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static char* mfser_gpio_pin_name_by_attr_name(const char* name) {
if (! strcmp(name, "rs4xx-term-res:1")) {
return "ap1-gpio3";
} else if (! strcmp(name, "rts-override:1")) {
return "ap1-gpio4";
} else if (! strcmp(name, "rs4xx-term-res:2")) {
return "ap2-gpio3";
} else if (! strcmp(name, "rts-override:2")) {
return "ap2-gpio4";
} else {
log_error("attirbute name [%s] is invalid for MFSER", name);
return "";
}
}
static ssize_t mts_attr_show_mfser_mode(struct kobject *kobj,
struct kobj_attribute *attr,
char *buf)
{
int ret;
int modesel0;
int modesel1;
struct gpio_pin *pin_modesel0;
struct gpio_pin *pin_modesel1;
if (strstr(attr->attr.name, ":1")) {
pin_modesel0 = gpio_pin_by_name("AP1_GPIO1");
pin_modesel1 = gpio_pin_by_name("AP1_GPIO2");
}
else if (strstr(attr->attr.name, ":2")) {
pin_modesel0 = gpio_pin_by_name("AP2_GPIO1");
pin_modesel1 = gpio_pin_by_name("AP2_GPIO2");
}
else {
log_error("unknown serial-mode attr %s", attr->attr.name);
return -ENODEV;
}
if (!pin_modesel0 || !pin_modesel1)
return -ENODEV;
mutex_lock(&mts_io_mutex);
modesel0 = gpio_get_value(pin_modesel0->pin.gpio);
modesel1 = gpio_get_value(pin_modesel1->pin.gpio);
if (modesel1 == 0 && modesel0 == 0)
ret = sprintf(buf, "loopback\n");
else if (modesel1 == 0 && modesel0 == 1)
ret = sprintf(buf, "rs232\n");
else if (modesel1 == 1 && modesel0 == 0)
ret = sprintf(buf, "rs485-half\n");
else if (modesel1 == 1 && modesel0 == 1)
ret = sprintf(buf, "rs422-485-full\n");
else
ret = sprintf(buf, "error\n");
mutex_unlock(&mts_io_mutex);
return ret;
}
static ssize_t mts_attr_store_mfser_mode(struct kobject *kobj,
struct kobj_attribute *attr, const char *buf, size_t count)
{
int modesel0;
int modesel1;
struct gpio_pin *pin_modesel0;
struct gpio_pin *pin_modesel1;
if (strstr(attr->attr.name, ":1")) {
pin_modesel0 = gpio_pin_by_name("AP1_GPIO1");
pin_modesel1 = gpio_pin_by_name("AP1_GPIO2");
}
else if (strstr(attr->attr.name, ":2")) {
pin_modesel0 = gpio_pin_by_name("AP2_GPIO1");
pin_modesel1 = gpio_pin_by_name("AP2_GPIO2");
}
else {
log_error("unknown serial-mode attr %s", attr->attr.name);
return -ENODEV;
}
if (!pin_modesel0 || !pin_modesel1)
return -ENODEV;
if (!strcasecmp(buf, "loopback")) {
modesel1 = 0;
modesel0 = 0;
}
else if (!strcasecmp(buf, "rs232")) {
modesel1 = 0;
modesel0 = 1;
}
else if (!strcasecmp(buf, "rs485-half")) {
modesel1 = 1;
modesel0 = 0;
}
else if (!strcasecmp(buf, "rs422-485-full")) {
modesel1 = 1;
modesel0 = 1;
}
else {
return -EINVAL;
}
mutex_lock(&mts_io_mutex);
gpio_set_value(pin_modesel0->pin.gpio, modesel0);
gpio_set_value(pin_modesel1->pin.gpio, modesel1);
mutex_unlock(&mts_io_mutex);
return count;
}
// 1 serial mode
// 1 rs4xx term resistor
// 1 rts override
// 1 vendor-id
// 1 product-id
// 1 device-id
// 1 hw-version
static int ap_mfser_attrs_size = 7;
static bool mfser_setup(enum ap port) {
int port_index = port - 1;
struct kobj_attribute *attr;
char buf[32];
log_info("loading MFSER accessory card in port %d", port);
if (device_attrs_size + ap_mfser_attrs_size >= device_attrs_max_size) {
log_error("can't load MFSER accessory card in port %d - not enough room for attributes", port);
return false;
}
// mark the attribute indices we're using so we know what to clean up
port_info[port_index]->attrs_start = device_attrs_size;
port_info[port_index]->attrs_end = device_attrs_size + ap_mfser_attrs_size;
sprintf(buf, "serial-mode:%d", port);
attr = create_attribute(buf, MTS_ATTR_MODE_RW);
if (! attr) {
log_error("failed to create attribute[%s]", buf);
return false;
}
attr->show = mts_attr_show_mfser_mode;
attr->store = mts_attr_store_mfser_mode;
device_attrs[device_attrs_size++] = &attr->attr;
sprintf(buf, "rs4xx-term-res:%d", port);
attr = create_attribute(buf, MTS_ATTR_MODE_RW);
if (! attr) {
log_error("failed to create attribute[%s]", buf);
return false;
}
attr->show = mts_attr_show_ap_gpio_pin;
attr->store = mts_attr_store_ap_gpio_pin;
device_attrs[device_attrs_size++] = &attr->attr;
sprintf(buf, "rts-override:%d", port);
attr = create_attribute(buf, MTS_ATTR_MODE_RW);
if (! attr) {
log_error("failed to create attribute[%s]", buf);
return false;
}
attr->show = mts_attr_show_ap_gpio_pin;
attr->store = mts_attr_store_ap_gpio_pin;
device_attrs[device_attrs_size++] = &attr->attr;
// add attributes for eeprom contents
if (! ap_add_product_info_attributes(port, MTAC_MFSER_0_0)) {
log_error("failed to add product info attributes");
return false;
}
return true;
}
static bool mfser_teardown(enum ap port) {
int i;
int port_index = port - 1;
log_info("unloading MFSER accessory card in port %d", port);
// clean up allocated memory for attributes
for (i = port_info[port_index]->attrs_start; i < port_info[port_index]->attrs_end; i++) {
if (device_attrs[i]) {
if (device_attrs[i]->name)
kfree(device_attrs[i]->name);
kfree(device_attrs[i]);
}
}
port_info[port_index]->attrs_start = 0;
port_info[port_index]->attrs_end = 0;
return true;
}
bool set_mfser_info(struct ap_info* info) {
info->product_id = MTAC_MFSER_0_0;
info->setup = &mfser_setup;
info->teardown = &mfser_teardown;
info->attrs_start = 0;
info->attrs_end = 0;
info->gpio_pin_name_by_attr_name = &mfser_gpio_pin_name_by_attr_name;
return true;
}
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