/********************************************************************* * INCLUDES */ #include "ble_comm.h" #include "ble_gap.h" #include "nrf_gpio.h" #include "bsp_time.h" #include "app_flash.h" #include "hal_ble_uart0.h" #include "hal_ble_client.h" #include "hal_ble_host.h" #include "hal_led.h" #include "app_charge.h" #include "app_pair.h" #include "hal_mt.h" /********************************************************************* * LOCAL DEFINETION */ /********************************************************************* * LOCAL VARIABLES */ static ble_gap_addr_t mAddr; static uint16_t isConfigcnt = 0; static uint8_t PairFlagHost =0; /********************************************************************* * LOCAL FUNCTIONS */ static pair_reslt_t Pair_result_t_head ={ .next =NULL, }; void app_UartPair_Regist(pair_reslt_t *cb){ pair_reslt_t *target = &Pair_result_t_head; while(NULL != target->next){ if(target->next == cb)return;//检查是否已经存在 target = target->next; } cb->next = NULL; target->next = cb; } void app_UartPair_Clear(pair_reslt_t *cb){ pair_reslt_t *target = &Pair_result_t_head; while(NULL != target->next){ if(cb == target->next){ target->next = cb->next; return; } target = target->next; } } static void app_UartPair_Result_Add(void){ pair_reslt_t *target = &Pair_result_t_head; while(NULL != target->next){ target->next->flag =1; target = target->next; } } void UART0_Config_Send(uint8_t cmd) { uint8_t buf[32]; uint8_t L = 0; //MAC 地址 for(int i=0;i<6;i++){ buf[L++] = mAddr.addr[5-i]; } //硬件版本 buf[L++] = (uint8_t)(HARDWARE_VERSION>>24); buf[L++] = (uint8_t)(HARDWARE_VERSION>>16); buf[L++] = (uint8_t)(HARDWARE_VERSION>>8); buf[L++] = (uint8_t)(HARDWARE_VERSION>>0); //软件版本 buf[L++] = (uint8_t)(SOFTWARE_VERSION>>8); buf[L++] = (uint8_t)(SOFTWARE_VERSION>>0); UART0_Tx_Send(0,cmd,buf,L); } #define PAIR_TIMES 50 //配对次数 static void app_pair_Process(void) { static uint8_t flag = 0; if(app_charge_Getstate()!=BLE_CHARGE_PULLOUT){ if(flag != 1){flag = 1; if(mFlash.isHost)UART0_Initialize(PIN_TXD_BLE,PIN_RXD_BLE,UART_HZ); else UART0_Initialize(UART0_INVALID_PIN,PIN_RXD_BLE,UART_HZ); } else if(isConfigcnt0) isConfigcnt = 0; } static uint8_t Pair_state =0; static uint32_t tim =0; char buf[16]; uint8_t i =0; switch(Pair_state){ case 0: if(PairFlagHost){PairFlagHost =0; MT_Run(500); //配对时候清空所有的步数 if(Flash_DeleteAllStep() != ZONE_OP_SUCCESS){Except_TxError(EXCEPT_DATEStep,"clear step fail");break;} memset(&mFlash.mStep,0,sizeof(FlashStep_t)); mFlash.mClient.isConfig = 'C'; if(Flash_SaveStep() != ZONE_OP_SUCCESS){ Except_TxError(EXCEPT_DATEStep,"save step fail"); DEBUG_LOG("EXCEPT_DATEStep save step fail\r\n"); } DEBUG_LOG("mFlash.mClient.macAddr:%02X %02X %02X %02X %02X %02X\n",mFlash.mClient.macAddr[0],mFlash.mClient.macAddr[1],mFlash.mClient.macAddr[2], mFlash.mClient.macAddr[3],mFlash.mClient.macAddr[4],mFlash.mClient.macAddr[5]); //保存数据到备份区域里面 for( i=0; i=10000){tim = TIME_GetTicks();//10秒超时退出 Pair_state =0; DEBUG_LOG("Pair_state =0 \r\n"); } if(mFlash.isHost){//主机处理 if(host_isconnect()){ host_disconnect(); }else{ DEBUG_LOG(">>>>>ST_scan_start =0 \r\n"); memset(buf,0,sizeof(buf)); sprintf(buf,"%02X%02X%02X%02X%02X%02X",mFlash.macHost[0],mFlash.macHost[1],mFlash.macHost[2],mFlash.mClient.macAddr[3],mFlash.mClient.macAddr[4],mFlash.mClient.macAddr[5]); DEBUG_LOG("scanName(%d):%s\n",strlen(buf),buf); host_set_scan_name(buf,strlen(buf)); ST_scan_stop(); ST_scan_start(); Pair_state = 0; } }else{//从机处理 if(slave_isconnect()) slave_disconnect(); else { memset(buf,0,sizeof(buf)); sprintf(buf,"%02X%02X%02X%02X%02X%02X",mFlash.macHost[0],mFlash.macHost[1],mFlash.macHost[2],mFlash.mClient.macAddr[3],mFlash.mClient.macAddr[4],mFlash.mClient.macAddr[5]); DEBUG_LOG("advName(%d):%s\n",strlen(buf),buf); slave_set_adv_name(buf,strlen(buf)); advertising_stop(); slave_adv_init(); DEBUG_LOG(">>>>>>>>advertising_start =0 \r\n"); advertising_start(); Pair_state = 0; } } break; default:Pair_state = 0;break; } } #if BLUE_LED_TEST_ENANBLE void app_config_LED(void) { static uint8_t state = 0; switch(state){ case 0: Process_SetHoldOn(app_config_LED,1); LED_Start(LED_CONFIG,COLOR_BLUE); state = 1; Process_UpdatePeroid(app_config_LED,2000); break; case 1: Process_UpdatePeroid(app_config_LED,0); LED_Stop(LED_CONFIG); state = 0; Process_SetHoldOn(app_config_LED,0); Process_Stop(app_config_LED); break; default:state=0;Process_UpdatePeroid(app_config_LED,0);break; } } #endif void cb_UART0_R_CONFIG_ASK(void* handle) { //从机接收到配对申请 UART0_Rx_t* target = handle; uint8_t mac[6]; uint8_t ret = 0; uint8_t i =0; if(app_charge_Getstate()==BLE_CHARGE_PULLOUT) return; //非充电模式不匹配 if(mFlash.isHost)return; //防止主机自发自收 for(i=0;i<6;i++) mac[i] = target->pDat[i]; uint32_t hv = ((uint32_t)target->pDat[6]<<24)| ((uint32_t)target->pDat[7]<<16) | ((uint32_t)target->pDat[8]<<8) | ((uint32_t)target->pDat[9]<<0); uint16_t sv = ((uint16_t)target->pDat[10]<<8) | ((uint16_t)target->pDat[11]<<0); UART0_Initialize(PIN_TXD_BLE,UART0_INVALID_PIN,UART_HZ); for(i=0; i < 10; i++){ UART0_Config_Send(UART0_T_CONFIG_ACK);//应答主机申请 } UART0_Initialize(UART0_INVALID_PIN,PIN_RXD_BLE,UART_HZ); for(i=0;i<6;i++){ if(mFlash.macHost[i] != mac[i]){ //检验主机发过来的mac地址是否上次的一样 ret =1; break; } } if(mFlash.mClient.hardVersion != hv || mFlash.mClient.sotfVersion != sv \ || ret !=0 ){ DEBUG_LOG("host config:%d %d %d %d\n",hv,sv,ret); DEBUG_LOG("mFlash.mClient:%d %d %d %d\n\n",mFlash.mClient.hardVersion,mFlash.mClient.sotfVersion,mFlash.mClient.isConfig,ret); mFlash.mClient.hardVersion = hv; mFlash.mClient.sotfVersion = sv; for(i=0;i<6;i++){ mFlash.mClient.macAddr[i] = mAddr.addr[5-i]; //从机自身mac地址 mFlash.macHost[i] = mac[i]; //主机发过来的mac地址 } PairFlagHost =1; } app_UartPair_Result_Add(); #if BLUE_LED_TEST_ENANBLE Process_Start(0,"config_LED",app_config_LED); #endif } void cb_UART0_R_CONFIG_ACK(void* handle) { //主机接收到配对应答 UART0_Rx_t* target = handle; uint8_t mac[6]; uint8_t ret = 0; uint8_t i=0; if(app_charge_Getstate()==BLE_CHARGE_PULLOUT) return; //非充电模式不匹配 if(!mFlash.isHost) return; //从机自发自收 for(i=0;i<6;i++) mac[i] = target->pDat[i]; uint32_t hv = ((uint32_t)target->pDat[6]<<24)| ((uint32_t)target->pDat[7]<<16) | ((uint32_t)target->pDat[8]<<8) | ((uint32_t)target->pDat[9]<<0); uint16_t sv = ((uint16_t)target->pDat[10]<<8) | ((uint16_t)target->pDat[11]<<0); isConfigcnt = PAIR_TIMES+1; //已配对,停止配对发送 for(i=0;i<6;i++){ if(mFlash.mClient.macAddr[i] != mac[i]){ //检验主机发过来的mac地址是否上次的一样 ret =1; break; } } if(mFlash.mClient.hardVersion != hv || mFlash.mClient.sotfVersion != sv \ || ret !=0 ){ DEBUG_LOG("mFlash config:%d %d %d %d\n\n",mFlash.mClient.hardVersion,mFlash.mClient.sotfVersion,mFlash.mClient.isConfig,ret); mFlash.mClient.hardVersion = hv; mFlash.mClient.sotfVersion = sv; for(i=0;i<6;i++){ mFlash.mClient.macAddr[i] = mac[i]; //收到的从机mac地址 mFlash.macHost[i] = mAddr.addr[5-i]; //主机本身mac地址 } PairFlagHost =1; } app_UartPair_Result_Add(); #if BLUE_LED_TEST_ENANBLE Process_Start(0,"config_LED",app_config_LED); #endif } void app_pair_Init(void) { uint32_t err_code = sd_ble_gap_addr_get(&mAddr); APP_ERROR_CHECK(err_code); Process_Start(100,"app_pair_Process",app_pair_Process); UART0_Rx_Regist(UART0_R_CONFIG_ASK,cb_UART0_R_CONFIG_ASK); UART0_Rx_Regist(UART0_R_CONFIG_ACK,cb_UART0_R_CONFIG_ACK); }