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AC63_BT_SDK/apps/common/device/key/key_driver.c

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原始文件
2025-02-18 15:40:42 +08:00
#include "device/key_driver.h"
#include "system/event.h"
#include "system/init.h"
#include "iokey.h"
#include "adkey.h"
#include "slidekey.h"
#include "irkey.h"
#include "touch_key.h"
#include "system/timer.h"
#include "asm/power_interface.h"
#include "app_config.h"
#include "rdec_key.h"
#include "tent600_key.h"
#if TCFG_KEY_TONE_EN
#include "tone_player.h"
#endif
#if(TCFG_IRSENSOR_ENABLE == 1)
#include "irSensor/ir_manage.h"
#endif
#define LOG_TAG_CONST KEY
#define LOG_TAG "[KEY]"
#define LOG_ERROR_ENABLE
#define LOG_DEBUG_ENABLE
#define LOG_INFO_ENABLE
//#define LOG_DUMP_ENABLE
//#define LOG_CLI_ENABLE
#include "debug.h"
#define KEY_EVENT_CLICK_ONLY_SUPPORT 1 //是否支持某些按键只响应单击事件
#if TCFG_SPI_LCD_ENABLE
#ifndef ALL_KEY_EVENT_CLICK_ONLY
#define ALL_KEY_EVENT_CLICK_ONLY 1 //是否全部按键只响应单击事件
#endif
#else
#ifndef ALL_KEY_EVENT_CLICK_ONLY
#define ALL_KEY_EVENT_CLICK_ONLY 0 //是否全部按键只响应单击事件
#endif
#endif
static volatile u8 is_key_active = 0;
static volatile u8 key_poweron_flag = 0;
extern u32 timer_get_ms(void);
//=======================================================//
// 按键值重新映射函数:
// 用户可以实现该函数把一些按键值重新映射, 可用于组合键的键值重新映射
//=======================================================//
int __attribute__((weak)) key_event_remap(struct sys_event *e)
{
return true;
}
//=======================================================//
// 设置按键开机标志位
//=======================================================//
void set_key_poweron_flag(u8 flag)
{
key_poweron_flag = flag;
}
//=======================================================//
// 获取按键开机标志位
//=======================================================//
u8 get_key_poweron_flag(void)
{
return key_poweron_flag;
}
//=======================================================//
// 清除按键开机标志位
//=======================================================//
void clear_key_poweron_flag(void)
{
key_poweron_flag = 0;
}
#if TCFG_SOFTOFF_WAKEUP_KEY_DRIVER_ENABLE
static u8 key_scan_flag = 0, en_key_cnt = 0, en_key_cnt_flag = 1, nonsrc_wakeup_flag = 0, save_notify_flag = 0, key_wk_send_flag = 0;
struct sys_event e_tmp;
//=======================================================//
// 清除保存的key_notify
//=======================================================//
void clear_save_key_notify(void)
{
save_notify_flag = 0;
memset(&e_tmp, 0, sizeof(struct sys_event));
}
//=======================================================//
// 设置软关机按键唤醒补充发键标志位
//=======================================================//
void set_key_wakeup_send_flag(u8 flag)
{
key_wk_send_flag = flag;
if (save_notify_flag) {
sys_event_notify(&e_tmp);
clear_save_key_notify();
}
}
//=======================================================//
// 获取软关机按键唤醒补充发键标志位
//=======================================================//
u8 get_key_wakeup_send_flag(void)
{
return key_wk_send_flag;
}
//=======================================================//
// 保存未初始化按键消息前推送的按键notify
//=======================================================//
void save_wakeup_key_notify(struct sys_event *event)
{
save_notify_flag = 1;
e_tmp.type = event->type;
e_tmp.arg = event->arg;
e_tmp.u.key.init = event->u.key.init;
e_tmp.u.key.type = event->u.key.type;
e_tmp.u.key.event = event->u.key.event;
e_tmp.u.key.value = event->u.key.value;
e_tmp.u.key.tmr = event->u.key.tmr;
}
#endif
//=======================================================//
// 按键扫描函数: 扫描所有注册的按键驱动
//=======================================================//
static void key_driver_scan(void *_scan_para)
{
struct key_driver_para *scan_para = (struct key_driver_para *)_scan_para;
u8 key_event = 0;
u8 cur_key_value = NO_KEY;
u8 key_value = 0;
struct sys_event e;
static u8 poweron_cnt = 0;
//为了滤掉adkey与mic连在一起时电容充放电导致的开机按键误判,一般用于type-c耳机
/* if (poweron_cnt <= 250) { */
/* poweron_cnt++; */
/* return; */
/* } */
cur_key_value = scan_para->get_value();
/* if (cur_key_value != NO_KEY) { */
/* printf(">>>cur_key_value: %d\n", cur_key_value); */
/* } */
#if TCFG_SOFTOFF_WAKEUP_KEY_DRIVER_ENABLE
u8 wkup_src = get_wakeup_pnd();
//按键唤醒后若未按下第二击,推出单击事件
//key_driver初始化后未扫描到按键
if (key_wk_send_flag && key_scan_flag == 0) {
key_scan_flag = 1;
//记住唤醒源——识别NO_KEY时的键值
if (cur_key_value == NO_KEY) {
if (wkup_src == TCFG_WAKEUP_PORT_POWER_SRC) { //唤醒口port1
key_value = TCFG_IOKEY_POWER_ONE_PORT_VALUE;
} else if (wkup_src == TCFG_WAKEUP_PORT_PREV_SRC) { //唤醒口port2
key_value = TCFG_IOKEY_PREV_ONE_PORT_VALUE;
} else if (wkup_src == TCFG_WAKEUP_PORT_NEXT_SRC) { //唤醒口port3
key_value = TCFG_IOKEY_NEXT_ONE_PORT_VALUE;
} else {
nonsrc_wakeup_flag = 1;
printf("wakeup source err is 0x%x !!!", wkup_src);
return;
}
key_event = KEY_EVENT_CLICK; //单击
goto _notify;
}
//初始化后扫描到了按键但是未满足key_driver的单击事件推出补充推出消息
} else if (en_key_cnt && en_key_cnt <= (scan_para->filter_time + 1) && key_scan_flag == 1 && en_key_cnt_flag == 0) {
en_key_cnt = 0;
key_scan_flag = 0;
}
if (cur_key_value == NO_KEY) {
en_key_cnt_flag = 0;
} else {
key_scan_flag = 1;
if (en_key_cnt_flag) {
en_key_cnt++;
}
}
#endif
if (cur_key_value != NO_KEY) {
is_key_active = 35; //35*10Ms
} else if (is_key_active) {
is_key_active --;
}
//===== 按键消抖处理
if (cur_key_value != scan_para->filter_value && scan_para->filter_time) { //当前按键值与上一次按键值如果不相等, 重新消抖处理, 注意filter_time != 0;
scan_para->filter_cnt = 0; //消抖次数清0, 重新开始消抖
scan_para->filter_value = cur_key_value; //记录上一次的按键值
return; //第一次检测, 返回不做处理
} //当前按键值与上一次按键值相等, filter_cnt开始累加;
if (scan_para->filter_cnt < scan_para->filter_time) {
scan_para->filter_cnt++;
return;
}
//为了滤掉adkey与mic连在一起时电容充放电导致的按键误判,一般用于type-c耳机
/* if ((cur_key_value != scan_para->last_key) && (scan_para->last_key != NO_KEY) && (cur_key_value != NO_KEY)) { */
/* return; */
/* } */
//===== 按键消抖结束, 开始判断按键类型(单击, 双击, 长按, 多击, HOLD, (长按/HOLD)抬起)
if (cur_key_value != scan_para->last_key) {
if (cur_key_value == NO_KEY) { //cur_key = NO_KEY; last_key = valid_key -> 按键被抬起
#if MOUSE_KEY_SCAN_MODE
/* if (scan_para->press_cnt >= scan_para->long_time) { //长按/HOLD状态之后被按键抬起; */
key_event = KEY_EVENT_UP;
key_value = scan_para->last_key;
goto _notify; //发送抬起消息
/* } */
#else
#if TCFG_SOFTOFF_WAKEUP_KEY_DRIVER_ENABLE
if (scan_para->press_cnt >= (scan_para->long_time - TCFG_LONGKEY_SUPPLEMENT_TIME)) //长按/HOLD状态之后被按键抬起, 补充长按时间;
#else
if (scan_para->press_cnt >= scan_para->long_time) //长按/HOLD状态之后被按键抬起;
#endif
{
key_event = KEY_EVENT_UP;
key_value = scan_para->last_key;
goto _notify; //发送抬起消息
}
#endif
scan_para->click_delay_cnt = 1; //按键等待下次连击延时开始
} else { //cur_key = valid_key, last_key = NO_KEY -> 按键被按下
scan_para->press_cnt = 1; //用于判断long和hold事件的计数器重新开始计时;
if (cur_key_value != scan_para->notify_value) { //第一次单击/连击时按下的是不同按键, 单击次数重新开始计数
#if TCFG_SOFTOFF_WAKEUP_KEY_DRIVER_ENABLE
if ((en_key_cnt > scan_para->filter_time && en_key_cnt < scan_para->long_time) || key_wk_send_flag || nonsrc_wakeup_flag) {
scan_para->click_cnt = 1;
} else {
scan_para->click_cnt = 2;
}
#else
scan_para->click_cnt = 1;
#endif
scan_para->notify_value = cur_key_value;
} else {
scan_para->click_cnt++; //单击次数累加
}
}
goto _scan_end; //返回, 等待延时时间到
} else { //cur_key = last_key -> 没有按键按下/按键长按(HOLD)
if (cur_key_value == NO_KEY) { //last_key = NO_KEY; cur_key = NO_KEY -> 没有按键按下
if (scan_para->click_cnt > 0) { //有按键需要消息需要处理
#if ALL_KEY_EVENT_CLICK_ONLY//彩屏方案支持单击
key_event = KEY_EVENT_CLICK; //单击
key_value = scan_para->notify_value;
goto _notify;
#endif
#if KEY_EVENT_CLICK_ONLY_SUPPORT //是否支持某些按键只响应单击事件
if (scan_para->notify_value & BIT(7)) { //BIT(7)按键特殊处理标志, 只发送单击事件, 也可以用于其它扩展
key_event = KEY_EVENT_CLICK; //单击
key_value = scan_para->notify_value;
goto _notify;
}
#endif
if (scan_para->click_delay_cnt > scan_para->click_delay_time) { //按键被抬起后延时到
//TODO: 在此可以添加任意多击事件
if (scan_para->click_cnt >= 5) {
key_event = KEY_EVENT_FIRTH_CLICK; //五击
} else if (scan_para->click_cnt >= 4) {
key_event = KEY_EVENT_FOURTH_CLICK; //4击
} else if (scan_para->click_cnt >= 3) {
key_event = KEY_EVENT_TRIPLE_CLICK; //三击
} else if (scan_para->click_cnt >= 2) {
key_event = KEY_EVENT_DOUBLE_CLICK; //双击
} else {
key_event = KEY_EVENT_CLICK; //单击
}
key_value = scan_para->notify_value;
goto _notify;
} else { //按键抬起后等待下次延时时间未到
scan_para->click_delay_cnt++;
goto _scan_end; //按键抬起后延时时间未到, 返回
}
} else {
goto _scan_end; //没有按键需要处理
}
} else { //last_key = valid_key; cur_key = valid_key, press_cnt累加用于判断long和hold
scan_para->press_cnt++;
#if TCFG_SOFTOFF_WAKEUP_KEY_DRIVER_ENABLE
if (scan_para->press_cnt == (scan_para->long_time - TCFG_LONGKEY_SUPPLEMENT_TIME))
#else
if (scan_para->press_cnt == scan_para->long_time)
#endif
{
key_event = KEY_EVENT_LONG;
} else if (scan_para->press_cnt == scan_para->hold_time) {
key_event = KEY_EVENT_HOLD;
scan_para->press_cnt = scan_para->long_time;
} else {
goto _scan_end; //press_cnt没到长按和HOLD次数, 返回
}
//press_cnt没到长按和HOLD次数, 发消息
key_value = cur_key_value;
goto _notify;
}
}
_notify:
#if TCFG_IRSENSOR_ENABLE
if (get_irSensor_event() == IR_SENSOR_EVENT_FAR) { //未佩戴的耳机不响应按键
return;
}
#endif
key_value &= ~BIT(7); //BIT(7) 用作按键特殊处理的标志
e.type = SYS_KEY_EVENT;
e.u.key.init = 1;
e.u.key.type = scan_para->key_type;//区分按键类型
e.u.key.event = key_event;
e.u.key.value = key_value;
e.u.key.tmr = timer_get_ms();
scan_para->click_cnt = 0; //单击次数清0
scan_para->notify_value = NO_KEY;
e.arg = (void *)DEVICE_EVENT_FROM_KEY;
/* printf("key_value: 0x%x, event: %d, key_poweron_flag: %d\n", key_value, key_event, key_poweron_flag); */
if (key_poweron_flag) {
if (key_event == KEY_EVENT_UP) {
clear_key_poweron_flag();
return;
}
return;
}
if (key_event_remap(&e)) {
#if TCFG_SOFTOFF_WAKEUP_KEY_DRIVER_ENABLE
if (key_wk_send_flag) {
sys_event_notify(&e);
} else {
save_wakeup_key_notify(&e);
}
nonsrc_wakeup_flag = 0;
#else
sys_event_notify(&e);
#endif
#if TCFG_KEY_TONE_EN
audio_key_tone_play();
#endif
}
_scan_end:
scan_para->last_key = cur_key_value;
return;
}
//wakeup callback
void key_active_set(u8 port)
{
/*要用按键宏包住,不用按键功能,唤醒后就再也不进睡眠*/
#if (TCFG_IOKEY_ENABLE || TCFG_ADKEY_ENABLE || TCFG_TOUCH_KEY_ENABLE)
is_key_active = 35; //35*10Ms
#endif
}
//=======================================================//
// 按键初始化函数: 初始化所有注册的按键驱动
//=======================================================//
int key_driver_init(void)
{
int err;
#if TCFG_IOKEY_ENABLE
extern const struct iokey_platform_data iokey_data;
extern struct key_driver_para iokey_scan_para;
err = iokey_init(&iokey_data);
#ifdef TCFG_IOKEY_TIME_REDEFINE
extern struct key_driver_para iokey_scan_user_para;
if (err == 0) {
sys_s_hi_timer_add((void *)&iokey_scan_user_para, key_driver_scan, iokey_scan_user_para.scan_time); //注册按键扫描定时器
}
#else
if (err == 0) {
sys_s_hi_timer_add((void *)&iokey_scan_para, key_driver_scan, iokey_scan_para.scan_time); //注册按键扫描定时器
}
#endif
#endif
#if TCFG_ADKEY_ENABLE
#ifdef CONFIG_ICRECORDER_CASE_ENABLE
extern multi_adkey_init(const struct adkey_platform_data * multi_adkey_data);
extern const struct adkey_platform_data multi_adkey_data[];
extern struct key_driver_para multi_adkey_scan_para;
err = multi_adkey_init(multi_adkey_data);
if (err == 0) {
sys_s_hi_timer_add((void *)&multi_adkey_scan_para, key_driver_scan, multi_adkey_scan_para.scan_time); //注册按键扫描定时器
}
#else
extern const struct adkey_platform_data adkey_data;
extern struct key_driver_para adkey_scan_para;
err = adkey_init(&adkey_data);
if (err == 0) {
sys_s_hi_timer_add((void *)&adkey_scan_para, key_driver_scan, adkey_scan_para.scan_time); //注册按键扫描定时器
}
#endif
#endif
#if TCFG_IRKEY_ENABLE
extern const struct irkey_platform_data irkey_data;
extern struct key_driver_para irkey_scan_para;
err = irkey_init(&irkey_data);
if (err == 0) {
sys_s_hi_timer_add((void *)&irkey_scan_para, key_driver_scan, irkey_scan_para.scan_time); //注册按键扫描定时器
}
#endif
#if TCFG_TOUCH_KEY_ENABLE
extern const struct touch_key_platform_data touch_key_data;
extern struct key_driver_para touch_key_scan_para;
err = touch_key_init(&touch_key_data);
if (err == 0) {
sys_s_hi_timer_add((void *)&touch_key_scan_para, key_driver_scan, touch_key_scan_para.scan_time); //注册按键扫描定时器
}
#endif
#if TCFG_ADKEY_RTCVDD_ENABLE
extern const struct adkey_rtcvdd_platform_data adkey_rtcvdd_data;
extern struct key_driver_para adkey_rtcvdd_scan_para;
err = adkey_rtcvdd_init(&adkey_rtcvdd_data);
if (err == 0) {
sys_s_hi_timer_add((void *)&adkey_rtcvdd_scan_para, key_driver_scan, adkey_rtcvdd_scan_para.scan_time); //注册按键扫描定时器
}
#endif
#if TCFG_RDEC_KEY_ENABLE
extern const struct rdec_platform_data rdec_key_data;
extern struct key_driver_para rdec_key_scan_para;
err = rdec_key_init(&rdec_key_data);
if (err == 0) {
sys_s_hi_timer_add((void *)&rdec_key_scan_para, key_driver_scan, rdec_key_scan_para.scan_time); //注册按键扫描定时器
}
#endif
#if TCFG_CTMU_TOUCH_KEY_ENABLE
#include "asm/ctmu.h"
extern const struct ctmu_touch_key_platform_data ctmu_touch_key_data;
extern struct key_driver_para ctmu_touch_key_scan_para;
extern int ctmu_touch_key_init(const struct ctmu_touch_key_platform_data * ctmu_touch_key_data);
err = ctmu_touch_key_init(&ctmu_touch_key_data);
if (err == 0) {
sys_s_hi_timer_add((void *)&ctmu_touch_key_scan_para, key_driver_scan, ctmu_touch_key_scan_para.scan_time); //注册按键扫描定时器
}
#endif /* #if TCFG_CTMU_TOUCH_KEY_ENABLE */
#if TCFG_SLIDE_KEY_ENABLE
extern const struct slidekey_platform_data slidekey_data;
extern int slidekey_init(const struct slidekey_platform_data * slidekey_data);
err = slidekey_init(&slidekey_data);
if (err == 0) {
}
#endif//TCFG_SLIDE_KEY_ENABLE
#if TCFG_6083_ADKEY_ENABLE
extern int adkey_init_6083();
err = adkey_init_6083();
if (err == 0) {
}
#endif
#if TCFG_TENT600_KEY_ENABLE
extern const struct tent600_key_platform_data key_data ;
extern struct key_driver_para tent600_key_scan_para;
err = tent600_key_init(&key_data);
if (err == 0) {
sys_s_hi_timer_add((void *)&tent600_key_scan_para, key_driver_scan, tent600_key_scan_para.scan_time); //注册按键扫描定时器
}
#endif
return 0;
}
static u8 key_idle_query(void)
{
return !is_key_active;
}
#if ((!TCFG_LP_TOUCH_KEY_ENABLE) && (TCFG_IOKEY_ENABLE || TCFG_ADKEY_ENABLE))
REGISTER_LP_TARGET(key_lp_target) = {
.name = "key",
.is_idle = key_idle_query,
};
#endif /* #if !TCFG_LP_TOUCH_KEY_ENABLE */
#if (TCFG_SOFTOFF_WAKEUP_KEY_DRIVER_ENABLE && TCFG_IOKEY_ENABLE)
//默认0按键消息使能后置1,避免(软关机唤醒——发送按键消息)这段时间进入睡眠状态
REGISTER_LP_TARGET(softoff_wake_key) = {
.name = "softoff_wake_key",
.is_idle = get_key_wakeup_send_flag,
};
#endif
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