Split out LED control + key handler

This commit is contained in:
Ben V. Brown 2023-02-05 18:27:13 +11:00
parent a1c073d3a4
commit bd55e53337
11 changed files with 609 additions and 560 deletions

View File

@ -14,115 +14,42 @@
* *
****************************************************************************/ ****************************************************************************/
#include "apps.h" #include "apps.h"
#include "a2dp_api.h" #include "common_apps_imports.h"
#include "app_audio.h" #include "ibrt.h"
#include "app_battery.h" #include "key_handler.h"
#include "app_ble_include.h" #include "led_control.h"
#include "app_bt.h"
#include "app_bt_func.h"
#include "app_bt_media_manager.h"
#include "app_key.h"
#include "app_overlay.h"
#include "app_pwl.h"
#include "app_status_ind.h"
#include "app_thread.h"
#include "app_utils.h"
#include "audioflinger.h"
#include "besbt.h"
#include "bt_drv_interface.h"
#include "bt_if.h"
#include "btapp.h"
#include "cmsis_os.h"
#include "crash_dump_section.h"
#include "factory_section.h"
#include "gapm_task.h"
#include "hal_bootmode.h"
#include "hal_i2c.h"
#include "hal_sleep.h"
#include "hal_timer.h"
#include "hal_trace.h"
#include "list.h"
#include "log_section.h"
#include "me_api.h"
#include "norflash_api.h"
#include "nvrecord.h"
#include "nvrecord_dev.h"
#include "nvrecord_env.h"
#include "os_api.h"
#include "pmu.h"
#include "stdio.h"
#include "string.h"
#include "tgt_hardware.h"
#ifdef __AI_VOICE__
#include "ai_manager.h"
#include "app_ai_if.h"
#include "app_ai_manager_api.h"
#include "app_ai_tws.h"
#endif
#include "app_tws_ibrt_cmd_handler.h"
#include "audio_process.h"
#ifdef __PC_CMD_UART__
#include "app_cmd.h"
#endif
#ifdef __FACTORY_MODE_SUPPORT__
#include "app_factory.h"
#include "app_factory_bt.h"
#endif
#ifdef __INTERCONNECTION__
#include "app_ble_mode_switch.h"
#include "app_interconnection.h"
#include "app_interconnection_ble.h"
#include "app_interconnection_logic_protocol.h"
#endif
#ifdef __INTERACTION__
#include "app_interaction.h"
#endif
#ifdef BISTO_ENABLED
#include "app_ai_manager_api.h"
#include "gsound_custom_actions.h"
#include "gsound_custom_ota.h"
#include "gsound_custom_reset.h"
#include "nvrecord_gsound.h"
#endif
#ifdef IBRT_OTA
#include "ota_bes.h"
#endif
#ifdef MEDIA_PLAYER_SUPPORT
#include "app_media_player.h"
#include "resources.h"
#endif
#ifdef VOICE_DATAPATH
#include "app_voicepath.h"
#endif
#ifdef BT_USB_AUDIO_DUAL_MODE
#include "btusb_audio.h"
#include "usbaudio_thread.h"
#endif
#ifdef TILE_DATAPATH
#include "tile_target_ble.h"
#endif
#if defined(IBRT)
#include "app_ibrt_customif_cmd.h"
#include "app_ibrt_customif_ui.h"
#include "app_ibrt_if.h"
#include "app_ibrt_ui_test.h"
#include "app_ibrt_voice_report.h"
#include "app_tws_if.h"
#endif
#ifdef GFPS_ENABLED #ifdef GFPS_ENABLED
#include "app_gfps.h" #include "app_gfps.h"
#ifdef GFPS_ENABLED
static void app_tell_battery_info_handler(uint8_t *batteryValueCount,
uint8_t *batteryValue) {
GFPS_BATTERY_STATUS_E status;
if (app_battery_is_charging()) {
status = BATTERY_CHARGING;
} else {
status = BATTERY_NOT_CHARGING;
}
// TODO: add the charger case's battery level
#ifdef IBRT
if (app_tws_ibrt_tws_link_connected()) {
*batteryValueCount = 2;
} else {
*batteryValueCount = 1;
}
#else
*batteryValueCount = 1;
#endif
TRACE(2, "%s,*batteryValueCount is %d", __func__, *batteryValueCount);
if (1 == *batteryValueCount) {
batteryValue[0] = ((app_battery_current_level() + 1) * 10) | (status << 7);
} else {
batteryValue[0] = ((app_battery_current_level() + 1) * 10) | (status << 7);
batteryValue[1] = ((app_battery_current_level() + 1) * 10) | (status << 7);
}
}
#endif
#endif #endif
#ifdef BTIF_BLE_APP_DATAPATH_SERVER #ifdef BTIF_BLE_APP_DATAPATH_SERVER
@ -1486,217 +1413,6 @@ void app_latency_switch_key_handler(void) {
} }
} }
/*
* handling of touch events when the devices are turned on
* Both pods active:
* Right Ear:
* Single tap : Play/Pause
* Double tap : Next track
* Hold : ANC on/off
* Triple tap : Volume Up
*
* Left Ear:
* Single tap : Play/Pause
* Double tap : Previous track
* Hold : ANC on/off
* Triple tap : Volume Down
* Single pod active:
* Single tap : Play/Pause
* Double tap : Next track
* Hold : Previous track
* Triple tap : Volume Up
* Quad tap : Volume Down
* We use app_ibrt_if_start_user_action for handling actions, as this will apply
locally if we are link master
* OR send it over the link to the other bud if we are not
*/
void send_vol_up(void) {
uint8_t action[] = {IBRT_ACTION_LOCAL_VOLUP};
app_ibrt_if_start_user_action(action, sizeof(action));
}
void send_play_pause(void) {
if (app_bt_device.a2dp_play_pause_flag != 0) {
uint8_t action[] = {IBRT_ACTION_PAUSE};
app_ibrt_if_start_user_action(action, sizeof(action));
} else {
uint8_t action[] = {IBRT_ACTION_PLAY};
app_ibrt_if_start_user_action(action, sizeof(action));
}
}
void send_vol_down(void) {
uint8_t action[] = {IBRT_ACTION_LOCAL_VOLDN};
app_ibrt_if_start_user_action(action, sizeof(action));
}
void send_next_track(void) {
uint8_t action[] = {IBRT_ACTION_FORWARD};
app_ibrt_if_start_user_action(action, sizeof(action));
}
void send_prev_track(void) {
uint8_t action[] = {IBRT_ACTION_BACKWARD};
app_ibrt_if_start_user_action(action, sizeof(action));
}
void app_key_single_tap(APP_KEY_STATUS *status, void *param) {
TRACE(2, "%s event %d", __func__, status->event);
if (!app_tws_ibrt_tws_link_connected()) {
// No other bud paired
TRACE(0, "Handling %s in single bud mode", __func__);
send_play_pause();
} else {
// Bud's are working as a pair
if (app_tws_is_left_side()) {
TRACE(0, "Handling %s as left bud", __func__);
// Lefty
send_play_pause();
} else {
TRACE(0, "Handling %s as right bud", __func__);
// Righty
send_play_pause();
}
}
}
void app_key_double_tap(APP_KEY_STATUS *status, void *param) {
TRACE(2, "%s event %d", __func__, status->event);
if (!app_tws_ibrt_tws_link_connected()) {
// No other bud paired
TRACE(0, "Handling %s in single bud mode", __func__);
send_next_track();
} else {
// Bud's are working as a pair
if (app_tws_is_left_side()) {
TRACE(0, "Handling %s as left bud", __func__);
// Lefty
send_prev_track();
} else {
TRACE(0, "Handling %s as right bud", __func__);
// Righty
send_next_track();
}
}
}
void app_key_triple_tap(APP_KEY_STATUS *status, void *param) {
TRACE(2, "%s event %d", __func__, status->event);
if (!app_tws_ibrt_tws_link_connected()) {
// No other bud paired
TRACE(0, "Handling %s in single bud mode", __func__);
send_vol_up();
} else {
// Bud's are working as a pair
if (app_tws_is_left_side()) {
TRACE(0, "Handling %s as left bud", __func__);
// Lefty
send_vol_down();
} else {
TRACE(0, "Handling %s as right bud", __func__);
// Righty
send_vol_up();
}
}
}
void app_key_quad_tap(APP_KEY_STATUS *status, void *param) {
TRACE(2, "%s event %d", __func__, status->event);
if (!app_tws_ibrt_tws_link_connected()) {
// No other bud paired
TRACE(0, "Handling %s in single bud mode", __func__);
send_vol_down();
} else {
// Bud's are working as a pair
if (app_tws_is_left_side()) {
TRACE(0, "Handling %s as left bud", __func__);
// Lefty
} else {
TRACE(0, "Handling %s as right bud", __func__);
// Righty
}
}
}
void app_key_long_press_down(APP_KEY_STATUS *status, void *param) {
TRACE(2, "%s event %d", __func__, status->event);
if (!app_tws_ibrt_tws_link_connected()) {
// No other bud paired
TRACE(0, "Handling %s in single bud mode", __func__);
send_prev_track();
} else {
// Bud's are working as a pair
app_anc_key(status, param);
}
}
void app_key_reboot(APP_KEY_STATUS *status, void *param) {
TRACE(1, "%s ", __func__);
hal_cmu_sys_reboot();
}
void app_key_init(void) {
uint8_t i = 0;
TRACE(1, "%s", __func__);
const APP_KEY_HANDLE key_cfg[] = {
{{APP_KEY_CODE_PWR, APP_KEY_EVENT_CLICK}, "", app_key_single_tap, NULL},
{{APP_KEY_CODE_PWR, APP_KEY_EVENT_DOUBLECLICK},
"",
app_key_double_tap,
NULL},
{{APP_KEY_CODE_PWR, APP_KEY_EVENT_TRIPLECLICK},
"",
app_key_triple_tap,
NULL},
{{APP_KEY_CODE_PWR, APP_KEY_EVENT_ULTRACLICK},
"",
app_key_quad_tap,
NULL},
{{APP_KEY_CODE_PWR, APP_KEY_EVENT_LONGPRESS},
"",
app_key_long_press_down,
NULL},
};
app_key_handle_clear();
for (i = 0; i < (sizeof(key_cfg) / sizeof(APP_KEY_HANDLE)); i++) {
app_key_handle_registration(&key_cfg[i]);
}
}
void app_key_init_on_charging(void) {
uint8_t i = 0;
const APP_KEY_HANDLE key_cfg[] = {
{{APP_KEY_CODE_PWR, APP_KEY_EVENT_LONGLONGPRESS},
"long press reboot",
app_key_reboot,
NULL},
// {{APP_KEY_CODE_PWR,APP_KEY_EVENT_CLICK},"bt function
// key",app_dfu_key_handler, NULL},
#ifdef __USB_COMM__
{{APP_KEY_CODE_PWR, APP_KEY_EVENT_LONGPRESS},
"usb cdc key",
app_usb_cdc_comm_key_handler,
NULL},
#endif
};
TRACE(1, "%s", __func__);
for (i = 0; i < (sizeof(key_cfg) / sizeof(APP_KEY_HANDLE)); i++) {
app_key_handle_registration(&key_cfg[i]);
}
}
void stopAuto_Shutdowm_Timer(void); void stopAuto_Shutdowm_Timer(void);
bool MobileLinkLose_reboot = false; bool MobileLinkLose_reboot = false;
@ -1987,36 +1703,6 @@ void stoponce_delay_event_Timer_(void) {
/********************************once_delay_event_Timer__timer*******************************************************/ /********************************once_delay_event_Timer__timer*******************************************************/
/***********************************************************************************************/ /***********************************************************************************************/
#include "hal_gpio.h"
#include "tgt_hardware.h"
extern struct BT_DEVICE_T app_bt_device;
extern void hal_gpio_pin_set(enum HAL_GPIO_PIN_T pin);
bool Curr_Is_Master(void) {
static ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx();
if (p_ibrt_ctrl->current_role == IBRT_MASTER)
return 1;
else
return 0;
}
bool Curr_Is_Slave(void) {
static ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx();
if (p_ibrt_ctrl->current_role == IBRT_SLAVE)
return 1;
else
return 0;
}
uint8_t get_curr_role(void) {
static ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx();
return p_ibrt_ctrl->current_role;
}
uint8_t get_nv_role(void) {
static ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx();
return p_ibrt_ctrl->nv_role;
}
extern bt_status_t LinkDisconnectDirectly(bool PowerOffFlag); extern bt_status_t LinkDisconnectDirectly(bool PowerOffFlag);
void a2dp_suspend_music_force(void); void a2dp_suspend_music_force(void);
@ -2103,34 +1789,6 @@ int app_deinit(int deinit_case) {
return nRet; return nRet;
} }
#ifdef APP_TEST_MODE
extern void app_test_init(void);
int app_init(void) {
int nRet = 0;
// uint8_t pwron_case = APP_POWERON_CASE_INVALID;
TRACE(1, "%s", __func__);
app_poweroff_flag = 0;
app_sysfreq_req(APP_SYSFREQ_USER_APP_INIT, APP_SYSFREQ_52M);
list_init();
af_open();
app_os_init();
app_pwl_open();
app_audio_open();
app_audio_manager_open();
app_overlay_open();
if (app_key_open(true)) {
nRet = -1;
goto exit;
}
app_test_init();
exit:
app_sysfreq_req(APP_SYSFREQ_USER_APP_INIT, APP_SYSFREQ_32K);
return nRet;
}
#else /* !defined(APP_TEST_MODE) */
int app_bt_connect2tester_init(void) { int app_bt_connect2tester_init(void) {
btif_device_record_t rec; btif_device_record_t rec;
bt_bdaddr_t tester_addr; bt_bdaddr_t tester_addr;
@ -2273,130 +1931,6 @@ void app_ibrt_init(void) {
#endif #endif
} }
#ifdef GFPS_ENABLED
static void app_tell_battery_info_handler(uint8_t *batteryValueCount,
uint8_t *batteryValue) {
GFPS_BATTERY_STATUS_E status;
if (app_battery_is_charging()) {
status = BATTERY_CHARGING;
} else {
status = BATTERY_NOT_CHARGING;
}
// TODO: add the charger case's battery level
#ifdef IBRT
if (app_tws_ibrt_tws_link_connected()) {
*batteryValueCount = 2;
} else {
*batteryValueCount = 1;
}
#else
*batteryValueCount = 1;
#endif
TRACE(2, "%s,*batteryValueCount is %d", __func__, *batteryValueCount);
if (1 == *batteryValueCount) {
batteryValue[0] = ((app_battery_current_level() + 1) * 10) | (status << 7);
} else {
batteryValue[0] = ((app_battery_current_level() + 1) * 10) | (status << 7);
batteryValue[1] = ((app_battery_current_level() + 1) * 10) | (status << 7);
}
}
#endif
/*
#define regaddr0 0x40
#define regaddr1 0x41
#define regaddr2 0x42
#define regaddr3 0x43
#define regaddr4 0xc8
#define decice_firstreg 0x00
*/
void touch_evt_handler(enum HAL_GPIO_PIN_T pin) {
TRACE(3, "SCL_TOUCH !!!!");
/*
unsigned char keyEventBUff0 ;
unsigned char keyEventBUff1 ;
unsigned char keyEventBUff2 ;
unsigned char keyEventBUff3 ;
unsigned char temp = 0;
//hal_gpio_i2c_simple_recv((unsigned char)0x60, 0x40, 1,&keyEventBUff,4);
I2C_ReadByte(regaddr0,&keyEventBUff0);
I2C_ReadByte(regaddr1,&keyEventBUff1);
I2C_ReadByte(regaddr2,&keyEventBUff2);
I2C_ReadByte(regaddr3,&keyEventBUff3);
unsigned char firstaddr;
I2C_ReadByte(decice_firstreg,&firstaddr);
TRACE(3,"0X00 REG = 0x%x",firstaddr);
unsigned char keyEventBUff4byte[4] ;
I2C_Read4Byte(regaddr0,keyEventBUff4byte);
I2C_ReadByte(0xC8,&temp);
temp |= 0x01;
I2C_WriteByte(0xC8,temp);
TRACE(3,"REG0X40 = 0x%x, REG0X41 = 0x%x, REG0X42 = 0x%x, REG0X43 =
0x%x",keyEventBUff0,keyEventBUff1,keyEventBUff2,keyEventBUff3);
TRACE(3,"keyEventBUff4BYTE :");
DUMP8("0x%02x ",keyEventBUff4byte,4);
uint8_t keyEventBUff0[4];
uint8_t keyEventBUff4[1];
touch_key_i2c_read(regaddr0,&keyEventBUff0[0],1);
touch_key_i2c_read(regaddr1,&keyEventBUff0[1],1);
touch_key_i2c_read(regaddr2,&keyEventBUff0[2],1);
touch_key_i2c_read(regaddr3,&keyEventBUff0[3],1);
touch_key_i2c_read(regaddr4,keyEventBUff4,1);
TRACE(3,"keyEventBUff0 :");
DUMP8("0x%02x ",keyEventBUff0,4);
TRACE(3,"keyEventBUff1 :");
DUMP8("0x%02x ",keyEventBUff4,1);
keyEventBUff4[0] |= 0x1;
touch_key_i2c_write(0,regaddr4,1,keyEventBUff4);
*/
}
/******************************LED_status_timer*********************************************************/
osTimerId LED_statusid = NULL;
void startLED_status(int ms);
void stopLED_status(void);
static void LED_statusfun(const void *);
osTimerDef(defLED_status, LED_statusfun);
void LED_statusinit(void) {
LED_statusid = osTimerCreate(osTimer(defLED_status), osTimerOnce, (void *)0);
}
static void LED_statusfun(const void *) {
// TRACE("\n\n!!!!!!enter %s\n\n",__func__);
if ((Curr_Is_Slave() || app_device_bt_is_connected()) &&
(!app_battery_is_charging())) {
app_status_indication_set(APP_STATUS_INDICATION_CONNECTED);
} else if (!app_device_bt_is_connected() && (!app_battery_is_charging())) {
app_status_indication_set(APP_STATUS_INDICATION_BOTHSCAN);
} else if (app_battery_is_charging()) {
app_status_indication_set(APP_STATUS_INDICATION_CHARGING);
}
// unsigned char firstaddr;
// I2C_ReadByte(decice_firstreg,&firstaddr);
// TRACE(3,"0X00 REG = 0x%x",firstaddr);
startLED_status(1000);
}
void startLED_status(int ms) {
// TRACE("\n\n !!!!!!!!!!start %s\n\n",__func__);
osTimerStart(LED_statusid, ms);
}
void stopLED_status(void) {
// TRACE("\n\n!!!!!!!!!! stop %s\n\n",__func__);
osTimerStop(LED_statusid);
}
/********************************LED_status_timer*******************************************************/
/********************************TOUCH_INT_TEST_timer*******************************************************/
void user_io_timer_init(void) { void user_io_timer_init(void) {
// app_mute_ctrl_init(); // app_mute_ctrl_init();
LED_statusinit(); LED_statusinit();
@ -2418,44 +1952,6 @@ extern uint32_t __aud_start[];
extern uint32_t __userdata_start[]; extern uint32_t __userdata_start[];
extern uint32_t __factory_start[]; extern uint32_t __factory_start[];
#if defined(A2DP_LHDC_ON)
extern "C" {
typedef struct bes_bt_local_info_t {
uint8_t bt_addr[BTIF_BD_ADDR_SIZE];
const char *bt_name;
uint8_t bt_len;
uint8_t ble_addr[BTIF_BD_ADDR_SIZE];
const char *ble_name;
uint8_t ble_len;
} bes_bt_local_info;
typedef int (*LHDC_GET_BT_INFO)(bes_bt_local_info *bt_info);
extern bool lhdcSetLicenseKeyTable(uint8_t *licTable, LHDC_GET_BT_INFO pFunc);
}
extern int bes_bt_local_info_get(bes_bt_local_info *local_info);
void lhdc_license_check() {
uint8_t lhdc_license_key = 0;
uint8_t *lhdc_license_data = (uint8_t *)__lhdc_license_start + 0x98;
TRACE(5, "lhdc_license_data:%p, lhdc license %02x %02x %02x %02x",
lhdc_license_data, lhdc_license_data[0], lhdc_license_data[1],
lhdc_license_data[2], lhdc_license_data[3]);
app_overlay_select(APP_OVERLAY_A2DP_LHDC);
TRACE(1, "current_overlay = %d", app_get_current_overlay());
lhdc_license_key =
lhdcSetLicenseKeyTable(lhdc_license_data, bes_bt_local_info_get);
TRACE(0, "lhdc_license_key:%d", lhdc_license_key);
if (lhdc_license_key) {
TRACE(0, "LHDC OK");
} else {
TRACE(0, "LHDC ERROR");
}
}
#endif
int app_init(void) { int app_init(void) {
int nRet = 0; int nRet = 0;
struct nvrecord_env_t *nvrecord_env; struct nvrecord_env_t *nvrecord_env;
@ -3020,5 +2516,3 @@ exit:
return nRet; return nRet;
} }
#endif /* APP_TEST_MODE */

View File

@ -18,7 +18,7 @@
#include "app_status_ind.h" #include "app_status_ind.h"
#define STACK_READY_BT 0x01 #define STACK_READY_BT 0x01
#define STACK_READY_BLE 0x02 #define STACK_READY_BLE 0x02
#ifdef __cplusplus #ifdef __cplusplus
@ -37,20 +37,20 @@ int app_reset(void);
int app_status_battery_report(uint8_t level); int app_status_battery_report(uint8_t level);
int app_voice_report( APP_STATUS_INDICATION_T status,uint8_t device_id); int app_voice_report(APP_STATUS_INDICATION_T status, uint8_t device_id);
int app_voice_report_generic(APP_STATUS_INDICATION_T status, uint8_t device_id, uint8_t isMerging); int app_voice_report_generic(APP_STATUS_INDICATION_T status, uint8_t device_id,
uint8_t isMerging);
int app_voice_stop(APP_STATUS_INDICATION_T status, uint8_t device_id); int app_voice_stop(APP_STATUS_INDICATION_T status, uint8_t device_id);
/*FixME*/ /*FixME*/
void app_status_set_num(const char* p); void app_status_set_num(const char *p);
////////////10 second tiemr/////////////// ////////////10 second tiemr///////////////
#define APP_FAST_PAIRING_TIMEOUT_IN_SECOND 120 #define APP_FAST_PAIRING_TIMEOUT_IN_SECOND 120
#define APP_PAIR_TIMER_ID 0 #define APP_PAIR_TIMER_ID 0
#define APP_POWEROFF_TIMER_ID 1 #define APP_POWEROFF_TIMER_ID 1
#define APP_FASTPAIR_LASTING_TIMER_ID 2 #define APP_FASTPAIR_LASTING_TIMER_ID 2
void app_stop_10_second_timer(uint8_t timer_id); void app_stop_10_second_timer(uint8_t timer_id);
void app_start_10_second_timer(uint8_t timer_id); void app_start_10_second_timer(uint8_t timer_id);
@ -61,33 +61,28 @@ void app_start_postponed_reset(void);
bool app_is_power_off_in_progress(void); bool app_is_power_off_in_progress(void);
#define CHIP_ID_C 1 #define CHIP_ID_C 1
#define CHIP_ID_D 2 #define CHIP_ID_D 2
void app_disconnect_all_bt_connections(void); void app_disconnect_all_bt_connections(void);
bool app_is_stack_ready(void); bool app_is_stack_ready(void);
extern uint8_t latency_mode_is_open; extern uint8_t latency_mode_is_open;
bool Curr_Is_Master(void); extern uint8_t app_poweroff_flag;
bool Curr_Is_Slave(void);
extern uint8_t get_nv_role(void);
extern uint8_t get_curr_role(void);
extern uint8_t app_poweroff_flag;
extern bool MobileLinkLose_reboot; extern bool MobileLinkLose_reboot;
extern bool factory_mode_status; extern bool factory_mode_status;
extern uint8_t app_poweroff_flag; extern uint8_t app_poweroff_flag;
extern bool MobileLinkLose_reboot; extern bool MobileLinkLose_reboot;
extern void startclr_info_timer(int ms); extern void startclr_info_timer(int ms);
extern void app_enterpairing_timer_start(void); extern void app_enterpairing_timer_start(void);
extern void app_enterpairing_timer_stop(void); extern void app_enterpairing_timer_stop(void);
extern void startdelay_report_tone(int ms,APP_STATUS_INDICATION_T status); extern void startdelay_report_tone(int ms, APP_STATUS_INDICATION_T status);
extern void box_cmd_app_bt_enter_mono_pairing_mode(void); extern void box_cmd_app_bt_enter_mono_pairing_mode(void);
extern int app_nvrecord_rebuild(void); extern int app_nvrecord_rebuild(void);
extern void app_bt_power_off_customize(); extern void app_bt_power_off_customize();
//////////////////// ////////////////////
#ifdef __cplusplus #ifdef __cplusplus
} }
#endif #endif
#endif//__FMDEC_H__ #endif //__FMDEC_H__

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#ifndef COMMON_APP_IMPORTS
#define COMMON_APP_IMPORTS
#include "a2dp_api.h"
#include "app_audio.h"
#include "app_battery.h"
#include "app_ble_include.h"
#include "app_bt.h"
#include "app_bt_func.h"
#include "app_bt_media_manager.h"
#include "app_key.h"
#include "app_overlay.h"
#include "app_pwl.h"
#include "app_status_ind.h"
#include "app_thread.h"
#include "app_utils.h"
#include "audioflinger.h"
#include "besbt.h"
#include "bt_drv_interface.h"
#include "bt_if.h"
#include "btapp.h"
#include "cmsis_os.h"
#include "crash_dump_section.h"
#include "factory_section.h"
#include "gapm_task.h"
#include "hal_bootmode.h"
#include "hal_i2c.h"
#include "hal_sleep.h"
#include "hal_timer.h"
#include "hal_trace.h"
#include "list.h"
#include "log_section.h"
#include "me_api.h"
#include "norflash_api.h"
#include "nvrecord.h"
#include "nvrecord_dev.h"
#include "nvrecord_env.h"
#include "os_api.h"
#include "pmu.h"
#include "stdio.h"
#include "string.h"
#include "tgt_hardware.h"
#ifdef __AI_VOICE__
#include "ai_manager.h"
#include "app_ai_if.h"
#include "app_ai_manager_api.h"
#include "app_ai_tws.h"
#endif
#include "app_tws_ibrt_cmd_handler.h"
#include "audio_process.h"
#ifdef __PC_CMD_UART__
#include "app_cmd.h"
#endif
#ifdef __FACTORY_MODE_SUPPORT__
#include "app_factory.h"
#include "app_factory_bt.h"
#endif
#ifdef __INTERCONNECTION__
#include "app_ble_mode_switch.h"
#include "app_interconnection.h"
#include "app_interconnection_ble.h"
#include "app_interconnection_logic_protocol.h"
#endif
#ifdef __INTERACTION__
#include "app_interaction.h"
#endif
#ifdef BISTO_ENABLED
#include "app_ai_manager_api.h"
#include "gsound_custom_actions.h"
#include "gsound_custom_ota.h"
#include "gsound_custom_reset.h"
#include "nvrecord_gsound.h"
#endif
#ifdef IBRT_OTA
#include "ota_bes.h"
#endif
#ifdef MEDIA_PLAYER_SUPPORT
#include "app_media_player.h"
#include "resources.h"
#endif
#ifdef VOICE_DATAPATH
#include "app_voicepath.h"
#endif
#ifdef BT_USB_AUDIO_DUAL_MODE
#include "btusb_audio.h"
#include "usbaudio_thread.h"
#endif
#ifdef TILE_DATAPATH
#include "tile_target_ble.h"
#endif
#if defined(IBRT)
#include "app_ibrt_customif_cmd.h"
#include "app_ibrt_customif_ui.h"
#include "app_ibrt_if.h"
#include "app_ibrt_ui_test.h"
#include "app_ibrt_voice_report.h"
#include "app_tws_if.h"
#endif
#endif

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// Google Fast pairing Service
#ifdef GFPS_ENABLED
static void app_tell_battery_info_handler(uint8_t *batteryValueCount,
uint8_t *batteryValue) {
GFPS_BATTERY_STATUS_E status;
if (app_battery_is_charging()) {
status = BATTERY_CHARGING;
} else {
status = BATTERY_NOT_CHARGING;
}
// TODO: add the charger case's battery level
#ifdef IBRT
if (app_tws_ibrt_tws_link_connected()) {
*batteryValueCount = 2;
} else {
*batteryValueCount = 1;
}
#else
*batteryValueCount = 1;
#endif
TRACE(2, "%s,*batteryValueCount is %d", __func__, *batteryValueCount);
if (1 == *batteryValueCount) {
batteryValue[0] = ((app_battery_current_level() + 1) * 10) | (status << 7);
} else {
batteryValue[0] = ((app_battery_current_level() + 1) * 10) | (status << 7);
batteryValue[1] = ((app_battery_current_level() + 1) * 10) | (status << 7);
}
}
#endif

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#include "ibrt.h"
#include "common_apps_imports.h"
#include "hal_gpio.h"
#include "tgt_hardware.h"
extern struct BT_DEVICE_T app_bt_device;
extern void hal_gpio_pin_set(enum HAL_GPIO_PIN_T pin);
bool Curr_Is_Master(void) {
static ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx();
if (p_ibrt_ctrl->current_role == IBRT_MASTER)
return 1;
else
return 0;
}
bool Curr_Is_Slave(void) {
static ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx();
if (p_ibrt_ctrl->current_role == IBRT_SLAVE)
return 1;
else
return 0;
}
uint8_t get_curr_role(void) {
static ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx();
return p_ibrt_ctrl->current_role;
}
uint8_t get_nv_role(void) {
static ibrt_ctrl_t *p_ibrt_ctrl = app_tws_ibrt_get_bt_ctrl_ctx();
return p_ibrt_ctrl->nv_role;
}

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#ifndef IBRT_H_
#define IBRT_H_
#include <stdint.h>
#ifdef __cplusplus
extern "C" {
#endif
bool Curr_Is_Master(void);
uint8_t get_curr_role(void);
bool Curr_Is_Slave(void);
uint8_t get_nv_role(void);
#ifdef __cplusplus
};
#endif
#endif

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#include "a2dp_api.h"
#include "app_audio.h"
#include "app_battery.h"
#include "app_ble_include.h"
#include "app_bt.h"
#include "app_bt_func.h"
#include "app_bt_media_manager.h"
#include "app_key.h"
#include "app_overlay.h"
#include "app_pwl.h"
#include "app_status_ind.h"
#include "app_thread.h"
#include "app_tws_ibrt_cmd_handler.h"
#include "app_utils.h"
#include "apps.h"
#include "audio_process.h"
#include "audioflinger.h"
#include "besbt.h"
#include "bt_drv_interface.h"
#include "bt_if.h"
#include "btapp.h"
#include "cmsis_os.h"
#include "crash_dump_section.h"
#include "factory_section.h"
#include "gapm_task.h"
#include "hal_bootmode.h"
#include "hal_i2c.h"
#include "hal_sleep.h"
#include "hal_timer.h"
#include "hal_trace.h"
#include "list.h"
#include "log_section.h"
#include "me_api.h"
#include "norflash_api.h"
#include "nvrecord.h"
#include "nvrecord_dev.h"
#include "nvrecord_env.h"
#include "os_api.h"
#include "pmu.h"
#include "stdio.h"
#include "string.h"
#include "tgt_hardware.h"
#ifdef __INTERCONNECTION__
#include "app_ble_mode_switch.h"
#include "app_interconnection.h"
#include "app_interconnection_ble.h"
#include "app_interconnection_logic_protocol.h"
#endif
#include "app_ibrt_customif_cmd.h"
#include "app_ibrt_customif_ui.h"
#include "app_ibrt_if.h"
#include "app_ibrt_ui_test.h"
#include "app_ibrt_voice_report.h"
#include "app_tws_if.h"
#include "app_anc.h"
extern struct BT_DEVICE_T app_bt_device;
/*
* handling of touch events when the devices are turned on
* Both pods active:
* Right Ear:
* Single tap : Play/Pause
* Double tap : Next track
* Hold : ANC on/off
* Triple tap : Volume Up
*
* Left Ear:
* Single tap : Play/Pause
* Double tap : Previous track
* Hold : ANC on/off
* Triple tap : Volume Down
* Single pod active:
* Single tap : Play/Pause
* Double tap : Next track
* Hold : Previous track
* Triple tap : Volume Up
* Quad tap : Volume Down
* We use app_ibrt_if_start_user_action for handling actions, as this will apply
locally if we are link master
* OR send it over the link to the other bud if we are not
*/
void send_vol_up(void) {
uint8_t action[] = {IBRT_ACTION_LOCAL_VOLUP};
app_ibrt_if_start_user_action(action, sizeof(action));
}
void send_play_pause(void) {
if (app_bt_device.a2dp_play_pause_flag != 0) {
uint8_t action[] = {IBRT_ACTION_PAUSE};
app_ibrt_if_start_user_action(action, sizeof(action));
} else {
uint8_t action[] = {IBRT_ACTION_PLAY};
app_ibrt_if_start_user_action(action, sizeof(action));
}
}
void send_vol_down(void) {
uint8_t action[] = {IBRT_ACTION_LOCAL_VOLDN};
app_ibrt_if_start_user_action(action, sizeof(action));
}
void send_next_track(void) {
uint8_t action[] = {IBRT_ACTION_FORWARD};
app_ibrt_if_start_user_action(action, sizeof(action));
}
void send_prev_track(void) {
uint8_t action[] = {IBRT_ACTION_BACKWARD};
app_ibrt_if_start_user_action(action, sizeof(action));
}
void app_key_single_tap(APP_KEY_STATUS *status, void *param) {
TRACE(2, "%s event %d", __func__, status->event);
if (!app_tws_ibrt_tws_link_connected()) {
// No other bud paired
TRACE(0, "Handling %s in single bud mode", __func__);
send_play_pause();
} else {
// Bud's are working as a pair
if (app_tws_is_left_side()) {
TRACE(0, "Handling %s as left bud", __func__);
// Lefty
send_play_pause();
} else {
TRACE(0, "Handling %s as right bud", __func__);
// Righty
send_play_pause();
}
}
}
void app_key_double_tap(APP_KEY_STATUS *status, void *param) {
TRACE(2, "%s event %d", __func__, status->event);
if (!app_tws_ibrt_tws_link_connected()) {
// No other bud paired
TRACE(0, "Handling %s in single bud mode", __func__);
send_next_track();
} else {
// Bud's are working as a pair
if (app_tws_is_left_side()) {
TRACE(0, "Handling %s as left bud", __func__);
// Lefty
send_prev_track();
} else {
TRACE(0, "Handling %s as right bud", __func__);
// Righty
send_next_track();
}
}
}
void app_key_triple_tap(APP_KEY_STATUS *status, void *param) {
TRACE(2, "%s event %d", __func__, status->event);
if (!app_tws_ibrt_tws_link_connected()) {
// No other bud paired
TRACE(0, "Handling %s in single bud mode", __func__);
send_vol_up();
} else {
// Bud's are working as a pair
if (app_tws_is_left_side()) {
TRACE(0, "Handling %s as left bud", __func__);
// Lefty
send_vol_down();
} else {
TRACE(0, "Handling %s as right bud", __func__);
// Righty
send_vol_up();
}
}
}
void app_key_quad_tap(APP_KEY_STATUS *status, void *param) {
TRACE(2, "%s event %d", __func__, status->event);
if (!app_tws_ibrt_tws_link_connected()) {
// No other bud paired
TRACE(0, "Handling %s in single bud mode", __func__);
send_vol_down();
} else {
// Bud's are working as a pair
if (app_tws_is_left_side()) {
TRACE(0, "Handling %s as left bud", __func__);
// Lefty
} else {
TRACE(0, "Handling %s as right bud", __func__);
// Righty
}
}
}
void app_key_long_press_down(APP_KEY_STATUS *status, void *param) {
TRACE(2, "%s event %d", __func__, status->event);
if (!app_tws_ibrt_tws_link_connected()) {
// No other bud paired
TRACE(0, "Handling %s in single bud mode", __func__);
send_prev_track();
} else {
// Bud's are working as a pair
app_anc_key(status, param);
}
}
void app_key_reboot(APP_KEY_STATUS *status, void *param) {
TRACE(1, "%s ", __func__);
hal_cmu_sys_reboot();
}
void app_key_init(void) {
uint8_t i = 0;
TRACE(1, "%s", __func__);
const APP_KEY_HANDLE key_cfg[] = {
{{APP_KEY_CODE_PWR, APP_KEY_EVENT_CLICK}, "", app_key_single_tap, NULL},
{{APP_KEY_CODE_PWR, APP_KEY_EVENT_DOUBLECLICK},
"",
app_key_double_tap,
NULL},
{{APP_KEY_CODE_PWR, APP_KEY_EVENT_TRIPLECLICK},
"",
app_key_triple_tap,
NULL},
{{APP_KEY_CODE_PWR, APP_KEY_EVENT_ULTRACLICK},
"",
app_key_quad_tap,
NULL},
{{APP_KEY_CODE_PWR, APP_KEY_EVENT_LONGPRESS},
"",
app_key_long_press_down,
NULL},
};
app_key_handle_clear();
for (i = 0; i < (sizeof(key_cfg) / sizeof(APP_KEY_HANDLE)); i++) {
app_key_handle_registration(&key_cfg[i]);
}
}
void app_key_init_on_charging(void) {
uint8_t i = 0;
const APP_KEY_HANDLE key_cfg[] = {
{{APP_KEY_CODE_PWR, APP_KEY_EVENT_LONGLONGPRESS},
"long press reboot",
app_key_reboot,
NULL},
// {{APP_KEY_CODE_PWR,APP_KEY_EVENT_CLICK},"bt function
// key",app_dfu_key_handler, NULL},
#ifdef __USB_COMM__
{{APP_KEY_CODE_PWR, APP_KEY_EVENT_LONGPRESS},
"usb cdc key",
app_usb_cdc_comm_key_handler,
NULL},
#endif
};
TRACE(1, "%s", __func__);
for (i = 0; i < (sizeof(key_cfg) / sizeof(APP_KEY_HANDLE)); i++) {
app_key_handle_registration(&key_cfg[i]);
}
}

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#ifndef KEY_HANDLER_H_
#define KEY_HANDLER_H_
void app_key_init(void);
void app_key_init_on_charging(void);
#endif

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#include "led_control.h"
#include "common_apps_imports.h"
#include "ibrt.h"
/******************************LED_status_timer*********************************************************/
osTimerId LED_statusid = NULL;
osTimerDef(defLED_status, LED_statusfun);
void LED_statusinit(void) {
LED_statusid = osTimerCreate(osTimer(defLED_status), osTimerOnce, (void *)0);
}
void LED_statusfun(const void *) {
// TRACE("\n\n!!!!!!enter %s\n\n",__func__);
if ((Curr_Is_Slave() || app_device_bt_is_connected()) &&
(!app_battery_is_charging())) {
app_status_indication_set(APP_STATUS_INDICATION_CONNECTED);
} else if (!app_device_bt_is_connected() && (!app_battery_is_charging())) {
app_status_indication_set(APP_STATUS_INDICATION_BOTHSCAN);
} else if (app_battery_is_charging()) {
app_status_indication_set(APP_STATUS_INDICATION_CHARGING);
}
// unsigned char firstaddr;
// I2C_ReadByte(decice_firstreg,&firstaddr);
// TRACE(3,"0X00 REG = 0x%x",firstaddr);
startLED_status(1000);
}
void startLED_status(int ms) {
// TRACE("\n\n !!!!!!!!!!start %s\n\n",__func__);
osTimerStart(LED_statusid, ms);
}
void stopLED_status(void) {
// TRACE("\n\n!!!!!!!!!! stop %s\n\n",__func__);
osTimerStop(LED_statusid);
}
/********************************LED_status_timer*******************************************************/

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#ifndef LED_CONTROL_H_
#define LED_CONTROL_H_
void LED_statusinit(void);
void startLED_status(int ms);
void stopLED_status(void);
void LED_statusfun(const void *);
#endif

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// LHDC needs a licence key
// We dont have one; so probably cant ever officially use this. But its here for
// preservation at the least
#if defined(A2DP_LHDC_ON)
extern "C" {
typedef struct bes_bt_local_info_t {
uint8_t bt_addr[BTIF_BD_ADDR_SIZE];
const char *bt_name;
uint8_t bt_len;
uint8_t ble_addr[BTIF_BD_ADDR_SIZE];
const char *ble_name;
uint8_t ble_len;
} bes_bt_local_info;
typedef int (*LHDC_GET_BT_INFO)(bes_bt_local_info *bt_info);
extern bool lhdcSetLicenseKeyTable(uint8_t *licTable, LHDC_GET_BT_INFO pFunc);
}
extern int bes_bt_local_info_get(bes_bt_local_info *local_info);
void lhdc_license_check() {
uint8_t lhdc_license_key = 0;
uint8_t *lhdc_license_data = (uint8_t *)__lhdc_license_start + 0x98;
TRACE(5, "lhdc_license_data:%p, lhdc license %02x %02x %02x %02x",
lhdc_license_data, lhdc_license_data[0], lhdc_license_data[1],
lhdc_license_data[2], lhdc_license_data[3]);
app_overlay_select(APP_OVERLAY_A2DP_LHDC);
TRACE(1, "current_overlay = %d", app_get_current_overlay());
lhdc_license_key =
lhdcSetLicenseKeyTable(lhdc_license_data, bes_bt_local_info_get);
TRACE(0, "lhdc_license_key:%d", lhdc_license_key);
if (lhdc_license_key) {
TRACE(0, "LHDC OK");
} else {
TRACE(0, "LHDC ERROR");
}
}
#endif