实例介绍
【实例简介】
【实例截图】
【实例截图】
【核心代码】
/***************************************************************************
*
* Copyright 2015-2019 BES.
* All rights reserved. All unpublished rights reserved.
*
* No part of this work may be used or reproduced in any form or by any
* means, or stored in a database or retrieval system, without prior written
* permission of BES.
*
* Use of this work is governed by a license granted by BES.
* This work contains confidential and proprietary information of
* BES. which is protected by copyright, trade secret,
* trademark and other intellectual property rights.
*
****************************************************************************/
#include "cmsis_os.h"
#include "stdbool.h"
#include "hal_trace.h"
#include "app_pwl.h"
#include "app_status_ind.h"
#include "string.h"
#include "tgt_hardware.h"
#include "app_battery.h"
#include "apps.h"
#include "pmu.h"
#include "pmu_best1305.h"
#include "hal_timer.h"
#define BREATH_LED_NULL 0
#define BREATH_LED_BLUE 3
#define BREATH_LED_WHITE 7
static APP_STATUS_INDICATION_T app_status = APP_STATUS_INDICATION_NUM;
APP_STATUS_INDICATION_T app_status_indication_get(void)
{
return app_status;
}
void app_status_indication_clear(void)
{
app_status = APP_STATUS_INDICATION_NUM;
}
#ifdef __ENA_LED_BREATH__
static bool app_breath_pair_enable=false;
osTimerId app_breath_led_timer=NULL;
static void app_breath_led_stop(void)
{
osTimerStop(app_breath_led_timer);
app_breath_pair_enable=false;
}
static void app_breath_led_timehandler(void const *param)
{
app_breath_led_stop();
app_pwl_close();
app_pwl_end_callback_handler();
TRACE(0,"app_breath_led_timehandler,breath led stop!");
}
osTimerDef (APP_BREATH_TIMER, app_breath_led_timehandler);
void app_breath_led_timer_start(unsigned short int time)
{
if(app_breath_led_timer != NULL)
{
osTimerStop(app_breath_led_timer);
osTimerStart(app_breath_led_timer,time);
}
}
#endif
void app_status_indication_close(void)
{
#ifdef __ENA_LED_BREATH__
app_breath_led_stop();
#endif
app_pwl_close();
}
static uint16_t app_status_sync_off_time = 0;
void app_status_sync_off_time_set(unsigned short int time)
{
app_status_sync_off_time = time;
}
static bool app_status_indication_filter(APP_STATUS_INDICATION_T status)
{
#ifdef __ENA_LED_BREATH__
if(app_is_power_off_in_progress() || app_breath_pair_enable ||
app_status == APP_STATUS_INDICATION_SW_VERSION||app_status==APP_STATUS_INDICATION_BATTERY_CHARGEING)
#else
if(app_is_power_off_in_progress()||app_status == APP_STATUS_INDICATION_SW_VERSION||app_status==APP_STATUS_INDICATION_BATTERY_CHARGEING)
#endif
{
if(status != APP_STATUS_INDICATION_POWEROFF) return true;
}
return false;
}
int app_status_indication_set(APP_STATUS_INDICATION_T status)
{
uint8_t i=0;
struct APP_PWL_CFG_T cfg0;
struct APP_PWL_CFG_T cfg1;
TRACE(3,"[%s],old=%d new=%d",__func__, app_status,status);
if(app_status_indication_filter(status)||app_status == status)
{
return 0;
}
app_status = status;
#ifdef __ENA_LED_BREATH__
if(app_breath_pair_enable)
{
app_breath_led_stop();
}
#endif
memset(&cfg0, 0, sizeof(struct APP_PWL_CFG_T));
memset(&cfg1, 0, sizeof(struct APP_PWL_CFG_T));
app_pwl_stop(APP_PWL_ID_0);
app_pwl_stop(APP_PWL_ID_1);
/* pwl0 -- Blue pwl1 -- White */
switch (status) {
case APP_STATUS_INDICATION_POWERON:
case APP_STATUS_INDICATION_POWEROFF:
cfg0.part[0].level = 1;
cfg0.part[0].time = (300);
cfg0.part[1].level = 0;
cfg0.part[1].time = (300);
cfg0.part[2].level = 1;
cfg0.part[2].time = (300);
cfg0.part[3].level = 0;
cfg0.part[3].time = (300);
cfg0.parttotal = 4;
cfg0.startlevel = 1;
cfg0.periodic = false;
app_pwl_setup(APP_PWL_ID_0, &cfg0);
app_pwl_start(APP_PWL_ID_0);
break;
case APP_STATUS_INDICATION_INITIAL:
break;
case APP_STATUS_INDICATION_PAGESCAN:
case APP_STATUS_INDICATION_DISCONNECTED:
cfg0.part[0].level = 1;
cfg0.part[0].time = (500);
cfg0.part[1].level = 0;
cfg0.part[1].time = (2800);
cfg0.parttotal = 2;
cfg0.startlevel = 1;
cfg0.periodic = true;
app_pwl_setup(APP_PWL_ID_0, &cfg0);
app_pwl_start(APP_PWL_ID_0);
break;
case APP_STATUS_INDICATION_TWS_PAIR: /**TWS pairing**/
case APP_STATUS_INDICATION_BOTHSCAN:
cfg0.part[0].level = 1;
cfg0.part[0].time = (300);
cfg0.part[1].level = 0;
cfg0.part[1].time = (300);
cfg0.parttotal = 2;
cfg0.startlevel = 1;
cfg0.periodic = true;
app_pwl_setup(APP_PWL_ID_0, &cfg0);
app_pwl_start(APP_PWL_ID_0);
break;
case APP_STATUS_INDICATION_TWS_PAIR_SUCCESS:
cfg0.part[0].level = 0;
cfg0.part[0].time = (500);
cfg0.parttotal = 1;
cfg0.startlevel = 0;
cfg0.periodic = false;
app_pwl_setup(APP_PWL_ID_0, &cfg0);
app_pwl_start(APP_PWL_ID_0);
#ifdef __ENA_LED_BREATH__
app_breath_pair_enable = true;
app_breath_led_timer_start(2000);
#endif
break;
case APP_STATUS_INDICATION_TWS_CONNECTED:
cfg0.part[0].level = 0;
cfg0.part[0].time = (500);
cfg0.parttotal = 1;
cfg0.startlevel = 0;
cfg0.periodic = false;
app_pwl_setup(APP_PWL_ID_0, &cfg0);
app_pwl_start(APP_PWL_ID_0);
#ifdef __ENA_LED_BREATH__
app_breath_pair_enable = true;
app_breath_led_timer_start(600);
#endif
break;
case APP_STATUS_INDICATION_CONNECTED:
#ifdef __ENA_LED_BREATH__
cfg0.part[0].level = 1;
cfg0.part[0].time = (5000);
cfg0.parttotal = 1;
cfg0.startlevel = 1;
cfg0.periodic = false;
app_pwl_setup(APP_PWL_ID_0, &cfg0);
app_pwl_start(APP_PWL_ID_0);
app_breath_pair_enable = true;
#else
cfg0.part[0].level = 1;
cfg0.part[0].time = (5000);
cfg0.part[1].level = 0;
cfg0.part[1].time = (100);
cfg0.parttotal = 2;
cfg0.startlevel = 0;
cfg0.periodic = false;
app_pwl_setup(APP_PWL_ID_0, &cfg0);
app_pwl_start(APP_PWL_ID_0);
#endif
break;
/*case APP_STATUS_INDICATION_PRESS_KEY:
#ifdef __ENA_LED_BREATH__
app_breath_led1_start(true,1000,1000,0);
app_breath_pair_enable = true;
app_breath_led_timer_start(2000);
#else
cfg0.part[0].level = 0;
cfg0.part[0].time = (2000);
cfg0.part[1].level = 1;
cfg0.part[1].time = (500);
cfg0.part[2].level = 0;
cfg0.part[2].time = (2000);
cfg0.part[3].level = 1;
cfg0.part[3].time = (500);
cfg0.part[4].level = 0;
cfg0.part[4].time = (2000);
cfg0.part[5].level = 1;
cfg0.part[5].time = (500);
cfg0.parttotal = 6;
cfg0.startlevel = 0;
cfg0.periodic = false;
app_pwl_setup(app_battery_is_low()?APP_PWL_ID_1:APP_PWL_ID_0, &cfg0);
app_pwl_start(app_battery_is_low()?APP_PWL_ID_1:APP_PWL_ID_0);
#endif
break;*/
case APP_STATUS_INDICATION_OTA_UPG:
cfg0.part[0].level = 1;
cfg0.part[0].time = (1000);
cfg0.parttotal = 1;
cfg0.startlevel = 1;
cfg0.periodic = false;
app_pwl_setup(APP_PWL_ID_0, &cfg0);
app_pwl_start(APP_PWL_ID_0);
break;
case APP_STATUS_INDICATION_TESTMODE:
cfg0.part[0].level = 1;
cfg0.part[0].time = (300);
cfg0.part[1].level = 0;
cfg0.part[1].time = (300);
cfg0.parttotal = 2;
cfg0.startlevel = 1;
cfg0.periodic = true;
cfg1.part[0].level = 1;
cfg1.part[0].time = (300);
cfg1.part[1].level = 0;
cfg1.part[1].time = (300);
cfg1.parttotal = 2;
cfg1.startlevel = 0;
cfg1.periodic = true;
app_pwl_setup(APP_PWL_ID_0, &cfg0);
app_pwl_start(APP_PWL_ID_0);
app_pwl_setup(APP_PWL_ID_1, &cfg1);
app_pwl_start(APP_PWL_ID_1);
break;
case APP_STATUS_INDICATION_BATTERY_FULL:
cfg0.part[0].level = 1;
cfg0.part[0].time = (5000);
cfg0.parttotal = 1;
cfg0.startlevel = 1;
cfg0.periodic = false;
app_pwl_setup(APP_PWL_ID_1, &cfg0);
app_pwl_start(APP_PWL_ID_1);
break;
case APP_STATUS_INDICATION_BATTERY_CHARGEING:
cfg0.part[0].level = 1;
cfg0.part[0].time = (500);
cfg0.part[1].level = 0;
cfg0.part[1].time = (1000);
cfg0.part[2].level = 1;
cfg0.part[2].time = (500);
cfg0.part[3].level = 0;
cfg0.part[3].time = (1000);
cfg0.part[4].level = 1;
cfg0.part[4].time = (500);
cfg0.part[5].level = 0;
cfg0.part[5].time = (1000);
cfg0.parttotal = 6;
cfg0.startlevel = 1;
cfg0.periodic = false;
app_pwl_setup(APP_PWL_ID_1, &cfg0);
app_pwl_start(APP_PWL_ID_1);
break;
case APP_STATUS_INDICATION_RESTORE_DEFAULTS:
cfg1.part[0].level = 0;
cfg1.part[0].time = (500);
cfg1.part[1].level = 1;
cfg1.part[1].time = (300);
cfg1.part[2].level = 0;
cfg1.part[2].time = (500);
cfg1.parttotal = 3;
cfg1.startlevel = 1;
cfg1.periodic = false;
app_pwl_setup(APP_PWL_ID_0, &cfg1);
app_pwl_start(APP_PWL_ID_0);
app_pwl_setup(APP_PWL_ID_1, &cfg1);
app_pwl_start(APP_PWL_ID_1);
break;
#if defined(__DUAL_EQ_ENABLE__)
case APP_STATUS_INDICATION_DAC_EQ:
cfg1.part[0].level = 0;
cfg1.part[0].time = (500);
cfg1.part[1].level = 1;
cfg1.part[1].time = (500);
cfg1.part[2].level = 0;
cfg1.part[2].time = (500);
cfg1.parttotal = 3;
cfg1.startlevel = 0;
cfg1.periodic = false;
app_pwl_setup(APP_PWL_ID_1, &cfg1);
app_pwl_start(APP_PWL_ID_1);
break;
#endif
case APP_STATUS_INDICATION_SW_VERSION:
{
uint8_t high_v = SOFTWARE_VERSION_H, low_v = SOFTWARE_VERSION_L;
/* add 300ms off at start */
cfg0.part[0].level = 0;
cfg0.part[0].time = (1000);
cfg1.part[0].level = 0;
cfg1.part[0].time = (1000);
/* show high verison by white led */
for(i = 1; i < high_v*2 1; i = 2)
{
cfg0.part[i].level = 1;
cfg0.part[i].time = (300);
cfg0.part[i 1].level = 0;
cfg0.part[i 1].time = (300);
}
for(i=(high_v*2 1); i < (high_v low_v)*2 1; i )
{
cfg0.part[i].level = 0;
cfg0.part[i].time = (300);
}
/* keep blue led as off when show high version by white led */
for(i = 1; i < (high_v*2 1); i )
{
cfg1.part[i].level = 0;
cfg1.part[i].time = (300);
}
/* show low verison by blue led */
for(i=(high_v*2 1); i < (high_v low_v)*2 1; i = 2)
{
cfg1.part[i].level = 1;
cfg1.part[i].time = (300);
cfg1.part[i 1].level = 0;
cfg1.part[i 1].time = (300);
}
cfg0.part[(high_v low_v)*2 1].level = 0;
cfg0.part[(high_v low_v)*2 1].time = (700);
cfg1.part[(high_v low_v)*2 1].level = 0;
cfg1.part[(high_v low_v)*2 1].time = (700);
cfg0.parttotal = (high_v low_v 1)*2;
cfg0.startlevel = 0;
cfg0.periodic = false;
cfg1.parttotal = (high_v low_v 1)*2;
cfg1.startlevel = 0;
cfg1.periodic = false;
app_pwl_setup(APP_PWL_ID_0, &cfg0);
app_pwl_start(APP_PWL_ID_0);
app_pwl_setup(APP_PWL_ID_1, &cfg1);
app_pwl_start(APP_PWL_ID_1);
}
break;
case APP_STATUS_INDICATION_SYNC_FLASH:
cfg0.part[0].level = 0;
cfg0.part[0].time = (app_status_sync_off_time);
cfg0.parttotal = 1;
cfg1.startlevel = 0;
cfg1.periodic = false;
app_pwl_setup(APP_PWL_ID_0, &cfg0);
app_pwl_start(APP_PWL_ID_0);
break;
case APP_STATUS_INDICATION_LED0_ON:
cfg0.part[0].level = 1;
cfg0.part[0].time = 5000;
cfg0.parttotal = 1;
cfg0.startlevel = 1;
cfg0.periodic = true;
app_pwl_setup(APP_PWL_ID_0, &cfg0);
app_pwl_start(APP_PWL_ID_0);
break;
case APP_STATUS_INDICATION_LED1_ON:
cfg0.part[0].level = 1;
cfg0.part[0].time = 5000;
cfg0.parttotal = 1;
cfg0.startlevel = 1;
cfg0.periodic = true;
app_pwl_setup(APP_PWL_ID_1, &cfg0);
app_pwl_start(APP_PWL_ID_1);
break;
default:
break;
}
return 0;
}
void app_pwl_led_init(void)
{
struct APP_PWL_CFG_T cfg;
memset(&cfg, 0, sizeof(struct APP_PWL_CFG_T));
app_pwl_open();
#ifdef __ENA_LED_BREATH__
/* Breath Period Time */
if(app_breath_led_timer == NULL){
app_breath_led_timer = osTimerCreate (osTimer(APP_BREATH_TIMER), osTimerOnce, NULL);
}
#endif
}
bool app_status_indication_need_resync(APP_STATUS_INDICATION_T status)
{
bool ret;
if(app_is_stack_ready()==false) return false;
switch(status)
{
case APP_STATUS_INDICATION_PAGESCAN:
case APP_STATUS_INDICATION_DISCONNECTED:
case APP_STATUS_INDICATION_TWS_PAIR:
case APP_STATUS_INDICATION_BOTHSCAN:
ret=true;
app_indication_resync();
break;
default:
ret=false;
break;
}
return ret;
}
【源码目录】
gpio_breath_led
├── BES2500IU PIN MUX_1v5.xlsx
├── Makefile
├── app_pwl.cpp
├── app_pwl.h
└── app_status_ind.c
0 directories, 5 files
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