Commit f7fafd08 authored by Vincent Donnefort's avatar Vincent Donnefort Committed by Jacek Anaszewski

leds: leds-ns2: move LED modes mapping outside of the driver

On the board n090401 (Seagate NAS 4-Bay), the LED mode mapping (GPIO
values to LED mode) is different from the one used on other boards
supported by the leds-ns2 driver.

With this patch the hardcoded mapping is removed from leds-ns2. Now,
it must be defined either in the platform data (if an old-fashion board
setup file is used) or in the DT node. In order to allow the later, this
patch also introduces a modes-map property for the leds-ns2 DT binding.
Signed-off-by: default avatarVincent Donnefort <vdonnefort@gmail.com>
Signed-off-by: default avatarJacek Anaszewski <j.anaszewski@samsung.com>
parent de88e71a
...@@ -8,6 +8,9 @@ Each LED is represented as a sub-node of the ns2-leds device. ...@@ -8,6 +8,9 @@ Each LED is represented as a sub-node of the ns2-leds device.
Required sub-node properties: Required sub-node properties:
- cmd-gpio: Command LED GPIO. See OF device-tree GPIO specification. - cmd-gpio: Command LED GPIO. See OF device-tree GPIO specification.
- slow-gpio: Slow LED GPIO. See OF device-tree GPIO specification. - slow-gpio: Slow LED GPIO. See OF device-tree GPIO specification.
- modes-map: A mapping between LED modes (off, on or SATA activity blinking) and
the corresponding cmd-gpio/slow-gpio values. All the GPIO values combinations
should be given in order to avoid having an unknown mode at driver probe time.
Optional sub-node properties: Optional sub-node properties:
- label: Name for this LED. If omitted, the label is taken from the node name. - label: Name for this LED. If omitted, the label is taken from the node name.
...@@ -15,6 +18,8 @@ Optional sub-node properties: ...@@ -15,6 +18,8 @@ Optional sub-node properties:
Example: Example:
#include <dt-bindings/leds/leds-ns2.h>
ns2-leds { ns2-leds {
compatible = "lacie,ns2-leds"; compatible = "lacie,ns2-leds";
...@@ -22,5 +27,9 @@ ns2-leds { ...@@ -22,5 +27,9 @@ ns2-leds {
label = "ns2:blue:sata"; label = "ns2:blue:sata";
slow-gpio = <&gpio0 29 0>; slow-gpio = <&gpio0 29 0>;
cmd-gpio = <&gpio0 30 0>; cmd-gpio = <&gpio0 30 0>;
modes-map = <NS_V2_LED_OFF 0 1
NS_V2_LED_ON 1 0
NS_V2_LED_ON 0 0
NS_V2_LED_SATA 1 1>;
}; };
}; };
...@@ -33,46 +33,20 @@ ...@@ -33,46 +33,20 @@
#include <linux/of_gpio.h> #include <linux/of_gpio.h>
/* /*
* The Network Space v2 dual-GPIO LED is wired to a CPLD and can blink in * The Network Space v2 dual-GPIO LED is wired to a CPLD. Three different LED
* relation with the SATA activity. This capability is exposed through the * modes are available: off, on and SATA activity blinking. The LED modes are
* "sata" sysfs attribute. * controlled through two GPIOs (command and slow): each combination of values
* * for the command/slow GPIOs corresponds to a LED mode.
* The following array detail the different LED registers and the combination
* of their possible values:
*
* cmd_led | slow_led | /SATA active | LED state
* | | |
* 1 | 0 | x | off
* - | 1 | x | on
* 0 | 0 | 1 | on
* 0 | 0 | 0 | blink (rate 300ms)
*/ */
enum ns2_led_modes {
NS_V2_LED_OFF,
NS_V2_LED_ON,
NS_V2_LED_SATA,
};
struct ns2_led_mode_value {
enum ns2_led_modes mode;
int cmd_level;
int slow_level;
};
static struct ns2_led_mode_value ns2_led_modval[] = {
{ NS_V2_LED_OFF , 1, 0 },
{ NS_V2_LED_ON , 0, 1 },
{ NS_V2_LED_ON , 1, 1 },
{ NS_V2_LED_SATA, 0, 0 },
};
struct ns2_led_data { struct ns2_led_data {
struct led_classdev cdev; struct led_classdev cdev;
unsigned cmd; unsigned cmd;
unsigned slow; unsigned slow;
unsigned char sata; /* True when SATA mode active. */ unsigned char sata; /* True when SATA mode active. */
rwlock_t rw_lock; /* Lock GPIOs. */ rwlock_t rw_lock; /* Lock GPIOs. */
int num_modes;
struct ns2_led_modval *modval;
}; };
static int ns2_led_get_mode(struct ns2_led_data *led_dat, static int ns2_led_get_mode(struct ns2_led_data *led_dat,
...@@ -88,10 +62,10 @@ static int ns2_led_get_mode(struct ns2_led_data *led_dat, ...@@ -88,10 +62,10 @@ static int ns2_led_get_mode(struct ns2_led_data *led_dat,
cmd_level = gpio_get_value(led_dat->cmd); cmd_level = gpio_get_value(led_dat->cmd);
slow_level = gpio_get_value(led_dat->slow); slow_level = gpio_get_value(led_dat->slow);
for (i = 0; i < ARRAY_SIZE(ns2_led_modval); i++) { for (i = 0; i < led_dat->num_modes; i++) {
if (cmd_level == ns2_led_modval[i].cmd_level && if (cmd_level == led_dat->modval[i].cmd_level &&
slow_level == ns2_led_modval[i].slow_level) { slow_level == led_dat->modval[i].slow_level) {
*mode = ns2_led_modval[i].mode; *mode = led_dat->modval[i].mode;
ret = 0; ret = 0;
break; break;
} }
...@@ -110,12 +84,12 @@ static void ns2_led_set_mode(struct ns2_led_data *led_dat, ...@@ -110,12 +84,12 @@ static void ns2_led_set_mode(struct ns2_led_data *led_dat,
write_lock_irqsave(&led_dat->rw_lock, flags); write_lock_irqsave(&led_dat->rw_lock, flags);
for (i = 0; i < ARRAY_SIZE(ns2_led_modval); i++) { for (i = 0; i < led_dat->num_modes; i++) {
if (mode == ns2_led_modval[i].mode) { if (mode == led_dat->modval[i].mode) {
gpio_set_value(led_dat->cmd, gpio_set_value(led_dat->cmd,
ns2_led_modval[i].cmd_level); led_dat->modval[i].cmd_level);
gpio_set_value(led_dat->slow, gpio_set_value(led_dat->slow,
ns2_led_modval[i].slow_level); led_dat->modval[i].slow_level);
} }
} }
...@@ -228,6 +202,8 @@ create_ns2_led(struct platform_device *pdev, struct ns2_led_data *led_dat, ...@@ -228,6 +202,8 @@ create_ns2_led(struct platform_device *pdev, struct ns2_led_data *led_dat,
led_dat->cdev.groups = ns2_led_groups; led_dat->cdev.groups = ns2_led_groups;
led_dat->cmd = template->cmd; led_dat->cmd = template->cmd;
led_dat->slow = template->slow; led_dat->slow = template->slow;
led_dat->modval = template->modval;
led_dat->num_modes = template->num_modes;
ret = ns2_led_get_mode(led_dat, &mode); ret = ns2_led_get_mode(led_dat, &mode);
if (ret < 0) if (ret < 0)
...@@ -259,9 +235,8 @@ ns2_leds_get_of_pdata(struct device *dev, struct ns2_led_platform_data *pdata) ...@@ -259,9 +235,8 @@ ns2_leds_get_of_pdata(struct device *dev, struct ns2_led_platform_data *pdata)
{ {
struct device_node *np = dev->of_node; struct device_node *np = dev->of_node;
struct device_node *child; struct device_node *child;
struct ns2_led *leds; struct ns2_led *led, *leds;
int num_leds = 0; int num_leds = 0;
int i = 0;
num_leds = of_get_child_count(np); num_leds = of_get_child_count(np);
if (!num_leds) if (!num_leds)
...@@ -272,26 +247,57 @@ ns2_leds_get_of_pdata(struct device *dev, struct ns2_led_platform_data *pdata) ...@@ -272,26 +247,57 @@ ns2_leds_get_of_pdata(struct device *dev, struct ns2_led_platform_data *pdata)
if (!leds) if (!leds)
return -ENOMEM; return -ENOMEM;
led = leds;
for_each_child_of_node(np, child) { for_each_child_of_node(np, child) {
const char *string; const char *string;
int ret; int ret, i, num_modes;
struct ns2_led_modval *modval;
ret = of_get_named_gpio(child, "cmd-gpio", 0); ret = of_get_named_gpio(child, "cmd-gpio", 0);
if (ret < 0) if (ret < 0)
return ret; return ret;
leds[i].cmd = ret; led->cmd = ret;
ret = of_get_named_gpio(child, "slow-gpio", 0); ret = of_get_named_gpio(child, "slow-gpio", 0);
if (ret < 0) if (ret < 0)
return ret; return ret;
leds[i].slow = ret; led->slow = ret;
ret = of_property_read_string(child, "label", &string); ret = of_property_read_string(child, "label", &string);
leds[i].name = (ret == 0) ? string : child->name; led->name = (ret == 0) ? string : child->name;
ret = of_property_read_string(child, "linux,default-trigger", ret = of_property_read_string(child, "linux,default-trigger",
&string); &string);
if (ret == 0) if (ret == 0)
leds[i].default_trigger = string; led->default_trigger = string;
ret = of_property_count_u32_elems(child, "modes-map");
if (ret < 0 || ret % 3) {
dev_err(dev,
"Missing or malformed modes-map property\n");
return -EINVAL;
}
num_modes = ret / 3;
modval = devm_kzalloc(dev,
num_modes * sizeof(struct ns2_led_modval),
GFP_KERNEL);
if (!modval)
return -ENOMEM;
for (i = 0; i < num_modes; i++) {
of_property_read_u32_index(child,
"modes-map", 3 * i,
(u32 *) &modval[i].mode);
of_property_read_u32_index(child,
"modes-map", 3 * i + 1,
(u32 *) &modval[i].cmd_level);
of_property_read_u32_index(child,
"modes-map", 3 * i + 2,
(u32 *) &modval[i].slow_level);
}
led->num_modes = num_modes;
led->modval = modval;
i++; led++;
} }
pdata->leds = leds; pdata->leds = leds;
......
#ifndef _DT_BINDINGS_LEDS_NS2_H
#define _DT_BINDINGS_LEDS_NS2_H
#define NS_V2_LED_OFF 0
#define NS_V2_LED_ON 1
#define NS_V2_LED_SATA 2
#endif
...@@ -9,11 +9,25 @@ ...@@ -9,11 +9,25 @@
#ifndef __LEDS_KIRKWOOD_NS2_H #ifndef __LEDS_KIRKWOOD_NS2_H
#define __LEDS_KIRKWOOD_NS2_H #define __LEDS_KIRKWOOD_NS2_H
enum ns2_led_modes {
NS_V2_LED_OFF,
NS_V2_LED_ON,
NS_V2_LED_SATA,
};
struct ns2_led_modval {
enum ns2_led_modes mode;
int cmd_level;
int slow_level;
};
struct ns2_led { struct ns2_led {
const char *name; const char *name;
const char *default_trigger; const char *default_trigger;
unsigned cmd; unsigned cmd;
unsigned slow; unsigned slow;
int num_modes;
struct ns2_led_modval *modval;
}; };
struct ns2_led_platform_data { struct ns2_led_platform_data {
......
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