void ql_entry() { bool keepGoing = TRUE; QlEventBuffer flSignalBuffer; s32 period = 10; char buffer[100]; char *pData, *p; Ql_SetDebugMode(BASIC_MODE); Ql_DebugTrace("keyboard: ql_entry\r\n"); Ql_OpenModemPort(ql_md_port1); queryPinStatus(); while(keepGoing) { Ql_GetEvent(&flSignalBuffer); switch(flSignalBuffer.eventType) { case EVENT_KEY: { Key_Event* pKeyEvt = &flSignalBuffer.eventData.key_evt; Ql_sprintf(buffer, "\r\nEVENT_KEY: key_val(%x), isPressed=%d\r\n", pKeyEvt->key_val, pKeyEvt->isPressed); Ql_SendToUart(ql_uart_port1, (u8*)buffer, Ql_strlen(buffer)); break; } case EVENT_POWERKEY: { Powerkey_Event* pPwrkeyEvt = &flSignalBuffer.eventData.powerkey_evt; char* pwrKeyOn = "POWERKEY_ON"; char* pwrKeyOff = "POWERKEY_OFF"; if (POWERKEY_ON == pPwrkeyEvt->powerkey) { Ql_sprintf(buffer, "\r\nEVENT_KEY: POWERKEY_ON"); } else { Ql_sprintf(buffer, "\r\nEVENT_KEY: POWERKEY_OFF"); } if (pPwrkeyEvt->isPressed) { Ql_sprintf(buffer + Ql_strlen(buffer), ", Press Key Down\r\n"); } else { Ql_sprintf(buffer + Ql_strlen(buffer), ", Release Key\r\n"); } Ql_SendToUart(ql_uart_port1, (u8*)buffer, Ql_strlen(buffer)); break; } default: break; } } }
void ql_entry() { bool keepGoing = TRUE; QlEventBuffer flSignalBuffer; s32 period = 10; Ql_SetDebugMode(BASIC_MODE); Ql_DebugTrace("transpass: ql_entry\r\n"); Ql_OpenModemPort(ql_md_port1); while(keepGoing) { Ql_GetEvent(&flSignalBuffer); switch(flSignalBuffer.eventType) { case EVENT_MODEMDATA: { Ql_DebugTrace("\r\nEVENT_MODEMDATA type=%d \r\n",flSignalBuffer.eventData.modemdata_evt.type); Ql_DebugTrace("\r\nmodemdata =%s\r\n",flSignalBuffer.eventData.uartdata_evt.data); //if (flSignalBuffer.eventData.modemdata_evt.type==DATA_AT) Ql_SendToUart(ql_uart_port1,(u8*)flSignalBuffer.eventData.uartdata_evt.data,flSignalBuffer.eventData.uartdata_evt.len); break; } case EVENT_UARTDATA: { Ql_DebugTrace("\r\nEVENT_UARTDATA PORT=%d\r\n",flSignalBuffer.eventData.uartdata_evt.port); Ql_DebugTrace("\r\nuart data =%s\r\n",flSignalBuffer.eventData.uartdata_evt.data); Ql_SendToModem(ql_md_port1,(u8*)flSignalBuffer.eventData.uartdata_evt.data,flSignalBuffer.eventData.uartdata_evt.len); break; } default: break; } } }
void ql_entry() { bool keepGoing = TRUE; QlEventBuffer flSignalBuffer; s32 period = 10; Ql_DebugTrace("at: ql_entry\r\n"); Ql_SetDebugMode(BASIC_MODE); Ql_OpenModemPort(ql_md_port1); Ql_memset(atbuffer,0,100); //Ql_sprintf((char *)atbuffer,"AT+QLOCPU=0\n"); Ql_sprintf((char *)atbuffer,"AT+CPIN?\n"); Ql_SendToModem(ql_md_port1,atbuffer,Ql_strlen((char*)atbuffer)); while(keepGoing) { Ql_GetEvent(&flSignalBuffer); switch(flSignalBuffer.eventType) { case EVENT_TIMER: { Ql_sprintf((char *)buffer,"\r\nTimer expired\r\n"); Ql_SendToUart(ql_uart_port1, (u8*)buffer,Ql_strlen(buffer)); Ql_memset(atbuffer,0,100); Ql_sprintf((char *)atbuffer,"AT+QAUDCH=1\n"); Ql_SendToModem(ql_md_port1,atbuffer,Ql_strlen((char *)atbuffer)); //Ql_PlayAudio(QL_AUDIO_EMS_TADA,0); break; } case EVENT_MODEMDATA: { Ql_DebugTrace("\r\nEVENT_MODEMDATA type=%d \r\n",flSignalBuffer.eventData.modemdata_evt.type); if (flSignalBuffer.eventData.modemdata_evt.type==DATA_AT) { pData = (char*)flSignalBuffer.eventData.modemdata_evt.data; custom_at_handler(); } break; } case EVENT_UARTDATA: { Ql_DebugTrace("\r\nEVENT_UARTDATA PORT=%d\r\n",flSignalBuffer.eventData.uartdata_evt.port); Ql_DebugTrace("\r\nuart data =%s\r\n",flSignalBuffer.eventData.uartdata_evt.data); break; } case EVENT_SERIALSTATUS: { bool val = flSignalBuffer.eventData.portstatus_evt.val; u8 port = flSignalBuffer.eventData.portstatus_evt.port; u8 type = flSignalBuffer.eventData.portstatus_evt.type; Ql_DebugTrace("EVENT_SERIALSTATUS port=%d type=%d val=%d\r\n",port,type,val); break; } default: break; } } }
void ql_entry() { bool keepGoing = TRUE; QlEventBuffer flSignalBuffer; s32 period = 10; char buffer[100]; char *pData, *p; Ql_SetDebugMode(BASIC_MODE); Ql_DebugTrace("pwm: ql_entry\r\n"); Ql_OpenModemPort(ql_md_port1); while(keepGoing) { Ql_GetEvent(&flSignalBuffer); switch(flSignalBuffer.eventType) { case EVENT_UARTDATA: { if (flSignalBuffer.eventData.uartdata_evt.len>0) { s32 pin; s32 mod = 0; s32 pinpullenable = 0; s32 pindirection = 0; s32 pinlevel = 0; s32 iret; pData = (char*)flSignalBuffer.eventData.uartdata_evt.data; //command-->select QL_PINNAME_BUZZER pin function to mode1, it is Net light function p = Ql_strstr(pData,"1"); if (p) { iret = Ql_pinSubscribe(QL_PINNAME_BUZZER, QL_PINMODE_1, NULL); Ql_sprintf(buffer, "\r\nSubscribe(%d),pin=%d,mod=%d\r\n",iret,QL_PINNAME_BUZZER,QL_PINMODE_1); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); break; } //command-->select QL_PINNAME_BUZZER pin function to mode3, it is pwm function p = Ql_strstr(pData,"3"); if (p) { QlPinParameter pinparameter; pinparameter.pinconfigversion = QL_PIN_VERSION; pinparameter.pinparameterunion.pwmparameter.pwmsource = QL_PWMSOURCE_32K; pinparameter.pinparameterunion.pwmparameter.pwmclkdiv = QL_PWMSOURCE_DIV8; pinparameter.pinparameterunion.pwmparameter.lowpulesnumber = 4000; pinparameter.pinparameterunion.pwmparameter.highpulesnumber = 8000; iret = Ql_pinSubscribe(QL_PINNAME_BUZZER, QL_PINMODE_3, &pinparameter); Ql_sprintf(buffer, "\r\nSubscribe(%d),pin=%d,mod=%d\r\n",iret,QL_PINNAME_BUZZER,QL_PINMODE_3); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); break; } //command-->unsubscribe p = Ql_strstr(pData,"u"); if (p) { iret = Ql_pinUnSubscribe(QL_PINNAME_BUZZER); Ql_sprintf(buffer, "\r\nUnSubscribe(%d),pin=%d\r\n",iret,QL_PINNAME_BUZZER); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); break; } //command-->control start pwm p = Ql_strstr(pData,"s"); if (p) { iret = Ql_pinControl(QL_PINNAME_BUZZER, QL_PINCONTROL_START); Ql_sprintf(buffer, "\r\nStart(%d),pin=%d\r\n",iret,QL_PINNAME_BUZZER); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); break; } //command-->control stop pwm p = Ql_strstr(pData,"t"); if (p) { iret = Ql_pinControl(QL_PINNAME_BUZZER, QL_PINCONTROL_STOP); Ql_sprintf(buffer, "\r\nStop(%d),pin=%d\r\n",iret,QL_PINNAME_BUZZER); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); break; } } break; } default: break; } } }
/****************************************************************** * Please refer to how to configure the constant * 'Customer_user_qlconfig' in ql_customer_config.c *******************************************************************/ void ql_entry() { bool keepGoing = TRUE; QlEventBuffer flSignalBuffer; s32 period = 10; char buffer[100]; char *pData, *p; QlAudioPlayPath path; Ql_SetDebugMode(BASIC_MODE); Ql_DebugTrace("headset: ql_entry\r\n"); Ql_OpenModemPort(ql_md_port1); while(keepGoing) { Ql_GetEvent(&flSignalBuffer); switch(flSignalBuffer.eventType) { case EVENT_POWERKEY: { if(flSignalBuffer.eventData.powerkey_evt.powerkey == POWERKEY_ON) { Ql_PowerOnAck(); Ql_sprintf(buffer, "\r\nNow, Power on System\r\n"); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); path = Ql_VoiceCallGetCurrentPath(); Ql_sprintf(buffer, "\r\nCurrent Voice call path is %d\r\n",path); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); Ql_VoiceCallChangePath(QL_AUDIO_PATH_LOUDSPEAKER); if(path == QL_AUDIO_PATH_NORMAL) { Ql_sprintf(buffer, "\r\nnow change to QL_AUDIO_PATH_LOUDSPEAKER\r\n"); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); } } else if(flSignalBuffer.eventData.powerkey_evt.powerkey == POWERKEY_OFF) { if( flSignalBuffer.eventData.powerkey_evt.isPressed) { Ql_sprintf(buffer, "\r\nNow, Press PWRKEY\r\n"); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); } else { Ql_sprintf(buffer, "\r\nNow, Release PWRKEY\r\n"); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); } } break; } case EVENT_HEADSET: { switch(flSignalBuffer.eventData.headset_evt.headsettype) { case HEADSET_PLUGOUT: Ql_sprintf(buffer, "\r\nHEADSET_PLUGOUT"); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); path = Ql_VoiceCallGetCurrentPath(); Ql_sprintf(buffer, "\r\nCurrent Voice call path is %d\r\n",path); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); #if 1 if(path != QL_AUDIO_PATH_LOUDSPEAKER) { Ql_sprintf(buffer, "\r\nnow change to QL_AUDIO_PATH_LOUDSPEAKER\r\n"); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); Ql_VoiceCallChangePath(QL_AUDIO_PATH_LOUDSPEAKER); } #endif break; case HEADSET_PLUGIN: Ql_sprintf(buffer, "\r\nHEADSET_PLUGIN"); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); path = Ql_VoiceCallGetCurrentPath(); Ql_sprintf(buffer, "\r\nCurrent Voice call path is %d\r\n",path); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); #if 1 if(path != QL_AUDIO_PATH_HEADSET) { Ql_sprintf(buffer, "\r\nnow change to QL_AUDIO_PATH_HEADSET\r\n"); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); Ql_VoiceCallChangePath(QL_AUDIO_PATH_HEADSET); } #endif break; case HEADSET_KEYPRESS: Ql_sprintf(buffer, "\r\nHEADSET_KEYPRESS"); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); break; case HEADSET_KEYRELEASE: Ql_sprintf(buffer, "\r\nHEADSET_KEYRELEASE"); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); break; case HEADSET_ADC: Ql_sprintf(buffer, "\r\nHEADSET_ADC:%d",flSignalBuffer.eventData.headset_evt.data1); Ql_SendToUart(ql_uart_port1,(u8*)buffer,Ql_strlen(buffer)); break; } break; } case EVENT_MODEMDATA: { //Ql_DebugTrace("\r\nEVENT_MODEMDATA type=%d \r\n",flSignalBuffer.eventData.modemdata_evt.type); //Ql_DebugTrace("\r\nmodemdata =%s\r\n",flSignalBuffer.eventData.uartdata_evt.data); //if (flSignalBuffer.eventData.modemdata_evt.type==DATA_AT) Ql_SendToUart(ql_uart_port1,(u8*)flSignalBuffer.eventData.uartdata_evt.data,flSignalBuffer.eventData.uartdata_evt.len); break; } case EVENT_UARTDATA: { //Ql_DebugTrace("\r\nEVENT_UARTDATA PORT=%d\r\n",flSignalBuffer.eventData.uartdata_evt.port); //Ql_DebugTrace("\r\nuart data =%s\r\n",flSignalBuffer.eventData.uartdata_evt.data); Ql_SendToModem(ql_md_port1,(u8*)flSignalBuffer.eventData.uartdata_evt.data,flSignalBuffer.eventData.uartdata_evt.len); break; } default: break; } } }
void ql_entry(void) { bool keepGoing = TRUE; s32 ret; s32 i; char notes[50]; OUT_DEBUG(debug_buffer,"sms: ql_entry\r\n"); Ql_SetDebugMode(ADVANCE_MODE); Ql_OpenModemPort(ql_md_port1); Ql_SMS_Callback cb_func={CallBack_NewSMS,CallBack_SendSMS,CallBack_DeleteSMS, //public CallBack_ReadPDUSMS,CallBack_NewFlashPDUSMS,CallBack_PDUStatusReport, //pdu CallBack_ReadTextSMS,CallBack_NewFlashTextSMS,CallBack_TextStatusReport}; //text ret=Ql_SMSInitialize(&cb_func); OUT_DEBUG(debug_buffer,"\r\nQl_SMSInitialize=%d\r\n",ret); //OUT_DEBUG(debug_buffer,"CallBack_ReadPDUSMS=%X\r\n",CallBack_ReadPDUSMS); while(keepGoing) { Ql_GetEvent(&g_event); switch(g_event.eventType) { case EVENT_MODEMDATA: { //TODO: receive and hanle data from CORE through virtual modem port PortData_Event* pPortEvt = (PortData_Event*)&g_event.eventData.modemdata_evt; OUT_DEBUG(debug_buffer,"%s", pPortEvt->data); break; } case EVENT_UARTDATA: { char* pChar=NULL; char* pChar2=NULL; PortData_Event* pDataEvt = (PortData_Event*)&g_event.eventData.uartdata_evt; //Ql_SetSMSStorage=(0-3) Ql_memset(notes, 0x0, sizeof(notes)); Ql_sprintf(notes, "Ql_SetSMSStorage="); pChar = Ql_strstr((char*)pDataEvt->data, notes); if (NULL != pChar) { u8 storage; pChar+=17; storage=Ql_atoi(pChar); ret=Ql_SetSMSStorage(storage); OUT_DEBUG(debug_buffer,"\r\nQl_SetSMSStorage(storage=%d)=%d\r\n",storage,ret); break; } //Ql_GetSMSStorageInfo Ql_memset(notes, 0x0, sizeof(notes)); Ql_sprintf(notes, "Ql_GetSMSStorageInfo"); pChar = Ql_strstr((char*)pDataEvt->data, notes); if (NULL != pChar) { u8 current_mem,used,total; ret=Ql_GetSMSStorageInfo(¤t_mem, &used, &total); OUT_DEBUG(debug_buffer,"\r\nQl_GetSMSStorageInfo(current_mem=%d,used=%d,total=%d)=%d\r\n", current_mem,used,total,ret); break; } //Ql_SetInfoCentreNum="<sca number>" eg:Ql_SetInfoCentreNum="+8613800551500" Ql_memset(notes, 0x0, sizeof(notes)); Ql_sprintf(notes, "Ql_SetInfoCentreNum=\""); pChar = Ql_strstr((char*)pDataEvt->data, notes); if (NULL != pChar) { pChar+=21; pChar2 = Ql_strstr(pChar,"\""); *pChar2=0; ret=Ql_SetInfoCentreNum((u8*)pChar); OUT_DEBUG(debug_buffer,"\r\nQl_SetInfoCentreNum(sca_num=%s)=%d\r\n", pChar,ret); break; } //Ql_GetInfoCentreNum Ql_memset(notes, 0x0, sizeof(notes)); Ql_sprintf(notes, "Ql_GetInfoCentreNum"); pChar = Ql_strstr((char*)pDataEvt->data, notes); if (NULL != pChar) { u8 sca_number[40]; u8 type; ret=Ql_GetInfoCentreNum(sca_number,&type); OUT_DEBUG(debug_buffer,"\r\nQl_GetInfoCentreNum(sca_number=\"%s\",type=%d)=%d\r\n", sca_number,type,ret); break; } //Ql_SetNewSMSDirectToTE=(0,1) Ql_memset(notes, 0x0, sizeof(notes)); Ql_sprintf(notes, "Ql_SetNewSMSDirectToTE="); pChar = Ql_strstr((char*)pDataEvt->data, notes); if (NULL != pChar) { u8 op; pChar+=23; op=Ql_atoi(pChar); ret=Ql_SetNewSMSDirectToTE(op); OUT_DEBUG(debug_buffer,"\r\nQl_SetNewSMSDirectToTE(op=%d)=%d\r\n",op,ret); break; } //Ql_SetSMSFormat=(0,1) Ql_memset(notes, 0x0, sizeof(notes)); Ql_sprintf(notes, "Ql_SetSMSFormat="); pChar = Ql_strstr((char*)pDataEvt->data, notes); if (NULL != pChar) { u8 format; pChar+=16; format=Ql_atoi(pChar); ret=Ql_SetSMSFormat(format); OUT_DEBUG(debug_buffer,"\r\nQl_SetSMSFormat(format=%d)=%d\r\n",format,ret); break; } //Ql_ReadSMS=(1,300),(0,1) Ql_memset(notes, 0x0, sizeof(notes)); Ql_sprintf(notes, "Ql_ReadSMS="); pChar = Ql_strstr((char*)pDataEvt->data, notes); if (NULL != pChar) { u16 index; u8 mode; pChar+=11; index=Ql_atoi(pChar); pChar=Ql_strstr(pChar, ","); pChar++; mode=Ql_atoi(pChar); ret=Ql_ReadSMS(index,mode); OUT_DEBUG(debug_buffer,"\r\nQl_ReadSMS(index=%d,mode=%d)=%d\r\n",index,mode,ret); break; } //Ql_DeleteSMS=(1,300),(0,4) Ql_memset(notes, 0x0, sizeof(notes)); Ql_sprintf(notes, "Ql_DeleteSMS="); pChar = Ql_strstr((char*)pDataEvt->data, notes); if (NULL != pChar) { u16 index; u8 flag; pChar+=13; index=Ql_atoi(pChar); pChar=Ql_strstr(pChar, ","); pChar++; flag=Ql_atoi(pChar); ret=Ql_DeleteSMS(index,flag); OUT_DEBUG(debug_buffer,"\r\nQl_DeleteSMS(index=%d,flag=%d)=%d\r\n",index,flag,ret); break; } //Ql_ListSMS=(0,4) Ql_memset(notes, 0x0, sizeof(notes)); Ql_sprintf(notes, "Ql_ListSMS="); pChar = Ql_strstr((char*)pDataEvt->data, notes); if (NULL != pChar) { u8 by_status; u16 sms_count=0; QlSMSListNode sms_list[MAX_LIST_NODE_COUNT]; //MAX_LIST_NODE_COUNT should be set large enough pChar+=11; by_status=Ql_atoi(pChar); ret=Ql_ListSMS(sms_list, MAX_LIST_NODE_COUNT, by_status, &sms_count); OUT_DEBUG(debug_buffer,"\r\nQl_ListSMS(by_status=%d,node_count=%d,sms_count=%d)=%d\r\n", by_status,MAX_LIST_NODE_COUNT,sms_count,ret); if(0==ret) { for(i=0;i<sms_count;i++) { OUT_DEBUG(debug_buffer,"index=%d,status=%d\r\n",sms_list[i].index,sms_list[i].status); } } break; } //Ql_GetUnReadSMS=(0,1) Ql_memset(notes, 0x0, sizeof(notes)); Ql_sprintf(notes, "Ql_GetUnReadSMS="); pChar = Ql_strstr((char*)pDataEvt->data, notes); if (NULL != pChar) { u8 mode; pChar+=16; mode=Ql_atoi(pChar); ret=Ql_GetUnReadSMS(mode); OUT_DEBUG(debug_buffer,"\r\nQl_GetUnReadSMS(mode=%d)=%d\r\n",mode,ret); break; } //Ql_SendPDUSMS Ql_memset(notes, 0x0, sizeof(notes)); Ql_sprintf(notes, "Ql_SendPDUSMS"); pChar = Ql_strstr((char*)pDataEvt->data, notes); if (NULL != pChar) { u8 pdu_len; u8 pdu_string[]={0x00, //Set aside for SCA 0x31, //FO 0xff, //Set aside for MR /* 0x05, //DA Length 0x81, //DA type 0x01, 0x80, 0xf6, //DA:10086 */ 0x0b, //DA Length 0x81, //DA type 0x31, 0x58, 0x15, 0x64, 0x79, 0xf3, //DA:13855146973 0x00, //PID 0x00, //DCS 0x47, //VP 0x07, //UDH 0xd1, 0x7a, 0x79, 0x4c, 0x2f, 0xb3, 0x01 //UD:Quectel, GSM 7-bit coding }; pdu_len=sizeof(pdu_string); ret=Ql_SendPDUSMS(pdu_string,pdu_len); OUT_DEBUG(debug_buffer,"\r\nQl_SendPDUSMS(pdu_len=%d)=%d\r\n",pdu_len,ret); if(0==ret) { for(i=0;i<pdu_len;i++) { OUT_DEBUG(debug_buffer,"%02X",pdu_string[i]); } OUT_DEBUG(debug_buffer,"\r\n"); } break; } //Ql_SetTextSMSPara=(0-2),(0,1),(0,1) Ql_memset(notes, 0x0, sizeof(notes)); Ql_sprintf(notes, "Ql_SetTextSMSPara="); pChar = Ql_strstr((char*)pDataEvt->data, notes); if (NULL != pChar) { u8 chset,isflashsms,status_report; pChar+=18; chset=Ql_atoi(pChar); pChar=Ql_strstr(pChar, ","); pChar++; isflashsms=Ql_atoi(pChar); pChar=Ql_strstr(pChar, ","); pChar++; status_report=Ql_atoi(pChar); ret=Ql_SetTextSMSPara(chset, isflashsms, status_report); OUT_DEBUG(debug_buffer, "\r\nQl_SetTextSMSPara(chset=%d,isflashsms=%d,status_report=%d)=%d\r\n",chset,isflashsms,status_report,ret); break; } //Ql_SendTextSMS="<phone number>" Ql_memset(notes, 0x0, sizeof(notes)); Ql_sprintf(notes, "Ql_SendTextSMS=\""); pChar = Ql_strstr((char*)pDataEvt->data, notes); if (NULL != pChar) { pChar+=16; pChar2 = Ql_strstr(pChar,"\""); *pChar2=0; ret=Ql_SendTextSMS((u8*)pChar,(u8*)"Welcome to use Quectel module!", Ql_strlen((u8*)"Welcome to use Quectel module!")); OUT_DEBUG(debug_buffer, "\r\nQl_SendTextSMS(phone_num=\"%s\")=%d\r\n",pChar,ret); break; } Ql_SendToModem(ql_md_port1, (u8*)pDataEvt->data, pDataEvt->len); break; } default: break; } } }