浅析MTK hall霍尔传感器之原理
时间:2022-08-21 01:00:01
2. dws配中断脚和使能脚
(根据原理图09_CAMERA_SENSOR”页中, “HALL”部分【OUT】引脚所连接 - 使能脚GPIO12)
v666为例
dws配置pin脚: - 硬件上拉-dws也要配上拉
EintMode|Def.Mode M0|M1|M2|M3|M4|M5|M6|M7|InPull En|InPull SelHigh|Def.Dir|In|Out|OutHigh|VarName1
GPIO12 1 0:GPIO12 1 1 IN GPIO_HALL_1_PIN
dws配置EINT:
EINTVar|Debounce Time(ms)|Polarity|Sensitive_Level|Debounce En
EINT12 HALL_1 0 Low Level Disable
dts:
* HALL GPIO standardization */
&pio {
hall_pin_default: halldefaultcfg {
};
hall_pin_as_int: hallint@12 {
pins_cmd_dat {
pins = 《PINMUX_GPIO12__FUNC_GPIO12》;
slew-rate = 《0》;
bias-pull-up = 《00》;
};
};
};
&keypad {
pinctrl-names = “default”, “hall_pin_as_int”;
pinctrl-0 = 《&hall_pin_default》;
pinctrl-1 = 《&hall_pin_as_int》;
status = “okay”;
};
/* HALL GPIO end */
一、 检查键值是否报告
getevent -i
add device 8: /dev/input/event1
bus: 0019
vendor 2454
product 6500
version 0010
name: “mtk-kpd” // 音量加减键,电源键,hall同一个event
location: “”
id: “”
version: 1.0.1
getevent -t /dev/input/event1 // 打印出来的是16进制
[70.169911] 0001 0085 00000001 // 85 -》 133 远离
[70.169911] 0000 0000 00000000
[70.352126] 0001 0085 00000000
[70.352126] 0000 0000 00000000
二、查看代码确定上报键值
1. alps\kernel-3.18\drivers\input\keyboard\mediatek\kpd.c
#define KEY_HALL_F3 133 //for hall eint report key far // 磁铁远离
#define KEY_HALL_F4 134 //for hall eint report key close // 磁铁靠近
2. alps/device/magcomm/magc6580_we_c_m/mtk-kpd.kl , 映射给上层
key 114 0x72 VOLUME_DOWN // 侧键
key 115 0x73 VOLUME_UP
key 116 0x74 POWER
key 133 F3 // 霍尔
key 134 F4
注:本文件可修改push先测试方法
find /system -name mtk-kpd.kl
/system/usr/keylayout/mtk-kpd.kl
adb push 。.. /system/usr/keylayout/
三、增加权限
alps/device/mediatek/common/sepolicy/basic/system_app.te
# add permission for hall
allow system_app sysfs_keypad_file:dir { search read write };
allow system_app sysfs_keypad_file:file { read write getattr setattr open create };
alps/device/mediatek/common/sepolicy/full/platform_app.te
# add permission for hall
allow platform_app sysfs_keypad_file:dir { search read write };
allow platform_app sysfs_keypad_file:file { read write getattr setattr open create };
alps/device/mediatek/common/sepolicy/full/priv_app.te
# add permission for hall
allow priv_app sysfs_keypad_file:dir { search read write };
allow priv_app sysfs_keypad_file:file { read write getattr setattr open create };
四、插入和拔出手写笔 - 用hall为了实现手写笔尖的磁性(80 5.1为例)
1. 修改alps/device/haocheng/hct6580_weg_a_l/mtk-kpd.kl ,映射给上层
key 133 F3
key 134 F4
key 136 F6
key 137 F7
2. 修改alps\kernel-3.10\drivers\misc\mediatek\keypad\kpd.c,仿造hall_1添加hall_2的代码:
#ifdef GPIO_HALL_2_PIN
#define CUSTOM_HALL_2_SUPPORT
#define GPIO_HALL_2_EINT_PIN GPIO_HALL_2_PIN
#define GPIO_HALL_2_EINT_PIN_M_EINT GPIO_HALL_2_PIN_M_EINT
static unsigned int hall_2_irq;
#define HALL_2_TAG “hall: ”
#define HALL_2_DBG(fmt, args.。.) printk(HALL_2_TAG fmt, ##args)
struct work_struct hall_2_eint_work;
static int hall_2_state_flag = 0;
static bool hall_2_state = 1; //0: close 1:far
#define KEY_HALL_F6 136 //for hall eint report key far
#define KEY_HALL_F7 137 //for hall eint report key close
#endif
#ifdef CUSTOM_HALL_2_SUPPORT // 向上调用接口提供: /sys/bus/。..
static volatile int hall_2_status = 0;
static ssize_t store_hall_2_state(struct device_driver *ddri, const char *buf, size_t count)
{
if (sscanf(buf, “%u”, &hall_2_status) != 1) {
kpd_print(“kpd call state: Invalid values\n”);
return -EINVAL;
}
hall_2_state = (bool)hall_2_status;
return count;
}
static ssize_t show_hall_2_state(struct device_driver *ddri char *buf)
{
ssize_t res;
res = snprintf(buf, PAGE_SIZE, “%d\n”, hall_2_state);
return res;
}
static DRIVER_ATTR(hall_2_state, S_IWUSR | S_IALLUGO, show_hall_2_state, store_hall_2_state);
+ #endif
static struct driver_attribute *kpd_attr_list[] = {
&driver_attr_kpd_call_state,
#ifdef CUSTOM_HALL_SUPPORT
&driver_attr_hall_state,
#endif
+ #ifdef CUSTOM_HALL_2_SUPPORT // 提供给上层调用接口: /sys/bus/。..
+ &driver_attr_hall_2_state,
+ #endif
};
+ #ifdef CUSTOM_HALL_2_SUPPORT
+ void kpd_hall_2_key_handler(unsigned long pressed, u16 linux_keycode)
{
if(!kpd_input_dev) {
printk(“KPD input device not ready\n”);
return;
}
input_report_key(kpd_input_dev, linux_keycode, pressed);
input_sync(kpd_input_dev);
if (kpd_show_hw_keycode) {
printk(KPD_SAY “(%s) KEY_HALL keycode =%d \n”, pressed ? “pressed” : “released”, linux_keycode);
}
}
static void hall_2_work_func(struct work_struct *work)
{
if(hall_2_state == 1) {
kpd_hall_key_handler(1, KEY_HALL_F6);
kpd_hall_key_handler(0, KEY_HALL_F6);
} else if(hall_2_state == 0) {
kpd_hall_key_handler(1, KEY_HALL_F7);
kpd_hall_key_handler(0, KEY_HALL_F7);
}
}
bool get_hall_2_state()
{
return hall_2_state;
}
EXPORT_SYMBOL(get_hall_2_state);
void hall_2_eint_func(void)
{
disable_irq_nosync(hall_2_irq);
if(hall_2_state_flag)
{
hall_2_state_flag = 0;
hall_2_state = 1;
irq_set_irq_type(hall_2_irq,IRQ_TYPE_LEVEL_LOW);
}
else{
hall_2_state_flag = 1;
hall_2_state = 0;
irq_set_irq_type(hall_2_irq,IRQ_TYPE_LEVEL_HIGH);
}
enable_irq(hall_2_irq);
schedule_work(&hall_2_eint_work);
}
static irqreturn_t hall_2_irq_handler(int irq, void *dev_id)
{
hall_2_eint_func();
return IRQ_HANDLED;
}
int hall_2_setup_eint(void)
{
struct device_node *hall_node;
u32 ints[2] = {0, 0};
mt_set_gpio_dir(GPIO_HALL_2_EINT_PIN, GPIO_DIR_IN);
mt_set_gpio_mode(GPIO_HALL_2_EINT_PIN, GPIO_HALL_2_EINT_PIN_M_EINT);
mt_set_gpio_pull_enable(GPIO_HALL_2_EINT_PIN, 0);
hall_node = of_find_compatible_node(NULL,NULL,“mediatek, HALL_2-eint”);
if(hall_node){
printk(“hall_irq has find!\n”);
of_property_read_u32_array(hall_node, “debounce”, ints, ARRAY_SIZE(ints));
mt_gpio_set_debounce(ints[0], ints[1]);
hall_2_irq= irq_of_parse_and_map(hall_node, 0);
if (!hall_2_irq)
{
printk(“irq_of_parse_and_map hall fail!!\n”);
return -EINVAL;
}
if(request_irq(hall_2_irq, hall_2_irq_handler, IRQF_TRIGGER_NONE, “HALL_2-eint”, NULL)) {
printk(“HALL IRQ NOT AVAILABLE!!\n”);
return -EINVAL;
}
}
else{
printk(“null hall_irq node!\n”);
return -EINVAL;
}
return 0;
}
#endif
static int kpd_pdrv_probe(struct platform_device *pdev)
{
#ifdef CUSTOM_HALL_SUPPORT
__set_bit(KEY_HALL_F3, kpd_input_dev-》keybit);
__set_bit(KEY_HALL_F4, kpd_input_dev-》keybit);
#endif
+ #ifdef CUSTOM_HALL_2_SUPPORT
+ __set_bit(KEY_HALL_F6, kpd_input_dev-》keybit); // 使能input上报键值
+ __set_bit(KEY_HALL_F7, kpd_input_dev-》keybit);
+ #endif
。..
#ifdef CUSTOM_HALL_SUPPORT
INIT_WORK(&hall_eint_work, hall_work_func);
hall_setup_eint();
#endif
+ #ifdef CUSTOM_HALL_2_SUPPORT
+ INIT_WORK(&hall_2_eint_work, hall_2_work_func); // 中断中唤醒工作,工作中上报key
+ hall_2_setup_eint(); // 设置GPIO口状态,从dts获取中断信息,注册中断
+ #endif
。..
}
3. 修改dws,配置GPIO口为中断模式,配置中断的触发方式(电平or边沿)
五、39平台:
1. device/mediateksample/k39tv1_bsp_1g/mtk-kpd.kl
+ key 133 F3
+ key 134 F4
2. mt6739.dts
+ hall_1: hall_1 {
+ compatible = “mediatek, hall_1-eint”;
+ status = “disabled”;
+ };
3. k39tv1_bsp_1g.dts
+ /* HALL GPIO standardization */
+ &keypad {
pinctrl-names = “default”, “hall_pin_as_int”;
pinctrl-0 = 《&hall_pin_default》;
pinctrl-1 = 《&hall_pin_as_int》;
status = “okay”;
};
&pio {
hall_pin_default: halldefaultcfg {
};
hall_pin_as_int: hallint@14 {
pins_cmd_dat {
pins = 《PINMUX_GPIO14__FUNC_GPIO14》;
slew-rate = 《0》;
bias-pull-up = 《00》;
};
};
+ };
+ /* HALL GPIO end */
4. codegen.dws
EINT:
ID EINTVar|Debounce Time(ms)|Polarity|Sensitive_Level|Debounce En
EINT14 HALL_1 0 Low Level Disable
GPIO:
ID EintMode|Def.Mode M0|M1|M2|M3|M4|M5|M6|M7|InPull En|InPull SelHigh|Def.Dir|In|Out|OutHigh|VarName1
GPIO14 1 0:GPIO14 1 1 1 IN 1 GPIO_HALL_1_PIN
5. kernel-4.4/drivers/input/keyboard/mediatek/kpd.c
+ #ifdef CONFIG_KST_HALL_SUPPORT
+ #define CUSTOM_HALL_SUPPORT
#define GPIO_HALL_EINT_PIN GPIO_HALL_1_PIN
#define GPIO_HALL_EINT_PIN_M_EINT GPIO_HALL_1_PIN_M_EINT
static unsigned int hall_irq;
#define HALL_TAG “hall: ”
#define HALL_DBG(fmt, args.。.) printk(HALL_TAG fmt, ##args)
struct work_struct hall_eint_work;
static int hall_state_flag = 0;
static bool hall_state = 1; //0: close 1:far
#define KEY_HALL_F3 133 //116 //for hall eint report key far
#define KEY_HALL_F4 134 //62 //for hall eint report key close
struct pinctrl *hallpinctrl;
+ struct pinctrl_state *hall_pin_as_int;
+ #endif
+ #ifdef CUSTOM_HALL_SUPPORT
+ static volatile int hall_status = 0;
static ssize_t store_hall_state(struct device_driver *ddri, const char *buf, size_t count)
{
if (sscanf(buf, “%u”, &hall_status) != 1) {
kpd_print(“kpd call state: Invalid values\n”);
return -EINVAL;
}
hall_state = (bool)hall_status;
return count;
}
static ssize_t show_hall_state(struct device_driver *ddri, char *buf)
{
ssize_t res;
res = snprintf(buf, PAGE_SIZE, “%d\n”, hall_state);
return res;
}
+ static DRIVER_ATTR(hall_state, S_IWUSR | S_IRUGO, show_hall_state, store_hall_state);
+ #endif
static struct driver_attribute *kpd_attr_list[] = {
&driver_attr_kpd_call_state,
+ #ifdef CUSTOM_HALL_SUPPORT
+ &driver_attr_hall_state,
+ #endif
};
+ #ifdef CUSTOM_HALL_SUPPORT
+ void kpd_hall_key_handler(unsigned long pressed, u16 linux_keycode)
{
if(!kpd_input_dev) {
printk(“KPD input device not ready\n”);
return;
}
input_report_key(kpd_input_dev, linux_keycode, pressed);
input_sync(kpd_input_dev);
if (kpd_show_hw_keycode) {
printk(KPD_SAY “(%s) KEY_HALL keycode =%d \n”, pressed ? “pressed” : “released”, linux_keycode);
}
}
static void hall_work_func(struct work_struct *work)
{
printk(“key hall_work_func not ready\n”); //add
if(hall_state == 1) {
kpd_hall_key_handler(1, KEY_HALL_F3);
kpd_hall_key_handler(0, KEY_HALL_F3);
}
else if(hall_state == 0) {
kpd_hall_key_handler(1, KEY_HALL_F4);
kpd_hall_key_handler(0, KEY_HALL_F4);
}
}
void hall_eint_func(void)
{
disable_irq_nosync(hall_irq);
if(hall_state_flag)
{
hall_state_flag = 0;
hall_state = 1;
irq_set_irq_type(hall_irq,IRQ_TYPE_LEVEL_LOW);
}
else
{
hall_state_flag = 1;
hall_state = 0;
irq_set_irq_type(hall_irq,IRQ_TYPE_LEVEL_HIGH);
}
enable_irq(hall_irq);
schedule_work(&hall_eint_work);
}
static irqreturn_t hall_irq_handler(int irq, void *dev_id)
{
hall_eint_func();
return IRQ_HANDLED;
}
int hall_setup_eint(void)
{
struct device_node *hall_node;
u32 ints[2] = {0, 0};
hall_node = of_find_compatible_node(NULL,NULL,“mediatek, hall_1-eint”);
if(hall_node){
printk(“hall_irq has find!\n”);
of_property_read_u32_array(hall_node, “debounce”, ints, ARRAY_SIZE(ints));
gpio_set_debounce(ints[0], ints[1]);
hall_irq= irq_of_parse_and_map(hall_node, 0);
if (!hall_irq)
{
printk(“irq_of_parse_and_map hall fail!!\n”);
return -EINVAL;
}
if(request_irq(hall_irq, hall_irq_handler, IRQF_TRIGGER_NONE, “hall_1-eint”, NULL)) {
printk(“HALL IRQ NOT AVAILABLE!!\n”);
return -EINVAL;
}
}
else
{
printk(“null hall_irq node!\n”);
return -EINVAL;
}
return 0;
+ }
+ #endif
+ #ifdef CUSTOM_HALL_SUPPORT
+ int hall_get_gpio_info(struct platform_device *pdev)
{
int ret;
hallpinctrl = devm_pinctrl_get(&pdev-》dev);
if (IS_ERR(hallpinctrl)) {
ret = PTR_ERR(hallpinctrl);
dev_err(&pdev-》dev, “hallpinctrl err!\n”);
return ret;
}
hall_pin_as_int = pinctrl_lookup_state(hallpinctrl, “hall_pin_as_int”);
if (IS_ERR(hall_pin_as_int)) {
ret = PTR_ERR(hall_pin_as_int);
dev_err(&pdev-》dev, “hall_pin_as_int err!\n”);
return ret;
}
pinctrl_select_state(hallpinctrl, hall_pin_as_int);
return 0;
+ }
+ #endif
static int kpd_pdrv_probe(struct platform_device *pdev)
{
__set_bit(KPD_KEY_MAP, kpd_input_dev-》keybit);
+ #ifdef CUSTOM_HALL_SUPPORT
+ __set_bit(KEY_HALL_F3, kpd_input_dev-》keybit);
+ __set_bit(KEY_HALL_F4, kpd_input_dev-》keybit);
+ #endif
。..
hrtimer_init(&aee_timer_5s, CLOCK_MONOTONIC, HRTIMER_MODE_REL);
aee_timer_5s.function = aee_timer_5s_func;
+ #ifdef CUSTOM_HALL_SUPPORT
+ INIT_WORK(&hall_eint_work, hall_work_func);
+ hall_get_gpio_info(pdev);
+ hall_setup_eint();
+ #endif
err = kpd_create_attr(&kpd_pdrv.driver);
。..
}
调试案例
案例一 : hall不通 - 电容贴错
现象 :
平台 : androidN,MTK6737
排查过程: 1. 查看是否有键值上报 - 拿磁铁靠近
getevent -t /dev/input/event1 - 无键值上报
2. 检查dws中的gpio口配置&中断配置、dts中断配置均ok(根据原理图得知EINT12 即 GPIO12)
3. 接示波器量中断脚 - 磁铁靠近时 中断脚无高低电平变化
4. 交给硬件同事检查 -》 一个电容贴错,替换后ok
处理方案: 换料 改bom
案例二 : hall不通 - hall芯片贴反
现象 :
平台 : androidN,MTK6737
排查过程: 1. 查看是否有键值上报 - 拿磁铁靠近
getevent -t /dev/input/event1 - 无键值上报
2. 检查dws中的gpio口配置&中断配置、dts中断配置均ok
3. hall芯片贴反了 -》 改正ok
案例三 : hall不通 - 硬件短路
现象 :
平台 : androidN,MTK6737
排查过程: 1. 查看是否有键值上报 - 拿磁铁靠近
getevent -t /dev/input/event1 - 无键值上报
2. 用镊子将hall中断脚短地(平常上拉为高电平,低电平为中断) - 有键值上报
