_cfg; -+ adev->rate_basic = txrate_cfg; -+ /* only do that in auto mode, non-auto will be able to use -+ * one specific Tx rate only anyway */ -+ if (autorate) { -+ /* only use 802.11b base rates, for standard 802.11b H/W -+ * compatibility */ -+ adev->rate_basic &= RATE111_80211B_COMPAT; -+ } -+ adev->rate_bcast = 1 << lowest_bit(txrate_cfg); -+ if (IS_ACX100(adev)) -+ adev->rate_bcast100 = acx_rate111to100(adev->rate_bcast); -+ acx_l_update_ratevector(adev); -+ acx_l_update_client_rates(adev, txrate_cfg); -+ -+ /* Do/don't do tx rate fallback; beacon contents and rate */ -+ SET_BIT(adev->set_mask, SET_RATE_FALLBACK|SET_TEMPLATES); -+ result = -EINPROGRESS; -+ -+ acx_unlock(adev, flags); -+ acx_sem_unlock(adev); -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_get_rate -+*/ -+static int -+acx_ioctl_get_rate( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->param; -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ u16 rate; -+ -+ acx_lock(adev, flags); -+ rate = adev->rate_oper; -+ if (adev->ap_client) -+ rate = adev->ap_client->rate_cur; -+ vwrq->value = acx111_rate_tbl[highest_bit(rate)]; -+ vwrq->fixed = !adev->rate_auto; -+ vwrq->disabled = 0; -+ acx_unlock(adev, flags); -+ -+ return OK; -+} -+ -+static int -+acx_ioctl_set_rts( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->rts; -+ acx_device_t *adev = ndev2adev(ndev); -+ int val = vwrq->value; -+ -+ if (vwrq->disabled) -+ val = 2312; -+ if ((val < 0) || (val > 2312)) -+ return -EINVAL; -+ -+ adev->rts_threshold = val; -+ return OK; -+} -+ -+static inline int -+acx_ioctl_get_rts( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->rts; -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ vwrq->value = adev->rts_threshold; -+ vwrq->disabled = (vwrq->value >= 2312); -+ vwrq->fixed = 1; -+ return OK; -+} -+ -+ -+#if ACX_FRAGMENTATION -+static int -+acx_ioctl_set_frag( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ struct iw_param *vwrq, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int val = vwrq->value; -+ -+ if (vwrq->disabled) -+ val = 32767; -+ else -+ if ((val < 256) || (val > 2347)) -+ return -EINVAL; -+ -+ adev->frag_threshold = val; -+ return OK; -+} -+ -+static inline int -+acx_ioctl_get_frag( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->frag; -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ vwrq->value = adev->frag_threshold; -+ vwrq->disabled = (vwrq->value >= 2347); -+ vwrq->fixed = 1; -+ return OK; -+} -+#endif -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_encode -+*/ -+static int -+acx_ioctl_set_encode( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_point *dwrq = &wrqu->encoding; -+ acx_device_t *adev = ndev2adev(ndev); -+ int index; -+ int result; -+ -+ FN_ENTER; -+ -+ log(L_IOCTL, "set encoding flags=0x%04X, size=%d, key: %s\n", -+ dwrq->flags, dwrq->length, extra ? "set" : "No key"); -+ -+ acx_sem_lock(adev); -+ -+ index = (dwrq->flags & IW_ENCODE_INDEX) - 1; -+ -+ if (dwrq->length > 0) { -+ /* if index is 0 or invalid, use default key */ -+ if ((index < 0) || (index > 3)) -+ index = (int)adev->wep_current_index; -+ -+ if (0 == (dwrq->flags & IW_ENCODE_NOKEY)) { -+ if (dwrq->length > 29) -+ dwrq->length = 29; /* restrict it */ -+ -+ if (dwrq->length > 13) { -+ /* 29*8 == 232, WEP256 */ -+ adev->wep_keys[index].size = 29; -+ } else if (dwrq->length > 5) { -+ /* 13*8 == 104bit, WEP128 */ -+ adev->wep_keys[index].size = 13; -+ } else if (dwrq->length > 0) { -+ /* 5*8 == 40bit, WEP64 */ -+ adev->wep_keys[index].size = 5; -+ } else { -+ /* disable key */ -+ adev->wep_keys[index].size = 0; -+ } -+ -+ memset(adev->wep_keys[index].key, 0, -+ sizeof(adev->wep_keys[index].key)); -+ memcpy(adev->wep_keys[index].key, extra, dwrq->length); -+ } -+ } else { -+ /* set transmit key */ -+ if ((index >= 0) && (index <= 3)) -+ adev->wep_current_index = index; -+ else if (0 == (dwrq->flags & IW_ENCODE_MODE)) { -+ /* complain if we were not just setting -+ * the key mode */ -+ result = -EINVAL; -+ goto end_unlock; -+ } -+ } -+ -+ adev->wep_enabled = !(dwrq->flags & IW_ENCODE_DISABLED); -+ -+ if (dwrq->flags & IW_ENCODE_OPEN) { -+ adev->auth_alg = WLAN_AUTH_ALG_OPENSYSTEM; -+ adev->wep_restricted = 0; -+ -+ } else if (dwrq->flags & IW_ENCODE_RESTRICTED) { -+ adev->auth_alg = WLAN_AUTH_ALG_SHAREDKEY; -+ adev->wep_restricted = 1; -+ } -+ -+ /* set flag to make sure the card WEP settings get updated */ -+ SET_BIT(adev->set_mask, GETSET_WEP); -+ -+ log(L_IOCTL, "len=%d, key at 0x%p, flags=0x%X\n", -+ dwrq->length, extra, dwrq->flags); -+ -+ for (index = 0; index <= 3; index++) { -+ if (adev->wep_keys[index].size) { -+ log(L_IOCTL, "index=%d, size=%d, key at 0x%p\n", -+ adev->wep_keys[index].index, -+ (int) adev->wep_keys[index].size, -+ adev->wep_keys[index].key); -+ } -+ } -+ result = -EINPROGRESS; -+ -+end_unlock: -+ acx_sem_unlock(adev); -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_get_encode -+*/ -+static int -+acx_ioctl_get_encode( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_point *dwrq = &wrqu->encoding; -+ acx_device_t *adev = ndev2adev(ndev); -+ int index = (dwrq->flags & IW_ENCODE_INDEX) - 1; -+ -+ FN_ENTER; -+ -+ if (adev->wep_enabled == 0) { -+ dwrq->flags = IW_ENCODE_DISABLED; -+ } else { -+ if ((index < 0) || (index > 3)) -+ index = (int)adev->wep_current_index; -+ -+ dwrq->flags = (adev->wep_restricted == 1) ? -+ IW_ENCODE_RESTRICTED : IW_ENCODE_OPEN; -+ dwrq->length = adev->wep_keys[index].size; -+ -+ memcpy(extra, adev->wep_keys[index].key, -+ adev->wep_keys[index].size); -+ } -+ -+ /* set the current index */ -+ SET_BIT(dwrq->flags, index + 1); -+ -+ log(L_IOCTL, "len=%d, key=%p, flags=0x%X\n", -+ dwrq->length, dwrq->pointer, -+ dwrq->flags); -+ -+ FN_EXIT1(OK); -+ return OK; -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx_ioctl_set_power( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->power; -+ acx_device_t *adev = ndev2adev(ndev); -+ int result = -EINPROGRESS; -+ -+ FN_ENTER; -+ -+ log(L_IOCTL, "set 802.11 powersave flags=0x%04X\n", vwrq->flags); -+ -+ acx_sem_lock(adev); -+ -+ if (vwrq->disabled) { -+ CLEAR_BIT(adev->ps_wakeup_cfg, PS_CFG_ENABLE); -+ SET_BIT(adev->set_mask, GETSET_POWER_80211); -+ goto end; -+ } -+ if ((vwrq->flags & IW_POWER_TYPE) == IW_POWER_TIMEOUT) { -+ u16 ps_timeout = (vwrq->value * 1024) / 1000; -+ -+ if (ps_timeout > 255) -+ ps_timeout = 255; -+ log(L_IOCTL, "setting PS timeout value to %d time units " -+ "due to %dus\n", ps_timeout, vwrq->value); -+ adev->ps_hangover_period = ps_timeout; -+ } else if ((vwrq->flags & IW_POWER_TYPE) == IW_POWER_PERIOD) { -+ u16 ps_periods = vwrq->value / 1000000; -+ -+ if (ps_periods > 255) -+ ps_periods = 255; -+ log(L_IOCTL, "setting PS period value to %d periods " -+ "due to %dus\n", ps_periods, vwrq->value); -+ adev->ps_listen_interval = ps_periods; -+ CLEAR_BIT(adev->ps_wakeup_cfg, PS_CFG_WAKEUP_MODE_MASK); -+ SET_BIT(adev->ps_wakeup_cfg, PS_CFG_WAKEUP_EACH_ITVL); -+ } -+ -+ switch (vwrq->flags & IW_POWER_MODE) { -+ /* FIXME: are we doing the right thing here? */ -+ case IW_POWER_UNICAST_R: -+ CLEAR_BIT(adev->ps_options, PS_OPT_STILL_RCV_BCASTS); -+ break; -+ case IW_POWER_MULTICAST_R: -+ SET_BIT(adev->ps_options, PS_OPT_STILL_RCV_BCASTS); -+ break; -+ case IW_POWER_ALL_R: -+ SET_BIT(adev->ps_options, PS_OPT_STILL_RCV_BCASTS); -+ break; -+ case IW_POWER_ON: -+ break; -+ default: -+ log(L_IOCTL, "unknown PS mode\n"); -+ result = -EINVAL; -+ goto end; -+ } -+ -+ SET_BIT(adev->ps_wakeup_cfg, PS_CFG_ENABLE); -+ SET_BIT(adev->set_mask, GETSET_POWER_80211); -+end: -+ acx_sem_unlock(adev); -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx_ioctl_get_power( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->power; -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ FN_ENTER; -+ -+ log(L_IOCTL, "Get 802.11 Power Save flags = 0x%04X\n", vwrq->flags); -+ vwrq->disabled = ((adev->ps_wakeup_cfg & PS_CFG_ENABLE) == 0); -+ if (vwrq->disabled) -+ goto end; -+ -+ if ((vwrq->flags & IW_POWER_TYPE) == IW_POWER_TIMEOUT) { -+ vwrq->value = adev->ps_hangover_period * 1000 / 1024; -+ vwrq->flags = IW_POWER_TIMEOUT; -+ } else { -+ vwrq->value = adev->ps_listen_interval * 1000000; -+ vwrq->flags = IW_POWER_PERIOD|IW_POWER_RELATIVE; -+ } -+ if (adev->ps_options & PS_OPT_STILL_RCV_BCASTS) -+ SET_BIT(vwrq->flags, IW_POWER_ALL_R); -+ else -+ SET_BIT(vwrq->flags, IW_POWER_UNICAST_R); -+end: -+ FN_EXIT1(OK); -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_get_txpow -+*/ -+static inline int -+acx_ioctl_get_txpow( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->power; -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ FN_ENTER; -+ -+ vwrq->flags = IW_TXPOW_DBM; -+ vwrq->disabled = 0; -+ vwrq->fixed = 1; -+ vwrq->value = adev->tx_level_dbm; -+ -+ log(L_IOCTL, "get txpower:%d dBm\n", adev->tx_level_dbm); -+ -+ FN_EXIT1(OK); -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_txpow -+*/ -+static int -+acx_ioctl_set_txpow( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->power; -+ acx_device_t *adev = ndev2adev(ndev); -+ int result; -+ -+ FN_ENTER; -+ -+ log(L_IOCTL, "set txpower:%d, disabled:%d, flags:0x%04X\n", -+ vwrq->value, vwrq->disabled, vwrq->flags); -+ -+ acx_sem_lock(adev); -+ -+ if (vwrq->disabled != adev->tx_disabled) { -+ SET_BIT(adev->set_mask, GETSET_TX); -+ } -+ -+ adev->tx_disabled = vwrq->disabled; -+ if (vwrq->value == -1) { -+ if (vwrq->disabled) { -+ adev->tx_level_dbm = 0; -+ log(L_IOCTL, "disable radio tx\n"); -+ } else { -+ /* adev->tx_level_auto = 1; */ -+ log(L_IOCTL, "set tx power auto (NIY)\n"); -+ } -+ } else { -+ adev->tx_level_dbm = vwrq->value <= 20 ? vwrq->value : 20; -+ /* adev->tx_level_auto = 0; */ -+ log(L_IOCTL, "set txpower=%d dBm\n", adev->tx_level_dbm); -+ } -+ SET_BIT(adev->set_mask, GETSET_TXPOWER); -+ -+ result = -EINPROGRESS; -+ -+ acx_sem_unlock(adev); -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_get_range -+*/ -+static int -+acx_ioctl_get_range( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_point *dwrq = &wrqu->data; -+ struct iw_range *range = (struct iw_range *)extra; -+ acx_device_t *adev = ndev2adev(ndev); -+ int i,n; -+ -+ FN_ENTER; -+ -+ if (!dwrq->pointer) -+ goto end; -+ -+ dwrq->length = sizeof(struct iw_range); -+ memset(range, 0, sizeof(struct iw_range)); -+ n = 0; -+ for (i = 1; i <= 14; i++) { -+ if (adev->reg_dom_chanmask & (1 << (i - 1))) { -+ range->freq[n].i = i; -+ range->freq[n].m = acx_channel_freq[i - 1] * 100000; -+ range->freq[n].e = 1; /* units are MHz */ -+ n++; -+ } -+ } -+ range->num_channels = n; -+ range->num_frequency = n; -+ -+ range->min_rts = 0; -+ range->max_rts = 2312; -+ -+#if ACX_FRAGMENTATION -+ range->min_frag = 256; -+ range->max_frag = 2312; -+#endif -+ -+ range->encoding_size[0] = 5; -+ range->encoding_size[1] = 13; -+ range->encoding_size[2] = 29; -+ range->num_encoding_sizes = 3; -+ range->max_encoding_tokens = 4; -+ -+ range->min_pmp = 0; -+ range->max_pmp = 5000000; -+ range->min_pmt = 0; -+ range->max_pmt = 65535 * 1000; -+ range->pmp_flags = IW_POWER_PERIOD; -+ range->pmt_flags = IW_POWER_TIMEOUT; -+ range->pm_capa = IW_POWER_PERIOD | IW_POWER_TIMEOUT | IW_POWER_ALL_R; -+ -+ if (IS_ACX100(adev)) { /* ACX100 has direct radio programming - arbitrary levels, so offer a lot */ -+ for (i = 0; i <= IW_MAX_TXPOWER - 1; i++) -+ range->txpower[i] = 20 * i / (IW_MAX_TXPOWER - 1); -+ range->num_txpower = IW_MAX_TXPOWER; -+ range->txpower_capa = IW_TXPOW_DBM; -+ } -+ else { -+ int count = min(IW_MAX_TXPOWER, (int)adev->cfgopt_power_levels.len); -+ for (i = 0; i <= count; i++) -+ range->txpower[i] = adev->cfgopt_power_levels.list[i]; -+ range->num_txpower = count; -+ /* this list is given in mW */ -+ range->txpower_capa = IW_TXPOW_MWATT; -+ } -+ -+ range->we_version_compiled = WIRELESS_EXT; -+ range->we_version_source = 0x9; -+ -+ range->retry_capa = IW_RETRY_LIMIT; -+ range->retry_flags = IW_RETRY_LIMIT; -+ range->min_retry = 1; -+ range->max_retry = 255; -+ -+ range->r_time_flags = IW_RETRY_LIFETIME; -+ range->min_r_time = 0; -+ /* FIXME: lifetime ranges and orders of magnitude are strange?? */ -+ range->max_r_time = 65535; -+ -+ if (IS_USB(adev)) -+ range->sensitivity = 0; -+ else if (IS_ACX111(adev)) -+ range->sensitivity = 3; -+ else -+ range->sensitivity = 255; -+ -+ for (i=0; i < adev->rate_supported_len; i++) { -+ range->bitrate[i] = (adev->rate_supported[i] & ~0x80) * 500000; -+ /* never happens, but keep it, to be safe: */ -+ if (range->bitrate[i] == 0) -+ break; -+ } -+ range->num_bitrates = i; -+ -+ range->max_qual.qual = 100; -+ range->max_qual.level = 100; -+ range->max_qual.noise = 100; -+ /* TODO: better values */ -+ range->avg_qual.qual = 90; -+ range->avg_qual.level = 80; -+ range->avg_qual.noise = 2; -+ -+end: -+ FN_EXIT1(OK); -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** Private functions -+*/ -+ -+/*********************************************************************** -+** acx_ioctl_get_nick -+*/ -+static inline int -+acx_ioctl_get_nick( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_point *dwrq = &wrqu->data; -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ strcpy(extra, adev->nick); -+ dwrq->length = strlen(extra) + 1; -+ -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_nick -+*/ -+static int -+acx_ioctl_set_nick( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_point *dwrq = &wrqu->data; -+ acx_device_t *adev = ndev2adev(ndev); -+ int result; -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ -+ if (dwrq->length > IW_ESSID_MAX_SIZE + 1) { -+ result = -E2BIG; -+ goto end_unlock; -+ } -+ -+ /* extra includes trailing \0, so it's ok */ -+ strcpy(adev->nick, extra); -+ result = OK; -+ -+end_unlock: -+ acx_sem_unlock(adev); -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_get_retry -+*/ -+static int -+acx_ioctl_get_retry( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->retry; -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned int type = vwrq->flags & IW_RETRY_TYPE; -+ unsigned int modifier = vwrq->flags & IW_RETRY_MODIFIER; -+ int result; -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ -+ /* return the short retry number by default */ -+ if (type == IW_RETRY_LIFETIME) { -+ vwrq->flags = IW_RETRY_LIFETIME; -+ vwrq->value = adev->msdu_lifetime; -+ } else if (modifier == IW_RETRY_MAX) { -+ vwrq->flags = IW_RETRY_LIMIT | IW_RETRY_MAX; -+ vwrq->value = adev->long_retry; -+ } else { -+ vwrq->flags = IW_RETRY_LIMIT; -+ if (adev->long_retry != adev->short_retry) -+ SET_BIT(vwrq->flags, IW_RETRY_MIN); -+ vwrq->value = adev->short_retry; -+ } -+ -+ /* can't be disabled */ -+ vwrq->disabled = (u8)0; -+ result = OK; -+ -+ acx_sem_unlock(adev); -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_retry -+*/ -+static int -+acx_ioctl_set_retry( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->retry; -+ acx_device_t *adev = ndev2adev(ndev); -+ int result; -+ -+ FN_ENTER; -+ -+ if (!vwrq) { -+ result = -EFAULT; -+ goto end; -+ } -+ if (vwrq->disabled) { -+ result = -EINVAL; -+ goto end; -+ } -+ -+ acx_sem_lock(adev); -+ -+ result = -EINVAL; -+ if (IW_RETRY_LIMIT == (vwrq->flags & IW_RETRY_TYPE)) { -+ printk("old retry limits: short %d long %d\n", -+ adev->short_retry, adev->long_retry); -+ if (vwrq->flags & IW_RETRY_MAX) { -+ adev->long_retry = vwrq->value; -+ } else if (vwrq->flags & IW_RETRY_MIN) { -+ adev->short_retry = vwrq->value; -+ } else { -+ /* no modifier: set both */ -+ adev->long_retry = vwrq->value; -+ adev->short_retry = vwrq->value; -+ } -+ printk("new retry limits: short %d long %d\n", -+ adev->short_retry, adev->long_retry); -+ SET_BIT(adev->set_mask, GETSET_RETRY); -+ result = -EINPROGRESS; -+ } -+ else if (vwrq->flags & IW_RETRY_LIFETIME) { -+ adev->msdu_lifetime = vwrq->value; -+ printk("new MSDU lifetime: %d\n", adev->msdu_lifetime); -+ SET_BIT(adev->set_mask, SET_MSDU_LIFETIME); -+ result = -EINPROGRESS; -+ } -+ -+ acx_sem_unlock(adev); -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/************************ private ioctls ******************************/ -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_debug -+*/ -+#if ACX_DEBUG -+static int -+acx_ioctl_set_debug( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ unsigned int debug_new = *((unsigned int *)extra); -+ int result = -EINVAL; -+ -+ log(L_ANY, "setting debug from %04X to %04X\n", acx_debug, debug_new); -+ acx_debug = debug_new; -+ -+ result = OK; -+ return result; -+ -+} -+#endif -+ -+ -+/*********************************************************************** -+** acx_ioctl_list_reg_domain -+*/ -+static int -+acx_ioctl_list_reg_domain( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ int i = 1; -+ const char * const *entry = acx_reg_domain_strings; -+ -+ printk("dom# chan# domain/country\n"); -+ while (*entry) -+ printk("%4d %s\n", i++, *entry++); -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_reg_domain -+*/ -+static int -+acx_ioctl_set_reg_domain( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int result; -+ -+ FN_ENTER; -+ -+ if ((*extra < 1) || ((size_t)*extra > acx_reg_domain_ids_len)) { -+ result = -EINVAL; -+ goto end; -+ } -+ -+ acx_sem_lock(adev); -+ -+ adev->reg_dom_id = acx_reg_domain_ids[*extra - 1]; -+ SET_BIT(adev->set_mask, GETSET_REG_DOMAIN); -+ -+ result = -EINPROGRESS; -+ -+ acx_sem_unlock(adev); -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_get_reg_domain -+*/ -+static int -+acx_ioctl_get_reg_domain( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int dom,i; -+ -+ /* no locking */ -+ dom = adev->reg_dom_id; -+ -+ for (i = 1; i <= acx_reg_domain_ids_len; i++) { -+ if (acx_reg_domain_ids[i-1] == dom) { -+ log(L_IOCTL, "regulatory domain is currently set " -+ "to %d (0x%X): %s\n", i, dom, -+ acx_reg_domain_strings[i-1]); -+ *extra = i; -+ break; -+ } -+ } -+ -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_short_preamble -+*/ -+static const char * const -+preamble_modes[] = { -+ "off", -+ "on", -+ "auto (peer capability dependent)", -+ "unknown mode, error" -+}; -+ -+static int -+acx_ioctl_set_short_preamble( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int i; -+ int result; -+ -+ FN_ENTER; -+ -+ if ((unsigned char)*extra > 2) { -+ result = -EINVAL; -+ goto end; -+ } -+ -+ acx_sem_lock(adev); -+ -+ adev->preamble_mode = (u8)*extra; -+ switch (adev->preamble_mode) { -+ case 0: /* long */ -+ adev->preamble_cur = 0; -+ break; -+ case 1: -+ /* short, kick incapable peers */ -+ adev->preamble_cur = 1; -+ for (i = 0; i < VEC_SIZE(adev->sta_list); i++) { -+ client_t *clt = &adev->sta_list[i]; -+ if (!clt->used) continue; -+ if (!(clt->cap_info & WF_MGMT_CAP_SHORT)) { -+ clt->used = CLIENT_EMPTY_SLOT_0; -+ } -+ } -+ switch (adev->mode) { -+ case ACX_MODE_2_STA: -+ if (adev->ap_client && !adev->ap_client->used) { -+ /* We kicked our AP :) */ -+ SET_BIT(adev->set_mask, GETSET_RESCAN); -+ } -+ } -+ break; -+ case 2: /* auto. short only if all peers are short-capable */ -+ adev->preamble_cur = 1; -+ for (i = 0; i < VEC_SIZE(adev->sta_list); i++) { -+ client_t *clt = &adev->sta_list[i]; -+ if (!clt->used) continue; -+ if (!(clt->cap_info & WF_MGMT_CAP_SHORT)) { -+ adev->preamble_cur = 0; -+ break; -+ } -+ } -+ break; -+ } -+ printk("new short preamble setting: configured %s, active %s\n", -+ preamble_modes[adev->preamble_mode], -+ preamble_modes[adev->preamble_cur]); -+ result = OK; -+ -+ acx_sem_unlock(adev); -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_get_short_preamble -+*/ -+static int -+acx_ioctl_get_short_preamble( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ acx_sem_lock(adev); -+ -+ printk("current short preamble setting: configured %s, active %s\n", -+ preamble_modes[adev->preamble_mode], -+ preamble_modes[adev->preamble_cur]); -+ -+ *extra = (char)adev->preamble_mode; -+ -+ acx_sem_unlock(adev); -+ -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_antenna -+** -+** TX and RX antenna can be set separately but this function good -+** for testing 0-4 bits -+*/ -+static int -+acx_ioctl_set_antenna( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ acx_sem_lock(adev); -+ -+ printk("old antenna value: 0x%02X (COMBINED bit mask)\n" -+ "Rx antenna selection:\n" -+ "0x00 ant. 1\n" -+ "0x40 ant. 2\n" -+ "0x80 full diversity\n" -+ "0xc0 partial diversity\n" -+ "0x0f dwell time mask (in units of us)\n" -+ "Tx antenna selection:\n" -+ "0x00 ant. 2\n" /* yep, those ARE reversed! */ -+ "0x20 ant. 1\n" -+ "new antenna value: 0x%02X\n", -+ adev->antenna, (u8)*extra); -+ -+ adev->antenna = (u8)*extra; -+ SET_BIT(adev->set_mask, GETSET_ANTENNA); -+ -+ acx_sem_unlock(adev); -+ -+ return -EINPROGRESS; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_get_antenna -+*/ -+static int -+acx_ioctl_get_antenna( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ /* no locking. it's pointless to lock a single load */ -+ printk("current antenna value: 0x%02X (COMBINED bit mask)\n" -+ "Rx antenna selection:\n" -+ "0x00 ant. 1\n" -+ "0x40 ant. 2\n" -+ "0x80 full diversity\n" -+ "0xc0 partial diversity\n" -+ "Tx antenna selection:\n" -+ "0x00 ant. 2\n" /* yep, those ARE reversed! */ -+ "0x20 ant. 1\n", adev->antenna); -+ -+ return 0; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_rx_antenna -+** -+** 0 = antenna1; 1 = antenna2; 2 = full diversity; 3 = partial diversity -+** Could anybody test which antenna is the external one? -+*/ -+static int -+acx_ioctl_set_rx_antenna( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int result; -+ -+ FN_ENTER; -+ -+ if (*extra > 3) { -+ result = -EINVAL; -+ goto end; -+ } -+ -+ printk("old antenna value: 0x%02X\n", adev->antenna); -+ -+ acx_sem_lock(adev); -+ -+ adev->antenna &= 0x3f; -+ SET_BIT(adev->antenna, (*extra << 6)); -+ SET_BIT(adev->set_mask, GETSET_ANTENNA); -+ printk("new antenna value: 0x%02X\n", adev->antenna); -+ result = -EINPROGRESS; -+ -+ acx_sem_unlock(adev); -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_tx_antenna -+** -+** Arguments: 0 == antenna2; 1 == antenna1; -+** Could anybody test which antenna is the external one? -+*/ -+static int -+acx_ioctl_set_tx_antenna( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int result; -+ -+ FN_ENTER; -+ -+ if (*extra > 1) { -+ result = -EINVAL; -+ goto end; -+ } -+ -+ printk("old antenna value: 0x%02X\n", adev->antenna); -+ -+ acx_sem_lock(adev); -+ -+ adev->antenna &= ~0x30; -+ SET_BIT(adev->antenna, ((*extra & 0x01) << 5)); -+ SET_BIT(adev->set_mask, GETSET_ANTENNA); -+ printk("new antenna value: 0x%02X\n", adev->antenna); -+ result = -EINPROGRESS; -+ -+ acx_sem_unlock(adev); -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_wlansniff -+** -+** can we just remove this in favor of monitor mode? --vda -+*/ -+static int -+acx_ioctl_wlansniff( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned int *params = (unsigned int*)extra; -+ unsigned int enable = (unsigned int)(params[0] > 0); -+ int result; -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ -+ /* not using printk() here, since it distorts kismet display -+ * when printk messages activated */ -+ log(L_IOCTL, "setting monitor to: 0x%02X\n", params[0]); -+ -+ switch (params[0]) { -+ case 0: -+ /* no monitor mode. hmm, should we simply ignore it -+ * or go back to enabling adev->netdev->type ARPHRD_ETHER? */ -+ break; -+ case 1: -+ adev->monitor_type = ARPHRD_IEEE80211_PRISM; -+ break; -+ case 2: -+ adev->monitor_type = ARPHRD_IEEE80211; -+ break; -+ } -+ -+ if (params[0]) { -+ adev->mode = ACX_MODE_MONITOR; -+ SET_BIT(adev->set_mask, GETSET_MODE); -+ } -+ -+ if (enable) { -+ adev->channel = params[1]; -+ SET_BIT(adev->set_mask, GETSET_RX); -+ } -+ result = -EINPROGRESS; -+ -+ acx_sem_unlock(adev); -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_unknown11 -+** FIXME: looks like some sort of "iwpriv kick_sta MAC" but it's broken -+*/ -+static int -+acx_ioctl_unknown11( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+#ifdef BROKEN -+ struct iw_param *vwrq = &wrqu->param; -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ client_t client; -+ int result; -+ -+ acx_sem_lock(adev); -+ acx_lock(adev, flags); -+ -+ acx_l_transmit_disassoc(adev, &client); -+ result = OK; -+ -+ acx_unlock(adev, flags); -+ acx_sem_unlock(adev); -+ -+ return result; -+#endif -+ return -EINVAL; -+} -+ -+ -+/*********************************************************************** -+** debug helper function to be able to debug various issues relatively easily -+*/ -+static int -+acx_ioctl_dbg_set_masks( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ const unsigned int *params = (unsigned int*)extra; -+ int result; -+ -+ acx_sem_lock(adev); -+ -+ log(L_IOCTL, "setting flags in settings mask: " -+ "get_mask %08X set_mask %08X\n" -+ "before: get_mask %08X set_mask %08X\n", -+ params[0], params[1], -+ adev->get_mask, adev->set_mask); -+ SET_BIT(adev->get_mask, params[0]); -+ SET_BIT(adev->set_mask, params[1]); -+ log(L_IOCTL, "after: get_mask %08X set_mask %08X\n", -+ adev->get_mask, adev->set_mask); -+ result = -EINPROGRESS; /* immediately call commit handler */ -+ -+ acx_sem_unlock(adev); -+ -+ return result; -+} -+ -+ -+/*********************************************************************** -+* acx_ioctl_set_rates -+* -+* This ioctl takes string parameter. Examples: -+* iwpriv wlan0 SetRates "1,2" -+* use 1 and 2 Mbit rates, both are in basic rate set -+* iwpriv wlan0 SetRates "1,2 5,11" -+* use 1,2,5.5,11 Mbit rates. 1 and 2 are basic -+* iwpriv wlan0 SetRates "1,2 5c,11c" -+* same ('c' means 'CCK modulation' and it is a default for 5 and 11) -+* iwpriv wlan0 SetRates "1,2 5p,11p" -+* use 1,2,5.5,11 Mbit, 1,2 are basic. 5 and 11 are using PBCC -+* iwpriv wlan0 SetRates "1,2,5,11 22p" -+* use 1,2,5.5,11,22 Mbit. 1,2,5.5 and 11 are basic. 22 is using PBCC -+* (this is the maximum acx100 can do (modulo x4 mode)) -+* iwpriv wlan0 SetRates "1,2,5,11 22" -+* same. 802.11 defines only PBCC modulation -+* for 22 and 33 Mbit rates, so there is no ambiguity -+* iwpriv wlan0 SetRates "1,2,5,11 6o,9o,12o,18o,24o,36o,48o,54o" -+* 1,2,5.5 and 11 are basic. 11g OFDM rates are enabled but -+* they are not in basic rate set. 22 Mbit is disabled. -+* iwpriv wlan0 SetRates "1,2,5,11 6,9,12,18,24,36,48,54" -+* same. OFDM is default for 11g rates except 22 and 33 Mbit, -+* thus 'o' is optional -+* iwpriv wlan0 SetRates "1,2,5,11 6d,9d,12d,18d,24d,36d,48d,54d" -+* 1,2,5.5 and 11 are basic. 11g CCK-OFDM rates are enabled -+* (acx111 does not support CCK-OFDM, driver will reject this cmd) -+* iwpriv wlan0 SetRates "6,9,12 18,24,36,48,54" -+* 6,9,12 are basic, rest of 11g rates is enabled. Using OFDM -+*/ -+#include "setrate.c" -+ -+/* disallow: 33Mbit (unsupported by hw) */ -+/* disallow: CCKOFDM (unsupported by hw) */ -+static int -+acx111_supported(int mbit, int modulation, void *opaque) -+{ -+ if (mbit==33) return -ENOTSUPP; -+ if (modulation==DOT11_MOD_CCKOFDM) return -ENOTSUPP; -+ return OK; -+} -+ -+static const u16 -+acx111mask[] = { -+ [DOT11_RATE_1 ] = RATE111_1 , -+ [DOT11_RATE_2 ] = RATE111_2 , -+ [DOT11_RATE_5 ] = RATE111_5 , -+ [DOT11_RATE_11] = RATE111_11, -+ [DOT11_RATE_22] = RATE111_22, -+ /* [DOT11_RATE_33] = */ -+ [DOT11_RATE_6 ] = RATE111_6 , -+ [DOT11_RATE_9 ] = RATE111_9 , -+ [DOT11_RATE_12] = RATE111_12, -+ [DOT11_RATE_18] = RATE111_18, -+ [DOT11_RATE_24] = RATE111_24, -+ [DOT11_RATE_36] = RATE111_36, -+ [DOT11_RATE_48] = RATE111_48, -+ [DOT11_RATE_54] = RATE111_54, -+}; -+ -+static u32 -+acx111_gen_mask(int mbit, int modulation, void *opaque) -+{ -+ /* lower 16 bits show selected 1, 2, CCK and OFDM rates */ -+ /* upper 16 bits show selected PBCC rates */ -+ u32 m = acx111mask[rate_mbit2enum(mbit)]; -+ if (modulation==DOT11_MOD_PBCC) -+ return m<<16; -+ return m; -+} -+ -+static int -+verify_rate(u32 rate, int chip_type) -+{ -+ /* never happens. be paranoid */ -+ if (!rate) return -EINVAL; -+ -+ /* disallow: mixing PBCC and CCK at 5 and 11Mbit -+ ** (can be supported, but needs complicated handling in tx code) */ -+ if (( rate & ((RATE111_11+RATE111_5)<<16) ) -+ && ( rate & (RATE111_11+RATE111_5) ) -+ ) { -+ return -ENOTSUPP; -+ } -+ if (CHIPTYPE_ACX100 == chip_type) { -+ if ( rate & ~(RATE111_ACX100_COMPAT+(RATE111_ACX100_COMPAT<<16)) ) -+ return -ENOTSUPP; -+ } -+ return 0; -+} -+ -+static int -+acx_ioctl_set_rates(struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ int result; -+ u32 brate = 0, orate = 0; /* basic, operational rate set */ -+ -+ FN_ENTER; -+ -+ log(L_IOCTL, "set_rates %s\n", extra); -+ result = fill_ratemasks(extra, &brate, &orate, -+ acx111_supported, acx111_gen_mask, 0); -+ if (result) goto end; -+ SET_BIT(orate, brate); -+ log(L_IOCTL, "brate %08X orate %08X\n", brate, orate); -+ -+ result = verify_rate(brate, adev->chip_type); -+ if (result) goto end; -+ result = verify_rate(orate, adev->chip_type); -+ if (result) goto end; -+ -+ acx_sem_lock(adev); -+ acx_lock(adev, flags); -+ -+ adev->rate_basic = brate; -+ adev->rate_oper = orate; -+ /* TODO: ideally, we shall monitor highest basic rate -+ ** which was successfully sent to every peer -+ ** (say, last we checked, everybody could hear 5.5 Mbits) -+ ** and use that for bcasts when we want to reach all peers. -+ ** For beacons, we probably shall use lowest basic rate -+ ** because we want to reach all *potential* new peers too */ -+ adev->rate_bcast = 1 << lowest_bit(brate); -+ if (IS_ACX100(adev)) -+ adev->rate_bcast100 = acx_rate111to100(adev->rate_bcast); -+ adev->rate_auto = !has_only_one_bit(orate); -+ acx_l_update_client_rates(adev, orate); -+ /* TODO: get rid of ratevector, build it only when needed */ -+ acx_l_update_ratevector(adev); -+ -+ /* Do/don't do tx rate fallback; beacon contents and rate */ -+ SET_BIT(adev->set_mask, SET_RATE_FALLBACK|SET_TEMPLATES); -+ result = -EINPROGRESS; -+ -+ acx_unlock(adev, flags); -+ acx_sem_unlock(adev); -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_get_phy_chan_busy_percentage -+*/ -+static int -+acx_ioctl_get_phy_chan_busy_percentage( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ struct { -+ u16 type; -+ u16 len; -+ u32 busytime; -+ u32 totaltime; -+ } ACX_PACKED usage; -+ int result; -+ -+ acx_sem_lock(adev); -+ -+ if (OK != acx_s_interrogate(adev, &usage, ACX1xx_IE_MEDIUM_USAGE)) { -+ result = NOT_OK; -+ goto end_unlock; -+ } -+ -+ usage.busytime = le32_to_cpu(usage.busytime); -+ usage.totaltime = le32_to_cpu(usage.totaltime); -+ -+ /* yes, this is supposed to be "Medium" (singular of media), -+ not "average"! OK, reword the message to make it obvious... */ -+ printk("%s: busy percentage of medium (since last invocation): %d%% " -+ "(%u of %u microseconds)\n", -+ ndev->name, -+ usage.busytime / ((usage.totaltime / 100) + 1), -+ usage.busytime, usage.totaltime); -+ -+ result = OK; -+ -+end_unlock: -+ acx_sem_unlock(adev); -+ -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_ed_threshold -+*/ -+static inline int -+acx_ioctl_set_ed_threshold( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ acx_sem_lock(adev); -+ -+ printk("old ED threshold value: %d\n", adev->ed_threshold); -+ adev->ed_threshold = (unsigned char)*extra; -+ printk("new ED threshold value: %d\n", (unsigned char)*extra); -+ SET_BIT(adev->set_mask, GETSET_ED_THRESH); -+ -+ acx_sem_unlock(adev); -+ -+ return -EINPROGRESS; -+} -+ -+ -+/*********************************************************************** -+** acx_ioctl_set_cca -+*/ -+static inline int -+acx_ioctl_set_cca( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int result; -+ -+ acx_sem_lock(adev); -+ -+ printk("old CCA value: 0x%02X\n", adev->cca); -+ adev->cca = (unsigned char)*extra; -+ printk("new CCA value: 0x%02X\n", (unsigned char)*extra); -+ SET_BIT(adev->set_mask, GETSET_CCA); -+ result = -EINPROGRESS; -+ -+ acx_sem_unlock(adev); -+ -+ return result; -+} -+ -+ -+/*********************************************************************** -+*/ -+static const char * const -+scan_modes[] = { "active", "passive", "background" }; -+ -+static void -+acx_print_scan_params(acx_device_t *adev, const char* head) -+{ -+ printk("%s: %smode %d (%s), min chan time %dTU, " -+ "max chan time %dTU, max scan rate byte: %d\n", -+ adev->ndev->name, head, -+ adev->scan_mode, scan_modes[adev->scan_mode], -+ adev->scan_probe_delay, adev->scan_duration, adev->scan_rate); -+} -+ -+static int -+acx_ioctl_set_scan_params( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int result; -+ const int *params = (int *)extra; -+ -+ acx_sem_lock(adev); -+ -+ acx_print_scan_params(adev, "old scan parameters: "); -+ if ((params[0] != -1) && (params[0] >= 0) && (params[0] <= 2)) -+ adev->scan_mode = params[0]; -+ if (params[1] != -1) -+ adev->scan_probe_delay = params[1]; -+ if (params[2] != -1) -+ adev->scan_duration = params[2]; -+ if ((params[3] != -1) && (params[3] <= 255)) -+ adev->scan_rate = params[3]; -+ acx_print_scan_params(adev, "new scan parameters: "); -+ SET_BIT(adev->set_mask, GETSET_RESCAN); -+ result = -EINPROGRESS; -+ -+ acx_sem_unlock(adev); -+ -+ return result; -+} -+ -+static int -+acx_ioctl_get_scan_params( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int result; -+ int *params = (int *)extra; -+ -+ acx_sem_lock(adev); -+ -+ acx_print_scan_params(adev, "current scan parameters: "); -+ params[0] = adev->scan_mode; -+ params[1] = adev->scan_probe_delay; -+ params[2] = adev->scan_duration; -+ params[3] = adev->scan_rate; -+ result = OK; -+ -+ acx_sem_unlock(adev); -+ -+ return result; -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx100_ioctl_set_led_power( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ static const char * const led_modes[] = { "off", "on", "LinkQuality" }; -+ -+ acx_device_t *adev = ndev2adev(ndev); -+ int result; -+ -+ acx_sem_lock(adev); -+ -+ printk("%s: power LED status: old %d (%s), ", -+ ndev->name, -+ adev->led_power, -+ led_modes[adev->led_power]); -+ adev->led_power = extra[0]; -+ if (adev->led_power > 2) adev->led_power = 2; -+ printk("new %d (%s)\n", -+ adev->led_power, -+ led_modes[adev->led_power]); -+ -+ if (adev->led_power == 2) { -+ printk("%s: max link quality setting: old %d, ", -+ ndev->name, adev->brange_max_quality); -+ if (extra[1]) -+ adev->brange_max_quality = extra[1]; -+ printk("new %d\n", adev->brange_max_quality); -+ } -+ -+ SET_BIT(adev->set_mask, GETSET_LED_POWER); -+ -+ result = -EINPROGRESS; -+ -+ acx_sem_unlock(adev); -+ -+ return result; -+} -+ -+ -+/*********************************************************************** -+*/ -+static inline int -+acx100_ioctl_get_led_power( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ acx_sem_lock(adev); -+ -+ extra[0] = adev->led_power; -+ if (adev->led_power == 2) -+ extra[1] = adev->brange_max_quality; -+ else -+ extra[1] = -1; -+ -+ acx_sem_unlock(adev); -+ -+ return OK; -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx111_ioctl_info( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->param; -+ if (!IS_PCI(ndev2adev(ndev))) -+ return OK; -+ return acx111pci_ioctl_info(ndev, info, vwrq, extra); -+} -+ -+ -+/*********************************************************************** -+*/ -+static int -+acx100_ioctl_set_phy_amp_bias( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ union iwreq_data *wrqu, -+ char *extra) -+{ -+ struct iw_param *vwrq = &wrqu->param; -+ if (IS_USB(ndev2adev(ndev))) { -+ printk("acx: set_phy_amp_bias() is not supported on USB\n"); -+ return OK; -+ } -+#ifdef ACX_MEM -+ return acx100mem_ioctl_set_phy_amp_bias(ndev, info, vwrq, extra); -+#else -+ return acx100pci_ioctl_set_phy_amp_bias(ndev, info, vwrq, extra); -+#endif -+} -+ -+ -+/*********************************************************************** -+*/ -+static const iw_handler acx_ioctl_handler[] = -+{ -+ acx_ioctl_commit, /* SIOCSIWCOMMIT */ -+ acx_ioctl_get_name, /* SIOCGIWNAME */ -+ NULL, /* SIOCSIWNWID */ -+ NULL, /* SIOCGIWNWID */ -+ acx_ioctl_set_freq, /* SIOCSIWFREQ */ -+ acx_ioctl_get_freq, /* SIOCGIWFREQ */ -+ acx_ioctl_set_mode, /* SIOCSIWMODE */ -+ acx_ioctl_get_mode, /* SIOCGIWMODE */ -+ acx_ioctl_set_sens, /* SIOCSIWSENS */ -+ acx_ioctl_get_sens, /* SIOCGIWSENS */ -+ NULL, /* SIOCSIWRANGE */ -+ acx_ioctl_get_range, /* SIOCGIWRANGE */ -+ NULL, /* SIOCSIWPRIV */ -+ NULL, /* SIOCGIWPRIV */ -+ NULL, /* SIOCSIWSTATS */ -+ NULL, /* SIOCGIWSTATS */ -+#if IW_HANDLER_VERSION > 4 -+ iw_handler_set_spy, /* SIOCSIWSPY */ -+ iw_handler_get_spy, /* SIOCGIWSPY */ -+ iw_handler_set_thrspy, /* SIOCSIWTHRSPY */ -+ iw_handler_get_thrspy, /* SIOCGIWTHRSPY */ -+#else /* IW_HANDLER_VERSION > 4 */ -+#ifdef WIRELESS_SPY -+ NULL /* acx_ioctl_set_spy FIXME */, /* SIOCSIWSPY */ -+ NULL /* acx_ioctl_get_spy */, /* SIOCGIWSPY */ -+#else /* WSPY */ -+ NULL, /* SIOCSIWSPY */ -+ NULL, /* SIOCGIWSPY */ -+#endif /* WSPY */ -+ NULL, /* [nothing] */ -+ NULL, /* [nothing] */ -+#endif /* IW_HANDLER_VERSION > 4 */ -+ acx_ioctl_set_ap, /* SIOCSIWAP */ -+ acx_ioctl_get_ap, /* SIOCGIWAP */ -+ NULL, /* [nothing] */ -+ acx_ioctl_get_aplist, /* SIOCGIWAPLIST */ -+ acx_ioctl_set_scan, /* SIOCSIWSCAN */ -+ acx_ioctl_get_scan, /* SIOCGIWSCAN */ -+ acx_ioctl_set_essid, /* SIOCSIWESSID */ -+ acx_ioctl_get_essid, /* SIOCGIWESSID */ -+ acx_ioctl_set_nick, /* SIOCSIWNICKN */ -+ acx_ioctl_get_nick, /* SIOCGIWNICKN */ -+ NULL, /* [nothing] */ -+ NULL, /* [nothing] */ -+ acx_ioctl_set_rate, /* SIOCSIWRATE */ -+ acx_ioctl_get_rate, /* SIOCGIWRATE */ -+ acx_ioctl_set_rts, /* SIOCSIWRTS */ -+ acx_ioctl_get_rts, /* SIOCGIWRTS */ -+#if ACX_FRAGMENTATION -+ acx_ioctl_set_frag, /* SIOCSIWFRAG */ -+ acx_ioctl_get_frag, /* SIOCGIWFRAG */ -+#else -+ NULL, /* SIOCSIWFRAG */ -+ NULL, /* SIOCGIWFRAG */ -+#endif -+ acx_ioctl_set_txpow, /* SIOCSIWTXPOW */ -+ acx_ioctl_get_txpow, /* SIOCGIWTXPOW */ -+ acx_ioctl_set_retry, /* SIOCSIWRETRY */ -+ acx_ioctl_get_retry, /* SIOCGIWRETRY */ -+ acx_ioctl_set_encode, /* SIOCSIWENCODE */ -+ acx_ioctl_get_encode, /* SIOCGIWENCODE */ -+ acx_ioctl_set_power, /* SIOCSIWPOWER */ -+ acx_ioctl_get_power, /* SIOCGIWPOWER */ -+}; -+ -+ -+/*********************************************************************** -+*/ -+ -+/* if you plan to reorder something, make sure to reorder all other places -+ * accordingly! */ -+/* SET/GET convention: SETs must have even position, GETs odd */ -+#define ACX100_IOCTL SIOCIWFIRSTPRIV -+enum { -+ ACX100_IOCTL_DEBUG = ACX100_IOCTL, -+ ACX100_IOCTL_GET__________UNUSED1, -+ ACX100_IOCTL_SET_PLED, -+ ACX100_IOCTL_GET_PLED, -+ ACX100_IOCTL_SET_RATES, -+ ACX100_IOCTL_LIST_DOM, -+ ACX100_IOCTL_SET_DOM, -+ ACX100_IOCTL_GET_DOM, -+ ACX100_IOCTL_SET_SCAN_PARAMS, -+ ACX100_IOCTL_GET_SCAN_PARAMS, -+ ACX100_IOCTL_SET_PREAMB, -+ ACX100_IOCTL_GET_PREAMB, -+ ACX100_IOCTL_SET_ANT, -+ ACX100_IOCTL_GET_ANT, -+ ACX100_IOCTL_RX_ANT, -+ ACX100_IOCTL_TX_ANT, -+ ACX100_IOCTL_SET_PHY_AMP_BIAS, -+ ACX100_IOCTL_GET_PHY_CHAN_BUSY, -+ ACX100_IOCTL_SET_ED, -+ ACX100_IOCTL_GET__________UNUSED3, -+ ACX100_IOCTL_SET_CCA, -+ ACX100_IOCTL_GET__________UNUSED4, -+ ACX100_IOCTL_MONITOR, -+ ACX100_IOCTL_TEST, -+ ACX100_IOCTL_DBG_SET_MASKS, -+ ACX111_IOCTL_INFO, -+ ACX100_IOCTL_DBG_SET_IO, -+ ACX100_IOCTL_DBG_GET_IO -+}; -+ -+ -+static const iw_handler acx_ioctl_private_handler[] = -+{ -+#if ACX_DEBUG -+[ACX100_IOCTL_DEBUG - ACX100_IOCTL] = acx_ioctl_set_debug, -+#endif -+[ACX100_IOCTL_SET_PLED - ACX100_IOCTL] = acx100_ioctl_set_led_power, -+[ACX100_IOCTL_GET_PLED - ACX100_IOCTL] = acx100_ioctl_get_led_power, -+[ACX100_IOCTL_SET_RATES - ACX100_IOCTL] = acx_ioctl_set_rates, -+[ACX100_IOCTL_LIST_DOM - ACX100_IOCTL] = acx_ioctl_list_reg_domain, -+[ACX100_IOCTL_SET_DOM - ACX100_IOCTL] = acx_ioctl_set_reg_domain, -+[ACX100_IOCTL_GET_DOM - ACX100_IOCTL] = acx_ioctl_get_reg_domain, -+[ACX100_IOCTL_SET_SCAN_PARAMS - ACX100_IOCTL] = acx_ioctl_set_scan_params, -+[ACX100_IOCTL_GET_SCAN_PARAMS - ACX100_IOCTL] = acx_ioctl_get_scan_params, -+[ACX100_IOCTL_SET_PREAMB - ACX100_IOCTL] = acx_ioctl_set_short_preamble, -+[ACX100_IOCTL_GET_PREAMB - ACX100_IOCTL] = acx_ioctl_get_short_preamble, -+[ACX100_IOCTL_SET_ANT - ACX100_IOCTL] = acx_ioctl_set_antenna, -+[ACX100_IOCTL_GET_ANT - ACX100_IOCTL] = acx_ioctl_get_antenna, -+[ACX100_IOCTL_RX_ANT - ACX100_IOCTL] = acx_ioctl_set_rx_antenna, -+[ACX100_IOCTL_TX_ANT - ACX100_IOCTL] = acx_ioctl_set_tx_antenna, -+[ACX100_IOCTL_SET_PHY_AMP_BIAS - ACX100_IOCTL] = acx100_ioctl_set_phy_amp_bias, -+[ACX100_IOCTL_GET_PHY_CHAN_BUSY - ACX100_IOCTL] = acx_ioctl_get_phy_chan_busy_percentage, -+[ACX100_IOCTL_SET_ED - ACX100_IOCTL] = acx_ioctl_set_ed_threshold, -+[ACX100_IOCTL_SET_CCA - ACX100_IOCTL] = acx_ioctl_set_cca, -+[ACX100_IOCTL_MONITOR - ACX100_IOCTL] = acx_ioctl_wlansniff, -+[ACX100_IOCTL_TEST - ACX100_IOCTL] = acx_ioctl_unknown11, -+[ACX100_IOCTL_DBG_SET_MASKS - ACX100_IOCTL] = acx_ioctl_dbg_set_masks, -+[ACX111_IOCTL_INFO - ACX100_IOCTL] = acx111_ioctl_info, -+}; -+ -+ -+static const struct iw_priv_args acx_ioctl_private_args[] = { -+#if ACX_DEBUG -+{ cmd : ACX100_IOCTL_DEBUG, -+ set_args : IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, -+ get_args : 0, -+ name : "SetDebug" }, -+#endif -+{ cmd : ACX100_IOCTL_SET_PLED, -+ set_args : IW_PRIV_TYPE_BYTE | 2, -+ get_args : 0, -+ name : "SetLEDPower" }, -+{ cmd : ACX100_IOCTL_GET_PLED, -+ set_args : 0, -+ get_args : IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 2, -+ name : "GetLEDPower" }, -+{ cmd : ACX100_IOCTL_SET_RATES, -+ set_args : IW_PRIV_TYPE_CHAR | 256, -+ get_args : 0, -+ name : "SetRates" }, -+{ cmd : ACX100_IOCTL_LIST_DOM, -+ set_args : 0, -+ get_args : 0, -+ name : "ListRegDomain" }, -+{ cmd : ACX100_IOCTL_SET_DOM, -+ set_args : IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 1, -+ get_args : 0, -+ name : "SetRegDomain" }, -+{ cmd : ACX100_IOCTL_GET_DOM, -+ set_args : 0, -+ get_args : IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 1, -+ name : "GetRegDomain" }, -+{ cmd : ACX100_IOCTL_SET_SCAN_PARAMS, -+ set_args : IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 4, -+ get_args : 0, -+ name : "SetScanParams" }, -+{ cmd : ACX100_IOCTL_GET_SCAN_PARAMS, -+ set_args : 0, -+ get_args : IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 4, -+ name : "GetScanParams" }, -+{ cmd : ACX100_IOCTL_SET_PREAMB, -+ set_args : IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 1, -+ get_args : 0, -+ name : "SetSPreamble" }, -+{ cmd : ACX100_IOCTL_GET_PREAMB, -+ set_args : 0, -+ get_args : IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 1, -+ name : "GetSPreamble" }, -+{ cmd : ACX100_IOCTL_SET_ANT, -+ set_args : IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 1, -+ get_args : 0, -+ name : "SetAntenna" }, -+{ cmd : ACX100_IOCTL_GET_ANT, -+ set_args : 0, -+ get_args : 0, -+ name : "GetAntenna" }, -+{ cmd : ACX100_IOCTL_RX_ANT, -+ set_args : IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 1, -+ get_args : 0, -+ name : "SetRxAnt" }, -+{ cmd : ACX100_IOCTL_TX_ANT, -+ set_args : IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 1, -+ get_args : 0, -+ name : "SetTxAnt" }, -+{ cmd : ACX100_IOCTL_SET_PHY_AMP_BIAS, -+ set_args : IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 1, -+ get_args : 0, -+ name : "SetPhyAmpBias"}, -+{ cmd : ACX100_IOCTL_GET_PHY_CHAN_BUSY, -+ set_args : 0, -+ get_args : 0, -+ name : "GetPhyChanBusy" }, -+{ cmd : ACX100_IOCTL_SET_ED, -+ set_args : IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 1, -+ get_args : 0, -+ name : "SetED" }, -+{ cmd : ACX100_IOCTL_SET_CCA, -+ set_args : IW_PRIV_TYPE_BYTE | IW_PRIV_SIZE_FIXED | 1, -+ get_args : 0, -+ name : "SetCCA" }, -+{ cmd : ACX100_IOCTL_MONITOR, -+ set_args : IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 2, -+ get_args : 0, -+ name : "monitor" }, -+{ cmd : ACX100_IOCTL_TEST, -+ set_args : 0, -+ get_args : 0, -+ name : "Test" }, -+{ cmd : ACX100_IOCTL_DBG_SET_MASKS, -+ set_args : IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 2, -+ get_args : 0, -+ name : "DbgSetMasks" }, -+{ cmd : ACX111_IOCTL_INFO, -+ set_args : 0, -+ get_args : 0, -+ name : "GetAcx111Info" }, -+{ cmd : ACX100_IOCTL_DBG_SET_IO, -+ set_args : IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 4, -+ get_args : 0, -+ name : "DbgSetIO" }, -+{ cmd : ACX100_IOCTL_DBG_GET_IO, -+ set_args : IW_PRIV_TYPE_INT | IW_PRIV_SIZE_FIXED | 3, -+ get_args : 0, -+ name : "DbgGetIO" }, -+}; -+ -+ -+const struct iw_handler_def acx_ioctl_handler_def = -+{ -+ .num_standard = VEC_SIZE(acx_ioctl_handler), -+ .num_private = VEC_SIZE(acx_ioctl_private_handler), -+ .num_private_args = VEC_SIZE(acx_ioctl_private_args), -+ .standard = (iw_handler *) acx_ioctl_handler, -+ .private = (iw_handler *) acx_ioctl_private_handler, -+ .private_args = (struct iw_priv_args *) acx_ioctl_private_args, -+#if IW_HANDLER_VERSION > 5 -+ .get_wireless_stats = acx_e_get_wireless_stats -+#endif /* IW > 5 */ -+}; -Index: linux-2.6.22/drivers/net/wireless/acx/Kconfig -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/Kconfig 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,113 @@ -+config ACX -+ tristate "TI acx100/acx111 802.11b/g wireless chipsets" -+ depends on NET_RADIO && EXPERIMENTAL -+ select FW_LOADER -+ ---help--- -+ A driver for 802.11b/g wireless cards based on -+ Texas Instruments acx100 and acx111 chipsets. -+ -+ This driver supports Host AP mode that allows -+ your computer to act as an IEEE 802.11 access point. -+ This driver is new and experimental. -+ -+ Texas Instruments did not take part in development of this driver -+ in any way, shape or form. -+ -+ The driver can be compiled as a module and will be named "acx". -+ -+config ACX_PCI -+ bool "TI acx100/acx111 802.11b/g PCI" -+ depends on ACX && PCI -+ ---help--- -+ Include PCI and CardBus support in acx. -+ -+ acx chipsets need their firmware loaded at startup. -+ You will need to provide a firmware image via hotplug. -+ -+ Firmware may be in a form of single image 40-100kb in size -+ (a 'combined' firmware) or two images - main image -+ (again 40-100kb) and radio image (~10kb or less). -+ -+ Firmware images are requested from hotplug using following names: -+ -+ tiacx100 - main firmware image for acx100 chipset -+ tiacx100rNN - radio acx100 firmware for radio type NN -+ tiacx100cNN - combined acx100 firmware for radio type NN -+ tiacx111 - main acx111 firmware -+ tiacx111rNN - radio acx111 firmware for radio type NN -+ tiacx111cNN - combined acx111 firmware for radio type NN -+ -+ Driver will attempt to load combined image first. -+ If no such image is found, it will try to load main image -+ and radio image instead. -+ -+ Firmware files are not covered by GPL and are not distributed -+ with this driver for legal reasons. -+ -+config ACX_USB -+ bool "TI acx100/acx111 802.11b/g USB" -+ depends on ACX && (USB=y || USB=ACX) -+ ---help--- -+ Include USB support in acx. -+ -+ There is only one currently known device in this category, -+ D-Link DWL-120+, but newer devices seem to be on the horizon. -+ -+ acx chipsets need their firmware loaded at startup. -+ You will need to provide a firmware image via hotplug. -+ -+ Firmware for USB device is requested from hotplug -+ by the 'tiacx100usb' name. -+ -+ Firmware files are not covered by GPL and are not distributed -+ with this driver for legal reasons. -+ -+config ACX_MEM -+ bool "TI acx100/acx111 802.11b/g memory mapped slave 16 interface" -+ depends on ACX -+ ---help--- -+ acx chipsets need their firmware loaded at startup. -+ You will need to provide a firmware image via hotplug. -+ -+ Firmware for USB device is requested from hotplug -+ by the 'tiacx100usb' name. -+ -+ Firmware files are not covered by GPL and are not distributed -+ with this driver for legal reasons. -+ -+config ACX_CS -+ bool "TI acx100/acx111 802.11b/g cardbus interface" -+ depends on ACX -+ ---help--- -+ acx chipsets need their firmware loaded at startup. -+ You will need to provide a firmware image via hotplug. -+ -+ This driver is based on memory mapped driver. -+ -+ Firmware files are not covered by GPL and are not distributed -+ with this driver for legal reasons. -+ -+config ACX_HX4700 -+ tristate "ACX support for the iPAQ hx4700 using ACX_MEM" -+ depends on HX4700_CORE && ACX_MEM -+ ---help--- -+ Include memory interface support in acx for the iPAQ hx4700. -+ -+config ACX_HTCUNIVERSAL -+ tristate "ACX support for the HTC Universal using ACX_MEM" -+ depends on HTCUNIVERSAL_CORE && HTC_ASIC3 && ACX_MEM -+ ---help--- -+ Include memory interface support in acx for the HTC Universal. -+ -+config ACX_HTCSABLE -+ tristate "ACX support for the HTC Sable (IPAQ hw6915) using ACX_MEM" -+ depends on MACH_HW6900 && HTC_ASIC3 && ACX_MEM -+ ---help--- -+ Include memory interface support in acx for the HTC Sable (IPAQ hw6915). -+ -+config ACX_RX3000 -+ tristate "ACX support for the iPAQ RX3000 using ACX_MEM" -+ depends on MACH_RX3715 && ACX_MEM && LEDS_ASIC3 -+ ---help--- -+ Include memory interface support in acx for the IPAQ RX3000. -+ -Index: linux-2.6.22/drivers/net/wireless/acx/Makefile -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/Makefile 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,21 @@ -+#obj-m += acx.o -+ -+#acx-obj-y += pci.o -+#acx-obj-y += usb.o -+ -+#acx-objs := wlan.o conv.o ioctl.o common.o $(acx-obj-y) -+ -+# Use this if you have proper Kconfig integration: -+ -+obj-$(CONFIG_ACX) += acx.o -+obj-$(CONFIG_ACX_HX4700) += hx4700_acx.o -+obj-$(CONFIG_ACX_HTCUNIVERSAL) += htcuniversal_acx.o -+obj-$(CONFIG_ACX_HTCSABLE) += htcsable_acx.o -+obj-$(CONFIG_ACX_RX3000) += rx3000_acx.o -+# -+acx-obj-$(CONFIG_ACX_PCI) += pci.o -+acx-obj-$(CONFIG_ACX_USB) += usb.o -+acx-obj-$(CONFIG_ACX_MEM) += mem.o -+acx-obj-$(CONFIG_ACX_CS) += cs.o -+# -+acx-objs := wlan.o conv.o ioctl.o common.o $(acx-obj-y) -Index: linux-2.6.22/drivers/net/wireless/acx/mem.c -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/mem.c 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,5363 @@ -+/*********************************************************************** -+** Copyright (C) 2003 ACX100 Open Source Project -+** -+** The contents of this file are subject to the Mozilla Public -+** License Version 1.1 (the "License"); you may not use this file -+** except in compliance with the License. You may obtain a copy of -+** the License at http://www.mozilla.org/MPL/ -+** -+** Software distributed under the License is distributed on an "AS -+** IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -+** implied. See the License for the specific language governing -+** rights and limitations under the License. -+** -+** Alternatively, the contents of this file may be used under the -+** terms of the GNU Public License version 2 (the "GPL"), in which -+** case the provisions of the GPL are applicable instead of the -+** above. If you wish to allow the use of your version of this file -+** only under the terms of the GPL and not to allow others to use -+** your version of this file under the MPL, indicate your decision -+** by deleting the provisions above and replace them with the notice -+** and other provisions required by the GPL. If you do not delete -+** the provisions above, a recipient may use your version of this -+** file under either the MPL or the GPL. -+** --------------------------------------------------------------------- -+** Inquiries regarding the ACX100 Open Source Project can be -+** made directly to: -+** -+** acx100-users@lists.sf.net -+** http://acx100.sf.net -+** --------------------------------------------------------------------- -+** -+** Slave memory interface support: -+** -+** Todd Blumer - SDG Systems -+** Bill Reese - HP -+** Eric McCorkle - Shadowsun -+*/ -+#define ACX_MEM 1 -+ -+/* -+ * non-zero makes it dump the ACX memory to the console then -+ * panic when you cat /proc/driver/acx_wlan0_diag -+ */ -+#define DUMP_MEM_DEFINED 1 -+ -+#define DUMP_MEM_DURING_DIAG 0 -+#define DUMP_IF_SLOW 0 -+ -+#define PATCH_AROUND_BAD_SPOTS 1 -+#define HX4700_FIRMWARE_CHECKSUM 0x0036862e -+#define HX4700_ALTERNATE_FIRMWARE_CHECKSUM 0x00368a75 -+ -+#include <linux/version.h> -+#if LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 18) -+#include <linux/config.h> -+#endif -+ -+/* Linux 2.6.18+ uses <linux/utsrelease.h> */ -+#ifndef UTS_RELEASE -+#include <linux/utsrelease.h> -+#endif -+ -+#include <linux/compiler.h> /* required for Lx 2.6.8 ?? */ -+#include <linux/kernel.h> -+#include <linux/module.h> -+#include <linux/moduleparam.h> -+#include <linux/sched.h> -+#include <linux/types.h> -+#include <linux/skbuff.h> -+#include <linux/slab.h> -+#include <linux/if_arp.h> -+#include <linux/irq.h> -+#include <linux/rtnetlink.h> -+#include <linux/wireless.h> -+#include <net/iw_handler.h> -+#include <linux/netdevice.h> -+#include <linux/ioport.h> -+#include <linux/pci.h> -+#include <linux/platform_device.h> -+#include <linux/pm.h> -+#include <linux/vmalloc.h> -+#include <linux/delay.h> -+#include <linux/workqueue.h> -+#include <linux/inetdevice.h> -+ -+#include "acx.h" -+#include "acx_hw.h" -+ -+/*********************************************************************** -+*/ -+ -+#define CARD_EEPROM_ID_SIZE 6 -+ -+#include <asm/io.h> -+ -+#define REG_ACX_VENDOR_ID 0x900 -+/* -+ * This is the vendor id on the HX4700, anyway -+ */ -+#define ACX_VENDOR_ID 0x8400104c -+ -+typedef enum { -+ ACX_SOFT_RESET = 0, -+ -+ ACX_SLV_REG_ADDR, -+ ACX_SLV_REG_DATA, -+ ACX_SLV_REG_ADATA, -+ -+ ACX_SLV_MEM_CP, -+ ACX_SLV_MEM_ADDR, -+ ACX_SLV_MEM_DATA, -+ ACX_SLV_MEM_CTL, -+} acxreg_t; -+ -+/*********************************************************************** -+*/ -+static void acxmem_i_tx_timeout(struct net_device *ndev); -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19) -+static irqreturn_t acxmem_i_interrupt(int irq, void *dev_id); -+#else -+static irqreturn_t acxmem_i_interrupt(int irq, void *dev_id, struct pt_regs *regs); -+#endif -+static void acxmem_i_set_multicast_list(struct net_device *ndev); -+ -+static int acxmem_e_open(struct net_device *ndev); -+static int acxmem_e_close(struct net_device *ndev); -+static void acxmem_s_up(struct net_device *ndev); -+static void acxmem_s_down(struct net_device *ndev); -+ -+static void dump_acxmem (acx_device_t *adev, u32 start, int length); -+static int acxmem_complete_hw_reset (acx_device_t *adev); -+static void acxmem_s_delete_dma_regions(acx_device_t *adev); -+ -+static struct platform_device *resume_pdev; -+ -+static int -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 11) -+acxmem_e_suspend(struct platform_device *pdev, pm_message_t state); -+#else -+acxmem_e_suspend(struct device *pdev, u32 state); -+#endif -+static void -+fw_resumer(struct work_struct *notused); -+//fw_resumer( void *data ); -+ -+static int acx_netdev_event(struct notifier_block *this, unsigned long event, void *ptr) -+{ -+ struct net_device *ndev = ptr; -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ /* -+ * Upper level ioctl() handlers send a NETDEV_CHANGEADDR if the MAC address changes. -+ */ -+ -+ if (NETDEV_CHANGEADDR == event) { -+ /* -+ * the upper layers put the new MAC address in ndev->dev_addr; we just copy -+ * it over and update the ACX with it. -+ */ -+ MAC_COPY(adev->dev_addr, adev->ndev->dev_addr); -+ adev->set_mask |= GETSET_STATION_ID; -+ acx_s_update_card_settings (adev); -+ } -+ -+ return 0; -+} -+ -+static struct notifier_block acx_netdev_notifier = { -+ .notifier_call = acx_netdev_event, -+}; -+ -+/*********************************************************************** -+** Register access -+*/ -+ -+/* Pick one */ -+/* #define INLINE_IO static */ -+#define INLINE_IO static inline -+ -+INLINE_IO u32 -+read_id_register (acx_device_t *adev) -+{ -+ writel (0x24, &adev->iobase[ACX_SLV_REG_ADDR]); -+ return readl (&adev->iobase[ACX_SLV_REG_DATA]); -+} -+ -+INLINE_IO u32 -+read_reg32(acx_device_t *adev, unsigned int offset) -+{ -+ u32 val; -+ u32 addr; -+ -+ if (offset > IO_ACX_ECPU_CTRL) -+ addr = offset; -+ else -+ addr = adev->io[offset]; -+ -+ if (addr < 0x20) { -+ return readl(((u8*)adev->iobase) + addr); -+ } -+ -+ writel( addr, &adev->iobase[ACX_SLV_REG_ADDR] ); -+ val = readl( &adev->iobase[ACX_SLV_REG_DATA] ); -+ -+ return val; -+} -+ -+INLINE_IO u16 -+read_reg16(acx_device_t *adev, unsigned int offset) -+{ -+ u16 lo; -+ u32 addr; -+ -+ if (offset > IO_ACX_ECPU_CTRL) -+ addr = offset; -+ else -+ addr = adev->io[offset]; -+ -+ if (addr < 0x20) { -+ return readw(((u8 *) adev->iobase) + addr); -+ } -+ -+ writel( addr, &adev->iobase[ACX_SLV_REG_ADDR] ); -+ lo = readw( (u16 *)&adev->iobase[ACX_SLV_REG_DATA] ); -+ -+ return lo; -+} -+ -+INLINE_IO u8 -+read_reg8(acx_device_t *adev, unsigned int offset) -+{ -+ u8 lo; -+ u32 addr; -+ -+ if (offset > IO_ACX_ECPU_CTRL) -+ addr = offset; -+ else -+ addr = adev->io[offset]; -+ -+ if (addr < 0x20) -+ return readb(((u8 *)adev->iobase) + addr); -+ -+ writel( addr, &adev->iobase[ACX_SLV_REG_ADDR] ); -+ lo = readw( (u8 *)&adev->iobase[ACX_SLV_REG_DATA] ); -+ -+ return (u8)lo; -+} -+ -+INLINE_IO void -+write_reg32(acx_device_t *adev, unsigned int offset, u32 val) -+{ -+ u32 addr; -+ -+ if (offset > IO_ACX_ECPU_CTRL) -+ addr = offset; -+ else -+ addr = adev->io[offset]; -+ -+ if (addr < 0x20) { -+ writel(val, ((u8*)adev->iobase) + addr); -+ return; -+ } -+ -+ writel( addr, &adev->iobase[ACX_SLV_REG_ADDR] ); -+ writel( val, &adev->iobase[ACX_SLV_REG_DATA] ); -+} -+ -+INLINE_IO void -+write_reg16(acx_device_t *adev, unsigned int offset, u16 val) -+{ -+ u32 addr; -+ -+ if (offset > IO_ACX_ECPU_CTRL) -+ addr = offset; -+ else -+ addr = adev->io[offset]; -+ -+ if (addr < 0x20) { -+ writew(val, ((u8 *)adev->iobase) + addr); -+ return; -+ } -+ writel( addr, &adev->iobase[ACX_SLV_REG_ADDR] ); -+ writew( val, (u16 *) &adev->iobase[ACX_SLV_REG_DATA] ); -+} -+ -+INLINE_IO void -+write_reg8(acx_device_t *adev, unsigned int offset, u8 val) -+{ -+ u32 addr; -+ -+ if (offset > IO_ACX_ECPU_CTRL) -+ addr = offset; -+ else -+ addr = adev->io[offset]; -+ -+ if (addr < 0x20) { -+ writeb(val, ((u8 *) adev->iobase) + addr); -+ return; -+ } -+ writel( addr, &adev->iobase[ACX_SLV_REG_ADDR] ); -+ writeb( val, (u8 *)&adev->iobase[ACX_SLV_REG_DATA] ); -+} -+ -+/* Handle PCI posting properly: -+ * Make sure that writes reach the adapter in case they require to be executed -+ * *before* the next write, by reading a random (and safely accessible) register. -+ * This call has to be made if there is no read following (which would flush the data -+ * to the adapter), yet the written data has to reach the adapter immediately. */ -+INLINE_IO void -+write_flush(acx_device_t *adev) -+{ -+ /* readb(adev->iobase + adev->io[IO_ACX_INFO_MAILBOX_OFFS]); */ -+ /* faster version (accesses the first register, IO_ACX_SOFT_RESET, -+ * which should also be safe): */ -+ (void) readl(adev->iobase); -+} -+ -+INLINE_IO void -+set_regbits (acx_device_t *adev, unsigned int offset, u32 bits) { -+ u32 tmp; -+ -+ tmp = read_reg32 (adev, offset); -+ tmp = tmp | bits; -+ write_reg32 (adev, offset, tmp); -+ write_flush (adev); -+} -+ -+INLINE_IO void -+clear_regbits (acx_device_t *adev, unsigned int offset, u32 bits) { -+ u32 tmp; -+ -+ tmp = read_reg32 (adev, offset); -+ tmp = tmp & ~bits; -+ write_reg32 (adev, offset, tmp); -+ write_flush (adev); -+} -+ -+/* -+ * Copy from PXA memory to the ACX memory. This assumes both the PXA and ACX -+ * addresses are 32 bit aligned. Count is in bytes. -+ */ -+INLINE_IO void -+write_slavemem32 (acx_device_t *adev, u32 slave_address, u32 val) -+{ -+ write_reg32 (adev, IO_ACX_SLV_MEM_CTL, 0x0); -+ write_reg32 (adev, IO_ACX_SLV_MEM_ADDR, slave_address); -+ udelay (10); -+ write_reg32 (adev, IO_ACX_SLV_MEM_DATA, val); -+} -+ -+INLINE_IO u32 -+read_slavemem32 (acx_device_t *adev, u32 slave_address) -+{ -+ u32 val; -+ -+ write_reg32 (adev, IO_ACX_SLV_MEM_CTL, 0x0); -+ write_reg32 (adev, IO_ACX_SLV_MEM_ADDR, slave_address); -+ udelay (10); -+ val = read_reg32 (adev, IO_ACX_SLV_MEM_DATA); -+ -+ return val; -+} -+ -+INLINE_IO void -+write_slavemem8 (acx_device_t *adev, u32 slave_address, u8 val) -+{ -+ u32 data; -+ u32 base; -+ int offset; -+ -+ /* -+ * Get the word containing the target address and the byte offset in that word. -+ */ -+ base = slave_address & ~3; -+ offset = (slave_address & 3) * 8; -+ -+ data = read_slavemem32 (adev, base); -+ data &= ~(0xff << offset); -+ data |= val << offset; -+ write_slavemem32 (adev, base, data); -+} -+ -+INLINE_IO u8 -+read_slavemem8 (acx_device_t *adev, u32 slave_address) -+{ -+ u8 val; -+ u32 base; -+ u32 data; -+ int offset; -+ -+ base = slave_address & ~3; -+ offset = (slave_address & 3) * 8; -+ -+ data = read_slavemem32 (adev, base); -+ -+ val = (data >> offset) & 0xff; -+ -+ return val; -+} -+ -+/* -+ * doesn't split across word boundaries -+ */ -+INLINE_IO void -+write_slavemem16 (acx_device_t *adev, u32 slave_address, u16 val) -+{ -+ u32 data; -+ u32 base; -+ int offset; -+ -+ /* -+ * Get the word containing the target address and the byte offset in that word. -+ */ -+ base = slave_address & ~3; -+ offset = (slave_address & 3) * 8; -+ -+ data = read_slavemem32 (adev, base); -+ data &= ~(0xffff << offset); -+ data |= val << offset; -+ write_slavemem32 (adev, base, data); -+} -+ -+/* -+ * doesn't split across word boundaries -+ */ -+INLINE_IO u16 -+read_slavemem16 (acx_device_t *adev, u32 slave_address) -+{ -+ u16 val; -+ u32 base; -+ u32 data; -+ int offset; -+ -+ base = slave_address & ~3; -+ offset = (slave_address & 3) * 8; -+ -+ data = read_slavemem32 (adev, base); -+ -+ val = (data >> offset) & 0xffff; -+ -+ return val; -+} -+ -+/* -+ * Copy from slave memory -+ * -+ * TODO - rewrite using address autoincrement, handle partial words -+ */ -+void -+copy_from_slavemem (acx_device_t *adev, u8 *destination, u32 source, int count) { -+ u32 tmp = 0; -+ u8 *ptmp = (u8 *) &tmp; -+ -+ /* -+ * Right now I'm making the assumption that the destination is aligned, but -+ * I'd better check. -+ */ -+ if ((u32) destination & 3) { -+ printk ("acx copy_from_slavemem: warning! destination not word-aligned!\n"); -+ } -+ -+ while (count >= 4) { -+ write_reg32 (adev, IO_ACX_SLV_MEM_ADDR, source); -+ udelay (10); -+ *((u32 *) destination) = read_reg32 (adev, IO_ACX_SLV_MEM_DATA); -+ count -= 4; -+ source += 4; -+ destination += 4; -+ } -+ -+ /* -+ * If the word reads above didn't satisfy the count, read one more word -+ * and transfer a byte at a time until the request is satisfied. -+ */ -+ if (count) { -+ write_reg32 (adev, IO_ACX_SLV_MEM_ADDR, source); -+ udelay (10); -+ tmp = read_reg32 (adev, IO_ACX_SLV_MEM_DATA); -+ while (count--) { -+ *destination++ = *ptmp++; -+ } -+ } -+} -+ -+/* -+ * Copy to slave memory -+ * -+ * TODO - rewrite using autoincrement, handle partial words -+ */ -+void -+copy_to_slavemem (acx_device_t *adev, u32 destination, u8 *source, int count) -+{ -+ u32 tmp = 0; -+ u8* ptmp = (u8 *) &tmp; -+ static u8 src[512]; /* make static to avoid huge stack objects */ -+ -+ /* -+ * For now, make sure the source is word-aligned by copying it to a word-aligned -+ * buffer. Someday rewrite to avoid the extra copy. -+ */ -+ if (count > sizeof (src)) { -+ printk ("acx copy_to_slavemem: Warning! buffer overflow!\n"); -+ count = sizeof (src); -+ } -+ memcpy (src, source, count); -+ source = src; -+ -+ while (count >= 4) { -+ write_reg32 (adev, IO_ACX_SLV_MEM_ADDR, destination); -+ udelay (10); -+ write_reg32 (adev, IO_ACX_SLV_MEM_DATA, *((u32 *) source)); -+ count -= 4; -+ source += 4; -+ destination += 4; -+ } -+ -+ /* -+ * If there are leftovers read the next word from the acx and merge in -+ * what they want to write. -+ */ -+ if (count) { -+ write_reg32 (adev, IO_ACX_SLV_MEM_ADDR, destination); -+ udelay (10); -+ tmp = read_reg32 (adev, IO_ACX_SLV_MEM_DATA); -+ while (count--) { -+ *ptmp++ = *source++; -+ } -+ /* -+ * reset address in case we're currently in auto-increment mode -+ */ -+ write_reg32 (adev, IO_ACX_SLV_MEM_ADDR, destination); -+ udelay (10); -+ write_reg32 (adev, IO_ACX_SLV_MEM_DATA, tmp); -+ udelay (10); -+ } -+ -+} -+ -+/* -+ * Block copy to slave buffers using memory block chain mode. Copies to the ACX -+ * transmit buffer structure with minimal intervention on our part. -+ * Interrupts should be disabled when calling this. -+ */ -+void -+chaincopy_to_slavemem (acx_device_t *adev, u32 destination, u8 *source, int count) -+{ -+ u32 val; -+ u32 *data = (u32 *) source; -+ static u8 aligned_source[WLAN_A4FR_MAXLEN_WEP_FCS]; -+ -+ /* -+ * Warn if the pointers don't look right. Destination must fit in [23:5] with -+ * zero elsewhere and source should be 32 bit aligned. -+ * This should never happen since we're in control of both, but I want to know about -+ * it if it does. -+ */ -+ if ((destination & 0x00ffffe0) != destination) { -+ printk ("acx chaincopy: destination block 0x%04x not aligned!\n", destination); -+ } -+ if (count > sizeof aligned_source) { -+ printk( KERN_ERR "chaincopy_to_slavemem overflow!\n" ); -+ count = sizeof aligned_source; -+ } -+ if ((u32) source & 3) { -+ memcpy (aligned_source, source, count); -+ data = (u32 *) aligned_source; -+ } -+ -+ /* -+ * SLV_MEM_CTL[17:16] = memory block chain mode with auto-increment -+ * SLV_MEM_CTL[5:2] = offset to data portion = 1 word -+ */ -+ val = 2 << 16 | 1 << 2; -+ writel (val, &adev->iobase[ACX_SLV_MEM_CTL]); -+ -+ /* -+ * SLV_MEM_CP[23:5] = start of 1st block -+ * SLV_MEM_CP[3:2] = offset to memblkptr = 0 -+ */ -+ val = destination & 0x00ffffe0; -+ writel (val, &adev->iobase[ACX_SLV_MEM_CP]); -+ -+ /* -+ * SLV_MEM_ADDR[23:2] = SLV_MEM_CTL[5:2] + SLV_MEM_CP[23:5] -+ */ -+ val = (destination & 0x00ffffe0) + (1<<2); -+ writel (val, &adev->iobase[ACX_SLV_MEM_ADDR]); -+ -+ /* -+ * Write the data to the slave data register, rounding up to the end -+ * of the word containing the last byte (hence the > 0) -+ */ -+ while (count > 0) { -+ writel (*data++, &adev->iobase[ACX_SLV_MEM_DATA]); -+ count -= 4; -+ } -+} -+ -+ -+/* -+ * Block copy from slave buffers using memory block chain mode. Copies from the ACX -+ * receive buffer structures with minimal intervention on our part. -+ * Interrupts should be disabled when calling this. -+ */ -+void -+chaincopy_from_slavemem (acx_device_t *adev, u8 *destination, u32 source, int count) -+{ -+ u32 val; -+ u32 *data = (u32 *) destination; -+ static u8 aligned_destination[WLAN_A4FR_MAXLEN_WEP_FCS]; -+ int saved_count = count; -+ -+ /* -+ * Warn if the pointers don't look right. Destination must fit in [23:5] with -+ * zero elsewhere and source should be 32 bit aligned. -+ * Turns out the network stack sends unaligned things, so fix them before -+ * copying to the ACX. -+ */ -+ if ((source & 0x00ffffe0) != source) { -+ printk ("acx chaincopy: source block 0x%04x not aligned!\n", source); -+ dump_acxmem (adev, 0, 0x10000); -+ } -+ if ((u32) destination & 3) { -+ //printk ("acx chaincopy: data destination not word aligned!\n"); -+ data = (u32 *) aligned_destination; -+ if (count > sizeof aligned_destination) { -+ printk( KERN_ERR "chaincopy_from_slavemem overflow!\n" ); -+ count = sizeof aligned_destination; -+ } -+ } -+ -+ /* -+ * SLV_MEM_CTL[17:16] = memory block chain mode with auto-increment -+ * SLV_MEM_CTL[5:2] = offset to data portion = 1 word -+ */ -+ val = (2 << 16) | (1 << 2); -+ writel (val, &adev->iobase[ACX_SLV_MEM_CTL]); -+ -+ /* -+ * SLV_MEM_CP[23:5] = start of 1st block -+ * SLV_MEM_CP[3:2] = offset to memblkptr = 0 -+ */ -+ val = source & 0x00ffffe0; -+ writel (val, &adev->iobase[ACX_SLV_MEM_CP]); -+ -+ /* -+ * SLV_MEM_ADDR[23:2] = SLV_MEM_CTL[5:2] + SLV_MEM_CP[23:5] -+ */ -+ val = (source & 0x00ffffe0) + (1<<2); -+ writel (val, &adev->iobase[ACX_SLV_MEM_ADDR]); -+ -+ /* -+ * Read the data from the slave data register, rounding up to the end -+ * of the word containing the last byte (hence the > 0) -+ */ -+ while (count > 0) { -+ *data++ = readl (&adev->iobase[ACX_SLV_MEM_DATA]); -+ count -= 4; -+ } -+ -+ /* -+ * If the destination wasn't aligned, we would have saved it in -+ * the aligned buffer, so copy it where it should go. -+ */ -+ if ((u32) destination & 3) { -+ memcpy (destination, aligned_destination, saved_count); -+ } -+} -+ -+char -+printable (char c) -+{ -+ return ((c >= 20) && (c < 127)) ? c : '.'; -+} -+ -+#if DUMP_MEM_DEFINED > 0 -+static void -+dump_acxmem (acx_device_t *adev, u32 start, int length) -+{ -+ int i; -+ u8 buf[16]; -+ -+ while (length > 0) { -+ printk ("%04x ", start); -+ copy_from_slavemem (adev, buf, start, 16); -+ for (i = 0; (i < 16) && (i < length); i++) { -+ printk ("%02x ", buf[i]); -+ } -+ for (i = 0; (i < 16) && (i < length); i++) { -+ printk ("%c", printable (buf[i])); -+ } -+ printk ("\n"); -+ start += 16; -+ length -= 16; -+ } -+} -+#endif -+ -+static void -+enable_acx_irq(acx_device_t *adev); -+static void -+disable_acx_irq(acx_device_t *adev); -+ -+/* -+ * Return an acx pointer to the next transmit data block. -+ */ -+u32 -+allocate_acx_txbuf_space (acx_device_t *adev, int count) { -+ u32 block, next, last_block; -+ int blocks_needed; -+ unsigned long flags; -+ -+ spin_lock_irqsave(&adev->txbuf_lock, flags); -+ /* -+ * Take 4 off the memory block size to account for the reserved word at the start of -+ * the block. -+ */ -+ blocks_needed = count / (adev->memblocksize - 4); -+ if (count % (adev->memblocksize - 4)) -+ blocks_needed++; -+ -+ if (blocks_needed <= adev->acx_txbuf_blocks_free) { -+ /* -+ * Take blocks at the head of the free list. -+ */ -+ last_block = block = adev->acx_txbuf_free; -+ -+ /* -+ * Follow block pointers through the requested number of blocks both to -+ * find the new head of the free list and to set the flags for the blocks -+ * appropriately. -+ */ -+ while (blocks_needed--) { -+ /* -+ * Keep track of the last block of the allocation -+ */ -+ last_block = adev->acx_txbuf_free; -+ -+ /* -+ * Make sure the end control flag is not set. -+ */ -+ next = read_slavemem32 (adev, adev->acx_txbuf_free) & 0x7ffff; -+ write_slavemem32 (adev, adev->acx_txbuf_free, next); -+ -+ /* -+ * Update the new head of the free list -+ */ -+ adev->acx_txbuf_free = next << 5; -+ adev->acx_txbuf_blocks_free--; -+ -+ } -+ -+ /* -+ * Flag the last block both by clearing out the next pointer -+ * and marking the control field. -+ */ -+ write_slavemem32 (adev, last_block, 0x02000000); -+ -+ /* -+ * If we're out of buffers make sure the free list pointer is NULL -+ */ -+ if (!adev->acx_txbuf_blocks_free) { -+ adev->acx_txbuf_free = 0; -+ } -+ } -+ else { -+ block = 0; -+ } -+ spin_unlock_irqrestore (&adev->txbuf_lock, flags); -+ return block; -+} -+ -+/* -+ * Return buffer space back to the pool by following the next pointers until we find -+ * the block marked as the end. Point the last block to the head of the free list, -+ * then update the head of the free list to point to the newly freed memory. -+ * This routine gets called in interrupt context, so it shouldn't block to protect -+ * the integrity of the linked list. The ISR already holds the lock. -+ */ -+void -+reclaim_acx_txbuf_space (acx_device_t *adev, u32 blockptr) { -+ u32 cur, last, next; -+ unsigned long flags; -+ -+ spin_lock_irqsave (&adev->txbuf_lock, flags); -+ if ((blockptr >= adev->acx_txbuf_start) && -+ (blockptr <= adev->acx_txbuf_start + -+ (adev->acx_txbuf_numblocks - 1) * adev->memblocksize)) { -+ cur = blockptr; -+ do { -+ last = cur; -+ next = read_slavemem32 (adev, cur); -+ -+ /* -+ * Advance to the next block in this allocation -+ */ -+ cur = (next & 0x7ffff) << 5; -+ -+ /* -+ * This block now counts as free. -+ */ -+ adev->acx_txbuf_blocks_free++; -+ } while (!(next & 0x02000000)); -+ -+ /* -+ * last now points to the last block of that allocation. Update the pointer -+ * in that block to point to the free list and reset the free list to the -+ * first block of the free call. If there were no free blocks, make sure -+ * the new end of the list marks itself as truly the end. -+ */ -+ if (adev->acx_txbuf_free) { -+ write_slavemem32 (adev, last, adev->acx_txbuf_free >> 5); -+ } -+ else { -+ write_slavemem32 (adev, last, 0x02000000); -+ } -+ adev->acx_txbuf_free = blockptr; -+ } -+ spin_unlock_irqrestore(&adev->txbuf_lock, flags); -+} -+ -+/* -+ * Initialize the pieces managing the transmit buffer pool on the ACX. The transmit -+ * buffer is a circular queue with one 32 bit word reserved at the beginning of each -+ * block. The upper 13 bits are a control field, of which only 0x02000000 has any -+ * meaning. The lower 19 bits are the address of the next block divided by 32. -+ */ -+void -+init_acx_txbuf (acx_device_t *adev) { -+ -+ /* -+ * acx100_s_init_memory_pools set up txbuf_start and txbuf_numblocks for us. -+ * All we need to do is reset the rest of the bookeeping. -+ */ -+ -+ adev->acx_txbuf_free = adev->acx_txbuf_start; -+ adev->acx_txbuf_blocks_free = adev->acx_txbuf_numblocks; -+ -+ /* -+ * Initialization leaves the last transmit pool block without a pointer back to -+ * the head of the list, but marked as the end of the list. That's how we want -+ * to see it, too, so leave it alone. This is only ever called after a firmware -+ * reset, so the ACX memory is in the state we want. -+ */ -+ -+} -+ -+INLINE_IO int -+adev_present(acx_device_t *adev) -+{ -+ /* fast version (accesses the first register, IO_ACX_SOFT_RESET, -+ * which should be safe): */ -+ return readl(adev->iobase) != 0xffffffff; -+} -+ -+/*********************************************************************** -+*/ -+static inline txdesc_t* -+get_txdesc(acx_device_t *adev, int index) -+{ -+ return (txdesc_t*) (((u8*)adev->txdesc_start) + index * adev->txdesc_size); -+} -+ -+static inline txdesc_t* -+advance_txdesc(acx_device_t *adev, txdesc_t* txdesc, int inc) -+{ -+ return (txdesc_t*) (((u8*)txdesc) + inc * adev->txdesc_size); -+} -+ -+static txhostdesc_t* -+get_txhostdesc(acx_device_t *adev, txdesc_t* txdesc) -+{ -+ int index = (u8*)txdesc - (u8*)adev->txdesc_start; -+ if (unlikely(ACX_DEBUG && (index % adev->txdesc_size))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return NULL; -+ } -+ index /= adev->txdesc_size; -+ if (unlikely(ACX_DEBUG && (index >= TX_CNT))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return NULL; -+ } -+ return &adev->txhostdesc_start[index*2]; -+} -+ -+static inline client_t* -+get_txc(acx_device_t *adev, txdesc_t* txdesc) -+{ -+ int index = (u8*)txdesc - (u8*)adev->txdesc_start; -+ if (unlikely(ACX_DEBUG && (index % adev->txdesc_size))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return NULL; -+ } -+ index /= adev->txdesc_size; -+ if (unlikely(ACX_DEBUG && (index >= TX_CNT))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return NULL; -+ } -+ return adev->txc[index]; -+} -+ -+static inline u16 -+get_txr(acx_device_t *adev, txdesc_t* txdesc) -+{ -+ int index = (u8*)txdesc - (u8*)adev->txdesc_start; -+ index /= adev->txdesc_size; -+ return adev->txr[index]; -+} -+ -+static inline void -+put_txcr(acx_device_t *adev, txdesc_t* txdesc, client_t* c, u16 r111) -+{ -+ int index = (u8*)txdesc - (u8*)adev->txdesc_start; -+ if (unlikely(ACX_DEBUG && (index % adev->txdesc_size))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return; -+ } -+ index /= adev->txdesc_size; -+ if (unlikely(ACX_DEBUG && (index >= TX_CNT))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return; -+ } -+ adev->txc[index] = c; -+ adev->txr[index] = r111; -+} -+ -+ -+/*********************************************************************** -+** EEPROM and PHY read/write helpers -+*/ -+/*********************************************************************** -+** acxmem_read_eeprom_byte -+** -+** Function called to read an octet in the EEPROM. -+** -+** This function is used by acxmem_e_probe to check if the -+** connected card is a legal one or not. -+** -+** Arguments: -+** adev ptr to acx_device structure -+** addr address to read in the EEPROM -+** charbuf ptr to a char. This is where the read octet -+** will be stored -+*/ -+int -+acxmem_read_eeprom_byte(acx_device_t *adev, u32 addr, u8 *charbuf) -+{ -+ int result; -+ int count; -+ -+ write_reg32(adev, IO_ACX_EEPROM_CFG, 0); -+ write_reg32(adev, IO_ACX_EEPROM_ADDR, addr); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_EEPROM_CTL, 2); -+ -+ count = 0xffff; -+ while (read_reg16(adev, IO_ACX_EEPROM_CTL)) { -+ /* scheduling away instead of CPU burning loop -+ * doesn't seem to work here at all: -+ * awful delay, sometimes also failure. -+ * Doesn't matter anyway (only small delay). */ -+ if (unlikely(!--count)) { -+ printk("%s: timeout waiting for EEPROM read\n", -+ adev->ndev->name); -+ result = NOT_OK; -+ goto fail; -+ } -+ cpu_relax(); -+ } -+ -+ *charbuf = read_reg8(adev, IO_ACX_EEPROM_DATA); -+ log(L_DEBUG, "EEPROM at 0x%04X = 0x%02X\n", addr, *charbuf); -+ result = OK; -+ -+fail: -+ return result; -+} -+ -+ -+/*********************************************************************** -+** We don't lock hw accesses here since we never r/w eeprom in IRQ -+** Note: this function sleeps only because of GFP_KERNEL alloc -+*/ -+#ifdef UNUSED -+int -+acxmem_s_write_eeprom(acx_device_t *adev, u32 addr, u32 len, const u8 *charbuf) -+{ -+ u8 *data_verify = NULL; -+ unsigned long flags; -+ int count, i; -+ int result = NOT_OK; -+ u16 gpio_orig; -+ -+ printk("acx: WARNING! I would write to EEPROM now. " -+ "Since I really DON'T want to unless you know " -+ "what you're doing (THIS CODE WILL PROBABLY " -+ "NOT WORK YET!), I will abort that now. And " -+ "definitely make sure to make a " -+ "/proc/driver/acx_wlan0_eeprom backup copy first!!! " -+ "(the EEPROM content includes the PCI config header!! " -+ "If you kill important stuff, then you WILL " -+ "get in trouble and people DID get in trouble already)\n"); -+ return OK; -+ -+ FN_ENTER; -+ -+ data_verify = kmalloc(len, GFP_KERNEL); -+ if (!data_verify) { -+ goto end; -+ } -+ -+ /* first we need to enable the OE (EEPROM Output Enable) GPIO line -+ * to be able to write to the EEPROM. -+ * NOTE: an EEPROM writing success has been reported, -+ * but you probably have to modify GPIO_OUT, too, -+ * and you probably need to activate a different GPIO -+ * line instead! */ -+ gpio_orig = read_reg16(adev, IO_ACX_GPIO_OE); -+ write_reg16(adev, IO_ACX_GPIO_OE, gpio_orig & ~1); -+ write_flush(adev); -+ -+ /* ok, now start writing the data out */ -+ for (i = 0; i < len; i++) { -+ write_reg32(adev, IO_ACX_EEPROM_CFG, 0); -+ write_reg32(adev, IO_ACX_EEPROM_ADDR, addr + i); -+ write_reg32(adev, IO_ACX_EEPROM_DATA, *(charbuf + i)); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_EEPROM_CTL, 1); -+ -+ count = 0xffff; -+ while (read_reg16(adev, IO_ACX_EEPROM_CTL)) { -+ if (unlikely(!--count)) { -+ printk("WARNING, DANGER!!! " -+ "Timeout waiting for EEPROM write\n"); -+ goto end; -+ } -+ cpu_relax(); -+ } -+ } -+ -+ /* disable EEPROM writing */ -+ write_reg16(adev, IO_ACX_GPIO_OE, gpio_orig); -+ write_flush(adev); -+ -+ /* now start a verification run */ -+ for (i = 0; i < len; i++) { -+ write_reg32(adev, IO_ACX_EEPROM_CFG, 0); -+ write_reg32(adev, IO_ACX_EEPROM_ADDR, addr + i); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_EEPROM_CTL, 2); -+ -+ count = 0xffff; -+ while (read_reg16(adev, IO_ACX_EEPROM_CTL)) { -+ if (unlikely(!--count)) { -+ printk("timeout waiting for EEPROM read\n"); -+ goto end; -+ } -+ cpu_relax(); -+ } -+ -+ data_verify[i] = read_reg16(adev, IO_ACX_EEPROM_DATA); -+ } -+ -+ if (0 == memcmp(charbuf, data_verify, len)) -+ result = OK; /* read data matches, success */ -+ -+end: -+ kfree(data_verify); -+ FN_EXIT1(result); -+ return result; -+} -+#endif /* UNUSED */ -+ -+ -+/*********************************************************************** -+** acxmem_s_read_phy_reg -+** -+** Messing with rx/tx disabling and enabling here -+** (write_reg32(adev, IO_ACX_ENABLE, 0b000000xx)) kills traffic -+*/ -+int -+acxmem_s_read_phy_reg(acx_device_t *adev, u32 reg, u8 *charbuf) -+{ -+ int result = NOT_OK; -+ int count; -+ -+ FN_ENTER; -+ -+ write_reg32(adev, IO_ACX_PHY_ADDR, reg); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_PHY_CTL, 2); -+ -+ count = 0xffff; -+ while (read_reg32(adev, IO_ACX_PHY_CTL)) { -+ /* scheduling away instead of CPU burning loop -+ * doesn't seem to work here at all: -+ * awful delay, sometimes also failure. -+ * Doesn't matter anyway (only small delay). */ -+ if (unlikely(!--count)) { -+ printk("%s: timeout waiting for phy read\n", -+ adev->ndev->name); -+ *charbuf = 0; -+ goto fail; -+ } -+ cpu_relax(); -+ } -+ -+ log(L_DEBUG, "count was %u\n", count); -+ *charbuf = read_reg8(adev, IO_ACX_PHY_DATA); -+ -+ log(L_DEBUG, "radio PHY at 0x%04X = 0x%02X\n", *charbuf, reg); -+ result = OK; -+ goto fail; /* silence compiler warning */ -+fail: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+*/ -+int -+acxmem_s_write_phy_reg(acx_device_t *adev, u32 reg, u8 value) -+{ -+ int count; -+ FN_ENTER; -+ -+ /* mprusko said that 32bit accesses result in distorted sensitivity -+ * on his card. Unconfirmed, looks like it's not true (most likely since we -+ * now properly flush writes). */ -+ write_reg32(adev, IO_ACX_PHY_DATA, value); -+ write_reg32(adev, IO_ACX_PHY_ADDR, reg); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_PHY_CTL, 1); -+ write_flush(adev); -+ -+ count = 0xffff; -+ while (read_reg32(adev, IO_ACX_PHY_CTL)) { -+ /* scheduling away instead of CPU burning loop -+ * doesn't seem to work here at all: -+ * awful delay, sometimes also failure. -+ * Doesn't matter anyway (only small delay). */ -+ if (unlikely(!--count)) { -+ printk("%s: timeout waiting for phy read\n", -+ adev->ndev->name); -+ goto fail; -+ } -+ cpu_relax(); -+ } -+ -+ log(L_DEBUG, "radio PHY write 0x%02X at 0x%04X\n", value, reg); -+ fail: -+ FN_EXIT1(OK); -+ return OK; -+} -+ -+ -+#define NO_AUTO_INCREMENT 1 -+ -+/*********************************************************************** -+** acxmem_s_write_fw -+** -+** Write the firmware image into the card. -+** -+** Arguments: -+** adev wlan device structure -+** fw_image firmware image. -+** -+** Returns: -+** 1 firmware image corrupted -+** 0 success -+*/ -+static int -+acxmem_s_write_fw(acx_device_t *adev, const firmware_image_t *fw_image, u32 offset) -+{ -+ int len, size, checkMismatch = -1; -+ u32 sum, v32, tmp, id; -+ /* we skip the first four bytes which contain the control sum */ -+ const u8 *p = (u8*)fw_image + 4; -+ -+ /* start the image checksum by adding the image size value */ -+ sum = p[0]+p[1]+p[2]+p[3]; -+ p += 4; -+ -+#ifdef NOPE -+#if NO_AUTO_INCREMENT -+ write_reg32(adev, IO_ACX_SLV_MEM_CTL, 0); /* use basic mode */ -+#else -+ write_reg32(adev, IO_ACX_SLV_MEM_CTL, 1); /* use autoincrement mode */ -+ write_reg32(adev, IO_ACX_SLV_MEM_ADDR, offset); /* configure start address */ -+ write_flush(adev); -+#endif -+#endif -+ len = 0; -+ size = le32_to_cpu(fw_image->size) & (~3); -+ -+ while (likely(len < size)) { -+ v32 = be32_to_cpu(*(u32*)p); -+ sum += p[0]+p[1]+p[2]+p[3]; -+ p += 4; -+ len += 4; -+ -+#ifdef NOPE -+#if NO_AUTO_INCREMENT -+ write_reg32(adev, IO_ACX_SLV_MEM_ADDR, offset + len - 4); -+ write_flush(adev); -+#endif -+ write_reg32(adev, IO_ACX_SLV_MEM_DATA, v32); -+ write_flush(adev); -+#endif -+ write_slavemem32 (adev, offset + len - 4, v32); -+ -+ id = read_id_register (adev); -+ -+ /* -+ * check the data written -+ */ -+ tmp = read_slavemem32 (adev, offset + len - 4); -+ if (checkMismatch && (tmp != v32)) { -+ printk ("first data mismatch at 0x%08x good 0x%08x bad 0x%08x id 0x%08x\n", -+ offset + len - 4, v32, tmp, id); -+ checkMismatch = 0; -+ } -+ } -+ log(L_DEBUG, "firmware written, size:%d sum1:%x sum2:%x\n", -+ size, sum, le32_to_cpu(fw_image->chksum)); -+ -+ /* compare our checksum with the stored image checksum */ -+ return (sum != le32_to_cpu(fw_image->chksum)); -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_validate_fw -+** -+** Compare the firmware image given with -+** the firmware image written into the card. -+** -+** Arguments: -+** adev wlan device structure -+** fw_image firmware image. -+** -+** Returns: -+** NOT_OK firmware image corrupted or not correctly written -+** OK success -+*/ -+static int -+acxmem_s_validate_fw(acx_device_t *adev, const firmware_image_t *fw_image, -+ u32 offset) -+{ -+ u32 sum, v32, w32; -+ int len, size; -+ int result = OK; -+ /* we skip the first four bytes which contain the control sum */ -+ const u8 *p = (u8*)fw_image + 4; -+ -+ /* start the image checksum by adding the image size value */ -+ sum = p[0]+p[1]+p[2]+p[3]; -+ p += 4; -+ -+ write_reg32(adev, IO_ACX_SLV_END_CTL, 0); -+ -+#if NO_AUTO_INCREMENT -+ write_reg32(adev, IO_ACX_SLV_MEM_CTL, 0); /* use basic mode */ -+#else -+ write_reg32(adev, IO_ACX_SLV_MEM_CTL, 1); /* use autoincrement mode */ -+ write_reg32(adev, IO_ACX_SLV_MEM_ADDR, offset); /* configure start address */ -+#endif -+ -+ len = 0; -+ size = le32_to_cpu(fw_image->size) & (~3); -+ -+ while (likely(len < size)) { -+ v32 = be32_to_cpu(*(u32*)p); -+ p += 4; -+ len += 4; -+ -+#ifdef NOPE -+#if NO_AUTO_INCREMENT -+ write_reg32(adev, IO_ACX_SLV_MEM_ADDR, offset + len - 4); -+#endif -+ udelay(10); -+ w32 = read_reg32(adev, IO_ACX_SLV_MEM_DATA); -+#endif -+ w32 = read_slavemem32 (adev, offset + len - 4); -+ -+ if (unlikely(w32 != v32)) { -+ printk("acx: FATAL: firmware upload: " -+ "data parts at offset %d don't match\n(0x%08X vs. 0x%08X)!\n" -+ "I/O timing issues or defective memory, with DWL-xx0+? " -+ "ACX_IO_WIDTH=16 may help. Please report\n", -+ len, v32, w32); -+ result = NOT_OK; -+ break; -+ } -+ -+ sum += (u8)w32 + (u8)(w32>>8) + (u8)(w32>>16) + (u8)(w32>>24); -+ } -+ -+ /* sum control verification */ -+ if (result != NOT_OK) { -+ if (sum != le32_to_cpu(fw_image->chksum)) { -+ printk("acx: FATAL: firmware upload: " -+ "checksums don't match!\n"); -+ result = NOT_OK; -+ } -+ } -+ -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_upload_fw -+** -+** Called from acx_reset_dev -+*/ -+static int -+acxmem_s_upload_fw(acx_device_t *adev) -+{ -+ firmware_image_t *fw_image = NULL; -+ int res = NOT_OK; -+ int try; -+ u32 file_size; -+ char *filename = "WLANGEN.BIN"; -+#ifdef PATCH_AROUND_BAD_SPOTS -+ u32 offset; -+ int i; -+ /* -+ * arm-linux-objdump -d patch.bin, or -+ * od -Ax -t x4 patch.bin after finding the bounds -+ * of the .text section with arm-linux-objdump -s patch.bin -+ */ -+ u32 patch[] = { -+ 0xe584c030, 0xe59fc008, -+ 0xe92d1000, 0xe59fc004, 0xe8bd8000, 0x0000080c, -+ 0x0000aa68, 0x605a2200, 0x2c0a689c, 0x2414d80a, -+ 0x2f00689f, 0x1c27d007, 0x06241e7c, 0x2f000e24, -+ 0xe000d1f6, 0x602e6018, 0x23036468, 0x480203db, -+ 0x60ca6003, 0xbdf0750a, 0xffff0808 -+ }; -+#endif -+ -+ FN_ENTER; -+ /* No combined image; tell common we need the radio firmware, too */ -+ adev->need_radio_fw = 1; -+ -+ fw_image = acx_s_read_fw(adev->dev, filename, &file_size); -+ if (!fw_image) { -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+ } -+ -+ for (try = 1; try <= 5; try++) { -+ res = acxmem_s_write_fw(adev, fw_image, 0); -+ log(L_DEBUG|L_INIT, "acx_write_fw (main): %d\n", res); -+ if (OK == res) { -+ res = acxmem_s_validate_fw(adev, fw_image, 0); -+ log(L_DEBUG|L_INIT, "acx_validate_fw " -+ "(main): %d\n", res); -+ } -+ -+ if (OK == res) { -+ SET_BIT(adev->dev_state_mask, ACX_STATE_FW_LOADED); -+ break; -+ } -+ printk("acx: firmware upload attempt #%d FAILED, " -+ "retrying...\n", try); -+ acx_s_msleep(1000); /* better wait for a while... */ -+ } -+ -+#ifdef PATCH_AROUND_BAD_SPOTS -+ /* -+ * Only want to do this if the firmware is exactly what we expect for an -+ * iPaq 4700; otherwise, bad things would ensue. -+ */ -+ if ((HX4700_FIRMWARE_CHECKSUM == fw_image->chksum) || -+ (HX4700_ALTERNATE_FIRMWARE_CHECKSUM == fw_image->chksum)) { -+ /* -+ * Put the patch after the main firmware image. 0x950c contains -+ * the ACX's idea of the end of the firmware. Use that location to -+ * load ours (which depends on that location being 0xab58) then -+ * update that location to point to after ours. -+ */ -+ -+ offset = read_slavemem32 (adev, 0x950c); -+ -+ log (L_DEBUG, "acx: patching in at 0x%04x\n", offset); -+ -+ for (i = 0; i < sizeof(patch) / sizeof(patch[0]); i++) { -+ write_slavemem32 (adev, offset, patch[i]); -+ offset += sizeof(u32); -+ } -+ -+ /* -+ * Patch the instruction at 0x0804 to branch to our ARM patch at 0xab58 -+ */ -+ write_slavemem32 (adev, 0x0804, 0xea000000 + (0xab58-0x0804-8)/4); -+ -+ /* -+ * Patch the instructions at 0x1f40 to branch to our Thumb patch at 0xab74 -+ * -+ * 4a00 ldr r2, [pc, #0] -+ * 4710 bx r2 -+ * .data 0xab74+1 -+ */ -+ write_slavemem32 (adev, 0x1f40, 0x47104a00); -+ write_slavemem32 (adev, 0x1f44, 0x0000ab74+1); -+ -+ /* -+ * Bump the end of the firmware up to beyond our patch. -+ */ -+ write_slavemem32 (adev, 0x950c, offset); -+ -+ } -+#endif -+ -+ vfree(fw_image); -+ -+ FN_EXIT1(res); -+ return res; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_upload_radio -+** -+** Uploads the appropriate radio module firmware into the card. -+*/ -+int -+acxmem_s_upload_radio(acx_device_t *adev) -+{ -+ acx_ie_memmap_t mm; -+ firmware_image_t *radio_image; -+ acx_cmd_radioinit_t radioinit; -+ int res = NOT_OK; -+ int try; -+ u32 offset; -+ u32 size; -+ char filename[sizeof("RADIONN.BIN")]; -+ -+ if (!adev->need_radio_fw) return OK; -+ -+ FN_ENTER; -+ -+ acx_s_interrogate(adev, &mm, ACX1xx_IE_MEMORY_MAP); -+ offset = le32_to_cpu(mm.CodeEnd); -+ -+ snprintf(filename, sizeof(filename), "RADIO%02x.BIN", -+ adev->radio_type); -+ radio_image = acx_s_read_fw(adev->dev, filename, &size); -+ if (!radio_image) { -+ printk("acx: can't load radio module '%s'\n", filename); -+ goto fail; -+ } -+ -+ acx_s_issue_cmd(adev, ACX1xx_CMD_SLEEP, NULL, 0); -+ -+ for (try = 1; try <= 5; try++) { -+ res = acxmem_s_write_fw(adev, radio_image, offset); -+ log(L_DEBUG|L_INIT, "acx_write_fw (radio): %d\n", res); -+ if (OK == res) { -+ res = acxmem_s_validate_fw(adev, radio_image, offset); -+ log(L_DEBUG|L_INIT, "acx_validate_fw (radio): %d\n", res); -+ } -+ -+ if (OK == res) -+ break; -+ printk("acx: radio firmware upload attempt #%d FAILED, " -+ "retrying...\n", try); -+ acx_s_msleep(1000); /* better wait for a while... */ -+ } -+ -+ acx_s_issue_cmd(adev, ACX1xx_CMD_WAKE, NULL, 0); -+ radioinit.offset = cpu_to_le32(offset); -+ -+ /* no endian conversion needed, remains in card CPU area: */ -+ radioinit.len = radio_image->size; -+ -+ vfree(radio_image); -+ -+ if (OK != res) -+ goto fail; -+ -+ /* will take a moment so let's have a big timeout */ -+ acx_s_issue_cmd_timeo(adev, ACX1xx_CMD_RADIOINIT, -+ &radioinit, sizeof(radioinit), CMD_TIMEOUT_MS(1000)); -+ -+ res = acx_s_interrogate(adev, &mm, ACX1xx_IE_MEMORY_MAP); -+ -+fail: -+ FN_EXIT1(res); -+ return res; -+} -+ -+/*********************************************************************** -+** acxmem_l_reset_mac -+** -+** MAC will be reset -+** Call context: reset_dev -+*/ -+static void -+acxmem_l_reset_mac(acx_device_t *adev) -+{ -+ int count; -+ FN_ENTER; -+ -+ /* halt eCPU */ -+ set_regbits (adev, IO_ACX_ECPU_CTRL, 0x1); -+ -+ /* now do soft reset of eCPU, set bit */ -+ set_regbits (adev, IO_ACX_SOFT_RESET, 0x1); -+ log(L_DEBUG, "%s: enable soft reset...\n", __func__); -+ -+ /* Windows driver sleeps here for a while with this sequence */ -+ for (count = 0; count < 200; count++) { -+ udelay (50); -+ } -+ -+ /* now clear bit again: deassert eCPU reset */ -+ log(L_DEBUG, "%s: disable soft reset and go to init mode...\n", __func__); -+ clear_regbits (adev, IO_ACX_SOFT_RESET, 0x1); -+ -+ /* now start a burst read from initial EEPROM */ -+ set_regbits (adev, IO_ACX_EE_START, 0x1); -+ -+ /* -+ * Windows driver sleeps here for a while with this sequence -+ */ -+ for (count = 0; count < 200; count++) { -+ udelay (50); -+ } -+ -+ /* Windows driver writes 0x10000 to register 0x808 here */ -+ -+ write_reg32 (adev, 0x808, 0x10000); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_verify_init -+*/ -+static int -+acxmem_s_verify_init(acx_device_t *adev) -+{ -+ int result = NOT_OK; -+ unsigned long timeout; -+ -+ FN_ENTER; -+ -+ timeout = jiffies + 2*HZ; -+ for (;;) { -+ u32 irqstat = read_reg32(adev, IO_ACX_IRQ_STATUS_NON_DES); -+ if ((irqstat != 0xFFFFFFFF) && (irqstat & HOST_INT_FCS_THRESHOLD)) { -+ result = OK; -+ write_reg32(adev, IO_ACX_IRQ_ACK, HOST_INT_FCS_THRESHOLD); -+ break; -+ } -+ if (time_after(jiffies, timeout)) -+ break; -+ /* Init may take up to ~0.5 sec total */ -+ acx_s_msleep(50); -+ } -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** A few low-level helpers -+** -+** Note: these functions are not protected by lock -+** and thus are never allowed to be called from IRQ. -+** Also they must not race with fw upload which uses same hw regs -+*/ -+ -+/*********************************************************************** -+** acxmem_write_cmd_type_status -+*/ -+ -+static inline void -+acxmem_write_cmd_type_status(acx_device_t *adev, u16 type, u16 status) -+{ -+ write_slavemem32 (adev, (u32) adev->cmd_area, type | (status << 16)); -+ write_flush(adev); -+} -+ -+ -+/*********************************************************************** -+** acxmem_read_cmd_type_status -+*/ -+static u32 -+acxmem_read_cmd_type_status(acx_device_t *adev) -+{ -+ u32 cmd_type, cmd_status; -+ -+ cmd_type = read_slavemem32 (adev, (u32) adev->cmd_area); -+ -+ cmd_status = (cmd_type >> 16); -+ cmd_type = (u16)cmd_type; -+ -+ log(L_CTL, "cmd_type:%04X cmd_status:%04X [%s]\n", -+ cmd_type, cmd_status, -+ acx_cmd_status_str(cmd_status)); -+ -+ return cmd_status; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_reset_dev -+** -+** Arguments: -+** netdevice that contains the adev variable -+** Returns: -+** NOT_OK on fail -+** OK on success -+** Side effects: -+** device is hard reset -+** Call context: -+** acxmem_e_probe -+** Comment: -+** This resets the device using low level hardware calls -+** as well as uploads and verifies the firmware to the card -+*/ -+ -+static inline void -+init_mboxes(acx_device_t *adev) -+{ -+ u32 cmd_offs, info_offs; -+ -+ cmd_offs = read_reg32(adev, IO_ACX_CMD_MAILBOX_OFFS); -+ info_offs = read_reg32(adev, IO_ACX_INFO_MAILBOX_OFFS); -+ adev->cmd_area = (u8*) cmd_offs; -+ adev->info_area = (u8*) info_offs; -+ /* -+ log(L_DEBUG, "iobase2=%p\n" -+ */ -+ log( L_DEBUG, "cmd_mbox_offset=%X cmd_area=%p\n" -+ "info_mbox_offset=%X info_area=%p\n", -+ cmd_offs, adev->cmd_area, -+ info_offs, adev->info_area); -+} -+ -+ -+static inline void -+read_eeprom_area(acx_device_t *adev) -+{ -+#if ACX_DEBUG > 1 -+ int offs; -+ u8 tmp; -+ -+ for (offs = 0x8c; offs < 0xb9; offs++) -+ acxmem_read_eeprom_byte(adev, offs, &tmp); -+#endif -+} -+ -+static int -+acxmem_s_reset_dev(acx_device_t *adev) -+{ -+ const char* msg = ""; -+ unsigned long flags; -+ int result = NOT_OK; -+ u16 hardware_info; -+ u16 ecpu_ctrl; -+ int count; -+ u32 tmp; -+ -+ FN_ENTER; -+ /* -+ write_reg32 (adev, IO_ACX_SLV_MEM_CP, 0); -+ */ -+ /* reset the device to make sure the eCPU is stopped -+ * to upload the firmware correctly */ -+ -+ acx_lock(adev, flags); -+ -+ /* Windows driver does some funny things here */ -+ /* -+ * clear bit 0x200 in register 0x2A0 -+ */ -+ clear_regbits (adev, 0x2A0, 0x200); -+ -+ /* -+ * Set bit 0x200 in ACX_GPIO_OUT -+ */ -+ set_regbits (adev, IO_ACX_GPIO_OUT, 0x200); -+ -+ /* -+ * read register 0x900 until its value is 0x8400104C, sleeping -+ * in between reads if it's not immediate -+ */ -+ tmp = read_reg32 (adev, REG_ACX_VENDOR_ID); -+ count = 500; -+ while (count-- && (tmp != ACX_VENDOR_ID)) { -+ mdelay (10); -+ tmp = read_reg32 (adev, REG_ACX_VENDOR_ID); -+ } -+ -+ /* end what Windows driver does */ -+ -+ acxmem_l_reset_mac(adev); -+ -+ ecpu_ctrl = read_reg32(adev, IO_ACX_ECPU_CTRL) & 1; -+ if (!ecpu_ctrl) { -+ msg = "eCPU is already running. "; -+ goto end_unlock; -+ } -+ -+#ifdef WE_DONT_NEED_THAT_DO_WE -+ if (read_reg16(adev, IO_ACX_SOR_CFG) & 2) { -+ /* eCPU most likely means "embedded CPU" */ -+ msg = "eCPU did not start after boot from flash. "; -+ goto end_unlock; -+ } -+ -+ /* check sense on reset flags */ -+ if (read_reg16(adev, IO_ACX_SOR_CFG) & 0x10) { -+ printk("%s: eCPU did not start after boot (SOR), " -+ "is this fatal?\n", adev->ndev->name); -+ } -+#endif -+ /* scan, if any, is stopped now, setting corresponding IRQ bit */ -+ adev->irq_status |= HOST_INT_SCAN_COMPLETE; -+ -+ acx_unlock(adev, flags); -+ -+ /* need to know radio type before fw load */ -+ /* Need to wait for arrival of this information in a loop, -+ * most probably since eCPU runs some init code from EEPROM -+ * (started burst read in reset_mac()) which also -+ * sets the radio type ID */ -+ -+ count = 0xffff; -+ do { -+ hardware_info = read_reg16(adev, IO_ACX_EEPROM_INFORMATION); -+ if (!--count) { -+ msg = "eCPU didn't indicate radio type"; -+ goto end_fail; -+ } -+ cpu_relax(); -+ } while (!(hardware_info & 0xff00)); /* radio type still zero? */ -+ printk("ACX radio type 0x%02x\n", (hardware_info >> 8) & 0xff); -+ /* printk("DEBUG: count %d\n", count); */ -+ adev->form_factor = hardware_info & 0xff; -+ adev->radio_type = hardware_info >> 8; -+ -+ /* load the firmware */ -+ if (OK != acxmem_s_upload_fw(adev)) -+ goto end_fail; -+ -+ /* acx_s_msleep(10); this one really shouldn't be required */ -+ -+ /* now start eCPU by clearing bit */ -+ clear_regbits (adev, IO_ACX_ECPU_CTRL, 0x1); -+ log(L_DEBUG, "booted eCPU up and waiting for completion...\n"); -+ -+ /* Windows driver clears bit 0x200 in register 0x2A0 here */ -+ clear_regbits (adev, 0x2A0, 0x200); -+ -+ /* Windows driver sets bit 0x200 in ACX_GPIO_OUT here */ -+ set_regbits (adev, IO_ACX_GPIO_OUT, 0x200); -+ /* wait for eCPU bootup */ -+ if (OK != acxmem_s_verify_init(adev)) { -+ msg = "timeout waiting for eCPU. "; -+ goto end_fail; -+ } -+ log(L_DEBUG, "eCPU has woken up, card is ready to be configured\n"); -+ init_mboxes(adev); -+ acxmem_write_cmd_type_status(adev, ACX1xx_CMD_RESET, 0); -+ -+ /* test that EEPROM is readable */ -+ read_eeprom_area(adev); -+ -+ result = OK; -+ goto end; -+ -+/* Finish error message. Indicate which function failed */ -+end_unlock: -+ acx_unlock(adev, flags); -+end_fail: -+ printk("acx: %sreset_dev() FAILED\n", msg); -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_issue_cmd_timeo -+** -+** Sends command to fw, extract result -+** -+** NB: we do _not_ take lock inside, so be sure to not touch anything -+** which may interfere with IRQ handler operation -+** -+** TODO: busy wait is a bit silly, so: -+** 1) stop doing many iters - go to sleep after first -+** 2) go to waitqueue based approach: wait, not poll! -+*/ -+#undef FUNC -+#define FUNC "issue_cmd" -+ -+#if !ACX_DEBUG -+int -+acxmem_s_issue_cmd_timeo( -+ acx_device_t *adev, -+ unsigned int cmd, -+ void *buffer, -+ unsigned buflen, -+ unsigned cmd_timeout) -+{ -+#else -+int -+acxmem_s_issue_cmd_timeo_debug( -+ acx_device_t *adev, -+ unsigned cmd, -+ void *buffer, -+ unsigned buflen, -+ unsigned cmd_timeout, -+ const char* cmdstr) -+{ -+ unsigned long start = jiffies; -+#endif -+ const char *devname; -+ unsigned counter; -+ u16 irqtype; -+ int i, j; -+ u8 *p; -+ u16 cmd_status; -+ unsigned long timeout; -+ -+ FN_ENTER; -+ -+ devname = adev->ndev->name; -+ if (!devname || !devname[0] || devname[4]=='%') -+ devname = "acx"; -+ -+ log(L_CTL, FUNC"(cmd:%s,buflen:%u,timeout:%ums,type:0x%04X)\n", -+ cmdstr, buflen, cmd_timeout, -+ buffer ? le16_to_cpu(((acx_ie_generic_t *)buffer)->type) : -1); -+ -+ if (!(adev->dev_state_mask & ACX_STATE_FW_LOADED)) { -+ printk("%s: "FUNC"(): firmware is not loaded yet, " -+ "cannot execute commands!\n", devname); -+ goto bad; -+ } -+ -+ if ((acx_debug & L_DEBUG) && (cmd != ACX1xx_CMD_INTERROGATE)) { -+ printk("input buffer (len=%u):\n", buflen); -+ acx_dump_bytes(buffer, buflen); -+ } -+ -+ /* wait for firmware to become idle for our command submission */ -+ timeout = HZ/5; -+ counter = (timeout * 1000 / HZ) - 1; /* in ms */ -+ timeout += jiffies; -+ do { -+ cmd_status = acxmem_read_cmd_type_status(adev); -+ /* Test for IDLE state */ -+ if (!cmd_status) -+ break; -+ if (counter % 8 == 0) { -+ if (time_after(jiffies, timeout)) { -+ counter = 0; -+ break; -+ } -+ /* we waited 8 iterations, no luck. Sleep 8 ms */ -+ acx_s_msleep(8); -+ } -+ } while (likely(--counter)); -+ -+ if (!counter) { -+ /* the card doesn't get idle, we're in trouble */ -+ printk("%s: "FUNC"(): cmd_status is not IDLE: 0x%04X!=0\n", -+ devname, cmd_status); -+#if DUMP_IF_SLOW > 0 -+ dump_acxmem (adev, 0, 0x10000); -+ panic ("not idle"); -+#endif -+ goto bad; -+ } else if (counter < 190) { /* if waited >10ms... */ -+ log(L_CTL|L_DEBUG, FUNC"(): waited for IDLE %dms. " -+ "Please report\n", 199 - counter); -+ } -+ -+ /* now write the parameters of the command if needed */ -+ if (buffer && buflen) { -+ /* if it's an INTERROGATE command, just pass the length -+ * of parameters to read, as data */ -+#if CMD_DISCOVERY -+ if (cmd == ACX1xx_CMD_INTERROGATE) -+ memset_io(adev->cmd_area + 4, 0xAA, buflen); -+#endif -+ /* -+ * slave memory version -+ */ -+ copy_to_slavemem (adev, (u32) (adev->cmd_area + 4), buffer, -+ (cmd == ACX1xx_CMD_INTERROGATE) ? 4 : buflen); -+ } -+ /* now write the actual command type */ -+ acxmem_write_cmd_type_status(adev, cmd, 0); -+ -+ /* clear CMD_COMPLETE bit. can be set only by IRQ handler: */ -+ adev->irq_status &= ~HOST_INT_CMD_COMPLETE; -+ -+ /* execute command */ -+ write_reg16(adev, IO_ACX_INT_TRIG, INT_TRIG_CMD); -+ write_flush(adev); -+ -+ /* wait for firmware to process command */ -+ -+ /* Ensure nonzero and not too large timeout. -+ ** Also converts e.g. 100->99, 200->199 -+ ** which is nice but not essential */ -+ cmd_timeout = (cmd_timeout-1) | 1; -+ if (unlikely(cmd_timeout > 1199)) -+ cmd_timeout = 1199; -+ -+ /* we schedule away sometimes (timeout can be large) */ -+ counter = cmd_timeout; -+ timeout = jiffies + cmd_timeout * HZ / 1000; -+ do { -+ if (!adev->irqs_active) { /* IRQ disabled: poll */ -+ irqtype = read_reg16(adev, IO_ACX_IRQ_STATUS_NON_DES); -+ if (irqtype & HOST_INT_CMD_COMPLETE) { -+ write_reg16(adev, IO_ACX_IRQ_ACK, -+ HOST_INT_CMD_COMPLETE); -+ break; -+ } -+ } else { /* Wait when IRQ will set the bit */ -+ irqtype = adev->irq_status; -+ if (irqtype & HOST_INT_CMD_COMPLETE) -+ break; -+ } -+ -+ if (counter % 8 == 0) { -+ if (time_after(jiffies, timeout)) { -+ counter = 0; -+ break; -+ } -+ /* we waited 8 iterations, no luck. Sleep 8 ms */ -+ acx_s_msleep(8); -+ } -+ } while (likely(--counter)); -+ -+ /* save state for debugging */ -+ cmd_status = acxmem_read_cmd_type_status(adev); -+ -+ /* put the card in IDLE state */ -+ acxmem_write_cmd_type_status(adev, ACX1xx_CMD_RESET, 0); -+ -+ if (!counter) { /* timed out! */ -+ printk("%s: "FUNC"(): timed out %s for CMD_COMPLETE. " -+ "irq bits:0x%04X irq_status:0x%04X timeout:%dms " -+ "cmd_status:%d (%s)\n", -+ devname, (adev->irqs_active) ? "waiting" : "polling", -+ irqtype, adev->irq_status, cmd_timeout, -+ cmd_status, acx_cmd_status_str(cmd_status)); -+ printk("%s: "FUNC"(): device irq status 0x%04x\n", -+ devname, read_reg16(adev, IO_ACX_IRQ_STATUS_NON_DES)); -+ printk("%s: "FUNC"(): IO_ACX_IRQ_MASK 0x%04x IO_ACX_FEMR 0x%04x\n", -+ devname, -+ read_reg16 (adev, IO_ACX_IRQ_MASK), -+ read_reg16 (adev, IO_ACX_FEMR)); -+ if (read_reg16 (adev, IO_ACX_IRQ_MASK) == 0xffff) { -+ printk ("acxmem: firmware probably hosed - reloading\n"); -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 11) -+ { -+ pm_message_t state; -+ acxmem_e_suspend (resume_pdev, state); -+ } -+#else -+ acxmem_e_suspend (adev->dev, 0); -+#endif -+ { -+ struct work_struct *notused; -+ fw_resumer (notused); -+ } -+ } -+ -+ goto bad; -+ } else if (cmd_timeout - counter > 30) { /* if waited >30ms... */ -+ log(L_CTL|L_DEBUG, FUNC"(): %s for CMD_COMPLETE %dms. " -+ "count:%d. Please report\n", -+ (adev->irqs_active) ? "waited" : "polled", -+ cmd_timeout - counter, counter); -+ } -+ -+ if (1 != cmd_status) { /* it is not a 'Success' */ -+ printk("%s: "FUNC"(): cmd_status is not SUCCESS: %d (%s). " -+ "Took %dms of %d\n", -+ devname, cmd_status, acx_cmd_status_str(cmd_status), -+ cmd_timeout - counter, cmd_timeout); -+ /* zero out result buffer -+ * WARNING: this will trash stack in case of illegally large input -+ * length! */ -+ if (buflen > 388) { -+ /* -+ * 388 is maximum command length -+ */ -+ printk ("invalid length 0x%08x\n", buflen); -+ buflen = 388; -+ } -+ p = (u8 *) buffer; -+ for (i = 0; i < buflen; i+= 16) { -+ printk ("%04x:", i); -+ for (j = 0; (j < 16) && (i+j < buflen); j++) { -+ printk (" %02x", *p++); -+ } -+ printk ("\n"); -+ } -+ -+ if (buffer && buflen) -+ memset(buffer, 0, buflen); -+ goto bad; -+ } -+ -+ /* read in result parameters if needed */ -+ if (buffer && buflen && (cmd == ACX1xx_CMD_INTERROGATE)) { -+ copy_from_slavemem (adev, buffer, (u32) (adev->cmd_area + 4), buflen); -+ if (acx_debug & L_DEBUG) { -+ printk("output buffer (len=%u): ", buflen); -+ acx_dump_bytes(buffer, buflen); -+ } -+ } -+ -+/* ok: */ -+ log(L_CTL, FUNC"(%s): took %ld jiffies to complete\n", -+ cmdstr, jiffies - start); -+ FN_EXIT1(OK); -+ return OK; -+ -+bad: -+ /* Give enough info so that callers can avoid -+ ** printing their own diagnostic messages */ -+#if ACX_DEBUG -+ printk("%s: "FUNC"(cmd:%s) FAILED\n", devname, cmdstr); -+#else -+ printk("%s: "FUNC"(cmd:0x%04X) FAILED\n", devname, cmd); -+#endif -+ dump_stack(); -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*********************************************************************** -+*/ -+#if defined(NONESSENTIAL_FEATURES) -+typedef struct device_id { -+ unsigned char id[6]; -+ char *descr; -+ char *type; -+} device_id_t; -+ -+static const device_id_t -+device_ids[] = -+{ -+ { -+ {'G', 'l', 'o', 'b', 'a', 'l'}, -+ NULL, -+ NULL, -+ }, -+ { -+ {0xff, 0xff, 0xff, 0xff, 0xff, 0xff}, -+ "uninitialized", -+ "SpeedStream SS1021 or Gigafast WF721-AEX" -+ }, -+ { -+ {0x80, 0x81, 0x82, 0x83, 0x84, 0x85}, -+ "non-standard", -+ "DrayTek Vigor 520" -+ }, -+ { -+ {'?', '?', '?', '?', '?', '?'}, -+ "non-standard", -+ "Level One WPC-0200" -+ }, -+ { -+ {0x00, 0x00, 0x00, 0x00, 0x00, 0x00}, -+ "empty", -+ "DWL-650+ variant" -+ } -+}; -+ -+static void -+acx_show_card_eeprom_id(acx_device_t *adev) -+{ -+ unsigned char buffer[CARD_EEPROM_ID_SIZE]; -+ int i; -+ -+ memset(&buffer, 0, CARD_EEPROM_ID_SIZE); -+ /* use direct EEPROM access */ -+ for (i = 0; i < CARD_EEPROM_ID_SIZE; i++) { -+ if (OK != acxmem_read_eeprom_byte(adev, -+ ACX100_EEPROM_ID_OFFSET + i, -+ &buffer[i])) { -+ printk("acx: reading EEPROM FAILED\n"); -+ break; -+ } -+ } -+ -+ for (i = 0; i < VEC_SIZE(device_ids); i++) { -+ if (!memcmp(&buffer, device_ids[i].id, CARD_EEPROM_ID_SIZE)) { -+ if (device_ids[i].descr) { -+ printk("acx: EEPROM card ID string check " -+ "found %s card ID: is this %s?\n", -+ device_ids[i].descr, device_ids[i].type); -+ } -+ break; -+ } -+ } -+ if (i == VEC_SIZE(device_ids)) { -+ printk("acx: EEPROM card ID string check found " -+ "unknown card: expected 'Global', got '%.*s\'. " -+ "Please report\n", CARD_EEPROM_ID_SIZE, buffer); -+ } -+} -+#endif /* NONESSENTIAL_FEATURES */ -+ -+/*********************************************************************** -+** acxmem_free_desc_queues -+** -+** Releases the queues that have been allocated, the -+** others have been initialised to NULL so this -+** function can be used if only part of the queues were allocated. -+*/ -+ -+void -+acxmem_free_desc_queues(acx_device_t *adev) -+{ -+#define ACX_FREE_QUEUE(size, ptr, phyaddr) \ -+ if (ptr) { \ -+ kfree(ptr); \ -+ ptr = NULL; \ -+ size = 0; \ -+ } -+ -+ FN_ENTER; -+ -+ ACX_FREE_QUEUE(adev->txhostdesc_area_size, adev->txhostdesc_start, adev->txhostdesc_startphy); -+ ACX_FREE_QUEUE(adev->txbuf_area_size, adev->txbuf_start, adev->txbuf_startphy); -+ -+ adev->txdesc_start = NULL; -+ -+ ACX_FREE_QUEUE(adev->rxhostdesc_area_size, adev->rxhostdesc_start, adev->rxhostdesc_startphy); -+ ACX_FREE_QUEUE(adev->rxbuf_area_size, adev->rxbuf_start, adev->rxbuf_startphy); -+ -+ adev->rxdesc_start = NULL; -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_delete_dma_regions -+*/ -+static void -+acxmem_s_delete_dma_regions(acx_device_t *adev) -+{ -+ unsigned long flags; -+ -+ FN_ENTER; -+ /* disable radio Tx/Rx. Shouldn't we use the firmware commands -+ * here instead? Or are we that much down the road that it's no -+ * longer possible here? */ -+ /* -+ * slave memory interface really doesn't like this. -+ */ -+ /* -+ write_reg16(adev, IO_ACX_ENABLE, 0); -+ */ -+ -+ acx_s_msleep(100); -+ -+ acx_lock(adev, flags); -+ acxmem_free_desc_queues(adev); -+ acx_unlock(adev, flags); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_e_probe -+** -+** Probe routine called when a PCI device w/ matching ID is found. -+** Here's the sequence: -+** - Allocate the PCI resources. -+** - Read the PCMCIA attribute memory to make sure we have a WLAN card -+** - Reset the MAC -+** - Initialize the dev and wlan data -+** - Initialize the MAC -+** -+** pdev - ptr to pci device structure containing info about pci configuration -+** id - ptr to the device id entry that matched this device -+*/ -+static const u16 -+IO_ACX100[] = -+{ -+ 0x0000, /* IO_ACX_SOFT_RESET */ -+ -+ 0x0014, /* IO_ACX_SLV_MEM_ADDR */ -+ 0x0018, /* IO_ACX_SLV_MEM_DATA */ -+ 0x001c, /* IO_ACX_SLV_MEM_CTL */ -+ 0x0020, /* IO_ACX_SLV_END_CTL */ -+ -+ 0x0034, /* IO_ACX_FEMR */ -+ -+ 0x007c, /* IO_ACX_INT_TRIG */ -+ 0x0098, /* IO_ACX_IRQ_MASK */ -+ 0x00a4, /* IO_ACX_IRQ_STATUS_NON_DES */ -+ 0x00a8, /* IO_ACX_IRQ_STATUS_CLEAR */ -+ 0x00ac, /* IO_ACX_IRQ_ACK */ -+ 0x00b0, /* IO_ACX_HINT_TRIG */ -+ -+ 0x0104, /* IO_ACX_ENABLE */ -+ -+ 0x0250, /* IO_ACX_EEPROM_CTL */ -+ 0x0254, /* IO_ACX_EEPROM_ADDR */ -+ 0x0258, /* IO_ACX_EEPROM_DATA */ -+ 0x025c, /* IO_ACX_EEPROM_CFG */ -+ -+ 0x0268, /* IO_ACX_PHY_ADDR */ -+ 0x026c, /* IO_ACX_PHY_DATA */ -+ 0x0270, /* IO_ACX_PHY_CTL */ -+ -+ 0x0290, /* IO_ACX_GPIO_OE */ -+ -+ 0x0298, /* IO_ACX_GPIO_OUT */ -+ -+ 0x02a4, /* IO_ACX_CMD_MAILBOX_OFFS */ -+ 0x02a8, /* IO_ACX_INFO_MAILBOX_OFFS */ -+ 0x02ac, /* IO_ACX_EEPROM_INFORMATION */ -+ -+ 0x02d0, /* IO_ACX_EE_START */ -+ 0x02d4, /* IO_ACX_SOR_CFG */ -+ 0x02d8 /* IO_ACX_ECPU_CTRL */ -+}; -+ -+static const u16 -+IO_ACX111[] = -+{ -+ 0x0000, /* IO_ACX_SOFT_RESET */ -+ -+ 0x0014, /* IO_ACX_SLV_MEM_ADDR */ -+ 0x0018, /* IO_ACX_SLV_MEM_DATA */ -+ 0x001c, /* IO_ACX_SLV_MEM_CTL */ -+ 0x0020, /* IO_ACX_SLV_MEM_CP */ -+ -+ 0x0034, /* IO_ACX_FEMR */ -+ -+ 0x00b4, /* IO_ACX_INT_TRIG */ -+ 0x00d4, /* IO_ACX_IRQ_MASK */ -+ /* we do mean NON_DES (0xf0), not NON_DES_MASK which is at 0xe0: */ -+ 0x00f0, /* IO_ACX_IRQ_STATUS_NON_DES */ -+ 0x00e4, /* IO_ACX_IRQ_STATUS_CLEAR */ -+ 0x00e8, /* IO_ACX_IRQ_ACK */ -+ 0x00ec, /* IO_ACX_HINT_TRIG */ -+ -+ 0x01d0, /* IO_ACX_ENABLE */ -+ -+ 0x0338, /* IO_ACX_EEPROM_CTL */ -+ 0x033c, /* IO_ACX_EEPROM_ADDR */ -+ 0x0340, /* IO_ACX_EEPROM_DATA */ -+ 0x0344, /* IO_ACX_EEPROM_CFG */ -+ -+ 0x0350, /* IO_ACX_PHY_ADDR */ -+ 0x0354, /* IO_ACX_PHY_DATA */ -+ 0x0358, /* IO_ACX_PHY_CTL */ -+ -+ 0x0374, /* IO_ACX_GPIO_OE */ -+ -+ 0x037c, /* IO_ACX_GPIO_OUT */ -+ -+ 0x0388, /* IO_ACX_CMD_MAILBOX_OFFS */ -+ 0x038c, /* IO_ACX_INFO_MAILBOX_OFFS */ -+ 0x0390, /* IO_ACX_EEPROM_INFORMATION */ -+ -+ 0x0100, /* IO_ACX_EE_START */ -+ 0x0104, /* IO_ACX_SOR_CFG */ -+ 0x0108, /* IO_ACX_ECPU_CTRL */ -+}; -+ -+static void -+dummy_netdev_init(struct net_device *ndev) {} -+ -+/* -+ * Most of the acx specific pieces of hardware reset. -+ */ -+static int -+acxmem_complete_hw_reset (acx_device_t *adev) -+{ -+ acx111_ie_configoption_t co; -+ -+ /* NB: read_reg() reads may return bogus data before reset_dev(), -+ * since the firmware which directly controls large parts of the I/O -+ * registers isn't initialized yet. -+ * acx100 seems to be more affected than acx111 */ -+ if (OK != acxmem_s_reset_dev (adev)) -+ return -1; -+ -+ if (IS_ACX100(adev)) { -+ /* ACX100: configopt struct in cmd mailbox - directly after reset */ -+ copy_from_slavemem (adev, (u8*) &co, (u32) adev->cmd_area, sizeof (co)); -+ } -+ -+ if (OK != acx_s_init_mac(adev)) -+ return -3; -+ -+ if (IS_ACX111(adev)) { -+ /* ACX111: configopt struct needs to be queried after full init */ -+ acx_s_interrogate(adev, &co, ACX111_IE_CONFIG_OPTIONS); -+ } -+ -+ /* -+ * Set up transmit buffer administration -+ */ -+ init_acx_txbuf (adev); -+ -+ /* -+ * Windows driver writes 0x01000000 to register 0x288, RADIO_CTL, if the form factor -+ * is 3. It also write protects the EEPROM by writing 1<<9 to GPIO_OUT -+ */ -+ if (adev->form_factor == 3) { -+ set_regbits (adev, 0x288, 0x01000000); -+ set_regbits (adev, 0x298, 1<<9); -+ } -+ -+/* TODO: merge them into one function, they are called just once and are the same for pci & usb */ -+ if (OK != acxmem_read_eeprom_byte(adev, 0x05, &adev->eeprom_version)) -+ return -2; -+ -+ acx_s_parse_configoption(adev, &co); -+ acx_s_get_firmware_version(adev); /* needs to be after acx_s_init_mac() */ -+ acx_display_hardware_details(adev); -+ -+ return 0; -+} -+ -+static int __devinit -+acxmem_e_probe(struct platform_device *pdev) -+{ -+ struct acx_hardware_data *hwdata = pdev->dev.platform_data; -+ acx_device_t *adev = NULL; -+ struct net_device *ndev = NULL; -+ const char *chip_name; -+ int result = -EIO; -+ int err; -+ int i; -+ unsigned long addr_size=0; -+ u8 chip_type; -+ -+ FN_ENTER; -+ (void) hwdata->start_hw(); -+ -+ /* FIXME: prism54 calls pci_set_mwi() here, -+ * should we do/support the same? */ -+ -+ /* chiptype is u8 but id->driver_data is ulong -+ ** Works for now (possible values are 1 and 2) */ -+ chip_type = CHIPTYPE_ACX100; -+ /* acx100 and acx111 have different PCI memory regions */ -+ if (chip_type == CHIPTYPE_ACX100) { -+ chip_name = "ACX100"; -+ } else if (chip_type == CHIPTYPE_ACX111) { -+ chip_name = "ACX111"; -+ } else { -+ printk("acx: unknown chip type 0x%04X\n", chip_type); -+ goto fail_unknown_chiptype; -+ } -+ -+ printk("acx: found %s-based wireless network card\n", chip_name); -+ log(L_ANY, "initial debug setting is 0x%04X\n", acx_debug); -+ -+ ndev = alloc_netdev(sizeof(*adev), "wlan%d", dummy_netdev_init); -+ /* (NB: memsets to 0 entire area) */ -+ if (!ndev) { -+ printk("acx: no memory for netdevice struct\n"); -+ goto fail_alloc_netdev; -+ } -+ -+ platform_set_drvdata (pdev, ndev); -+ -+ ether_setup(ndev); -+ -+ /* -+ * use platform_data resources that were provided -+ */ -+ ndev->irq = 0; -+ for (i=0; i<pdev->num_resources; i++) { -+ if (pdev->resource[i].flags == IORESOURCE_IRQ) { -+ ndev->irq = pdev->resource[i].start; -+ } -+ else if (pdev->resource[i].flags == IORESOURCE_MEM) { -+ ndev->base_addr = pdev->resource[i].start; -+ addr_size = pdev->resource[i].end - pdev->resource[i].start; -+ } -+ } -+ if (addr_size == 0 || ndev->irq == 0) -+ goto fail_hw_params; -+ ndev->open = &acxmem_e_open; -+ ndev->stop = &acxmem_e_close; -+ pdev->dev.release = &acxmem_e_release; -+ ndev->hard_start_xmit = &acx_i_start_xmit; -+ ndev->get_stats = &acx_e_get_stats; -+#if IW_HANDLER_VERSION <= 5 -+ ndev->get_wireless_stats = &acx_e_get_wireless_stats; -+#endif -+ ndev->wireless_handlers = (struct iw_handler_def *)&acx_ioctl_handler_def; -+ ndev->set_multicast_list = &acxmem_i_set_multicast_list; -+ ndev->tx_timeout = &acxmem_i_tx_timeout; -+ ndev->change_mtu = &acx_e_change_mtu; -+ ndev->watchdog_timeo = 4 * HZ; -+ -+ adev = ndev2adev(ndev); -+ spin_lock_init(&adev->lock); /* initial state: unlocked */ -+ spin_lock_init(&adev->txbuf_lock); -+ /* We do not start with downed sem: we want PARANOID_LOCKING to work */ -+ sema_init(&adev->sem, 1); /* initial state: 1 (upped) */ -+ /* since nobody can see new netdev yet, we can as well -+ ** just _presume_ that we're under sem (instead of actually taking it): */ -+ /* acx_sem_lock(adev); */ -+ adev->dev = &pdev->dev; -+ adev->ndev = ndev; -+ adev->dev_type = DEVTYPE_MEM; -+ adev->chip_type = chip_type; -+ adev->chip_name = chip_name; -+ adev->io = (CHIPTYPE_ACX100 == chip_type) ? IO_ACX100 : IO_ACX111; -+ adev->membase = (volatile u32 *) ndev->base_addr; -+ adev->iobase = (volatile u32 *) ioremap_nocache (ndev->base_addr, addr_size); -+ /* to find crashes due to weird driver access -+ * to unconfigured interface (ifup) */ -+ adev->mgmt_timer.function = (void (*)(unsigned long))0x0000dead; -+ -+#if defined(NONESSENTIAL_FEATURES) -+ acx_show_card_eeprom_id(adev); -+#endif /* NONESSENTIAL_FEATURES */ -+ -+#ifdef SET_MODULE_OWNER -+ SET_MODULE_OWNER(ndev); -+#endif -+ SET_NETDEV_DEV(ndev, &pdev->dev); -+ -+ log(L_IRQ|L_INIT, "using IRQ %d\n", ndev->irq); -+ -+ /* ok, pci setup is finished, now start initializing the card */ -+ -+ if (OK != acxmem_complete_hw_reset (adev)) -+ goto fail_reset; -+ -+ /* -+ * Set up default things for most of the card settings. -+ */ -+ acx_s_set_defaults(adev); -+ -+ /* Register the card, AFTER everything else has been set up, -+ * since otherwise an ioctl could step on our feet due to -+ * firmware operations happening in parallel or uninitialized data */ -+ err = register_netdev(ndev); -+ if (OK != err) { -+ printk("acx: register_netdev() FAILED: %d\n", err); -+ goto fail_register_netdev; -+ } -+ -+ acx_proc_register_entries(ndev); -+ -+ /* Now we have our device, so make sure the kernel doesn't try -+ * to send packets even though we're not associated to a network yet */ -+ acx_stop_queue(ndev, "on probe"); -+ acx_carrier_off(ndev, "on probe"); -+ -+ /* -+ * Set up a default monitor type so that poor combinations of initialization -+ * sequences in monitor mode don't end up destroying the hardware type. -+ */ -+ adev->monitor_type = ARPHRD_ETHER; -+ -+ /* -+ * Register to receive inetaddr notifier changes. This will allow us to -+ * catch if the user changes the MAC address of the interface. -+ */ -+ register_netdevice_notifier(&acx_netdev_notifier); -+ -+ /* after register_netdev() userspace may start working with dev -+ * (in particular, on other CPUs), we only need to up the sem */ -+ /* acx_sem_unlock(adev); */ -+ -+ printk("acx "ACX_RELEASE": net device %s, driver compiled " -+ "against wireless extensions %d and Linux %s\n", -+ ndev->name, WIRELESS_EXT, UTS_RELEASE); -+ -+#if CMD_DISCOVERY -+ great_inquisitor(adev); -+#endif -+ -+ result = OK; -+ goto done; -+ -+ /* error paths: undo everything in reverse order... */ -+ -+fail_register_netdev: -+ -+ acxmem_s_delete_dma_regions(adev); -+ -+fail_reset: -+fail_hw_params: -+ free_netdev(ndev); -+fail_alloc_netdev: -+fail_unknown_chiptype: -+ -+ -+done: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acxmem_e_remove -+** -+** Shut device down (if not hot unplugged) -+** and deallocate PCI resources for the acx chip. -+** -+** pdev - ptr to PCI device structure containing info about pci configuration -+*/ -+static int __devexit -+acxmem_e_remove(struct platform_device *pdev) -+{ -+ struct acx_hardware_data *hwdata = pdev->dev.platform_data; -+ struct net_device *ndev; -+ acx_device_t *adev; -+ unsigned long flags; -+ -+ FN_ENTER; -+ -+ ndev = (struct net_device*) platform_get_drvdata(pdev); -+ if (!ndev) { -+ log(L_DEBUG, "%s: card is unused. Skipping any release code\n", -+ __func__); -+ goto end; -+ } -+ -+ adev = ndev2adev(ndev); -+ -+ /* If device wasn't hot unplugged... */ -+ if (adev_present(adev)) { -+ -+ acx_sem_lock(adev); -+ -+ /* disable both Tx and Rx to shut radio down properly */ -+ acx_s_issue_cmd(adev, ACX1xx_CMD_DISABLE_TX, NULL, 0); -+ acx_s_issue_cmd(adev, ACX1xx_CMD_DISABLE_RX, NULL, 0); -+ -+#ifdef REDUNDANT -+ /* put the eCPU to sleep to save power -+ * Halting is not possible currently, -+ * since not supported by all firmware versions */ -+ acx_s_issue_cmd(adev, ACX100_CMD_SLEEP, NULL, 0); -+#endif -+ acx_lock(adev, flags); -+ -+ /* disable power LED to save power :-) */ -+ log(L_INIT, "switching off power LED to save power\n"); -+ acxmem_l_power_led(adev, 0); -+ -+ /* stop our eCPU */ -+ if (IS_ACX111(adev)) { -+ /* FIXME: does this actually keep halting the eCPU? -+ * I don't think so... -+ */ -+ acxmem_l_reset_mac(adev); -+ } else { -+ u16 temp; -+ -+ /* halt eCPU */ -+ temp = read_reg16(adev, IO_ACX_ECPU_CTRL) | 0x1; -+ write_reg16(adev, IO_ACX_ECPU_CTRL, temp); -+ write_flush(adev); -+ } -+ -+ acx_unlock(adev, flags); -+ -+ acx_sem_unlock(adev); -+ } -+ -+ -+ /* -+ * Unregister the notifier chain -+ */ -+ unregister_netdevice_notifier(&acx_netdev_notifier); -+ -+ /* unregister the device to not let the kernel -+ * (e.g. ioctls) access a half-deconfigured device -+ * NB: this will cause acxmem_e_close() to be called, -+ * thus we shouldn't call it under sem! */ -+ log(L_INIT, "removing device %s\n", ndev->name); -+ unregister_netdev(ndev); -+ -+ /* unregister_netdev ensures that no references to us left. -+ * For paranoid reasons we continue to follow the rules */ -+ acx_sem_lock(adev); -+ -+ if (adev->dev_state_mask & ACX_STATE_IFACE_UP) { -+ acxmem_s_down(ndev); -+ CLEAR_BIT(adev->dev_state_mask, ACX_STATE_IFACE_UP); -+ } -+ -+ acx_proc_unregister_entries(ndev); -+ -+ acxmem_s_delete_dma_regions(adev); -+ -+ /* finally, clean up PCI bus state */ -+ if (adev->iobase) iounmap((void *)adev->iobase); -+ -+ acx_sem_unlock(adev); -+ -+ /* Free netdev (quite late, -+ * since otherwise we might get caught off-guard -+ * by a netdev timeout handler execution -+ * expecting to see a working dev...) */ -+ free_netdev(ndev); -+ -+ (void) hwdata->stop_hw(); -+ -+ printk ("e_remove done\n"); -+end: -+ FN_EXIT0; -+ -+ return 0; -+} -+ -+ -+/*********************************************************************** -+** TODO: PM code needs to be fixed / debugged / tested. -+*/ -+#ifdef CONFIG_PM -+static int -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 11) -+acxmem_e_suspend(struct platform_device *pdev, pm_message_t state) -+#else -+acxmem_e_suspend(struct device *pdev, u32 state) -+#endif -+{ -+ struct net_device *ndev = platform_get_drvdata(pdev); -+ acx_device_t *adev; -+ struct acx_hardware_data *hwdata; -+ -+ FN_ENTER; -+ printk("acx: suspend handler is experimental!\n"); -+ printk("sus: dev %p\n", ndev); -+ -+ if (!netif_running(ndev)) -+ goto end; -+ -+ adev = ndev2adev(ndev); -+ printk("sus: adev %p\n", adev); -+ -+ hwdata = adev->dev->platform_data; -+ -+ acx_sem_lock(adev); -+ -+ netif_device_detach(ndev); /* this one cannot sleep */ -+ acxmem_s_down(ndev); -+ /* down() does not set it to 0xffff, but here we really want that */ -+ write_reg16(adev, IO_ACX_IRQ_MASK, 0xffff); -+ write_reg16(adev, IO_ACX_FEMR, 0x0); -+ acxmem_s_delete_dma_regions(adev); -+ -+ /* -+ * Turn the ACX chip off. -+ */ -+ hwdata->stop_hw(); -+ -+ acx_sem_unlock(adev); -+end: -+ FN_EXIT0; -+ return OK; -+} -+ -+ -+ -+static void -+fw_resumer(struct work_struct *notused) -+{ -+ struct platform_device *pdev = resume_pdev; -+ struct net_device *ndev = platform_get_drvdata(pdev); -+ acx_device_t *adev; -+ struct acx_hardware_data *hwdata; -+ -+ printk("acx: resume handler is experimental!\n"); -+ printk("rsm: got dev %p\n", ndev); -+ -+ if (!netif_running(ndev)) -+ return; -+ -+ adev = ndev2adev(ndev); -+ printk("rsm: got adev %p\n", adev); -+ -+ acx_sem_lock(adev); -+ -+ hwdata = adev->dev->platform_data; -+ -+ /* -+ * Turn on the ACX. -+ */ -+ hwdata->start_hw(); -+ -+ acxmem_complete_hw_reset (adev); -+ -+ /* -+ * done by acx_s_set_defaults for initial startup -+ */ -+ acxmem_set_interrupt_mask(adev); -+ -+ printk ("rsm: bringing up interface\n"); -+ SET_BIT (adev->set_mask, GETSET_ALL); -+ acxmem_s_up(ndev); -+ printk("rsm: acx up done\n"); -+ -+ /* now even reload all card parameters as they were before suspend, -+ * and possibly be back in the network again already :-) -+ */ -+ /* - most settings updated in acxmem_s_up() -+ if (ACX_STATE_IFACE_UP & adev->dev_state_mask) { -+ adev->set_mask = GETSET_ALL; -+ acx_s_update_card_settings(adev); -+ printk("rsm: settings updated\n"); -+ } -+ */ -+ netif_device_attach(ndev); -+ printk("rsm: device attached\n"); -+ -+ acx_sem_unlock(adev); -+} -+ -+DECLARE_WORK( fw_resume_work, fw_resumer ); -+ -+static int -+acxmem_e_resume(struct platform_device *pdev) -+{ -+ FN_ENTER; -+ -+ resume_pdev = pdev; -+ schedule_work( &fw_resume_work ); -+ -+ FN_EXIT0; -+ return OK; -+} -+#endif /* CONFIG_PM */ -+ -+ -+/*********************************************************************** -+** acxmem_s_up -+** -+** This function is called by acxmem_e_open (when ifconfig sets the device as up) -+** -+** Side effects: -+** - Enables on-card interrupt requests -+** - calls acx_s_start -+*/ -+ -+static void -+enable_acx_irq(acx_device_t *adev) -+{ -+ FN_ENTER; -+ write_reg16(adev, IO_ACX_IRQ_MASK, adev->irq_mask); -+ write_reg16(adev, IO_ACX_FEMR, 0x8000); -+ adev->irqs_active = 1; -+ FN_EXIT0; -+} -+ -+static void -+acxmem_s_up(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ -+ FN_ENTER; -+ -+ acx_lock(adev, flags); -+ enable_acx_irq(adev); -+ acx_unlock(adev, flags); -+ -+ /* acx fw < 1.9.3.e has a hardware timer, and older drivers -+ ** used to use it. But we don't do that anymore, our OS -+ ** has reliable software timers */ -+ init_timer(&adev->mgmt_timer); -+ adev->mgmt_timer.function = acx_i_timer; -+ adev->mgmt_timer.data = (unsigned long)adev; -+ -+ /* Need to set ACX_STATE_IFACE_UP first, or else -+ ** timer won't be started by acx_set_status() */ -+ SET_BIT(adev->dev_state_mask, ACX_STATE_IFACE_UP); -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_2_STA: -+ /* actual scan cmd will happen in start() */ -+ acx_set_status(adev, ACX_STATUS_1_SCANNING); break; -+ case ACX_MODE_3_AP: -+ case ACX_MODE_MONITOR: -+ acx_set_status(adev, ACX_STATUS_4_ASSOCIATED); break; -+ } -+ -+ acx_s_start(adev); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_down -+** -+** This disables the netdevice -+** -+** Side effects: -+** - disables on-card interrupt request -+*/ -+ -+static void -+disable_acx_irq(acx_device_t *adev) -+{ -+ FN_ENTER; -+ -+ /* I guess mask is not 0xffff because acx100 won't signal -+ ** cmd completion then (needed for ifup). -+ ** Someone with acx100 please confirm */ -+ write_reg16(adev, IO_ACX_IRQ_MASK, adev->irq_mask_off); -+ write_reg16(adev, IO_ACX_FEMR, 0x0); -+ adev->irqs_active = 0; -+ FN_EXIT0; -+} -+ -+static void -+acxmem_s_down(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ -+ FN_ENTER; -+ -+ /* Disable IRQs first, so that IRQs cannot race with us */ -+ /* then wait until interrupts have finished executing on other CPUs */ -+ acx_lock(adev, flags); -+ disable_acx_irq(adev); -+ synchronize_irq(adev->pdev->irq); -+ acx_unlock(adev, flags); -+ -+ /* we really don't want to have an asynchronous tasklet disturb us -+ ** after something vital for its job has been shut down, so -+ ** end all remaining work now. -+ ** -+ ** NB: carrier_off (done by set_status below) would lead to -+ ** not yet fully understood deadlock in FLUSH_SCHEDULED_WORK(). -+ ** That's why we do FLUSH first. -+ ** -+ ** NB2: we have a bad locking bug here: FLUSH_SCHEDULED_WORK() -+ ** waits for acx_e_after_interrupt_task to complete if it is running -+ ** on another CPU, but acx_e_after_interrupt_task -+ ** will sleep on sem forever, because it is taken by us! -+ ** Work around that by temporary sem unlock. -+ ** This will fail miserably if we'll be hit by concurrent -+ ** iwconfig or something in between. TODO! */ -+ acx_sem_unlock(adev); -+ FLUSH_SCHEDULED_WORK(); -+ acx_sem_lock(adev); -+ -+ /* This is possible: -+ ** FLUSH_SCHEDULED_WORK -> acx_e_after_interrupt_task -> -+ ** -> set_status(ASSOCIATED) -> wake_queue() -+ ** That's why we stop queue _after_ FLUSH_SCHEDULED_WORK -+ ** lock/unlock is just paranoia, maybe not needed */ -+ acx_lock(adev, flags); -+ acx_stop_queue(ndev, "on ifdown"); -+ acx_set_status(adev, ACX_STATUS_0_STOPPED); -+ acx_unlock(adev, flags); -+ -+ /* kernel/timer.c says it's illegal to del_timer_sync() -+ ** a timer which restarts itself. We guarantee this cannot -+ ** ever happen because acx_i_timer() never does this if -+ ** status is ACX_STATUS_0_STOPPED */ -+ del_timer_sync(&adev->mgmt_timer); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_e_open -+** -+** Called as a result of SIOCSIFFLAGS ioctl changing the flags bit IFF_UP -+** from clear to set. In other words: ifconfig up. -+** -+** Returns: -+** 0 success -+** >0 f/w reported error -+** <0 driver reported error -+*/ -+static int -+acxmem_e_open(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int result = OK; -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ -+ acx_init_task_scheduler(adev); -+ -+/* TODO: pci_set_power_state(pdev, PCI_D0); ? */ -+ -+ /* request shared IRQ handler */ -+ if (request_irq(ndev->irq, acxmem_i_interrupt, SA_INTERRUPT, ndev->name, ndev)) { -+ printk("%s: request_irq FAILED\n", ndev->name); -+ result = -EAGAIN; -+ goto done; -+ } -+ set_irq_type (ndev->irq, IRQT_FALLING); -+ log(L_DEBUG|L_IRQ, "request_irq %d successful\n", ndev->irq); -+ -+ /* ifup device */ -+ acxmem_s_up(ndev); -+ -+ /* We don't currently have to do anything else. -+ * The setup of the MAC should be subsequently completed via -+ * the mlme commands. -+ * Higher layers know we're ready from dev->start==1 and -+ * dev->tbusy==0. Our rx path knows to pass up received/ -+ * frames because of dev->flags&IFF_UP is true. -+ */ -+done: -+ acx_sem_unlock(adev); -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acxmem_e_close -+** -+** Called as a result of SIOCSIIFFLAGS ioctl changing the flags bit IFF_UP -+** from set to clear. I.e. called by "ifconfig DEV down" -+** -+** Returns: -+** 0 success -+** >0 f/w reported error -+** <0 driver reported error -+*/ -+static int -+acxmem_e_close(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ -+ /* ifdown device */ -+ CLEAR_BIT(adev->dev_state_mask, ACX_STATE_IFACE_UP); -+ if (netif_device_present(ndev)) { -+ acxmem_s_down(ndev); -+ } -+ -+ /* disable all IRQs, release shared IRQ handler */ -+ write_reg16(adev, IO_ACX_IRQ_MASK, 0xffff); -+ write_reg16(adev, IO_ACX_FEMR, 0x0); -+ free_irq(ndev->irq, ndev); -+ -+/* TODO: pci_set_power_state(pdev, PCI_D3hot); ? */ -+ -+ /* We currently don't have to do anything else. -+ * Higher layers know we're not ready from dev->start==0 and -+ * dev->tbusy==1. Our rx path knows to not pass up received -+ * frames because of dev->flags&IFF_UP is false. -+ */ -+ acx_sem_unlock(adev); -+ -+ log(L_INIT, "closed device\n"); -+ FN_EXIT0; -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acxmem_i_tx_timeout -+** -+** Called from network core. Must not sleep! -+*/ -+static void -+acxmem_i_tx_timeout(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ unsigned int tx_num_cleaned; -+ -+ FN_ENTER; -+ -+ acx_lock(adev, flags); -+ -+ /* clean processed tx descs, they may have been completely full */ -+ tx_num_cleaned = acxmem_l_clean_txdesc(adev); -+ -+ /* nothing cleaned, yet (almost) no free buffers available? -+ * --> clean all tx descs, no matter which status!! -+ * Note that I strongly suspect that doing emergency cleaning -+ * may confuse the firmware. This is a last ditch effort to get -+ * ANYTHING to work again... -+ * -+ * TODO: it's best to simply reset & reinit hw from scratch... -+ */ -+ if ((adev->tx_free <= TX_EMERG_CLEAN) && (tx_num_cleaned == 0)) { -+ printk("%s: FAILED to free any of the many full tx buffers. " -+ "Switching to emergency freeing. " -+ "Please report!\n", ndev->name); -+ acxmem_l_clean_txdesc_emergency(adev); -+ } -+ -+ if (acx_queue_stopped(ndev) && (ACX_STATUS_4_ASSOCIATED == adev->status)) -+ acx_wake_queue(ndev, "after tx timeout"); -+ -+ /* stall may have happened due to radio drift, so recalib radio */ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_CMD_RADIO_RECALIB); -+ -+ /* do unimportant work last */ -+ printk("%s: tx timeout!\n", ndev->name); -+ adev->stats.tx_errors++; -+ -+ acx_unlock(adev, flags); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_i_set_multicast_list -+** FIXME: most likely needs refinement -+*/ -+static void -+acxmem_i_set_multicast_list(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ -+ FN_ENTER; -+ -+ acx_lock(adev, flags); -+ -+ /* firmwares don't have allmulti capability, -+ * so just use promiscuous mode instead in this case. */ -+ if (ndev->flags & (IFF_PROMISC|IFF_ALLMULTI)) { -+ SET_BIT(adev->rx_config_1, RX_CFG1_RCV_PROMISCUOUS); -+ CLEAR_BIT(adev->rx_config_1, RX_CFG1_FILTER_ALL_MULTI); -+ SET_BIT(adev->set_mask, SET_RXCONFIG); -+ /* let kernel know in case *we* needed to set promiscuous */ -+ ndev->flags |= (IFF_PROMISC|IFF_ALLMULTI); -+ } else { -+ CLEAR_BIT(adev->rx_config_1, RX_CFG1_RCV_PROMISCUOUS); -+ SET_BIT(adev->rx_config_1, RX_CFG1_FILTER_ALL_MULTI); -+ SET_BIT(adev->set_mask, SET_RXCONFIG); -+ ndev->flags &= ~(IFF_PROMISC|IFF_ALLMULTI); -+ } -+ -+ /* cannot update card settings directly here, atomic context */ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_UPDATE_CARD_CFG); -+ -+ acx_unlock(adev, flags); -+ -+ FN_EXIT0; -+} -+ -+ -+/*************************************************************** -+** acxmem_l_process_rxdesc -+** -+** Called directly and only from the IRQ handler -+*/ -+ -+#if !ACX_DEBUG -+static inline void log_rxbuffer(const acx_device_t *adev) {} -+#else -+static void -+log_rxbuffer(const acx_device_t *adev) -+{ -+ register const struct rxhostdesc *rxhostdesc; -+ int i; -+ /* no FN_ENTER here, we don't want that */ -+ -+ rxhostdesc = adev->rxhostdesc_start; -+ if (unlikely(!rxhostdesc)) return; -+ for (i = 0; i < RX_CNT; i++) { -+ if ((rxhostdesc->Ctl_16 & cpu_to_le16(DESC_CTL_HOSTOWN)) -+ && (rxhostdesc->Status & cpu_to_le32(DESC_STATUS_FULL))) -+ printk("rx: buf %d full\n", i); -+ rxhostdesc++; -+ } -+} -+#endif -+ -+static void -+acxmem_l_process_rxdesc(acx_device_t *adev) -+{ -+ register rxhostdesc_t *hostdesc; -+ register rxdesc_t *rxdesc; -+ unsigned count, tail; -+ u32 addr; -+ u8 Ctl_8; -+ -+ FN_ENTER; -+ -+ if (unlikely(acx_debug & L_BUFR)) -+ log_rxbuffer(adev); -+ -+ /* First, have a loop to determine the first descriptor that's -+ * full, just in case there's a mismatch between our current -+ * rx_tail and the full descriptor we're supposed to handle. */ -+ tail = adev->rx_tail; -+ count = RX_CNT; -+ while (1) { -+ hostdesc = &adev->rxhostdesc_start[tail]; -+ rxdesc = &adev->rxdesc_start[tail]; -+ /* advance tail regardless of outcome of the below test */ -+ tail = (tail + 1) % RX_CNT; -+ -+ /* -+ * Unlike the PCI interface, where the ACX can write directly to -+ * the host descriptors, on the slave memory interface we have to -+ * pull these. All we really need to do is check the Ctl_8 field -+ * in the rx descriptor on the ACX, which should be 0x11000000 if -+ * we should process it. -+ */ -+ Ctl_8 = hostdesc->Ctl_16 = read_slavemem8 (adev, (u32) &(rxdesc->Ctl_8)); -+ if ((Ctl_8 & DESC_CTL_HOSTOWN) && -+ (Ctl_8 & DESC_CTL_ACXDONE)) -+ break; /* found it! */ -+ -+ if (unlikely(!--count)) /* hmm, no luck: all descs empty, bail out */ -+ goto end; -+ } -+ -+ /* now process descriptors, starting with the first we figured out */ -+ while (1) { -+ log(L_BUFR, "rx: tail=%u Ctl_8=%02X\n", tail, Ctl_8); -+ /* -+ * If the ACX has CTL_RECLAIM set on this descriptor there -+ * is no buffer associated; it just wants us to tell it to -+ * reclaim the memory. -+ */ -+ if (!(Ctl_8 & DESC_CTL_RECLAIM)) { -+ -+ /* -+ * slave interface - pull data now -+ */ -+ hostdesc->length = read_slavemem16 (adev, (u32) &(rxdesc->total_length)); -+ -+ /* -+ * hostdesc->data is an rxbuffer_t, which includes header information, -+ * but the length in the data packet doesn't. The header information -+ * takes up an additional 12 bytes, so add that to the length we copy. -+ */ -+ addr = read_slavemem32 (adev, (u32) &(rxdesc->ACXMemPtr)); -+ if (addr) { -+ /* -+ * How can &(rxdesc->ACXMemPtr) above ever be zero? Looks like we -+ * get that now and then - try to trap it for debug. -+ */ -+ if (addr & 0xffff0000) { -+ printk("rxdesc 0x%08x\n", (u32) rxdesc); -+ dump_acxmem (adev, 0, 0x10000); -+ panic ("Bad access!"); -+ } -+ chaincopy_from_slavemem (adev, (u8 *) hostdesc->data, addr, -+ hostdesc->length + -+ (u32) &((rxbuffer_t *)0)->hdr_a3); -+ acx_l_process_rxbuf(adev, hostdesc->data); -+ } -+ } -+ else { -+ printk ("rx reclaim only!\n"); -+ } -+ -+ hostdesc->Status = 0; -+ -+ /* -+ * Let the ACX know we're done. -+ */ -+ CLEAR_BIT (Ctl_8, DESC_CTL_HOSTOWN); -+ SET_BIT (Ctl_8, DESC_CTL_HOSTDONE); -+ SET_BIT (Ctl_8, DESC_CTL_RECLAIM); -+ write_slavemem8 (adev, (u32) &rxdesc->Ctl_8, Ctl_8); -+ -+ /* -+ * Now tell the ACX we've finished with the receive buffer so -+ * it can finish the reclaim. -+ */ -+ write_reg16 (adev, IO_ACX_INT_TRIG, INT_TRIG_RXPRC); -+ -+ /* ok, descriptor is handled, now check the next descriptor */ -+ hostdesc = &adev->rxhostdesc_start[tail]; -+ rxdesc = &adev->rxdesc_start[tail]; -+ -+ Ctl_8 = hostdesc->Ctl_16 = read_slavemem8 (adev, (u32) &(rxdesc->Ctl_8)); -+ -+ /* if next descriptor is empty, then bail out */ -+ if (!(Ctl_8 & DESC_CTL_HOSTOWN) || !(Ctl_8 & DESC_CTL_ACXDONE)) -+ break; -+ -+ tail = (tail + 1) % RX_CNT; -+ } -+end: -+ adev->rx_tail = tail; -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_i_interrupt -+** -+** IRQ handler (atomic context, must not sleep, blah, blah) -+*/ -+ -+/* scan is complete. all frames now on the receive queue are valid */ -+#define INFO_SCAN_COMPLETE 0x0001 -+#define INFO_WEP_KEY_NOT_FOUND 0x0002 -+/* hw has been reset as the result of a watchdog timer timeout */ -+#define INFO_WATCH_DOG_RESET 0x0003 -+/* failed to send out NULL frame from PS mode notification to AP */ -+/* recommended action: try entering 802.11 PS mode again */ -+#define INFO_PS_FAIL 0x0004 -+/* encryption/decryption process on a packet failed */ -+#define INFO_IV_ICV_FAILURE 0x0005 -+ -+/* Info mailbox format: -+2 bytes: type -+2 bytes: status -+more bytes may follow -+ rumors say about status: -+ 0x0000 info available (set by hw) -+ 0x0001 information received (must be set by host) -+ 0x1000 info available, mailbox overflowed (messages lost) (set by hw) -+ but in practice we've seen: -+ 0x9000 when we did not set status to 0x0001 on prev message -+ 0x1001 when we did set it -+ 0x0000 was never seen -+ conclusion: this is really a bitfield: -+ 0x1000 is 'info available' bit -+ 'mailbox overflowed' bit is 0x8000, not 0x1000 -+ value of 0x0000 probably means that there are no messages at all -+ P.S. I dunno how in hell hw is supposed to notice that messages are lost - -+ it does NOT clear bit 0x0001, and this bit will probably stay forever set -+ after we set it once. Let's hope this will be fixed in firmware someday -+*/ -+ -+static void -+handle_info_irq(acx_device_t *adev) -+{ -+#if ACX_DEBUG -+ static const char * const info_type_msg[] = { -+ "(unknown)", -+ "scan complete", -+ "WEP key not found", -+ "internal watchdog reset was done", -+ "failed to send powersave (NULL frame) notification to AP", -+ "encrypt/decrypt on a packet has failed", -+ "TKIP tx keys disabled", -+ "TKIP rx keys disabled", -+ "TKIP rx: key ID not found", -+ "???", -+ "???", -+ "???", -+ "???", -+ "???", -+ "???", -+ "???", -+ "TKIP IV value exceeds thresh" -+ }; -+#endif -+ u32 info_type, info_status; -+ -+ info_type = read_slavemem32 (adev, (u32) adev->info_area); -+ -+ info_status = (info_type >> 16); -+ info_type = (u16)info_type; -+ -+ /* inform fw that we have read this info message */ -+ write_slavemem32(adev, (u32) adev->info_area, info_type | 0x00010000); -+ write_reg16(adev, IO_ACX_INT_TRIG, INT_TRIG_INFOACK); -+ write_flush(adev); -+ -+ log(L_CTL, "info_type:%04X info_status:%04X\n", -+ info_type, info_status); -+ -+ log(L_IRQ, "got Info IRQ: status %04X type %04X: %s\n", -+ info_status, info_type, -+ info_type_msg[(info_type >= VEC_SIZE(info_type_msg)) ? -+ 0 : info_type] -+ ); -+} -+ -+ -+static void -+log_unusual_irq(u16 irqtype) { -+ /* -+ if (!printk_ratelimit()) -+ return; -+ */ -+ -+ printk("acx: got"); -+ if (irqtype & HOST_INT_TX_XFER) { -+ printk(" Tx_Xfer"); -+ } -+ if (irqtype & HOST_INT_RX_COMPLETE) { -+ printk(" Rx_Complete"); -+ } -+ if (irqtype & HOST_INT_DTIM) { -+ printk(" DTIM"); -+ } -+ if (irqtype & HOST_INT_BEACON) { -+ printk(" Beacon"); -+ } -+ if (irqtype & HOST_INT_TIMER) { -+ log(L_IRQ, " Timer"); -+ } -+ if (irqtype & HOST_INT_KEY_NOT_FOUND) { -+ printk(" Key_Not_Found"); -+ } -+ if (irqtype & HOST_INT_IV_ICV_FAILURE) { -+ printk(" IV_ICV_Failure (crypto)"); -+ } -+ /* HOST_INT_CMD_COMPLETE */ -+ /* HOST_INT_INFO */ -+ if (irqtype & HOST_INT_OVERFLOW) { -+ printk(" Overflow"); -+ } -+ if (irqtype & HOST_INT_PROCESS_ERROR) { -+ printk(" Process_Error"); -+ } -+ /* HOST_INT_SCAN_COMPLETE */ -+ if (irqtype & HOST_INT_FCS_THRESHOLD) { -+ printk(" FCS_Threshold"); -+ } -+ if (irqtype & HOST_INT_UNKNOWN) { -+ printk(" Unknown"); -+ } -+ printk(" IRQ(s)\n"); -+} -+ -+ -+static void -+update_link_quality_led(acx_device_t *adev) -+{ -+ int qual; -+ -+ qual = acx_signal_determine_quality(adev->wstats.qual.level, adev->wstats.qual.noise); -+ if (qual > adev->brange_max_quality) -+ qual = adev->brange_max_quality; -+ -+ if (time_after(jiffies, adev->brange_time_last_state_change + -+ (HZ/2 - HZ/2 * (unsigned long)qual / adev->brange_max_quality ) )) { -+ acxmem_l_power_led(adev, (adev->brange_last_state == 0)); -+ adev->brange_last_state ^= 1; /* toggle */ -+ adev->brange_time_last_state_change = jiffies; -+ } -+} -+ -+ -+#define MAX_IRQLOOPS_PER_JIFFY (20000/HZ) /* a la orinoco.c */ -+ -+static irqreturn_t -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19) -+acxmem_i_interrupt(int irq, void *dev_id) -+#else -+acxmwm_i_interrupt(int irq, void *dev_id, struct pt_regs *regs) -+#endif -+{ -+ acx_device_t *adev; -+ unsigned long flags; -+ unsigned int irqcount = MAX_IRQLOOPS_PER_JIFFY; -+ register u16 irqtype; -+ u16 unmasked; -+ -+ adev = ndev2adev((struct net_device*)dev_id); -+ -+ /* LOCKING: can just spin_lock() since IRQs are disabled anyway. -+ * I am paranoid */ -+ acx_lock(adev, flags); -+ -+ unmasked = read_reg16(adev, IO_ACX_IRQ_STATUS_CLEAR); -+ if (unlikely(0xffff == unmasked)) { -+ /* 0xffff value hints at missing hardware, -+ * so don't do anything. -+ * Not very clean, but other drivers do the same... */ -+ log(L_IRQ, "IRQ type:FFFF - device removed? IRQ_NONE\n"); -+ goto none; -+ } -+ -+ /* We will check only "interesting" IRQ types */ -+ irqtype = unmasked & ~adev->irq_mask; -+ if (!irqtype) { -+ /* We are on a shared IRQ line and it wasn't our IRQ */ -+ log(L_IRQ, "IRQ type:%04X, mask:%04X - all are masked, IRQ_NONE\n", -+ unmasked, adev->irq_mask); -+ goto none; -+ } -+ -+ /* Done here because IRQ_NONEs taking three lines of log -+ ** drive me crazy */ -+ FN_ENTER; -+ -+#define IRQ_ITERATE 1 -+#if IRQ_ITERATE -+if (jiffies != adev->irq_last_jiffies) { -+ adev->irq_loops_this_jiffy = 0; -+ adev->irq_last_jiffies = jiffies; -+} -+ -+/* safety condition; we'll normally abort loop below -+ * in case no IRQ type occurred */ -+while (likely(--irqcount)) { -+#endif -+ /* ACK all IRQs ASAP */ -+ write_reg16(adev, IO_ACX_IRQ_ACK, 0xffff); -+ -+ log(L_IRQ, "IRQ type:%04X, mask:%04X, type & ~mask:%04X\n", -+ unmasked, adev->irq_mask, irqtype); -+ -+ /* Handle most important IRQ types first */ -+ if (irqtype & HOST_INT_RX_DATA) { -+ log(L_IRQ, "got Rx_Data IRQ\n"); -+ acxmem_l_process_rxdesc(adev); -+ } -+ if (irqtype & HOST_INT_TX_COMPLETE) { -+ log(L_IRQ, "got Tx_Complete IRQ\n"); -+ /* don't clean up on each Tx complete, wait a bit -+ * unless we're going towards full, in which case -+ * we do it immediately, too (otherwise we might lockup -+ * with a full Tx buffer if we go into -+ * acxmem_l_clean_txdesc() at a time when we won't wakeup -+ * the net queue in there for some reason...) */ -+ if (adev->tx_free <= TX_START_CLEAN) { -+#if TX_CLEANUP_IN_SOFTIRQ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_TX_CLEANUP); -+#else -+ acxmem_l_clean_txdesc(adev); -+#endif -+ } -+ } -+ -+ /* Less frequent ones */ -+ if (irqtype & (0 -+ | HOST_INT_CMD_COMPLETE -+ | HOST_INT_INFO -+ | HOST_INT_SCAN_COMPLETE -+ )) { -+ if (irqtype & HOST_INT_CMD_COMPLETE) { -+ log(L_IRQ, "got Command_Complete IRQ\n"); -+ /* save the state for the running issue_cmd() */ -+ SET_BIT(adev->irq_status, HOST_INT_CMD_COMPLETE); -+ } -+ if (irqtype & HOST_INT_INFO) { -+ handle_info_irq(adev); -+ } -+ if (irqtype & HOST_INT_SCAN_COMPLETE) { -+ log(L_IRQ, "got Scan_Complete IRQ\n"); -+ /* need to do that in process context */ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_COMPLETE_SCAN); -+ /* remember that fw is not scanning anymore */ -+ SET_BIT(adev->irq_status, HOST_INT_SCAN_COMPLETE); -+ } -+ } -+ -+ /* These we just log, but either they happen rarely -+ * or we keep them masked out */ -+ if (irqtype & (0 -+ /* | HOST_INT_RX_DATA */ -+ /* | HOST_INT_TX_COMPLETE */ -+ | HOST_INT_TX_XFER -+ | HOST_INT_RX_COMPLETE -+ | HOST_INT_DTIM -+ | HOST_INT_BEACON -+ | HOST_INT_TIMER -+ | HOST_INT_KEY_NOT_FOUND -+ | HOST_INT_IV_ICV_FAILURE -+ /* | HOST_INT_CMD_COMPLETE */ -+ /* | HOST_INT_INFO */ -+ | HOST_INT_OVERFLOW -+ | HOST_INT_PROCESS_ERROR -+ /* | HOST_INT_SCAN_COMPLETE */ -+ | HOST_INT_FCS_THRESHOLD -+ | HOST_INT_UNKNOWN -+ )) { -+ log_unusual_irq(irqtype); -+ } -+ -+#if IRQ_ITERATE -+ unmasked = read_reg16(adev, IO_ACX_IRQ_STATUS_CLEAR); -+ irqtype = unmasked & ~adev->irq_mask; -+ /* Bail out if no new IRQ bits or if all are masked out */ -+ if (!irqtype) -+ break; -+ -+ if (unlikely(++adev->irq_loops_this_jiffy > MAX_IRQLOOPS_PER_JIFFY)) { -+ printk(KERN_ERR "acx: too many interrupts per jiffy!\n"); -+ /* Looks like card floods us with IRQs! Try to stop that */ -+ write_reg16(adev, IO_ACX_IRQ_MASK, 0xffff); -+ /* This will short-circuit all future attempts to handle IRQ. -+ * We cant do much more... */ -+ adev->irq_mask = 0; -+ break; -+ } -+} -+#endif -+ /* Routine to perform blink with range */ -+ if (unlikely(adev->led_power == 2)) -+ update_link_quality_led(adev); -+ -+/* handled: */ -+ /* write_flush(adev); - not needed, last op was read anyway */ -+ acx_unlock(adev, flags); -+ FN_EXIT0; -+ return IRQ_HANDLED; -+ -+none: -+ acx_unlock(adev, flags); -+ return IRQ_NONE; -+} -+ -+ -+/*********************************************************************** -+** acxmem_l_power_led -+*/ -+void -+acxmem_l_power_led(acx_device_t *adev, int enable) -+{ -+ u16 gpio_pled = IS_ACX111(adev) ? 0x0040 : 0x0800; -+ -+ /* A hack. Not moving message rate limiting to adev->xxx -+ * (it's only a debug message after all) */ -+ static int rate_limit = 0; -+ -+ if (rate_limit++ < 3) -+ log(L_IOCTL, "Please report in case toggling the power " -+ "LED doesn't work for your card!\n"); -+ if (enable) -+ write_reg16(adev, IO_ACX_GPIO_OUT, -+ read_reg16(adev, IO_ACX_GPIO_OUT) & ~gpio_pled); -+ else -+ write_reg16(adev, IO_ACX_GPIO_OUT, -+ read_reg16(adev, IO_ACX_GPIO_OUT) | gpio_pled); -+} -+ -+ -+/*********************************************************************** -+** Ioctls -+*/ -+ -+/*********************************************************************** -+*/ -+int -+acx111pci_ioctl_info( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ struct iw_param *vwrq, -+ char *extra) -+{ -+#if ACX_DEBUG > 1 -+ acx_device_t *adev = ndev2adev(ndev); -+ rxdesc_t *rxdesc; -+ txdesc_t *txdesc; -+ rxhostdesc_t *rxhostdesc; -+ txhostdesc_t *txhostdesc; -+ struct acx111_ie_memoryconfig memconf; -+ struct acx111_ie_queueconfig queueconf; -+ unsigned long flags; -+ int i; -+ char memmap[0x34]; -+ char rxconfig[0x8]; -+ char fcserror[0x8]; -+ char ratefallback[0x5]; -+ -+ if ( !(acx_debug & (L_IOCTL|L_DEBUG)) ) -+ return OK; -+ /* using printk() since we checked debug flag already */ -+ -+ acx_sem_lock(adev); -+ -+ if (!IS_ACX111(adev)) { -+ printk("acx111-specific function called " -+ "with non-acx111 chip, aborting\n"); -+ goto end_ok; -+ } -+ -+ /* get Acx111 Memory Configuration */ -+ memset(&memconf, 0, sizeof(memconf)); -+ /* BTW, fails with 12 (Write only) error code. -+ ** Retained for easy testing of issue_cmd error handling :) */ -+ printk ("Interrogating queue config\n"); -+ acx_s_interrogate(adev, &memconf, ACX1xx_IE_QUEUE_CONFIG); -+ printk ("done with queue config\n"); -+ -+ /* get Acx111 Queue Configuration */ -+ memset(&queueconf, 0, sizeof(queueconf)); -+ printk ("Interrogating mem config options\n"); -+ acx_s_interrogate(adev, &queueconf, ACX1xx_IE_MEMORY_CONFIG_OPTIONS); -+ printk ("done with mem config options\n"); -+ -+ /* get Acx111 Memory Map */ -+ memset(memmap, 0, sizeof(memmap)); -+ printk ("Interrogating mem map\n"); -+ acx_s_interrogate(adev, &memmap, ACX1xx_IE_MEMORY_MAP); -+ printk ("done with mem map\n"); -+ -+ /* get Acx111 Rx Config */ -+ memset(rxconfig, 0, sizeof(rxconfig)); -+ printk ("Interrogating rxconfig\n"); -+ acx_s_interrogate(adev, &rxconfig, ACX1xx_IE_RXCONFIG); -+ printk ("done with queue rxconfig\n"); -+ -+ /* get Acx111 fcs error count */ -+ memset(fcserror, 0, sizeof(fcserror)); -+ printk ("Interrogating fcs err count\n"); -+ acx_s_interrogate(adev, &fcserror, ACX1xx_IE_FCS_ERROR_COUNT); -+ printk ("done with err count\n"); -+ -+ /* get Acx111 rate fallback */ -+ memset(ratefallback, 0, sizeof(ratefallback)); -+ printk ("Interrogating rate fallback\n"); -+ acx_s_interrogate(adev, &ratefallback, ACX1xx_IE_RATE_FALLBACK); -+ printk ("done with rate fallback\n"); -+ -+ /* force occurrence of a beacon interrupt */ -+ /* TODO: comment why is this necessary */ -+ write_reg16(adev, IO_ACX_HINT_TRIG, HOST_INT_BEACON); -+ -+ /* dump Acx111 Mem Configuration */ -+ printk("dump mem config:\n" -+ "data read: %d, struct size: %d\n" -+ "Number of stations: %1X\n" -+ "Memory block size: %1X\n" -+ "tx/rx memory block allocation: %1X\n" -+ "count rx: %X / tx: %X queues\n" -+ "options %1X\n" -+ "fragmentation %1X\n" -+ "Rx Queue 1 Count Descriptors: %X\n" -+ "Rx Queue 1 Host Memory Start: %X\n" -+ "Tx Queue 1 Count Descriptors: %X\n" -+ "Tx Queue 1 Attributes: %X\n", -+ memconf.len, (int) sizeof(memconf), -+ memconf.no_of_stations, -+ memconf.memory_block_size, -+ memconf.tx_rx_memory_block_allocation, -+ memconf.count_rx_queues, memconf.count_tx_queues, -+ memconf.options, -+ memconf.fragmentation, -+ memconf.rx_queue1_count_descs, -+ acx2cpu(memconf.rx_queue1_host_rx_start), -+ memconf.tx_queue1_count_descs, -+ memconf.tx_queue1_attributes); -+ -+ /* dump Acx111 Queue Configuration */ -+ printk("dump queue head:\n" -+ "data read: %d, struct size: %d\n" -+ "tx_memory_block_address (from card): %X\n" -+ "rx_memory_block_address (from card): %X\n" -+ "rx1_queue address (from card): %X\n" -+ "tx1_queue address (from card): %X\n" -+ "tx1_queue attributes (from card): %X\n", -+ queueconf.len, (int) sizeof(queueconf), -+ queueconf.tx_memory_block_address, -+ queueconf.rx_memory_block_address, -+ queueconf.rx1_queue_address, -+ queueconf.tx1_queue_address, -+ queueconf.tx1_attributes); -+ -+ /* dump Acx111 Mem Map */ -+ printk("dump mem map:\n" -+ "data read: %d, struct size: %d\n" -+ "Code start: %X\n" -+ "Code end: %X\n" -+ "WEP default key start: %X\n" -+ "WEP default key end: %X\n" -+ "STA table start: %X\n" -+ "STA table end: %X\n" -+ "Packet template start: %X\n" -+ "Packet template end: %X\n" -+ "Queue memory start: %X\n" -+ "Queue memory end: %X\n" -+ "Packet memory pool start: %X\n" -+ "Packet memory pool end: %X\n" -+ "iobase: %p\n" -+ "iobase2: %p\n", -+ *((u16 *)&memmap[0x02]), (int) sizeof(memmap), -+ *((u32 *)&memmap[0x04]), -+ *((u32 *)&memmap[0x08]), -+ *((u32 *)&memmap[0x0C]), -+ *((u32 *)&memmap[0x10]), -+ *((u32 *)&memmap[0x14]), -+ *((u32 *)&memmap[0x18]), -+ *((u32 *)&memmap[0x1C]), -+ *((u32 *)&memmap[0x20]), -+ *((u32 *)&memmap[0x24]), -+ *((u32 *)&memmap[0x28]), -+ *((u32 *)&memmap[0x2C]), -+ *((u32 *)&memmap[0x30]), -+ adev->iobase, -+ adev->iobase2); -+ -+ /* dump Acx111 Rx Config */ -+ printk("dump rx config:\n" -+ "data read: %d, struct size: %d\n" -+ "rx config: %X\n" -+ "rx filter config: %X\n", -+ *((u16 *)&rxconfig[0x02]), (int) sizeof(rxconfig), -+ *((u16 *)&rxconfig[0x04]), -+ *((u16 *)&rxconfig[0x06])); -+ -+ /* dump Acx111 fcs error */ -+ printk("dump fcserror:\n" -+ "data read: %d, struct size: %d\n" -+ "fcserrors: %X\n", -+ *((u16 *)&fcserror[0x02]), (int) sizeof(fcserror), -+ *((u32 *)&fcserror[0x04])); -+ -+ /* dump Acx111 rate fallback */ -+ printk("dump rate fallback:\n" -+ "data read: %d, struct size: %d\n" -+ "ratefallback: %X\n", -+ *((u16 *)&ratefallback[0x02]), (int) sizeof(ratefallback), -+ *((u8 *)&ratefallback[0x04])); -+ -+ /* protect against IRQ */ -+ acx_lock(adev, flags); -+ -+ /* dump acx111 internal rx descriptor ring buffer */ -+ rxdesc = adev->rxdesc_start; -+ -+ /* loop over complete receive pool */ -+ if (rxdesc) for (i = 0; i < RX_CNT; i++) { -+ printk("\ndump internal rxdesc %d:\n" -+ "mem pos %p\n" -+ "next 0x%X\n" -+ "acx mem pointer (dynamic) 0x%X\n" -+ "CTL (dynamic) 0x%X\n" -+ "Rate (dynamic) 0x%X\n" -+ "RxStatus (dynamic) 0x%X\n" -+ "Mod/Pre (dynamic) 0x%X\n", -+ i, -+ rxdesc, -+ acx2cpu(rxdesc->pNextDesc), -+ acx2cpu(rxdesc->ACXMemPtr), -+ rxdesc->Ctl_8, -+ rxdesc->rate, -+ rxdesc->error, -+ rxdesc->SNR); -+ rxdesc++; -+ } -+ -+ /* dump host rx descriptor ring buffer */ -+ -+ rxhostdesc = adev->rxhostdesc_start; -+ -+ /* loop over complete receive pool */ -+ if (rxhostdesc) for (i = 0; i < RX_CNT; i++) { -+ printk("\ndump host rxdesc %d:\n" -+ "mem pos %p\n" -+ "buffer mem pos 0x%X\n" -+ "buffer mem offset 0x%X\n" -+ "CTL 0x%X\n" -+ "Length 0x%X\n" -+ "next 0x%X\n" -+ "Status 0x%X\n", -+ i, -+ rxhostdesc, -+ acx2cpu(rxhostdesc->data_phy), -+ rxhostdesc->data_offset, -+ le16_to_cpu(rxhostdesc->Ctl_16), -+ le16_to_cpu(rxhostdesc->length), -+ acx2cpu(rxhostdesc->desc_phy_next), -+ rxhostdesc->Status); -+ rxhostdesc++; -+ } -+ -+ /* dump acx111 internal tx descriptor ring buffer */ -+ txdesc = adev->txdesc_start; -+ -+ /* loop over complete transmit pool */ -+ if (txdesc) for (i = 0; i < TX_CNT; i++) { -+ printk("\ndump internal txdesc %d:\n" -+ "size 0x%X\n" -+ "mem pos %p\n" -+ "next 0x%X\n" -+ "acx mem pointer (dynamic) 0x%X\n" -+ "host mem pointer (dynamic) 0x%X\n" -+ "length (dynamic) 0x%X\n" -+ "CTL (dynamic) 0x%X\n" -+ "CTL2 (dynamic) 0x%X\n" -+ "Status (dynamic) 0x%X\n" -+ "Rate (dynamic) 0x%X\n", -+ i, -+ (int) sizeof(struct txdesc), -+ txdesc, -+ acx2cpu(txdesc->pNextDesc), -+ acx2cpu(txdesc->AcxMemPtr), -+ acx2cpu(txdesc->HostMemPtr), -+ le16_to_cpu(txdesc->total_length), -+ txdesc->Ctl_8, -+ txdesc->Ctl2_8, txdesc->error, -+ txdesc->u.r1.rate); -+ txdesc = advance_txdesc(adev, txdesc, 1); -+ } -+ -+ /* dump host tx descriptor ring buffer */ -+ -+ txhostdesc = adev->txhostdesc_start; -+ -+ /* loop over complete host send pool */ -+ if (txhostdesc) for (i = 0; i < TX_CNT * 2; i++) { -+ printk("\ndump host txdesc %d:\n" -+ "mem pos %p\n" -+ "buffer mem pos 0x%X\n" -+ "buffer mem offset 0x%X\n" -+ "CTL 0x%X\n" -+ "Length 0x%X\n" -+ "next 0x%X\n" -+ "Status 0x%X\n", -+ i, -+ txhostdesc, -+ acx2cpu(txhostdesc->data_phy), -+ txhostdesc->data_offset, -+ le16_to_cpu(txhostdesc->Ctl_16), -+ le16_to_cpu(txhostdesc->length), -+ acx2cpu(txhostdesc->desc_phy_next), -+ le32_to_cpu(txhostdesc->Status)); -+ txhostdesc++; -+ } -+ -+ /* write_reg16(adev, 0xb4, 0x4); */ -+ -+ acx_unlock(adev, flags); -+end_ok: -+ -+ acx_sem_unlock(adev); -+#endif /* ACX_DEBUG */ -+ return OK; -+} -+ -+ -+/*********************************************************************** -+*/ -+int -+acx100mem_ioctl_set_phy_amp_bias( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ struct iw_param *vwrq, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ u16 gpio_old; -+ -+ if (!IS_ACX100(adev)) { -+ /* WARNING!!! -+ * Removing this check *might* damage -+ * hardware, since we're tweaking GPIOs here after all!!! -+ * You've been warned... -+ * WARNING!!! */ -+ printk("acx: sorry, setting bias level for non-acx100 " -+ "is not supported yet\n"); -+ return OK; -+ } -+ -+ if (*extra > 7) { -+ printk("acx: invalid bias parameter, range is 0-7\n"); -+ return -EINVAL; -+ } -+ -+ acx_sem_lock(adev); -+ -+ /* Need to lock accesses to [IO_ACX_GPIO_OUT]: -+ * IRQ handler uses it to update LED */ -+ acx_lock(adev, flags); -+ gpio_old = read_reg16(adev, IO_ACX_GPIO_OUT); -+ write_reg16(adev, IO_ACX_GPIO_OUT, (gpio_old & 0xf8ff) | ((u16)*extra << 8)); -+ acx_unlock(adev, flags); -+ -+ log(L_DEBUG, "gpio_old: 0x%04X\n", gpio_old); -+ printk("%s: PHY power amplifier bias: old:%d, new:%d\n", -+ ndev->name, -+ (gpio_old & 0x0700) >> 8, (unsigned char)*extra); -+ -+ acx_sem_unlock(adev); -+ -+ return OK; -+} -+ -+/*************************************************************** -+** acxmem_l_alloc_tx -+** Actually returns a txdesc_t* ptr -+** -+** FIXME: in case of fragments, should allocate multiple descrs -+** after figuring out how many we need and whether we still have -+** sufficiently many. -+*/ -+tx_t* -+acxmem_l_alloc_tx(acx_device_t *adev) -+{ -+ struct txdesc *txdesc; -+ unsigned head; -+ u8 ctl8; -+ static int txattempts = 0; -+ -+ FN_ENTER; -+ -+ if (unlikely(!adev->tx_free)) { -+ printk("acx: BUG: no free txdesc left\n"); -+ /* -+ * Probably the ACX ignored a transmit attempt and now there's a packet -+ * sitting in the queue we think should be transmitting but the ACX doesn't -+ * know about. -+ * On the first pass, send the ACX a TxProc interrupt to try moving -+ * things along, and if that doesn't work (ie, we get called again) completely -+ * flush the transmit queue. -+ */ -+ if (txattempts < 10) { -+ txattempts++; -+ printk ("acx: trying to wake up ACX\n"); -+ write_reg16(adev, IO_ACX_INT_TRIG, INT_TRIG_TXPRC); -+ write_flush(adev); } -+ else { -+ txattempts = 0; -+ printk ("acx: flushing transmit queue.\n"); -+ acxmem_l_clean_txdesc_emergency (adev); -+ } -+ txdesc = NULL; -+ goto end; -+ } -+ -+ /* -+ * Make a quick check to see if there is transmit buffer space on -+ * the ACX. This can't guarantee there is enough space for the packet -+ * since we don't yet know how big it is, but it will prevent at least some -+ * annoyances. -+ */ -+ if (!adev->acx_txbuf_blocks_free) { -+ txdesc = NULL; -+ goto end; -+ } -+ -+ head = adev->tx_head; -+ /* -+ * txdesc points to ACX memory -+ */ -+ txdesc = get_txdesc(adev, head); -+ ctl8 = read_slavemem8 (adev, (u32) &(txdesc->Ctl_8)); -+ -+ /* -+ * If we don't own the buffer (HOSTOWN) it is certainly not free; however, -+ * we may have previously thought we had enough memory to send -+ * a packet, allocated the buffer then gave up when we found not enough -+ * transmit buffer space on the ACX. In that case, HOSTOWN and -+ * ACXDONE will both be set. -+ */ -+ if (unlikely(DESC_CTL_HOSTOWN != (ctl8 & DESC_CTL_HOSTOWN))) { -+ /* whoops, descr at current index is not free, so probably -+ * ring buffer already full */ -+ printk("acx: BUG: tx_head:%d Ctl8:0x%02X - failed to find " -+ "free txdesc\n", head, ctl8); -+ txdesc = NULL; -+ goto end; -+ } -+ -+ /* Needed in case txdesc won't be eventually submitted for tx */ -+ write_slavemem8 (adev, (u32) &(txdesc->Ctl_8), DESC_CTL_ACXDONE_HOSTOWN); -+ -+ adev->tx_free--; -+ log(L_BUFT, "tx: got desc %u, %u remain\n", -+ head, adev->tx_free); -+ /* Keep a few free descs between head and tail of tx ring. -+ ** It is not absolutely needed, just feels safer */ -+ if (adev->tx_free < TX_STOP_QUEUE) { -+ log(L_BUF, "stop queue (%u tx desc left)\n", -+ adev->tx_free); -+ acx_stop_queue(adev->ndev, NULL); -+ } -+ -+ /* returning current descriptor, so advance to next free one */ -+ adev->tx_head = (head + 1) % TX_CNT; -+end: -+ FN_EXIT0; -+ -+ return (tx_t*)txdesc; -+} -+ -+ -+/*************************************************************** -+** acxmem_l_dealloc_tx -+** Clears out a previously allocatedvoid acxmem_l_dealloc_tx(tx_t *tx_opaque); -+ transmit descriptor. The ACX -+** can get confused if we skip transmit descriptors in the queue, -+** so when we don't need a descriptor return it to its original -+** state and move the queue head pointer back. -+** -+*/ -+void -+acxmem_l_dealloc_tx(acx_device_t *adev, tx_t *tx_opaque) -+{ -+ /* -+ * txdesc is the address of the descriptor on the ACX. -+ */ -+ txdesc_t *txdesc = (txdesc_t*)tx_opaque; -+ txdesc_t tmptxdesc; -+ int index; -+ -+ memset (&tmptxdesc, 0, sizeof(tmptxdesc)); -+ tmptxdesc.Ctl_8 = DESC_CTL_HOSTOWN | DESC_CTL_FIRSTFRAG; -+ tmptxdesc.u.r1.rate = 0x0a; -+ -+ /* -+ * Clear out all of the transmit descriptor except for the next pointer -+ */ -+ copy_to_slavemem (adev, (u32) &(txdesc->HostMemPtr), -+ (u8 *) &(tmptxdesc.HostMemPtr), -+ sizeof (tmptxdesc) - sizeof(tmptxdesc.pNextDesc)); -+ -+ /* -+ * This is only called immediately after we've allocated, so we should -+ * be able to set the head back to this descriptor. -+ */ -+ index = ((u8*) txdesc - (u8*)adev->txdesc_start) / adev->txdesc_size; -+ printk ("acx_dealloc: moving head from %d to %d\n", adev->tx_head, index); -+ adev->tx_head = index; -+} -+ -+ -+/*********************************************************************** -+*/ -+void* -+acxmem_l_get_txbuf(acx_device_t *adev, tx_t* tx_opaque) -+{ -+ return get_txhostdesc(adev, (txdesc_t*)tx_opaque)->data; -+} -+ -+ -+/*********************************************************************** -+** acxmem_l_tx_data -+** -+** Can be called from IRQ (rx -> (AP bridging or mgmt response) -> tx). -+** Can be called from acx_i_start_xmit (data frames from net core). -+** -+** FIXME: in case of fragments, should loop over the number of -+** pre-allocated tx descrs, properly setting up transfer data and -+** CTL_xxx flags according to fragment number. -+*/ -+void -+acxmem_update_queue_indicator (acx_device_t *adev, int txqueue) -+{ -+#ifdef USING_MORE_THAN_ONE_TRANSMIT_QUEUE -+ u32 indicator; -+ unsigned long flags; -+ int count; -+ -+ /* -+ * Can't handle an interrupt while we're fiddling with the ACX's lock, -+ * according to TI. The ACX is supposed to hold fw_lock for at most -+ * 500ns. -+ */ -+ local_irq_save (flags); -+ -+ /* -+ * Wait for ACX to release the lock (at most 500ns). -+ */ -+ count = 0; -+ while (read_slavemem16 (adev, (u32) &(adev->acx_queue_indicator->fw_lock)) -+ && (count++ < 50)) { -+ ndelay (10); -+ } -+ if (count < 50) { -+ -+ /* -+ * Take out the host lock - anything non-zero will work, so don't worry about -+ * be/le -+ */ -+ write_slavemem16 (adev, (u32) &(adev->acx_queue_indicator->host_lock), 1); -+ -+ /* -+ * Avoid a race condition -+ */ -+ count = 0; -+ while (read_slavemem16 (adev, (u32) &(adev->acx_queue_indicator->fw_lock)) -+ && (count++ < 50)) { -+ ndelay (10); -+ } -+ -+ if (count < 50) { -+ /* -+ * Mark the queue active -+ */ -+ indicator = read_slavemem32 (adev, (u32) &(adev->acx_queue_indicator->indicator)); -+ indicator |= cpu_to_le32 (1 << txqueue); -+ write_slavemem32 (adev, (u32) &(adev->acx_queue_indicator->indicator), indicator); -+ } -+ -+ /* -+ * Release the host lock -+ */ -+ write_slavemem16 (adev, (u32) &(adev->acx_queue_indicator->host_lock), 0); -+ -+ } -+ -+ /* -+ * Restore interrupts -+ */ -+ local_irq_restore (flags); -+#endif -+} -+ -+void -+acxmem_l_tx_data(acx_device_t *adev, tx_t* tx_opaque, int len) -+{ -+ /* -+ * txdesc is the address on the ACX -+ */ -+ txdesc_t *txdesc = (txdesc_t*)tx_opaque; -+ txhostdesc_t *hostdesc1, *hostdesc2; -+ client_t *clt; -+ u16 rate_cur; -+ u8 Ctl_8, Ctl2_8; -+ u32 addr; -+ -+ FN_ENTER; -+ /* fw doesn't tx such packets anyhow */ -+ if (unlikely(len < WLAN_HDR_A3_LEN)) -+ goto end; -+ -+ hostdesc1 = get_txhostdesc(adev, txdesc); -+ /* modify flag status in separate variable to be able to write it back -+ * in one big swoop later (also in order to have less device memory -+ * accesses) */ -+ Ctl_8 = read_slavemem8 (adev, (u32) &(txdesc->Ctl_8)); -+ Ctl2_8 = 0; /* really need to init it to 0, not txdesc->Ctl2_8, it seems */ -+ -+ hostdesc2 = hostdesc1 + 1; -+ -+ /* DON'T simply set Ctl field to 0 here globally, -+ * it needs to maintain a consistent flag status (those are state flags!!), -+ * otherwise it may lead to severe disruption. Only set or reset particular -+ * flags at the exact moment this is needed... */ -+ -+ /* let chip do RTS/CTS handshaking before sending -+ * in case packet size exceeds threshold */ -+ if (len > adev->rts_threshold) -+ SET_BIT(Ctl2_8, DESC_CTL2_RTS); -+ else -+ CLEAR_BIT(Ctl2_8, DESC_CTL2_RTS); -+ -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_3_AP: -+ clt = acx_l_sta_list_get(adev, ((wlan_hdr_t*)hostdesc1->data)->a1); -+ break; -+ case ACX_MODE_2_STA: -+ clt = adev->ap_client; -+ break; -+#if 0 -+/* testing was done on acx111: */ -+ case ACX_MODE_MONITOR: -+ SET_BIT(Ctl2_8, 0 -+/* sends CTS to self before packet */ -+ + DESC_CTL2_SEQ /* don't increase sequence field */ -+/* not working (looks like good fcs is still added) */ -+ + DESC_CTL2_FCS /* don't add the FCS */ -+/* not tested */ -+ + DESC_CTL2_MORE_FRAG -+/* not tested */ -+ + DESC_CTL2_RETRY /* don't increase retry field */ -+/* not tested */ -+ + DESC_CTL2_POWER /* don't increase power mgmt. field */ -+/* no effect */ -+ + DESC_CTL2_WEP /* encrypt this frame */ -+/* not tested */ -+ + DESC_CTL2_DUR /* don't increase duration field */ -+ ); -+ /* fallthrough */ -+#endif -+ default: /* ACX_MODE_OFF, ACX_MODE_MONITOR */ -+ clt = NULL; -+ break; -+ } -+ -+ rate_cur = clt ? clt->rate_cur : adev->rate_bcast; -+ if (unlikely(!rate_cur)) { -+ printk("acx: driver bug! bad ratemask\n"); -+ goto end; -+ } -+ -+ /* used in tx cleanup routine for auto rate and accounting: */ -+ put_txcr(adev, txdesc, clt, rate_cur); -+ -+ write_slavemem16 (adev, (u32) &(txdesc->total_length), cpu_to_le16(len)); -+ hostdesc2->length = cpu_to_le16(len - WLAN_HDR_A3_LEN); -+ if (IS_ACX111(adev)) { -+ /* note that if !txdesc->do_auto, txrate->cur -+ ** has only one nonzero bit */ -+ txdesc->u.r2.rate111 = cpu_to_le16( -+ rate_cur -+ /* WARNING: I was never able to make it work with prism54 AP. -+ ** It was falling down to 1Mbit where shortpre is not applicable, -+ ** and not working at all at "5,11 basic rates only" setting. -+ ** I even didn't see tx packets in radio packet capture. -+ ** Disabled for now --vda */ -+ /*| ((clt->shortpre && clt->cur!=RATE111_1) ? RATE111_SHORTPRE : 0) */ -+ ); -+#ifdef TODO_FIGURE_OUT_WHEN_TO_SET_THIS -+ /* should add this to rate111 above as necessary */ -+ | (clt->pbcc511 ? RATE111_PBCC511 : 0) -+#endif -+ hostdesc1->length = cpu_to_le16(len); -+ } else { /* ACX100 */ -+ u8 rate_100 = clt ? clt->rate_100 : adev->rate_bcast100; -+ write_slavemem8 (adev, (u32) &(txdesc->u.r1.rate), rate_100); -+#ifdef TODO_FIGURE_OUT_WHEN_TO_SET_THIS -+ if (clt->pbcc511) { -+ if (n == RATE100_5 || n == RATE100_11) -+ n |= RATE100_PBCC511; -+ } -+ -+ if (clt->shortpre && (clt->cur != RATE111_1)) -+ SET_BIT(Ctl_8, DESC_CTL_SHORT_PREAMBLE); /* set Short Preamble */ -+#endif -+ /* set autodma and reclaim and 1st mpdu */ -+ SET_BIT(Ctl_8, DESC_CTL_FIRSTFRAG); -+ -+#if ACX_FRAGMENTATION -+ /* SET_BIT(Ctl2_8, DESC_CTL2_MORE_FRAG); cannot set it unconditionally, needs to be set for all non-last fragments */ -+#endif -+ hostdesc1->length = cpu_to_le16(WLAN_HDR_A3_LEN); -+ -+ /* -+ * Since we're not using autodma copy the packet data to the acx now. -+ * Even host descriptors point to the packet header, and the odd indexed -+ * descriptor following points to the packet data. -+ * -+ * The first step is to find free memory in the ACX transmit buffers. -+ * They don't necessarily map one to one with the transmit queue entries, -+ * so search through them starting just after the last one used. -+ */ -+ addr = allocate_acx_txbuf_space (adev, len); -+ if (addr) { -+ chaincopy_to_slavemem (adev, addr, hostdesc1->data, len); -+ } -+ else { -+ /* -+ * Bummer. We thought we might have enough room in the transmit -+ * buffers to send this packet, but it turns out we don't. alloc_tx -+ * has already marked this transmit descriptor as HOSTOWN and ACXDONE, -+ * which means the ACX will hang when it gets to this descriptor unless -+ * we do something about it. Having a bubble in the transmit queue just -+ * doesn't seem to work, so we have to reset this transmit queue entry's -+ * state to its original value and back up our head pointer to point -+ * back to this entry. -+ */ -+ hostdesc1->length = 0; -+ hostdesc2->length = 0; -+ write_slavemem16 (adev, (u32) &(txdesc->total_length), 0); -+ write_slavemem8 (adev, (u32) &(txdesc->Ctl_8), DESC_CTL_HOSTOWN | DESC_CTL_FIRSTFRAG); -+ adev->tx_head = ((u8*) txdesc - (u8*) adev->txdesc_start) / adev->txdesc_size; -+ goto end; -+ } -+ /* -+ * Tell the ACX where the packet is. -+ */ -+ write_slavemem32 (adev, (u32) &(txdesc->AcxMemPtr), addr); -+ -+ } -+ /* don't need to clean ack/rts statistics here, already -+ * done on descr cleanup */ -+ -+ /* clears HOSTOWN and ACXDONE bits, thus telling that the descriptors -+ * are now owned by the acx100; do this as LAST operation */ -+ CLEAR_BIT(Ctl_8, DESC_CTL_ACXDONE_HOSTOWN); -+ /* flush writes before we release hostdesc to the adapter here */ -+ //wmb(); -+ -+ /* write back modified flags */ -+ /* -+ * At this point Ctl_8 should just be FIRSTFRAG -+ */ -+ write_slavemem8 (adev, (u32) &(txdesc->Ctl2_8),Ctl2_8); -+ write_slavemem8 (adev, (u32) &(txdesc->Ctl_8), Ctl_8); -+ /* unused: txdesc->tx_time = cpu_to_le32(jiffies); */ -+ -+ /* -+ * Update the queue indicator to say there's data on the first queue. -+ */ -+ acxmem_update_queue_indicator (adev, 0); -+ -+ /* flush writes before we tell the adapter that it's its turn now */ -+ mmiowb(); -+ write_reg16(adev, IO_ACX_INT_TRIG, INT_TRIG_TXPRC); -+ write_flush(adev); -+ -+ /* log the packet content AFTER sending it, -+ * in order to not delay sending any further than absolutely needed -+ * Do separate logs for acx100/111 to have human-readable rates */ -+ if (unlikely(acx_debug & (L_XFER|L_DATA))) { -+ u16 fc = ((wlan_hdr_t*)hostdesc1->data)->fc; -+ if (IS_ACX111(adev)) -+ printk("tx: pkt (%s): len %d " -+ "rate %04X%s status %u\n", -+ acx_get_packet_type_string(le16_to_cpu(fc)), len, -+ le16_to_cpu(txdesc->u.r2.rate111), -+ (le16_to_cpu(txdesc->u.r2.rate111) & RATE111_SHORTPRE) ? "(SPr)" : "", -+ adev->status); -+ else -+ printk("tx: pkt (%s): len %d rate %03u%s status %u\n", -+ acx_get_packet_type_string(fc), len, -+ read_slavemem8 (adev, (u32) &(txdesc->u.r1.rate)), -+ (Ctl_8 & DESC_CTL_SHORT_PREAMBLE) ? "(SPr)" : "", -+ adev->status); -+ -+ if (acx_debug & L_DATA) { -+ printk("tx: 802.11 [%d]: ", len); -+ acx_dump_bytes(hostdesc1->data, len); -+ } -+ } -+end: -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_l_clean_txdesc -+** -+** This function resets the txdescs' status when the ACX100 -+** signals the TX done IRQ (txdescs have been processed), starting with -+** the pool index of the descriptor which we would use next, -+** in order to make sure that we can be as fast as possible -+** in filling new txdescs. -+** Everytime we get called we know where the next packet to be cleaned is. -+*/ -+ -+#if !ACX_DEBUG -+static inline void log_txbuffer(const acx_device_t *adev) {} -+#else -+static void -+log_txbuffer(acx_device_t *adev) -+{ -+ txdesc_t *txdesc; -+ int i; -+ u8 Ctl_8; -+ -+ /* no FN_ENTER here, we don't want that */ -+ /* no locks here, since it's entirely non-critical code */ -+ txdesc = adev->txdesc_start; -+ if (unlikely(!txdesc)) return; -+ printk("tx: desc->Ctl8's:"); -+ for (i = 0; i < TX_CNT; i++) { -+ Ctl_8 = read_slavemem8 (adev, (u32) &(txdesc->Ctl_8)); -+ printk(" %02X", Ctl_8); -+ txdesc = advance_txdesc(adev, txdesc, 1); -+ } -+ printk("\n"); -+} -+#endif -+ -+ -+static void -+handle_tx_error(acx_device_t *adev, u8 error, unsigned int finger) -+{ -+ const char *err = "unknown error"; -+ -+ /* hmm, should we handle this as a mask -+ * of *several* bits? -+ * For now I think only caring about -+ * individual bits is ok... */ -+ switch (error) { -+ case 0x01: -+ err = "no Tx due to error in other fragment"; -+ adev->wstats.discard.fragment++; -+ break; -+ case 0x02: -+ err = "Tx aborted"; -+ adev->stats.tx_aborted_errors++; -+ break; -+ case 0x04: -+ err = "Tx desc wrong parameters"; -+ adev->wstats.discard.misc++; -+ break; -+ case 0x08: -+ err = "WEP key not found"; -+ adev->wstats.discard.misc++; -+ break; -+ case 0x10: -+ err = "MSDU lifetime timeout? - try changing " -+ "'iwconfig retry lifetime XXX'"; -+ adev->wstats.discard.misc++; -+ break; -+ case 0x20: -+ err = "excessive Tx retries due to either distance " -+ "too high or unable to Tx or Tx frame error - " -+ "try changing 'iwconfig txpower XXX' or " -+ "'sens'itivity or 'retry'"; -+ adev->wstats.discard.retries++; -+ /* Tx error 0x20 also seems to occur on -+ * overheating, so I'm not sure whether we -+ * actually want to do aggressive radio recalibration, -+ * since people maybe won't notice then that their hardware -+ * is slowly getting cooked... -+ * Or is it still a safe long distance from utter -+ * radio non-functionality despite many radio recalibs -+ * to final destructive overheating of the hardware? -+ * In this case we really should do recalib here... -+ * I guess the only way to find out is to do a -+ * potentially fatal self-experiment :-\ -+ * Or maybe only recalib in case we're using Tx -+ * rate auto (on errors switching to lower speed -+ * --> less heat?) or 802.11 power save mode? -+ * -+ * ok, just do it. */ -+ if (++adev->retry_errors_msg_ratelimit % 4 == 0) { -+ if (adev->retry_errors_msg_ratelimit <= 20) { -+ printk("%s: several excessive Tx " -+ "retry errors occurred, attempting " -+ "to recalibrate radio. Radio " -+ "drift might be caused by increasing " -+ "card temperature, please check the card " -+ "before it's too late!\n", -+ adev->ndev->name); -+ if (adev->retry_errors_msg_ratelimit == 20) -+ printk("disabling above message\n"); -+ } -+ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_CMD_RADIO_RECALIB); -+ } -+ break; -+ case 0x40: -+ err = "Tx buffer overflow"; -+ adev->stats.tx_fifo_errors++; -+ break; -+ case 0x80: -+ err = "DMA error"; -+ adev->wstats.discard.misc++; -+ break; -+ } -+ adev->stats.tx_errors++; -+ if (adev->stats.tx_errors <= 20) -+ printk("%s: tx error 0x%02X, buf %02u! (%s)\n", -+ adev->ndev->name, error, finger, err); -+ else -+ printk("%s: tx error 0x%02X, buf %02u!\n", -+ adev->ndev->name, error, finger); -+} -+ -+ -+unsigned int -+acxmem_l_clean_txdesc(acx_device_t *adev) -+{ -+ txdesc_t *txdesc; -+ unsigned finger; -+ int num_cleaned; -+ u16 r111; -+ u8 error, ack_failures, rts_failures, rts_ok, r100, Ctl_8; -+ u32 acxmem; -+ txdesc_t tmptxdesc; -+ -+ FN_ENTER; -+ -+ /* -+ * Set up a template descriptor for re-initialization. The only -+ * things that get set are Ctl_8 and the rate, and the rate defaults -+ * to 1Mbps. -+ */ -+ memset (&tmptxdesc, 0, sizeof (tmptxdesc)); -+ tmptxdesc.Ctl_8 = DESC_CTL_HOSTOWN | DESC_CTL_FIRSTFRAG; -+ tmptxdesc.u.r1.rate = 0x0a; -+ -+ if (unlikely(acx_debug & L_DEBUG)) -+ log_txbuffer(adev); -+ -+ log(L_BUFT, "tx: cleaning up bufs from %u\n", adev->tx_tail); -+ -+ /* We know first descr which is not free yet. We advance it as far -+ ** as we see correct bits set in following descs (if next desc -+ ** is NOT free, we shouldn't advance at all). We know that in -+ ** front of tx_tail may be "holes" with isolated free descs. -+ ** We will catch up when all intermediate descs will be freed also */ -+ -+ finger = adev->tx_tail; -+ num_cleaned = 0; -+ while (likely(finger != adev->tx_head)) { -+ txdesc = get_txdesc(adev, finger); -+ -+ /* If we allocated txdesc on tx path but then decided -+ ** to NOT use it, then it will be left as a free "bubble" -+ ** in the "allocated for tx" part of the ring. -+ ** We may meet it on the next ring pass here. */ -+ -+ /* stop if not marked as "tx finished" and "host owned" */ -+ Ctl_8 = read_slavemem8 (adev, (u32) &(txdesc->Ctl_8)); -+ if ((Ctl_8 & DESC_CTL_ACXDONE_HOSTOWN) -+ != DESC_CTL_ACXDONE_HOSTOWN) { -+ if (unlikely(!num_cleaned)) { /* maybe remove completely */ -+ log(L_BUFT, "clean_txdesc: tail isn't free. " -+ "tail:%d head:%d\n", -+ adev->tx_tail, adev->tx_head); -+ } -+ break; -+ } -+ -+ /* remember desc values... */ -+ error = read_slavemem8 (adev, (u32) &(txdesc->error)); -+ ack_failures = read_slavemem8 (adev, (u32) &(txdesc->ack_failures)); -+ rts_failures = read_slavemem8 (adev, (u32) &(txdesc->u.rts.rts_failures)); -+ rts_ok = read_slavemem8 (adev, (u32) &(txdesc->u.rts.rts_ok)); -+ r100 = read_slavemem8 (adev, (u32) &(txdesc->u.r1.rate)); -+ r111 = le16_to_cpu(read_slavemem16 (adev, (u32) &(txdesc->u.r2.rate111))); -+ -+ /* need to check for certain error conditions before we -+ * clean the descriptor: we still need valid descr data here */ -+ if (unlikely(0x30 & error)) { -+ /* only send IWEVTXDROP in case of retry or lifetime exceeded; -+ * all other errors mean we screwed up locally */ -+ union iwreq_data wrqu; -+ wlan_hdr_t *hdr; -+ txhostdesc_t *hostdesc; -+ -+ hostdesc = get_txhostdesc(adev, txdesc); -+ hdr = (wlan_hdr_t *)hostdesc->data; -+ MAC_COPY(wrqu.addr.sa_data, hdr->a1); -+ wireless_send_event(adev->ndev, IWEVTXDROP, &wrqu, NULL); -+ } -+ -+ /* -+ * Free up the transmit data buffers -+ */ -+ acxmem = read_slavemem32 (adev, (u32) &(txdesc->AcxMemPtr)); -+ if (acxmem) { -+ reclaim_acx_txbuf_space (adev, acxmem); -+ } -+ -+ /* ...and free the desc by clearing all the fields -+ except the next pointer */ -+ copy_to_slavemem (adev, -+ (u32) &(txdesc->HostMemPtr), -+ (u8 *) &(tmptxdesc.HostMemPtr), -+ sizeof (tmptxdesc) - sizeof(tmptxdesc.pNextDesc) -+ ); -+ -+ adev->tx_free++; -+ num_cleaned++; -+ -+ if ((adev->tx_free >= TX_START_QUEUE) -+ && (adev->status == ACX_STATUS_4_ASSOCIATED) -+ && (acx_queue_stopped(adev->ndev)) -+ ) { -+ log(L_BUF, "tx: wake queue (avail. Tx desc %u)\n", -+ adev->tx_free); -+ acx_wake_queue(adev->ndev, NULL); -+ } -+ -+ /* do error checking, rate handling and logging -+ * AFTER having done the work, it's faster */ -+ -+ /* do rate handling */ -+ if (adev->rate_auto) { -+ struct client *clt = get_txc(adev, txdesc); -+ if (clt) { -+ u16 cur = get_txr(adev, txdesc); -+ if (clt->rate_cur == cur) { -+ acx_l_handle_txrate_auto(adev, clt, -+ cur, /* intended rate */ -+ r100, r111, /* actually used rate */ -+ (error & 0x30), /* was there an error? */ -+ TX_CNT + TX_CLEAN_BACKLOG - adev->tx_free); -+ } -+ } -+ } -+ -+ if (unlikely(error)) -+ handle_tx_error(adev, error, finger); -+ -+ if (IS_ACX111(adev)) -+ log(L_BUFT, "tx: cleaned %u: !ACK=%u !RTS=%u RTS=%u r111=%04X\n", -+ finger, ack_failures, rts_failures, rts_ok, r111); -+ else -+ log(L_BUFT, "tx: cleaned %u: !ACK=%u !RTS=%u RTS=%u rate=%u\n", -+ finger, ack_failures, rts_failures, rts_ok, r100); -+ -+ /* update pointer for descr to be cleaned next */ -+ finger = (finger + 1) % TX_CNT; -+ } -+ -+ /* remember last position */ -+ adev->tx_tail = finger; -+/* end: */ -+ FN_EXIT1(num_cleaned); -+ return num_cleaned; -+} -+ -+/* clean *all* Tx descriptors, and regardless of their previous state. -+ * Used for brute-force reset handling. */ -+void -+acxmem_l_clean_txdesc_emergency(acx_device_t *adev) -+{ -+ txdesc_t *txdesc; -+ int i; -+ u32 acxmem; -+ -+ FN_ENTER; -+ -+ for (i = 0; i < TX_CNT; i++) { -+ txdesc = get_txdesc(adev, i); -+ -+ /* free it */ -+ write_slavemem8 (adev, (u32) &(txdesc->ack_failures), 0); -+ write_slavemem8 (adev, (u32) &(txdesc->u.rts.rts_failures), 0); -+ write_slavemem8 (adev, (u32) &(txdesc->u.rts.rts_ok), 0); -+ write_slavemem8 (adev, (u32) &(txdesc->error), 0); -+ write_slavemem8 (adev, (u32) &(txdesc->Ctl_8), DESC_CTL_HOSTOWN); -+ -+ /* -+ * Clean up the memory allocated on the ACX for this transmit descriptor. -+ */ -+ acxmem = read_slavemem32 (adev, (u32) &(txdesc->AcxMemPtr)); -+ if (acxmem) { -+ reclaim_acx_txbuf_space (adev, acxmem); -+ } -+ -+ write_slavemem32 (adev, (u32) &(txdesc->AcxMemPtr), 0); -+ } -+ -+ adev->tx_free = TX_CNT; -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxmem_s_create_tx_host_desc_queue -+*/ -+ -+static void* -+allocate(acx_device_t *adev, size_t size, dma_addr_t *phy, const char *msg) -+{ -+ void *ptr; -+ ptr = kmalloc (size, GFP_KERNEL); -+ /* -+ * The ACX can't use the physical address, so we'll have to fake it -+ * later and it might be handy to have the virtual address. -+ */ -+ *phy = (dma_addr_t) NULL; -+ -+ if (ptr) { -+ log(L_DEBUG, "%s sz=%d adr=0x%p phy=0x%08llx\n", -+ msg, (int)size, ptr, (unsigned long long)*phy); -+ memset(ptr, 0, size); -+ return ptr; -+ } -+ printk(KERN_ERR "acx: %s allocation FAILED (%d bytes)\n", -+ msg, (int)size); -+ return NULL; -+} -+ -+ -+/* -+ * In the generic slave memory access mode, most of the stuff in -+ * the txhostdesc_t is unused. It's only here because the rest of -+ * the ACX driver expects it to be since the PCI version uses indirect -+ * host memory organization with DMA. Since we're not using DMA the -+ * only use we have for the host descriptors is to store the packets -+ * on the way out. -+ */ -+static int -+acxmem_s_create_tx_host_desc_queue(acx_device_t *adev) -+{ -+ txhostdesc_t *hostdesc; -+ u8 *txbuf; -+ int i; -+ -+ FN_ENTER; -+ -+ /* allocate TX buffer */ -+ adev->txbuf_area_size = TX_CNT * WLAN_A4FR_MAXLEN_WEP_FCS; -+ -+ adev->txbuf_start = allocate(adev, adev->txbuf_area_size, -+ &adev->txbuf_startphy, "txbuf_start"); -+ if (!adev->txbuf_start) -+ goto fail; -+ -+ /* allocate the TX host descriptor queue pool */ -+ adev->txhostdesc_area_size = TX_CNT * 2*sizeof(*hostdesc); -+ -+ adev->txhostdesc_start = allocate(adev, adev->txhostdesc_area_size, -+ &adev->txhostdesc_startphy, "txhostdesc_start"); -+ if (!adev->txhostdesc_start) -+ goto fail; -+ -+ /* check for proper alignment of TX host descriptor pool */ -+ if ((long) adev->txhostdesc_start & 3) { -+ printk("acx: driver bug: dma alloc returns unaligned address\n"); -+ goto fail; -+ } -+ -+ hostdesc = adev->txhostdesc_start; -+ txbuf = adev->txbuf_start; -+ -+#if 0 -+/* Each tx buffer is accessed by hardware via -+** txdesc -> txhostdesc(s) -> txbuffer(s). -+** We use only one txhostdesc per txdesc, but it looks like -+** acx111 is buggy: it accesses second txhostdesc -+** (via hostdesc.desc_phy_next field) even if -+** txdesc->length == hostdesc->length and thus -+** entire packet was placed into first txhostdesc. -+** Due to this bug acx111 hangs unless second txhostdesc -+** has le16_to_cpu(hostdesc.length) = 3 (or larger) -+** Storing NULL into hostdesc.desc_phy_next -+** doesn't seem to help. -+** -+** Update: although it worked on Xterasys XN-2522g -+** with len=3 trick, WG311v2 is even more bogus, doesn't work. -+** Keeping this code (#ifdef'ed out) for documentational purposes. -+*/ -+ for (i = 0; i < TX_CNT*2; i++) { -+ hostdesc_phy += sizeof(*hostdesc); -+ if (!(i & 1)) { -+ hostdesc->data_phy = cpu2acx(txbuf_phy); -+ /* hostdesc->data_offset = ... */ -+ /* hostdesc->reserved = ... */ -+ hostdesc->Ctl_16 = cpu_to_le16(DESC_CTL_HOSTOWN); -+ /* hostdesc->length = ... */ -+ hostdesc->desc_phy_next = cpu2acx(hostdesc_phy); -+ hostdesc->pNext = ptr2acx(NULL); -+ /* hostdesc->Status = ... */ -+ /* below: non-hardware fields */ -+ hostdesc->data = txbuf; -+ -+ txbuf += WLAN_A4FR_MAXLEN_WEP_FCS; -+ txbuf_phy += WLAN_A4FR_MAXLEN_WEP_FCS; -+ } else { -+ /* hostdesc->data_phy = ... */ -+ /* hostdesc->data_offset = ... */ -+ /* hostdesc->reserved = ... */ -+ /* hostdesc->Ctl_16 = ... */ -+ hostdesc->length = cpu_to_le16(3); /* bug workaround */ -+ /* hostdesc->desc_phy_next = ... */ -+ /* hostdesc->pNext = ... */ -+ /* hostdesc->Status = ... */ -+ /* below: non-hardware fields */ -+ /* hostdesc->data = ... */ -+ } -+ hostdesc++; -+ } -+#endif -+/* We initialize two hostdescs so that they point to adjacent -+** memory areas. Thus txbuf is really just a contiguous memory area */ -+ for (i = 0; i < TX_CNT*2; i++) { -+ /* ->data is a non-hardware field: */ -+ hostdesc->data = txbuf; -+ -+ if (!(i & 1)) { -+ txbuf += WLAN_HDR_A3_LEN; -+ } else { -+ txbuf += WLAN_A4FR_MAXLEN_WEP_FCS - WLAN_HDR_A3_LEN; -+ } -+ hostdesc++; -+ } -+ hostdesc--; -+ -+ FN_EXIT1(OK); -+ return OK; -+fail: -+ printk("acx: create_tx_host_desc_queue FAILED\n"); -+ /* dealloc will be done by free function on error case */ -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*************************************************************** -+** acxmem_s_create_rx_host_desc_queue -+*/ -+/* the whole size of a data buffer (header plus data body) -+ * plus 32 bytes safety offset at the end */ -+#define RX_BUFFER_SIZE (sizeof(rxbuffer_t) + 32) -+ -+static int -+acxmem_s_create_rx_host_desc_queue(acx_device_t *adev) -+{ -+ rxhostdesc_t *hostdesc; -+ rxbuffer_t *rxbuf; -+ int i; -+ -+ FN_ENTER; -+ -+ /* allocate the RX host descriptor queue pool */ -+ adev->rxhostdesc_area_size = RX_CNT * sizeof(*hostdesc); -+ -+ adev->rxhostdesc_start = allocate(adev, adev->rxhostdesc_area_size, -+ &adev->rxhostdesc_startphy, "rxhostdesc_start"); -+ if (!adev->rxhostdesc_start) -+ goto fail; -+ -+ /* check for proper alignment of RX host descriptor pool */ -+ if ((long) adev->rxhostdesc_start & 3) { -+ printk("acx: driver bug: dma alloc returns unaligned address\n"); -+ goto fail; -+ } -+ -+ /* allocate Rx buffer pool which will be used by the acx -+ * to store the whole content of the received frames in it */ -+ adev->rxbuf_area_size = RX_CNT * RX_BUFFER_SIZE; -+ -+ adev->rxbuf_start = allocate(adev, adev->rxbuf_area_size, -+ &adev->rxbuf_startphy, "rxbuf_start"); -+ if (!adev->rxbuf_start) -+ goto fail; -+ -+ rxbuf = adev->rxbuf_start; -+ hostdesc = adev->rxhostdesc_start; -+ -+ /* don't make any popular C programming pointer arithmetic mistakes -+ * here, otherwise I'll kill you... -+ * (and don't dare asking me why I'm warning you about that...) */ -+ for (i = 0; i < RX_CNT; i++) { -+ hostdesc->data = rxbuf; -+ hostdesc->length = cpu_to_le16(RX_BUFFER_SIZE); -+ rxbuf++; -+ hostdesc++; -+ } -+ hostdesc--; -+ FN_EXIT1(OK); -+ return OK; -+fail: -+ printk("acx: create_rx_host_desc_queue FAILED\n"); -+ /* dealloc will be done by free function on error case */ -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*************************************************************** -+** acxmem_s_create_hostdesc_queues -+*/ -+int -+acxmem_s_create_hostdesc_queues(acx_device_t *adev) -+{ -+ int result; -+ result = acxmem_s_create_tx_host_desc_queue(adev); -+ if (OK != result) return result; -+ result = acxmem_s_create_rx_host_desc_queue(adev); -+ return result; -+} -+ -+ -+/*************************************************************** -+** acxmem_create_tx_desc_queue -+*/ -+static void -+acxmem_create_tx_desc_queue(acx_device_t *adev, u32 tx_queue_start) -+{ -+ txdesc_t *txdesc; -+ u32 clr; -+ int i; -+ -+ FN_ENTER; -+ -+ if (IS_ACX100(adev)) -+ adev->txdesc_size = sizeof(*txdesc); -+ else -+ /* the acx111 txdesc is 4 bytes larger */ -+ adev->txdesc_size = sizeof(*txdesc) + 4; -+ -+ /* -+ * This refers to an ACX address, not one of ours -+ */ -+ adev->txdesc_start = (txdesc_t *) tx_queue_start; -+ -+ log(L_DEBUG, "adev->txdesc_start=%p\n", -+ adev->txdesc_start); -+ -+ adev->tx_free = TX_CNT; -+ /* done by memset: adev->tx_head = 0; */ -+ /* done by memset: adev->tx_tail = 0; */ -+ txdesc = adev->txdesc_start; -+ -+ if (IS_ACX111(adev)) { -+ /* ACX111 has a preinitialized Tx buffer! */ -+ /* loop over whole send pool */ -+ /* FIXME: do we have to do the hostmemptr stuff here?? */ -+ for (i = 0; i < TX_CNT; i++) { -+ txdesc->Ctl_8 = DESC_CTL_HOSTOWN; -+ /* reserve two (hdr desc and payload desc) */ -+ txdesc = advance_txdesc(adev, txdesc, 1); -+ } -+ } else { -+ /* ACX100 Tx buffer needs to be initialized by us */ -+ /* clear whole send pool. sizeof is safe here (we are acx100) */ -+ -+ /* -+ * adev->txdesc_start refers to device memory, so we can't write -+ * directly to it. -+ */ -+ clr = (u32) adev->txdesc_start; -+ while (clr < (u32) adev->txdesc_start + (TX_CNT * sizeof(*txdesc))) { -+ write_slavemem32 (adev, clr, 0); -+ clr += 4; -+ } -+ -+ /* loop over whole send pool */ -+ for (i = 0; i < TX_CNT; i++) { -+ log(L_DEBUG, "configure card tx descriptor: 0x%p, " -+ "size: 0x%X\n", txdesc, adev->txdesc_size); -+ -+ /* initialise ctl */ -+ /* -+ * No auto DMA here -+ */ -+ write_slavemem8 (adev, (u32) &(txdesc->Ctl_8), -+ (u8) (DESC_CTL_HOSTOWN | DESC_CTL_FIRSTFRAG)); -+ /* done by memset(0): txdesc->Ctl2_8 = 0; */ -+ -+ /* point to next txdesc */ -+ write_slavemem32 (adev, (u32) &(txdesc->pNextDesc), -+ (u32) cpu_to_le32 ((u8 *) txdesc + adev->txdesc_size)); -+ -+ /* go to the next one */ -+ /* ++ is safe here (we are acx100) */ -+ txdesc++; -+ } -+ /* go back to the last one */ -+ txdesc--; -+ /* and point to the first making it a ring buffer */ -+ write_slavemem32 (adev, (u32) &(txdesc->pNextDesc), -+ (u32) cpu_to_le32 (tx_queue_start)); -+ } -+ FN_EXIT0; -+} -+ -+ -+/*************************************************************** -+** acxmem_create_rx_desc_queue -+*/ -+static void -+acxmem_create_rx_desc_queue(acx_device_t *adev, u32 rx_queue_start) -+{ -+ rxdesc_t *rxdesc; -+ u32 mem_offs; -+ int i; -+ -+ FN_ENTER; -+ -+ /* done by memset: adev->rx_tail = 0; */ -+ -+ /* ACX111 doesn't need any further config: preconfigures itself. -+ * Simply print ring buffer for debugging */ -+ if (IS_ACX111(adev)) { -+ /* rxdesc_start already set here */ -+ -+ adev->rxdesc_start = (rxdesc_t *) rx_queue_start; -+ -+ rxdesc = adev->rxdesc_start; -+ for (i = 0; i < RX_CNT; i++) { -+ log(L_DEBUG, "rx descriptor %d @ 0x%p\n", i, rxdesc); -+ rxdesc = adev->rxdesc_start = (rxdesc_t *) -+ acx2cpu(rxdesc->pNextDesc); -+ } -+ } else { -+ /* we didn't pre-calculate rxdesc_start in case of ACX100 */ -+ /* rxdesc_start should be right AFTER Tx pool */ -+ adev->rxdesc_start = (rxdesc_t *) -+ ((u8 *) adev->txdesc_start + (TX_CNT * sizeof(txdesc_t))); -+ /* NB: sizeof(txdesc_t) above is valid because we know -+ ** we are in if (acx100) block. Beware of cut-n-pasting elsewhere! -+ ** acx111's txdesc is larger! */ -+ -+ mem_offs = (u32) adev->rxdesc_start; -+ while (mem_offs < (u32) adev->rxdesc_start + (RX_CNT * sizeof (*rxdesc))) { -+ write_slavemem32 (adev, mem_offs, 0); -+ mem_offs += 4; -+ } -+ -+ /* loop over whole receive pool */ -+ rxdesc = adev->rxdesc_start; -+ for (i = 0; i < RX_CNT; i++) { -+ log(L_DEBUG, "rx descriptor @ 0x%p\n", rxdesc); -+ /* point to next rxdesc */ -+ write_slavemem32 (adev, (u32) &(rxdesc->pNextDesc), -+ (u32) cpu_to_le32 ((u8 *) rxdesc + sizeof(*rxdesc))); -+ /* go to the next one */ -+ rxdesc++; -+ } -+ /* go to the last one */ -+ rxdesc--; -+ -+ /* and point to the first making it a ring buffer */ -+ write_slavemem32 (adev, (u32) &(rxdesc->pNextDesc), -+ (u32) cpu_to_le32 (rx_queue_start)); -+ } -+ FN_EXIT0; -+} -+ -+ -+/*************************************************************** -+** acxmem_create_desc_queues -+*/ -+void -+acxmem_create_desc_queues(acx_device_t *adev, u32 tx_queue_start, u32 rx_queue_start) -+{ -+ u32 *p; -+ int i; -+ -+ acxmem_create_tx_desc_queue(adev, tx_queue_start); -+ acxmem_create_rx_desc_queue(adev, rx_queue_start); -+ p = (u32 *) adev->acx_queue_indicator; -+ for (i = 0; i < 4; i++) { -+ write_slavemem32 (adev, (u32) p, 0); -+ p++; -+ } -+} -+ -+ -+/*************************************************************** -+** acxmem_s_proc_diag_output -+*/ -+char* -+acxmem_s_proc_diag_output(char *p, acx_device_t *adev) -+{ -+ const char *rtl, *thd, *ttl; -+ txdesc_t *txdesc; -+ u8 Ctl_8; -+ rxdesc_t *rxdesc; -+ int i; -+ u32 tmp; -+ txdesc_t txd; -+ u8 buf[0x200]; -+ int j, k; -+ -+ FN_ENTER; -+ -+#if DUMP_MEM_DURING_DIAG > 0 -+ dump_acxmem (adev, 0, 0x10000); -+ panic ("dump finished"); -+#endif -+ -+ p += sprintf(p, "** Rx buf **\n"); -+ rxdesc = adev->rxdesc_start; -+ if (rxdesc) for (i = 0; i < RX_CNT; i++) { -+ rtl = (i == adev->rx_tail) ? " [tail]" : ""; -+ Ctl_8 = read_slavemem8 (adev, (u32) &(rxdesc->Ctl_8)); -+ if (Ctl_8 & DESC_CTL_HOSTOWN) -+ p += sprintf(p, "%02u (%02x) FULL%s\n", i, Ctl_8, rtl); -+ else -+ p += sprintf(p, "%02u (%02x) empty%s\n", i, Ctl_8, rtl); -+ rxdesc++; -+ } -+ p += sprintf(p, "** Tx buf (free %d, Linux netqueue %s) **\n", adev->tx_free, -+ acx_queue_stopped(adev->ndev) ? "STOPPED" : "running"); -+ -+ p += sprintf(p, "** Tx buf %d blocks total, %d available, free list head %04x\n", -+ adev->acx_txbuf_numblocks, adev->acx_txbuf_blocks_free, adev->acx_txbuf_free); -+ txdesc = adev->txdesc_start; -+ if (txdesc) { -+ for (i = 0; i < TX_CNT; i++) { -+ thd = (i == adev->tx_head) ? " [head]" : ""; -+ ttl = (i == adev->tx_tail) ? " [tail]" : ""; -+ copy_from_slavemem (adev, (u8 *) &txd, (u32) txdesc, sizeof (txd)); -+ Ctl_8 = read_slavemem8 (adev, (u32) &(txdesc->Ctl_8)); -+ if (Ctl_8 & DESC_CTL_ACXDONE) -+ p += sprintf(p, "%02u ready to free (%02X)%s%s", i, Ctl_8, thd, ttl); -+ else if (Ctl_8 & DESC_CTL_HOSTOWN) -+ p += sprintf(p, "%02u available (%02X)%s%s", i, Ctl_8, thd, ttl); -+ else -+ p += sprintf(p, "%02u busy (%02X)%s%s", i, Ctl_8, thd, ttl); -+ tmp = read_slavemem32 (adev, (u32) &(txdesc->AcxMemPtr)); -+ if (tmp) { -+ p += sprintf (p, " %04x", tmp); -+ while ((tmp = read_slavemem32 (adev, (u32) tmp)) != 0x02000000) { -+ tmp <<= 5; -+ p += sprintf (p, " %04x", tmp); -+ } -+ } -+ p += sprintf (p, "\n"); -+ p += sprintf (p, " %04x: %04x %04x %04x %04x %04x %04x %04x %04x %04x %04x %02x %02x %02x %02x\n" -+ "%02x %02x %02x %02x %04x\n", -+ (u32) txdesc, -+ txd.pNextDesc.v, txd.HostMemPtr.v, txd.AcxMemPtr.v, txd.tx_time, -+ txd.total_length, txd.Reserved, -+ txd.dummy[0], txd.dummy[1], txd.dummy[2], txd.dummy[3], -+ txd.Ctl_8, txd.Ctl2_8, txd.error, txd.ack_failures, -+ txd.u.rts.rts_failures, txd.u.rts.rts_ok, txd.u.r1.rate, txd.u.r1.queue_ctrl, -+ txd.queue_info -+ ); -+ if (txd.AcxMemPtr.v) { -+ copy_from_slavemem (adev, buf, txd.AcxMemPtr.v, sizeof (buf)); -+ for (j = 0; (j < txd.total_length) && (j<(sizeof(buf)-4)); j+=16) { -+ p += sprintf (p, " "); -+ for (k = 0; (k < 16) && (j+k < txd.total_length); k++) { -+ p += sprintf (p, " %02x", buf[j+k+4]); -+ } -+ p += sprintf (p, "\n"); -+ } -+ } -+ txdesc = advance_txdesc(adev, txdesc, 1); -+ } -+ } -+ -+ p += sprintf(p, -+ "\n" -+ "** Generic slave data **\n" -+ "irq_mask 0x%04x irq_status 0x%04x irq on acx 0x%04x\n" -+ "txbuf_start 0x%p, txbuf_area_size %u\n" -+ "txdesc_size %u, txdesc_start 0x%p\n" -+ "txhostdesc_start 0x%p, txhostdesc_area_size %u\n" -+ "txbuf start 0x%04x, txbuf size %d\n" -+ "rxdesc_start 0x%p\n" -+ "rxhostdesc_start 0x%p, rxhostdesc_area_size %u\n" -+ "rxbuf_start 0x%p, rxbuf_area_size %u\n", -+ adev->irq_mask, adev->irq_status, read_reg32(adev, IO_ACX_IRQ_STATUS_NON_DES), -+ adev->txbuf_start, adev->txbuf_area_size, -+ adev->txdesc_size, adev->txdesc_start, -+ adev->txhostdesc_start, adev->txhostdesc_area_size, -+ adev->acx_txbuf_start, adev->acx_txbuf_numblocks * adev->memblocksize, -+ adev->rxdesc_start, -+ adev->rxhostdesc_start, adev->rxhostdesc_area_size, -+ adev->rxbuf_start, adev->rxbuf_area_size); -+ FN_EXIT0; -+ return p; -+} -+ -+ -+/*********************************************************************** -+*/ -+int -+acxmem_proc_eeprom_output(char *buf, acx_device_t *adev) -+{ -+ char *p = buf; -+ int i; -+ -+ FN_ENTER; -+ -+ for (i = 0; i < 0x400; i++) { -+ acxmem_read_eeprom_byte(adev, i, p++); -+ } -+ -+ FN_EXIT1(p - buf); -+ return p - buf; -+} -+ -+ -+/*********************************************************************** -+*/ -+void -+acxmem_set_interrupt_mask(acx_device_t *adev) -+{ -+ if (IS_ACX111(adev)) { -+ adev->irq_mask = (u16) ~(0 -+ | HOST_INT_RX_DATA -+ | HOST_INT_TX_COMPLETE -+ /* | HOST_INT_TX_XFER */ -+ /* | HOST_INT_RX_COMPLETE */ -+ /* | HOST_INT_DTIM */ -+ /* | HOST_INT_BEACON */ -+ /* | HOST_INT_TIMER */ -+ /* | HOST_INT_KEY_NOT_FOUND */ -+ | HOST_INT_IV_ICV_FAILURE -+ | HOST_INT_CMD_COMPLETE -+ | HOST_INT_INFO -+ | HOST_INT_OVERFLOW -+ /* | HOST_INT_PROCESS_ERROR */ -+ | HOST_INT_SCAN_COMPLETE -+ | HOST_INT_FCS_THRESHOLD -+ | HOST_INT_UNKNOWN -+ ); -+ /* Or else acx100 won't signal cmd completion, right? */ -+ adev->irq_mask_off = (u16)~( HOST_INT_CMD_COMPLETE ); /* 0xfdff */ -+ } else { -+ adev->irq_mask = (u16) ~(0 -+ | HOST_INT_RX_DATA -+ | HOST_INT_TX_COMPLETE -+ /* | HOST_INT_TX_XFER */ -+ /* | HOST_INT_RX_COMPLETE */ -+ /* | HOST_INT_DTIM */ -+ /* | HOST_INT_BEACON */ -+ /* | HOST_INT_TIMER */ -+ /* | HOST_INT_KEY_NOT_FOUND */ -+ /* | HOST_INT_IV_ICV_FAILURE */ -+ | HOST_INT_CMD_COMPLETE -+ | HOST_INT_INFO -+ /* | HOST_INT_OVERFLOW */ -+ /* | HOST_INT_PROCESS_ERROR */ -+ | HOST_INT_SCAN_COMPLETE -+ /* | HOST_INT_FCS_THRESHOLD */ -+ /* | HOST_INT_BEACON_MISSED */ -+ ); -+ adev->irq_mask_off = (u16)~( HOST_INT_UNKNOWN ); /* 0x7fff */ -+ } -+} -+ -+ -+/*********************************************************************** -+*/ -+int -+acx100mem_s_set_tx_level(acx_device_t *adev, u8 level_dbm) -+{ -+ struct acx111_ie_tx_level tx_level; -+ -+ /* since it can be assumed that at least the Maxim radio has a -+ * maximum power output of 20dBm and since it also can be -+ * assumed that these values drive the DAC responsible for -+ * setting the linear Tx level, I'd guess that these values -+ * should be the corresponding linear values for a dBm value, -+ * in other words: calculate the values from that formula: -+ * Y [dBm] = 10 * log (X [mW]) -+ * then scale the 0..63 value range onto the 1..100mW range (0..20 dBm) -+ * and you're done... -+ * Hopefully that's ok, but you never know if we're actually -+ * right... (especially since Windows XP doesn't seem to show -+ * actual Tx dBm values :-P) */ -+ -+ /* NOTE: on Maxim, value 30 IS 30mW, and value 10 IS 10mW - so the -+ * values are EXACTLY mW!!! Not sure about RFMD and others, -+ * though... */ -+ static const u8 dbm2val_maxim[21] = { -+ 63, 63, 63, 62, -+ 61, 61, 60, 60, -+ 59, 58, 57, 55, -+ 53, 50, 47, 43, -+ 38, 31, 23, 13, -+ 0 -+ }; -+ static const u8 dbm2val_rfmd[21] = { -+ 0, 0, 0, 1, -+ 2, 2, 3, 3, -+ 4, 5, 6, 8, -+ 10, 13, 16, 20, -+ 25, 32, 41, 50, -+ 63 -+ }; -+ const u8 *table; -+ -+ switch (adev->radio_type) { -+ case RADIO_MAXIM_0D: -+ table = &dbm2val_maxim[0]; -+ break; -+ case RADIO_RFMD_11: -+ case RADIO_RALINK_15: -+ table = &dbm2val_rfmd[0]; -+ break; -+ default: -+ printk("%s: unknown/unsupported radio type, " -+ "cannot modify tx power level yet!\n", -+ adev->ndev->name); -+ return NOT_OK; -+ } -+ /* -+ * The hx4700 EEPROM, at least, only supports 1 power setting. The configure -+ * routine matches the PA bias with the gain, so just use its default value. -+ * The values are: 0x2b for the gain and 0x03 for the PA bias. The firmware -+ * writes the gain level to the Tx gain control DAC and the PA bias to the Maxim -+ * radio's PA bias register. The firmware limits itself to 0 - 64 when writing to the -+ * gain control DAC. -+ * -+ * Physically between the ACX and the radio, higher Tx gain control DAC values result -+ * in less power output; 0 volts to the Maxim radio results in the highest output power -+ * level, which I'm assuming matches up with 0 in the Tx Gain DAC register. -+ * -+ * Although there is only the 1 power setting, one of the radio firmware functions adjusts -+ * the transmit power level up and down. That function is called by the ACX FIQ handler -+ * under certain conditions. -+ */ -+ tx_level.level = 1; -+ //return acx_s_configure(adev, &tx_level, ACX1xx_IE_DOT11_TX_POWER_LEVEL); -+ -+ printk("%s: changing radio power level to %u dBm (%u)\n", -+ adev->ndev->name, level_dbm, table[level_dbm]); -+ acxmem_s_write_phy_reg(adev, 0x11, table[level_dbm]); -+ -+ return 0; -+} -+ -+ -+static struct platform_driver -+acxmem_drv_id = { -+ .driver = { -+ .name = "acx-mem", -+ }, -+ .probe = acxmem_e_probe, -+ .remove = __devexit_p(acxmem_e_remove), -+#ifdef CONFIG_PM -+ .suspend = acxmem_e_suspend, -+ .resume = acxmem_e_resume -+#endif /* CONFIG_PM */ -+}; -+ -+ -+/*********************************************************************** -+** acxmem_e_init_module -+** -+** Module initialization routine, called once at module load time -+*/ -+int __init -+acxmem_e_init_module(void) -+{ -+ int res; -+ -+ FN_ENTER; -+ -+#if (ACX_IO_WIDTH==32) -+ printk("acx: compiled to use 32bit I/O access. " -+ "I/O timing issues might occur, such as " -+ "non-working firmware upload. Report them\n"); -+#else -+ printk("acx: compiled to use 16bit I/O access only " -+ "(compatibility mode)\n"); -+#endif -+ -+#ifdef __LITTLE_ENDIAN -+#define ENDIANNESS_STRING "running on a little-endian CPU\n" -+#else -+#define ENDIANNESS_STRING "running on a BIG-ENDIAN CPU\n" -+#endif -+ log(L_INIT, -+ ENDIANNESS_STRING -+ "PCI module " ACX_RELEASE " initialized, " -+ "waiting for cards to probe...\n" -+ ); -+ -+ res = platform_driver_register (&acxmem_drv_id); -+ FN_EXIT1(res); -+ return res; -+} -+ -+ -+/*********************************************************************** -+** acxmem_e_cleanup_module -+** -+** Called at module unload time. This is our last chance to -+** clean up after ourselves. -+*/ -+void __exit -+acxmem_e_cleanup_module(void) -+{ -+ FN_ENTER; -+ -+ printk ("cleanup_module\n"); -+ platform_driver_unregister( &acxmem_drv_id ); -+ -+ FN_EXIT0; -+} -+ -+void acxmem_e_release(struct device *dev) { -+} -+ -+MODULE_AUTHOR( "Todd Blumer <todd@sdgsystems.com>" ); -+MODULE_DESCRIPTION( "ACX Slave Memory Driver" ); -+MODULE_LICENSE( "GPL" ); -+ -Index: linux-2.6.22/drivers/net/wireless/acx/pci.c -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/pci.c 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,4234 @@ -+/*********************************************************************** -+** Copyright (C) 2003 ACX100 Open Source Project -+** -+** The contents of this file are subject to the Mozilla Public -+** License Version 1.1 (the "License"); you may not use this file -+** except in compliance with the License. You may obtain a copy of -+** the License at http://www.mozilla.org/MPL/ -+** -+** Software distributed under the License is distributed on an "AS -+** IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -+** implied. See the License for the specific language governing -+** rights and limitations under the License. -+** -+** Alternatively, the contents of this file may be used under the -+** terms of the GNU Public License version 2 (the "GPL"), in which -+** case the provisions of the GPL are applicable instead of the -+** above. If you wish to allow the use of your version of this file -+** only under the terms of the GPL and not to allow others to use -+** your version of this file under the MPL, indicate your decision -+** by deleting the provisions above and replace them with the notice -+** and other provisions required by the GPL. If you do not delete -+** the provisions above, a recipient may use your version of this -+** file under either the MPL or the GPL. -+** --------------------------------------------------------------------- -+** Inquiries regarding the ACX100 Open Source Project can be -+** made directly to: -+** -+** acx100-users@lists.sf.net -+** http://acx100.sf.net -+** --------------------------------------------------------------------- -+*/ -+#define ACX_PCI 1 -+ -+#include <linux/version.h> -+#if LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 18) -+#include <linux/config.h> -+#endif -+ -+/* Linux 2.6.18+ uses <linux/utsrelease.h> */ -+#ifndef UTS_RELEASE -+#include <linux/utsrelease.h> -+#endif -+ -+#include <linux/compiler.h> /* required for Lx 2.6.8 ?? */ -+#include <linux/kernel.h> -+#include <linux/module.h> -+#include <linux/moduleparam.h> -+#include <linux/sched.h> -+#include <linux/types.h> -+#include <linux/skbuff.h> -+#include <linux/slab.h> -+#include <linux/if_arp.h> -+#include <linux/rtnetlink.h> -+#include <linux/wireless.h> -+#include <net/iw_handler.h> -+#include <linux/netdevice.h> -+#include <linux/ioport.h> -+#include <linux/pci.h> -+#include <linux/pm.h> -+#include <linux/vmalloc.h> -+#include <linux/dma-mapping.h> -+ -+#include "acx.h" -+ -+ -+/*********************************************************************** -+*/ -+#define PCI_TYPE (PCI_USES_MEM | PCI_ADDR0 | PCI_NO_ACPI_WAKE) -+#define PCI_ACX100_REGION1 0x01 -+#define PCI_ACX100_REGION1_SIZE 0x1000 /* Memory size - 4K bytes */ -+#define PCI_ACX100_REGION2 0x02 -+#define PCI_ACX100_REGION2_SIZE 0x10000 /* Memory size - 64K bytes */ -+ -+#define PCI_ACX111_REGION1 0x00 -+#define PCI_ACX111_REGION1_SIZE 0x2000 /* Memory size - 8K bytes */ -+#define PCI_ACX111_REGION2 0x01 -+#define PCI_ACX111_REGION2_SIZE 0x20000 /* Memory size - 128K bytes */ -+ -+/* Texas Instruments Vendor ID */ -+#define PCI_VENDOR_ID_TI 0x104c -+ -+/* ACX100 22Mb/s WLAN controller */ -+#define PCI_DEVICE_ID_TI_TNETW1100A 0x8400 -+#define PCI_DEVICE_ID_TI_TNETW1100B 0x8401 -+ -+/* ACX111 54Mb/s WLAN controller */ -+#define PCI_DEVICE_ID_TI_TNETW1130 0x9066 -+ -+/* PCI Class & Sub-Class code, Network-'Other controller' */ -+#define PCI_CLASS_NETWORK_OTHERS 0x0280 -+ -+#define CARD_EEPROM_ID_SIZE 6 -+ -+#ifndef PCI_D0 -+/* From include/linux/pci.h */ -+#define PCI_D0 0 -+#define PCI_D1 1 -+#define PCI_D2 2 -+#define PCI_D3hot 3 -+#define PCI_D3cold 4 -+#define PCI_UNKNOWN 5 -+#define PCI_POWER_ERROR -1 -+#endif -+ -+ -+/*********************************************************************** -+*/ -+static void acxpci_i_tx_timeout(struct net_device *ndev); -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19) -+static irqreturn_t acxpci_i_interrupt(int irq, void *dev_id); -+#else -+static irqreturn_t acxpci_i_interrupt(int irq, void *dev_id, struct pt_regs *regs); -+#endif -+static void acxpci_i_set_multicast_list(struct net_device *ndev); -+ -+static int acxpci_e_open(struct net_device *ndev); -+static int acxpci_e_close(struct net_device *ndev); -+static void acxpci_s_up(struct net_device *ndev); -+static void acxpci_s_down(struct net_device *ndev); -+ -+ -+/*********************************************************************** -+** Register access -+*/ -+ -+/* Pick one */ -+/* #define INLINE_IO static */ -+#define INLINE_IO static inline -+ -+INLINE_IO u32 -+read_reg32(acx_device_t *adev, unsigned int offset) -+{ -+#if ACX_IO_WIDTH == 32 -+ return readl((u8 *)adev->iobase + adev->io[offset]); -+#else -+ return readw((u8 *)adev->iobase + adev->io[offset]) -+ + (readw((u8 *)adev->iobase + adev->io[offset] + 2) << 16); -+#endif -+} -+ -+INLINE_IO u16 -+read_reg16(acx_device_t *adev, unsigned int offset) -+{ -+ return readw((u8 *)adev->iobase + adev->io[offset]); -+} -+ -+INLINE_IO u8 -+read_reg8(acx_device_t *adev, unsigned int offset) -+{ -+ return readb((u8 *)adev->iobase + adev->io[offset]); -+} -+ -+INLINE_IO void -+write_reg32(acx_device_t *adev, unsigned int offset, u32 val) -+{ -+#if ACX_IO_WIDTH == 32 -+ writel(val, (u8 *)adev->iobase + adev->io[offset]); -+#else -+ writew(val & 0xffff, (u8 *)adev->iobase + adev->io[offset]); -+ writew(val >> 16, (u8 *)adev->iobase + adev->io[offset] + 2); -+#endif -+} -+ -+INLINE_IO void -+write_reg16(acx_device_t *adev, unsigned int offset, u16 val) -+{ -+ writew(val, (u8 *)adev->iobase + adev->io[offset]); -+} -+ -+INLINE_IO void -+write_reg8(acx_device_t *adev, unsigned int offset, u8 val) -+{ -+ writeb(val, (u8 *)adev->iobase + adev->io[offset]); -+} -+ -+/* Handle PCI posting properly: -+ * Make sure that writes reach the adapter in case they require to be executed -+ * *before* the next write, by reading a random (and safely accessible) register. -+ * This call has to be made if there is no read following (which would flush the data -+ * to the adapter), yet the written data has to reach the adapter immediately. */ -+INLINE_IO void -+write_flush(acx_device_t *adev) -+{ -+ /* readb(adev->iobase + adev->io[IO_ACX_INFO_MAILBOX_OFFS]); */ -+ /* faster version (accesses the first register, IO_ACX_SOFT_RESET, -+ * which should also be safe): */ -+ readb(adev->iobase); -+} -+ -+INLINE_IO int -+adev_present(acx_device_t *adev) -+{ -+ /* fast version (accesses the first register, IO_ACX_SOFT_RESET, -+ * which should be safe): */ -+ return readl(adev->iobase) != 0xffffffff; -+} -+ -+ -+/*********************************************************************** -+*/ -+static inline txdesc_t* -+get_txdesc(acx_device_t *adev, int index) -+{ -+ return (txdesc_t*) (((u8*)adev->txdesc_start) + index * adev->txdesc_size); -+} -+ -+static inline txdesc_t* -+advance_txdesc(acx_device_t *adev, txdesc_t* txdesc, int inc) -+{ -+ return (txdesc_t*) (((u8*)txdesc) + inc * adev->txdesc_size); -+} -+ -+static txhostdesc_t* -+get_txhostdesc(acx_device_t *adev, txdesc_t* txdesc) -+{ -+ int index = (u8*)txdesc - (u8*)adev->txdesc_start; -+ if (unlikely(ACX_DEBUG && (index % adev->txdesc_size))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return NULL; -+ } -+ index /= adev->txdesc_size; -+ if (unlikely(ACX_DEBUG && (index >= TX_CNT))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return NULL; -+ } -+ return &adev->txhostdesc_start[index*2]; -+} -+ -+static inline client_t* -+get_txc(acx_device_t *adev, txdesc_t* txdesc) -+{ -+ int index = (u8*)txdesc - (u8*)adev->txdesc_start; -+ if (unlikely(ACX_DEBUG && (index % adev->txdesc_size))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return NULL; -+ } -+ index /= adev->txdesc_size; -+ if (unlikely(ACX_DEBUG && (index >= TX_CNT))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return NULL; -+ } -+ return adev->txc[index]; -+} -+ -+static inline u16 -+get_txr(acx_device_t *adev, txdesc_t* txdesc) -+{ -+ int index = (u8*)txdesc - (u8*)adev->txdesc_start; -+ index /= adev->txdesc_size; -+ return adev->txr[index]; -+} -+ -+static inline void -+put_txcr(acx_device_t *adev, txdesc_t* txdesc, client_t* c, u16 r111) -+{ -+ int index = (u8*)txdesc - (u8*)adev->txdesc_start; -+ if (unlikely(ACX_DEBUG && (index % adev->txdesc_size))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return; -+ } -+ index /= adev->txdesc_size; -+ if (unlikely(ACX_DEBUG && (index >= TX_CNT))) { -+ printk("bad txdesc ptr %p\n", txdesc); -+ return; -+ } -+ adev->txc[index] = c; -+ adev->txr[index] = r111; -+} -+ -+ -+/*********************************************************************** -+** EEPROM and PHY read/write helpers -+*/ -+/*********************************************************************** -+** acxpci_read_eeprom_byte -+** -+** Function called to read an octet in the EEPROM. -+** -+** This function is used by acxpci_e_probe to check if the -+** connected card is a legal one or not. -+** -+** Arguments: -+** adev ptr to acx_device structure -+** addr address to read in the EEPROM -+** charbuf ptr to a char. This is where the read octet -+** will be stored -+*/ -+int -+acxpci_read_eeprom_byte(acx_device_t *adev, u32 addr, u8 *charbuf) -+{ -+ int result; -+ int count; -+ -+ write_reg32(adev, IO_ACX_EEPROM_CFG, 0); -+ write_reg32(adev, IO_ACX_EEPROM_ADDR, addr); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_EEPROM_CTL, 2); -+ -+ count = 0xffff; -+ while (read_reg16(adev, IO_ACX_EEPROM_CTL)) { -+ /* scheduling away instead of CPU burning loop -+ * doesn't seem to work here at all: -+ * awful delay, sometimes also failure. -+ * Doesn't matter anyway (only small delay). */ -+ if (unlikely(!--count)) { -+ printk("%s: timeout waiting for EEPROM read\n", -+ adev->ndev->name); -+ result = NOT_OK; -+ goto fail; -+ } -+ cpu_relax(); -+ } -+ -+ *charbuf = read_reg8(adev, IO_ACX_EEPROM_DATA); -+ log(L_DEBUG, "EEPROM at 0x%04X = 0x%02X\n", addr, *charbuf); -+ result = OK; -+ -+fail: -+ return result; -+} -+ -+ -+/*********************************************************************** -+** We don't lock hw accesses here since we never r/w eeprom in IRQ -+** Note: this function sleeps only because of GFP_KERNEL alloc -+*/ -+#ifdef UNUSED -+int -+acxpci_s_write_eeprom(acx_device_t *adev, u32 addr, u32 len, const u8 *charbuf) -+{ -+ u8 *data_verify = NULL; -+ unsigned long flags; -+ int count, i; -+ int result = NOT_OK; -+ u16 gpio_orig; -+ -+ printk("acx: WARNING! I would write to EEPROM now. " -+ "Since I really DON'T want to unless you know " -+ "what you're doing (THIS CODE WILL PROBABLY " -+ "NOT WORK YET!), I will abort that now. And " -+ "definitely make sure to make a " -+ "/proc/driver/acx_wlan0_eeprom backup copy first!!! " -+ "(the EEPROM content includes the PCI config header!! " -+ "If you kill important stuff, then you WILL " -+ "get in trouble and people DID get in trouble already)\n"); -+ return OK; -+ -+ FN_ENTER; -+ -+ data_verify = kmalloc(len, GFP_KERNEL); -+ if (!data_verify) { -+ goto end; -+ } -+ -+ /* first we need to enable the OE (EEPROM Output Enable) GPIO line -+ * to be able to write to the EEPROM. -+ * NOTE: an EEPROM writing success has been reported, -+ * but you probably have to modify GPIO_OUT, too, -+ * and you probably need to activate a different GPIO -+ * line instead! */ -+ gpio_orig = read_reg16(adev, IO_ACX_GPIO_OE); -+ write_reg16(adev, IO_ACX_GPIO_OE, gpio_orig & ~1); -+ write_flush(adev); -+ -+ /* ok, now start writing the data out */ -+ for (i = 0; i < len; i++) { -+ write_reg32(adev, IO_ACX_EEPROM_CFG, 0); -+ write_reg32(adev, IO_ACX_EEPROM_ADDR, addr + i); -+ write_reg32(adev, IO_ACX_EEPROM_DATA, *(charbuf + i)); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_EEPROM_CTL, 1); -+ -+ count = 0xffff; -+ while (read_reg16(adev, IO_ACX_EEPROM_CTL)) { -+ if (unlikely(!--count)) { -+ printk("WARNING, DANGER!!! " -+ "Timeout waiting for EEPROM write\n"); -+ goto end; -+ } -+ cpu_relax(); -+ } -+ } -+ -+ /* disable EEPROM writing */ -+ write_reg16(adev, IO_ACX_GPIO_OE, gpio_orig); -+ write_flush(adev); -+ -+ /* now start a verification run */ -+ for (i = 0; i < len; i++) { -+ write_reg32(adev, IO_ACX_EEPROM_CFG, 0); -+ write_reg32(adev, IO_ACX_EEPROM_ADDR, addr + i); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_EEPROM_CTL, 2); -+ -+ count = 0xffff; -+ while (read_reg16(adev, IO_ACX_EEPROM_CTL)) { -+ if (unlikely(!--count)) { -+ printk("timeout waiting for EEPROM read\n"); -+ goto end; -+ } -+ cpu_relax(); -+ } -+ -+ data_verify[i] = read_reg16(adev, IO_ACX_EEPROM_DATA); -+ } -+ -+ if (0 == memcmp(charbuf, data_verify, len)) -+ result = OK; /* read data matches, success */ -+ -+end: -+ kfree(data_verify); -+ FN_EXIT1(result); -+ return result; -+} -+#endif /* UNUSED */ -+ -+ -+/*********************************************************************** -+** acxpci_s_read_phy_reg -+** -+** Messing with rx/tx disabling and enabling here -+** (write_reg32(adev, IO_ACX_ENABLE, 0b000000xx)) kills traffic -+*/ -+int -+acxpci_s_read_phy_reg(acx_device_t *adev, u32 reg, u8 *charbuf) -+{ -+ int result = NOT_OK; -+ int count; -+ -+ FN_ENTER; -+ -+ write_reg32(adev, IO_ACX_PHY_ADDR, reg); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_PHY_CTL, 2); -+ -+ count = 0xffff; -+ while (read_reg32(adev, IO_ACX_PHY_CTL)) { -+ /* scheduling away instead of CPU burning loop -+ * doesn't seem to work here at all: -+ * awful delay, sometimes also failure. -+ * Doesn't matter anyway (only small delay). */ -+ if (unlikely(!--count)) { -+ printk("%s: timeout waiting for phy read\n", -+ adev->ndev->name); -+ *charbuf = 0; -+ goto fail; -+ } -+ cpu_relax(); -+ } -+ -+ log(L_DEBUG, "count was %u\n", count); -+ *charbuf = read_reg8(adev, IO_ACX_PHY_DATA); -+ -+ log(L_DEBUG, "radio PHY at 0x%04X = 0x%02X\n", *charbuf, reg); -+ result = OK; -+ goto fail; /* silence compiler warning */ -+fail: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+*/ -+int -+acxpci_s_write_phy_reg(acx_device_t *adev, u32 reg, u8 value) -+{ -+ FN_ENTER; -+ -+ /* mprusko said that 32bit accesses result in distorted sensitivity -+ * on his card. Unconfirmed, looks like it's not true (most likely since we -+ * now properly flush writes). */ -+ write_reg32(adev, IO_ACX_PHY_DATA, value); -+ write_reg32(adev, IO_ACX_PHY_ADDR, reg); -+ write_flush(adev); -+ write_reg32(adev, IO_ACX_PHY_CTL, 1); -+ write_flush(adev); -+ log(L_DEBUG, "radio PHY write 0x%02X at 0x%04X\n", value, reg); -+ -+ FN_EXIT1(OK); -+ return OK; -+} -+ -+ -+#define NO_AUTO_INCREMENT 1 -+ -+/*********************************************************************** -+** acxpci_s_write_fw -+** -+** Write the firmware image into the card. -+** -+** Arguments: -+** adev wlan device structure -+** fw_image firmware image. -+** -+** Returns: -+** 1 firmware image corrupted -+** 0 success -+*/ -+static int -+acxpci_s_write_fw(acx_device_t *adev, const firmware_image_t *fw_image, u32 offset) -+{ -+ int len, size; -+ u32 sum, v32; -+ /* we skip the first four bytes which contain the control sum */ -+ const u8 *p = (u8*)fw_image + 4; -+ -+ /* start the image checksum by adding the image size value */ -+ sum = p[0]+p[1]+p[2]+p[3]; -+ p += 4; -+ -+ write_reg32(adev, IO_ACX_SLV_END_CTL, 0); -+ -+#if NO_AUTO_INCREMENT -+ write_reg32(adev, IO_ACX_SLV_MEM_CTL, 0); /* use basic mode */ -+#else -+ write_reg32(adev, IO_ACX_SLV_MEM_CTL, 1); /* use autoincrement mode */ -+ write_reg32(adev, IO_ACX_SLV_MEM_ADDR, offset); /* configure start address */ -+ write_flush(adev); -+#endif -+ -+ len = 0; -+ size = le32_to_cpu(fw_image->size) & (~3); -+ -+ while (likely(len < size)) { -+ v32 = be32_to_cpu(*(u32*)p); -+ sum += p[0]+p[1]+p[2]+p[3]; -+ p += 4; -+ len += 4; -+ -+#if NO_AUTO_INCREMENT -+ write_reg32(adev, IO_ACX_SLV_MEM_ADDR, offset + len - 4); -+ write_flush(adev); -+#endif -+ write_reg32(adev, IO_ACX_SLV_MEM_DATA, v32); -+ } -+ -+ log(L_DEBUG, "firmware written, size:%d sum1:%x sum2:%x\n", -+ size, sum, le32_to_cpu(fw_image->chksum)); -+ -+ /* compare our checksum with the stored image checksum */ -+ return (sum != le32_to_cpu(fw_image->chksum)); -+} -+ -+ -+/*********************************************************************** -+** acxpci_s_validate_fw -+** -+** Compare the firmware image given with -+** the firmware image written into the card. -+** -+** Arguments: -+** adev wlan device structure -+** fw_image firmware image. -+** -+** Returns: -+** NOT_OK firmware image corrupted or not correctly written -+** OK success -+*/ -+static int -+acxpci_s_validate_fw(acx_device_t *adev, const firmware_image_t *fw_image, -+ u32 offset) -+{ -+ u32 sum, v32, w32; -+ int len, size; -+ int result = OK; -+ /* we skip the first four bytes which contain the control sum */ -+ const u8 *p = (u8*)fw_image + 4; -+ -+ /* start the image checksum by adding the image size value */ -+ sum = p[0]+p[1]+p[2]+p[3]; -+ p += 4; -+ -+ write_reg32(adev, IO_ACX_SLV_END_CTL, 0); -+ -+#if NO_AUTO_INCREMENT -+ write_reg32(adev, IO_ACX_SLV_MEM_CTL, 0); /* use basic mode */ -+#else -+ write_reg32(adev, IO_ACX_SLV_MEM_CTL, 1); /* use autoincrement mode */ -+ write_reg32(adev, IO_ACX_SLV_MEM_ADDR, offset); /* configure start address */ -+#endif -+ -+ len = 0; -+ size = le32_to_cpu(fw_image->size) & (~3); -+ -+ while (likely(len < size)) { -+ v32 = be32_to_cpu(*(u32*)p); -+ p += 4; -+ len += 4; -+ -+#if NO_AUTO_INCREMENT -+ write_reg32(adev, IO_ACX_SLV_MEM_ADDR, offset + len - 4); -+#endif -+ w32 = read_reg32(adev, IO_ACX_SLV_MEM_DATA); -+ -+ if (unlikely(w32 != v32)) { -+ printk("acx: FATAL: firmware upload: " -+ "data parts at offset %d don't match (0x%08X vs. 0x%08X)! " -+ "I/O timing issues or defective memory, with DWL-xx0+? " -+ "ACX_IO_WIDTH=16 may help. Please report\n", -+ len, v32, w32); -+ result = NOT_OK; -+ break; -+ } -+ -+ sum += (u8)w32 + (u8)(w32>>8) + (u8)(w32>>16) + (u8)(w32>>24); -+ } -+ -+ /* sum control verification */ -+ if (result != NOT_OK) { -+ if (sum != le32_to_cpu(fw_image->chksum)) { -+ printk("acx: FATAL: firmware upload: " -+ "checksums don't match!\n"); -+ result = NOT_OK; -+ } -+ } -+ -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acxpci_s_upload_fw -+** -+** Called from acx_reset_dev -+*/ -+static int -+acxpci_s_upload_fw(acx_device_t *adev) -+{ -+ firmware_image_t *fw_image = NULL; -+ int res = NOT_OK; -+ int try; -+ u32 file_size; -+ char filename[sizeof("tiacx1NNcNN")]; -+ -+ FN_ENTER; -+ -+ /* print exact chipset and radio ID to make sure people really get a clue on which files exactly they are supposed to provide, -+ * since firmware loading is the biggest enduser PITA with these chipsets. -+ * Not printing radio ID in 0xHEX in order to not confuse them into wrong file naming */ -+ printk( "acx: need to load firmware for acx1%02d chipset with radio ID %02x, please provide via firmware hotplug:\n" -+ "acx: either one file only (<c>ombined firmware image file, radio-specific) or two files (radio-less base image file *plus* separate <r>adio-specific extension file)\n", -+ IS_ACX111(adev)*11, adev->radio_type); -+ -+ /* Try combined, then main image */ -+ adev->need_radio_fw = 0; -+ snprintf(filename, sizeof(filename), "tiacx1%02dc%02X", -+ IS_ACX111(adev)*11, adev->radio_type); -+ -+ fw_image = acx_s_read_fw(&adev->pdev->dev, filename, &file_size); -+ if (!fw_image) { -+ adev->need_radio_fw = 1; -+ filename[sizeof("tiacx1NN")-1] = '\0'; -+ fw_image = acx_s_read_fw(&adev->pdev->dev, filename, &file_size); -+ if (!fw_image) { -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+ } -+ } -+ -+ for (try = 1; try <= 5; try++) { -+ res = acxpci_s_write_fw(adev, fw_image, 0); -+ log(L_DEBUG|L_INIT, "acx_write_fw (main/combined): %d\n", res); -+ if (OK == res) { -+ res = acxpci_s_validate_fw(adev, fw_image, 0); -+ log(L_DEBUG|L_INIT, "acx_validate_fw " -+ "(main/combined): %d\n", res); -+ } -+ -+ if (OK == res) { -+ SET_BIT(adev->dev_state_mask, ACX_STATE_FW_LOADED); -+ break; -+ } -+ printk("acx: firmware upload attempt #%d FAILED, " -+ "retrying...\n", try); -+ acx_s_msleep(1000); /* better wait for a while... */ -+ } -+ -+ vfree(fw_image); -+ -+ FN_EXIT1(res); -+ return res; -+} -+ -+ -+/*********************************************************************** -+** acxpci_s_upload_radio -+** -+** Uploads the appropriate radio module firmware into the card. -+*/ -+int -+acxpci_s_upload_radio(acx_device_t *adev) -+{ -+ acx_ie_memmap_t mm; -+ firmware_image_t *radio_image; -+ acx_cmd_radioinit_t radioinit; -+ int res = NOT_OK; -+ int try; -+ u32 offset; -+ u32 size; -+ char filename[sizeof("tiacx1NNrNN")]; -+ -+ if (!adev->need_radio_fw) return OK; -+ -+ FN_ENTER; -+ -+ acx_s_interrogate(adev, &mm, ACX1xx_IE_MEMORY_MAP); -+ offset = le32_to_cpu(mm.CodeEnd); -+ -+ snprintf(filename, sizeof(filename), "tiacx1%02dr%02X", -+ IS_ACX111(adev)*11, -+ adev->radio_type); -+ radio_image = acx_s_read_fw(&adev->pdev->dev, filename, &size); -+ if (!radio_image) { -+ printk("acx: can't load radio module '%s'\n", filename); -+ goto fail; -+ } -+ -+ acx_s_issue_cmd(adev, ACX1xx_CMD_SLEEP, NULL, 0); -+ -+ for (try = 1; try <= 5; try++) { -+ res = acxpci_s_write_fw(adev, radio_image, offset); -+ log(L_DEBUG|L_INIT, "acx_write_fw (radio): %d\n", res); -+ if (OK == res) { -+ res = acxpci_s_validate_fw(adev, radio_image, offset); -+ log(L_DEBUG|L_INIT, "acx_validate_fw (radio): %d\n", res); -+ } -+ -+ if (OK == res) -+ break; -+ printk("acx: radio firmware upload attempt #%d FAILED, " -+ "retrying...\n", try); -+ acx_s_msleep(1000); /* better wait for a while... */ -+ } -+ -+ acx_s_issue_cmd(adev, ACX1xx_CMD_WAKE, NULL, 0); -+ radioinit.offset = cpu_to_le32(offset); -+ /* no endian conversion needed, remains in card CPU area: */ -+ radioinit.len = radio_image->size; -+ -+ vfree(radio_image); -+ -+ if (OK != res) -+ goto fail; -+ -+ /* will take a moment so let's have a big timeout */ -+ acx_s_issue_cmd_timeo(adev, ACX1xx_CMD_RADIOINIT, -+ &radioinit, sizeof(radioinit), CMD_TIMEOUT_MS(1000)); -+ -+ res = acx_s_interrogate(adev, &mm, ACX1xx_IE_MEMORY_MAP); -+fail: -+ FN_EXIT1(res); -+ return res; -+} -+ -+ -+/*********************************************************************** -+** acxpci_l_reset_mac -+** -+** MAC will be reset -+** Call context: reset_dev -+*/ -+static void -+acxpci_l_reset_mac(acx_device_t *adev) -+{ -+ u16 temp; -+ -+ FN_ENTER; -+ -+ /* halt eCPU */ -+ temp = read_reg16(adev, IO_ACX_ECPU_CTRL) | 0x1; -+ write_reg16(adev, IO_ACX_ECPU_CTRL, temp); -+ -+ /* now do soft reset of eCPU, set bit */ -+ temp = read_reg16(adev, IO_ACX_SOFT_RESET) | 0x1; -+ log(L_DEBUG, "%s: enable soft reset...\n", __func__); -+ write_reg16(adev, IO_ACX_SOFT_RESET, temp); -+ write_flush(adev); -+ -+ /* now clear bit again: deassert eCPU reset */ -+ log(L_DEBUG, "%s: disable soft reset and go to init mode...\n", __func__); -+ write_reg16(adev, IO_ACX_SOFT_RESET, temp & ~0x1); -+ -+ /* now start a burst read from initial EEPROM */ -+ temp = read_reg16(adev, IO_ACX_EE_START) | 0x1; -+ write_reg16(adev, IO_ACX_EE_START, temp); -+ write_flush(adev); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxpci_s_verify_init -+*/ -+static int -+acxpci_s_verify_init(acx_device_t *adev) -+{ -+ int result = NOT_OK; -+ unsigned long timeout; -+ -+ FN_ENTER; -+ -+ timeout = jiffies + 2*HZ; -+ for (;;) { -+ u16 irqstat = read_reg16(adev, IO_ACX_IRQ_STATUS_NON_DES); -+ if (irqstat & HOST_INT_FCS_THRESHOLD) { -+ result = OK; -+ write_reg16(adev, IO_ACX_IRQ_ACK, HOST_INT_FCS_THRESHOLD); -+ break; -+ } -+ if (time_after(jiffies, timeout)) -+ break; -+ /* Init may take up to ~0.5 sec total */ -+ acx_s_msleep(50); -+ } -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** A few low-level helpers -+** -+** Note: these functions are not protected by lock -+** and thus are never allowed to be called from IRQ. -+** Also they must not race with fw upload which uses same hw regs -+*/ -+ -+/*********************************************************************** -+** acxpci_write_cmd_type_status -+*/ -+ -+static inline void -+acxpci_write_cmd_type_status(acx_device_t *adev, u16 type, u16 status) -+{ -+ writel(type | (status << 16), adev->cmd_area); -+ write_flush(adev); -+} -+ -+ -+/*********************************************************************** -+** acxpci_read_cmd_type_status -+*/ -+static u32 -+acxpci_read_cmd_type_status(acx_device_t *adev) -+{ -+ u32 cmd_type, cmd_status; -+ -+ cmd_type = readl(adev->cmd_area); -+ cmd_status = (cmd_type >> 16); -+ cmd_type = (u16)cmd_type; -+ -+ log(L_CTL, "cmd_type:%04X cmd_status:%04X [%s]\n", -+ cmd_type, cmd_status, -+ acx_cmd_status_str(cmd_status)); -+ -+ return cmd_status; -+} -+ -+ -+/*********************************************************************** -+** acxpci_s_reset_dev -+** -+** Arguments: -+** netdevice that contains the adev variable -+** Returns: -+** NOT_OK on fail -+** OK on success -+** Side effects: -+** device is hard reset -+** Call context: -+** acxpci_e_probe -+** Comment: -+** This resets the device using low level hardware calls -+** as well as uploads and verifies the firmware to the card -+*/ -+ -+static inline void -+init_mboxes(acx_device_t *adev) -+{ -+ u32 cmd_offs, info_offs; -+ -+ cmd_offs = read_reg32(adev, IO_ACX_CMD_MAILBOX_OFFS); -+ info_offs = read_reg32(adev, IO_ACX_INFO_MAILBOX_OFFS); -+ adev->cmd_area = (u8 *)adev->iobase2 + cmd_offs; -+ adev->info_area = (u8 *)adev->iobase2 + info_offs; -+ log(L_DEBUG, "iobase2=%p\n" -+ "cmd_mbox_offset=%X cmd_area=%p\n" -+ "info_mbox_offset=%X info_area=%p\n", -+ adev->iobase2, -+ cmd_offs, adev->cmd_area, -+ info_offs, adev->info_area); -+} -+ -+ -+static inline void -+read_eeprom_area(acx_device_t *adev) -+{ -+#if ACX_DEBUG > 1 -+ int offs; -+ u8 tmp; -+ -+ for (offs = 0x8c; offs < 0xb9; offs++) -+ acxpci_read_eeprom_byte(adev, offs, &tmp); -+#endif -+} -+ -+ -+static int -+acxpci_s_reset_dev(acx_device_t *adev) -+{ -+ const char* msg = ""; -+ unsigned long flags; -+ int result = NOT_OK; -+ u16 hardware_info; -+ u16 ecpu_ctrl; -+ int count; -+ -+ FN_ENTER; -+ -+ /* reset the device to make sure the eCPU is stopped -+ * to upload the firmware correctly */ -+ -+ acx_lock(adev, flags); -+ -+ acxpci_l_reset_mac(adev); -+ -+ ecpu_ctrl = read_reg16(adev, IO_ACX_ECPU_CTRL) & 1; -+ if (!ecpu_ctrl) { -+ msg = "eCPU is already running. "; -+ goto end_unlock; -+ } -+ -+#ifdef WE_DONT_NEED_THAT_DO_WE -+ if (read_reg16(adev, IO_ACX_SOR_CFG) & 2) { -+ /* eCPU most likely means "embedded CPU" */ -+ msg = "eCPU did not start after boot from flash. "; -+ goto end_unlock; -+ } -+ -+ /* check sense on reset flags */ -+ if (read_reg16(adev, IO_ACX_SOR_CFG) & 0x10) { -+ printk("%s: eCPU did not start after boot (SOR), " -+ "is this fatal?\n", adev->ndev->name); -+ } -+#endif -+ /* scan, if any, is stopped now, setting corresponding IRQ bit */ -+ adev->irq_status |= HOST_INT_SCAN_COMPLETE; -+ -+ acx_unlock(adev, flags); -+ -+ /* need to know radio type before fw load */ -+ /* Need to wait for arrival of this information in a loop, -+ * most probably since eCPU runs some init code from EEPROM -+ * (started burst read in reset_mac()) which also -+ * sets the radio type ID */ -+ -+ count = 0xffff; -+ do { -+ hardware_info = read_reg16(adev, IO_ACX_EEPROM_INFORMATION); -+ if (!--count) { -+ msg = "eCPU didn't indicate radio type"; -+ goto end_fail; -+ } -+ cpu_relax(); -+ } while (!(hardware_info & 0xff00)); /* radio type still zero? */ -+ -+ /* printk("DEBUG: count %d\n", count); */ -+ adev->form_factor = hardware_info & 0xff; -+ adev->radio_type = hardware_info >> 8; -+ -+ /* load the firmware */ -+ if (OK != acxpci_s_upload_fw(adev)) -+ goto end_fail; -+ -+ /* acx_s_msleep(10); this one really shouldn't be required */ -+ -+ /* now start eCPU by clearing bit */ -+ write_reg16(adev, IO_ACX_ECPU_CTRL, ecpu_ctrl & ~0x1); -+ log(L_DEBUG, "booted eCPU up and waiting for completion...\n"); -+ -+ /* wait for eCPU bootup */ -+ if (OK != acxpci_s_verify_init(adev)) { -+ msg = "timeout waiting for eCPU. "; -+ goto end_fail; -+ } -+ log(L_DEBUG, "eCPU has woken up, card is ready to be configured\n"); -+ -+ init_mboxes(adev); -+ acxpci_write_cmd_type_status(adev, 0, 0); -+ -+ /* test that EEPROM is readable */ -+ read_eeprom_area(adev); -+ -+ result = OK; -+ goto end; -+ -+/* Finish error message. Indicate which function failed */ -+end_unlock: -+ acx_unlock(adev, flags); -+end_fail: -+ printk("acx: %sreset_dev() FAILED\n", msg); -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acxpci_s_issue_cmd_timeo -+** -+** Sends command to fw, extract result -+** -+** NB: we do _not_ take lock inside, so be sure to not touch anything -+** which may interfere with IRQ handler operation -+** -+** TODO: busy wait is a bit silly, so: -+** 1) stop doing many iters - go to sleep after first -+** 2) go to waitqueue based approach: wait, not poll! -+*/ -+#undef FUNC -+#define FUNC "issue_cmd" -+ -+#if !ACX_DEBUG -+int -+acxpci_s_issue_cmd_timeo( -+ acx_device_t *adev, -+ unsigned int cmd, -+ void *buffer, -+ unsigned buflen, -+ unsigned cmd_timeout) -+{ -+#else -+int -+acxpci_s_issue_cmd_timeo_debug( -+ acx_device_t *adev, -+ unsigned cmd, -+ void *buffer, -+ unsigned buflen, -+ unsigned cmd_timeout, -+ const char* cmdstr) -+{ -+ unsigned long start = jiffies; -+#endif -+ const char *devname; -+ unsigned counter; -+ u16 irqtype; -+ u16 cmd_status; -+ unsigned long timeout; -+ -+ FN_ENTER; -+ -+ devname = adev->ndev->name; -+ if (!devname || !devname[0] || devname[4]=='%') -+ devname = "acx"; -+ -+ log(L_CTL, FUNC"(cmd:%s,buflen:%u,timeout:%ums,type:0x%04X)\n", -+ cmdstr, buflen, cmd_timeout, -+ buffer ? le16_to_cpu(((acx_ie_generic_t *)buffer)->type) : -1); -+ -+ if (!(adev->dev_state_mask & ACX_STATE_FW_LOADED)) { -+ printk("%s: "FUNC"(): firmware is not loaded yet, " -+ "cannot execute commands!\n", devname); -+ goto bad; -+ } -+ -+ if ((acx_debug & L_DEBUG) && (cmd != ACX1xx_CMD_INTERROGATE)) { -+ printk("input buffer (len=%u):\n", buflen); -+ acx_dump_bytes(buffer, buflen); -+ } -+ -+ /* wait for firmware to become idle for our command submission */ -+ timeout = HZ/5; -+ counter = (timeout * 1000 / HZ) - 1; /* in ms */ -+ timeout += jiffies; -+ do { -+ cmd_status = acxpci_read_cmd_type_status(adev); -+ /* Test for IDLE state */ -+ if (!cmd_status) -+ break; -+ if (counter % 8 == 0) { -+ if (time_after(jiffies, timeout)) { -+ counter = 0; -+ break; -+ } -+ /* we waited 8 iterations, no luck. Sleep 8 ms */ -+ acx_s_msleep(8); -+ } -+ } while (likely(--counter)); -+ -+ if (!counter) { -+ /* the card doesn't get idle, we're in trouble */ -+ printk("%s: "FUNC"(): cmd_status is not IDLE: 0x%04X!=0\n", -+ devname, cmd_status); -+ goto bad; -+ } else if (counter < 190) { /* if waited >10ms... */ -+ log(L_CTL|L_DEBUG, FUNC"(): waited for IDLE %dms. " -+ "Please report\n", 199 - counter); -+ } -+ -+ /* now write the parameters of the command if needed */ -+ if (buffer && buflen) { -+ /* if it's an INTERROGATE command, just pass the length -+ * of parameters to read, as data */ -+#if CMD_DISCOVERY -+ if (cmd == ACX1xx_CMD_INTERROGATE) -+ memset_io(adev->cmd_area + 4, 0xAA, buflen); -+#endif -+ /* adev->cmd_area points to PCI device's memory, not to RAM! */ -+ memcpy_toio(adev->cmd_area + 4, buffer, -+ (cmd == ACX1xx_CMD_INTERROGATE) ? 4 : buflen); -+ } -+ /* now write the actual command type */ -+ acxpci_write_cmd_type_status(adev, cmd, 0); -+ /* execute command */ -+ write_reg16(adev, IO_ACX_INT_TRIG, INT_TRIG_CMD); -+ write_flush(adev); -+ -+ /* wait for firmware to process command */ -+ -+ /* Ensure nonzero and not too large timeout. -+ ** Also converts e.g. 100->99, 200->199 -+ ** which is nice but not essential */ -+ cmd_timeout = (cmd_timeout-1) | 1; -+ if (unlikely(cmd_timeout > 1199)) -+ cmd_timeout = 1199; -+ /* clear CMD_COMPLETE bit. can be set only by IRQ handler: */ -+ adev->irq_status &= ~HOST_INT_CMD_COMPLETE; -+ -+ /* we schedule away sometimes (timeout can be large) */ -+ counter = cmd_timeout; -+ timeout = jiffies + cmd_timeout * HZ / 1000; -+ do { -+ if (!adev->irqs_active) { /* IRQ disabled: poll */ -+ irqtype = read_reg16(adev, IO_ACX_IRQ_STATUS_NON_DES); -+ if (irqtype & HOST_INT_CMD_COMPLETE) { -+ write_reg16(adev, IO_ACX_IRQ_ACK, -+ HOST_INT_CMD_COMPLETE); -+ break; -+ } -+ } else { /* Wait when IRQ will set the bit */ -+ irqtype = adev->irq_status; -+ if (irqtype & HOST_INT_CMD_COMPLETE) -+ break; -+ } -+ -+ if (counter % 8 == 0) { -+ if (time_after(jiffies, timeout)) { -+ counter = 0; -+ break; -+ } -+ /* we waited 8 iterations, no luck. Sleep 8 ms */ -+ acx_s_msleep(8); -+ } -+ } while (likely(--counter)); -+ -+ /* save state for debugging */ -+ cmd_status = acxpci_read_cmd_type_status(adev); -+ -+ /* put the card in IDLE state */ -+ acxpci_write_cmd_type_status(adev, 0, 0); -+ -+ if (!counter) { /* timed out! */ -+ printk("%s: "FUNC"(): timed out %s for CMD_COMPLETE. " -+ "irq bits:0x%04X irq_status:0x%04X timeout:%dms " -+ "cmd_status:%d (%s)\n", -+ devname, (adev->irqs_active) ? "waiting" : "polling", -+ irqtype, adev->irq_status, cmd_timeout, -+ cmd_status, acx_cmd_status_str(cmd_status)); -+ goto bad; -+ } else if (cmd_timeout - counter > 30) { /* if waited >30ms... */ -+ log(L_CTL|L_DEBUG, FUNC"(): %s for CMD_COMPLETE %dms. " -+ "count:%d. Please report\n", -+ (adev->irqs_active) ? "waited" : "polled", -+ cmd_timeout - counter, counter); -+ } -+ -+ if (1 != cmd_status) { /* it is not a 'Success' */ -+ printk("%s: "FUNC"(): cmd_status is not SUCCESS: %d (%s). " -+ "Took %dms of %d\n", -+ devname, cmd_status, acx_cmd_status_str(cmd_status), -+ cmd_timeout - counter, cmd_timeout); -+ /* zero out result buffer -+ * WARNING: this will trash stack in case of illegally large input -+ * length! */ -+ if (buffer && buflen) -+ memset(buffer, 0, buflen); -+ goto bad; -+ } -+ -+ /* read in result parameters if needed */ -+ if (buffer && buflen && (cmd == ACX1xx_CMD_INTERROGATE)) { -+ /* adev->cmd_area points to PCI device's memory, not to RAM! */ -+ memcpy_fromio(buffer, adev->cmd_area + 4, buflen); -+ if (acx_debug & L_DEBUG) { -+ printk("output buffer (len=%u): ", buflen); -+ acx_dump_bytes(buffer, buflen); -+ } -+ } -+/* ok: */ -+ log(L_CTL, FUNC"(%s): took %ld jiffies to complete\n", -+ cmdstr, jiffies - start); -+ FN_EXIT1(OK); -+ return OK; -+ -+bad: -+ /* Give enough info so that callers can avoid -+ ** printing their own diagnostic messages */ -+#if ACX_DEBUG -+ printk("%s: "FUNC"(cmd:%s) FAILED\n", devname, cmdstr); -+#else -+ printk("%s: "FUNC"(cmd:0x%04X) FAILED\n", devname, cmd); -+#endif -+ dump_stack(); -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*********************************************************************** -+*/ -+#ifdef NONESSENTIAL_FEATURES -+typedef struct device_id { -+ unsigned char id[6]; -+ char *descr; -+ char *type; -+} device_id_t; -+ -+static const device_id_t -+device_ids[] = -+{ -+ { -+ {'G', 'l', 'o', 'b', 'a', 'l'}, -+ NULL, -+ NULL, -+ }, -+ { -+ {0xff, 0xff, 0xff, 0xff, 0xff, 0xff}, -+ "uninitialized", -+ "SpeedStream SS1021 or Gigafast WF721-AEX" -+ }, -+ { -+ {0x80, 0x81, 0x82, 0x83, 0x84, 0x85}, -+ "non-standard", -+ "DrayTek Vigor 520" -+ }, -+ { -+ {'?', '?', '?', '?', '?', '?'}, -+ "non-standard", -+ "Level One WPC-0200" -+ }, -+ { -+ {0x00, 0x00, 0x00, 0x00, 0x00, 0x00}, -+ "empty", -+ "DWL-650+ variant" -+ } -+}; -+ -+static void -+acx_show_card_eeprom_id(acx_device_t *adev) -+{ -+ unsigned char buffer[CARD_EEPROM_ID_SIZE]; -+ int i; -+ -+ memset(&buffer, 0, CARD_EEPROM_ID_SIZE); -+ /* use direct EEPROM access */ -+ for (i = 0; i < CARD_EEPROM_ID_SIZE; i++) { -+ if (OK != acxpci_read_eeprom_byte(adev, -+ ACX100_EEPROM_ID_OFFSET + i, -+ &buffer[i])) { -+ printk("acx: reading EEPROM FAILED\n"); -+ break; -+ } -+ } -+ -+ for (i = 0; i < VEC_SIZE(device_ids); i++) { -+ if (!memcmp(&buffer, device_ids[i].id, CARD_EEPROM_ID_SIZE)) { -+ if (device_ids[i].descr) { -+ printk("acx: EEPROM card ID string check " -+ "found %s card ID: is this %s?\n", -+ device_ids[i].descr, device_ids[i].type); -+ } -+ break; -+ } -+ } -+ if (i == VEC_SIZE(device_ids)) { -+ printk("acx: EEPROM card ID string check found " -+ "unknown card: expected 'Global', got '%.*s\'. " -+ "Please report\n", CARD_EEPROM_ID_SIZE, buffer); -+ } -+} -+#endif /* NONESSENTIAL_FEATURES */ -+ -+ -+/*********************************************************************** -+** acxpci_free_desc_queues -+** -+** Releases the queues that have been allocated, the -+** others have been initialised to NULL so this -+** function can be used if only part of the queues were allocated. -+*/ -+ -+static inline void -+free_coherent(struct pci_dev *hwdev, size_t size, -+ void *vaddr, dma_addr_t dma_handle) -+{ -+ dma_free_coherent(hwdev == NULL ? NULL : &hwdev->dev, -+ size, vaddr, dma_handle); -+} -+ -+void -+acxpci_free_desc_queues(acx_device_t *adev) -+{ -+#define ACX_FREE_QUEUE(size, ptr, phyaddr) \ -+ if (ptr) { \ -+ free_coherent(0, size, ptr, phyaddr); \ -+ ptr = NULL; \ -+ size = 0; \ -+ } -+ -+ FN_ENTER; -+ -+ ACX_FREE_QUEUE(adev->txhostdesc_area_size, adev->txhostdesc_start, adev->txhostdesc_startphy); -+ ACX_FREE_QUEUE(adev->txbuf_area_size, adev->txbuf_start, adev->txbuf_startphy); -+ -+ adev->txdesc_start = NULL; -+ -+ ACX_FREE_QUEUE(adev->rxhostdesc_area_size, adev->rxhostdesc_start, adev->rxhostdesc_startphy); -+ ACX_FREE_QUEUE(adev->rxbuf_area_size, adev->rxbuf_start, adev->rxbuf_startphy); -+ -+ adev->rxdesc_start = NULL; -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxpci_s_delete_dma_regions -+*/ -+static void -+acxpci_s_delete_dma_regions(acx_device_t *adev) -+{ -+ unsigned long flags; -+ -+ FN_ENTER; -+ /* disable radio Tx/Rx. Shouldn't we use the firmware commands -+ * here instead? Or are we that much down the road that it's no -+ * longer possible here? */ -+ write_reg16(adev, IO_ACX_ENABLE, 0); -+ -+ acx_s_msleep(100); -+ -+ acx_lock(adev, flags); -+ acxpci_free_desc_queues(adev); -+ acx_unlock(adev, flags); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxpci_e_probe -+** -+** Probe routine called when a PCI device w/ matching ID is found. -+** Here's the sequence: -+** - Allocate the PCI resources. -+** - Read the PCMCIA attribute memory to make sure we have a WLAN card -+** - Reset the MAC -+** - Initialize the dev and wlan data -+** - Initialize the MAC -+** -+** pdev - ptr to pci device structure containing info about pci configuration -+** id - ptr to the device id entry that matched this device -+*/ -+static const u16 -+IO_ACX100[] = -+{ -+ 0x0000, /* IO_ACX_SOFT_RESET */ -+ -+ 0x0014, /* IO_ACX_SLV_MEM_ADDR */ -+ 0x0018, /* IO_ACX_SLV_MEM_DATA */ -+ 0x001c, /* IO_ACX_SLV_MEM_CTL */ -+ 0x0020, /* IO_ACX_SLV_END_CTL */ -+ -+ 0x0034, /* IO_ACX_FEMR */ -+ -+ 0x007c, /* IO_ACX_INT_TRIG */ -+ 0x0098, /* IO_ACX_IRQ_MASK */ -+ 0x00a4, /* IO_ACX_IRQ_STATUS_NON_DES */ -+ 0x00a8, /* IO_ACX_IRQ_STATUS_CLEAR */ -+ 0x00ac, /* IO_ACX_IRQ_ACK */ -+ 0x00b0, /* IO_ACX_HINT_TRIG */ -+ -+ 0x0104, /* IO_ACX_ENABLE */ -+ -+ 0x0250, /* IO_ACX_EEPROM_CTL */ -+ 0x0254, /* IO_ACX_EEPROM_ADDR */ -+ 0x0258, /* IO_ACX_EEPROM_DATA */ -+ 0x025c, /* IO_ACX_EEPROM_CFG */ -+ -+ 0x0268, /* IO_ACX_PHY_ADDR */ -+ 0x026c, /* IO_ACX_PHY_DATA */ -+ 0x0270, /* IO_ACX_PHY_CTL */ -+ -+ 0x0290, /* IO_ACX_GPIO_OE */ -+ -+ 0x0298, /* IO_ACX_GPIO_OUT */ -+ -+ 0x02a4, /* IO_ACX_CMD_MAILBOX_OFFS */ -+ 0x02a8, /* IO_ACX_INFO_MAILBOX_OFFS */ -+ 0x02ac, /* IO_ACX_EEPROM_INFORMATION */ -+ -+ 0x02d0, /* IO_ACX_EE_START */ -+ 0x02d4, /* IO_ACX_SOR_CFG */ -+ 0x02d8 /* IO_ACX_ECPU_CTRL */ -+}; -+ -+static const u16 -+IO_ACX111[] = -+{ -+ 0x0000, /* IO_ACX_SOFT_RESET */ -+ -+ 0x0014, /* IO_ACX_SLV_MEM_ADDR */ -+ 0x0018, /* IO_ACX_SLV_MEM_DATA */ -+ 0x001c, /* IO_ACX_SLV_MEM_CTL */ -+ 0x0020, /* IO_ACX_SLV_END_CTL */ -+ -+ 0x0034, /* IO_ACX_FEMR */ -+ -+ 0x00b4, /* IO_ACX_INT_TRIG */ -+ 0x00d4, /* IO_ACX_IRQ_MASK */ -+ /* we do mean NON_DES (0xf0), not NON_DES_MASK which is at 0xe0: */ -+ 0x00f0, /* IO_ACX_IRQ_STATUS_NON_DES */ -+ 0x00e4, /* IO_ACX_IRQ_STATUS_CLEAR */ -+ 0x00e8, /* IO_ACX_IRQ_ACK */ -+ 0x00ec, /* IO_ACX_HINT_TRIG */ -+ -+ 0x01d0, /* IO_ACX_ENABLE */ -+ -+ 0x0338, /* IO_ACX_EEPROM_CTL */ -+ 0x033c, /* IO_ACX_EEPROM_ADDR */ -+ 0x0340, /* IO_ACX_EEPROM_DATA */ -+ 0x0344, /* IO_ACX_EEPROM_CFG */ -+ -+ 0x0350, /* IO_ACX_PHY_ADDR */ -+ 0x0354, /* IO_ACX_PHY_DATA */ -+ 0x0358, /* IO_ACX_PHY_CTL */ -+ -+ 0x0374, /* IO_ACX_GPIO_OE */ -+ -+ 0x037c, /* IO_ACX_GPIO_OUT */ -+ -+ 0x0388, /* IO_ACX_CMD_MAILBOX_OFFS */ -+ 0x038c, /* IO_ACX_INFO_MAILBOX_OFFS */ -+ 0x0390, /* IO_ACX_EEPROM_INFORMATION */ -+ -+ 0x0100, /* IO_ACX_EE_START */ -+ 0x0104, /* IO_ACX_SOR_CFG */ -+ 0x0108, /* IO_ACX_ECPU_CTRL */ -+}; -+ -+static void -+dummy_netdev_init(struct net_device *ndev) {} -+ -+static int __devinit -+acxpci_e_probe(struct pci_dev *pdev, const struct pci_device_id *id) -+{ -+ acx111_ie_configoption_t co; -+ unsigned long mem_region1 = 0; -+ unsigned long mem_region2 = 0; -+ unsigned long mem_region1_size; -+ unsigned long mem_region2_size; -+ unsigned long phymem1; -+ unsigned long phymem2; -+ void *mem1 = NULL; -+ void *mem2 = NULL; -+ acx_device_t *adev = NULL; -+ struct net_device *ndev = NULL; -+ const char *chip_name; -+ int result = -EIO; -+ int err; -+ u8 chip_type; -+ -+ FN_ENTER; -+ -+ /* Enable the PCI device */ -+ if (pci_enable_device(pdev)) { -+ printk("acx: pci_enable_device() FAILED\n"); -+ result = -ENODEV; -+ goto fail_pci_enable_device; -+ } -+ -+ /* enable busmastering (required for CardBus) */ -+ pci_set_master(pdev); -+ -+ /* FIXME: prism54 calls pci_set_mwi() here, -+ * should we do/support the same? */ -+ -+ /* chiptype is u8 but id->driver_data is ulong -+ ** Works for now (possible values are 1 and 2) */ -+ chip_type = (u8)id->driver_data; -+ /* acx100 and acx111 have different PCI memory regions */ -+ if (chip_type == CHIPTYPE_ACX100) { -+ chip_name = "ACX100"; -+ mem_region1 = PCI_ACX100_REGION1; -+ mem_region1_size = PCI_ACX100_REGION1_SIZE; -+ -+ mem_region2 = PCI_ACX100_REGION2; -+ mem_region2_size = PCI_ACX100_REGION2_SIZE; -+ } else if (chip_type == CHIPTYPE_ACX111) { -+ chip_name = "ACX111"; -+ mem_region1 = PCI_ACX111_REGION1; -+ mem_region1_size = PCI_ACX111_REGION1_SIZE; -+ -+ mem_region2 = PCI_ACX111_REGION2; -+ mem_region2_size = PCI_ACX111_REGION2_SIZE; -+ } else { -+ printk("acx: unknown chip type 0x%04X\n", chip_type); -+ goto fail_unknown_chiptype; -+ } -+ -+ /* Figure out our resources */ -+ phymem1 = pci_resource_start(pdev, mem_region1); -+ phymem2 = pci_resource_start(pdev, mem_region2); -+ if (!request_mem_region(phymem1, pci_resource_len(pdev, mem_region1), "acx_1")) { -+ printk("acx: cannot reserve PCI memory region 1 (are you sure " -+ "you have CardBus support in kernel?)\n"); -+ goto fail_request_mem_region1; -+ } -+ if (!request_mem_region(phymem2, pci_resource_len(pdev, mem_region2), "acx_2")) { -+ printk("acx: cannot reserve PCI memory region 2\n"); -+ goto fail_request_mem_region2; -+ } -+ -+ /* this used to be ioremap(), but ioremap_nocache() -+ * is much less risky, right? (and slower?) -+ * FIXME: we may want to go back to cached variant if it's -+ * certain that our code really properly handles -+ * cached operation (memory barriers, volatile?, ...) -+ * (but always keep this comment here regardless!) -+ * Possibly make this a driver config setting? */ -+ -+ mem1 = ioremap_nocache(phymem1, mem_region1_size); -+ if (!mem1) { -+ printk("acx: ioremap() FAILED\n"); -+ goto fail_ioremap1; -+ } -+ mem2 = ioremap_nocache(phymem2, mem_region2_size); -+ if (!mem2) { -+ printk("acx: ioremap() #2 FAILED\n"); -+ goto fail_ioremap2; -+ } -+ -+ printk("acx: found %s-based wireless network card at %s, irq:%d, " -+ "phymem1:0x%lX, phymem2:0x%lX, mem1:0x%p, mem1_size:%ld, " -+ "mem2:0x%p, mem2_size:%ld\n", -+ chip_name, pci_name(pdev), pdev->irq, phymem1, phymem2, -+ mem1, mem_region1_size, -+ mem2, mem_region2_size); -+ log(L_ANY, "initial debug setting is 0x%04X\n", acx_debug); -+ -+ if (0 == pdev->irq) { -+ printk("acx: can't use IRQ 0\n"); -+ goto fail_irq; -+ } -+ -+ ndev = alloc_netdev(sizeof(*adev), "wlan%d", dummy_netdev_init); -+ /* (NB: memsets to 0 entire area) */ -+ if (!ndev) { -+ printk("acx: no memory for netdevice struct\n"); -+ goto fail_alloc_netdev; -+ } -+ -+ ether_setup(ndev); -+ ndev->open = &acxpci_e_open; -+ ndev->stop = &acxpci_e_close; -+ ndev->hard_start_xmit = &acx_i_start_xmit; -+ ndev->get_stats = &acx_e_get_stats; -+#if IW_HANDLER_VERSION <= 5 -+ ndev->get_wireless_stats = &acx_e_get_wireless_stats; -+#endif -+ ndev->wireless_handlers = (struct iw_handler_def *)&acx_ioctl_handler_def; -+ ndev->set_multicast_list = &acxpci_i_set_multicast_list; -+ ndev->tx_timeout = &acxpci_i_tx_timeout; -+ ndev->change_mtu = &acx_e_change_mtu; -+ ndev->watchdog_timeo = 4 * HZ; -+ ndev->irq = pdev->irq; -+ ndev->base_addr = pci_resource_start(pdev, 0); -+ -+ adev = ndev2adev(ndev); -+ spin_lock_init(&adev->lock); /* initial state: unlocked */ -+ /* We do not start with downed sem: we want PARANOID_LOCKING to work */ -+ sema_init(&adev->sem, 1); /* initial state: 1 (upped) */ -+ /* since nobody can see new netdev yet, we can as well -+ ** just _presume_ that we're under sem (instead of actually taking it): */ -+ /* acx_sem_lock(adev); */ -+ adev->pdev = pdev; -+ adev->ndev = ndev; -+ adev->dev_type = DEVTYPE_PCI; -+ adev->chip_type = chip_type; -+ adev->chip_name = chip_name; -+ adev->io = (CHIPTYPE_ACX100 == chip_type) ? IO_ACX100 : IO_ACX111; -+ adev->membase = phymem1; -+ adev->iobase = mem1; -+ adev->membase2 = phymem2; -+ adev->iobase2 = mem2; -+ /* to find crashes due to weird driver access -+ * to unconfigured interface (ifup) */ -+ adev->mgmt_timer.function = (void (*)(unsigned long))0x0000dead; -+ -+#ifdef NONESSENTIAL_FEATURES -+ acx_show_card_eeprom_id(adev); -+#endif /* NONESSENTIAL_FEATURES */ -+ -+#ifdef SET_MODULE_OWNER -+ SET_MODULE_OWNER(ndev); -+#endif -+ SET_NETDEV_DEV(ndev, &pdev->dev); -+ -+ log(L_IRQ|L_INIT, "using IRQ %d\n", pdev->irq); -+ -+ /* need to be able to restore PCI state after a suspend */ -+ pci_save_state(pdev); -+ pci_set_drvdata(pdev, ndev); -+ -+ /* ok, pci setup is finished, now start initializing the card */ -+ -+ /* NB: read_reg() reads may return bogus data before reset_dev(), -+ * since the firmware which directly controls large parts of the I/O -+ * registers isn't initialized yet. -+ * acx100 seems to be more affected than acx111 */ -+ if (OK != acxpci_s_reset_dev(adev)) -+ goto fail_reset; -+ -+ if (IS_ACX100(adev)) { -+ /* ACX100: configopt struct in cmd mailbox - directly after reset */ -+ memcpy_fromio(&co, adev->cmd_area, sizeof(co)); -+ } -+ -+ if (OK != acx_s_init_mac(adev)) -+ goto fail_init_mac; -+ -+ if (IS_ACX111(adev)) { -+ /* ACX111: configopt struct needs to be queried after full init */ -+ acx_s_interrogate(adev, &co, ACX111_IE_CONFIG_OPTIONS); -+ } -+ -+/* TODO: merge them into one function, they are called just once and are the same for pci & usb */ -+ if (OK != acxpci_read_eeprom_byte(adev, 0x05, &adev->eeprom_version)) -+ goto fail_read_eeprom_version; -+ -+ acx_s_parse_configoption(adev, &co); -+ acx_s_set_defaults(adev); -+ acx_s_get_firmware_version(adev); /* needs to be after acx_s_init_mac() */ -+ acx_display_hardware_details(adev); -+ -+ /* Register the card, AFTER everything else has been set up, -+ * since otherwise an ioctl could step on our feet due to -+ * firmware operations happening in parallel or uninitialized data */ -+ err = register_netdev(ndev); -+ if (OK != err) { -+ printk("acx: register_netdev() FAILED: %d\n", err); -+ goto fail_register_netdev; -+ } -+ -+ acx_proc_register_entries(ndev); -+ -+ /* Now we have our device, so make sure the kernel doesn't try -+ * to send packets even though we're not associated to a network yet */ -+ acx_stop_queue(ndev, "on probe"); -+ acx_carrier_off(ndev, "on probe"); -+ -+ /* after register_netdev() userspace may start working with dev -+ * (in particular, on other CPUs), we only need to up the sem */ -+ /* acx_sem_unlock(adev); */ -+ -+ printk("acx "ACX_RELEASE": net device %s, driver compiled " -+ "against wireless extensions %d and Linux %s\n", -+ ndev->name, WIRELESS_EXT, UTS_RELEASE); -+ -+#if CMD_DISCOVERY -+ great_inquisitor(adev); -+#endif -+ -+ result = OK; -+ goto done; -+ -+ /* error paths: undo everything in reverse order... */ -+ -+fail_register_netdev: -+ -+ acxpci_s_delete_dma_regions(adev); -+ pci_set_drvdata(pdev, NULL); -+ -+fail_init_mac: -+fail_read_eeprom_version: -+fail_reset: -+ -+ free_netdev(ndev); -+fail_alloc_netdev: -+fail_irq: -+ -+ iounmap(mem2); -+fail_ioremap2: -+ -+ iounmap(mem1); -+fail_ioremap1: -+ -+ release_mem_region(pci_resource_start(pdev, mem_region2), -+ pci_resource_len(pdev, mem_region2)); -+fail_request_mem_region2: -+ -+ release_mem_region(pci_resource_start(pdev, mem_region1), -+ pci_resource_len(pdev, mem_region1)); -+fail_request_mem_region1: -+fail_unknown_chiptype: -+ -+ pci_disable_device(pdev); -+fail_pci_enable_device: -+ -+ pci_set_power_state(pdev, PCI_D3hot); -+ -+done: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acxpci_e_remove -+** -+** Shut device down (if not hot unplugged) -+** and deallocate PCI resources for the acx chip. -+** -+** pdev - ptr to PCI device structure containing info about pci configuration -+*/ -+static void __devexit -+acxpci_e_remove(struct pci_dev *pdev) -+{ -+ struct net_device *ndev; -+ acx_device_t *adev; -+ unsigned long mem_region1, mem_region2; -+ unsigned long flags; -+ -+ FN_ENTER; -+ -+ ndev = (struct net_device*) pci_get_drvdata(pdev); -+ if (!ndev) { -+ log(L_DEBUG, "%s: card is unused. Skipping any release code\n", -+ __func__); -+ goto end; -+ } -+ -+ adev = ndev2adev(ndev); -+ -+ /* If device wasn't hot unplugged... */ -+ if (adev_present(adev)) { -+ -+ acx_sem_lock(adev); -+ -+ /* disable both Tx and Rx to shut radio down properly */ -+ acx_s_issue_cmd(adev, ACX1xx_CMD_DISABLE_TX, NULL, 0); -+ acx_s_issue_cmd(adev, ACX1xx_CMD_DISABLE_RX, NULL, 0); -+ -+#ifdef REDUNDANT -+ /* put the eCPU to sleep to save power -+ * Halting is not possible currently, -+ * since not supported by all firmware versions */ -+ acx_s_issue_cmd(adev, ACX100_CMD_SLEEP, NULL, 0); -+#endif -+ acx_lock(adev, flags); -+ /* disable power LED to save power :-) */ -+ log(L_INIT, "switching off power LED to save power\n"); -+ acxpci_l_power_led(adev, 0); -+ /* stop our eCPU */ -+ if (IS_ACX111(adev)) { -+ /* FIXME: does this actually keep halting the eCPU? -+ * I don't think so... -+ */ -+ acxpci_l_reset_mac(adev); -+ } else { -+ u16 temp; -+ /* halt eCPU */ -+ temp = read_reg16(adev, IO_ACX_ECPU_CTRL) | 0x1; -+ write_reg16(adev, IO_ACX_ECPU_CTRL, temp); -+ write_flush(adev); -+ } -+ acx_unlock(adev, flags); -+ -+ acx_sem_unlock(adev); -+ } -+ -+ /* unregister the device to not let the kernel -+ * (e.g. ioctls) access a half-deconfigured device -+ * NB: this will cause acxpci_e_close() to be called, -+ * thus we shouldn't call it under sem! */ -+ log(L_INIT, "removing device %s\n", ndev->name); -+ unregister_netdev(ndev); -+ -+ /* unregister_netdev ensures that no references to us left. -+ * For paranoid reasons we continue to follow the rules */ -+ acx_sem_lock(adev); -+ -+ if (adev->dev_state_mask & ACX_STATE_IFACE_UP) { -+ acxpci_s_down(ndev); -+ CLEAR_BIT(adev->dev_state_mask, ACX_STATE_IFACE_UP); -+ } -+ -+ acx_proc_unregister_entries(ndev); -+ -+ if (IS_ACX100(adev)) { -+ mem_region1 = PCI_ACX100_REGION1; -+ mem_region2 = PCI_ACX100_REGION2; -+ } else { -+ mem_region1 = PCI_ACX111_REGION1; -+ mem_region2 = PCI_ACX111_REGION2; -+ } -+ -+ /* finally, clean up PCI bus state */ -+ acxpci_s_delete_dma_regions(adev); -+ if (adev->iobase) iounmap(adev->iobase); -+ if (adev->iobase2) iounmap(adev->iobase2); -+ release_mem_region(pci_resource_start(pdev, mem_region1), -+ pci_resource_len(pdev, mem_region1)); -+ release_mem_region(pci_resource_start(pdev, mem_region2), -+ pci_resource_len(pdev, mem_region2)); -+ pci_disable_device(pdev); -+ -+ /* remove dev registration */ -+ pci_set_drvdata(pdev, NULL); -+ -+ acx_sem_unlock(adev); -+ -+ /* Free netdev (quite late, -+ * since otherwise we might get caught off-guard -+ * by a netdev timeout handler execution -+ * expecting to see a working dev...) */ -+ free_netdev(ndev); -+ -+ /* put device into ACPI D3 mode (shutdown) */ -+ pci_set_power_state(pdev, PCI_D3hot); -+ -+end: -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** TODO: PM code needs to be fixed / debugged / tested. -+*/ -+#ifdef CONFIG_PM -+static int -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 11) -+acxpci_e_suspend(struct pci_dev *pdev, pm_message_t state) -+#else -+acxpci_e_suspend(struct pci_dev *pdev, u32 state) -+#endif -+{ -+ struct net_device *ndev = pci_get_drvdata(pdev); -+ acx_device_t *adev; -+ -+ FN_ENTER; -+ printk("acx: suspend handler is experimental!\n"); -+ printk("sus: dev %p\n", ndev); -+ -+ if (!netif_running(ndev)) -+ goto end; -+ -+ adev = ndev2adev(ndev); -+ printk("sus: adev %p\n", adev); -+ -+ acx_sem_lock(adev); -+ -+ netif_device_detach(ndev); /* this one cannot sleep */ -+ acxpci_s_down(ndev); -+ /* down() does not set it to 0xffff, but here we really want that */ -+ write_reg16(adev, IO_ACX_IRQ_MASK, 0xffff); -+ write_reg16(adev, IO_ACX_FEMR, 0x0); -+ acxpci_s_delete_dma_regions(adev); -+ pci_save_state(pdev); -+ pci_set_power_state(pdev, PCI_D3hot); -+ -+ acx_sem_unlock(adev); -+end: -+ FN_EXIT0; -+ return OK; -+} -+ -+ -+static int -+acxpci_e_resume(struct pci_dev *pdev) -+{ -+ struct net_device *ndev = pci_get_drvdata(pdev); -+ acx_device_t *adev; -+ -+ FN_ENTER; -+ -+ printk("acx: resume handler is experimental!\n"); -+ printk("rsm: got dev %p\n", ndev); -+ -+ if (!netif_running(ndev)) -+ goto end; -+ -+ adev = ndev2adev(ndev); -+ printk("rsm: got adev %p\n", adev); -+ -+ acx_sem_lock(adev); -+ -+ pci_set_power_state(pdev, PCI_D0); -+ printk("rsm: power state PCI_D0 set\n"); -+ pci_restore_state(pdev); -+ printk("rsm: PCI state restored\n"); -+ -+ if (OK != acxpci_s_reset_dev(adev)) -+ goto end_unlock; -+ printk("rsm: device reset done\n"); -+ if (OK != acx_s_init_mac(adev)) -+ goto end_unlock; -+ printk("rsm: init MAC done\n"); -+ -+ acxpci_s_up(ndev); -+ printk("rsm: acx up done\n"); -+ -+ /* now even reload all card parameters as they were before suspend, -+ * and possibly be back in the network again already :-) */ -+ if (ACX_STATE_IFACE_UP & adev->dev_state_mask) { -+ adev->set_mask = GETSET_ALL; -+ acx_s_update_card_settings(adev); -+ printk("rsm: settings updated\n"); -+ } -+ netif_device_attach(ndev); -+ printk("rsm: device attached\n"); -+ -+end_unlock: -+ acx_sem_unlock(adev); -+end: -+ /* we need to return OK here anyway, right? */ -+ FN_EXIT0; -+ return OK; -+} -+#endif /* CONFIG_PM */ -+ -+ -+/*********************************************************************** -+** acxpci_s_up -+** -+** This function is called by acxpci_e_open (when ifconfig sets the device as up) -+** -+** Side effects: -+** - Enables on-card interrupt requests -+** - calls acx_s_start -+*/ -+ -+static void -+enable_acx_irq(acx_device_t *adev) -+{ -+ FN_ENTER; -+ write_reg16(adev, IO_ACX_IRQ_MASK, adev->irq_mask); -+ write_reg16(adev, IO_ACX_FEMR, 0x8000); -+ adev->irqs_active = 1; -+ FN_EXIT0; -+} -+ -+static void -+acxpci_s_up(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ -+ FN_ENTER; -+ -+ acx_lock(adev, flags); -+ enable_acx_irq(adev); -+ acx_unlock(adev, flags); -+ -+ /* acx fw < 1.9.3.e has a hardware timer, and older drivers -+ ** used to use it. But we don't do that anymore, our OS -+ ** has reliable software timers */ -+ init_timer(&adev->mgmt_timer); -+ adev->mgmt_timer.function = acx_i_timer; -+ adev->mgmt_timer.data = (unsigned long)adev; -+ -+ /* Need to set ACX_STATE_IFACE_UP first, or else -+ ** timer won't be started by acx_set_status() */ -+ SET_BIT(adev->dev_state_mask, ACX_STATE_IFACE_UP); -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_2_STA: -+ /* actual scan cmd will happen in start() */ -+ acx_set_status(adev, ACX_STATUS_1_SCANNING); break; -+ case ACX_MODE_3_AP: -+ case ACX_MODE_MONITOR: -+ acx_set_status(adev, ACX_STATUS_4_ASSOCIATED); break; -+ } -+ -+ acx_s_start(adev); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxpci_s_down -+** -+** NB: device may be already hot unplugged if called from acxpci_e_remove() -+** -+** Disables on-card interrupt request, stops softirq and timer, stops queue, -+** sets status == STOPPED -+*/ -+ -+static void -+disable_acx_irq(acx_device_t *adev) -+{ -+ FN_ENTER; -+ -+ /* I guess mask is not 0xffff because acx100 won't signal -+ ** cmd completion then (needed for ifup). -+ ** Someone with acx100 please confirm */ -+ write_reg16(adev, IO_ACX_IRQ_MASK, adev->irq_mask_off); -+ write_reg16(adev, IO_ACX_FEMR, 0x0); -+ adev->irqs_active = 0; -+ FN_EXIT0; -+} -+ -+static void -+acxpci_s_down(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ -+ FN_ENTER; -+ -+ /* Disable IRQs first, so that IRQs cannot race with us */ -+ /* then wait until interrupts have finished executing on other CPUs */ -+ acx_lock(adev, flags); -+ disable_acx_irq(adev); -+ synchronize_irq(adev->pdev->irq); -+ acx_unlock(adev, flags); -+ -+ /* we really don't want to have an asynchronous tasklet disturb us -+ ** after something vital for its job has been shut down, so -+ ** end all remaining work now. -+ ** -+ ** NB: carrier_off (done by set_status below) would lead to -+ ** not yet fully understood deadlock in FLUSH_SCHEDULED_WORK(). -+ ** That's why we do FLUSH first. -+ ** -+ ** NB2: we have a bad locking bug here: FLUSH_SCHEDULED_WORK() -+ ** waits for acx_e_after_interrupt_task to complete if it is running -+ ** on another CPU, but acx_e_after_interrupt_task -+ ** will sleep on sem forever, because it is taken by us! -+ ** Work around that by temporary sem unlock. -+ ** This will fail miserably if we'll be hit by concurrent -+ ** iwconfig or something in between. TODO! */ -+ acx_sem_unlock(adev); -+ FLUSH_SCHEDULED_WORK(); -+ acx_sem_lock(adev); -+ -+ /* This is possible: -+ ** FLUSH_SCHEDULED_WORK -> acx_e_after_interrupt_task -> -+ ** -> set_status(ASSOCIATED) -> wake_queue() -+ ** That's why we stop queue _after_ FLUSH_SCHEDULED_WORK -+ ** lock/unlock is just paranoia, maybe not needed */ -+ acx_lock(adev, flags); -+ acx_stop_queue(ndev, "on ifdown"); -+ acx_set_status(adev, ACX_STATUS_0_STOPPED); -+ acx_unlock(adev, flags); -+ -+ /* kernel/timer.c says it's illegal to del_timer_sync() -+ ** a timer which restarts itself. We guarantee this cannot -+ ** ever happen because acx_i_timer() never does this if -+ ** status is ACX_STATUS_0_STOPPED */ -+ del_timer_sync(&adev->mgmt_timer); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxpci_e_open -+** -+** Called as a result of SIOCSIFFLAGS ioctl changing the flags bit IFF_UP -+** from clear to set. In other words: ifconfig up. -+** -+** Returns: -+** 0 success -+** >0 f/w reported error -+** <0 driver reported error -+*/ -+static int -+acxpci_e_open(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ int result = OK; -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ -+ acx_init_task_scheduler(adev); -+ -+/* TODO: pci_set_power_state(pdev, PCI_D0); ? */ -+ -+ /* request shared IRQ handler */ -+ if (request_irq(ndev->irq, acxpci_i_interrupt, SA_SHIRQ, ndev->name, ndev)) { -+ printk("%s: request_irq FAILED\n", ndev->name); -+ result = -EAGAIN; -+ goto done; -+ } -+ log(L_DEBUG|L_IRQ, "request_irq %d successful\n", ndev->irq); -+ -+ /* ifup device */ -+ acxpci_s_up(ndev); -+ -+ /* We don't currently have to do anything else. -+ * The setup of the MAC should be subsequently completed via -+ * the mlme commands. -+ * Higher layers know we're ready from dev->start==1 and -+ * dev->tbusy==0. Our rx path knows to pass up received/ -+ * frames because of dev->flags&IFF_UP is true. -+ */ -+done: -+ acx_sem_unlock(adev); -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acxpci_e_close -+** -+** Called as a result of SIOCSIIFFLAGS ioctl changing the flags bit IFF_UP -+** from set to clear. I.e. called by "ifconfig DEV down" -+** -+** Returns: -+** 0 success -+** >0 f/w reported error -+** <0 driver reported error -+*/ -+static int -+acxpci_e_close(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ -+ /* ifdown device */ -+ CLEAR_BIT(adev->dev_state_mask, ACX_STATE_IFACE_UP); -+ if (netif_device_present(ndev)) { -+ acxpci_s_down(ndev); -+ } -+ -+ /* disable all IRQs, release shared IRQ handler */ -+ write_reg16(adev, IO_ACX_IRQ_MASK, 0xffff); -+ write_reg16(adev, IO_ACX_FEMR, 0x0); -+ free_irq(ndev->irq, ndev); -+ -+/* TODO: pci_set_power_state(pdev, PCI_D3hot); ? */ -+ -+ /* We currently don't have to do anything else. -+ * Higher layers know we're not ready from dev->start==0 and -+ * dev->tbusy==1. Our rx path knows to not pass up received -+ * frames because of dev->flags&IFF_UP is false. -+ */ -+ acx_sem_unlock(adev); -+ -+ log(L_INIT, "closed device\n"); -+ FN_EXIT0; -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acxpci_i_tx_timeout -+** -+** Called from network core. Must not sleep! -+*/ -+static void -+acxpci_i_tx_timeout(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ unsigned int tx_num_cleaned; -+ -+ FN_ENTER; -+ -+ acx_lock(adev, flags); -+ -+ /* clean processed tx descs, they may have been completely full */ -+ tx_num_cleaned = acxpci_l_clean_txdesc(adev); -+ -+ /* nothing cleaned, yet (almost) no free buffers available? -+ * --> clean all tx descs, no matter which status!! -+ * Note that I strongly suspect that doing emergency cleaning -+ * may confuse the firmware. This is a last ditch effort to get -+ * ANYTHING to work again... -+ * -+ * TODO: it's best to simply reset & reinit hw from scratch... -+ */ -+ if ((adev->tx_free <= TX_EMERG_CLEAN) && (tx_num_cleaned == 0)) { -+ printk("%s: FAILED to free any of the many full tx buffers. " -+ "Switching to emergency freeing. " -+ "Please report!\n", ndev->name); -+ acxpci_l_clean_txdesc_emergency(adev); -+ } -+ -+ if (acx_queue_stopped(ndev) && (ACX_STATUS_4_ASSOCIATED == adev->status)) -+ acx_wake_queue(ndev, "after tx timeout"); -+ -+ /* stall may have happened due to radio drift, so recalib radio */ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_CMD_RADIO_RECALIB); -+ -+ /* do unimportant work last */ -+ printk("%s: tx timeout!\n", ndev->name); -+ adev->stats.tx_errors++; -+ -+ acx_unlock(adev, flags); -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxpci_i_set_multicast_list -+** FIXME: most likely needs refinement -+*/ -+static void -+acxpci_i_set_multicast_list(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ -+ FN_ENTER; -+ -+ acx_lock(adev, flags); -+ -+ /* firmwares don't have allmulti capability, -+ * so just use promiscuous mode instead in this case. */ -+ if (ndev->flags & (IFF_PROMISC|IFF_ALLMULTI)) { -+ SET_BIT(adev->rx_config_1, RX_CFG1_RCV_PROMISCUOUS); -+ CLEAR_BIT(adev->rx_config_1, RX_CFG1_FILTER_ALL_MULTI); -+ SET_BIT(adev->set_mask, SET_RXCONFIG); -+ /* let kernel know in case *we* needed to set promiscuous */ -+ ndev->flags |= (IFF_PROMISC|IFF_ALLMULTI); -+ } else { -+ CLEAR_BIT(adev->rx_config_1, RX_CFG1_RCV_PROMISCUOUS); -+ SET_BIT(adev->rx_config_1, RX_CFG1_FILTER_ALL_MULTI); -+ SET_BIT(adev->set_mask, SET_RXCONFIG); -+ ndev->flags &= ~(IFF_PROMISC|IFF_ALLMULTI); -+ } -+ -+ /* cannot update card settings directly here, atomic context */ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_UPDATE_CARD_CFG); -+ -+ acx_unlock(adev, flags); -+ -+ FN_EXIT0; -+} -+ -+ -+/*************************************************************** -+** acxpci_l_process_rxdesc -+** -+** Called directly and only from the IRQ handler -+*/ -+ -+#if !ACX_DEBUG -+static inline void log_rxbuffer(const acx_device_t *adev) {} -+#else -+static void -+log_rxbuffer(const acx_device_t *adev) -+{ -+ register const struct rxhostdesc *rxhostdesc; -+ int i; -+ /* no FN_ENTER here, we don't want that */ -+ -+ rxhostdesc = adev->rxhostdesc_start; -+ if (unlikely(!rxhostdesc)) return; -+ for (i = 0; i < RX_CNT; i++) { -+ if ((rxhostdesc->Ctl_16 & cpu_to_le16(DESC_CTL_HOSTOWN)) -+ && (rxhostdesc->Status & cpu_to_le32(DESC_STATUS_FULL))) -+ printk("rx: buf %d full\n", i); -+ rxhostdesc++; -+ } -+} -+#endif -+ -+static void -+acxpci_l_process_rxdesc(acx_device_t *adev) -+{ -+ register rxhostdesc_t *hostdesc; -+ unsigned count, tail; -+ -+ FN_ENTER; -+ -+ if (unlikely(acx_debug & L_BUFR)) -+ log_rxbuffer(adev); -+ -+ /* First, have a loop to determine the first descriptor that's -+ * full, just in case there's a mismatch between our current -+ * rx_tail and the full descriptor we're supposed to handle. */ -+ tail = adev->rx_tail; -+ count = RX_CNT; -+ while (1) { -+ hostdesc = &adev->rxhostdesc_start[tail]; -+ /* advance tail regardless of outcome of the below test */ -+ tail = (tail + 1) % RX_CNT; -+ -+ if ((hostdesc->Ctl_16 & cpu_to_le16(DESC_CTL_HOSTOWN)) -+ && (hostdesc->Status & cpu_to_le32(DESC_STATUS_FULL))) -+ break; /* found it! */ -+ -+ if (unlikely(!--count)) /* hmm, no luck: all descs empty, bail out */ -+ goto end; -+ } -+ -+ /* now process descriptors, starting with the first we figured out */ -+ while (1) { -+ log(L_BUFR, "rx: tail=%u Ctl_16=%04X Status=%08X\n", -+ tail, hostdesc->Ctl_16, hostdesc->Status); -+ -+ acx_l_process_rxbuf(adev, hostdesc->data); -+ -+ hostdesc->Status = 0; -+ /* flush all writes before adapter sees CTL_HOSTOWN change */ -+ wmb(); -+ /* Host no longer owns this, needs to be LAST */ -+ CLEAR_BIT(hostdesc->Ctl_16, cpu_to_le16(DESC_CTL_HOSTOWN)); -+ -+ /* ok, descriptor is handled, now check the next descriptor */ -+ hostdesc = &adev->rxhostdesc_start[tail]; -+ -+ /* if next descriptor is empty, then bail out */ -+ if (!(hostdesc->Ctl_16 & cpu_to_le16(DESC_CTL_HOSTOWN)) -+ || !(hostdesc->Status & cpu_to_le32(DESC_STATUS_FULL))) -+ break; -+ -+ tail = (tail + 1) % RX_CNT; -+ } -+end: -+ adev->rx_tail = tail; -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxpci_i_interrupt -+** -+** IRQ handler (atomic context, must not sleep, blah, blah) -+*/ -+ -+/* scan is complete. all frames now on the receive queue are valid */ -+#define INFO_SCAN_COMPLETE 0x0001 -+#define INFO_WEP_KEY_NOT_FOUND 0x0002 -+/* hw has been reset as the result of a watchdog timer timeout */ -+#define INFO_WATCH_DOG_RESET 0x0003 -+/* failed to send out NULL frame from PS mode notification to AP */ -+/* recommended action: try entering 802.11 PS mode again */ -+#define INFO_PS_FAIL 0x0004 -+/* encryption/decryption process on a packet failed */ -+#define INFO_IV_ICV_FAILURE 0x0005 -+ -+/* Info mailbox format: -+2 bytes: type -+2 bytes: status -+more bytes may follow -+ rumors say about status: -+ 0x0000 info available (set by hw) -+ 0x0001 information received (must be set by host) -+ 0x1000 info available, mailbox overflowed (messages lost) (set by hw) -+ but in practice we've seen: -+ 0x9000 when we did not set status to 0x0001 on prev message -+ 0x1001 when we did set it -+ 0x0000 was never seen -+ conclusion: this is really a bitfield: -+ 0x1000 is 'info available' bit -+ 'mailbox overflowed' bit is 0x8000, not 0x1000 -+ value of 0x0000 probably means that there are no messages at all -+ P.S. I dunno how in hell hw is supposed to notice that messages are lost - -+ it does NOT clear bit 0x0001, and this bit will probably stay forever set -+ after we set it once. Let's hope this will be fixed in firmware someday -+*/ -+ -+static void -+handle_info_irq(acx_device_t *adev) -+{ -+#if ACX_DEBUG -+ static const char * const info_type_msg[] = { -+ "(unknown)", -+ "scan complete", -+ "WEP key not found", -+ "internal watchdog reset was done", -+ "failed to send powersave (NULL frame) notification to AP", -+ "encrypt/decrypt on a packet has failed", -+ "TKIP tx keys disabled", -+ "TKIP rx keys disabled", -+ "TKIP rx: key ID not found", -+ "???", -+ "???", -+ "???", -+ "???", -+ "???", -+ "???", -+ "???", -+ "TKIP IV value exceeds thresh" -+ }; -+#endif -+ u32 info_type, info_status; -+ -+ info_type = readl(adev->info_area); -+ info_status = (info_type >> 16); -+ info_type = (u16)info_type; -+ -+ /* inform fw that we have read this info message */ -+ writel(info_type | 0x00010000, adev->info_area); -+ write_reg16(adev, IO_ACX_INT_TRIG, INT_TRIG_INFOACK); -+ write_flush(adev); -+ -+ log(L_CTL, "info_type:%04X info_status:%04X\n", -+ info_type, info_status); -+ -+ log(L_IRQ, "got Info IRQ: status %04X type %04X: %s\n", -+ info_status, info_type, -+ info_type_msg[(info_type >= VEC_SIZE(info_type_msg)) ? -+ 0 : info_type] -+ ); -+} -+ -+ -+static void -+log_unusual_irq(u16 irqtype) { -+ /* -+ if (!printk_ratelimit()) -+ return; -+ */ -+ -+ printk("acx: got"); -+ if (irqtype & HOST_INT_RX_DATA) { -+ printk(" Rx_Data"); -+ } -+ /* HOST_INT_TX_COMPLETE */ -+ if (irqtype & HOST_INT_TX_XFER) { -+ printk(" Tx_Xfer"); -+ } -+ /* HOST_INT_RX_COMPLETE */ -+ if (irqtype & HOST_INT_DTIM) { -+ printk(" DTIM"); -+ } -+ if (irqtype & HOST_INT_BEACON) { -+ printk(" Beacon"); -+ } -+ if (irqtype & HOST_INT_TIMER) { -+ log(L_IRQ, " Timer"); -+ } -+ if (irqtype & HOST_INT_KEY_NOT_FOUND) { -+ printk(" Key_Not_Found"); -+ } -+ if (irqtype & HOST_INT_IV_ICV_FAILURE) { -+ printk(" IV_ICV_Failure (crypto)"); -+ } -+ /* HOST_INT_CMD_COMPLETE */ -+ /* HOST_INT_INFO */ -+ if (irqtype & HOST_INT_OVERFLOW) { -+ printk(" Overflow"); -+ } -+ if (irqtype & HOST_INT_PROCESS_ERROR) { -+ printk(" Process_Error"); -+ } -+ /* HOST_INT_SCAN_COMPLETE */ -+ if (irqtype & HOST_INT_FCS_THRESHOLD) { -+ printk(" FCS_Threshold"); -+ } -+ if (irqtype & HOST_INT_UNKNOWN) { -+ printk(" Unknown"); -+ } -+ printk(" IRQ(s)\n"); -+} -+ -+ -+static void -+update_link_quality_led(acx_device_t *adev) -+{ -+ int qual; -+ -+ qual = acx_signal_determine_quality(adev->wstats.qual.level, adev->wstats.qual.noise); -+ if (qual > adev->brange_max_quality) -+ qual = adev->brange_max_quality; -+ -+ if (time_after(jiffies, adev->brange_time_last_state_change + -+ (HZ/2 - HZ/2 * (unsigned long)qual / adev->brange_max_quality ) )) { -+ acxpci_l_power_led(adev, (adev->brange_last_state == 0)); -+ adev->brange_last_state ^= 1; /* toggle */ -+ adev->brange_time_last_state_change = jiffies; -+ } -+} -+ -+ -+#define MAX_IRQLOOPS_PER_JIFFY (20000/HZ) /* a la orinoco.c */ -+ -+static irqreturn_t -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19) -+acxpci_i_interrupt(int irq, void *dev_id) -+#else -+acxpci_i_interrupt(int irq, void *dev_id, struct pt_regs *regs) -+#endif -+{ -+ acx_device_t *adev; -+ unsigned long flags; -+ unsigned int irqcount = MAX_IRQLOOPS_PER_JIFFY; -+ register u16 irqtype; -+ u16 unmasked; -+ -+ adev = ndev2adev((struct net_device*)dev_id); -+ -+ /* LOCKING: can just spin_lock() since IRQs are disabled anyway. -+ * I am paranoid */ -+ acx_lock(adev, flags); -+ -+ unmasked = read_reg16(adev, IO_ACX_IRQ_STATUS_CLEAR); -+ if (unlikely(0xffff == unmasked)) { -+ /* 0xffff value hints at missing hardware, -+ * so don't do anything. -+ * Not very clean, but other drivers do the same... */ -+ log(L_IRQ, "IRQ type:FFFF - device removed? IRQ_NONE\n"); -+ goto none; -+ } -+ -+ /* We will check only "interesting" IRQ types */ -+ irqtype = unmasked & ~adev->irq_mask; -+ if (!irqtype) { -+ /* We are on a shared IRQ line and it wasn't our IRQ */ -+ log(L_IRQ, "IRQ type:%04X, mask:%04X - all are masked, IRQ_NONE\n", -+ unmasked, adev->irq_mask); -+ goto none; -+ } -+ -+ /* Done here because IRQ_NONEs taking three lines of log -+ ** drive me crazy */ -+ FN_ENTER; -+ -+#define IRQ_ITERATE 1 -+#if IRQ_ITERATE -+if (jiffies != adev->irq_last_jiffies) { -+ adev->irq_loops_this_jiffy = 0; -+ adev->irq_last_jiffies = jiffies; -+} -+ -+/* safety condition; we'll normally abort loop below -+ * in case no IRQ type occurred */ -+while (likely(--irqcount)) { -+#endif -+ /* ACK all IRQs ASAP */ -+ write_reg16(adev, IO_ACX_IRQ_ACK, 0xffff); -+ -+ log(L_IRQ, "IRQ type:%04X, mask:%04X, type & ~mask:%04X\n", -+ unmasked, adev->irq_mask, irqtype); -+ -+ /* Handle most important IRQ types first */ -+ if (irqtype & HOST_INT_RX_COMPLETE) { -+ log(L_IRQ, "got Rx_Complete IRQ\n"); -+ acxpci_l_process_rxdesc(adev); -+ } -+ if (irqtype & HOST_INT_TX_COMPLETE) { -+ log(L_IRQ, "got Tx_Complete IRQ\n"); -+ /* don't clean up on each Tx complete, wait a bit -+ * unless we're going towards full, in which case -+ * we do it immediately, too (otherwise we might lockup -+ * with a full Tx buffer if we go into -+ * acxpci_l_clean_txdesc() at a time when we won't wakeup -+ * the net queue in there for some reason...) */ -+ if (adev->tx_free <= TX_START_CLEAN) { -+#if TX_CLEANUP_IN_SOFTIRQ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_TX_CLEANUP); -+#else -+ acxpci_l_clean_txdesc(adev); -+#endif -+ } -+ } -+ -+ /* Less frequent ones */ -+ if (irqtype & (0 -+ | HOST_INT_CMD_COMPLETE -+ | HOST_INT_INFO -+ | HOST_INT_SCAN_COMPLETE -+ )) { -+ if (irqtype & HOST_INT_CMD_COMPLETE) { -+ log(L_IRQ, "got Command_Complete IRQ\n"); -+ /* save the state for the running issue_cmd() */ -+ SET_BIT(adev->irq_status, HOST_INT_CMD_COMPLETE); -+ } -+ if (irqtype & HOST_INT_INFO) { -+ handle_info_irq(adev); -+ } -+ if (irqtype & HOST_INT_SCAN_COMPLETE) { -+ log(L_IRQ, "got Scan_Complete IRQ\n"); -+ /* need to do that in process context */ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_COMPLETE_SCAN); -+ /* remember that fw is not scanning anymore */ -+ SET_BIT(adev->irq_status, HOST_INT_SCAN_COMPLETE); -+ } -+ } -+ -+ /* These we just log, but either they happen rarely -+ * or we keep them masked out */ -+ if (irqtype & (0 -+ | HOST_INT_RX_DATA -+ /* | HOST_INT_TX_COMPLETE */ -+ | HOST_INT_TX_XFER -+ /* | HOST_INT_RX_COMPLETE */ -+ | HOST_INT_DTIM -+ | HOST_INT_BEACON -+ | HOST_INT_TIMER -+ | HOST_INT_KEY_NOT_FOUND -+ | HOST_INT_IV_ICV_FAILURE -+ /* | HOST_INT_CMD_COMPLETE */ -+ /* | HOST_INT_INFO */ -+ | HOST_INT_OVERFLOW -+ | HOST_INT_PROCESS_ERROR -+ /* | HOST_INT_SCAN_COMPLETE */ -+ | HOST_INT_FCS_THRESHOLD -+ | HOST_INT_UNKNOWN -+ )) { -+ log_unusual_irq(irqtype); -+ } -+ -+#if IRQ_ITERATE -+ unmasked = read_reg16(adev, IO_ACX_IRQ_STATUS_CLEAR); -+ irqtype = unmasked & ~adev->irq_mask; -+ /* Bail out if no new IRQ bits or if all are masked out */ -+ if (!irqtype) -+ break; -+ -+ if (unlikely(++adev->irq_loops_this_jiffy > MAX_IRQLOOPS_PER_JIFFY)) { -+ printk(KERN_ERR "acx: too many interrupts per jiffy!\n"); -+ /* Looks like card floods us with IRQs! Try to stop that */ -+ write_reg16(adev, IO_ACX_IRQ_MASK, 0xffff); -+ /* This will short-circuit all future attempts to handle IRQ. -+ * We cant do much more... */ -+ adev->irq_mask = 0; -+ break; -+ } -+} -+#endif -+ /* Routine to perform blink with range */ -+ if (unlikely(adev->led_power == 2)) -+ update_link_quality_led(adev); -+ -+/* handled: */ -+ /* write_flush(adev); - not needed, last op was read anyway */ -+ acx_unlock(adev, flags); -+ FN_EXIT0; -+ return IRQ_HANDLED; -+ -+none: -+ acx_unlock(adev, flags); -+ return IRQ_NONE; -+} -+ -+ -+/*********************************************************************** -+** acxpci_l_power_led -+*/ -+void -+acxpci_l_power_led(acx_device_t *adev, int enable) -+{ -+ u16 gpio_pled = IS_ACX111(adev) ? 0x0040 : 0x0800; -+ -+ /* A hack. Not moving message rate limiting to adev->xxx -+ * (it's only a debug message after all) */ -+ static int rate_limit = 0; -+ -+ if (rate_limit++ < 3) -+ log(L_IOCTL, "Please report in case toggling the power " -+ "LED doesn't work for your card!\n"); -+ if (enable) -+ write_reg16(adev, IO_ACX_GPIO_OUT, -+ read_reg16(adev, IO_ACX_GPIO_OUT) & ~gpio_pled); -+ else -+ write_reg16(adev, IO_ACX_GPIO_OUT, -+ read_reg16(adev, IO_ACX_GPIO_OUT) | gpio_pled); -+} -+ -+ -+/*********************************************************************** -+** Ioctls -+*/ -+ -+/*********************************************************************** -+*/ -+int -+acx111pci_ioctl_info( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ struct iw_param *vwrq, -+ char *extra) -+{ -+#if ACX_DEBUG > 1 -+ acx_device_t *adev = ndev2adev(ndev); -+ rxdesc_t *rxdesc; -+ txdesc_t *txdesc; -+ rxhostdesc_t *rxhostdesc; -+ txhostdesc_t *txhostdesc; -+ struct acx111_ie_memoryconfig memconf; -+ struct acx111_ie_queueconfig queueconf; -+ unsigned long flags; -+ int i; -+ char memmap[0x34]; -+ char rxconfig[0x8]; -+ char fcserror[0x8]; -+ char ratefallback[0x5]; -+ -+ if ( !(acx_debug & (L_IOCTL|L_DEBUG)) ) -+ return OK; -+ /* using printk() since we checked debug flag already */ -+ -+ acx_sem_lock(adev); -+ -+ if (!IS_ACX111(adev)) { -+ printk("acx111-specific function called " -+ "with non-acx111 chip, aborting\n"); -+ goto end_ok; -+ } -+ -+ /* get Acx111 Memory Configuration */ -+ memset(&memconf, 0, sizeof(memconf)); -+ /* BTW, fails with 12 (Write only) error code. -+ ** Retained for easy testing of issue_cmd error handling :) */ -+ acx_s_interrogate(adev, &memconf, ACX1xx_IE_QUEUE_CONFIG); -+ -+ /* get Acx111 Queue Configuration */ -+ memset(&queueconf, 0, sizeof(queueconf)); -+ acx_s_interrogate(adev, &queueconf, ACX1xx_IE_MEMORY_CONFIG_OPTIONS); -+ -+ /* get Acx111 Memory Map */ -+ memset(memmap, 0, sizeof(memmap)); -+ acx_s_interrogate(adev, &memmap, ACX1xx_IE_MEMORY_MAP); -+ -+ /* get Acx111 Rx Config */ -+ memset(rxconfig, 0, sizeof(rxconfig)); -+ acx_s_interrogate(adev, &rxconfig, ACX1xx_IE_RXCONFIG); -+ -+ /* get Acx111 fcs error count */ -+ memset(fcserror, 0, sizeof(fcserror)); -+ acx_s_interrogate(adev, &fcserror, ACX1xx_IE_FCS_ERROR_COUNT); -+ -+ /* get Acx111 rate fallback */ -+ memset(ratefallback, 0, sizeof(ratefallback)); -+ acx_s_interrogate(adev, &ratefallback, ACX1xx_IE_RATE_FALLBACK); -+ -+ /* force occurrence of a beacon interrupt */ -+ /* TODO: comment why is this necessary */ -+ write_reg16(adev, IO_ACX_HINT_TRIG, HOST_INT_BEACON); -+ -+ /* dump Acx111 Mem Configuration */ -+ printk("dump mem config:\n" -+ "data read: %d, struct size: %d\n" -+ "Number of stations: %1X\n" -+ "Memory block size: %1X\n" -+ "tx/rx memory block allocation: %1X\n" -+ "count rx: %X / tx: %X queues\n" -+ "options %1X\n" -+ "fragmentation %1X\n" -+ "Rx Queue 1 Count Descriptors: %X\n" -+ "Rx Queue 1 Host Memory Start: %X\n" -+ "Tx Queue 1 Count Descriptors: %X\n" -+ "Tx Queue 1 Attributes: %X\n", -+ memconf.len, (int) sizeof(memconf), -+ memconf.no_of_stations, -+ memconf.memory_block_size, -+ memconf.tx_rx_memory_block_allocation, -+ memconf.count_rx_queues, memconf.count_tx_queues, -+ memconf.options, -+ memconf.fragmentation, -+ memconf.rx_queue1_count_descs, -+ acx2cpu(memconf.rx_queue1_host_rx_start), -+ memconf.tx_queue1_count_descs, -+ memconf.tx_queue1_attributes); -+ -+ /* dump Acx111 Queue Configuration */ -+ printk("dump queue head:\n" -+ "data read: %d, struct size: %d\n" -+ "tx_memory_block_address (from card): %X\n" -+ "rx_memory_block_address (from card): %X\n" -+ "rx1_queue address (from card): %X\n" -+ "tx1_queue address (from card): %X\n" -+ "tx1_queue attributes (from card): %X\n", -+ queueconf.len, (int) sizeof(queueconf), -+ queueconf.tx_memory_block_address, -+ queueconf.rx_memory_block_address, -+ queueconf.rx1_queue_address, -+ queueconf.tx1_queue_address, -+ queueconf.tx1_attributes); -+ -+ /* dump Acx111 Mem Map */ -+ printk("dump mem map:\n" -+ "data read: %d, struct size: %d\n" -+ "Code start: %X\n" -+ "Code end: %X\n" -+ "WEP default key start: %X\n" -+ "WEP default key end: %X\n" -+ "STA table start: %X\n" -+ "STA table end: %X\n" -+ "Packet template start: %X\n" -+ "Packet template end: %X\n" -+ "Queue memory start: %X\n" -+ "Queue memory end: %X\n" -+ "Packet memory pool start: %X\n" -+ "Packet memory pool end: %X\n" -+ "iobase: %p\n" -+ "iobase2: %p\n", -+ *((u16 *)&memmap[0x02]), (int) sizeof(memmap), -+ *((u32 *)&memmap[0x04]), -+ *((u32 *)&memmap[0x08]), -+ *((u32 *)&memmap[0x0C]), -+ *((u32 *)&memmap[0x10]), -+ *((u32 *)&memmap[0x14]), -+ *((u32 *)&memmap[0x18]), -+ *((u32 *)&memmap[0x1C]), -+ *((u32 *)&memmap[0x20]), -+ *((u32 *)&memmap[0x24]), -+ *((u32 *)&memmap[0x28]), -+ *((u32 *)&memmap[0x2C]), -+ *((u32 *)&memmap[0x30]), -+ adev->iobase, -+ adev->iobase2); -+ -+ /* dump Acx111 Rx Config */ -+ printk("dump rx config:\n" -+ "data read: %d, struct size: %d\n" -+ "rx config: %X\n" -+ "rx filter config: %X\n", -+ *((u16 *)&rxconfig[0x02]), (int) sizeof(rxconfig), -+ *((u16 *)&rxconfig[0x04]), -+ *((u16 *)&rxconfig[0x06])); -+ -+ /* dump Acx111 fcs error */ -+ printk("dump fcserror:\n" -+ "data read: %d, struct size: %d\n" -+ "fcserrors: %X\n", -+ *((u16 *)&fcserror[0x02]), (int) sizeof(fcserror), -+ *((u32 *)&fcserror[0x04])); -+ -+ /* dump Acx111 rate fallback */ -+ printk("dump rate fallback:\n" -+ "data read: %d, struct size: %d\n" -+ "ratefallback: %X\n", -+ *((u16 *)&ratefallback[0x02]), (int) sizeof(ratefallback), -+ *((u8 *)&ratefallback[0x04])); -+ -+ /* protect against IRQ */ -+ acx_lock(adev, flags); -+ -+ /* dump acx111 internal rx descriptor ring buffer */ -+ rxdesc = adev->rxdesc_start; -+ -+ /* loop over complete receive pool */ -+ if (rxdesc) for (i = 0; i < RX_CNT; i++) { -+ printk("\ndump internal rxdesc %d:\n" -+ "mem pos %p\n" -+ "next 0x%X\n" -+ "acx mem pointer (dynamic) 0x%X\n" -+ "CTL (dynamic) 0x%X\n" -+ "Rate (dynamic) 0x%X\n" -+ "RxStatus (dynamic) 0x%X\n" -+ "Mod/Pre (dynamic) 0x%X\n", -+ i, -+ rxdesc, -+ acx2cpu(rxdesc->pNextDesc), -+ acx2cpu(rxdesc->ACXMemPtr), -+ rxdesc->Ctl_8, -+ rxdesc->rate, -+ rxdesc->error, -+ rxdesc->SNR); -+ rxdesc++; -+ } -+ -+ /* dump host rx descriptor ring buffer */ -+ -+ rxhostdesc = adev->rxhostdesc_start; -+ -+ /* loop over complete receive pool */ -+ if (rxhostdesc) for (i = 0; i < RX_CNT; i++) { -+ printk("\ndump host rxdesc %d:\n" -+ "mem pos %p\n" -+ "buffer mem pos 0x%X\n" -+ "buffer mem offset 0x%X\n" -+ "CTL 0x%X\n" -+ "Length 0x%X\n" -+ "next 0x%X\n" -+ "Status 0x%X\n", -+ i, -+ rxhostdesc, -+ acx2cpu(rxhostdesc->data_phy), -+ rxhostdesc->data_offset, -+ le16_to_cpu(rxhostdesc->Ctl_16), -+ le16_to_cpu(rxhostdesc->length), -+ acx2cpu(rxhostdesc->desc_phy_next), -+ rxhostdesc->Status); -+ rxhostdesc++; -+ } -+ -+ /* dump acx111 internal tx descriptor ring buffer */ -+ txdesc = adev->txdesc_start; -+ -+ /* loop over complete transmit pool */ -+ if (txdesc) for (i = 0; i < TX_CNT; i++) { -+ printk("\ndump internal txdesc %d:\n" -+ "size 0x%X\n" -+ "mem pos %p\n" -+ "next 0x%X\n" -+ "acx mem pointer (dynamic) 0x%X\n" -+ "host mem pointer (dynamic) 0x%X\n" -+ "length (dynamic) 0x%X\n" -+ "CTL (dynamic) 0x%X\n" -+ "CTL2 (dynamic) 0x%X\n" -+ "Status (dynamic) 0x%X\n" -+ "Rate (dynamic) 0x%X\n", -+ i, -+ (int) sizeof(struct txdesc), -+ txdesc, -+ acx2cpu(txdesc->pNextDesc), -+ acx2cpu(txdesc->AcxMemPtr), -+ acx2cpu(txdesc->HostMemPtr), -+ le16_to_cpu(txdesc->total_length), -+ txdesc->Ctl_8, -+ txdesc->Ctl2_8, txdesc->error, -+ txdesc->u.r1.rate); -+ txdesc = advance_txdesc(adev, txdesc, 1); -+ } -+ -+ /* dump host tx descriptor ring buffer */ -+ -+ txhostdesc = adev->txhostdesc_start; -+ -+ /* loop over complete host send pool */ -+ if (txhostdesc) for (i = 0; i < TX_CNT * 2; i++) { -+ printk("\ndump host txdesc %d:\n" -+ "mem pos %p\n" -+ "buffer mem pos 0x%X\n" -+ "buffer mem offset 0x%X\n" -+ "CTL 0x%X\n" -+ "Length 0x%X\n" -+ "next 0x%X\n" -+ "Status 0x%X\n", -+ i, -+ txhostdesc, -+ acx2cpu(txhostdesc->data_phy), -+ txhostdesc->data_offset, -+ le16_to_cpu(txhostdesc->Ctl_16), -+ le16_to_cpu(txhostdesc->length), -+ acx2cpu(txhostdesc->desc_phy_next), -+ le32_to_cpu(txhostdesc->Status)); -+ txhostdesc++; -+ } -+ -+ /* write_reg16(adev, 0xb4, 0x4); */ -+ -+ acx_unlock(adev, flags); -+end_ok: -+ -+ acx_sem_unlock(adev); -+#endif /* ACX_DEBUG */ -+ return OK; -+} -+ -+ -+/*********************************************************************** -+*/ -+int -+acx100pci_ioctl_set_phy_amp_bias( -+ struct net_device *ndev, -+ struct iw_request_info *info, -+ struct iw_param *vwrq, -+ char *extra) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ u16 gpio_old; -+ -+ if (!IS_ACX100(adev)) { -+ /* WARNING!!! -+ * Removing this check *might* damage -+ * hardware, since we're tweaking GPIOs here after all!!! -+ * You've been warned... -+ * WARNING!!! */ -+ printk("acx: sorry, setting bias level for non-acx100 " -+ "is not supported yet\n"); -+ return OK; -+ } -+ -+ if (*extra > 7) { -+ printk("acx: invalid bias parameter, range is 0-7\n"); -+ return -EINVAL; -+ } -+ -+ acx_sem_lock(adev); -+ -+ /* Need to lock accesses to [IO_ACX_GPIO_OUT]: -+ * IRQ handler uses it to update LED */ -+ acx_lock(adev, flags); -+ gpio_old = read_reg16(adev, IO_ACX_GPIO_OUT); -+ write_reg16(adev, IO_ACX_GPIO_OUT, (gpio_old & 0xf8ff) | ((u16)*extra << 8)); -+ acx_unlock(adev, flags); -+ -+ log(L_DEBUG, "gpio_old: 0x%04X\n", gpio_old); -+ printk("%s: PHY power amplifier bias: old:%d, new:%d\n", -+ ndev->name, -+ (gpio_old & 0x0700) >> 8, (unsigned char)*extra); -+ -+ acx_sem_unlock(adev); -+ -+ return OK; -+} -+ -+ -+/*************************************************************** -+** acxpci_l_alloc_tx -+** Actually returns a txdesc_t* ptr -+** -+** FIXME: in case of fragments, should allocate multiple descrs -+** after figuring out how many we need and whether we still have -+** sufficiently many. -+*/ -+tx_t* -+acxpci_l_alloc_tx(acx_device_t *adev) -+{ -+ struct txdesc *txdesc; -+ unsigned head; -+ u8 ctl8; -+ -+ FN_ENTER; -+ -+ if (unlikely(!adev->tx_free)) { -+ printk("acx: BUG: no free txdesc left\n"); -+ txdesc = NULL; -+ goto end; -+ } -+ -+ head = adev->tx_head; -+ txdesc = get_txdesc(adev, head); -+ ctl8 = txdesc->Ctl_8; -+ -+ /* 2005-10-11: there were several bug reports on this happening -+ ** but now cause seems to be understood & fixed */ -+ if (unlikely(DESC_CTL_HOSTOWN != (ctl8 & DESC_CTL_ACXDONE_HOSTOWN))) { -+ /* whoops, descr at current index is not free, so probably -+ * ring buffer already full */ -+ printk("acx: BUG: tx_head:%d Ctl8:0x%02X - failed to find " -+ "free txdesc\n", head, ctl8); -+ txdesc = NULL; -+ goto end; -+ } -+ -+ /* Needed in case txdesc won't be eventually submitted for tx */ -+ txdesc->Ctl_8 = DESC_CTL_ACXDONE_HOSTOWN; -+ -+ adev->tx_free--; -+ log(L_BUFT, "tx: got desc %u, %u remain\n", -+ head, adev->tx_free); -+ /* Keep a few free descs between head and tail of tx ring. -+ ** It is not absolutely needed, just feels safer */ -+ if (adev->tx_free < TX_STOP_QUEUE) { -+ log(L_BUF, "stop queue (%u tx desc left)\n", -+ adev->tx_free); -+ acx_stop_queue(adev->ndev, NULL); -+ } -+ -+ /* returning current descriptor, so advance to next free one */ -+ adev->tx_head = (head + 1) % TX_CNT; -+end: -+ FN_EXIT0; -+ -+ return (tx_t*)txdesc; -+} -+ -+ -+/*********************************************************************** -+*/ -+void* -+acxpci_l_get_txbuf(acx_device_t *adev, tx_t* tx_opaque) -+{ -+ return get_txhostdesc(adev, (txdesc_t*)tx_opaque)->data; -+} -+ -+ -+/*********************************************************************** -+** acxpci_l_tx_data -+** -+** Can be called from IRQ (rx -> (AP bridging or mgmt response) -> tx). -+** Can be called from acx_i_start_xmit (data frames from net core). -+** -+** FIXME: in case of fragments, should loop over the number of -+** pre-allocated tx descrs, properly setting up transfer data and -+** CTL_xxx flags according to fragment number. -+*/ -+void -+acxpci_l_tx_data(acx_device_t *adev, tx_t* tx_opaque, int len) -+{ -+ txdesc_t *txdesc = (txdesc_t*)tx_opaque; -+ txhostdesc_t *hostdesc1, *hostdesc2; -+ client_t *clt; -+ u16 rate_cur; -+ u8 Ctl_8, Ctl2_8; -+ -+ FN_ENTER; -+ -+ /* fw doesn't tx such packets anyhow */ -+ if (unlikely(len < WLAN_HDR_A3_LEN)) -+ goto end; -+ -+ hostdesc1 = get_txhostdesc(adev, txdesc); -+ /* modify flag status in separate variable to be able to write it back -+ * in one big swoop later (also in order to have less device memory -+ * accesses) */ -+ Ctl_8 = txdesc->Ctl_8; -+ Ctl2_8 = 0; /* really need to init it to 0, not txdesc->Ctl2_8, it seems */ -+ -+ hostdesc2 = hostdesc1 + 1; -+ -+ /* DON'T simply set Ctl field to 0 here globally, -+ * it needs to maintain a consistent flag status (those are state flags!!), -+ * otherwise it may lead to severe disruption. Only set or reset particular -+ * flags at the exact moment this is needed... */ -+ -+ /* let chip do RTS/CTS handshaking before sending -+ * in case packet size exceeds threshold */ -+ if (len > adev->rts_threshold) -+ SET_BIT(Ctl2_8, DESC_CTL2_RTS); -+ else -+ CLEAR_BIT(Ctl2_8, DESC_CTL2_RTS); -+ -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_3_AP: -+ clt = acx_l_sta_list_get(adev, ((wlan_hdr_t*)hostdesc1->data)->a1); -+ break; -+ case ACX_MODE_2_STA: -+ clt = adev->ap_client; -+ break; -+#if 0 -+/* testing was done on acx111: */ -+ case ACX_MODE_MONITOR: -+ SET_BIT(Ctl2_8, 0 -+/* sends CTS to self before packet */ -+ + DESC_CTL2_SEQ /* don't increase sequence field */ -+/* not working (looks like good fcs is still added) */ -+ + DESC_CTL2_FCS /* don't add the FCS */ -+/* not tested */ -+ + DESC_CTL2_MORE_FRAG -+/* not tested */ -+ + DESC_CTL2_RETRY /* don't increase retry field */ -+/* not tested */ -+ + DESC_CTL2_POWER /* don't increase power mgmt. field */ -+/* no effect */ -+ + DESC_CTL2_WEP /* encrypt this frame */ -+/* not tested */ -+ + DESC_CTL2_DUR /* don't increase duration field */ -+ ); -+ /* fallthrough */ -+#endif -+ default: /* ACX_MODE_OFF, ACX_MODE_MONITOR */ -+ clt = NULL; -+ break; -+ } -+ -+ rate_cur = clt ? clt->rate_cur : adev->rate_bcast; -+ if (unlikely(!rate_cur)) { -+ printk("acx: driver bug! bad ratemask\n"); -+ goto end; -+ } -+ -+ /* used in tx cleanup routine for auto rate and accounting: */ -+ put_txcr(adev, txdesc, clt, rate_cur); -+ -+ txdesc->total_length = cpu_to_le16(len); -+ hostdesc2->length = cpu_to_le16(len - WLAN_HDR_A3_LEN); -+ if (IS_ACX111(adev)) { -+ /* note that if !txdesc->do_auto, txrate->cur -+ ** has only one nonzero bit */ -+ txdesc->u.r2.rate111 = cpu_to_le16( -+ rate_cur -+ /* WARNING: I was never able to make it work with prism54 AP. -+ ** It was falling down to 1Mbit where shortpre is not applicable, -+ ** and not working at all at "5,11 basic rates only" setting. -+ ** I even didn't see tx packets in radio packet capture. -+ ** Disabled for now --vda */ -+ /*| ((clt->shortpre && clt->cur!=RATE111_1) ? RATE111_SHORTPRE : 0) */ -+ ); -+#ifdef TODO_FIGURE_OUT_WHEN_TO_SET_THIS -+ /* should add this to rate111 above as necessary */ -+ | (clt->pbcc511 ? RATE111_PBCC511 : 0) -+#endif -+ hostdesc1->length = cpu_to_le16(len); -+ } else { /* ACX100 */ -+ u8 rate_100 = clt ? clt->rate_100 : adev->rate_bcast100; -+ txdesc->u.r1.rate = rate_100; -+#ifdef TODO_FIGURE_OUT_WHEN_TO_SET_THIS -+ if (clt->pbcc511) { -+ if (n == RATE100_5 || n == RATE100_11) -+ n |= RATE100_PBCC511; -+ } -+ -+ if (clt->shortpre && (clt->cur != RATE111_1)) -+ SET_BIT(Ctl_8, DESC_CTL_SHORT_PREAMBLE); /* set Short Preamble */ -+#endif -+ /* set autodma and reclaim and 1st mpdu */ -+ SET_BIT(Ctl_8, DESC_CTL_AUTODMA | DESC_CTL_RECLAIM | DESC_CTL_FIRSTFRAG); -+#if ACX_FRAGMENTATION -+ /* SET_BIT(Ctl2_8, DESC_CTL2_MORE_FRAG); cannot set it unconditionally, needs to be set for all non-last fragments */ -+#endif -+ hostdesc1->length = cpu_to_le16(WLAN_HDR_A3_LEN); -+ } -+ /* don't need to clean ack/rts statistics here, already -+ * done on descr cleanup */ -+ -+ /* clears HOSTOWN and ACXDONE bits, thus telling that the descriptors -+ * are now owned by the acx100; do this as LAST operation */ -+ CLEAR_BIT(Ctl_8, DESC_CTL_ACXDONE_HOSTOWN); -+ /* flush writes before we release hostdesc to the adapter here */ -+ wmb(); -+ CLEAR_BIT(hostdesc1->Ctl_16, cpu_to_le16(DESC_CTL_HOSTOWN)); -+ CLEAR_BIT(hostdesc2->Ctl_16, cpu_to_le16(DESC_CTL_HOSTOWN)); -+ -+ /* write back modified flags */ -+ txdesc->Ctl2_8 = Ctl2_8; -+ txdesc->Ctl_8 = Ctl_8; -+ /* unused: txdesc->tx_time = cpu_to_le32(jiffies); */ -+ -+ /* flush writes before we tell the adapter that it's its turn now */ -+ mmiowb(); -+ write_reg16(adev, IO_ACX_INT_TRIG, INT_TRIG_TXPRC); -+ write_flush(adev); -+ -+ /* log the packet content AFTER sending it, -+ * in order to not delay sending any further than absolutely needed -+ * Do separate logs for acx100/111 to have human-readable rates */ -+ if (unlikely(acx_debug & (L_XFER|L_DATA))) { -+ u16 fc = ((wlan_hdr_t*)hostdesc1->data)->fc; -+ if (IS_ACX111(adev)) -+ printk("tx: pkt (%s): len %d " -+ "rate %04X%s status %u\n", -+ acx_get_packet_type_string(le16_to_cpu(fc)), len, -+ le16_to_cpu(txdesc->u.r2.rate111), -+ (le16_to_cpu(txdesc->u.r2.rate111) & RATE111_SHORTPRE) ? "(SPr)" : "", -+ adev->status); -+ else -+ printk("tx: pkt (%s): len %d rate %03u%s status %u\n", -+ acx_get_packet_type_string(fc), len, -+ txdesc->u.r1.rate, -+ (Ctl_8 & DESC_CTL_SHORT_PREAMBLE) ? "(SPr)" : "", -+ adev->status); -+ -+ if (acx_debug & L_DATA) { -+ printk("tx: 802.11 [%d]: ", len); -+ acx_dump_bytes(hostdesc1->data, len); -+ } -+ } -+end: -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxpci_l_clean_txdesc -+** -+** This function resets the txdescs' status when the ACX100 -+** signals the TX done IRQ (txdescs have been processed), starting with -+** the pool index of the descriptor which we would use next, -+** in order to make sure that we can be as fast as possible -+** in filling new txdescs. -+** Everytime we get called we know where the next packet to be cleaned is. -+*/ -+ -+#if !ACX_DEBUG -+static inline void log_txbuffer(const acx_device_t *adev) {} -+#else -+static void -+log_txbuffer(acx_device_t *adev) -+{ -+ txdesc_t *txdesc; -+ int i; -+ -+ /* no FN_ENTER here, we don't want that */ -+ /* no locks here, since it's entirely non-critical code */ -+ txdesc = adev->txdesc_start; -+ if (unlikely(!txdesc)) return; -+ printk("tx: desc->Ctl8's:"); -+ for (i = 0; i < TX_CNT; i++) { -+ printk(" %02X", txdesc->Ctl_8); -+ txdesc = advance_txdesc(adev, txdesc, 1); -+ } -+ printk("\n"); -+} -+#endif -+ -+ -+static void -+handle_tx_error(acx_device_t *adev, u8 error, unsigned int finger) -+{ -+ const char *err = "unknown error"; -+ -+ /* hmm, should we handle this as a mask -+ * of *several* bits? -+ * For now I think only caring about -+ * individual bits is ok... */ -+ switch (error) { -+ case 0x01: -+ err = "no Tx due to error in other fragment"; -+ adev->wstats.discard.fragment++; -+ break; -+ case 0x02: -+ err = "Tx aborted"; -+ adev->stats.tx_aborted_errors++; -+ break; -+ case 0x04: -+ err = "Tx desc wrong parameters"; -+ adev->wstats.discard.misc++; -+ break; -+ case 0x08: -+ err = "WEP key not found"; -+ adev->wstats.discard.misc++; -+ break; -+ case 0x10: -+ err = "MSDU lifetime timeout? - try changing " -+ "'iwconfig retry lifetime XXX'"; -+ adev->wstats.discard.misc++; -+ break; -+ case 0x20: -+ err = "excessive Tx retries due to either distance " -+ "too high or unable to Tx or Tx frame error - " -+ "try changing 'iwconfig txpower XXX' or " -+ "'sens'itivity or 'retry'"; -+ adev->wstats.discard.retries++; -+ /* Tx error 0x20 also seems to occur on -+ * overheating, so I'm not sure whether we -+ * actually want to do aggressive radio recalibration, -+ * since people maybe won't notice then that their hardware -+ * is slowly getting cooked... -+ * Or is it still a safe long distance from utter -+ * radio non-functionality despite many radio recalibs -+ * to final destructive overheating of the hardware? -+ * In this case we really should do recalib here... -+ * I guess the only way to find out is to do a -+ * potentially fatal self-experiment :-\ -+ * Or maybe only recalib in case we're using Tx -+ * rate auto (on errors switching to lower speed -+ * --> less heat?) or 802.11 power save mode? -+ * -+ * ok, just do it. */ -+ if (++adev->retry_errors_msg_ratelimit % 4 == 0) { -+ if (adev->retry_errors_msg_ratelimit <= 20) { -+ printk("%s: several excessive Tx " -+ "retry errors occurred, attempting " -+ "to recalibrate radio. Radio " -+ "drift might be caused by increasing " -+ "card temperature, please check the card " -+ "before it's too late!\n", -+ adev->ndev->name); -+ if (adev->retry_errors_msg_ratelimit == 20) -+ printk("disabling above message\n"); -+ } -+ -+ acx_schedule_task(adev, ACX_AFTER_IRQ_CMD_RADIO_RECALIB); -+ } -+ break; -+ case 0x40: -+ err = "Tx buffer overflow"; -+ adev->stats.tx_fifo_errors++; -+ break; -+ case 0x80: -+ /* possibly ACPI C-state powersaving related!!! -+ * (DMA timeout due to excessively high wakeup -+ * latency after C-state activation!?) -+ * Disable C-State powersaving and try again, -+ * then PLEASE REPORT, I'm VERY interested in -+ * whether my theory is correct that this is -+ * actually the problem here. -+ * In that case, use new Linux idle wakeup latency -+ * requirements kernel API to prevent this issue. */ -+ err = "DMA error"; -+ adev->wstats.discard.misc++; -+ break; -+ } -+ adev->stats.tx_errors++; -+ if (adev->stats.tx_errors <= 20) -+ printk("%s: tx error 0x%02X, buf %02u! (%s)\n", -+ adev->ndev->name, error, finger, err); -+ else -+ printk("%s: tx error 0x%02X, buf %02u!\n", -+ adev->ndev->name, error, finger); -+} -+ -+ -+unsigned int -+acxpci_l_clean_txdesc(acx_device_t *adev) -+{ -+ txdesc_t *txdesc; -+ unsigned finger; -+ int num_cleaned; -+ u16 r111; -+ u8 error, ack_failures, rts_failures, rts_ok, r100; -+ -+ FN_ENTER; -+ -+ if (unlikely(acx_debug & L_DEBUG)) -+ log_txbuffer(adev); -+ -+ log(L_BUFT, "tx: cleaning up bufs from %u\n", adev->tx_tail); -+ -+ /* We know first descr which is not free yet. We advance it as far -+ ** as we see correct bits set in following descs (if next desc -+ ** is NOT free, we shouldn't advance at all). We know that in -+ ** front of tx_tail may be "holes" with isolated free descs. -+ ** We will catch up when all intermediate descs will be freed also */ -+ -+ finger = adev->tx_tail; -+ num_cleaned = 0; -+ while (likely(finger != adev->tx_head)) { -+ txdesc = get_txdesc(adev, finger); -+ -+ /* If we allocated txdesc on tx path but then decided -+ ** to NOT use it, then it will be left as a free "bubble" -+ ** in the "allocated for tx" part of the ring. -+ ** We may meet it on the next ring pass here. */ -+ -+ /* stop if not marked as "tx finished" and "host owned" */ -+ if ((txdesc->Ctl_8 & DESC_CTL_ACXDONE_HOSTOWN) -+ != DESC_CTL_ACXDONE_HOSTOWN) { -+ if (unlikely(!num_cleaned)) { /* maybe remove completely */ -+ log(L_BUFT, "clean_txdesc: tail isn't free. " -+ "tail:%d head:%d\n", -+ adev->tx_tail, adev->tx_head); -+ } -+ break; -+ } -+ -+ /* remember desc values... */ -+ error = txdesc->error; -+ ack_failures = txdesc->ack_failures; -+ rts_failures = txdesc->rts_failures; -+ rts_ok = txdesc->rts_ok; -+ r100 = txdesc->u.r1.rate; -+ r111 = le16_to_cpu(txdesc->u.r2.rate111); -+ -+ /* need to check for certain error conditions before we -+ * clean the descriptor: we still need valid descr data here */ -+ if (unlikely(0x30 & error)) { -+ /* only send IWEVTXDROP in case of retry or lifetime exceeded; -+ * all other errors mean we screwed up locally */ -+ union iwreq_data wrqu; -+ wlan_hdr_t *hdr; -+ txhostdesc_t *hostdesc; -+ -+ hostdesc = get_txhostdesc(adev, txdesc); -+ hdr = (wlan_hdr_t *)hostdesc->data; -+ MAC_COPY(wrqu.addr.sa_data, hdr->a1); -+ wireless_send_event(adev->ndev, IWEVTXDROP, &wrqu, NULL); -+ } -+ -+ /* ...and free the desc */ -+ txdesc->error = 0; -+ txdesc->ack_failures = 0; -+ txdesc->rts_failures = 0; -+ txdesc->rts_ok = 0; -+ /* signal host owning it LAST, since ACX already knows that this -+ ** descriptor is finished since it set Ctl_8 accordingly. */ -+ txdesc->Ctl_8 = DESC_CTL_HOSTOWN; -+ -+ adev->tx_free++; -+ num_cleaned++; -+ -+ if ((adev->tx_free >= TX_START_QUEUE) -+ && (adev->status == ACX_STATUS_4_ASSOCIATED) -+ && (acx_queue_stopped(adev->ndev)) -+ ) { -+ log(L_BUF, "tx: wake queue (avail. Tx desc %u)\n", -+ adev->tx_free); -+ acx_wake_queue(adev->ndev, NULL); -+ } -+ -+ /* do error checking, rate handling and logging -+ * AFTER having done the work, it's faster */ -+ -+ /* do rate handling */ -+ if (adev->rate_auto) { -+ struct client *clt = get_txc(adev, txdesc); -+ if (clt) { -+ u16 cur = get_txr(adev, txdesc); -+ if (clt->rate_cur == cur) { -+ acx_l_handle_txrate_auto(adev, clt, -+ cur, /* intended rate */ -+ r100, r111, /* actually used rate */ -+ (error & 0x30), /* was there an error? */ -+ TX_CNT + TX_CLEAN_BACKLOG - adev->tx_free); -+ } -+ } -+ } -+ -+ if (unlikely(error)) -+ handle_tx_error(adev, error, finger); -+ -+ if (IS_ACX111(adev)) -+ log(L_BUFT, "tx: cleaned %u: !ACK=%u !RTS=%u RTS=%u r111=%04X\n", -+ finger, ack_failures, rts_failures, rts_ok, r111); -+ else -+ log(L_BUFT, "tx: cleaned %u: !ACK=%u !RTS=%u RTS=%u rate=%u\n", -+ finger, ack_failures, rts_failures, rts_ok, r100); -+ -+ /* update pointer for descr to be cleaned next */ -+ finger = (finger + 1) % TX_CNT; -+ } -+ -+ /* remember last position */ -+ adev->tx_tail = finger; -+/* end: */ -+ FN_EXIT1(num_cleaned); -+ return num_cleaned; -+} -+ -+/* clean *all* Tx descriptors, and regardless of their previous state. -+ * Used for brute-force reset handling. */ -+void -+acxpci_l_clean_txdesc_emergency(acx_device_t *adev) -+{ -+ txdesc_t *txdesc; -+ int i; -+ -+ FN_ENTER; -+ -+ for (i = 0; i < TX_CNT; i++) { -+ txdesc = get_txdesc(adev, i); -+ -+ /* free it */ -+ txdesc->ack_failures = 0; -+ txdesc->rts_failures = 0; -+ txdesc->rts_ok = 0; -+ txdesc->error = 0; -+ txdesc->Ctl_8 = DESC_CTL_HOSTOWN; -+ } -+ -+ adev->tx_free = TX_CNT; -+ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxpci_s_create_tx_host_desc_queue -+*/ -+ -+static void* -+allocate(acx_device_t *adev, size_t size, dma_addr_t *phy, const char *msg) -+{ -+ void *ptr; -+ -+ ptr = dma_alloc_coherent(adev->pdev ? &adev->pdev->dev : NULL, -+ size, phy, GFP_KERNEL); -+ -+ if (ptr) { -+ log(L_DEBUG, "%s sz=%d adr=0x%p phy=0x%08llx\n", -+ msg, (int)size, ptr, (unsigned long long)*phy); -+ memset(ptr, 0, size); -+ return ptr; -+ } -+ printk(KERN_ERR "acx: %s allocation FAILED (%d bytes)\n", -+ msg, (int)size); -+ return NULL; -+} -+ -+ -+static int -+acxpci_s_create_tx_host_desc_queue(acx_device_t *adev) -+{ -+ txhostdesc_t *hostdesc; -+ u8 *txbuf; -+ dma_addr_t hostdesc_phy; -+ dma_addr_t txbuf_phy; -+ int i; -+ -+ FN_ENTER; -+ -+ /* allocate TX buffer */ -+ adev->txbuf_area_size = TX_CNT * WLAN_A4FR_MAXLEN_WEP_FCS; -+ adev->txbuf_start = allocate(adev, adev->txbuf_area_size, -+ &adev->txbuf_startphy, "txbuf_start"); -+ if (!adev->txbuf_start) -+ goto fail; -+ -+ /* allocate the TX host descriptor queue pool */ -+ adev->txhostdesc_area_size = TX_CNT * 2*sizeof(*hostdesc); -+ adev->txhostdesc_start = allocate(adev, adev->txhostdesc_area_size, -+ &adev->txhostdesc_startphy, "txhostdesc_start"); -+ if (!adev->txhostdesc_start) -+ goto fail; -+ /* check for proper alignment of TX host descriptor pool */ -+ if ((long) adev->txhostdesc_start & 3) { -+ printk("acx: driver bug: dma alloc returns unaligned address\n"); -+ goto fail; -+ } -+ -+ hostdesc = adev->txhostdesc_start; -+ hostdesc_phy = adev->txhostdesc_startphy; -+ txbuf = adev->txbuf_start; -+ txbuf_phy = adev->txbuf_startphy; -+ -+#if 0 -+/* Each tx buffer is accessed by hardware via -+** txdesc -> txhostdesc(s) -> txbuffer(s). -+** We use only one txhostdesc per txdesc, but it looks like -+** acx111 is buggy: it accesses second txhostdesc -+** (via hostdesc.desc_phy_next field) even if -+** txdesc->length == hostdesc->length and thus -+** entire packet was placed into first txhostdesc. -+** Due to this bug acx111 hangs unless second txhostdesc -+** has le16_to_cpu(hostdesc.length) = 3 (or larger) -+** Storing NULL into hostdesc.desc_phy_next -+** doesn't seem to help. -+** -+** Update: although it worked on Xterasys XN-2522g -+** with len=3 trick, WG311v2 is even more bogus, doesn't work. -+** Keeping this code (#ifdef'ed out) for documentational purposes. -+*/ -+ for (i = 0; i < TX_CNT*2; i++) { -+ hostdesc_phy += sizeof(*hostdesc); -+ if (!(i & 1)) { -+ hostdesc->data_phy = cpu2acx(txbuf_phy); -+ /* hostdesc->data_offset = ... */ -+ /* hostdesc->reserved = ... */ -+ hostdesc->Ctl_16 = cpu_to_le16(DESC_CTL_HOSTOWN); -+ /* hostdesc->length = ... */ -+ hostdesc->desc_phy_next = cpu2acx(hostdesc_phy); -+ hostdesc->pNext = ptr2acx(NULL); -+ /* hostdesc->Status = ... */ -+ /* below: non-hardware fields */ -+ hostdesc->data = txbuf; -+ -+ txbuf += WLAN_A4FR_MAXLEN_WEP_FCS; -+ txbuf_phy += WLAN_A4FR_MAXLEN_WEP_FCS; -+ } else { -+ /* hostdesc->data_phy = ... */ -+ /* hostdesc->data_offset = ... */ -+ /* hostdesc->reserved = ... */ -+ /* hostdesc->Ctl_16 = ... */ -+ hostdesc->length = cpu_to_le16(3); /* bug workaround */ -+ /* hostdesc->desc_phy_next = ... */ -+ /* hostdesc->pNext = ... */ -+ /* hostdesc->Status = ... */ -+ /* below: non-hardware fields */ -+ /* hostdesc->data = ... */ -+ } -+ hostdesc++; -+ } -+#endif -+/* We initialize two hostdescs so that they point to adjacent -+** memory areas. Thus txbuf is really just a contiguous memory area */ -+ for (i = 0; i < TX_CNT*2; i++) { -+ hostdesc_phy += sizeof(*hostdesc); -+ -+ hostdesc->data_phy = cpu2acx(txbuf_phy); -+ /* done by memset(0): hostdesc->data_offset = 0; */ -+ /* hostdesc->reserved = ... */ -+ hostdesc->Ctl_16 = cpu_to_le16(DESC_CTL_HOSTOWN); -+ /* hostdesc->length = ... */ -+ hostdesc->desc_phy_next = cpu2acx(hostdesc_phy); -+ /* done by memset(0): hostdesc->pNext = ptr2acx(NULL); */ -+ /* hostdesc->Status = ... */ -+ /* ->data is a non-hardware field: */ -+ hostdesc->data = txbuf; -+ -+ if (!(i & 1)) { -+ txbuf += WLAN_HDR_A3_LEN; -+ txbuf_phy += WLAN_HDR_A3_LEN; -+ } else { -+ txbuf += WLAN_A4FR_MAXLEN_WEP_FCS - WLAN_HDR_A3_LEN; -+ txbuf_phy += WLAN_A4FR_MAXLEN_WEP_FCS - WLAN_HDR_A3_LEN; -+ } -+ hostdesc++; -+ } -+ hostdesc--; -+ hostdesc->desc_phy_next = cpu2acx(adev->txhostdesc_startphy); -+ -+ FN_EXIT1(OK); -+ return OK; -+fail: -+ printk("acx: create_tx_host_desc_queue FAILED\n"); -+ /* dealloc will be done by free function on error case */ -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*************************************************************** -+** acxpci_s_create_rx_host_desc_queue -+*/ -+/* the whole size of a data buffer (header plus data body) -+ * plus 32 bytes safety offset at the end */ -+#define RX_BUFFER_SIZE (sizeof(rxbuffer_t) + 32) -+ -+static int -+acxpci_s_create_rx_host_desc_queue(acx_device_t *adev) -+{ -+ rxhostdesc_t *hostdesc; -+ rxbuffer_t *rxbuf; -+ dma_addr_t hostdesc_phy; -+ dma_addr_t rxbuf_phy; -+ int i; -+ -+ FN_ENTER; -+ -+ /* allocate the RX host descriptor queue pool */ -+ adev->rxhostdesc_area_size = RX_CNT * sizeof(*hostdesc); -+ adev->rxhostdesc_start = allocate(adev, adev->rxhostdesc_area_size, -+ &adev->rxhostdesc_startphy, "rxhostdesc_start"); -+ if (!adev->rxhostdesc_start) -+ goto fail; -+ /* check for proper alignment of RX host descriptor pool */ -+ if ((long) adev->rxhostdesc_start & 3) { -+ printk("acx: driver bug: dma alloc returns unaligned address\n"); -+ goto fail; -+ } -+ -+ /* allocate Rx buffer pool which will be used by the acx -+ * to store the whole content of the received frames in it */ -+ adev->rxbuf_area_size = RX_CNT * RX_BUFFER_SIZE; -+ adev->rxbuf_start = allocate(adev, adev->rxbuf_area_size, -+ &adev->rxbuf_startphy, "rxbuf_start"); -+ if (!adev->rxbuf_start) -+ goto fail; -+ -+ rxbuf = adev->rxbuf_start; -+ rxbuf_phy = adev->rxbuf_startphy; -+ hostdesc = adev->rxhostdesc_start; -+ hostdesc_phy = adev->rxhostdesc_startphy; -+ -+ /* don't make any popular C programming pointer arithmetic mistakes -+ * here, otherwise I'll kill you... -+ * (and don't dare asking me why I'm warning you about that...) */ -+ for (i = 0; i < RX_CNT; i++) { -+ hostdesc->data = rxbuf; -+ hostdesc->data_phy = cpu2acx(rxbuf_phy); -+ hostdesc->length = cpu_to_le16(RX_BUFFER_SIZE); -+ CLEAR_BIT(hostdesc->Ctl_16, cpu_to_le16(DESC_CTL_HOSTOWN)); -+ rxbuf++; -+ rxbuf_phy += sizeof(*rxbuf); -+ hostdesc_phy += sizeof(*hostdesc); -+ hostdesc->desc_phy_next = cpu2acx(hostdesc_phy); -+ hostdesc++; -+ } -+ hostdesc--; -+ hostdesc->desc_phy_next = cpu2acx(adev->rxhostdesc_startphy); -+ FN_EXIT1(OK); -+ return OK; -+fail: -+ printk("acx: create_rx_host_desc_queue FAILED\n"); -+ /* dealloc will be done by free function on error case */ -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*************************************************************** -+** acxpci_s_create_hostdesc_queues -+*/ -+int -+acxpci_s_create_hostdesc_queues(acx_device_t *adev) -+{ -+ int result; -+ result = acxpci_s_create_tx_host_desc_queue(adev); -+ if (OK != result) return result; -+ result = acxpci_s_create_rx_host_desc_queue(adev); -+ return result; -+} -+ -+ -+/*************************************************************** -+** acxpci_create_tx_desc_queue -+*/ -+static void -+acxpci_create_tx_desc_queue(acx_device_t *adev, u32 tx_queue_start) -+{ -+ txdesc_t *txdesc; -+ txhostdesc_t *hostdesc; -+ dma_addr_t hostmemptr; -+ u32 mem_offs; -+ int i; -+ -+ FN_ENTER; -+ -+ if (IS_ACX100(adev)) -+ adev->txdesc_size = sizeof(*txdesc); -+ else -+ /* the acx111 txdesc is 4 bytes larger */ -+ adev->txdesc_size = sizeof(*txdesc) + 4; -+ -+ adev->txdesc_start = (txdesc_t *) (adev->iobase2 + tx_queue_start); -+ -+ log(L_DEBUG, "adev->iobase2=%p\n" -+ "tx_queue_start=%08X\n" -+ "adev->txdesc_start=%p\n", -+ adev->iobase2, -+ tx_queue_start, -+ adev->txdesc_start); -+ -+ adev->tx_free = TX_CNT; -+ /* done by memset: adev->tx_head = 0; */ -+ /* done by memset: adev->tx_tail = 0; */ -+ txdesc = adev->txdesc_start; -+ mem_offs = tx_queue_start; -+ hostmemptr = adev->txhostdesc_startphy; -+ hostdesc = adev->txhostdesc_start; -+ -+ if (IS_ACX111(adev)) { -+ /* ACX111 has a preinitialized Tx buffer! */ -+ /* loop over whole send pool */ -+ /* FIXME: do we have to do the hostmemptr stuff here?? */ -+ for (i = 0; i < TX_CNT; i++) { -+ txdesc->HostMemPtr = ptr2acx(hostmemptr); -+ txdesc->Ctl_8 = DESC_CTL_HOSTOWN; -+ /* reserve two (hdr desc and payload desc) */ -+ hostdesc += 2; -+ hostmemptr += 2 * sizeof(*hostdesc); -+ txdesc = advance_txdesc(adev, txdesc, 1); -+ } -+ } else { -+ /* ACX100 Tx buffer needs to be initialized by us */ -+ /* clear whole send pool. sizeof is safe here (we are acx100) */ -+ memset(adev->txdesc_start, 0, TX_CNT * sizeof(*txdesc)); -+ -+ /* loop over whole send pool */ -+ for (i = 0; i < TX_CNT; i++) { -+ log(L_DEBUG, "configure card tx descriptor: 0x%p, " -+ "size: 0x%X\n", txdesc, adev->txdesc_size); -+ -+ /* pointer to hostdesc memory */ -+ txdesc->HostMemPtr = ptr2acx(hostmemptr); -+ /* initialise ctl */ -+ txdesc->Ctl_8 = ( DESC_CTL_HOSTOWN | DESC_CTL_RECLAIM -+ | DESC_CTL_AUTODMA | DESC_CTL_FIRSTFRAG); -+ /* done by memset(0): txdesc->Ctl2_8 = 0; */ -+ /* point to next txdesc */ -+ txdesc->pNextDesc = cpu2acx(mem_offs + adev->txdesc_size); -+ /* reserve two (hdr desc and payload desc) */ -+ hostdesc += 2; -+ hostmemptr += 2 * sizeof(*hostdesc); -+ /* go to the next one */ -+ mem_offs += adev->txdesc_size; -+ /* ++ is safe here (we are acx100) */ -+ txdesc++; -+ } -+ /* go back to the last one */ -+ txdesc--; -+ /* and point to the first making it a ring buffer */ -+ txdesc->pNextDesc = cpu2acx(tx_queue_start); -+ } -+ FN_EXIT0; -+} -+ -+ -+/*************************************************************** -+** acxpci_create_rx_desc_queue -+*/ -+static void -+acxpci_create_rx_desc_queue(acx_device_t *adev, u32 rx_queue_start) -+{ -+ rxdesc_t *rxdesc; -+ u32 mem_offs; -+ int i; -+ -+ FN_ENTER; -+ -+ /* done by memset: adev->rx_tail = 0; */ -+ -+ /* ACX111 doesn't need any further config: preconfigures itself. -+ * Simply print ring buffer for debugging */ -+ if (IS_ACX111(adev)) { -+ /* rxdesc_start already set here */ -+ -+ adev->rxdesc_start = (rxdesc_t *) ((u8 *)adev->iobase2 + rx_queue_start); -+ -+ rxdesc = adev->rxdesc_start; -+ for (i = 0; i < RX_CNT; i++) { -+ log(L_DEBUG, "rx descriptor %d @ 0x%p\n", i, rxdesc); -+ rxdesc = adev->rxdesc_start = (rxdesc_t *) -+ (adev->iobase2 + acx2cpu(rxdesc->pNextDesc)); -+ } -+ } else { -+ /* we didn't pre-calculate rxdesc_start in case of ACX100 */ -+ /* rxdesc_start should be right AFTER Tx pool */ -+ adev->rxdesc_start = (rxdesc_t *) -+ ((u8 *) adev->txdesc_start + (TX_CNT * sizeof(txdesc_t))); -+ /* NB: sizeof(txdesc_t) above is valid because we know -+ ** we are in if (acx100) block. Beware of cut-n-pasting elsewhere! -+ ** acx111's txdesc is larger! */ -+ -+ memset(adev->rxdesc_start, 0, RX_CNT * sizeof(*rxdesc)); -+ -+ /* loop over whole receive pool */ -+ rxdesc = adev->rxdesc_start; -+ mem_offs = rx_queue_start; -+ for (i = 0; i < RX_CNT; i++) { -+ log(L_DEBUG, "rx descriptor @ 0x%p\n", rxdesc); -+ rxdesc->Ctl_8 = DESC_CTL_RECLAIM | DESC_CTL_AUTODMA; -+ /* point to next rxdesc */ -+ rxdesc->pNextDesc = cpu2acx(mem_offs + sizeof(*rxdesc)); -+ /* go to the next one */ -+ mem_offs += sizeof(*rxdesc); -+ rxdesc++; -+ } -+ /* go to the last one */ -+ rxdesc--; -+ -+ /* and point to the first making it a ring buffer */ -+ rxdesc->pNextDesc = cpu2acx(rx_queue_start); -+ } -+ FN_EXIT0; -+} -+ -+ -+/*************************************************************** -+** acxpci_create_desc_queues -+*/ -+void -+acxpci_create_desc_queues(acx_device_t *adev, u32 tx_queue_start, u32 rx_queue_start) -+{ -+ acxpci_create_tx_desc_queue(adev, tx_queue_start); -+ acxpci_create_rx_desc_queue(adev, rx_queue_start); -+} -+ -+ -+/*************************************************************** -+** acxpci_s_proc_diag_output -+*/ -+char* -+acxpci_s_proc_diag_output(char *p, acx_device_t *adev) -+{ -+ const char *rtl, *thd, *ttl; -+ rxhostdesc_t *rxhostdesc; -+ txdesc_t *txdesc; -+ int i; -+ -+ FN_ENTER; -+ -+ p += sprintf(p, "** Rx buf **\n"); -+ rxhostdesc = adev->rxhostdesc_start; -+ if (rxhostdesc) for (i = 0; i < RX_CNT; i++) { -+ rtl = (i == adev->rx_tail) ? " [tail]" : ""; -+ if ((rxhostdesc->Ctl_16 & cpu_to_le16(DESC_CTL_HOSTOWN)) -+ && (rxhostdesc->Status & cpu_to_le32(DESC_STATUS_FULL)) ) -+ p += sprintf(p, "%02u FULL%s\n", i, rtl); -+ else -+ p += sprintf(p, "%02u empty%s\n", i, rtl); -+ rxhostdesc++; -+ } -+ p += sprintf(p, "** Tx buf (free %d, Linux netqueue %s) **\n", adev->tx_free, -+ acx_queue_stopped(adev->ndev) ? "STOPPED" : "running"); -+ txdesc = adev->txdesc_start; -+ if (txdesc) for (i = 0; i < TX_CNT; i++) { -+ thd = (i == adev->tx_head) ? " [head]" : ""; -+ ttl = (i == adev->tx_tail) ? " [tail]" : ""; -+ if (txdesc->Ctl_8 & DESC_CTL_ACXDONE) -+ p += sprintf(p, "%02u free (%02X)%s%s\n", i, txdesc->Ctl_8, thd, ttl); -+ else -+ p += sprintf(p, "%02u tx (%02X)%s%s\n", i, txdesc->Ctl_8, thd, ttl); -+ txdesc = advance_txdesc(adev, txdesc, 1); -+ } -+ p += sprintf(p, -+ "\n" -+ "** PCI data **\n" -+ "txbuf_start %p, txbuf_area_size %u, txbuf_startphy %08llx\n" -+ "txdesc_size %u, txdesc_start %p\n" -+ "txhostdesc_start %p, txhostdesc_area_size %u, txhostdesc_startphy %08llx\n" -+ "rxdesc_start %p\n" -+ "rxhostdesc_start %p, rxhostdesc_area_size %u, rxhostdesc_startphy %08llx\n" -+ "rxbuf_start %p, rxbuf_area_size %u, rxbuf_startphy %08llx\n", -+ adev->txbuf_start, adev->txbuf_area_size, -+ (unsigned long long)adev->txbuf_startphy, -+ adev->txdesc_size, adev->txdesc_start, -+ adev->txhostdesc_start, adev->txhostdesc_area_size, -+ (unsigned long long)adev->txhostdesc_startphy, -+ adev->rxdesc_start, -+ adev->rxhostdesc_start, adev->rxhostdesc_area_size, -+ (unsigned long long)adev->rxhostdesc_startphy, -+ adev->rxbuf_start, adev->rxbuf_area_size, -+ (unsigned long long)adev->rxbuf_startphy); -+ -+ FN_EXIT0; -+ return p; -+} -+ -+ -+/*********************************************************************** -+*/ -+int -+acxpci_proc_eeprom_output(char *buf, acx_device_t *adev) -+{ -+ char *p = buf; -+ int i; -+ -+ FN_ENTER; -+ -+ for (i = 0; i < 0x400; i++) { -+ acxpci_read_eeprom_byte(adev, i, p++); -+ } -+ -+ FN_EXIT1(p - buf); -+ return p - buf; -+} -+ -+ -+/*********************************************************************** -+*/ -+void -+acxpci_set_interrupt_mask(acx_device_t *adev) -+{ -+ if (IS_ACX111(adev)) { -+ adev->irq_mask = (u16) ~(0 -+ /* | HOST_INT_RX_DATA */ -+ | HOST_INT_TX_COMPLETE -+ /* | HOST_INT_TX_XFER */ -+ | HOST_INT_RX_COMPLETE -+ /* | HOST_INT_DTIM */ -+ /* | HOST_INT_BEACON */ -+ /* | HOST_INT_TIMER */ -+ /* | HOST_INT_KEY_NOT_FOUND */ -+ | HOST_INT_IV_ICV_FAILURE -+ | HOST_INT_CMD_COMPLETE -+ | HOST_INT_INFO -+ /* | HOST_INT_OVERFLOW */ -+ /* | HOST_INT_PROCESS_ERROR */ -+ | HOST_INT_SCAN_COMPLETE -+ | HOST_INT_FCS_THRESHOLD -+ /* | HOST_INT_UNKNOWN */ -+ ); -+ /* Or else acx100 won't signal cmd completion, right? */ -+ adev->irq_mask_off = (u16)~( HOST_INT_CMD_COMPLETE ); /* 0xfdff */ -+ } else { -+ adev->irq_mask = (u16) ~(0 -+ /* | HOST_INT_RX_DATA */ -+ | HOST_INT_TX_COMPLETE -+ /* | HOST_INT_TX_XFER */ -+ | HOST_INT_RX_COMPLETE -+ /* | HOST_INT_DTIM */ -+ /* | HOST_INT_BEACON */ -+ /* | HOST_INT_TIMER */ -+ /* | HOST_INT_KEY_NOT_FOUND */ -+ /* | HOST_INT_IV_ICV_FAILURE */ -+ | HOST_INT_CMD_COMPLETE -+ | HOST_INT_INFO -+ /* | HOST_INT_OVERFLOW */ -+ /* | HOST_INT_PROCESS_ERROR */ -+ | HOST_INT_SCAN_COMPLETE -+ /* | HOST_INT_FCS_THRESHOLD */ -+ /* | HOST_INT_UNKNOWN */ -+ ); -+ adev->irq_mask_off = (u16)~( HOST_INT_UNKNOWN ); /* 0x7fff */ -+ } -+} -+ -+ -+/*********************************************************************** -+*/ -+int -+acx100pci_s_set_tx_level(acx_device_t *adev, u8 level_dbm) -+{ -+ /* since it can be assumed that at least the Maxim radio has a -+ * maximum power output of 20dBm and since it also can be -+ * assumed that these values drive the DAC responsible for -+ * setting the linear Tx level, I'd guess that these values -+ * should be the corresponding linear values for a dBm value, -+ * in other words: calculate the values from that formula: -+ * Y [dBm] = 10 * log (X [mW]) -+ * then scale the 0..63 value range onto the 1..100mW range (0..20 dBm) -+ * and you're done... -+ * Hopefully that's ok, but you never know if we're actually -+ * right... (especially since Windows XP doesn't seem to show -+ * actual Tx dBm values :-P) */ -+ -+ /* NOTE: on Maxim, value 30 IS 30mW, and value 10 IS 10mW - so the -+ * values are EXACTLY mW!!! Not sure about RFMD and others, -+ * though... */ -+ static const u8 dbm2val_maxim[21] = { -+ 63, 63, 63, 62, -+ 61, 61, 60, 60, -+ 59, 58, 57, 55, -+ 53, 50, 47, 43, -+ 38, 31, 23, 13, -+ 0 -+ }; -+ static const u8 dbm2val_rfmd[21] = { -+ 0, 0, 0, 1, -+ 2, 2, 3, 3, -+ 4, 5, 6, 8, -+ 10, 13, 16, 20, -+ 25, 32, 41, 50, -+ 63 -+ }; -+ const u8 *table; -+ -+ switch (adev->radio_type) { -+ case RADIO_MAXIM_0D: -+ table = &dbm2val_maxim[0]; -+ break; -+ case RADIO_RFMD_11: -+ case RADIO_RALINK_15: -+ table = &dbm2val_rfmd[0]; -+ break; -+ default: -+ printk("%s: unknown/unsupported radio type, " -+ "cannot modify tx power level yet!\n", -+ adev->ndev->name); -+ return NOT_OK; -+ } -+ printk("%s: changing radio power level to %u dBm (%u)\n", -+ adev->ndev->name, level_dbm, table[level_dbm]); -+ acxpci_s_write_phy_reg(adev, 0x11, table[level_dbm]); -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** Data for init_module/cleanup_module -+*/ -+static const struct pci_device_id -+acxpci_id_tbl[] __devinitdata = { -+ { -+ .vendor = PCI_VENDOR_ID_TI, -+ .device = PCI_DEVICE_ID_TI_TNETW1100A, -+ .subvendor = PCI_ANY_ID, -+ .subdevice = PCI_ANY_ID, -+ .driver_data = CHIPTYPE_ACX100, -+ }, -+ { -+ .vendor = PCI_VENDOR_ID_TI, -+ .device = PCI_DEVICE_ID_TI_TNETW1100B, -+ .subvendor = PCI_ANY_ID, -+ .subdevice = PCI_ANY_ID, -+ .driver_data = CHIPTYPE_ACX100, -+ }, -+ { -+ .vendor = PCI_VENDOR_ID_TI, -+ .device = PCI_DEVICE_ID_TI_TNETW1130, -+ .subvendor = PCI_ANY_ID, -+ .subdevice = PCI_ANY_ID, -+ .driver_data = CHIPTYPE_ACX111, -+ }, -+ { -+ .vendor = 0, -+ .device = 0, -+ .subvendor = 0, -+ .subdevice = 0, -+ .driver_data = 0, -+ } -+}; -+ -+MODULE_DEVICE_TABLE(pci, acxpci_id_tbl); -+ -+/* FIXME: checks should be removed once driver is included in the kernel */ -+#if LINUX_VERSION_CODE < KERNEL_VERSION(2, 6, 11) -+/* pci_name() got introduced at start of 2.6.x, -+ * got mandatory (slot_name member removed) in 2.6.11-bk1 */ -+#define pci_name(x) x->slot_name -+#endif -+ -+static struct pci_driver -+acxpci_drv_id = { -+ .name = "acx_pci", -+ .id_table = acxpci_id_tbl, -+ .probe = acxpci_e_probe, -+ .remove = __devexit_p(acxpci_e_remove), -+#ifdef CONFIG_PM -+ .suspend = acxpci_e_suspend, -+ .resume = acxpci_e_resume -+#endif /* CONFIG_PM */ -+}; -+ -+ -+/*********************************************************************** -+** acxpci_e_init_module -+** -+** Module initialization routine, called once at module load time -+*/ -+int __init -+acxpci_e_init_module(void) -+{ -+ int res; -+ -+ FN_ENTER; -+ -+#if (ACX_IO_WIDTH==32) -+ printk("acx: compiled to use 32bit I/O access. " -+ "I/O timing issues might occur, such as " -+ "non-working firmware upload. Report them\n"); -+#else -+ printk("acx: compiled to use 16bit I/O access only " -+ "(compatibility mode)\n"); -+#endif -+ -+#ifdef __LITTLE_ENDIAN -+#define ENDIANNESS_STRING "running on a little-endian CPU\n" -+#else -+#define ENDIANNESS_STRING "running on a BIG-ENDIAN CPU\n" -+#endif -+ log(L_INIT, -+ ENDIANNESS_STRING -+ "PCI module " ACX_RELEASE " initialized, " -+ "waiting for cards to probe...\n" -+ ); -+ -+ res = pci_register_driver(&acxpci_drv_id); -+ FN_EXIT1(res); -+ return res; -+} -+ -+ -+/*********************************************************************** -+** acxpci_e_cleanup_module -+** -+** Called at module unload time. This is our last chance to -+** clean up after ourselves. -+*/ -+void __exit -+acxpci_e_cleanup_module(void) -+{ -+ FN_ENTER; -+ -+ pci_unregister_driver(&acxpci_drv_id); -+ -+ FN_EXIT0; -+} -Index: linux-2.6.22/drivers/net/wireless/acx/rx3000_acx.c -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/rx3000_acx.c 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,110 @@ -+/* -+ * WLAN (TI TNETW1100B) support in the HP iPAQ RX3000 -+ * -+ * Copyright (c) 2006 SDG Systems, LLC -+ * Copyright (c) 2006 Roman Moravcik -+ * -+ * This file is subject to the terms and conditions of the GNU General Public -+ * License. See the file COPYING in the main directory of this archive for -+ * more details. -+ * -+ * Based on hx4700_acx.c -+ */ -+ -+ -+#include <linux/kernel.h> -+#include <linux/platform_device.h> -+#include <linux/delay.h> -+#include <linux/dpm.h> -+#include <linux/leds.h> -+ -+#include <asm/hardware.h> -+ -+#include <asm/arch/regs-gpio.h> -+#include <linux/mfd/asic3_base.h> -+#include <asm/arch/rx3000.h> -+#include <asm/arch/rx3000-asic3.h> -+#include <asm/io.h> -+ -+#include "acx_hw.h" -+ -+extern struct platform_device s3c_device_asic3; -+ -+static int rx3000_wlan_start(void) -+{ -+ DPM_DEBUG("rx3000_acx: Turning on\n"); -+ asic3_set_gpio_out_b(&s3c_device_asic3.dev, ASIC3_GPB3, ASIC3_GPB3); -+ mdelay(20); -+ asic3_set_gpio_out_c(&s3c_device_asic3.dev, ASIC3_GPC13, ASIC3_GPC13); -+ mdelay(20); -+ asic3_set_gpio_out_c(&s3c_device_asic3.dev, ASIC3_GPC11, ASIC3_GPC11); -+ mdelay(100); -+ asic3_set_gpio_out_b(&s3c_device_asic3.dev, ASIC3_GPB3, ASIC3_GPB3); -+ mdelay(20); -+ s3c2410_gpio_cfgpin(S3C2410_GPA15, S3C2410_GPA15_nGCS4); -+ mdelay(100); -+ s3c2410_gpio_setpin(S3C2410_GPA11, 0); -+ mdelay(50); -+ s3c2410_gpio_setpin(S3C2410_GPA11, 1); -+ led_trigger_event_shared(rx3000_radio_trig, LED_FULL); -+ return 0; -+} -+ -+static int rx3000_wlan_stop(void) -+{ -+ DPM_DEBUG("rx3000_acx: Turning off\n"); -+ s3c2410_gpio_setpin(S3C2410_GPA15, 1); -+ s3c2410_gpio_cfgpin(S3C2410_GPA15, S3C2410_GPA15_OUT); -+ asic3_set_gpio_out_b(&s3c_device_asic3.dev, ASIC3_GPB3, 0); -+ asic3_set_gpio_out_c(&s3c_device_asic3.dev, ASIC3_GPC13, 0); -+ asic3_set_gpio_out_c(&s3c_device_asic3.dev, ASIC3_GPC11, 0); -+ led_trigger_event_shared(rx3000_radio_trig, LED_OFF); -+ return 0; -+} -+ -+static struct resource acx_resources[] = { -+ [0] = { -+ .start = RX3000_PA_WLAN, -+ .end = RX3000_PA_WLAN + 0x20, -+ .flags = IORESOURCE_MEM, -+ }, -+ [1] = { -+ .start = IRQ_EINT16, -+ .end = IRQ_EINT16, -+ .flags = IORESOURCE_IRQ, -+ }, -+}; -+ -+static struct acx_hardware_data acx_data = { -+ .start_hw = rx3000_wlan_start, -+ .stop_hw = rx3000_wlan_stop, -+}; -+ -+static struct platform_device acx_device = { -+ .name = "acx-mem", -+ .dev = { -+ .platform_data = &acx_data, -+ }, -+ .num_resources = ARRAY_SIZE(acx_resources), -+ .resource = acx_resources, -+}; -+ -+static int __init rx3000_wlan_init(void) -+{ -+ printk("rx3000_wlan_init: acx-mem platform_device_register\n"); -+ return platform_device_register(&acx_device); -+} -+ -+ -+static void __exit rx3000_wlan_exit(void) -+{ -+ platform_device_unregister(&acx_device); -+} -+ -+module_init(rx3000_wlan_init); -+module_exit(rx3000_wlan_exit); -+ -+MODULE_AUTHOR("Todd Blumer <todd@sdgsystems.com>, Roman Moravcik <roman.moravcik@gmail.com>"); -+MODULE_DESCRIPTION("WLAN driver for HP iPAQ RX3000"); -+MODULE_LICENSE("GPL"); -+ -Index: linux-2.6.22/drivers/net/wireless/acx/setrate.c -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/setrate.c 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,213 @@ -+/* TODO: stop #including, move into wireless.c -+ * until then, keep in sync copies in prism54/ and acx/ dirs -+ * code+data size: less than 1k */ -+ -+enum { -+ DOT11_RATE_1, -+ DOT11_RATE_2, -+ DOT11_RATE_5, -+ DOT11_RATE_11, -+ DOT11_RATE_22, -+ DOT11_RATE_33, -+ DOT11_RATE_6, -+ DOT11_RATE_9, -+ DOT11_RATE_12, -+ DOT11_RATE_18, -+ DOT11_RATE_24, -+ DOT11_RATE_36, -+ DOT11_RATE_48, -+ DOT11_RATE_54 -+}; -+enum { -+ DOT11_MOD_DBPSK, -+ DOT11_MOD_DQPSK, -+ DOT11_MOD_CCK, -+ DOT11_MOD_OFDM, -+ DOT11_MOD_CCKOFDM, -+ DOT11_MOD_PBCC -+}; -+static const u8 ratelist[] = { 1,2,5,11,22,33,6,9,12,18,24,36,48,54 }; -+static const u8 dot11ratebyte[] = { 1*2,2*2,11,11*2,22*2,33*2,6*2,9*2,12*2,18*2,24*2,36*2,48*2,54*2 }; -+static const u8 default_modulation[] = { -+ DOT11_MOD_DBPSK, -+ DOT11_MOD_DQPSK, -+ DOT11_MOD_CCK, -+ DOT11_MOD_CCK, -+ DOT11_MOD_PBCC, -+ DOT11_MOD_PBCC, -+ DOT11_MOD_OFDM, -+ DOT11_MOD_OFDM, -+ DOT11_MOD_OFDM, -+ DOT11_MOD_OFDM, -+ DOT11_MOD_OFDM, -+ DOT11_MOD_OFDM, -+ DOT11_MOD_OFDM, -+ DOT11_MOD_OFDM -+}; -+ -+static /* TODO: remove 'static' when moved to wireless.c */ -+int -+rate_mbit2enum(int n) { -+ int i=0; -+ while(i<sizeof(ratelist)) { -+ if(n==ratelist[i]) return i; -+ i++; -+ } -+ return -EINVAL; -+} -+ -+static int -+get_modulation(int r_enum, char suffix) { -+ if(suffix==',' || suffix==' ' || suffix=='\0') { -+ /* could shorten default_mod by 8 bytes: -+ if(r_enum>=DOT11_RATE_6) return DOT11_MOD_OFDM; */ -+ return default_modulation[r_enum]; -+ } -+ if(suffix=='c') { -+ if(r_enum<DOT11_RATE_5 || r_enum>DOT11_RATE_11) return -EINVAL; -+ return DOT11_MOD_CCK; -+ } -+ if(suffix=='p') { -+ if(r_enum<DOT11_RATE_5 || r_enum>DOT11_RATE_33) return -EINVAL; -+ return DOT11_MOD_PBCC; -+ } -+ if(suffix=='o') { -+ if(r_enum<DOT11_RATE_6) return -EINVAL; -+ return DOT11_MOD_OFDM; -+ } -+ if(suffix=='d') { -+ if(r_enum<DOT11_RATE_6) return -EINVAL; -+ return DOT11_MOD_CCKOFDM; -+ } -+ return -EINVAL; -+} -+ -+#ifdef UNUSED -+static int -+fill_ratevector(const char **pstr, u8 *vector, int size, -+ int (*supported)(int mbit, int mod, void *opaque), void *opaque, int or_mask) -+{ -+ unsigned long rate_mbit; -+ int rate_enum,mod; -+ const char *str = *pstr; -+ char c; -+ -+ do { -+ rate_mbit = simple_strtoul(str, (char**)&str, 10); -+ if(rate_mbit>INT_MAX) return -EINVAL; -+ -+ rate_enum = rate_mbit2enum(rate_mbit); -+ if(rate_enum<0) return rate_enum; -+ -+ c = *str; -+ mod = get_modulation(rate_enum, c); -+ if(mod<0) return mod; -+ -+ if(c>='a' && c<='z') c = *++str; -+ if(c!=',' && c!=' ' && c!='\0') return -EINVAL; -+ -+ if(supported) { -+ int r = supported(rate_mbit, mod, opaque); -+ if(r) return r; -+ } -+ -+ *vector++ = dot11ratebyte[rate_enum] | or_mask; -+ -+ size--; -+ str++; -+ } while(size>0 && c==','); -+ -+ if(size<1) return -E2BIG; -+ *vector=0; /* TODO: sort, remove dups? */ -+ -+ *pstr = str-1; -+ return 0; -+} -+ -+static /* TODO: remove 'static' when moved to wireless.c */ -+int -+fill_ratevectors(const char *str, u8 *brate, u8 *orate, int size, -+ int (*supported)(int mbit, int mod, void *opaque), void *opaque) -+{ -+ int r; -+ -+ r = fill_ratevector(&str, brate, size, supported, opaque, 0x80); -+ if(r) return r; -+ -+ orate[0] = 0; -+ if(*str==' ') { -+ str++; -+ r = fill_ratevector(&str, orate, size, supported, opaque, 0); -+ if(r) return r; -+ /* TODO: sanitize, e.g. remove/error on rates already in basic rate set? */ -+ } -+ if(*str) -+ return -EINVAL; -+ -+ return 0; -+} -+#endif -+ -+/* TODO: use u64 masks? */ -+ -+static int -+fill_ratemask(const char **pstr, u32* mask, -+ int (*supported)(int mbit, int mod,void *opaque), -+ u32 (*gen_mask)(int mbit, int mod,void *opaque), -+ void *opaque) -+{ -+ unsigned long rate_mbit; -+ int rate_enum,mod; -+ u32 m = 0; -+ const char *str = *pstr; -+ char c; -+ -+ do { -+ rate_mbit = simple_strtoul(str, (char**)&str, 10); -+ if(rate_mbit>INT_MAX) return -EINVAL; -+ -+ rate_enum = rate_mbit2enum(rate_mbit); -+ if(rate_enum<0) return rate_enum; -+ -+ c = *str; -+ mod = get_modulation(rate_enum, c); -+ if(mod<0) return mod; -+ -+ if(c>='a' && c<='z') c = *++str; -+ if(c!=',' && c!=' ' && c!='\0') return -EINVAL; -+ -+ if(supported) { -+ int r = supported(rate_mbit, mod, opaque); -+ if(r) return r; -+ } -+ -+ m |= gen_mask(rate_mbit, mod, opaque); -+ str++; -+ } while(c==','); -+ -+ *pstr = str-1; -+ *mask |= m; -+ return 0; -+} -+ -+static /* TODO: remove 'static' when moved to wireless.c */ -+int -+fill_ratemasks(const char *str, u32 *bmask, u32 *omask, -+ int (*supported)(int mbit, int mod,void *opaque), -+ u32 (*gen_mask)(int mbit, int mod,void *opaque), -+ void *opaque) -+{ -+ int r; -+ -+ r = fill_ratemask(&str, bmask, supported, gen_mask, opaque); -+ if(r) return r; -+ -+ if(*str==' ') { -+ str++; -+ r = fill_ratemask(&str, omask, supported, gen_mask, opaque); -+ if(r) return r; -+ } -+ if(*str) -+ return -EINVAL; -+ return 0; -+} -Index: linux-2.6.22/drivers/net/wireless/acx/usb.c -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/usb.c 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,1922 @@ -+/*********************************************************************** -+** Copyright (C) 2003 ACX100 Open Source Project -+** -+** The contents of this file are subject to the Mozilla Public -+** License Version 1.1 (the "License"); you may not use this file -+** except in compliance with the License. You may obtain a copy of -+** the License at http://www.mozilla.org/MPL/ -+** -+** Software distributed under the License is distributed on an "AS -+** IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -+** implied. See the License for the specific language governing -+** rights and limitations under the License. -+** -+** Alternatively, the contents of this file may be used under the -+** terms of the GNU Public License version 2 (the "GPL"), in which -+** case the provisions of the GPL are applicable instead of the -+** above. If you wish to allow the use of your version of this file -+** only under the terms of the GPL and not to allow others to use -+** your version of this file under the MPL, indicate your decision -+** by deleting the provisions above and replace them with the notice -+** and other provisions required by the GPL. If you do not delete -+** the provisions above, a recipient may use your version of this -+** file under either the MPL or the GPL. -+** --------------------------------------------------------------------- -+** Inquiries regarding the ACX100 Open Source Project can be -+** made directly to: -+** -+** acx100-users@lists.sf.net -+** http://acx100.sf.net -+** --------------------------------------------------------------------- -+*/ -+ -+/*********************************************************************** -+** USB support for TI ACX100 based devices. Many parts are taken from -+** the PCI driver. -+** -+** Authors: -+** Martin Wawro <martin.wawro AT uni-dortmund.de> -+** Andreas Mohr <andi AT lisas.de> -+** -+** LOCKING -+** callback functions called by USB core are running in interrupt context -+** and thus have names with _i_. -+*/ -+#define ACX_USB 1 -+ -+#include <linux/version.h> -+#if LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 18) -+#include <linux/config.h> -+#endif -+#include <linux/types.h> -+#include <linux/module.h> -+#include <linux/moduleparam.h> -+#include <linux/kernel.h> -+#include <linux/usb.h> -+#include <linux/netdevice.h> -+#include <linux/rtnetlink.h> -+#include <linux/etherdevice.h> -+#include <linux/wireless.h> -+#include <net/iw_handler.h> -+#include <linux/vmalloc.h> -+ -+#include "acx.h" -+ -+ -+/*********************************************************************** -+*/ -+/* number of endpoints of an interface */ -+#define NUM_EP(intf) (intf)->altsetting[0].desc.bNumEndpoints -+#define EP(intf, nr) (intf)->altsetting[0].endpoint[(nr)].desc -+#define GET_DEV(udev) usb_get_dev((udev)) -+#define PUT_DEV(udev) usb_put_dev((udev)) -+#define SET_NETDEV_OWNER(ndev, owner) /* not needed anymore ??? */ -+ -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,14) -+/* removed in 2.6.14. We will use fake value for now */ -+#define URB_ASYNC_UNLINK 0 -+#endif -+ -+ -+/*********************************************************************** -+*/ -+/* ACX100 (TNETW1100) USB device: D-Link DWL-120+ */ -+#define ACX100_VENDOR_ID 0x2001 -+#define ACX100_PRODUCT_ID_UNBOOTED 0x3B01 -+#define ACX100_PRODUCT_ID_BOOTED 0x3B00 -+ -+/* TNETW1450 USB devices */ -+#define VENDOR_ID_DLINK 0x07b8 /* D-Link Corp. */ -+#define PRODUCT_ID_WUG2400 0xb21a /* AboCom WUG2400 or SafeCom SWLUT-54125 */ -+#define VENDOR_ID_AVM_GMBH 0x057c -+#define PRODUCT_ID_AVM_WLAN_USB 0x5601 -+#define PRODUCT_ID_AVM_WLAN_USB_si 0x6201 /* "self install" named Version: driver kills kernel on inbound scans from fritz box ??? */ -+#define VENDOR_ID_ZCOM 0x0cde -+#define PRODUCT_ID_ZCOM_XG750 0x0017 /* not tested yet */ -+#define VENDOR_ID_TI 0x0451 -+#define PRODUCT_ID_TI_UNKNOWN 0x60c5 /* not tested yet */ -+ -+#define ACX_USB_CTRL_TIMEOUT 5500 /* steps in ms */ -+ -+/* Buffer size for fw upload, same for both ACX100 USB and TNETW1450 */ -+#define USB_RWMEM_MAXLEN 2048 -+ -+/* The number of bulk URBs to use */ -+#define ACX_TX_URB_CNT 8 -+#define ACX_RX_URB_CNT 2 -+ -+/* Should be sent to the bulkout endpoint */ -+#define ACX_USB_REQ_UPLOAD_FW 0x10 -+#define ACX_USB_REQ_ACK_CS 0x11 -+#define ACX_USB_REQ_CMD 0x12 -+ -+/*********************************************************************** -+** Prototypes -+*/ -+static int acxusb_e_probe(struct usb_interface *, const struct usb_device_id *); -+static void acxusb_e_disconnect(struct usb_interface *); -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19) -+static void acxusb_i_complete_tx(struct urb *); -+static void acxusb_i_complete_rx(struct urb *); -+#else -+static void acxusb_i_complete_tx(struct urb *, struct pt_regs *); -+static void acxusb_i_complete_rx(struct urb *, struct pt_regs *); -+#endif -+static int acxusb_e_open(struct net_device *); -+static int acxusb_e_close(struct net_device *); -+static void acxusb_i_set_rx_mode(struct net_device *); -+static int acxusb_boot(struct usb_device *, int is_tnetw1450, int *radio_type); -+ -+static void acxusb_l_poll_rx(acx_device_t *adev, usb_rx_t* rx); -+ -+static void acxusb_i_tx_timeout(struct net_device *); -+ -+/* static void dump_device(struct usb_device *); */ -+/* static void dump_device_descriptor(struct usb_device_descriptor *); */ -+/* static void dump_config_descriptor(struct usb_config_descriptor *); */ -+ -+/*********************************************************************** -+** Module Data -+*/ -+#define TXBUFSIZE sizeof(usb_txbuffer_t) -+/* -+ * Now, this is just plain lying, but the device insists in giving us -+ * huge packets. We supply extra space after rxbuffer. Need to understand -+ * it better... -+ */ -+#define RXBUFSIZE (sizeof(rxbuffer_t) + \ -+ (sizeof(usb_rx_t) - sizeof(struct usb_rx_plain))) -+ -+static const struct usb_device_id -+acxusb_ids[] = { -+ { USB_DEVICE(ACX100_VENDOR_ID, ACX100_PRODUCT_ID_BOOTED) }, -+ { USB_DEVICE(ACX100_VENDOR_ID, ACX100_PRODUCT_ID_UNBOOTED) }, -+ { USB_DEVICE(VENDOR_ID_DLINK, PRODUCT_ID_WUG2400) }, -+ { USB_DEVICE(VENDOR_ID_AVM_GMBH, PRODUCT_ID_AVM_WLAN_USB) }, -+ { USB_DEVICE(VENDOR_ID_AVM_GMBH, PRODUCT_ID_AVM_WLAN_USB_si) }, -+ { USB_DEVICE(VENDOR_ID_ZCOM, PRODUCT_ID_ZCOM_XG750) }, -+ { USB_DEVICE(VENDOR_ID_TI, PRODUCT_ID_TI_UNKNOWN) }, -+ {} -+}; -+ -+MODULE_DEVICE_TABLE(usb, acxusb_ids); -+ -+/* USB driver data structure as required by the kernel's USB core */ -+static struct usb_driver -+acxusb_driver = { -+ .name = "acx_usb", -+ .probe = acxusb_e_probe, -+ .disconnect = acxusb_e_disconnect, -+ .id_table = acxusb_ids -+}; -+ -+ -+/*********************************************************************** -+** USB helper -+** -+** ldd3 ch13 says: -+** When the function is usb_kill_urb, the urb lifecycle is stopped. This -+** function is usually used when the device is disconnected from the system, -+** in the disconnect callback. For some drivers, the usb_unlink_urb function -+** should be used to tell the USB core to stop an urb. This function does not -+** wait for the urb to be fully stopped before returning to the caller. -+** This is useful for stoppingthe urb while in an interrupt handler or when -+** a spinlock is held, as waiting for a urb to fully stop requires the ability -+** for the USB core to put the calling process to sleep. This function requires -+** that the URB_ASYNC_UNLINK flag value be set in the urb that is being asked -+** to be stopped in order to work properly. -+** -+** (URB_ASYNC_UNLINK is obsolete, usb_unlink_urb will always be -+** asynchronous while usb_kill_urb is synchronous and should be called -+** directly (drivers/usb/core/urb.c)) -+** -+** In light of this, timeout is just for paranoid reasons... -+* -+* Actually, it's useful for debugging. If we reach timeout, we're doing -+* something wrong with the urbs. -+*/ -+static void -+acxusb_unlink_urb(struct urb* urb) -+{ -+ if (!urb) -+ return; -+ -+ if (urb->status == -EINPROGRESS) { -+ int timeout = 10; -+ -+ usb_unlink_urb(urb); -+ while (--timeout && urb->status == -EINPROGRESS) { -+ mdelay(1); -+ } -+ if (!timeout) { -+ printk("acx_usb: urb unlink timeout!\n"); -+ } -+ } -+} -+ -+ -+/*********************************************************************** -+** EEPROM and PHY read/write helpers -+*/ -+/*********************************************************************** -+** acxusb_s_read_phy_reg -+*/ -+int -+acxusb_s_read_phy_reg(acx_device_t *adev, u32 reg, u8 *charbuf) -+{ -+ /* mem_read_write_t mem; */ -+ -+ FN_ENTER; -+ -+ printk("%s doesn't seem to work yet, disabled.\n", __func__); -+ -+ /* -+ mem.addr = cpu_to_le16(reg); -+ mem.type = cpu_to_le16(0x82); -+ mem.len = cpu_to_le32(4); -+ acx_s_issue_cmd(adev, ACX1xx_CMD_MEM_READ, &mem, sizeof(mem)); -+ *charbuf = mem.data; -+ log(L_DEBUG, "read radio PHY[0x%04X]=0x%02X\n", reg, *charbuf); -+ */ -+ -+ FN_EXIT1(OK); -+ return OK; -+} -+ -+ -+/*********************************************************************** -+*/ -+int -+acxusb_s_write_phy_reg(acx_device_t *adev, u32 reg, u8 value) -+{ -+ mem_read_write_t mem; -+ -+ FN_ENTER; -+ -+ mem.addr = cpu_to_le16(reg); -+ mem.type = cpu_to_le16(0x82); -+ mem.len = cpu_to_le32(4); -+ mem.data = value; -+ acx_s_issue_cmd(adev, ACX1xx_CMD_MEM_WRITE, &mem, sizeof(mem)); -+ log(L_DEBUG, "write radio PHY[0x%04X]=0x%02X\n", reg, value); -+ -+ FN_EXIT1(OK); -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acxusb_s_issue_cmd_timeo -+** Excecutes a command in the command mailbox -+** -+** buffer = a pointer to the data. -+** The data must not include 4 byte command header -+*/ -+ -+/* TODO: ideally we shall always know how much we need -+** and this shall be 0 */ -+#define BOGUS_SAFETY_PADDING 0x40 -+ -+#undef FUNC -+#define FUNC "issue_cmd" -+ -+#if !ACX_DEBUG -+int -+acxusb_s_issue_cmd_timeo( -+ acx_device_t *adev, -+ unsigned cmd, -+ void *buffer, -+ unsigned buflen, -+ unsigned timeout) -+{ -+#else -+int -+acxusb_s_issue_cmd_timeo_debug( -+ acx_device_t *adev, -+ unsigned cmd, -+ void *buffer, -+ unsigned buflen, -+ unsigned timeout, -+ const char* cmdstr) -+{ -+#endif -+ /* USB ignores timeout param */ -+ -+ struct usb_device *usbdev; -+ struct { -+ u16 cmd; -+ u16 status; -+ u8 data[1]; -+ } ACX_PACKED *loc; -+ const char *devname; -+ int acklen, blocklen, inpipe, outpipe; -+ int cmd_status; -+ int result; -+ -+ FN_ENTER; -+ -+ devname = adev->ndev->name; -+ /* no "wlan%%d: ..." please */ -+ if (!devname || !devname[0] || devname[4]=='%') -+ devname = "acx"; -+ -+ log(L_CTL, FUNC"(cmd:%s,buflen:%u,type:0x%04X)\n", -+ cmdstr, buflen, -+ buffer ? le16_to_cpu(((acx_ie_generic_t *)buffer)->type) : -1); -+ -+ loc = kmalloc(buflen + 4 + BOGUS_SAFETY_PADDING, GFP_KERNEL); -+ if (!loc) { -+ printk("%s: "FUNC"(): no memory for data buffer\n", devname); -+ goto bad; -+ } -+ -+ /* get context from acx_device */ -+ usbdev = adev->usbdev; -+ -+ /* check which kind of command was issued */ -+ loc->cmd = cpu_to_le16(cmd); -+ loc->status = 0; -+ -+/* NB: buflen == frmlen + 4 -+** -+** Interrogate: write 8 bytes: (cmd,status,rid,frmlen), then -+** read (cmd,status,rid,frmlen,data[frmlen]) back -+** -+** Configure: write (cmd,status,rid,frmlen,data[frmlen]) -+** -+** Possibly bogus special handling of ACX1xx_IE_SCAN_STATUS removed -+*/ -+ -+ /* now write the parameters of the command if needed */ -+ acklen = buflen + 4 + BOGUS_SAFETY_PADDING; -+ blocklen = buflen; -+ if (buffer && buflen) { -+ /* if it's an INTERROGATE command, just pass the length -+ * of parameters to read, as data */ -+ if (cmd == ACX1xx_CMD_INTERROGATE) { -+ blocklen = 4; -+ acklen = buflen + 4; -+ } -+ memcpy(loc->data, buffer, blocklen); -+ } -+ blocklen += 4; /* account for cmd,status */ -+ -+ /* obtain the I/O pipes */ -+ outpipe = usb_sndctrlpipe(usbdev, 0); -+ inpipe = usb_rcvctrlpipe(usbdev, 0); -+ log(L_CTL, "ctrl inpipe=0x%X outpipe=0x%X\n", inpipe, outpipe); -+ log(L_CTL, "sending USB control msg (out) (blocklen=%d)\n", blocklen); -+ if (acx_debug & L_DATA) -+ acx_dump_bytes(loc, blocklen); -+ -+ result = usb_control_msg(usbdev, outpipe, -+ ACX_USB_REQ_CMD, /* request */ -+ USB_TYPE_VENDOR|USB_DIR_OUT, /* requesttype */ -+ 0, /* value */ -+ 0, /* index */ -+ loc, /* dataptr */ -+ blocklen, /* size */ -+ ACX_USB_CTRL_TIMEOUT /* timeout in ms */ -+ ); -+ -+ if (result == -ENODEV) { -+ log(L_CTL, "no device present (unplug?)\n"); -+ goto good; -+ } -+ -+ log(L_CTL, "wrote %d bytes\n", result); -+ if (result < 0) { -+ goto bad; -+ } -+ -+ /* check for device acknowledge */ -+ log(L_CTL, "sending USB control msg (in) (acklen=%d)\n", acklen); -+ loc->status = 0; /* delete old status flag -> set to IDLE */ -+ /* shall we zero out the rest? */ -+ result = usb_control_msg(usbdev, inpipe, -+ ACX_USB_REQ_CMD, /* request */ -+ USB_TYPE_VENDOR|USB_DIR_IN, /* requesttype */ -+ 0, /* value */ -+ 0, /* index */ -+ loc, /* dataptr */ -+ acklen, /* size */ -+ ACX_USB_CTRL_TIMEOUT /* timeout in ms */ -+ ); -+ if (result < 0) { -+ printk("%s: "FUNC"(): USB read error %d\n", devname, result); -+ goto bad; -+ } -+ if (acx_debug & L_CTL) { -+ printk("read %d bytes: ", result); -+ acx_dump_bytes(loc, result); -+ } -+ -+/* -+ check for result==buflen+4? Was seen: -+ -+interrogate(type:ACX100_IE_DOT11_ED_THRESHOLD,len:4) -+issue_cmd(cmd:ACX1xx_CMD_INTERROGATE,buflen:8,type:4111) -+ctrl inpipe=0x80000280 outpipe=0x80000200 -+sending USB control msg (out) (blocklen=8) -+01 00 00 00 0F 10 04 00 -+wrote 8 bytes -+sending USB control msg (in) (acklen=12) sizeof(loc->data -+read 4 bytes <==== MUST BE 12!! -+*/ -+ -+ cmd_status = le16_to_cpu(loc->status); -+ if (cmd_status != 1) { -+ printk("%s: "FUNC"(): cmd_status is not SUCCESS: %d (%s)\n", -+ devname, cmd_status, acx_cmd_status_str(cmd_status)); -+ /* TODO: goto bad; ? */ -+ } -+ if ((cmd == ACX1xx_CMD_INTERROGATE) && buffer && buflen) { -+ memcpy(buffer, loc->data, buflen); -+ log(L_CTL, "response frame: cmd=0x%04X status=%d\n", -+ le16_to_cpu(loc->cmd), -+ cmd_status); -+ } -+good: -+ kfree(loc); -+ FN_EXIT1(OK); -+ return OK; -+bad: -+ /* Give enough info so that callers can avoid -+ ** printing their own diagnostic messages */ -+#if ACX_DEBUG -+ printk("%s: "FUNC"(cmd:%s) FAILED\n", devname, cmdstr); -+#else -+ printk("%s: "FUNC"(cmd:0x%04X) FAILED\n", devname, cmd); -+#endif -+ dump_stack(); -+ kfree(loc); -+ FN_EXIT1(NOT_OK); -+ return NOT_OK; -+} -+ -+ -+/*********************************************************************** -+** acxusb_boot() -+** Inputs: -+** usbdev -> Pointer to kernel's usb_device structure -+** -+** Returns: -+** (int) Errorcode or 0 on success -+** -+** This function triggers the loading of the firmware image from harddisk -+** and then uploads the firmware to the USB device. After uploading the -+** firmware and transmitting the checksum, the device resets and appears -+** as a new device on the USB bus (the device we can finally deal with) -+*/ -+static inline int -+acxusb_fw_needs_padding(firmware_image_t *fw_image, unsigned int usb_maxlen) -+{ -+ unsigned int num_xfers = ((fw_image->size - 1) / usb_maxlen) + 1; -+ -+ return ((num_xfers % 2) == 0); -+} -+ -+static int -+acxusb_boot(struct usb_device *usbdev, int is_tnetw1450, int *radio_type) -+{ -+ char filename[sizeof("tiacx1NNusbcRR")]; -+ -+ firmware_image_t *fw_image = NULL; -+ char *usbbuf; -+ unsigned int offset; -+ unsigned int blk_len, inpipe, outpipe; -+ u32 num_processed; -+ u32 img_checksum, sum; -+ u32 file_size; -+ int result = -EIO; -+ int i; -+ -+ FN_ENTER; -+ -+ /* dump_device(usbdev); */ -+ -+ usbbuf = kmalloc(USB_RWMEM_MAXLEN, GFP_KERNEL); -+ if (!usbbuf) { -+ printk(KERN_ERR "acx: no memory for USB transfer buffer (%d bytes)\n", USB_RWMEM_MAXLEN); -+ result = -ENOMEM; -+ goto end; -+ } -+ if (is_tnetw1450) { -+ /* Obtain the I/O pipes */ -+ outpipe = usb_sndbulkpipe(usbdev, 1); -+ inpipe = usb_rcvbulkpipe(usbdev, 2); -+ -+ printk(KERN_DEBUG "wait for device ready\n"); -+ for (i = 0; i <= 2; i++) { -+ result = usb_bulk_msg(usbdev, inpipe, -+ usbbuf, -+ USB_RWMEM_MAXLEN, -+ &num_processed, -+ 2000 -+ ); -+ -+ if ((*(u32 *)&usbbuf[4] == 0x40000001) -+ && (*(u16 *)&usbbuf[2] == 0x1) -+ && ((*(u16 *)usbbuf & 0x3fff) == 0) -+ && ((*(u16 *)usbbuf & 0xc000) == 0xc000)) -+ break; -+ msleep(10); -+ } -+ if (i == 2) -+ goto fw_end; -+ -+ *radio_type = usbbuf[8]; -+ } else { -+ /* Obtain the I/O pipes */ -+ outpipe = usb_sndctrlpipe(usbdev, 0); -+ inpipe = usb_rcvctrlpipe(usbdev, 0); -+ -+ /* FIXME: shouldn't be hardcoded */ -+ *radio_type = RADIO_MAXIM_0D; -+ } -+ -+ snprintf(filename, sizeof(filename), "tiacx1%02dusbc%02X", -+ is_tnetw1450 * 11, *radio_type); -+ -+ fw_image = acx_s_read_fw(&usbdev->dev, filename, &file_size); -+ if (!fw_image) { -+ result = -EIO; -+ goto end; -+ } -+ log(L_INIT, "firmware size: %d bytes\n", file_size); -+ -+ img_checksum = le32_to_cpu(fw_image->chksum); -+ -+ if (is_tnetw1450) { -+ u8 cmdbuf[20]; -+ const u8 *p; -+ u8 need_padding; -+ u32 tmplen, val; -+ -+ memset(cmdbuf, 0, 16); -+ -+ need_padding = acxusb_fw_needs_padding(fw_image, USB_RWMEM_MAXLEN); -+ tmplen = need_padding ? file_size-4 : file_size-8; -+ *(u16 *)&cmdbuf[0] = 0xc000; -+ *(u16 *)&cmdbuf[2] = 0x000b; -+ *(u32 *)&cmdbuf[4] = tmplen; -+ *(u32 *)&cmdbuf[8] = file_size-8; -+ *(u32 *)&cmdbuf[12] = img_checksum; -+ -+ result = usb_bulk_msg(usbdev, outpipe, cmdbuf, 16, &num_processed, HZ); -+ if (result < 0) -+ goto fw_end; -+ -+ p = (const u8 *)&fw_image->size; -+ -+ /* first calculate checksum for image size part */ -+ sum = p[0]+p[1]+p[2]+p[3]; -+ p += 4; -+ -+ /* now continue checksum for firmware data part */ -+ tmplen = le32_to_cpu(fw_image->size); -+ for (i = 0; i < tmplen /* image size */; i++) { -+ sum += *p++; -+ } -+ -+ if (sum != le32_to_cpu(fw_image->chksum)) { -+ printk("acx: FATAL: firmware upload: " -+ "checksums don't match! " -+ "(0x%08x vs. 0x%08x)\n", -+ sum, fw_image->chksum); -+ goto fw_end; -+ } -+ -+ offset = 8; -+ while (offset < file_size) { -+ blk_len = file_size - offset; -+ if (blk_len > USB_RWMEM_MAXLEN) { -+ blk_len = USB_RWMEM_MAXLEN; -+ } -+ -+ log(L_INIT, "uploading firmware (%d bytes, offset=%d)\n", -+ blk_len, offset); -+ memcpy(usbbuf, ((u8 *)fw_image) + offset, blk_len); -+ -+ p = usbbuf; -+ for (i = 0; i < blk_len; i += 4) { -+ *(u32 *)p = be32_to_cpu(*(u32 *)p); -+ p += 4; -+ } -+ -+ result = usb_bulk_msg(usbdev, outpipe, usbbuf, blk_len, &num_processed, HZ); -+ if ((result < 0) || (num_processed != blk_len)) -+ goto fw_end; -+ offset += blk_len; -+ } -+ if (need_padding) { -+ printk(KERN_DEBUG "send padding\n"); -+ memset(usbbuf, 0, 4); -+ result = usb_bulk_msg(usbdev, outpipe, usbbuf, 4, &num_processed, HZ); -+ if ((result < 0) || (num_processed != 4)) -+ goto fw_end; -+ } -+ printk(KERN_DEBUG "read firmware upload result\n"); -+ memset(cmdbuf, 0, 20); /* additional memset */ -+ result = usb_bulk_msg(usbdev, inpipe, cmdbuf, 20, &num_processed, 2000); -+ if (result < 0) -+ goto fw_end; -+ if (*(u32 *)&cmdbuf[4] == 0x40000003) -+ goto fw_end; -+ if (*(u32 *)&cmdbuf[4]) -+ goto fw_end; -+ if (*(u16 *)&cmdbuf[16] != 1) -+ goto fw_end; -+ -+ val = *(u32 *)&cmdbuf[0]; -+ if ((val & 0x3fff) -+ || ((val & 0xc000) != 0xc000)) -+ goto fw_end; -+ -+ val = *(u32 *)&cmdbuf[8]; -+ if (val & 2) { -+ result = usb_bulk_msg(usbdev, inpipe, cmdbuf, 20, &num_processed, 2000); -+ if (result < 0) -+ goto fw_end; -+ val = *(u32 *)&cmdbuf[8]; -+ } -+ /* yup, no "else" here! */ -+ if (val & 1) { -+ memset(usbbuf, 0, 4); -+ result = usb_bulk_msg(usbdev, outpipe, usbbuf, 4, &num_processed, HZ); -+ if ((result < 0) || (!num_processed)) -+ goto fw_end; -+ } -+ -+ printk("TNETW1450 firmware upload successful!\n"); -+ result = 0; -+ goto end; -+fw_end: -+ result = -EIO; -+ goto end; -+ } else { -+ /* ACX100 USB */ -+ -+ /* now upload the firmware, slice the data into blocks */ -+ offset = 8; -+ while (offset < file_size) { -+ blk_len = file_size - offset; -+ if (blk_len > USB_RWMEM_MAXLEN) { -+ blk_len = USB_RWMEM_MAXLEN; -+ } -+ log(L_INIT, "uploading firmware (%d bytes, offset=%d)\n", -+ blk_len, offset); -+ memcpy(usbbuf, ((u8 *)fw_image) + offset, blk_len); -+ result = usb_control_msg(usbdev, outpipe, -+ ACX_USB_REQ_UPLOAD_FW, -+ USB_TYPE_VENDOR|USB_DIR_OUT, -+ (file_size - 8) & 0xffff, /* value */ -+ (file_size - 8) >> 16, /* index */ -+ usbbuf, /* dataptr */ -+ blk_len, /* size */ -+ 3000 /* timeout in ms */ -+ ); -+ offset += blk_len; -+ if (result < 0) { -+ printk(KERN_ERR "acx: error %d during upload " -+ "of firmware, aborting\n", result); -+ goto end; -+ } -+ } -+ -+ /* finally, send the checksum and reboot the device */ -+ /* does this trigger the reboot? */ -+ result = usb_control_msg(usbdev, outpipe, -+ ACX_USB_REQ_UPLOAD_FW, -+ USB_TYPE_VENDOR|USB_DIR_OUT, -+ img_checksum & 0xffff, /* value */ -+ img_checksum >> 16, /* index */ -+ NULL, /* dataptr */ -+ 0, /* size */ -+ 3000 /* timeout in ms */ -+ ); -+ if (result < 0) { -+ printk(KERN_ERR "acx: error %d during tx of checksum, " -+ "aborting\n", result); -+ goto end; -+ } -+ result = usb_control_msg(usbdev, inpipe, -+ ACX_USB_REQ_ACK_CS, -+ USB_TYPE_VENDOR|USB_DIR_IN, -+ img_checksum & 0xffff, /* value */ -+ img_checksum >> 16, /* index */ -+ usbbuf, /* dataptr */ -+ 8, /* size */ -+ 3000 /* timeout in ms */ -+ ); -+ if (result < 0) { -+ printk(KERN_ERR "acx: error %d during ACK of checksum, " -+ "aborting\n", result); -+ goto end; -+ } -+ if (*usbbuf != 0x10) { -+ printk(KERN_ERR "acx: invalid checksum?\n"); -+ result = -EINVAL; -+ goto end; -+ } -+ result = 0; -+ } -+ -+end: -+ vfree(fw_image); -+ kfree(usbbuf); -+ -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/* FIXME: maybe merge it with usual eeprom reading, into common code? */ -+static void -+acxusb_s_read_eeprom_version(acx_device_t *adev) -+{ -+ u8 eeprom_ver[0x8]; -+ -+ memset(eeprom_ver, 0, sizeof(eeprom_ver)); -+ acx_s_interrogate(adev, &eeprom_ver, ACX1FF_IE_EEPROM_VER); -+ -+ /* FIXME: which one of those values to take? */ -+ adev->eeprom_version = eeprom_ver[5]; -+} -+ -+ -+/* -+ * temporary helper function to at least fill important cfgopt members with -+ * useful replacement values until we figure out how one manages to fetch -+ * the configoption struct in the USB device case... -+ */ -+static int -+acxusb_s_fill_configoption(acx_device_t *adev) -+{ -+ adev->cfgopt_probe_delay = 200; -+ adev->cfgopt_dot11CCAModes = 4; -+ adev->cfgopt_dot11Diversity = 1; -+ adev->cfgopt_dot11ShortPreambleOption = 1; -+ adev->cfgopt_dot11PBCCOption = 1; -+ adev->cfgopt_dot11ChannelAgility = 0; -+ adev->cfgopt_dot11PhyType = 5; -+ adev->cfgopt_dot11TempType = 1; -+ return OK; -+} -+ -+ -+/*********************************************************************** -+** acxusb_e_probe() -+** -+** This function is invoked by the kernel's USB core whenever a new device is -+** attached to the system or the module is loaded. It is presented a usb_device -+** structure from which information regarding the device is obtained and evaluated. -+** In case this driver is able to handle one of the offered devices, it returns -+** a non-null pointer to a driver context and thereby claims the device. -+*/ -+ -+static void -+dummy_netdev_init(struct net_device *ndev) {} -+ -+static int -+acxusb_e_probe(struct usb_interface *intf, const struct usb_device_id *devID) -+{ -+ struct usb_device *usbdev = interface_to_usbdev(intf); -+ acx_device_t *adev = NULL; -+ struct net_device *ndev = NULL; -+ struct usb_config_descriptor *config; -+ struct usb_endpoint_descriptor *epdesc; -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 11) -+ struct usb_host_endpoint *ep; -+#endif -+ struct usb_interface_descriptor *ifdesc; -+ const char* msg; -+ int numconfigs, numfaces, numep; -+ int result = OK; -+ int i; -+ int radio_type; -+ /* this one needs to be more precise in case there appears a TNETW1450 from the same vendor */ -+ int is_tnetw1450 = (usbdev->descriptor.idVendor != ACX100_VENDOR_ID); -+ -+ FN_ENTER; -+ -+ if (is_tnetw1450) { -+ /* Boot the device (i.e. upload the firmware) */ -+ acxusb_boot(usbdev, is_tnetw1450, &radio_type); -+ -+ /* TNETW1450-based cards will continue right away with -+ * the same USB ID after booting */ -+ } else { -+ /* First check if this is the "unbooted" hardware */ -+ if (usbdev->descriptor.idProduct == ACX100_PRODUCT_ID_UNBOOTED) { -+ -+ /* Boot the device (i.e. upload the firmware) */ -+ acxusb_boot(usbdev, is_tnetw1450, &radio_type); -+ -+ /* DWL-120+ will first boot the firmware, -+ * then later have a *separate* probe() run -+ * since its USB ID will have changed after -+ * firmware boot! -+ * Since the first probe() run has no -+ * other purpose than booting the firmware, -+ * simply return immediately. -+ */ -+ log(L_INIT, "finished booting, returning from probe()\n"); -+ result = OK; /* success */ -+ goto end; -+ } -+ else -+ /* device not unbooted, but invalid USB ID!? */ -+ if (usbdev->descriptor.idProduct != ACX100_PRODUCT_ID_BOOTED) -+ goto end_nodev; -+ } -+ -+/* Ok, so it's our device and it has already booted */ -+ -+ /* Allocate memory for a network device */ -+ -+ ndev = alloc_netdev(sizeof(*adev), "wlan%d", dummy_netdev_init); -+ /* (NB: memsets to 0 entire area) */ -+ if (!ndev) { -+ msg = "acx: no memory for netdev\n"; -+ goto end_nomem; -+ } -+ -+ /* Register the callbacks for the network device functions */ -+ -+ ether_setup(ndev); -+ ndev->open = &acxusb_e_open; -+ ndev->stop = &acxusb_e_close; -+ ndev->hard_start_xmit = (void *)&acx_i_start_xmit; -+ ndev->get_stats = (void *)&acx_e_get_stats; -+#if IW_HANDLER_VERSION <= 5 -+ ndev->get_wireless_stats = (void *)&acx_e_get_wireless_stats; -+#endif -+ ndev->wireless_handlers = (struct iw_handler_def *)&acx_ioctl_handler_def; -+ ndev->set_multicast_list = (void *)&acxusb_i_set_rx_mode; -+#ifdef HAVE_TX_TIMEOUT -+ ndev->tx_timeout = &acxusb_i_tx_timeout; -+ ndev->watchdog_timeo = 4 * HZ; -+#endif -+ ndev->change_mtu = &acx_e_change_mtu; -+ SET_MODULE_OWNER(ndev); -+ -+ /* Setup private driver context */ -+ -+ adev = ndev2adev(ndev); -+ adev->ndev = ndev; -+ -+ adev->dev_type = DEVTYPE_USB; -+ adev->radio_type = radio_type; -+ if (is_tnetw1450) { -+ /* well, actually it's a TNETW1450, but since it -+ * seems to be sufficiently similar to TNETW1130, -+ * I don't want to change large amounts of code now */ -+ adev->chip_type = CHIPTYPE_ACX111; -+ } else { -+ adev->chip_type = CHIPTYPE_ACX100; -+ } -+ -+ adev->usbdev = usbdev; -+ spin_lock_init(&adev->lock); /* initial state: unlocked */ -+ sema_init(&adev->sem, 1); /* initial state: 1 (upped) */ -+ -+ /* Check that this is really the hardware we know about. -+ ** If not sure, at least notify the user that he -+ ** may be in trouble... -+ */ -+ numconfigs = (int)usbdev->descriptor.bNumConfigurations; -+ if (numconfigs != 1) -+ printk("acx: number of configurations is %d, " -+ "this driver only knows how to handle 1, " -+ "be prepared for surprises\n", numconfigs); -+ -+ config = &usbdev->config->desc; -+ numfaces = config->bNumInterfaces; -+ if (numfaces != 1) -+ printk("acx: number of interfaces is %d, " -+ "this driver only knows how to handle 1, " -+ "be prepared for surprises\n", numfaces); -+ -+ ifdesc = &intf->altsetting->desc; -+ numep = ifdesc->bNumEndpoints; -+ log(L_DEBUG, "# of endpoints: %d\n", numep); -+ -+ if (is_tnetw1450) { -+ adev->bulkoutep = 1; -+ adev->bulkinep = 2; -+ } else { -+ /* obtain information about the endpoint -+ ** addresses, begin with some default values -+ */ -+ adev->bulkoutep = 1; -+ adev->bulkinep = 1; -+ for (i = 0; i < numep; i++) { -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 11) -+ ep = usbdev->ep_in[i]; -+ if (!ep) -+ continue; -+ epdesc = &ep->desc; -+#else -+ epdesc = usb_epnum_to_ep_desc(usbdev, i); -+ if (!epdesc) -+ continue; -+#endif -+ if (epdesc->bmAttributes & USB_ENDPOINT_XFER_BULK) { -+ if (epdesc->bEndpointAddress & 0x80) -+ adev->bulkinep = epdesc->bEndpointAddress & 0xF; -+ else -+ adev->bulkoutep = epdesc->bEndpointAddress & 0xF; -+ } -+ } -+ } -+ log(L_DEBUG, "bulkout ep: 0x%X\n", adev->bulkoutep); -+ log(L_DEBUG, "bulkin ep: 0x%X\n", adev->bulkinep); -+ -+ /* already done by memset: adev->rxtruncsize = 0; */ -+ log(L_DEBUG, "TXBUFSIZE=%d RXBUFSIZE=%d\n", -+ (int) TXBUFSIZE, (int) RXBUFSIZE); -+ -+ /* Allocate the RX/TX containers. */ -+ adev->usb_tx = kmalloc(sizeof(usb_tx_t) * ACX_TX_URB_CNT, GFP_KERNEL); -+ if (!adev->usb_tx) { -+ msg = "acx: no memory for tx container"; -+ goto end_nomem; -+ } -+ adev->usb_rx = kmalloc(sizeof(usb_rx_t) * ACX_RX_URB_CNT, GFP_KERNEL); -+ if (!adev->usb_rx) { -+ msg = "acx: no memory for rx container"; -+ goto end_nomem; -+ } -+ -+ /* Setup URBs for bulk-in/out messages */ -+ for (i = 0; i < ACX_RX_URB_CNT; i++) { -+ adev->usb_rx[i].urb = usb_alloc_urb(0, GFP_KERNEL); -+ if (!adev->usb_rx[i].urb) { -+ msg = "acx: no memory for input URB\n"; -+ goto end_nomem; -+ } -+ adev->usb_rx[i].urb->status = 0; -+ adev->usb_rx[i].adev = adev; -+ adev->usb_rx[i].busy = 0; -+ } -+ -+ for (i = 0; i< ACX_TX_URB_CNT; i++) { -+ adev->usb_tx[i].urb = usb_alloc_urb(0, GFP_KERNEL); -+ if (!adev->usb_tx[i].urb) { -+ msg = "acx: no memory for output URB\n"; -+ goto end_nomem; -+ } -+ adev->usb_tx[i].urb->status = 0; -+ adev->usb_tx[i].adev = adev; -+ adev->usb_tx[i].busy = 0; -+ } -+ adev->tx_free = ACX_TX_URB_CNT; -+ -+ usb_set_intfdata(intf, adev); -+ SET_NETDEV_DEV(ndev, &intf->dev); -+ -+ /* TODO: move all of fw cmds to open()? But then we won't know our MAC addr -+ until ifup (it's available via reading ACX1xx_IE_DOT11_STATION_ID)... */ -+ -+ /* put acx out of sleep mode and initialize it */ -+ acx_s_issue_cmd(adev, ACX1xx_CMD_WAKE, NULL, 0); -+ -+ result = acx_s_init_mac(adev); -+ if (result) -+ goto end; -+ -+ /* TODO: see similar code in pci.c */ -+ acxusb_s_read_eeprom_version(adev); -+ acxusb_s_fill_configoption(adev); -+ acx_s_set_defaults(adev); -+ acx_s_get_firmware_version(adev); -+ acx_display_hardware_details(adev); -+ -+ /* Register the network device */ -+ log(L_INIT, "registering network device\n"); -+ result = register_netdev(ndev); -+ if (result) { -+ msg = "acx: failed to register USB network device " -+ "(error %d)\n"; -+ goto end_nomem; -+ } -+ -+ acx_proc_register_entries(ndev); -+ -+ acx_stop_queue(ndev, "on probe"); -+ acx_carrier_off(ndev, "on probe"); -+ -+ printk("acx: USB module " ACX_RELEASE " loaded successfully\n"); -+ -+#if CMD_DISCOVERY -+ great_inquisitor(adev); -+#endif -+ -+ /* Everything went OK, we are happy now */ -+ result = OK; -+ goto end; -+ -+end_nomem: -+ printk(msg, result); -+ -+ if (ndev) { -+ if (adev->usb_rx) { -+ for (i = 0; i < ACX_RX_URB_CNT; i++) -+ usb_free_urb(adev->usb_rx[i].urb); -+ kfree(adev->usb_rx); -+ } -+ if (adev->usb_tx) { -+ for (i = 0; i < ACX_TX_URB_CNT; i++) -+ usb_free_urb(adev->usb_tx[i].urb); -+ kfree(adev->usb_tx); -+ } -+ free_netdev(ndev); -+ } -+ -+ result = -ENOMEM; -+ goto end; -+ -+end_nodev: -+ /* no device we could handle, return error. */ -+ result = -EIO; -+ -+end: -+ FN_EXIT1(result); -+ return result; -+} -+ -+ -+/*********************************************************************** -+** acxusb_e_disconnect() -+** -+** This function is invoked whenever the user pulls the plug from the USB -+** device or the module is removed from the kernel. In these cases, the -+** network devices have to be taken down and all allocated memory has -+** to be freed. -+*/ -+static void -+acxusb_e_disconnect(struct usb_interface *intf) -+{ -+ acx_device_t *adev = usb_get_intfdata(intf); -+ unsigned long flags; -+ int i; -+ -+ FN_ENTER; -+ -+ /* No WLAN device... no sense */ -+ if (!adev) -+ goto end; -+ -+ /* Unregister network device -+ * -+ * If the interface is up, unregister_netdev() will take -+ * care of calling our close() function, which takes -+ * care of unlinking the urbs, sending the device to -+ * sleep, etc... -+ * This can't be called with sem or lock held because -+ * _close() will try to grab it as well if it's called, -+ * deadlocking the machine. -+ */ -+ unregister_netdev(adev->ndev); -+ -+ acx_sem_lock(adev); -+ acx_lock(adev, flags); -+ /* This device exists no more */ -+ usb_set_intfdata(intf, NULL); -+ acx_proc_unregister_entries(adev->ndev); -+ -+ /* -+ * Here we only free them. _close() took care of -+ * unlinking them. -+ */ -+ for (i = 0; i < ACX_RX_URB_CNT; ++i) { -+ usb_free_urb(adev->usb_rx[i].urb); -+ } -+ for (i = 0; i< ACX_TX_URB_CNT; ++i) { -+ usb_free_urb(adev->usb_tx[i].urb); -+ } -+ -+ /* Freeing containers */ -+ kfree(adev->usb_rx); -+ kfree(adev->usb_tx); -+ -+ acx_unlock(adev, flags); -+ acx_sem_unlock(adev); -+ -+ free_netdev(adev->ndev); -+end: -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxusb_e_open() -+** This function is called when the user sets up the network interface. -+** It initializes a management timer, sets up the USB card and starts -+** the network tx queue and USB receive. -+*/ -+static int -+acxusb_e_open(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ int i; -+ -+ FN_ENTER; -+ -+ acx_sem_lock(adev); -+ -+ /* put the ACX100 out of sleep mode */ -+ acx_s_issue_cmd(adev, ACX1xx_CMD_WAKE, NULL, 0); -+ -+ acx_init_task_scheduler(adev); -+ -+ init_timer(&adev->mgmt_timer); -+ adev->mgmt_timer.function = acx_i_timer; -+ adev->mgmt_timer.data = (unsigned long)adev; -+ -+ /* acx_s_start needs it */ -+ SET_BIT(adev->dev_state_mask, ACX_STATE_IFACE_UP); -+ acx_s_start(adev); -+ -+ /* don't acx_start_queue() here, we need to associate first */ -+ -+ acx_lock(adev, flags); -+ for (i = 0; i < ACX_RX_URB_CNT; i++) { -+ adev->usb_rx[i].urb->status = 0; -+ } -+ -+ acxusb_l_poll_rx(adev, &adev->usb_rx[0]); -+ -+ acx_unlock(adev, flags); -+ -+ acx_sem_unlock(adev); -+ -+ FN_EXIT0; -+ return 0; -+} -+ -+ -+/*********************************************************************** -+** acxusb_e_close() -+** -+** This function stops the network functionality of the interface (invoked -+** when the user calls ifconfig <wlan> down). The tx queue is halted and -+** the device is marked as down. In case there were any pending USB bulk -+** transfers, these are unlinked (asynchronously). The module in-use count -+** is also decreased in this function. -+*/ -+static int -+acxusb_e_close(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ int i; -+ -+ FN_ENTER; -+ -+#ifdef WE_STILL_DONT_CARE_ABOUT_IT -+ /* Transmit a disassociate frame */ -+ lock -+ acx_l_transmit_disassoc(adev, &client); -+ unlock -+#endif -+ -+ acx_sem_lock(adev); -+ -+ CLEAR_BIT(adev->dev_state_mask, ACX_STATE_IFACE_UP); -+ -+/* Code below is remarkably similar to acxpci_s_down(). Maybe we can merge them? */ -+ -+ /* Make sure we don't get any more rx requests */ -+ acx_s_issue_cmd(adev, ACX1xx_CMD_DISABLE_RX, NULL, 0); -+ acx_s_issue_cmd(adev, ACX1xx_CMD_DISABLE_TX, NULL, 0); -+ -+ /* -+ * We must do FLUSH *without* holding sem to avoid a deadlock. -+ * See pci.c:acxpci_s_down() for deails. -+ */ -+ acx_sem_unlock(adev); -+ FLUSH_SCHEDULED_WORK(); -+ acx_sem_lock(adev); -+ -+ /* Power down the device */ -+ acx_s_issue_cmd(adev, ACX1xx_CMD_SLEEP, NULL, 0); -+ -+ /* Stop the transmit queue, mark the device as DOWN */ -+ acx_lock(adev, flags); -+ acx_stop_queue(ndev, "on ifdown"); -+ acx_set_status(adev, ACX_STATUS_0_STOPPED); -+ /* stop pending rx/tx urb transfers */ -+ for (i = 0; i < ACX_TX_URB_CNT; i++) { -+ acxusb_unlink_urb(adev->usb_tx[i].urb); -+ adev->usb_tx[i].busy = 0; -+ } -+ for (i = 0; i < ACX_RX_URB_CNT; i++) { -+ acxusb_unlink_urb(adev->usb_rx[i].urb); -+ adev->usb_rx[i].busy = 0; -+ } -+ adev->tx_free = ACX_TX_URB_CNT; -+ acx_unlock(adev, flags); -+ -+ /* Must do this outside of lock */ -+ del_timer_sync(&adev->mgmt_timer); -+ -+ acx_sem_unlock(adev); -+ -+ FN_EXIT0; -+ return 0; -+} -+ -+ -+/*********************************************************************** -+** acxusb_l_poll_rx -+** This function (re)initiates a bulk-in USB transfer on a given urb -+*/ -+static void -+acxusb_l_poll_rx(acx_device_t *adev, usb_rx_t* rx) -+{ -+ struct usb_device *usbdev; -+ struct urb *rxurb; -+ int errcode, rxnum; -+ unsigned int inpipe; -+ -+ FN_ENTER; -+ -+ rxurb = rx->urb; -+ usbdev = adev->usbdev; -+ -+ rxnum = rx - adev->usb_rx; -+ -+ inpipe = usb_rcvbulkpipe(usbdev, adev->bulkinep); -+ if (unlikely(rxurb->status == -EINPROGRESS)) { -+ printk(KERN_ERR "acx: error, rx triggered while rx urb in progress\n"); -+ /* FIXME: this is nasty, receive is being cancelled by this code -+ * on the other hand, this should not happen anyway... -+ */ -+ usb_unlink_urb(rxurb); -+ } else -+ if (unlikely(rxurb->status == -ECONNRESET)) { -+ log(L_USBRXTX, "acx_usb: _poll_rx: connection reset\n"); -+ goto end; -+ } -+ rxurb->actual_length = 0; -+ usb_fill_bulk_urb(rxurb, usbdev, inpipe, -+ &rx->bulkin, /* dataptr */ -+ RXBUFSIZE, /* size */ -+ acxusb_i_complete_rx, /* handler */ -+ rx /* handler param */ -+ ); -+ rxurb->transfer_flags = URB_ASYNC_UNLINK; -+ -+ /* ATOMIC: we may be called from complete_rx() usb callback */ -+ errcode = usb_submit_urb(rxurb, GFP_ATOMIC); -+ /* FIXME: evaluate the error code! */ -+ log(L_USBRXTX, "SUBMIT RX (%d) inpipe=0x%X size=%d errcode=%d\n", -+ rxnum, inpipe, (int) RXBUFSIZE, errcode); -+end: -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxusb_i_complete_rx() -+** Inputs: -+** urb -> pointer to USB request block -+** regs -> pointer to register-buffer for syscalls (see asm/ptrace.h) -+** -+** This function is invoked by USB subsystem whenever a bulk receive -+** request returns. -+** The received data is then committed to the network stack and the next -+** USB receive is triggered. -+*/ -+static void -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19) -+acxusb_i_complete_rx(struct urb *urb) -+#else -+acxusb_i_complete_rx(struct urb *urb, struct pt_regs *regs) -+#endif -+{ -+ acx_device_t *adev; -+ rxbuffer_t *ptr; -+ rxbuffer_t *inbuf; -+ usb_rx_t *rx; -+ unsigned long flags; -+ int size, remsize, packetsize, rxnum; -+ -+ FN_ENTER; -+ -+ BUG_ON(!urb->context); -+ -+ rx = (usb_rx_t *)urb->context; -+ adev = rx->adev; -+ -+ acx_lock(adev, flags); -+ -+ /* -+ * Happens on disconnect or close. Don't play with the urb. -+ * Don't resubmit it. It will get unlinked by close() -+ */ -+ if (unlikely(!(adev->dev_state_mask & ACX_STATE_IFACE_UP))) { -+ log(L_USBRXTX, "rx: device is down, not doing anything\n"); -+ goto end_unlock; -+ } -+ -+ inbuf = &rx->bulkin; -+ size = urb->actual_length; -+ remsize = size; -+ rxnum = rx - adev->usb_rx; -+ -+ log(L_USBRXTX, "RETURN RX (%d) status=%d size=%d\n", -+ rxnum, urb->status, size); -+ -+ /* Send the URB that's waiting. */ -+ log(L_USBRXTX, "rxnum=%d, sending=%d\n", rxnum, rxnum^1); -+ acxusb_l_poll_rx(adev, &adev->usb_rx[rxnum^1]); -+ -+ if (unlikely(size > sizeof(rxbuffer_t))) -+ printk("acx_usb: rx too large: %d, please report\n", size); -+ -+ /* check if the transfer was aborted */ -+ switch (urb->status) { -+ case 0: /* No error */ -+ break; -+ case -EOVERFLOW: -+ printk(KERN_ERR "acx: rx data overrun\n"); -+ adev->rxtruncsize = 0; /* Not valid anymore. */ -+ goto end_unlock; -+ case -ECONNRESET: -+ adev->rxtruncsize = 0; -+ goto end_unlock; -+ case -ESHUTDOWN: /* rmmod */ -+ adev->rxtruncsize = 0; -+ goto end_unlock; -+ default: -+ adev->rxtruncsize = 0; -+ adev->stats.rx_errors++; -+ printk("acx: rx error (urb status=%d)\n", urb->status); -+ goto end_unlock; -+ } -+ -+ if (unlikely(!size)) -+ printk("acx: warning, encountered zerolength rx packet\n"); -+ -+ if (urb->transfer_buffer != inbuf) -+ goto end_unlock; -+ -+ /* check if previous frame was truncated -+ ** FIXME: this code can only handle truncation -+ ** of consecutive packets! -+ */ -+ ptr = inbuf; -+ if (adev->rxtruncsize) { -+ int tail_size; -+ -+ ptr = &adev->rxtruncbuf; -+ packetsize = RXBUF_BYTES_USED(ptr); -+ if (acx_debug & L_USBRXTX) { -+ printk("handling truncated frame (truncsize=%d size=%d " -+ "packetsize(from trunc)=%d)\n", -+ adev->rxtruncsize, size, packetsize); -+ acx_dump_bytes(ptr, RXBUF_HDRSIZE); -+ acx_dump_bytes(inbuf, RXBUF_HDRSIZE); -+ } -+ -+ /* bytes needed for rxtruncbuf completion: */ -+ tail_size = packetsize - adev->rxtruncsize; -+ -+ if (size < tail_size) { -+ /* there is not enough data to complete this packet, -+ ** simply append the stuff to the truncation buffer -+ */ -+ memcpy(((char *)ptr) + adev->rxtruncsize, inbuf, size); -+ adev->rxtruncsize += size; -+ remsize = 0; -+ } else { -+ /* ok, this data completes the previously -+ ** truncated packet. copy it into a descriptor -+ ** and give it to the rest of the stack */ -+ -+ /* append tail to previously truncated part -+ ** NB: adev->rxtruncbuf (pointed to by ptr) can't -+ ** overflow because this is already checked before -+ ** truncation buffer was filled. See below, -+ ** "if (packetsize > sizeof(rxbuffer_t))..." code */ -+ memcpy(((char *)ptr) + adev->rxtruncsize, inbuf, tail_size); -+ -+ if (acx_debug & L_USBRXTX) { -+ printk("full trailing packet + 12 bytes:\n"); -+ acx_dump_bytes(inbuf, tail_size + RXBUF_HDRSIZE); -+ } -+ acx_l_process_rxbuf(adev, ptr); -+ adev->rxtruncsize = 0; -+ ptr = (rxbuffer_t *) (((char *)inbuf) + tail_size); -+ remsize -= tail_size; -+ } -+ log(L_USBRXTX, "post-merge size=%d remsize=%d\n", -+ size, remsize); -+ } -+ -+ /* size = USB data block size -+ ** remsize = unprocessed USB bytes left -+ ** ptr = current pos in USB data block -+ */ -+ while (remsize) { -+ if (remsize < RXBUF_HDRSIZE) { -+ printk("acx: truncated rx header (%d bytes)!\n", -+ remsize); -+ if (ACX_DEBUG) -+ acx_dump_bytes(ptr, remsize); -+ break; -+ } -+ -+ packetsize = RXBUF_BYTES_USED(ptr); -+ log(L_USBRXTX, "packet with packetsize=%d\n", packetsize); -+ -+ if (RXBUF_IS_TXSTAT(ptr)) { -+ /* do rate handling */ -+ usb_txstatus_t *stat = (void*)ptr; -+ u16 client_no = (u16)stat->hostdata; -+ -+ log(L_USBRXTX, "tx: stat: mac_cnt_rcvd:%04X " -+ "queue_index:%02X mac_status:%02X hostdata:%08X " -+ "rate:%u ack_failures:%02X rts_failures:%02X " -+ "rts_ok:%02X\n", -+ stat->mac_cnt_rcvd, -+ stat->queue_index, stat->mac_status, stat->hostdata, -+ stat->rate, stat->ack_failures, stat->rts_failures, -+ stat->rts_ok); -+ -+ if (adev->rate_auto && client_no < VEC_SIZE(adev->sta_list)) { -+ client_t *clt = &adev->sta_list[client_no]; -+ u16 cur = stat->hostdata >> 16; -+ -+ if (clt && clt->rate_cur == cur) { -+ acx_l_handle_txrate_auto(adev, clt, -+ cur, /* intended rate */ -+ stat->rate, 0, /* actually used rate */ -+ stat->mac_status, /* error? */ -+ ACX_TX_URB_CNT - adev->tx_free); -+ } -+ } -+ goto next; -+ } -+ -+ if (packetsize > sizeof(rxbuffer_t)) { -+ printk("acx: packet exceeds max wlan " -+ "frame size (%d > %d). size=%d\n", -+ packetsize, (int) sizeof(rxbuffer_t), size); -+ if (ACX_DEBUG) -+ acx_dump_bytes(ptr, 16); -+ /* FIXME: put some real error-handling in here! */ -+ break; -+ } -+ -+ if (packetsize > remsize) { -+ /* frame truncation handling */ -+ if (acx_debug & L_USBRXTX) { -+ printk("need to truncate packet, " -+ "packetsize=%d remsize=%d " -+ "size=%d bytes:", -+ packetsize, remsize, size); -+ acx_dump_bytes(ptr, RXBUF_HDRSIZE); -+ } -+ memcpy(&adev->rxtruncbuf, ptr, remsize); -+ adev->rxtruncsize = remsize; -+ break; -+ } -+ -+ /* packetsize <= remsize */ -+ /* now handle the received data */ -+ acx_l_process_rxbuf(adev, ptr); -+next: -+ ptr = (rxbuffer_t *)(((char *)ptr) + packetsize); -+ remsize -= packetsize; -+ if ((acx_debug & L_USBRXTX) && remsize) { -+ printk("more than one packet in buffer, " -+ "second packet hdr:"); -+ acx_dump_bytes(ptr, RXBUF_HDRSIZE); -+ } -+ } -+ -+end_unlock: -+ acx_unlock(adev, flags); -+/* end: */ -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+** acxusb_i_complete_tx() -+** Inputs: -+** urb -> pointer to USB request block -+** regs -> pointer to register-buffer for syscalls (see asm/ptrace.h) -+** -+** This function is invoked upon termination of a USB transfer. -+*/ -+static void -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 19) -+acxusb_i_complete_tx(struct urb *urb) -+#else -+acxusb_i_complete_tx(struct urb *urb, struct pt_regs *regs) -+#endif -+{ -+ acx_device_t *adev; -+ usb_tx_t *tx; -+ unsigned long flags; -+ int txnum; -+ -+ FN_ENTER; -+ -+ BUG_ON(!urb->context); -+ -+ tx = (usb_tx_t *)urb->context; -+ adev = tx->adev; -+ -+ txnum = tx - adev->usb_tx; -+ -+ acx_lock(adev, flags); -+ -+ /* -+ * If the iface isn't up, we don't have any right -+ * to play with them. The urb may get unlinked. -+ */ -+ if (unlikely(!(adev->dev_state_mask & ACX_STATE_IFACE_UP))) { -+ log(L_USBRXTX, "tx: device is down, not doing anything\n"); -+ goto end_unlock; -+ } -+ -+ log(L_USBRXTX, "RETURN TX (%d): status=%d size=%d\n", -+ txnum, urb->status, urb->actual_length); -+ -+ /* handle USB transfer errors */ -+ switch (urb->status) { -+ case 0: /* No error */ -+ break; -+ case -ESHUTDOWN: -+ goto end_unlock; -+ break; -+ case -ECONNRESET: -+ goto end_unlock; -+ break; -+ /* FIXME: real error-handling code here please */ -+ default: -+ printk(KERN_ERR "acx: tx error, urb status=%d\n", urb->status); -+ /* FIXME: real error-handling code here please */ -+ } -+ -+ /* free the URB and check for more data */ -+ tx->busy = 0; -+ adev->tx_free++; -+ if ((adev->tx_free >= TX_START_QUEUE) -+ && (adev->status == ACX_STATUS_4_ASSOCIATED) -+ && (acx_queue_stopped(adev->ndev)) -+ ) { -+ log(L_BUF, "tx: wake queue (%u free txbufs)\n", -+ adev->tx_free); -+ acx_wake_queue(adev->ndev, NULL); -+ } -+ -+end_unlock: -+ acx_unlock(adev, flags); -+/* end: */ -+ FN_EXIT0; -+} -+ -+ -+/*************************************************************** -+** acxusb_l_alloc_tx -+** Actually returns a usb_tx_t* ptr -+*/ -+tx_t* -+acxusb_l_alloc_tx(acx_device_t *adev) -+{ -+ usb_tx_t *tx; -+ unsigned head; -+ -+ FN_ENTER; -+ -+ head = adev->tx_head; -+ do { -+ head = (head + 1) % ACX_TX_URB_CNT; -+ if (!adev->usb_tx[head].busy) { -+ log(L_USBRXTX, "allocated tx %d\n", head); -+ tx = &adev->usb_tx[head]; -+ tx->busy = 1; -+ adev->tx_free--; -+ /* Keep a few free descs between head and tail of tx ring. -+ ** It is not absolutely needed, just feels safer */ -+ if (adev->tx_free < TX_STOP_QUEUE) { -+ log(L_BUF, "tx: stop queue " -+ "(%u free txbufs)\n", adev->tx_free); -+ acx_stop_queue(adev->ndev, NULL); -+ } -+ goto end; -+ } -+ } while (likely(head!=adev->tx_head)); -+ tx = NULL; -+ printk_ratelimited("acx: tx buffers full\n"); -+end: -+ adev->tx_head = head; -+ FN_EXIT0; -+ return (tx_t*)tx; -+} -+ -+ -+/*************************************************************** -+** Used if alloc_tx()'ed buffer needs to be cancelled without doing tx -+*/ -+void -+acxusb_l_dealloc_tx(tx_t *tx_opaque) -+{ -+ usb_tx_t* tx = (usb_tx_t*)tx_opaque; -+ tx->busy = 0; -+} -+ -+ -+/*************************************************************** -+*/ -+void* -+acxusb_l_get_txbuf(acx_device_t *adev, tx_t* tx_opaque) -+{ -+ usb_tx_t* tx = (usb_tx_t*)tx_opaque; -+ return &tx->bulkout.data; -+} -+ -+ -+/*************************************************************** -+** acxusb_l_tx_data -+** -+** Can be called from IRQ (rx -> (AP bridging or mgmt response) -> tx). -+** Can be called from acx_i_start_xmit (data frames from net core). -+*/ -+void -+acxusb_l_tx_data(acx_device_t *adev, tx_t* tx_opaque, int wlanpkt_len) -+{ -+ struct usb_device *usbdev; -+ struct urb* txurb; -+ usb_tx_t* tx; -+ usb_txbuffer_t* txbuf; -+ client_t *clt; -+ wlan_hdr_t* whdr; -+ unsigned int outpipe; -+ int ucode, txnum; -+ -+ FN_ENTER; -+ -+ tx = ((usb_tx_t *)tx_opaque); -+ txurb = tx->urb; -+ txbuf = &tx->bulkout; -+ whdr = (wlan_hdr_t *)txbuf->data; -+ txnum = tx - adev->usb_tx; -+ -+ log(L_DEBUG, "using buf#%d free=%d len=%d\n", -+ txnum, adev->tx_free, wlanpkt_len); -+ -+ switch (adev->mode) { -+ case ACX_MODE_0_ADHOC: -+ case ACX_MODE_3_AP: -+ clt = acx_l_sta_list_get(adev, whdr->a1); -+ break; -+ case ACX_MODE_2_STA: -+ clt = adev->ap_client; -+ break; -+ default: /* ACX_MODE_OFF, ACX_MODE_MONITOR */ -+ clt = NULL; -+ break; -+ } -+ -+ if (unlikely(clt && !clt->rate_cur)) { -+ printk("acx: driver bug! bad ratemask\n"); -+ goto end; -+ } -+ -+ /* fill the USB transfer header */ -+ txbuf->desc = cpu_to_le16(USB_TXBUF_TXDESC); -+ txbuf->mpdu_len = cpu_to_le16(wlanpkt_len); -+ txbuf->queue_index = 1; -+ if (clt) { -+ txbuf->rate = clt->rate_100; -+ txbuf->hostdata = (clt - adev->sta_list) | (clt->rate_cur << 16); -+ } else { -+ txbuf->rate = adev->rate_bcast100; -+ txbuf->hostdata = ((u16)-1) | (adev->rate_bcast << 16); -+ } -+ txbuf->ctrl1 = DESC_CTL_FIRSTFRAG; -+ if (1 == adev->preamble_cur) -+ SET_BIT(txbuf->ctrl1, DESC_CTL_SHORT_PREAMBLE); -+ txbuf->ctrl2 = 0; -+ txbuf->data_len = cpu_to_le16(wlanpkt_len); -+ -+ if (unlikely(acx_debug & L_DATA)) { -+ printk("dump of bulk out urb:\n"); -+ acx_dump_bytes(txbuf, wlanpkt_len + USB_TXBUF_HDRSIZE); -+ } -+ -+ if (unlikely(txurb->status == -EINPROGRESS)) { -+ printk("acx: trying to submit tx urb while already in progress\n"); -+ } -+ -+ /* now schedule the USB transfer */ -+ usbdev = adev->usbdev; -+ outpipe = usb_sndbulkpipe(usbdev, adev->bulkoutep); -+ -+ usb_fill_bulk_urb(txurb, usbdev, outpipe, -+ txbuf, /* dataptr */ -+ wlanpkt_len + USB_TXBUF_HDRSIZE, /* size */ -+ acxusb_i_complete_tx, /* handler */ -+ tx /* handler param */ -+ ); -+ -+ txurb->transfer_flags = URB_ASYNC_UNLINK|URB_ZERO_PACKET; -+ ucode = usb_submit_urb(txurb, GFP_ATOMIC); -+ log(L_USBRXTX, "SUBMIT TX (%d): outpipe=0x%X buf=%p txsize=%d " -+ "rate=%u errcode=%d\n", txnum, outpipe, txbuf, -+ wlanpkt_len + USB_TXBUF_HDRSIZE, txbuf->rate, ucode); -+ -+ if (unlikely(ucode)) { -+ printk(KERN_ERR "acx: submit_urb() error=%d txsize=%d\n", -+ ucode, wlanpkt_len + USB_TXBUF_HDRSIZE); -+ -+ /* on error, just mark the frame as done and update -+ ** the statistics -+ */ -+ adev->stats.tx_errors++; -+ tx->busy = 0; -+ adev->tx_free++; -+ /* needed? if (adev->tx_free > TX_START_QUEUE) acx_wake_queue(...) */ -+ } -+end: -+ FN_EXIT0; -+} -+ -+ -+/*********************************************************************** -+*/ -+static void -+acxusb_i_set_rx_mode(struct net_device *ndev) -+{ -+} -+ -+ -+/*********************************************************************** -+*/ -+#ifdef HAVE_TX_TIMEOUT -+static void -+acxusb_i_tx_timeout(struct net_device *ndev) -+{ -+ acx_device_t *adev = ndev2adev(ndev); -+ unsigned long flags; -+ int i; -+ -+ FN_ENTER; -+ -+ acx_lock(adev, flags); -+ /* unlink the URBs */ -+ for (i = 0; i < ACX_TX_URB_CNT; i++) { -+ acxusb_unlink_urb(adev->usb_tx[i].urb); -+ adev->usb_tx[i].busy = 0; -+ } -+ adev->tx_free = ACX_TX_URB_CNT; -+ /* TODO: stats update */ -+ acx_unlock(adev, flags); -+ -+ FN_EXIT0; -+} -+#endif -+ -+ -+/*********************************************************************** -+** init_module() -+** -+** This function is invoked upon loading of the kernel module. -+** It registers itself at the kernel's USB subsystem. -+** -+** Returns: Errorcode on failure, 0 on success -+*/ -+int __init -+acxusb_e_init_module(void) -+{ -+ log(L_INIT, "USB module " ACX_RELEASE " initialized, " -+ "probing for devices...\n"); -+ return usb_register(&acxusb_driver); -+} -+ -+ -+ -+/*********************************************************************** -+** cleanup_module() -+** -+** This function is invoked as last step of the module unloading. It simply -+** deregisters this module at the kernel's USB subsystem. -+*/ -+void __exit -+acxusb_e_cleanup_module() -+{ -+ usb_deregister(&acxusb_driver); -+} -+ -+ -+/*********************************************************************** -+** DEBUG STUFF -+*/ -+#if ACX_DEBUG -+ -+#ifdef UNUSED -+static void -+dump_device(struct usb_device *usbdev) -+{ -+ int i; -+ struct usb_config_descriptor *cd; -+ -+ printk("acx device dump:\n"); -+ printk(" devnum: %d\n", usbdev->devnum); -+ printk(" speed: %d\n", usbdev->speed); -+ printk(" tt: 0x%X\n", (unsigned int)(usbdev->tt)); -+ printk(" ttport: %d\n", (unsigned int)(usbdev->ttport)); -+ printk(" toggle[0]: 0x%X toggle[1]: 0x%X\n", (unsigned int)(usbdev->toggle[0]), (unsigned int)(usbdev->toggle[1])); -+#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 11) -+ /* This saw a change after 2.6.10 */ -+ printk(" ep_in wMaxPacketSize: "); -+ for (i = 0; i < 16; ++i) -+ if (usbdev->ep_in[i] != NULL) -+ printk("%d:%d ", i, usbdev->ep_in[i]->desc.wMaxPacketSize); -+ printk("\n"); -+ printk(" ep_out wMaxPacketSize: "); -+ for (i = 0; i < VEC_SIZE(usbdev->ep_out); ++i) -+ if (usbdev->ep_out[i] != NULL) -+ printk("%d:%d ", i, usbdev->ep_out[i]->desc.wMaxPacketSize); -+ printk("\n"); -+#else -+ printk(" epmaxpacketin: "); -+ for (i = 0; i < 16; i++) -+ printk("%d ", usbdev->epmaxpacketin[i]); -+ printk("\n"); -+ printk(" epmaxpacketout: "); -+ for (i = 0; i < 16; i++) -+ printk("%d ", usbdev->epmaxpacketout[i]); -+ printk("\n"); -+#endif -+ printk(" parent: 0x%X\n", (unsigned int)usbdev->parent); -+ printk(" bus: 0x%X\n", (unsigned int)usbdev->bus); -+#ifdef NO_DATATYPE -+ printk(" configs: "); -+ for (i = 0; i < usbdev->descriptor.bNumConfigurations; i++) -+ printk("0x%X ", usbdev->config[i]); -+ printk("\n"); -+#endif -+ printk(" actconfig: %p\n", usbdev->actconfig); -+ dump_device_descriptor(&usbdev->descriptor); -+ -+ cd = &usbdev->config->desc; -+ dump_config_descriptor(cd); -+} -+ -+ -+/*********************************************************************** -+*/ -+static void -+dump_config_descriptor(struct usb_config_descriptor *cd) -+{ -+ printk("Configuration Descriptor:\n"); -+ if (!cd) { -+ printk("NULL\n"); -+ return; -+ } -+ printk(" bLength: %d (0x%X)\n", cd->bLength, cd->bLength); -+ printk(" bDescriptorType: %d (0x%X)\n", cd->bDescriptorType, cd->bDescriptorType); -+ printk(" bNumInterfaces: %d (0x%X)\n", cd->bNumInterfaces, cd->bNumInterfaces); -+ printk(" bConfigurationValue: %d (0x%X)\n", cd->bConfigurationValue, cd->bConfigurationValue); -+ printk(" iConfiguration: %d (0x%X)\n", cd->iConfiguration, cd->iConfiguration); -+ printk(" bmAttributes: %d (0x%X)\n", cd->bmAttributes, cd->bmAttributes); -+ /* printk(" MaxPower: %d (0x%X)\n", cd->bMaxPower, cd->bMaxPower); */ -+} -+ -+ -+static void -+dump_device_descriptor(struct usb_device_descriptor *dd) -+{ -+ printk("Device Descriptor:\n"); -+ if (!dd) { -+ printk("NULL\n"); -+ return; -+ } -+ printk(" bLength: %d (0x%X)\n", dd->bLength, dd->bLength); -+ printk(" bDescriptortype: %d (0x%X)\n", dd->bDescriptorType, dd->bDescriptorType); -+ printk(" bcdUSB: %d (0x%X)\n", dd->bcdUSB, dd->bcdUSB); -+ printk(" bDeviceClass: %d (0x%X)\n", dd->bDeviceClass, dd->bDeviceClass); -+ printk(" bDeviceSubClass: %d (0x%X)\n", dd->bDeviceSubClass, dd->bDeviceSubClass); -+ printk(" bDeviceProtocol: %d (0x%X)\n", dd->bDeviceProtocol, dd->bDeviceProtocol); -+ printk(" bMaxPacketSize0: %d (0x%X)\n", dd->bMaxPacketSize0, dd->bMaxPacketSize0); -+ printk(" idVendor: %d (0x%X)\n", dd->idVendor, dd->idVendor); -+ printk(" idProduct: %d (0x%X)\n", dd->idProduct, dd->idProduct); -+ printk(" bcdDevice: %d (0x%X)\n", dd->bcdDevice, dd->bcdDevice); -+ printk(" iManufacturer: %d (0x%X)\n", dd->iManufacturer, dd->iManufacturer); -+ printk(" iProduct: %d (0x%X)\n", dd->iProduct, dd->iProduct); -+ printk(" iSerialNumber: %d (0x%X)\n", dd->iSerialNumber, dd->iSerialNumber); -+ printk(" bNumConfigurations: %d (0x%X)\n", dd->bNumConfigurations, dd->bNumConfigurations); -+} -+#endif /* UNUSED */ -+ -+#endif /* ACX_DEBUG */ -Index: linux-2.6.22/drivers/net/wireless/acx/wlan.c -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/wlan.c 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,424 @@ -+/*********************************************************************** -+** Copyright (C) 2003 ACX100 Open Source Project -+** -+** The contents of this file are subject to the Mozilla Public -+** License Version 1.1 (the "License"); you may not use this file -+** except in compliance with the License. You may obtain a copy of -+** the License at http://www.mozilla.org/MPL/ -+** -+** Software distributed under the License is distributed on an "AS -+** IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -+** implied. See the License for the specific language governing -+** rights and limitations under the License. -+** -+** Alternatively, the contents of this file may be used under the -+** terms of the GNU Public License version 2 (the "GPL"), in which -+** case the provisions of the GPL are applicable instead of the -+** above. If you wish to allow the use of your version of this file -+** only under the terms of the GPL and not to allow others to use -+** your version of this file under the MPL, indicate your decision -+** by deleting the provisions above and replace them with the notice -+** and other provisions required by the GPL. If you do not delete -+** the provisions above, a recipient may use your version of this -+** file under either the MPL or the GPL. -+** --------------------------------------------------------------------- -+** Inquiries regarding the ACX100 Open Source Project can be -+** made directly to: -+** -+** acx100-users@lists.sf.net -+** http://acx100.sf.net -+** --------------------------------------------------------------------- -+*/ -+ -+/*********************************************************************** -+** This code is based on elements which are -+** Copyright (C) 1999 AbsoluteValue Systems, Inc. All Rights Reserved. -+** info@linux-wlan.com -+** http://www.linux-wlan.com -+*/ -+ -+#include <linux/version.h> -+#if LINUX_VERSION_CODE <= KERNEL_VERSION(2, 6, 18) -+#include <linux/config.h> -+#endif -+#include <linux/types.h> -+#include <linux/if_arp.h> -+#include <linux/wireless.h> -+#include <net/iw_handler.h> -+ -+#include "acx.h" -+ -+ -+/*********************************************************************** -+*/ -+#define LOG_BAD_EID(hdr,len,ie_ptr) acx_log_bad_eid(hdr, len, ((wlan_ie_t*)ie_ptr)) -+ -+#define IE_EID(ie_ptr) (((wlan_ie_t*)(ie_ptr))->eid) -+#define IE_LEN(ie_ptr) (((wlan_ie_t*)(ie_ptr))->len) -+#define OFFSET(hdr,off) (WLAN_HDR_A3_DATAP(hdr) + (off)) -+ -+ -+/*********************************************************************** -+** wlan_mgmt_decode_XXX -+** -+** Given a complete frame in f->hdr, sets the pointers in f to -+** the areas that correspond to the parts of the frame. -+** -+** Assumptions: -+** 1) f->len and f->hdr are already set -+** 2) f->len is the length of the MAC header + data, the FCS -+** is NOT included -+** 3) all members except len and hdr are zero -+** Arguments: -+** f frame structure -+** -+** Returns: -+** nothing -+** -+** Side effects: -+** frame structure members are pointing at their -+** respective portions of the frame buffer. -+*/ -+void -+wlan_mgmt_decode_beacon(wlan_fr_beacon_t * f) -+{ -+ u8 *ie_ptr; -+ u8 *end = (u8*)f->hdr + f->len; -+ -+ f->type = WLAN_FSTYPE_BEACON; -+ -+ /*-- Fixed Fields ----*/ -+ f->ts = (u64 *) OFFSET(f->hdr, WLAN_BEACON_OFF_TS); -+ f->bcn_int = (u16 *) OFFSET(f->hdr, WLAN_BEACON_OFF_BCN_INT); -+ f->cap_info = (u16 *) OFFSET(f->hdr, WLAN_BEACON_OFF_CAPINFO); -+ -+ /*-- Information elements */ -+ ie_ptr = OFFSET(f->hdr, WLAN_BEACON_OFF_SSID); -+ while (ie_ptr < end) { -+ switch (IE_EID(ie_ptr)) { -+ case WLAN_EID_SSID: -+ f->ssid = (wlan_ie_ssid_t *) ie_ptr; -+ break; -+ case WLAN_EID_SUPP_RATES: -+ f->supp_rates = (wlan_ie_supp_rates_t *) ie_ptr; -+ break; -+ case WLAN_EID_EXT_RATES: -+ f->ext_rates = (wlan_ie_supp_rates_t *) ie_ptr; -+ break; -+ case WLAN_EID_FH_PARMS: -+ f->fh_parms = (wlan_ie_fh_parms_t *) ie_ptr; -+ break; -+ case WLAN_EID_DS_PARMS: -+ f->ds_parms = (wlan_ie_ds_parms_t *) ie_ptr; -+ break; -+ case WLAN_EID_CF_PARMS: -+ f->cf_parms = (wlan_ie_cf_parms_t *) ie_ptr; -+ break; -+ case WLAN_EID_IBSS_PARMS: -+ f->ibss_parms = (wlan_ie_ibss_parms_t *) ie_ptr; -+ break; -+ case WLAN_EID_TIM: -+ f->tim = (wlan_ie_tim_t *) ie_ptr; -+ break; -+ case WLAN_EID_ERP_INFO: -+ f->erp = (wlan_ie_erp_t *) ie_ptr; -+ break; -+ -+ case WLAN_EID_COUNTRY: -+ /* was seen: 07 06 47 42 20 01 0D 14 */ -+ case WLAN_EID_PWR_CONSTRAINT: -+ /* was seen by Ashwin Mansinghka <ashwin_man@yahoo.com> from -+ Atheros-based PCI card in AP mode using madwifi drivers: */ -+ /* 20 01 00 */ -+ case WLAN_EID_NONERP: -+ /* was seen from WRT54GS with OpenWrt: 2F 01 07 */ -+ case WLAN_EID_UNKNOWN128: -+ /* was seen by Jacek Jablonski <conexion2000@gmail.com> from Orinoco AP */ -+ /* 80 06 00 60 1D 2C 3B 00 */ -+ case WLAN_EID_UNKNOWN133: -+ /* was seen by David Bronaugh <dbronaugh@linuxboxen.org> from ???? */ -+ /* 85 1E 00 00 84 12 07 00 FF 00 11 00 61 70 63 31 */ -+ /* 63 73 72 30 34 32 00 00 00 00 00 00 00 00 00 25 */ -+ case WLAN_EID_UNKNOWN223: -+ /* was seen by Carlos Martin <carlosmn@gmail.com> from ???? */ -+ /* DF 20 01 1E 04 00 00 00 06 63 09 02 FF 0F 30 30 */ -+ /* 30 42 36 42 33 34 30 39 46 31 00 00 00 00 00 00 00 00 */ -+ case WLAN_EID_GENERIC: -+ /* WPA: hostap code: -+ if (pos[1] >= 4 && -+ pos[2] == 0x00 && pos[3] == 0x50 && -+ pos[4] == 0xf2 && pos[5] == 1) { -+ wpa = pos; -+ wpa_len = pos[1] + 2; -+ } -+ TI x4 mode: seen DD 04 08 00 28 00 -+ (08 00 28 is TI's OUI) -+ last byte is probably 0/1 - disabled/enabled -+ */ -+ case WLAN_EID_RSN: -+ /* hostap does something with it: -+ rsn = pos; -+ rsn_len = pos[1] + 2; -+ */ -+ break; -+ -+ default: -+ LOG_BAD_EID(f->hdr, f->len, ie_ptr); -+ break; -+ } -+ ie_ptr = ie_ptr + 2 + IE_LEN(ie_ptr); -+ } -+} -+ -+ -+#ifdef UNUSED -+void wlan_mgmt_decode_ibssatim(wlan_fr_ibssatim_t * f) -+{ -+ f->type = WLAN_FSTYPE_ATIM; -+ /*-- Fixed Fields ----*/ -+ /*-- Information elements */ -+} -+#endif /* UNUSED */ -+ -+void -+wlan_mgmt_decode_disassoc(wlan_fr_disassoc_t * f) -+{ -+ f->type = WLAN_FSTYPE_DISASSOC; -+ -+ /*-- Fixed Fields ----*/ -+ f->reason = (u16 *) OFFSET(f->hdr, WLAN_DISASSOC_OFF_REASON); -+ -+ /*-- Information elements */ -+} -+ -+ -+void -+wlan_mgmt_decode_assocreq(wlan_fr_assocreq_t * f) -+{ -+ u8 *ie_ptr; -+ u8 *end = (u8*)f->hdr + f->len; -+ -+ -+ f->type = WLAN_FSTYPE_ASSOCREQ; -+ -+ /*-- Fixed Fields ----*/ -+ f->cap_info = (u16 *) OFFSET(f->hdr, WLAN_ASSOCREQ_OFF_CAP_INFO); -+ f->listen_int = (u16 *) OFFSET(f->hdr, WLAN_ASSOCREQ_OFF_LISTEN_INT); -+ -+ /*-- Information elements */ -+ ie_ptr = OFFSET(f->hdr, WLAN_ASSOCREQ_OFF_SSID); -+ while (ie_ptr < end) { -+ switch (IE_EID(ie_ptr)) { -+ case WLAN_EID_SSID: -+ f->ssid = (wlan_ie_ssid_t *) ie_ptr; -+ break; -+ case WLAN_EID_SUPP_RATES: -+ f->supp_rates = (wlan_ie_supp_rates_t *) ie_ptr; -+ break; -+ case WLAN_EID_EXT_RATES: -+ f->ext_rates = (wlan_ie_supp_rates_t *) ie_ptr; -+ break; -+ default: -+ LOG_BAD_EID(f->hdr, f->len, ie_ptr); -+ break; -+ } -+ ie_ptr = ie_ptr + 2 + IE_LEN(ie_ptr); -+ } -+} -+ -+ -+void -+wlan_mgmt_decode_assocresp(wlan_fr_assocresp_t * f) -+{ -+ f->type = WLAN_FSTYPE_ASSOCRESP; -+ -+ /*-- Fixed Fields ----*/ -+ f->cap_info = (u16 *) OFFSET(f->hdr, WLAN_ASSOCRESP_OFF_CAP_INFO); -+ f->status = (u16 *) OFFSET(f->hdr, WLAN_ASSOCRESP_OFF_STATUS); -+ f->aid = (u16 *) OFFSET(f->hdr, WLAN_ASSOCRESP_OFF_AID); -+ -+ /*-- Information elements */ -+ f->supp_rates = (wlan_ie_supp_rates_t *) -+ OFFSET(f->hdr, WLAN_ASSOCRESP_OFF_SUPP_RATES); -+} -+ -+ -+#ifdef UNUSED -+void -+wlan_mgmt_decode_reassocreq(wlan_fr_reassocreq_t * f) -+{ -+ u8 *ie_ptr; -+ u8 *end = (u8*)f->hdr + f->len; -+ -+ f->type = WLAN_FSTYPE_REASSOCREQ; -+ -+ /*-- Fixed Fields ----*/ -+ f->cap_info = (u16 *) OFFSET(f->hdr, WLAN_REASSOCREQ_OFF_CAP_INFO); -+ f->listen_int = (u16 *) OFFSET(f->hdr, WLAN_REASSOCREQ_OFF_LISTEN_INT); -+ f->curr_ap = (u8 *) OFFSET(f->hdr, WLAN_REASSOCREQ_OFF_CURR_AP); -+ -+ /*-- Information elements */ -+ ie_ptr = OFFSET(f->hdr, WLAN_REASSOCREQ_OFF_SSID); -+ while (ie_ptr < end) { -+ switch (IE_EID(ie_ptr)) { -+ case WLAN_EID_SSID: -+ f->ssid = (wlan_ie_ssid_t *) ie_ptr; -+ break; -+ case WLAN_EID_SUPP_RATES: -+ f->supp_rates = (wlan_ie_supp_rates_t *) ie_ptr; -+ break; -+ case WLAN_EID_EXT_RATES: -+ f->ext_rates = (wlan_ie_supp_rates_t *) ie_ptr; -+ break; -+ default: -+ LOG_BAD_EID(f->hdr, f->len, ie_ptr); -+ break; -+ } -+ ie_ptr = ie_ptr + 2 + IE_LEN(ie_ptr); -+ } -+} -+ -+ -+void -+wlan_mgmt_decode_reassocresp(wlan_fr_reassocresp_t * f) -+{ -+ f->type = WLAN_FSTYPE_REASSOCRESP; -+ -+ /*-- Fixed Fields ----*/ -+ f->cap_info = (u16 *) OFFSET(f->hdr, WLAN_REASSOCRESP_OFF_CAP_INFO); -+ f->status = (u16 *) OFFSET(f->hdr, WLAN_REASSOCRESP_OFF_STATUS); -+ f->aid = (u16 *) OFFSET(f->hdr, WLAN_REASSOCRESP_OFF_AID); -+ -+ /*-- Information elements */ -+ f->supp_rates = (wlan_ie_supp_rates_t *) -+ OFFSET(f->hdr, WLAN_REASSOCRESP_OFF_SUPP_RATES); -+} -+ -+ -+void -+wlan_mgmt_decode_probereq(wlan_fr_probereq_t * f) -+{ -+ u8 *ie_ptr; -+ u8 *end = (u8*)f->hdr + f->len; -+ -+ f->type = WLAN_FSTYPE_PROBEREQ; -+ -+ /*-- Fixed Fields ----*/ -+ -+ /*-- Information elements */ -+ ie_ptr = OFFSET(f->hdr, WLAN_PROBEREQ_OFF_SSID); -+ while (ie_ptr < end) { -+ switch (IE_EID(ie_ptr)) { -+ case WLAN_EID_SSID: -+ f->ssid = (wlan_ie_ssid_t *) ie_ptr; -+ break; -+ case WLAN_EID_SUPP_RATES: -+ f->supp_rates = (wlan_ie_supp_rates_t *) ie_ptr; -+ break; -+ case WLAN_EID_EXT_RATES: -+ f->ext_rates = (wlan_ie_supp_rates_t *) ie_ptr; -+ break; -+ default: -+ LOG_BAD_EID(f->hdr, f->len, ie_ptr); -+ break; -+ } -+ ie_ptr = ie_ptr + 2 + IE_LEN(ie_ptr); -+ } -+} -+#endif /* UNUSED */ -+ -+ -+/* TODO: decoding of beacon and proberesp can be merged (similar structure) */ -+void -+wlan_mgmt_decode_proberesp(wlan_fr_proberesp_t * f) -+{ -+ u8 *ie_ptr; -+ u8 *end = (u8*)f->hdr + f->len; -+ -+ f->type = WLAN_FSTYPE_PROBERESP; -+ -+ /*-- Fixed Fields ----*/ -+ f->ts = (u64 *) OFFSET(f->hdr, WLAN_PROBERESP_OFF_TS); -+ f->bcn_int = (u16 *) OFFSET(f->hdr, WLAN_PROBERESP_OFF_BCN_INT); -+ f->cap_info = (u16 *) OFFSET(f->hdr, WLAN_PROBERESP_OFF_CAP_INFO); -+ -+ /*-- Information elements */ -+ ie_ptr = OFFSET(f->hdr, WLAN_PROBERESP_OFF_SSID); -+ while (ie_ptr < end) { -+ switch (IE_EID(ie_ptr)) { -+ case WLAN_EID_SSID: -+ f->ssid = (wlan_ie_ssid_t *) ie_ptr; -+ break; -+ case WLAN_EID_SUPP_RATES: -+ f->supp_rates = (wlan_ie_supp_rates_t *) ie_ptr; -+ break; -+ case WLAN_EID_EXT_RATES: -+ f->ext_rates = (wlan_ie_supp_rates_t *) ie_ptr; -+ break; -+ case WLAN_EID_FH_PARMS: -+ f->fh_parms = (wlan_ie_fh_parms_t *) ie_ptr; -+ break; -+ case WLAN_EID_DS_PARMS: -+ f->ds_parms = (wlan_ie_ds_parms_t *) ie_ptr; -+ break; -+ case WLAN_EID_CF_PARMS: -+ f->cf_parms = (wlan_ie_cf_parms_t *) ie_ptr; -+ break; -+ case WLAN_EID_IBSS_PARMS: -+ f->ibss_parms = (wlan_ie_ibss_parms_t *) ie_ptr; -+ break; -+#ifdef DONT_DO_IT_ADD_REAL_HANDLING_INSTEAD -+ case WLAN_EID_COUNTRY: -+ break; -+ ... -+#endif -+#ifdef SENT_HERE_BY_OPENWRT -+ /* should those be trapped or handled?? */ -+ case WLAN_EID_ERP_INFO: -+ break; -+ case WLAN_EID_NONERP: -+ break; -+ case WLAN_EID_GENERIC: -+ break; -+#endif -+ default: -+ LOG_BAD_EID(f->hdr, f->len, ie_ptr); -+ break; -+ } -+ -+ ie_ptr = ie_ptr + 2 + IE_LEN(ie_ptr); -+ } -+} -+ -+ -+void -+wlan_mgmt_decode_authen(wlan_fr_authen_t * f) -+{ -+ u8 *ie_ptr; -+ u8 *end = (u8*)f->hdr + f->len; -+ -+ f->type = WLAN_FSTYPE_AUTHEN; -+ -+ /*-- Fixed Fields ----*/ -+ f->auth_alg = (u16 *) OFFSET(f->hdr, WLAN_AUTHEN_OFF_AUTH_ALG); -+ f->auth_seq = (u16 *) OFFSET(f->hdr, WLAN_AUTHEN_OFF_AUTH_SEQ); -+ f->status = (u16 *) OFFSET(f->hdr, WLAN_AUTHEN_OFF_STATUS); -+ -+ /*-- Information elements */ -+ ie_ptr = OFFSET(f->hdr, WLAN_AUTHEN_OFF_CHALLENGE); -+ if ((ie_ptr < end) && (IE_EID(ie_ptr) == WLAN_EID_CHALLENGE)) { -+ f->challenge = (wlan_ie_challenge_t *) ie_ptr; -+ } -+} -+ -+ -+void -+wlan_mgmt_decode_deauthen(wlan_fr_deauthen_t * f) -+{ -+ f->type = WLAN_FSTYPE_DEAUTHEN; -+ -+ /*-- Fixed Fields ----*/ -+ f->reason = (u16 *) OFFSET(f->hdr, WLAN_DEAUTHEN_OFF_REASON); -+ -+ /*-- Information elements */ -+} -Index: linux-2.6.22/drivers/net/wireless/acx/wlan_compat.h -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/wlan_compat.h 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,260 @@ -+/*********************************************************************** -+** Copyright (C) 2003 ACX100 Open Source Project -+** -+** The contents of this file are subject to the Mozilla Public -+** License Version 1.1 (the "License"); you may not use this file -+** except in compliance with the License. You may obtain a copy of -+** the License at http://www.mozilla.org/MPL/ -+** -+** Software distributed under the License is distributed on an "AS -+** IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -+** implied. See the License for the specific language governing -+** rights and limitations under the License. -+** -+** Alternatively, the contents of this file may be used under the -+** terms of the GNU Public License version 2 (the "GPL"), in which -+** case the provisions of the GPL are applicable instead of the -+** above. If you wish to allow the use of your version of this file -+** only under the terms of the GPL and not to allow others to use -+** your version of this file under the MPL, indicate your decision -+** by deleting the provisions above and replace them with the notice -+** and other provisions required by the GPL. If you do not delete -+** the provisions above, a recipient may use your version of this -+** file under either the MPL or the GPL. -+** --------------------------------------------------------------------- -+** Inquiries regarding the ACX100 Open Source Project can be -+** made directly to: -+** -+** acx100-users@lists.sf.net -+** http://acx100.sf.net -+** --------------------------------------------------------------------- -+*/ -+ -+/*********************************************************************** -+** This code is based on elements which are -+** Copyright (C) 1999 AbsoluteValue Systems, Inc. All Rights Reserved. -+** info@linux-wlan.com -+** http://www.linux-wlan.com -+*/ -+ -+/*=============================================================*/ -+/*------ Establish Platform Identity --------------------------*/ -+/*=============================================================*/ -+/* Key macros: */ -+/* WLAN_CPU_FAMILY */ -+#define WLAN_Ix86 1 -+#define WLAN_PPC 2 -+#define WLAN_Ix96 3 -+#define WLAN_ARM 4 -+#define WLAN_ALPHA 5 -+#define WLAN_MIPS 6 -+#define WLAN_HPPA 7 -+#define WLAN_SPARC 8 -+#define WLAN_SH 9 -+#define WLAN_x86_64 10 -+/* WLAN_CPU_CORE */ -+#define WLAN_I386CORE 1 -+#define WLAN_PPCCORE 2 -+#define WLAN_I296 3 -+#define WLAN_ARMCORE 4 -+#define WLAN_ALPHACORE 5 -+#define WLAN_MIPSCORE 6 -+#define WLAN_HPPACORE 7 -+/* WLAN_CPU_PART */ -+#define WLAN_I386PART 1 -+#define WLAN_MPC860 2 -+#define WLAN_MPC823 3 -+#define WLAN_I296SA 4 -+#define WLAN_PPCPART 5 -+#define WLAN_ARMPART 6 -+#define WLAN_ALPHAPART 7 -+#define WLAN_MIPSPART 8 -+#define WLAN_HPPAPART 9 -+/* WLAN_SYSARCH */ -+#define WLAN_PCAT 1 -+#define WLAN_MBX 2 -+#define WLAN_RPX 3 -+#define WLAN_LWARCH 4 -+#define WLAN_PMAC 5 -+#define WLAN_SKIFF 6 -+#define WLAN_BITSY 7 -+#define WLAN_ALPHAARCH 7 -+#define WLAN_MIPSARCH 9 -+#define WLAN_HPPAARCH 10 -+/* WLAN_HOSTIF (generally set on the command line, not detected) */ -+#define WLAN_PCMCIA 1 -+#define WLAN_ISA 2 -+#define WLAN_PCI 3 -+#define WLAN_USB 4 -+#define WLAN_PLX 5 -+ -+/* Note: the PLX HOSTIF above refers to some vendors implementations for */ -+/* PCI. It's a PLX chip that is a PCI to PCMCIA adapter, but it */ -+/* isn't a real PCMCIA host interface adapter providing all the */ -+/* card&socket services. */ -+ -+#ifdef __powerpc__ -+#ifndef __ppc__ -+#define __ppc__ -+#endif -+#endif -+ -+#if (defined(CONFIG_PPC) || defined(CONFIG_8xx)) -+#ifndef __ppc__ -+#define __ppc__ -+#endif -+#endif -+ -+#if defined(__x86_64__) -+ #define WLAN_CPU_FAMILY WLAN_x86_64 -+ #define WLAN_SYSARCH WLAN_PCAT -+#elif defined(__i386__) || defined(__i486__) || defined(__i586__) || defined(__i686__) -+ #define WLAN_CPU_FAMILY WLAN_Ix86 -+ #define WLAN_CPU_CORE WLAN_I386CORE -+ #define WLAN_CPU_PART WLAN_I386PART -+ #define WLAN_SYSARCH WLAN_PCAT -+#elif defined(__ppc__) -+ #define WLAN_CPU_FAMILY WLAN_PPC -+ #define WLAN_CPU_CORE WLAN_PPCCORE -+ #if defined(CONFIG_MBX) -+ #define WLAN_CPU_PART WLAN_MPC860 -+ #define WLAN_SYSARCH WLAN_MBX -+ #elif defined(CONFIG_RPXLITE) -+ #define WLAN_CPU_PART WLAN_MPC823 -+ #define WLAN_SYSARCH WLAN_RPX -+ #elif defined(CONFIG_RPXCLASSIC) -+ #define WLAN_CPU_PART WLAN_MPC860 -+ #define WLAN_SYSARCH WLAN_RPX -+ #else -+ #define WLAN_CPU_PART WLAN_PPCPART -+ #define WLAN_SYSARCH WLAN_PMAC -+ #endif -+#elif defined(__arm__) -+ #define WLAN_CPU_FAMILY WLAN_ARM -+ #define WLAN_CPU_CORE WLAN_ARMCORE -+ #define WLAN_CPU_PART WLAN_ARM_PART -+ #define WLAN_SYSARCH WLAN_SKIFF -+#elif defined(__alpha__) -+ #define WLAN_CPU_FAMILY WLAN_ALPHA -+ #define WLAN_CPU_CORE WLAN_ALPHACORE -+ #define WLAN_CPU_PART WLAN_ALPHAPART -+ #define WLAN_SYSARCH WLAN_ALPHAARCH -+#elif defined(__mips__) -+ #define WLAN_CPU_FAMILY WLAN_MIPS -+ #define WLAN_CPU_CORE WLAN_MIPSCORE -+ #define WLAN_CPU_PART WLAN_MIPSPART -+ #define WLAN_SYSARCH WLAN_MIPSARCH -+#elif defined(__hppa__) -+ #define WLAN_CPU_FAMILY WLAN_HPPA -+ #define WLAN_CPU_CORE WLAN_HPPACORE -+ #define WLAN_CPU_PART WLAN_HPPAPART -+ #define WLAN_SYSARCH WLAN_HPPAARCH -+#elif defined(__sparc__) -+ #define WLAN_CPU_FAMILY WLAN_SPARC -+ #define WLAN_SYSARCH WLAN_SPARC -+#elif defined(__sh__) -+ #define WLAN_CPU_FAMILY WLAN_SH -+ #define WLAN_SYSARCH WLAN_SHARCH -+ #ifndef __LITTLE_ENDIAN__ -+ #define __LITTLE_ENDIAN__ -+ #endif -+#else -+ #error "No CPU identified!" -+#endif -+ -+/* -+ Some big endian machines implicitly do all I/O in little endian mode. -+ -+ In particular: -+ Linux/PPC on PowerMacs (PCI) -+ Arm/Intel Xscale (PCI) -+ -+ This may also affect PLX boards and other BE &| PPC platforms; -+ as new ones are discovered, add them below. -+*/ -+ -+#if ((WLAN_SYSARCH == WLAN_SKIFF) || (WLAN_SYSARCH == WLAN_PMAC)) -+#define REVERSE_ENDIAN -+#endif -+ -+/*=============================================================*/ -+/*------ Hardware Portability Macros --------------------------*/ -+/*=============================================================*/ -+#if (WLAN_CPU_FAMILY == WLAN_PPC) -+#define wlan_inw(a) in_be16((unsigned short *)((a)+_IO_BASE)) -+#define wlan_inw_le16_to_cpu(a) inw((a)) -+#define wlan_outw(v,a) out_be16((unsigned short *)((a)+_IO_BASE), (v)) -+#define wlan_outw_cpu_to_le16(v,a) outw((v),(a)) -+#else -+#define wlan_inw(a) inw((a)) -+#define wlan_inw_le16_to_cpu(a) __cpu_to_le16(inw((a))) -+#define wlan_outw(v,a) outw((v),(a)) -+#define wlan_outw_cpu_to_le16(v,a) outw(__cpu_to_le16((v)),(a)) -+#endif -+ -+/*=============================================================*/ -+/*------ Bit settings -----------------------------------------*/ -+/*=============================================================*/ -+#define ieee2host16(n) __le16_to_cpu(n) -+#define ieee2host32(n) __le32_to_cpu(n) -+#define host2ieee16(n) __cpu_to_le16(n) -+#define host2ieee32(n) __cpu_to_le32(n) -+ -+/* for constants */ -+#ifdef __LITTLE_ENDIAN -+ #define IEEE16(a,n) a = n, a##i = n, -+#else -+ #ifdef __BIG_ENDIAN -+ /* shifts would produce gcc warnings. Oh well... */ -+ #define IEEE16(a,n) a = n, a##i = ((n&0xff)*256 + ((n&0xff00)/256)), -+ #else -+ #error give me endianness or give me death -+ #endif -+#endif -+ -+/*=============================================================*/ -+/*------ Compiler Portability Macros --------------------------*/ -+/*=============================================================*/ -+#define WLAN_PACKED __attribute__ ((packed)) -+ -+/* Interrupt handler backwards compatibility stuff */ -+#ifndef IRQ_NONE -+#define IRQ_NONE -+#define IRQ_HANDLED -+typedef void irqreturn_t; -+#endif -+ -+#ifndef ARPHRD_IEEE80211_PRISM -+#define ARPHRD_IEEE80211_PRISM 802 -+#endif -+ -+#define ETH_P_80211_RAW (ETH_P_ECONET + 1) -+ -+/*============================================================================* -+ * Constants * -+ *============================================================================*/ -+#define WLAN_IEEE_OUI_LEN 3 -+ -+/*============================================================================* -+ * Types * -+ *============================================================================*/ -+ -+/* local ether header type */ -+typedef struct wlan_ethhdr { -+ u8 daddr[ETH_ALEN]; -+ u8 saddr[ETH_ALEN]; -+ u16 type; -+} WLAN_PACKED wlan_ethhdr_t; -+ -+/* local llc header type */ -+typedef struct wlan_llc { -+ u8 dsap; -+ u8 ssap; -+ u8 ctl; -+} WLAN_PACKED wlan_llc_t; -+ -+/* local snap header type */ -+typedef struct wlan_snap { -+ u8 oui[WLAN_IEEE_OUI_LEN]; -+ u16 type; -+} WLAN_PACKED wlan_snap_t; -Index: linux-2.6.22/drivers/net/wireless/acx/wlan_hdr.h -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/wlan_hdr.h 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,497 @@ -+/*********************************************************************** -+** Copyright (C) 2003 ACX100 Open Source Project -+** -+** The contents of this file are subject to the Mozilla Public -+** License Version 1.1 (the "License"); you may not use this file -+** except in compliance with the License. You may obtain a copy of -+** the License at http://www.mozilla.org/MPL/ -+** -+** Software distributed under the License is distributed on an "AS -+** IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -+** implied. See the License for the specific language governing -+** rights and limitations under the License. -+** -+** Alternatively, the contents of this file may be used under the -+** terms of the GNU Public License version 2 (the "GPL"), in which -+** case the provisions of the GPL are applicable instead of the -+** above. If you wish to allow the use of your version of this file -+** only under the terms of the GPL and not to allow others to use -+** your version of this file under the MPL, indicate your decision -+** by deleting the provisions above and replace them with the notice -+** and other provisions required by the GPL. If you do not delete -+** the provisions above, a recipient may use your version of this -+** file under either the MPL or the GPL. -+** --------------------------------------------------------------------- -+** Inquiries regarding the ACX100 Open Source Project can be -+** made directly to: -+** -+** acx100-users@lists.sf.net -+** http://acx100.sf.net -+** --------------------------------------------------------------------- -+*/ -+ -+/*********************************************************************** -+** This code is based on elements which are -+** Copyright (C) 1999 AbsoluteValue Systems, Inc. All Rights Reserved. -+** info@linux-wlan.com -+** http://www.linux-wlan.com -+*/ -+ -+/* mini-doc -+ -+Here are all 11b/11g/11a rates and modulations: -+ -+ 11b 11g 11a -+ --- --- --- -+ 1 |B |B | -+ 2 |Q |Q | -+ 5.5|Cp |C p| -+ 6 | |Od |O -+ 9 | |od |o -+11 |Cp |C p| -+12 | |Od |O -+18 | |od |o -+22 | | p| -+24 | |Od |O -+33 | | p| -+36 | |od |o -+48 | |od |o -+54 | |od |o -+ -+Mandatory: -+ B - DBPSK (Differential Binary Phase Shift Keying) -+ Q - DQPSK (Differential Quaternary Phase Shift Keying) -+ C - CCK (Complementary Code Keying, a form of DSSS -+ (Direct Sequence Spread Spectrum) modulation) -+ O - OFDM (Orthogonal Frequency Division Multiplexing) -+Optional: -+ o - OFDM -+ d - CCK-OFDM (also known as DSSS-OFDM) -+ p - PBCC (Packet Binary Convolutional Coding) -+ -+The term CCK-OFDM may be used interchangeably with DSSS-OFDM -+(the IEEE 802.11g-2003 standard uses the latter terminology). -+In the CCK-OFDM, the PLCP header of the frame uses the CCK form of DSSS, -+while the PLCP payload (the MAC frame) is modulated using OFDM. -+ -+Basically, you must use CCK-OFDM if you have mixed 11b/11g environment, -+or else (pure OFDM) 11b equipment may not realize that AP -+is sending a packet and start sending its own one. -+Sadly, looks like acx111 does not support CCK-OFDM, only pure OFDM. -+ -+Re PBCC: avoid using it. It makes sense only if you have -+TI "11b+" hardware. You _must_ use PBCC in order to reach 22Mbps on it. -+ -+Preambles: -+ -+Long preamble (at 1Mbit rate, takes 144 us): -+ 16 bytes ones -+ 2 bytes 0xF3A0 (lsb sent first) -+PLCP header follows (at 1Mbit also): -+ 1 byte Signal: speed, in 0.1Mbit units, except for: -+ 33Mbit: 33 (instead of 330 - doesn't fit in octet) -+ all CCK-OFDM rates: 30 -+ 1 byte Service -+ 0,1,4: reserved -+ 2: 1=locked clock -+ 3: 1=PBCC -+ 5: Length Extension (PBCC 22,33Mbit (11g only)) <- -+ 6: Length Extension (PBCC 22,33Mbit (11g only)) <- BLACK MAGIC HERE -+ 7: Length Extension <- -+ 2 bytes Length (time needed to tx this frame) -+ a) 5.5 Mbit/s CCK -+ Length = octets*8/5.5, rounded up to integer -+ b) 11 Mbit/s CCK -+ Length = octets*8/11, rounded up to integer -+ Service bit 7: -+ 0 = rounding took less than 8/11 -+ 1 = rounding took more than or equal to 8/11 -+ c) 5.5 Mbit/s PBCC -+ Length = (octets+1)*8/5.5, rounded up to integer -+ d) 11 Mbit/s PBCC -+ Length = (octets+1)*8/11, rounded up to integer -+ Service bit 7: -+ 0 = rounding took less than 8/11 -+ 1 = rounding took more than or equal to 8/11 -+ e) 22 Mbit/s PBCC -+ Length = (octets+1)*8/22, rounded up to integer -+ Service bits 6,7: -+ 00 = rounding took less than 8/22ths -+ 01 = rounding took 8/22...15/22ths -+ 10 = rounding took 16/22ths or more. -+ f) 33 Mbit/s PBCC -+ Length = (octets+1)*8/33, rounded up to integer -+ Service bits 5,6,7: -+ 000 rounding took less than 8/33 -+ 001 rounding took 8/33...15/33 -+ 010 rounding took 16/33...23/33 -+ 011 rounding took 24/33...31/33 -+ 100 rounding took 32/33 or more -+ 2 bytes CRC -+ -+PSDU follows (up to 2346 bytes at selected rate) -+ -+While Signal value alone is not enough to determine rate and modulation, -+Signal+Service is always sufficient. -+ -+Short preamble (at 1Mbit rate, takes 72 us): -+ 7 bytes zeroes -+ 2 bytes 0x05CF (lsb sent first) -+PLCP header follows *at 2Mbit/s*. Format is the same as in long preamble. -+PSDU follows (up to 2346 bytes at selected rate) -+ -+OFDM preamble is completely different, uses OFDM -+modulation from the start and thus easily identifiable. -+Not shown here. -+*/ -+ -+ -+/*********************************************************************** -+** Constants -+*/ -+ -+#define WLAN_HDR_A3_LEN 24 -+#define WLAN_HDR_A4_LEN 30 -+/* IV structure: -+** 3 bytes: Initialization Vector (24 bits) -+** 1 byte: 0..5: padding, must be 0; 6..7: key selector (0-3) -+*/ -+#define WLAN_WEP_IV_LEN 4 -+/* 802.11 says 2312 but looks like 2312 is a max size of _WEPed data_ */ -+#define WLAN_DATA_MAXLEN 2304 -+#define WLAN_WEP_ICV_LEN 4 -+#define WLAN_FCS_LEN 4 -+#define WLAN_A3FR_MAXLEN (WLAN_HDR_A3_LEN + WLAN_DATA_MAXLEN) -+#define WLAN_A4FR_MAXLEN (WLAN_HDR_A4_LEN + WLAN_DATA_MAXLEN) -+#define WLAN_A3FR_MAXLEN_FCS (WLAN_HDR_A3_LEN + WLAN_DATA_MAXLEN + 4) -+#define WLAN_A4FR_MAXLEN_FCS (WLAN_HDR_A4_LEN + WLAN_DATA_MAXLEN + 4) -+#define WLAN_A3FR_MAXLEN_WEP (WLAN_A3FR_MAXLEN + 8) -+#define WLAN_A4FR_MAXLEN_WEP (WLAN_A4FR_MAXLEN + 8) -+#define WLAN_A3FR_MAXLEN_WEP_FCS (WLAN_A3FR_MAXLEN_FCS + 8) -+#define WLAN_A4FR_MAXLEN_WEP_FCS (WLAN_A4FR_MAXLEN_FCS + 8) -+ -+#define WLAN_BSS_TS_LEN 8 -+#define WLAN_SSID_MAXLEN 32 -+#define WLAN_BEACON_FR_MAXLEN (WLAN_HDR_A3_LEN + 334) -+#define WLAN_ATIM_FR_MAXLEN (WLAN_HDR_A3_LEN + 0) -+#define WLAN_DISASSOC_FR_MAXLEN (WLAN_HDR_A3_LEN + 2) -+#define WLAN_ASSOCREQ_FR_MAXLEN (WLAN_HDR_A3_LEN + 48) -+#define WLAN_ASSOCRESP_FR_MAXLEN (WLAN_HDR_A3_LEN + 16) -+#define WLAN_REASSOCREQ_FR_MAXLEN (WLAN_HDR_A3_LEN + 54) -+#define WLAN_REASSOCRESP_FR_MAXLEN (WLAN_HDR_A3_LEN + 16) -+#define WLAN_PROBEREQ_FR_MAXLEN (WLAN_HDR_A3_LEN + 44) -+#define WLAN_PROBERESP_FR_MAXLEN (WLAN_HDR_A3_LEN + 78) -+#define WLAN_AUTHEN_FR_MAXLEN (WLAN_HDR_A3_LEN + 261) -+#define WLAN_DEAUTHEN_FR_MAXLEN (WLAN_HDR_A3_LEN + 2) -+#define WLAN_CHALLENGE_IE_LEN 130 -+#define WLAN_CHALLENGE_LEN 128 -+#define WLAN_WEP_MAXKEYLEN 13 -+#define WLAN_WEP_NKEYS 4 -+ -+/*--- Frame Control Field -------------------------------------*/ -+/* Frame Types */ -+#define WLAN_FTYPE_MGMT 0x00 -+#define WLAN_FTYPE_CTL 0x01 -+#define WLAN_FTYPE_DATA 0x02 -+ -+/* Frame subtypes */ -+/* Management */ -+#define WLAN_FSTYPE_ASSOCREQ 0x00 -+#define WLAN_FSTYPE_ASSOCRESP 0x01 -+#define WLAN_FSTYPE_REASSOCREQ 0x02 -+#define WLAN_FSTYPE_REASSOCRESP 0x03 -+#define WLAN_FSTYPE_PROBEREQ 0x04 -+#define WLAN_FSTYPE_PROBERESP 0x05 -+#define WLAN_FSTYPE_BEACON 0x08 -+#define WLAN_FSTYPE_ATIM 0x09 -+#define WLAN_FSTYPE_DISASSOC 0x0a -+#define WLAN_FSTYPE_AUTHEN 0x0b -+#define WLAN_FSTYPE_DEAUTHEN 0x0c -+ -+/* Control */ -+#define WLAN_FSTYPE_PSPOLL 0x0a -+#define WLAN_FSTYPE_RTS 0x0b -+#define WLAN_FSTYPE_CTS 0x0c -+#define WLAN_FSTYPE_ACK 0x0d -+#define WLAN_FSTYPE_CFEND 0x0e -+#define WLAN_FSTYPE_CFENDCFACK 0x0f -+ -+/* Data */ -+#define WLAN_FSTYPE_DATAONLY 0x00 -+#define WLAN_FSTYPE_DATA_CFACK 0x01 -+#define WLAN_FSTYPE_DATA_CFPOLL 0x02 -+#define WLAN_FSTYPE_DATA_CFACK_CFPOLL 0x03 -+#define WLAN_FSTYPE_NULL 0x04 -+#define WLAN_FSTYPE_CFACK 0x05 -+#define WLAN_FSTYPE_CFPOLL 0x06 -+#define WLAN_FSTYPE_CFACK_CFPOLL 0x07 -+ -+/*--- FC Constants v. 2.0 ------------------------------------*/ -+/* Each constant is defined twice: WF_CONST is in host */ -+/* byteorder, WF_CONSTi is in ieee byteorder. */ -+/* Usage: */ -+/* printf("the frame subtype is %X", WF_FC_FTYPEi & rx.fc); */ -+/* tx.fc = WF_FTYPE_CTLi | WF_FSTYPE_RTSi; */ -+/*------------------------------------------------------------*/ -+ -+enum { -+/*--- Frame Control Field -------------------------------------*/ -+/* Protocol version: always 0 for current 802.11 standards */ -+IEEE16(WF_FC_PVER, 0x0003) -+IEEE16(WF_FC_FTYPE, 0x000c) -+IEEE16(WF_FC_FSTYPE, 0x00f0) -+IEEE16(WF_FC_TODS, 0x0100) -+IEEE16(WF_FC_FROMDS, 0x0200) -+IEEE16(WF_FC_FROMTODS, 0x0300) -+IEEE16(WF_FC_MOREFRAG, 0x0400) -+IEEE16(WF_FC_RETRY, 0x0800) -+/* Indicates PS mode in which STA will be after successful completion -+** of current frame exchange sequence. Always 0 for AP frames */ -+IEEE16(WF_FC_PWRMGT, 0x1000) -+/* What MoreData=1 means: -+** From AP to STA in PS mode: don't sleep yet, I have more frames for you -+** From Contention-Free (CF) Pollable STA in response to a CF-Poll: -+** STA has buffered frames for transmission in response to next CF-Poll -+** Bcast/mcast frames transmitted from AP: -+** when additional bcast/mcast frames remain to be transmitted by AP -+** during this beacon interval -+** In all other cases MoreData=0 */ -+IEEE16(WF_FC_MOREDATA, 0x2000) -+IEEE16(WF_FC_ISWEP, 0x4000) -+IEEE16(WF_FC_ORDER, 0x8000) -+ -+/* Frame Types */ -+IEEE16(WF_FTYPE_MGMT, 0x00) -+IEEE16(WF_FTYPE_CTL, 0x04) -+IEEE16(WF_FTYPE_DATA, 0x08) -+ -+/* Frame subtypes */ -+/* Management */ -+IEEE16(WF_FSTYPE_ASSOCREQ, 0x00) -+IEEE16(WF_FSTYPE_ASSOCRESP, 0x10) -+IEEE16(WF_FSTYPE_REASSOCREQ, 0x20) -+IEEE16(WF_FSTYPE_REASSOCRESP, 0x30) -+IEEE16(WF_FSTYPE_PROBEREQ, 0x40) -+IEEE16(WF_FSTYPE_PROBERESP, 0x50) -+IEEE16(WF_FSTYPE_BEACON, 0x80) -+IEEE16(WF_FSTYPE_ATIM, 0x90) -+IEEE16(WF_FSTYPE_DISASSOC, 0xa0) -+IEEE16(WF_FSTYPE_AUTHEN, 0xb0) -+IEEE16(WF_FSTYPE_DEAUTHEN, 0xc0) -+ -+/* Control */ -+IEEE16(WF_FSTYPE_PSPOLL, 0xa0) -+IEEE16(WF_FSTYPE_RTS, 0xb0) -+IEEE16(WF_FSTYPE_CTS, 0xc0) -+IEEE16(WF_FSTYPE_ACK, 0xd0) -+IEEE16(WF_FSTYPE_CFEND, 0xe0) -+IEEE16(WF_FSTYPE_CFENDCFACK, 0xf0) -+ -+/* Data */ -+IEEE16(WF_FSTYPE_DATAONLY, 0x00) -+IEEE16(WF_FSTYPE_DATA_CFACK, 0x10) -+IEEE16(WF_FSTYPE_DATA_CFPOLL, 0x20) -+IEEE16(WF_FSTYPE_DATA_CFACK_CFPOLL, 0x30) -+IEEE16(WF_FSTYPE_NULL, 0x40) -+IEEE16(WF_FSTYPE_CFACK, 0x50) -+IEEE16(WF_FSTYPE_CFPOLL, 0x60) -+IEEE16(WF_FSTYPE_CFACK_CFPOLL, 0x70) -+}; -+ -+ -+/*********************************************************************** -+** Macros -+*/ -+ -+/*--- Duration Macros ----------------------------------------*/ -+/* Macros to get/set the bitfields of the Duration Field */ -+/* - the duration value is only valid when bit15 is zero */ -+/* - the firmware handles these values, so I'm not going */ -+/* to use these macros right now. */ -+/*------------------------------------------------------------*/ -+ -+/*--- Sequence Control Macros -------------------------------*/ -+/* Macros to get/set the bitfields of the Sequence Control */ -+/* Field. */ -+/*------------------------------------------------------------*/ -+#define WLAN_GET_SEQ_FRGNUM(n) ((u16)(n) & 0x000f) -+#define WLAN_GET_SEQ_SEQNUM(n) (((u16)(n) & 0xfff0) >> 4) -+ -+/*--- Data ptr macro -----------------------------------------*/ -+/* Creates a u8* to the data portion of a frame */ -+/* Assumes you're passing in a ptr to the beginning of the hdr*/ -+/*------------------------------------------------------------*/ -+#define WLAN_HDR_A3_DATAP(p) (((u8*)(p)) + WLAN_HDR_A3_LEN) -+#define WLAN_HDR_A4_DATAP(p) (((u8*)(p)) + WLAN_HDR_A4_LEN) -+ -+ -+/*********************************************************************** -+** Types -+*/ -+ -+/* 802.11 header type -+** -+** Note the following: -+** a1 *always* is receiver's mac or bcast/mcast -+** a2 *always* is transmitter's mac, if a2 exists -+** seq: [0:3] frag#, [4:15] seq# - used for dup detection -+** (dups from retries have same seq#) */ -+typedef struct wlan_hdr { -+ u16 fc; -+ u16 dur; -+ u8 a1[ETH_ALEN]; -+ u8 a2[ETH_ALEN]; -+ u8 a3[ETH_ALEN]; -+ u16 seq; -+ u8 a4[ETH_ALEN]; -+} WLAN_PACKED wlan_hdr_t; -+ -+/* Separate structs for use if frame type is known */ -+typedef struct wlan_hdr_a3 { -+ u16 fc; -+ u16 dur; -+ u8 a1[ETH_ALEN]; -+ u8 a2[ETH_ALEN]; -+ u8 a3[ETH_ALEN]; -+ u16 seq; -+} WLAN_PACKED wlan_hdr_a3_t; -+ -+typedef struct wlan_hdr_mgmt { -+ u16 fc; -+ u16 dur; -+ u8 da[ETH_ALEN]; -+ u8 sa[ETH_ALEN]; -+ u8 bssid[ETH_ALEN]; -+ u16 seq; -+} WLAN_PACKED wlan_hdr_mgmt_t; -+ -+#ifdef NOT_NEEDED_YET -+typedef struct { /* ad-hoc peer->peer (to/from DS = 0/0) */ -+ u16 fc; -+ u16 dur; -+ u8 da[ETH_ALEN]; -+ u8 sa[ETH_ALEN]; -+ u8 bssid[ETH_ALEN]; -+ u16 seq; -+} WLAN_PACKED ibss; -+typedef struct { /* ap->sta (to/from DS = 0/1) */ -+ u16 fc; -+ u16 dur; -+ u8 da[ETH_ALEN]; -+ u8 bssid[ETH_ALEN]; -+ u8 sa[ETH_ALEN]; -+ u16 seq; -+} WLAN_PACKED fromap; -+typedef struct { /* sta->ap (to/from DS = 1/0) */ -+ u16 fc; -+ u16 dur; -+ u8 bssid[ETH_ALEN]; -+ u8 sa[ETH_ALEN]; -+ u8 da[ETH_ALEN]; -+ u16 seq; -+} WLAN_PACKED toap; -+typedef struct { /* wds->wds (to/from DS = 1/1), the only 4addr pkt */ -+ u16 fc; -+ u16 dur; -+ u8 ra[ETH_ALEN]; -+ u8 ta[ETH_ALEN]; -+ u8 da[ETH_ALEN]; -+ u16 seq; -+ u8 sa[ETH_ALEN]; -+} WLAN_PACKED wds; -+typedef struct { /* all management packets */ -+ u16 fc; -+ u16 dur; -+ u8 da[ETH_ALEN]; -+ u8 sa[ETH_ALEN]; -+ u8 bssid[ETH_ALEN]; -+ u16 seq; -+} WLAN_PACKED mgmt; -+typedef struct { /* has no body, just a FCS */ -+ u16 fc; -+ u16 dur; -+ u8 ra[ETH_ALEN]; -+ u8 ta[ETH_ALEN]; -+} WLAN_PACKED rts; -+typedef struct { /* has no body, just a FCS */ -+ u16 fc; -+ u16 dur; -+ u8 ra[ETH_ALEN]; -+} WLAN_PACKED cts; -+typedef struct { /* has no body, just a FCS */ -+ u16 fc; -+ u16 dur; -+ u8 ra[ETH_ALEN]; -+} WLAN_PACKED ack; -+typedef struct { /* has no body, just a FCS */ -+ u16 fc; -+ /* NB: this one holds Assoc ID in dur field: */ -+ u16 aid; -+ u8 bssid[ETH_ALEN]; -+ u8 ta[ETH_ALEN]; -+} WLAN_PACKED pspoll; -+typedef struct { /* has no body, just a FCS */ -+ u16 fc; -+ u16 dur; -+ u8 ra[ETH_ALEN]; -+ u8 bssid[ETH_ALEN]; -+} WLAN_PACKED cfend; -+typedef struct { /* has no body, just a FCS */ -+ u16 fc; -+ u16 dur; -+ u8 ra[ETH_ALEN]; -+ u8 bssid[ETH_ALEN]; -+} WLAN_PACKED cfendcfack; -+#endif -+ -+/* Prism header emulation (monitor mode) */ -+typedef struct wlanitem_u32 { -+ u32 did; -+ u16 status; -+ u16 len; -+ u32 data; -+} WLAN_PACKED wlanitem_u32_t; -+#define WLANITEM_STATUS_data_ok 0 -+#define WLANITEM_STATUS_no_value 1 -+#define WLANITEM_STATUS_invalid_itemname 2 -+#define WLANITEM_STATUS_invalid_itemdata 3 -+#define WLANITEM_STATUS_missing_itemdata 4 -+#define WLANITEM_STATUS_incomplete_itemdata 5 -+#define WLANITEM_STATUS_invalid_msg_did 6 -+#define WLANITEM_STATUS_invalid_mib_did 7 -+#define WLANITEM_STATUS_missing_conv_func 8 -+#define WLANITEM_STATUS_string_too_long 9 -+#define WLANITEM_STATUS_data_out_of_range 10 -+#define WLANITEM_STATUS_string_too_short 11 -+#define WLANITEM_STATUS_missing_valid_func 12 -+#define WLANITEM_STATUS_unknown 13 -+#define WLANITEM_STATUS_invalid_did 14 -+#define WLANITEM_STATUS_missing_print_func 15 -+ -+#define WLAN_DEVNAMELEN_MAX 16 -+typedef struct wlansniffrm { -+ u32 msgcode; -+ u32 msglen; -+ u8 devname[WLAN_DEVNAMELEN_MAX]; -+ wlanitem_u32_t hosttime; -+ wlanitem_u32_t mactime; -+ wlanitem_u32_t channel; -+ wlanitem_u32_t rssi; -+ wlanitem_u32_t sq; -+ wlanitem_u32_t signal; -+ wlanitem_u32_t noise; -+ wlanitem_u32_t rate; -+ wlanitem_u32_t istx; /* tx? 0:no 1:yes */ -+ wlanitem_u32_t frmlen; -+} WLAN_PACKED wlansniffrm_t; -+#define WLANSNIFFFRM 0x0041 -+#define WLANSNIFFFRM_hosttime 0x1041 -+#define WLANSNIFFFRM_mactime 0x2041 -+#define WLANSNIFFFRM_channel 0x3041 -+#define WLANSNIFFFRM_rssi 0x4041 -+#define WLANSNIFFFRM_sq 0x5041 -+#define WLANSNIFFFRM_signal 0x6041 -+#define WLANSNIFFFRM_noise 0x7041 -+#define WLANSNIFFFRM_rate 0x8041 -+#define WLANSNIFFFRM_istx 0x9041 -+#define WLANSNIFFFRM_frmlen 0xA041 -Index: linux-2.6.22/drivers/net/wireless/acx/wlan_mgmt.h -=================================================================== ---- /dev/null 1970-01-01 00:00:00.000000000 +0000 -+++ linux-2.6.22/drivers/net/wireless/acx/wlan_mgmt.h 2007-08-23 18:34:19.000000000 +0200 -@@ -0,0 +1,582 @@ -+/*********************************************************************** -+** Copyright (C) 2003 ACX100 Open Source Project -+** -+** The contents of this file are subject to the Mozilla Public -+** License Version 1.1 (the "License"); you may not use this file -+** except in compliance with the License. You may obtain a copy of -+** the License at http://www.mozilla.org/MPL/ -+** -+** Software distributed under the License is distributed on an "AS -+** IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or -+** implied. See the License for the specific language governing -+** rights and limitations under the License. -+** -+** Alternatively, the contents of this file may be used under the -+** terms of the GNU Public License version 2 (the "GPL"), in which -+** case the provisions of the GPL are applicable instead of the -+** above. If you wish to allow the use of your version of this file -+** only under the terms of the GPL and not to allow others to use -+** your version of this file under the MPL, indicate your decision -+** by deleting the provisions above and replace them with the notice -+** and other provisions required by the GPL. If you do not delete -+** the provisions above, a recipient may use your version of this -+** file under either the MPL or the GPL. -+** --------------------------------------------------------------------- -+** Inquiries regarding the ACX100 Open Source Project can be -+** made directly to: -+** -+** acx100-users@lists.sf.net -+** http://acx100.sf.net -+** --------------------------------------------------------------------- -+*/ -+ -+/*********************************************************************** -+** This code is based on elements which are -+** Copyright (C) 1999 AbsoluteValue Systems, Inc. All Rights Reserved. -+** info@linux-wlan.com -+** http://www.linux-wlan.com -+*/ -+ -+/*********************************************************************** -+** Constants -+*/ -+ -+/*-- Information Element IDs --------------------*/ -+#define WLAN_EID_SSID 0 -+#define WLAN_EID_SUPP_RATES 1 -+#define WLAN_EID_FH_PARMS 2 -+#define WLAN_EID_DS_PARMS 3 -+#define WLAN_EID_CF_PARMS 4 -+#define WLAN_EID_TIM 5 -+#define WLAN_EID_IBSS_PARMS 6 -+#define WLAN_EID_COUNTRY 7 /* 802.11d */ -+#define WLAN_EID_FH_HOP_PARMS 8 /* 802.11d */ -+#define WLAN_EID_FH_TABLE 9 /* 802.11d */ -+#define WLAN_EID_REQUEST 10 /* 802.11d */ -+/*-- values 11-15 reserved --*/ -+#define WLAN_EID_CHALLENGE 16 -+/*-- values 17-31 reserved for challenge text extension --*/ -+#define WLAN_EID_PWR_CONSTRAINT 32 /* 11h PowerConstraint */ -+#define WLAN_EID_ERP_INFO 42 /* was seen from WRT54GS with OpenWrt */ -+#define WLAN_EID_NONERP 47 /* was seen from WRT54GS with OpenWrt */ -+#define WLAN_EID_RSN 48 -+#define WLAN_EID_EXT_RATES 50 -+#define WLAN_EID_UNKNOWN128 128 -+#define WLAN_EID_UNKNOWN133 133 -+#define WLAN_EID_GENERIC 221 /* was seen from WRT54GS with OpenWrt */ -+#define WLAN_EID_UNKNOWN223 223 -+ -+#if 0 -+#define WLAN_EID_PWR_CAP 33 /* 11h PowerCapability */ -+#define WLAN_EID_TPC_REQUEST 34 /* 11h TPC Request */ -+#define WLAN_EID_TPC_REPORT 35 /* 11h TPC Report */ -+#define WLAN_EID_SUPP_CHANNELS 36 /* 11h Supported Channels */ -+#define WLAN_EID_CHANNEL_SWITCH 37 /* 11h ChannelSwitch */ -+#define WLAN_EID_MEASURE_REQUEST 38 /* 11h MeasurementRequest */ -+#define WLAN_EID_MEASURE_REPORT 39 /* 11h MeasurementReport */ -+#define WLAN_EID_QUIET_ID 40 /* 11h Quiet */ -+#define WLAN_EID_IBSS_DFS_ID 41 /* 11h IBSS_DFS */ -+#endif -+ -+/*-- Reason Codes -------------------------------*/ -+#define WLAN_MGMT_REASON_RSVD 0 -+#define WLAN_MGMT_REASON_UNSPEC 1 -+#define WLAN_MGMT_REASON_PRIOR_AUTH_INVALID 2 -+#define WLAN_MGMT_REASON_DEAUTH_LEAVING 3 -+#define WLAN_MGMT_REASON_DISASSOC_INACTIVE 4 -+#define WLAN_MGMT_REASON_DISASSOC_AP_BUSY 5 -+#define WLAN_MGMT_REASON_CLASS2_NONAUTH 6 -+#define WLAN_MGMT_REASON_CLASS3_NONASSOC 7 -+#define WLAN_MGMT_REASON_DISASSOC_STA_HASLEFT 8 -+#define WLAN_MGMT_REASON_CANT_ASSOC_NONAUTH 9 -+ -+/*-- Status Codes -------------------------------*/ -+#define WLAN_MGMT_STATUS_SUCCESS 0 -+#define WLAN_MGMT_STATUS_UNSPEC_FAILURE 1 -+#define WLAN_MGMT_STATUS_CAPS_UNSUPPORTED 10 -+#define WLAN_MGMT_STATUS_REASSOC_NO_ASSOC 11 -+#define WLAN_MGMT_STATUS_ASSOC_DENIED_UNSPEC 12 -+#define WLAN_MGMT_STATUS_UNSUPPORTED_AUTHALG 13 -+#define WLAN_MGMT_STATUS_RX_AUTH_NOSEQ 14 -+#define WLAN_MGMT_STATUS_CHALLENGE_FAIL 15 -+#define WLAN_MGMT_STATUS_AUTH_TIMEOUT 16 -+#define WLAN_MGMT_STATUS_ASSOC_DENIED_BUSY 17 -+#define WLAN_MGMT_STATUS_ASSOC_DENIED_RATES 18 -+/* p80211b additions */ -+#define WLAN_MGMT_STATUS_ASSOC_DENIED_NOSHORT 19 -+#define WLAN_MGMT_STATUS_ASSOC_DENIED_NOPBCC 20 -+#define WLAN_MGMT_STATUS_ASSOC_DENIED_NOAGILITY 21 -+ -+/*-- Auth Algorithm Field ---------------------------*/ -+#define WLAN_AUTH_ALG_OPENSYSTEM 0 -+#define WLAN_AUTH_ALG_SHAREDKEY 1 -+ -+/*-- Management Frame Field Offsets -------------*/ -+/* Note: Not all fields are listed because of variable lengths */ -+/* Note: These offsets are from the start of the frame data */ -+ -+#define WLAN_BEACON_OFF_TS 0 -+#define WLAN_BEACON_OFF_BCN_INT 8 -+#define WLAN_BEACON_OFF_CAPINFO 10 -+#define WLAN_BEACON_OFF_SSID 12 -+ -+#define WLAN_DISASSOC_OFF_REASON 0 -+ -+#define WLAN_ASSOCREQ_OFF_CAP_INFO 0 -+#define WLAN_ASSOCREQ_OFF_LISTEN_INT 2 -+#define WLAN_ASSOCREQ_OFF_SSID 4 -+ -+#define WLAN_ASSOCRESP_OFF_CAP_INFO 0 -+#define WLAN_ASSOCRESP_OFF_STATUS 2 -+#define WLAN_ASSOCRESP_OFF_AID 4 -+#define WLAN_ASSOCRESP_OFF_SUPP_RATES 6 -+ -+#define WLAN_REASSOCREQ_OFF_CAP_INFO 0 -+#define WLAN_REASSOCREQ_OFF_LISTEN_INT 2 -+#define WLAN_REASSOCREQ_OFF_CURR_AP 4 -+#define WLAN_REASSOCREQ_OFF_SSID 10 -+ -+#define WLAN_REASSOCRESP_OFF_CAP_INFO 0 -+#define WLAN_REASSOCRESP_OFF_STATUS 2 -+#define WLAN_REASSOCRESP_OFF_AID 4 -+#define WLAN_REASSOCRESP_OFF_SUPP_RATES 6 -+ -+#define WLAN_PROBEREQ_OFF_SSID 0 -+ -+#define WLAN_PROBERESP_OFF_TS 0 -+#define WLAN_PROBERESP_OFF_BCN_INT 8 -+#define WLAN_PROBERESP_OFF_CAP_INFO 10 -+#define WLAN_PROBERESP_OFF_SSID 12 -+ -+#define WLAN_AUTHEN_OFF_AUTH_ALG 0 -+#define WLAN_AUTHEN_OFF_AUTH_SEQ 2 -+#define WLAN_AUTHEN_OFF_STATUS 4 -+#define WLAN_AUTHEN_OFF_CHALLENGE 6 -+ -+#define WLAN_DEAUTHEN_OFF_REASON 0 -+ -+enum { -+IEEE16(WF_MGMT_CAP_ESS, 0x0001) -+IEEE16(WF_MGMT_CAP_IBSS, 0x0002) -+/* In (re)assoc request frames by STA: -+** Pollable=0, PollReq=0: STA is not CF-Pollable -+** 0 1: STA is CF-Pollable, not requesting to be placed on the CF-Polling list -+** 1 0: STA is CF-Pollable, requesting to be placed on the CF-Polling list -+** 1 1: STA is CF-Pollable, requesting never to be polled -+** In beacon, proberesp, (re)assoc resp frames by AP: -+** 0 0: No point coordinator at AP -+** 0 1: Point coordinator at AP for delivery only (no polling) -+** 1 0: Point coordinator at AP for delivery and polling -+** 1 1: Reserved */ -+IEEE16(WF_MGMT_CAP_CFPOLLABLE, 0x0004) -+IEEE16(WF_MGMT_CAP_CFPOLLREQ, 0x0008) -+/* 1=non-WEP data frames are disallowed */ -+IEEE16(WF_MGMT_CAP_PRIVACY, 0x0010) -+/* In beacon, proberesp, (re)assocresp by AP/AdHoc: -+** 1=use of shortpre is allowed ("I can receive shortpre") */ -+IEEE16(WF_MGMT_CAP_SHORT, 0x0020) -+IEEE16(WF_MGMT_CAP_PBCC, 0x0040) -+IEEE16(WF_MGMT_CAP_AGILITY, 0x0080) -+/* In (re)assoc request frames by STA: -+** 1=short slot time implemented and enabled -+** NB: AP shall use long slot time beginning at the next Beacon after assoc -+** of STA with this bit set to 0 -+** In beacon, proberesp, (re)assoc resp frames by AP: -+** currently used slot time value: 0/1 - long/short */ -+IEEE16(WF_MGMT_CAP_SHORTSLOT, 0x0400) -+/* In (re)assoc request frames by STA: 1=CCK-OFDM is implemented and enabled -+** In beacon, proberesp, (re)assoc resp frames by AP/AdHoc: -+** 1=CCK-OFDM is allowed */ -+IEEE16(WF_MGMT_CAP_CCKOFDM, 0x2000) -+}; -+ -+ -+/*********************************************************************** -+** Types -+*/ -+ -+/* Information Element types */ -+ -+/* prototype structure, all IEs start with these members */ -+typedef struct wlan_ie { -+ u8 eid; -+ u8 len; -+} WLAN_PACKED wlan_ie_t; -+ -+/*-- Service Set Identity (SSID) -----------------*/ -+typedef struct wlan_ie_ssid { -+ u8 eid; -+ u8 len; -+ u8 ssid[1]; /* may be zero */ -+} WLAN_PACKED wlan_ie_ssid_t; -+ -+/*-- Supported Rates -----------------------------*/ -+typedef struct wlan_ie_supp_rates { -+ u8 eid; -+ u8 len; -+ u8 rates[1]; /* had better be at LEAST one! */ -+} WLAN_PACKED wlan_ie_supp_rates_t; -+ -+/*-- FH Parameter Set ----------------------------*/ -+typedef struct wlan_ie_fh_parms { -+ u8 eid; -+ u8 len; -+ u16 dwell; -+ u8 hopset; -+ u8 hoppattern; -+ u8 hopindex; -+} WLAN_PACKED wlan_ie_fh_parms_t; -+ -+/*-- DS Parameter Set ----------------------------*/ -+typedef struct wlan_ie_ds_parms { -+ u8 eid; -+ u8 len; -+ u8 curr_ch; -+} WLAN_PACKED wlan_ie_ds_parms_t; -+ -+/*-- CF Parameter Set ----------------------------*/ -+typedef struct wlan_ie_cf_parms { -+ u8 eid; -+ u8 len; -+ u8 cfp_cnt; -+ u8 cfp_period; -+ u16 cfp_maxdur; -+ u16 cfp_durremaining; -+} WLAN_PACKED wlan_ie_cf_parms_t; -+ -+/*-- TIM ------------------------------------------*/ -+typedef struct wlan_ie_tim { -+ u8 eid; -+ u8 len; -+ u8 dtim_cnt; -+ u8 dtim_period; -+ u8 bitmap_ctl; -+ u8 virt_bm[1]; -+} WLAN_PACKED wlan_ie_tim_t; -+ -+/*-- IBSS Parameter Set ---------------------------*/ -+typedef struct wlan_ie_ibss_parms { -+ u8 eid; -+ u8 len; -+ u16 atim_win; -+} WLAN_PACKED wlan_ie_ibss_parms_t; -+ -+/*-- Challenge Text ------------------------------*/ -+typedef struct wlan_ie_challenge { -+ u8 eid; -+ u8 len; -+ u8 challenge[1]; -+} WLAN_PACKED wlan_ie_challenge_t; -+ -+/*-- ERP (42) -------------------------------------*/ -+typedef struct wlan_ie_erp { -+ u8 eid; -+ u8 len; -+ /* bit 0:Non ERP present -+ ** 1:Use Protection -+ ** 2:Barker Preamble mode -+ ** 3-7:reserved */ -+ u8 erp; -+} WLAN_PACKED wlan_ie_erp_t; -+ -+/* Types for parsing mgmt frames */ -+ -+/* prototype structure, all mgmt frame types will start with these members */ -+typedef struct wlan_fr_mgmt { -+ u16 type; -+ u16 len; /* DOES NOT include FCS */ -+ wlan_hdr_t *hdr; -+ /* used for target specific data, skb in Linux */ -+ /*-- fixed fields -----------*/ -+ /*-- info elements ----------*/ -+} WLAN_PACKED wlan_fr_mgmt_t; -+ -+/*-- Beacon ---------------------------------------*/ -+typedef struct wlan_fr_beacon { -+ u16 type; -+ u16 len; -+ wlan_hdr_t *hdr; -+ /*-- fixed fields -----------*/ -+ u64 *ts; -+ u16 *bcn_int; -+ u16 *cap_info; -+ /*-- info elements ----------*/ -+ wlan_ie_ssid_t *ssid; -+ wlan_ie_supp_rates_t *supp_rates; -+ wlan_ie_supp_rates_t *ext_rates; -+ wlan_ie_fh_parms_t *fh_parms; -+ wlan_ie_ds_parms_t *ds_parms; -+ wlan_ie_cf_parms_t *cf_parms; -+ wlan_ie_ibss_parms_t *ibss_parms; -+ wlan_ie_tim_t *tim; /* in beacon only, not proberesp */ -+ wlan_ie_erp_t *erp; /* in beacon only, not proberesp */ -+} wlan_fr_beacon_t; -+#define wlan_fr_proberesp wlan_fr_beacon -+#define wlan_fr_proberesp_t wlan_fr_beacon_t -+ -+/*-- IBSS ATIM ------------------------------------*/ -+typedef struct wlan_fr_ibssatim { -+ u16 type; -+ u16 len; -+ wlan_hdr_t *hdr; -+ /*-- fixed fields -----------*/ -+ /*-- info elements ----------*/ -+ /* this frame type has a null body */ -+} wlan_fr_ibssatim_t; -+ -+/*-- Disassociation -------------------------------*/ -+typedef struct wlan_fr_disassoc { -+ u16 type; -+ u16 len; -+ wlan_hdr_t *hdr; -+ /*-- fixed fields -----------*/ -+ u16 *reason; -+ /*-- info elements ----------*/ -+} wlan_fr_disassoc_t; -+ -+/*-- Association Request --------------------------*/ -+typedef struct wlan_fr_assocreq { -+ u16 type; -+ u16 len; -+ wlan_hdr_t *hdr; -+ /*-- fixed fields -----------*/ -+ u16 *cap_info; -+ u16 *listen_int; -+ /*-- info elements ----------*/ -+ wlan_ie_ssid_t *ssid; -+ wlan_ie_supp_rates_t *supp_rates; -+ wlan_ie_supp_rates_t *ext_rates; -+} wlan_fr_assocreq_t; -+ -+/*-- Association Response -------------------------*/ -+typedef struct wlan_fr_assocresp { -+ u16 type; -+ u16 len; -+ wlan_hdr_t *hdr; -+ /*-- fixed fields -----------*/ -+ u16 *cap_info; -+ u16 *status; -+ u16 *aid; -+ /*-- info elements ----------*/ -+ wlan_ie_supp_rates_t *supp_rates; -+ wlan_ie_supp_rates_t *ext_rates; -+} wlan_fr_assocresp_t; -+ -+/*-- Reassociation Request ------------------------*/ -+typedef struct wlan_fr_reassocreq { -+ u16 type; -+ u16 len; -+ wlan_hdr_t *hdr; -+ /*-- fixed fields -----------*/ -+ u16 *cap_info; -+ u16 *listen_int; -+ u8 *curr_ap; -+ /*-- info elements ----------*/ -+ wlan_ie_ssid_t *ssid; -+ wlan_ie_supp_rates_t *supp_rates; -+ wlan_ie_supp_rates_t *ext_rates; -+} wlan_fr_reassocreq_t; -+ -+/*-- Reassociation Response -----------------------*/ -+typedef struct wlan_fr_reassocresp { -+ u16 type; -+ u16 len; -+ wlan_hdr_t *hdr; -+ /*-- fixed fields -----------*/ -+ u16 *cap_info; -+ u16 *status; -+ u16 *aid; -+ /*-- info elements ----------*/ -+ wlan_ie_supp_rates_t *supp_rates; -+ wlan_ie_supp_rates_t *ext_rates; -+} wlan_fr_reassocresp_t; -+ -+/*-- Probe Request --------------------------------*/ -+typedef struct wlan_fr_probereq { -+ u16 type; -+ u16 len; -+ wlan_hdr_t *hdr; -+ /*-- fixed fields -----------*/ -+ /*-- info elements ----------*/ -+ wlan_ie_ssid_t *ssid; -+ wlan_ie_supp_rates_t *supp_rates; -+ wlan_ie_supp_rates_t *ext_rates; -+} wlan_fr_probereq_t; -+ -+/*-- Authentication -------------------------------*/ -+typedef struct wlan_fr_authen { -+ u16 type; -+ u16 len; -+ wlan_hdr_t *hdr; -+ /*-- fixed fields -----------*/ -+ u16 *auth_alg; -+ u16 *auth_seq; -+ u16 *status; -+ /*-- info elements ----------*/ -+ wlan_ie_challenge_t *challenge; -+} wlan_fr_authen_t; -+ -+/*-- Deauthenication -----------------------------*/ -+typedef struct wlan_fr_deauthen { -+ u16 type; -+ u16 len; -+ wlan_hdr_t *hdr; -+ /*-- fixed fields -----------*/ -+ u16 *reason; -+ /*-- info elements ----------*/ -+} wlan_fr_deauthen_t; -+ -+/* Types for building mgmt frames */ -+ -+/* Warning. Several types used in below structs are -+** in fact variable length. Use structs with such fields with caution */ -+typedef struct auth_frame_body { -+ u16 auth_alg; -+ u16 auth_seq; -+ u16 status; -+ wlan_ie_challenge_t challenge; -+} WLAN_PACKED auth_frame_body_t; -+ -+typedef struct assocresp_frame_body { -+ u16 cap_info; -+ u16 status; -+ u16 aid; -+ wlan_ie_supp_rates_t rates; -+} WLAN_PACKED assocresp_frame_body_t; -+ -+typedef struct reassocreq_frame_body { -+ u16 cap_info; -+ u16 listen_int; -+ u8 current_ap[ETH_ALEN]; -+ wlan_ie_ssid_t ssid; -+/* access to this one is disabled since ssid_t is variable length: */ -+ /* wlan_ie_supp_rates_t rates; */ -+} WLAN_PACKED reassocreq_frame_body_t; -+ -+typedef struct reassocresp_frame_body { -+ u16 cap_info; -+ u16 status; -+ u16 aid; -+ wlan_ie_supp_rates_t rates; -+} WLAN_PACKED reassocresp_frame_body_t; -+ -+typedef struct deauthen_frame_body { -+ u16 reason; -+} WLAN_PACKED deauthen_frame_body_t; -+ -+typedef struct disassoc_frame_body { -+ u16 reason; -+} WLAN_PACKED disassoc_frame_body_t; -+ -+typedef struct probereq_frame_body { -+ wlan_ie_ssid_t ssid; -+ wlan_ie_supp_rates_t rates; -+} WLAN_PACKED probereq_frame_body_t; -+ -+typedef struct proberesp_frame_body { -+ u8 timestamp[8]; -+ u16 beacon_int; -+ u16 cap_info; -+ wlan_ie_ssid_t ssid; -+/* access to these is disabled since ssid_t is variable length: */ -+ /* wlan_ie_supp_rates_t rates; */ -+ /* fhps_t fhps; */ -+ /* dsps_t dsps; */ -+ /* cfps_t cfps; */ -+} WLAN_PACKED proberesp_frame_body_t; -+ -+ -+/*********************************************************************** -+** Functions -+*/ -+ -+/* Helpers for parsing mgmt frames */ -+void wlan_mgmt_decode_ibssatim(wlan_fr_ibssatim_t *f); -+void wlan_mgmt_decode_assocreq(wlan_fr_assocreq_t *f); -+void wlan_mgmt_decode_assocresp(wlan_fr_assocresp_t *f); -+void wlan_mgmt_decode_authen(wlan_fr_authen_t *f); -+void wlan_mgmt_decode_beacon(wlan_fr_beacon_t *f); -+void wlan_mgmt_decode_deauthen(wlan_fr_deauthen_t *f); -+void wlan_mgmt_decode_disassoc(wlan_fr_disassoc_t *f); -+void wlan_mgmt_decode_probereq(wlan_fr_probereq_t *f); -+void wlan_mgmt_decode_proberesp(wlan_fr_proberesp_t *f); -+void wlan_mgmt_decode_reassocreq(wlan_fr_reassocreq_t *f); -+void wlan_mgmt_decode_reassocresp(wlan_fr_reassocresp_t *f); -+ -+/* Helpers for building mgmt frames */ -+static inline u8* -+wlan_fill_ie_ssid(u8 *p, int len, const char *ssid) -+{ -+ struct wlan_ie_ssid *ie = (void*)p; -+ ie->eid = WLAN_EID_SSID; -+ ie->len = len; -+ memcpy(ie->ssid, ssid, len); -+ return p + len + 2; -+} -+/* This controls whether we create 802.11g 'ext supported rates' IEs -+** or just create overlong 'supported rates' IEs instead -+** (non-11g compliant) */ -+#define WE_OBEY_802_11G 1 -+static inline u8* -+wlan_fill_ie_rates(u8 *p, int len, const u8 *rates) -+{ -+ struct wlan_ie_supp_rates *ie = (void*)p; -+#if WE_OBEY_802_11G -+ if (len > 8 ) len = 8; -+#endif -+ /* supported rates (1 to 8 octets) */ -+ ie->eid = WLAN_EID_SUPP_RATES; -+ ie->len = len; -+ memcpy(ie->rates, rates, len); -+ return p + len + 2; -+} -+/* This one wouldn't create an IE at all if not needed */ -+static inline u8* -+wlan_fill_ie_rates_ext(u8 *p, int len, const u8 *rates) -+{ -+ struct wlan_ie_supp_rates *ie = (void*)p; -+#if !WE_OBEY_802_11G -+ return p; -+#endif -+ len -= 8; -+ if (len <= 0) return p; -+ /* ext supported rates */ -+ ie->eid = WLAN_EID_EXT_RATES; -+ ie->len = len; -+ memcpy(ie->rates, rates+8, len); -+ return p + len + 2; -+} -+static inline u8* -+wlan_fill_ie_ds_parms(u8 *p, int channel) -+{ -+ struct wlan_ie_ds_parms *ie = (void*)p; -+ ie->eid = WLAN_EID_DS_PARMS; -+ ie->len = 1; -+ ie->curr_ch = channel; -+ return p + sizeof(*ie); -+} -+static inline u8* -+wlan_fill_ie_ibss_parms(u8 *p, int atim_win) -+{ -+ struct wlan_ie_ibss_parms *ie = (void*)p; -+ ie->eid = WLAN_EID_IBSS_PARMS; -+ ie->len = 2; -+ ie->atim_win = atim_win; -+ return p + sizeof(*ie); -+} -+static inline u8* -+wlan_fill_ie_tim(u8 *p, int rem, int period, int bcast, -+ int ofs, int len, const u8 *vbm) -+{ -+ struct wlan_ie_tim *ie = (void*)p; -+ ie->eid = WLAN_EID_TIM; -+ ie->len = len + 3; -+ ie->dtim_cnt = rem; -+ ie->dtim_period = period; -+ ie->bitmap_ctl = ofs | (bcast!=0); -+ if (vbm) -+ memcpy(ie->virt_bm, vbm, len); /* min 1 byte */ -+ else -+ ie->virt_bm[0] = 0; -+ return p + len + 3 + 2; -+} -Index: linux-2.6.22/drivers/net/wireless/Kconfig -=================================================================== ---- linux-2.6.22.orig/drivers/net/wireless/Kconfig 2007-07-09 01:32:17.000000000 +0200 -+++ linux-2.6.22/drivers/net/wireless/Kconfig 2007-08-23 18:34:19.000000000 +0200 -@@ -5,6 +5,36 @@ - menu "Wireless LAN" - depends on !S390 - -+config NET_RADIO -+ bool "Wireless LAN drivers (non-hamradio) & Wireless Extensions" -+ select WIRELESS_EXT -+ ---help--- -+ Support for wireless LANs and everything having to do with radio, -+ but not with amateur radio or FM broadcasting. -+ -+ Saying Y here also enables the Wireless Extensions (creates -+ /proc/net/wireless and enables iwconfig access). The Wireless -+ Extension is a generic API allowing a driver to expose to the user -+ space configuration and statistics specific to common Wireless LANs. -+ The beauty of it is that a single set of tool can support all the -+ variations of Wireless LANs, regardless of their type (as long as -+ the driver supports Wireless Extension). Another advantage is that -+ these parameters may be changed on the fly without restarting the -+ driver (or Linux). If you wish to use Wireless Extensions with -+ wireless PCMCIA (PC-) cards, you need to say Y here; you can fetch -+ the tools from -+ <http://www.hpl.hp.com/personal/Jean_Tourrilhes/Linux/Tools.html>. -+ -+config NET_WIRELESS_RTNETLINK -+ bool "Wireless Extension API over RtNetlink" -+ depends on NET_RADIO -+ ---help--- -+ Support the Wireless Extension API over the RtNetlink socket -+ in addition to the traditional ioctl interface (selected above). -+ -+ For now, few tools use this facility, but it might grow in the -+ future. The only downside is that it adds 4.5 kB to your kernel. -+ - config WLAN_PRE80211 - bool "Wireless LAN (pre-802.11)" - depends on NETDEVICES -@@ -549,5 +579,6 @@ - source "drivers/net/wireless/hostap/Kconfig" - source "drivers/net/wireless/bcm43xx/Kconfig" - source "drivers/net/wireless/zd1211rw/Kconfig" -+source "drivers/net/wireless/acx/Kconfig" - - endmenu -Index: linux-2.6.22/drivers/net/wireless/Makefile -=================================================================== ---- linux-2.6.22.orig/drivers/net/wireless/Makefile 2007-07-09 01:32:17.000000000 +0200 -+++ linux-2.6.22/drivers/net/wireless/Makefile 2007-08-23 18:34:19.000000000 +0200 -@@ -34,6 +34,8 @@ - - obj-$(CONFIG_PRISM54) += prism54/ - -+obj-$(CONFIG_ACX) += acx/ -+ - obj-$(CONFIG_HOSTAP) += hostap/ - obj-$(CONFIG_BCM43XX) += bcm43xx/ - obj-$(CONFIG_ZD1211RW) += zd1211rw/ |