#include "app_chargerpin_conn_detect.h" #include "usr_config.h" #include "bsp_time.h" #include "system.h" #include "hal_led.h" #include "nrf_gpio.h" #include "hal_ble_client.h" #include "hal_ble_host.h" #include "app_flash.h" #include "hal_battery.h" #include "ble_comm.h" #include "app_pair_chargerpin.h" #include "hal_charge.h" #include "fml_adc.h" #include "app_one_wire.h" /************************ 函数声明 ***********************************/ /************************ 变量 ***********************************/ static uint8_t hal_charge_state = BLE_CHARGE_PULLOUT; //static uint8_t pair_state =0; //static void pair_start_cb(){ // hal_charge_state = BLE_CHARGE_PULLOUT; // pair_state =1; //} //static void pair_done_cb(){ // pair_state =0; //} //PAIR_START_REGISTER(pair_start_cb); //PAIR_DONE_REGISTER(pair_done_cb); /********************************************************/ uint8_t hal_charge_Getstate(void) { return hal_charge_state; } static void hal_send_charge(void) { uint8_t sbuf[2]={0}; uint8_t L = 0; if(mFlash.isHost) sbuf[L++] = 0; else sbuf[L++] = 1; sbuf[L++] = hal_charge_state; BLE_Client_Tx_Send(0,BLE_CHARGE,sbuf,L); } void cb_BLE_Client_R_CHARGE(void* handle) { BLE_Client_Rx_t* target = handle; DEBUG_LOG("!!!!!!!!cb_BLE_Client_R_CHARGE\n"); hal_send_charge(); BLE_Host_Tx_Send(0,BLE_CHARGE,target->pDat,target->datLen); } void cb_BLE_Host_R_CHARGE(void* handle) { BLE_Host_Rx_t* target = handle; BLE_Client_Tx_Send(0,BLE_CHARGE,target->pDat,target->datLen); // DEBUG_LOG("cb_BLE_Host_R_CHARGE:%d,%d,%d\n",target->pDat[0],target->pDat[1],target->datLen); } extern void selfcheck_trigger_callback(char order); unsigned char recbuf[4]; static char selfcheck_trigger_ok=0; static unsigned int ms_cnt=0; __IO char tsfd=0; void wait_times(void) { ms_cnt++; if(tsfd) { tsfd=0; selfcheck_trigger_callback((char)recbuf[0]); } if(ms_cnt<1000)return; // SEGGER_RTT_printf(0,"wait_times out...\n"); Process_Stop(wait_times); one_byte_receive_uninit(); ms_cnt=0;selfcheck_trigger_ok=0; fml_adc_set_pin_channel(PIN_CHARGING, PIN_CHARGING_CHANNEL, NRF_GPIO_PIN_NOPULL); } void Event_self_check(unsigned char *buf,int length) { tsfd=1; // SEGGER_RTT_printf(0,"Event_self_check out... %x\n",buf[0]); } void open_one_shel(void) { if(selfcheck_trigger_ok)return; selfcheck_trigger_ok=1; one_byte_receive_init(recbuf,2,Event_self_check); // SEGGER_RTT_printf(0,"open_one_shel in...\n"); Process_Start(1, "wait_times", wait_times); Process_SetHoldOn(wait_times, 1); } static void hal_charge_Process(void) { #if ONE_WIRE_ENABLE pair_line_t CHARGE_state = app_chargepin_pairline(); if(CHARGE != CHARGE_state){ //没充电 if(1 == pair_state)return;//配对不检测充电 #else uint32_t ch = nrf_gpio_pin_read(PIN_CHARGING); if(!ch){ //没充电 #endif if(hal_charge_state!=BLE_CHARGE_PULLOUT){ DEBUG_LOG("charge out...\n"); hal_charge_state = BLE_CHARGE_PULLOUT; Process_SetHoldOn(hal_charge_Process,0); hal_send_charge(); } return; } open_one_shel(); if(GetBatteryPersent() >=100){ if(hal_charge_state!=BLE_CHARGE_DONE){ DEBUG_LOG("charge done:...\n"); hal_charge_state = BLE_CHARGE_DONE; Process_SetHoldOn(hal_charge_Process,1); hal_send_charge(); } }else{ //正在充电 if(hal_charge_state!=BLE_CHARGE_INSERT){ DEBUG_LOG("charge in...\n"); hal_charge_state = BLE_CHARGE_INSERT; Process_SetHoldOn(hal_charge_Process,1); hal_send_charge(); } } } void hal_charge_init(void) { nrf_gpio_cfg_input(PIN_CHARGING,NRF_GPIO_PIN_NOPULL); BLE_Client_Rx_Regist(BLE_CHARGE,cb_BLE_Client_R_CHARGE); BLE_Host_Rx_Regist(BLE_CHARGE,cb_BLE_Host_R_CHARGE); Process_Start(1000,"charge",hal_charge_Process); hal_charge_Process(); // Process_Start(10,"charge_monitor",hal_charge_monitor_process); }