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|
/*
* MTS-IO Controller
*
* Copyright (C) 2014 by Multi-Tech Systems
* Copyright (C) 2016 by Multi-Tech Systems
*
* Authors: James Maki <jmaki@multitech.com>
* Jesse Gilles <jgilles@multitech.com>
* Mike Fiore <mfiore@multitech.com>
*
* 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.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*/
#include <linux/delay.h>
#include <linux/ioctl.h>
#include <linux/input.h>
#include <linux/cdev.h>
#include <linux/clk.h>
#include <linux/sched.h>
#include <linux/reboot.h>
#include <linux/uaccess.h>
#include <linux/gpio.h>
#include <linux/sched.h>
#include <linux/workqueue.h>
#include <linux/platform_device.h>
#include <linux/device.h>
#include <linux/bitops.h>
#include <linux/spi/spi.h>
#include <linux/i2c/at24.h>
#include <linux/kmod.h>
#include <linux/ctype.h>
#include <linux/io.h>
#include <linux/module.h>
#include "mts_io.h"
<<<<<<< dc450195b63fd13ff74154e5ca06fabec58afd11:io-module/mts-io.c
#include "buttons.h"
=======
#define DRIVER_VERSION "v1.5.15"
#define DRIVER_AUTHOR "James Maki <jmaki@multitech.com>"
#define DRIVER_DESC "MTS-IO Controller"
#define DRIVER_NAME "mts-io"
>>>>>>> Bump the level:io-module/mts_io.c
#define PLATFORM_NAME "mts-io"
#define LED_LS_CONTROLLABLE 0
/* on-board EEPROM */
extern uint8_t mts_id_eeprom[512];
static struct mts_id_eeprom_layout id_eeprom;
// NUM_AP should be defined from the board code
// it should be set to the value of CONFIG_MTS_NUM_ACCESSORY_PORTS
// arch/arm/mach-at91/board-dt-sam9.c
// if it is 0 or undefined, there is no accessory card support on this HW
#ifdef CONFIG_MTS_NUM_ACCESSORY_PORTS
#ifndef NUM_AP
#define NUM_AP CONFIG_MTS_NUM_ACCESSORY_PORTS
#endif
#else
#define NUM_AP 0
#endif
static uint8_t mts_hw_version;
static struct platform_device *mts_io_platform_device;
static struct attribute_group *attr_group;
static struct attribute_group *attr_group_lora; // on-board lora peripheral to be stored in the lora/ sub-directory
static struct gpio_pin *gpio_pins;
DEFINE_MUTEX(mts_io_mutex);
static unsigned int *timings_data = NULL;
static unsigned int timings_data_size = 0;
static unsigned int timings_data_index = 0;
static time_t timings_data_stop_seconds = 0;
static struct timer_list radio_reset_timer;
static volatile int radio_reset_timer_is_start = 0;
static struct timer_list radio_reset_available_timer;
static volatile int radio_reset_available_timer_is_start = 0;
static time_t time_now_secs(void);
static void radio_reset_available_timer_callback(unsigned long data);
static void radio_reset_timer_callback(unsigned long data);
/* generic GPIO support */
#include "gpio.c"
/* generic Button support */
//#include "buttons.c"
/* reset button handling */
#define RESET_CHECK_PER_SEC 8
#define RESET_INTERVAL (HZ / RESET_CHECK_PER_SEC)
#define RESET_HOLD_COUNT (RESET_CHECK_PER_SEC * 3)
#define RESET_LONG_HOLD_COUNT (RESET_CHECK_PER_SEC * 30)
static pid_t reset_pid = -1;
static pid_t reset_count = 0;
bool sent_extra_long = false;
static int reset_short_signal = SIGUSR1;
static int reset_long_signal = SIGUSR2;
static int reset_extra_long_signal = SIGHUP;
static int reset_short_interval = RESET_HOLD_COUNT;
static int reset_long_interval = RESET_LONG_HOLD_COUNT;
/*
* This function takes the product_id and tries to check
* for a modem. If there is an error, assume there is a
* modem. Saying there is a modem when there is not
* just results in a slower boot.
* If no hyphen in product ID, or no product ID,
* assume we have a radio.
* If there is a hyphen test the character after the
* first hyphen:
* If the character is numeric, we have no modem.
* if the chracter is not a B, we have a modem.
* If the character is a B, and it is followed
* by a numeric, we have no modem.
* If the B is the last character or is followed
* by a numeric, we have no modem.
* All other cases, we have a modem.
*/
static int
has_radio(const char *product_id, size_t len)
{
char *p;
if (!product_id || ! *product_id)
return 1; /* No Product ID? */
p = memchr(product_id,'-',len);
if (p) { /* Found a hyphen */
log_debug("Found hyphen");
p++;
if (p >= product_id+len) {
log_debug("End of string -- hyphen");
return 1; /* Last character was hyphen */
}
if (isdigit(*p)) {
log_debug("Found digit after hypen");
return 0; /* Modem name never starts with a digit */
}
if (*p != 'B') {
log_debug("Found neither B nor digit after hypen");
return 1; /* Modem starting with a letter, but not B */
}
/* Found a B */
p++;
if (p >= product_id+len) {
log_debug("B at end of product-id string");
return 1; /* Last character was B */
}
if (isdigit(*p)) {
log_debug("B followed by digit after hyphen - no modem");
return 0; /* B[numeric] is MTR Build number */
}
log_debug("B followed by non-digit after hyphen - has modem");
return 1; /* B[non-numeric] so assume a modem that starts with B */
} /* End of found hyphen case */
log_debug("Undefined product-id - has modem");
return 1; /* Product id invalid or empty, so instantiate a radio anyway */
}
/* active-low socket modem reset */
static ssize_t mts_attr_store_radio_reset(struct device *dev,
struct device_attribute *attr, const char *buf, size_t count)
{
int value; /* 0 = normal reset; -1 = forced reset */
int err;
struct gpio_pin *pin;
if (sscanf(buf, "%i", &value) != 1) {
return -EINVAL;
}
if (value != 0 && value != -1) {
return -EINVAL;
}
/* check reset timings is enabled */
if (value != -1 && NULL != timings_data) {
/* check reset timer is started */
if (radio_reset_timer_is_start == 1) {
log_info("radio reset timer is running. \n");
return count;
}
/* check reset timer available is started */
if (radio_reset_available_timer_is_start == 1) {
del_timer(&radio_reset_available_timer);
radio_reset_available_timer_is_start = 0;
}
/* reset timer not started, start it */
mod_timer(&radio_reset_timer, jiffies + msecs_to_jiffies((timings_data[timings_data_index]) * 1000));
//log_info("radio reset timer is start = [%d]\n", time_now_secs());
/* save timings_data_stop_seconds */
timings_data_stop_seconds = timings_data[timings_data_index] + time_now_secs();
radio_reset_timer_is_start = 1;
}
log_info("radio is reset\n");
pin = gpio_pin_by_attr_name("radio-reset");
if (!pin) {
return -ENODEV;
}
mutex_lock(&mts_io_mutex);
// 250ms low reset
err = reset_gpio_pin(pin, 250, 0);
mutex_unlock(&mts_io_mutex);
if (err) {
return err;
}
return count;
}
static DEVICE_ATTR_MTS(dev_attr_radio_reset, "radio-reset",
mts_attr_show_gpio_pin, mts_attr_store_radio_reset);
/* shared gpio attributes */
static DEVICE_ATTR_MTS(dev_attr_radio_power, "radio-power",
mts_attr_show_gpio_pin, mts_attr_store_gpio_pin);
/* backoff-timers */
static time_t time_now_secs(void)
{
struct timespec ts = current_kernel_time();
return ts.tv_sec;
}
static void radio_reset_available_timer_callback( unsigned long data )
{
/* do your timer stuff here */
//log_info("radio_reset_available_timer_callback\n");
//log_info("radio reset available timer is stop = [%d]\n", time_now_secs());
/* zero timings_data_index */
timings_data_index = 0;
//log_info("timings data index is zero = [%d]\n", timings_data_index);
radio_reset_available_timer_is_start = 0;
}
static void radio_reset_timer_callback( unsigned long data )
{
/* do your timer stuff here */
//log_info("radio_reset_timer_callback\n");
//log_info("radio reset timer is stop = [%d]\n", time_now_secs());
/* increment timings_data_index */
timings_data_index++;
if(timings_data_index >= timings_data_size) {
timings_data_index = timings_data_size-1;
}
//log_info("timings data index = [%d]\n", timings_data_index);
/* reset available timer not started, start it */
mod_timer(&radio_reset_available_timer, jiffies + msecs_to_jiffies((timings_data[timings_data_index]) * 1000));
//log_info("radio reset available timer is start = [%d]\n", time_now_secs());
radio_reset_available_timer_is_start = 1;
radio_reset_timer_is_start = 0;
}
static ssize_t mts_attr_store_radio_reset_backoffs(struct device *dev,
struct device_attribute *attr, const char *buf, size_t count)
{
char *timings_data_str = NULL;
const char delimiter[] = " ";
char * pch = NULL;
unsigned int size = 0;
/* free previous timings_data */
if (NULL != timings_data) {
/* stop timers */
del_timer(&radio_reset_timer);
del_timer(&radio_reset_available_timer);
timings_data_index = 0;
radio_reset_timer_is_start = 0;
radio_reset_available_timer_is_start = 0;
//log_info("free previous timings_data\n");
kfree(timings_data);
timings_data = NULL;
timings_data_size = 0;
}
/* make a copy */
if( NULL == (timings_data_str = kzalloc((strlen(buf) + 1), GFP_KERNEL)) ){
log_error("can`t allocate memory\n");
return -EINVAL;
}
//log_info("radio_reset_backoffs buf: [%s]", buf);
strncpy(timings_data_str, buf, (strlen(buf) + 1));
/* get number of tokens */
while (NULL != (pch = strsep (&timings_data_str, delimiter))) {
int value = 0;
sscanf(pch, "%d", &value);
//log_info("radio reset backoffs pch = [%s]\n", pch);
if (value > 0){
size++;
if (NULL == timings_data) {
/* make alloc */
if (NULL == (timings_data = kmalloc(sizeof(unsigned int), GFP_KERNEL))) {
log_error("radio reset backoffs can`t allocate memory\n");
goto free;
}
} else {
/* make realloc */
if (NULL == (timings_data = krealloc(timings_data, size * sizeof(unsigned int), GFP_KERNEL))) {
log_error("radio reset backoffs can`t allocate memory\n");
goto free;
}
}
/* save timings data */
sscanf(pch, "%d", &timings_data[size-1]);
}
}
timings_data_size = size;
//log_info("timings_data_size = %d\n", timings_data_size);
if (NULL != timings_data_str) {
/* free timings_data_str */
/* never get here in happy path */
kfree(timings_data_str);
}
return count;
free:
if (NULL != timings_data_str) {
/* free timings_data_str */
kfree(timings_data_str);
}
if (NULL != timings_data) {
kfree(timings_data);
timings_data = NULL;
timings_data_size = 0;
}
return -EINVAL;
}
static ssize_t mts_attr_store_radio_reset_backoffs_index(struct device *dev,
struct device_attribute *attr, const char *buf, size_t count)
{
int value;
if (sscanf(buf, "%d", &value) != 1) {
return -EINVAL;
}
if ((value < 0) || (value >= timings_data_size)) {
log_error("incorrect data\n");
return -EINVAL;
}
/* stop timers */
del_timer(&radio_reset_timer);
del_timer(&radio_reset_available_timer);
radio_reset_timer_is_start = 0;
radio_reset_available_timer_is_start = 0;
timings_data_index = value;
return count;
}
static ssize_t mts_attr_show_radio_reset_backoffs(struct device *dev,
struct device_attribute *attr, char *buf)
{
int ret = 0;
size_t i = 0;
size_t buf_left = 0;
if (NULL != timings_data) {
for(i = 0; i < timings_data_size; ++i) {
buf_left = PAGE_SIZE - ret;
ret += snprintf(buf += strlen(buf), buf_left, "%d ", timings_data[i]);
}
}
if (ret > 0) {
ret -= 1;
}
return ret;
}
static ssize_t mts_attr_show_radio_reset_backoff_index(struct device *dev,
struct device_attribute *attr, char *buf)
{
ssize_t value;
if (strcmp(attr->attr.name, "radio-reset-backoff-index") == 0) {
value = sprintf(buf, "%d", timings_data_index);
}
else {
log_error("attribute '%s' not found", attr->attr.name);
value = -1;
}
return value;
}
static ssize_t mts_attr_show_radio_reset_backoff_seconds(struct device *dev,
struct device_attribute *attr, char *buf)
{
ssize_t value;
if (strcmp(attr->attr.name, "radio-reset-backoff-seconds") == 0) {
if (radio_reset_timer_is_start == 1) {
value = sprintf(buf, "%lu", (timings_data_stop_seconds - time_now_secs()));
} else {
value = sprintf(buf, "%d", 0);
}
} else {
log_error("attribute '%s' not found", attr->attr.name);
value = -1;
}
return value;
}
static DEVICE_ATTR_MTS(dev_attr_radio_reset_backoffs, "radio-reset-backoffs",
mts_attr_show_radio_reset_backoffs, mts_attr_store_radio_reset_backoffs);
static DEVICE_ATTR_MTS(dev_attr_radio_reset_backoff_index, "radio-reset-backoff-index",
mts_attr_show_radio_reset_backoff_index, mts_attr_store_radio_reset_backoffs_index);
static DEVICE_ATTR_RO_MTS(dev_attr_radio_reset_backoff_seconds, "radio-reset-backoff-seconds",
mts_attr_show_radio_reset_backoff_seconds);
/* shared gpio-based LEDs */
static DEVICE_ATTR_MTS(dev_attr_led_status, "led-status",
mts_attr_show_gpio_pin, mts_attr_store_gpio_pin);
static DEVICE_ATTR_MTS(dev_attr_led_a_gpio, "led-a",
mts_attr_show_gpio_pin, mts_attr_store_gpio_pin);
#if LED_LS_CONTROLLABLE
static DEVICE_ATTR_MTS(dev_attr_led_ls, "led-ls",
mts_attr_show_gpio_pin, mts_attr_store_gpio_pin);
#else
static DEVICE_ATTR_RO_MTS(dev_attr_led_ls, "led-ls",
mts_attr_show_gpio_pin);
#endif
static DEVICE_ATTR_MTS(dev_attr_led_b_gpio, "led-b",
mts_attr_show_gpio_pin, mts_attr_store_gpio_pin);
static DEVICE_ATTR_MTS(dev_attr_led_cd_gpio, "led-cd",
mts_attr_show_gpio_pin, mts_attr_store_gpio_pin);
static DEVICE_ATTR_MTS(dev_attr_led_c_gpio, "led-c",
mts_attr_show_gpio_pin, mts_attr_store_gpio_pin);
static DEVICE_ATTR_MTS(dev_attr_led_sig1_gpio, "led-sig1",
mts_attr_show_gpio_pin, mts_attr_store_gpio_pin);
static DEVICE_ATTR_MTS(dev_attr_led_sig2_gpio, "led-sig2",
mts_attr_show_gpio_pin, mts_attr_store_gpio_pin);
static DEVICE_ATTR_MTS(dev_attr_led_sig3_gpio, "led-sig3",
mts_attr_show_gpio_pin, mts_attr_store_gpio_pin);
static DEVICE_ATTR_MTS(dev_attr_led_d_gpio, "led-d",
mts_attr_show_gpio_pin, mts_attr_store_gpio_pin);
static DEVICE_ATTR_MTS(dev_attr_led_e_gpio, "led-e",
mts_attr_show_gpio_pin, mts_attr_store_gpio_pin);
/* eeprom info */
static ssize_t mts_attr_show_product_info(struct device *dev,
struct device_attribute *attr,
char *buf)
{
int i;
ssize_t value;
if (strcmp(attr->attr.name, "vendor-id") == 0) {
value = sprintf(buf, "%.32s\n", id_eeprom.vendor_id);
} else if (strcmp(attr->attr.name, "product-id") == 0) {
value = sprintf(buf, "%.32s\n", id_eeprom.product_id);
} else if (strcmp(attr->attr.name, "has-radio") == 0) {
value = sprintf(buf, "%1d\n",
has_radio(id_eeprom.product_id,sizeof id_eeprom.product_id));
} else if (strcmp(attr->attr.name, "device-id") == 0) {
value = sprintf(buf, "%.32s\n", id_eeprom.device_id);
} else if (strcmp(attr->attr.name, "uuid") == 0) {
//Loop Through UUID Bytes and print them in HEX
for(i = 0; i < 16; i++) {
value = sprintf(buf, "%02X", id_eeprom.uuid[i]);
if(value == -1) {
return value;
}
buf += value;
}
value = sprintf(buf, "\n");
if(value == -1) {
return value;
}
value = 33; //16*2 (ASCII HEX) + 1 ('\n')
} else if (strcmp(attr->attr.name, "hw-version") == 0) {
value = sprintf(buf, "%.32s\n", id_eeprom.hw_version);
} else if (strcmp(attr->attr.name, "imei") == 0) {
value = sprintf(buf, "%.32s\n", id_eeprom.imei);
} else if (strcmp(attr->attr.name, "mac-wifi") == 0) {
value = sprintf(buf, "%02X:%02X:%02X:%02X:%02X:%02X\n",
id_eeprom.mac_wifi[0],
id_eeprom.mac_wifi[1],
id_eeprom.mac_wifi[2],
id_eeprom.mac_wifi[3],
id_eeprom.mac_wifi[4],
id_eeprom.mac_wifi[5]);
} else if (strcmp(attr->attr.name, "mac-eth") == 0) {
value = sprintf(buf, "%02X:%02X:%02X:%02X:%02X:%02X\n",
id_eeprom.mac_addr[0],
id_eeprom.mac_addr[1],
id_eeprom.mac_addr[2],
id_eeprom.mac_addr[3],
id_eeprom.mac_addr[4],
id_eeprom.mac_addr[5]);
} else if (strcmp(attr->attr.name, "lora-eui") == 0) {
value = sprintf(buf, "%02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X\n",
id_eeprom.lora_eui[0],
id_eeprom.lora_eui[1],
id_eeprom.lora_eui[2],
id_eeprom.lora_eui[3],
id_eeprom.lora_eui[4],
id_eeprom.lora_eui[5],
id_eeprom.lora_eui[6],
id_eeprom.lora_eui[7]);
}
else {
log_error("attribute '%s' not found", attr->attr.name);
value = -1;
}
return value;
}
static DEVICE_ATTR_RO_MTS(dev_attr_vendor_id, "vendor-id",
mts_attr_show_product_info);
static DEVICE_ATTR_RO_MTS(dev_attr_product_id, "product-id",
mts_attr_show_product_info);
static DEVICE_ATTR_RO_MTS(dev_attr_has_radio, "has-radio",
mts_attr_show_product_info);
static DEVICE_ATTR_RO_MTS(dev_attr_device_id, "device-id",
mts_attr_show_product_info);
static DEVICE_ATTR_RO_MTS(dev_attr_uuid, "uuid",
mts_attr_show_product_info);
static DEVICE_ATTR_RO_MTS(dev_attr_hw_version, "hw-version",
mts_attr_show_product_info);
static DEVICE_ATTR_RO_MTS(dev_attr_imei, "imei",
mts_attr_show_product_info);
static DEVICE_ATTR_RO_MTS(dev_attr_eth_mac, "mac-eth",
mts_attr_show_product_info);
static int get_radio_model_from_product_id(void) {
int rc = RADIO_UNKNOWN;
if (strstr(id_eeprom.product_id, "LEU1")) rc = RADIO_LEU1;
else if (strstr(id_eeprom.product_id, "LNA3")) rc = RADIO_LNA3;
// Add other radios as needed.
return rc;
}
/* include on-board lora peripheral */
#include "mts_lora.c"
/* include per-device pins and attributes */
#include "mtcdt.c"
#include "mtcap.c"
#include "mtr.c"
#include "mths.c"
/* include capabilities sub-directory support */
#include "mts_capab.c"
#if NUM_AP > 0
/* accessory card EEPROMs */
extern uint8_t mts_ap_eeprom[NUM_AP][512];
static struct mts_ap_eeprom_layout ap_eeprom[NUM_AP];
/* kobject pointers for the apX subdirectories that correspond to the accessory ports */
static struct kobject *ap_subdirs[NUM_AP];
/* attribute groups for the accessory ports*/
static struct attribute_group ap_attr_groups[NUM_AP];
/* info for accessory port (contains function pointers for setup and teardown and and useful info) */
static struct ap_info* port_info[NUM_AP];
/* accessory card support */
#include "mtac.c"
#include "mtac_gpiob.c"
#include "mtac_mfser.c"
#include "mtac_eth.c"
#include "mtac_lora.c"
static bool load_port(int port) {
int port_index = port - 1;
memcpy(&ap_eeprom[port_index], mts_ap_eeprom[port_index], sizeof(mts_ap_eeprom[port_index]));
if (mts_ap_eeprom[port_index][0] == 0xFF) {
log_error("uninitialized eeprom on accessory card %d", port);
} else if (mts_ap_eeprom[port_index][0] == 0x00) {
log_info("no accessory card inserted in port %d", port);
} else {
port_info[port_index] = kzalloc(sizeof(struct ap_info), GFP_KERNEL);
if (! port_info[port_index]) {
log_error("alloc of port info failed");
return false;
}
if (strstr(ap_eeprom[port_index].product_id, PRODUCT_ID_MTAC_GPIOB)) {
if (! set_gpiob_info(port_info[port_index])) {
log_error("failed to set up gpiob port info");
return false;
}
} else if (strstr(ap_eeprom[port_index].product_id, PRODUCT_ID_MTAC_MFSER)) {
if (! set_mfser_info(port_info[port_index])) {
log_error("failed to set up mfser port info");
return false;
}
} else if (strstr(ap_eeprom[port_index].product_id, PRODUCT_ID_MTAC_ETH)) {
if (! set_eth_info(port_info[port_index])) {
log_error("failed to set up eth port info");
return false;
}
} else if (strstr(ap_eeprom[port_index].product_id, PRODUCT_ID_MTAC_LORA)) {
if (! set_lora_info(port_info[port_index])) {
log_error("failed to set up lora port info");
return false;
}
} else {
log_error("unknown accessory card [%s] in port %d", ap_eeprom[port_index].product_id, port);
kfree(port_info[port_index]);
port_info[port_index] = NULL;
return false;
}
log_info("accessory card %d vendor-id: %.32s", port, ap_eeprom[port_index].vendor_id);
log_info("accessory card %d product-id: %.32s", port, ap_eeprom[port_index].product_id);
log_info("accessory card %d device-id: %.32s", port, ap_eeprom[port_index].device_id);
log_info("accessory card %d hw-version: %.32s", port, ap_eeprom[port_index].hw_version);
if (strncmp(ap_eeprom[port_index].product_id, PRODUCT_ID_MTAC_ETH, strlen(PRODUCT_ID_MTAC_ETH)) == 0) {
log_info("accessory card %d mac-addr: %02X:%02X:%02X:%02X:%02X:%02X",
port,
ap_eeprom[port_index].mac_addr[0],
ap_eeprom[port_index].mac_addr[1],
ap_eeprom[port_index].mac_addr[2],
ap_eeprom[port_index].mac_addr[3],
ap_eeprom[port_index].mac_addr[4],
ap_eeprom[port_index].mac_addr[5]);
}
if (strncmp(ap_eeprom[port_index].product_id, PRODUCT_ID_MTAC_LORA, strlen(PRODUCT_ID_MTAC_LORA)) == 0) {
log_info("accessory card %d eui: %02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X",
port,
ap_eeprom[port_index].eui[0],
ap_eeprom[port_index].eui[1],
ap_eeprom[port_index].eui[2],
ap_eeprom[port_index].eui[3],
ap_eeprom[port_index].eui[4],
ap_eeprom[port_index].eui[5],
ap_eeprom[port_index].eui[6],
ap_eeprom[port_index].eui[7]);
}
if (! port_info[port_index]->setup(port)) {
log_error("accessory port %d setup failed", port);
port_info[port_index]->teardown(port);
kfree(port_info[port_index]);
port_info[port_index] = NULL;
return false;
}
}
return true;
}
static void init_accessory_ports(void)
{
int port_index;
for (port_index = 0; port_index < NUM_AP; port_index++) {
port_info[port_index] = NULL;
if (! load_port(port_index+1)) {
log_error("failed to load accessory card in port %d", port_index);
}
}
}
static void teardown_accessory_ports(void)
{
int port_index;
for (port_index = 0; port_index < NUM_AP; port_index++) {
if (port_info[port_index]) {
port_info[port_index]->teardown(port_index+1);
kfree(port_info[port_index]);
}
}
}
#else /* NUM_AP > 0 */
static void init_accessory_ports(void) {}
static void teardown_accessory_ports(void) {}
#endif
static void init_ports(void)
{
if (DEVICE_CAPA(id_eeprom.capa, CAPA_LORA) && attr_group_lora) {
mts_load_lora_port();
}
init_accessory_ports();
}
static void teardown_ports(void)
{
if (DEVICE_CAPA(id_eeprom.capa, CAPA_LORA) && attr_group_lora) {
mts_teardown_lora_port();
}
teardown_accessory_ports();
}
struct attribute *freelater = NULL; // Storage to free when driver is unloaded.
static int
mts_id_eeprom_load(void)
{
int i, j = 0;
char buf[64] = {0};
char* ptr;
int attr_blength; // Byte length of base attribute array
int current_blength; // Current length in bytes of attribute array
int current_count; // Number of items in array
struct attribute **all_attrs = NULL;
char *tmp;
int noradio;
//The mts_id_eeprom buffer is initialize once on boot
//reloading the mts_io.ko module will not reinitialize this buffer
//only rebooting will reinitialize this buffer
memcpy(&id_eeprom, mts_id_eeprom, sizeof(mts_id_eeprom));
if (mts_id_eeprom[0] == 0xFF) {
log_error("uninitialized eeprom");
return -EIO;
}
noradio = ! has_radio(id_eeprom.product_id,sizeof id_eeprom.product_id);
log_debug("mts_id_eeprom: noradio=%d",noradio);
if (((tmp=HW_VERSION_MTCAP_0_0),strncmp(id_eeprom.hw_version, tmp, strlen(tmp)) == 0) ||
((tmp=HW_VERSION_MTCAP_0_1),strncmp(id_eeprom.hw_version, tmp, strlen(tmp)) == 0)) {
/* See if we have no radio, and if so, prune out the stuff that follows */
if(noradio) {
struct attribute **ap = mtcap_0_0_platform_attribute_group.attrs;
while(1) {
if(ap[j] == NULL) {
log_info("Did not find radio power attribute. Possible driver fault.");
break;
}
j++;
if (is_radio_power_attr_mtcap(ap[j])) {
log_info("Pruning radio feature from mts-io",j);
ap[j] = NULL;
break;
}
}
}
attr_group = &mtcap_0_0_platform_attribute_group;
gpio_pins = gpio_pins_mtcap_0_0;
set_buttons(default_buttons);
if (DEVICE_CAPA(id_eeprom.capa, CAPA_LORA)) {
attr_group_lora = &mtcap_0_0_lora_attribute_group;
}
log_info("detected board %s", tmp);
} else if (strncmp(id_eeprom.hw_version, HW_VERSION_MTR_0_0, strlen(HW_VERSION_MTR_0_0)) == 0) {
attr_group = &mtr_platform_attribute_group;
gpio_pins = gpio_pins_mtr_0_0;
set_buttons(default_buttons);
mts_hw_version = MTR_0_0;
log_info("detected board %s", HW_VERSION_MTR_0_0);
} else if (strncmp(id_eeprom.hw_version, HW_VERSION_MTR_0_1, strlen(HW_VERSION_MTR_0_1)) == 0) {
attr_group = &mtr_platform_attribute_group;
gpio_pins = gpio_pins_mtr_0_1;
set_buttons(default_buttons);
mts_hw_version = MTR_0_1;
log_info("detected board %s", HW_VERSION_MTR_0_1);
} else if (strncmp(id_eeprom.hw_version, HW_VERSION_MTRV1_0_0, strlen(HW_VERSION_MTRV1_0_0)) == 0) {
attr_group = &mtr_platform_attribute_group;
gpio_pins = gpio_pins_mtrv1_0_0;
set_buttons(default_buttons);
mts_hw_version = MTRV1_0_0;
log_info("detected board %s", HW_VERSION_MTRV1_0_0);
} else if (strncmp(id_eeprom.hw_version, HW_VERSION_MTRV1_0_1, strlen(HW_VERSION_MTRV1_0_1)) == 0) {
attr_group = &mtrv1_0_1_platform_attribute_group;
gpio_pins = gpio_pins_mtrv1_0_1;
set_buttons(default_buttons);
mts_hw_version = MTRV1_0_1;
log_info("detected board %s", HW_VERSION_MTRV1_0_1);
} else if (strncmp(id_eeprom.hw_version, HW_VERSION_MTRV1_0_2, strlen(HW_VERSION_MTRV1_0_2)) == 0) {
attr_group = &mtrv1_0_2_platform_attribute_group;
gpio_pins = gpio_pins_mtrv1_0_2;
set_buttons(default_buttons);
mts_hw_version = MTRV1_0_2;
log_info("detected board %s", HW_VERSION_MTRV1_0_2);
} else if (strncmp(id_eeprom.hw_version, HW_VERSION_MTHS_0_0, strlen(HW_VERSION_MTHS_0_0)) == 0) {
attr_group = &mths_0_0_platform_attribute_group;
gpio_pins = gpio_pins_mths_0_0;
set_buttons(mths_buttons_0_0);
mts_hw_version = MTHS_0_0;
log_info("detected board %s", HW_VERSION_MTHS_0_0);
} else if (((tmp=HW_VERSION_MTCDT_0_1),strncmp(id_eeprom.hw_version, tmp, strlen(tmp)) == 0) ||
((tmp=HW_VERSION_MTCDTIP_0_0),strncmp(id_eeprom.hw_version, tmp, strlen(tmp)) == 0)) {
current_blength = attr_blength = sizeof mtcdt_0_1_platform_attributes;
current_blength -= sizeof(struct attribute *); /* Length without terminating NULL */
/* See if we have no radio, and if so, prune out the stuff that follows */
if(noradio) {
struct attribute **ap = mtcdt_0_1_platform_attribute_group.attrs;
while(1) {
if(ap[j] == NULL) {
log_info("Did not find radio power attribute. Possible driver fault.");
break;
}
j++;
if (is_radio_power_attr_mtcdt(ap[j])) {
log_info("Pruning radio feature from mts-io",j);
ap[j] = NULL;
current_blength = attr_blength = j * sizeof (ap[j]);
break;
}
}
}
if(DEVICE_CAPA(id_eeprom.capa, CAPA_WIFI)) {
attr_blength += sizeof mtcdt_0_1_wifi_bt_attributes;
}
if(DEVICE_CAPA(id_eeprom.capa, CAPA_GPS)) {
attr_blength += sizeof mtcdt_0_1_gnss_attributes;
}
if (current_blength+(sizeof(struct attribute *)) != attr_blength) {
freelater = all_attrs = kmalloc(attr_blength,GFP_KERNEL);
current_count = current_blength/(sizeof (struct attribute *));
memcpy(all_attrs,mtcdt_0_1_platform_attributes,current_blength);
if(DEVICE_CAPA(id_eeprom.capa, CAPA_WIFI)) {
log_info("Adding WiFi/BT to mts-io driver");
memcpy(all_attrs + current_count,mtcdt_0_1_wifi_bt_attributes,sizeof mtcdt_0_1_wifi_bt_attributes);
current_count += sizeof mtcdt_0_1_wifi_bt_attributes / (sizeof (struct attribute *));
}
if(DEVICE_CAPA(id_eeprom.capa, CAPA_GPS)) {
log_info("Adding GPS to mts-io driver");
attr_blength += sizeof mtcdt_0_1_gnss_attributes;
memcpy(all_attrs + current_count,mtcdt_0_1_gnss_attributes,sizeof mtcdt_0_1_gnss_attributes);
current_count += sizeof mtcdt_0_1_gnss_attributes / (sizeof (struct attribute *));
}
all_attrs[current_count] = (struct attribute *)NULL;
mtcdt_0_1_platform_attribute_group.attrs = all_attrs;
}
attr_group = &mtcdt_0_1_platform_attribute_group;
gpio_pins = gpio_pins_mtcdt_0_1;
set_buttons(default_buttons);
log_info("detected board %s", tmp);
} else if ((tmp=HW_VERSION_MTCDTIPHP_0_0),strncmp(id_eeprom.hw_version, tmp, strlen(tmp)) == 0) {
current_blength = attr_blength = sizeof mtcdt_0_1_platform_attributes;
current_blength -= sizeof(struct attribute *); /* Length without terminating NULL */
/* See if we have no radio, and if so, prune out the stuff that follows */
if(noradio) {
struct attribute **ap = mtcdt_0_1_platform_attribute_group.attrs;
while(1) {
if(ap[j] == NULL) {
log_info("Did not find radio power attribute. Possible driver fault.");
break;
}
j++;
if (is_radio_power_attr_mtcdt(ap[j])) {
log_info("Pruning radio feature from mts-io",j);
ap[j] = NULL;
current_blength = attr_blength = j * sizeof (ap[j]);
break;
}
}
}
if(DEVICE_CAPA(id_eeprom.capa, CAPA_WIFI)) {
attr_blength += sizeof mtcdt_0_1_wifi_bt_attributes;
}
if (current_blength+(sizeof(struct attribute *)) != attr_blength) {
freelater = all_attrs = kmalloc(attr_blength,GFP_KERNEL);
current_count = current_blength/(sizeof (struct attribute *));
memcpy(all_attrs,mtcdt_0_1_platform_attributes,current_blength);
if(DEVICE_CAPA(id_eeprom.capa, CAPA_WIFI)) {
log_info("Adding WiFi/BT to mts-io driver");
memcpy(all_attrs + current_count,mtcdt_0_1_wifi_bt_attributes,sizeof mtcdt_0_1_wifi_bt_attributes);
current_count += sizeof mtcdt_0_1_wifi_bt_attributes / (sizeof (struct attribute *));
}
/* MTCDTIPHP does not have GPS reset/interrupt tied to the CPU
* so do not instantiate the GPS attributes */
all_attrs[current_count] = (struct attribute *)NULL;
mtcdt_0_1_platform_attribute_group.attrs = all_attrs;
}
attr_group = &mtcdt_0_1_platform_attribute_group;
gpio_pins = gpio_pins_mtcdt_0_1;
if (DEVICE_CAPA(id_eeprom.capa, CAPA_LORA)) {
attr_group_lora = &mtcdtiphp_0_0_lora_attribute_group;
}
set_buttons(default_buttons);
log_info("detected board %s", tmp);
} else {
if(noradio) {
struct attribute **ap = mtcdt_platform_attribute_group.attrs;
while(1) {
if(ap[j] == NULL) {
log_info("Did not find radio power attribute. Possible driver fault.");
break;
}
j++;
if (is_radio_power_attr_mtcdt(ap[j])) {
log_info("Pruning radio feature from mts-io",j);
ap[j] = NULL;
break;
}
}
}
attr_group = &mtcdt_platform_attribute_group;
gpio_pins = gpio_pins_mtcdt_0_0;
mts_hw_version = MTCDT_0_0;
set_buttons(default_buttons);
log_info("detected board %s", HW_VERSION_MTCDT_0_0);
}
log_info("sizeof: %lu", (unsigned long) sizeof(struct mts_id_eeprom_layout));
log_info("vendor-id: %.32s", id_eeprom.vendor_id);
log_info("product-id: %.32s", id_eeprom.product_id);
log_info("device-id: %.32s", id_eeprom.device_id);
log_info("hw-version: %.32s", id_eeprom.hw_version);
log_info("mac-addr: %02X:%02X:%02X:%02X:%02X:%02X",
id_eeprom.mac_addr[0],
id_eeprom.mac_addr[1],
id_eeprom.mac_addr[2],
id_eeprom.mac_addr[3],
id_eeprom.mac_addr[4],
id_eeprom.mac_addr[5]);
log_info("imei: %.32s", id_eeprom.imei);
log_info("capa-gps: %s", DEVICE_CAPA(id_eeprom.capa, CAPA_GPS) ? "yes" : "no");
log_info("capa-din: %s", DEVICE_CAPA(id_eeprom.capa, CAPA_DIN) ? "yes" : "no");
log_info("capa-dout: %s", DEVICE_CAPA(id_eeprom.capa, CAPA_DOUT) ? "yes" : "no");
log_info("capa-adc: %s", DEVICE_CAPA(id_eeprom.capa, CAPA_ADC) ? "yes" : "no");
log_info("capa-wifi: %s", DEVICE_CAPA(id_eeprom.capa, CAPA_WIFI) ? "yes" : "no");
log_info("capa-bluetooth: %s", DEVICE_CAPA(id_eeprom.capa, CAPA_BLUETOOTH) ? "yes" : "no");
log_info("capa-lora: %s", DEVICE_CAPA(id_eeprom.capa, CAPA_LORA) ? "yes" : "no");
if (DEVICE_CAPA(id_eeprom.capa, CAPA_BLUETOOTH)) {
log_info("mac-bluetooth: %02X:%02X:%02X:%02X:%02X:%02X",
id_eeprom.mac_bluetooth[0],
id_eeprom.mac_bluetooth[1],
id_eeprom.mac_bluetooth[2],
id_eeprom.mac_bluetooth[3],
id_eeprom.mac_bluetooth[4],
id_eeprom.mac_bluetooth[5]);
}
if (DEVICE_CAPA(id_eeprom.capa, CAPA_WIFI)) {
log_info("mac-wifi: %02X:%02X:%02X:%02X:%02X:%02X",
id_eeprom.mac_wifi[0],
id_eeprom.mac_wifi[1],
id_eeprom.mac_wifi[2],
id_eeprom.mac_wifi[3],
id_eeprom.mac_wifi[4],
id_eeprom.mac_wifi[5]);
}
//Loop Through UUID Bytes and print them in HEX
ptr = (char*)buf;
for(i = 0; i < 16; i++) {
ptr += sprintf(ptr, "%02X", id_eeprom.uuid[i]);
}
log_info("uuid: %s", (char*)buf);
if (DEVICE_CAPA(id_eeprom.capa, CAPA_LORA)) {
log_info("lora-eui: %02X:%02X:%02X:%02X:%02X:%02X:%02X:%02X",
id_eeprom.lora_eui[0],
id_eeprom.lora_eui[1],
id_eeprom.lora_eui[2],
id_eeprom.lora_eui[3],
id_eeprom.lora_eui[4],
id_eeprom.lora_eui[5],
id_eeprom.lora_eui[6],
id_eeprom.lora_eui[7]);
log_info("lora-product-id: %.32s", id_eeprom.lora_product_id);
log_info("lora-hw-version: %.32s", id_eeprom.lora_hw_version);
}
return 0;
}
static void cleanup(void)
{
log_info("cleaning up....");
if (mts_io_platform_device) {
platform_device_unregister(mts_io_platform_device);
}
teardown_ports();
if(freelater) {
kfree(freelater);
freelater = NULL;
}
mts_capab_dir_delete();
}
static int __init mts_io_init(void)
{
struct gpio_pin *pin;
int ret;
log_info("init: " DRIVER_VERSION);
ret = mts_id_eeprom_load();
if (ret) {
cleanup();
return ret;
}
mts_io_platform_device = platform_device_alloc(PLATFORM_NAME, -1);
if (!mts_io_platform_device) {
cleanup();
return -ENOMEM;
}
ret = platform_device_add(mts_io_platform_device);
if (ret) {
cleanup();
return ret;
}
init_ports();
ret = mts_capab_dir_create();
if (ret) {
cleanup();
return ret;
}
ret = sysfs_create_group(&mts_io_platform_device->dev.kobj, attr_group);
if (ret) {
cleanup();
return ret;
}
for (pin = gpio_pins; *pin->name; pin++) {
if (pin->capability == 0 || DEVICE_CAPA(id_eeprom.capa,pin->capability)) {
ret = gpio_request_one(pin->pin.gpio, pin->pin.flags, pin->pin.label);
if (ret)
log_debug("could not request pin %s (%d) but it could have already been requested under a different pin name", pin->name, ret);
}
}
// start general buttons processing
init_buttons();
/* init timers */
setup_timer(&radio_reset_timer, radio_reset_timer_callback, 0);
setup_timer(&radio_reset_available_timer, radio_reset_available_timer_callback, 0);
return 0;
}
static void __exit mts_io_exit(void)
{
/* delete radio_reset_timer */
del_timer(&radio_reset_timer);
/* delete radio_reset_available_timer */
del_timer(&radio_reset_available_timer);
cleanup_buttons();
cleanup();
log_info("exiting");
}
module_init(mts_io_init);
module_exit(mts_io_exit);
MODULE_AUTHOR(DRIVER_AUTHOR);
MODULE_DESCRIPTION(DRIVER_DESC);
MODULE_VERSION(DRIVER_VERSION);
MODULE_LICENSE("GPL");
MODULE_ALIAS("mts-io-ap1-dout");
MODULE_ALIAS("mts-io-ap1-din");
MODULE_ALIAS("mts-io-ap1-adc");
MODULE_ALIAS("mts-io-ap2-dout");
MODULE_ALIAS("mts-io-ap2-din");
MODULE_ALIAS("mts-io-ap2-adc");
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