void demo_test(){ tempcounter=2; char c=0; //if(SolarStatus()==1){ if (BatteryCharged()){ // if (ReadInitFlag()==0){ //check if its first initialisation of device // GSM_ON(); //turn on GSM module // SIM900_SEND(2); //send a configuration request message to server // SetInitFlag(); //set initcheck flag // } for (char d=0; d<TRANSMIT_FREQ; d++){ days++; //increment days for (int i=0; i<tempcounter; i++){ getTempHum(); //get temperature and humidity sensor while ((TEMP_INT==0)&&(c<=3)){ //check DHT11 sensor 3 times for reading if no data received getTempHum(); c++; } DayTEMP[i]=TEMP_INT; DayHUM[i]=RH_INT; delay_1s(3); //wait 30 seconds between each temperature readings } avgTempHum(); //calculate average temperature and humidity minmaxTempHum(); //calculate minimum and maximum temperature and humidity getWaterLevel(); //get water level from ultrasonic sensor getConductivity(); getSolarReading(); getBatteryReading(); ShiftData(); //shift gathered data by offset if ((WaterLevel-OFFSET) >= WATER_THRESHOLD){ //check if water level is too low SMS_data[0]=WARNING_PREFIX; //initiate message with warning char SMS_data[1]=WaterLevel; //put water level in text message SMS_data[2]=DATA_SUFFIX; //end message with suffix GSM_ON(); //turn on sim900 delay_1s(5); //wait for GSM to connect to network SIM900_SEND(1); //Send data message to server GSM_OFF(); //turn off sim900 } SaveData(); //Sava sensor readings to memory } } if (!BatteryCharged()){ MonitorBattery(); } SMS_data[0]=DATA_PREFIX; //start message with prefix gatherData(); //read data from memory getCheckByte(); //calculate check byte GSM_ON(); //turn on sim900 delay_1s(10); //wait for GSM to connect to network puts1USART("AT\r\n"); delay_1s(5); SIM900_SEND(1); //Send data message to server //} //solarpanel check }
/*! Handle the messages routed to the display queue */ static void DisplayQueueMessageHandler(tMessage *pMsg) { tMessage Msg; switch (pMsg->Type) { case ShowCallMsg: HandleCallNotification(pMsg->Options, pMsg->pBuffer, pMsg->Length); break; case WriteBufferMsg: WriteBufferHandler(pMsg); break; case SetWidgetListMsg: SetWidgetList(pMsg); break; case UpdateDisplayMsg: if ((!(pMsg->Options & MSG_OPT_UPD_INTERNAL) && (pMsg->Options & MODE_MASK) == NOTIF_MODE) && GetProperty(PROP_AUTO_BACKLIGHT)) SendMessage(AutoBacklightMsg, MSG_OPT_NONE); UpdateDisplayHandler(pMsg); break; case DrawMsg: DrawMsgHandler(pMsg); break; case UpdateClockMsg: UpdateClock(); break; case DrawClockWidgetMsg: DrawClockWidget(pMsg->Options); break; case BluetoothStateChangeMsg: BluetoothStateChangeHandler(pMsg); break; case IdleUpdateMsg: IdleUpdateHandler(); break; case ButtonStateMsg: ButtonStateHandler(); break; case StopTimerMsg: StopTimer((eTimerId)pMsg->Options); break; case MonitorBatteryMsg: MonitorBattery(); break; case MusicIconMsg: MusicIcon(pMsg->Options); break; case MusicStateMsg: HandleMusicStateChange(pMsg->Options); break; case ChangeModeMsg: ChangeMode(pMsg->Options); break; case ControlFullScreenMsg: SetProperty(PROP_PHONE_DRAW_TOP, pMsg->Options || *pMsg->pBuffer ? PROP_PHONE_DRAW_TOP : 0); break; case ModifyTimeMsg: ModifyTimeHandler(pMsg); break; case MenuModeMsg: MenuModeHandler(pMsg->Options); break; case MenuButtonMsg: MenuButtonHandler(pMsg->Options); break; case EnableButtonMsg: EnableButtonMsgHandler(pMsg); break; case DevTypeMsg: Msg.Length = 1; Msg.Type = DevTypeRespMsg; Msg.Options = BOARD_TYPE; //default G2 if (CreateMessage(&Msg)) { Msg.pBuffer[0] = BOARD_TYPE; // backward compatible if (GetMsp430HardwareRevision() < 'F') { Msg.Options = DIGITAL_WATCH_TYPE_G1; Msg.pBuffer[0] = DIGITAL_WATCH_TYPE_G1; // backward compatible } Msg.Options |= DEV_TYPE_EN_ACK; // support ACK RouteMsg(&Msg); } PrintF("- DevTypeResp:%u", Msg.Options); // set ACK and HFP/MAP bits // SendMessage(ConnTypeMsg, pMsg->Options); break; case VerInfoMsg: Msg.Length = BUILD_LENGTH + 4 + 3; Msg.Type = VerInfoRespMsg; Msg.Options = MSG_OPT_NONE; if (CreateMessage(&Msg)) { GetBuildNumber(Msg.pBuffer); *(Msg.pBuffer + BUILD_LENGTH) = VERSION[0] - ZERO; *(Msg.pBuffer + BUILD_LENGTH + 1) = VERSION[2] - ZERO; *(Msg.pBuffer + BUILD_LENGTH + 2) = VERSION[4] - ZERO; *(Msg.pBuffer + BUILD_LENGTH + 3) = GetMsp430HardwareRevision(); *(Msg.pBuffer + BUILD_LENGTH + 4) = BootVersion[0] - ZERO; *(Msg.pBuffer + BUILD_LENGTH + 5) = BootVersion[2] - ZERO; *(Msg.pBuffer + BUILD_LENGTH + 6) = BootVersion[4] - ZERO; RouteMsg(&Msg); } PrintE("-Ver(%u):", Msg.Length); PrintQ(Msg.pBuffer, Msg.Length); break; case LogMsg: SendStateLog(); break; case VibrateMsg: SetVibrateModeHandler(pMsg); break; case SetRtcMsg: if (SetRtc((Rtc_t *)pMsg->pBuffer)) UpdateClock(); break; case CountdownMsg: if (pMsg->Options == CDT_ENTER) { PageType = PAGE_TYPE_INFO; CurrentPage[PageType] = CountdownPage; } CountdownHandler(pMsg->Options); break; case ServiceMenuMsg: ServiceMenuHandler(); break; case FieldTestMsg: HandleFieldTestMode(pMsg->Options); break; case DisableButtonMsg: DisableButtonMsgHandler(pMsg); break; case ReadButtonConfigMsg: ReadButtonConfigHandler(pMsg); break; case SetBacklightMsg: SetBacklight(pMsg->Options); // testing // pMsg->Type = AccelMsg; // pMsg->Options = 1; //enable // HandleAccelerometer(pMsg); break; case AutoBacklightMsg: if (LightSenseCycle() < DARK_LEVEL) SetBacklight(LED_ON); break; case BatteryConfigMsg: SetBatteryLevels(pMsg->pBuffer); break; case ReadBatteryVoltageMsg: ReadBatteryVoltageHandler(); break; case ResetMsg: SoftwareReset(RESET_BUTTON_PRESS, pMsg->Options); break; case NvalOperationMsg: NvalOperationHandler(pMsg); break; case SecInvertMsg: HandleSecInvert(pMsg->Options); break; case LoadTemplateMsg: LoadTemplateHandler(pMsg); break; case LinkAlarmMsg: SendMessage(VibrateMsg, VIBRA_PATTERN_LNKALM); break; case ModeTimeoutMsg: ModeTimeoutHandler(); break; case WatchStatusMsg: PageType = PAGE_TYPE_INFO; CurrentPage[PageType] = StatusPage; DrawWatchStatusScreen(TRUE); break; case TermModeMsg: TermModeHandler(); break; case LowBatteryWarningMsg: break; case LowBatteryBtOffMsg: UpdateClock(); break; #if __IAR_SYSTEMS_ICC__ case EraseTemplateMsg: // EraseTemplateHandler(pMsg); break; case WriteToTemplateMsg: // WriteToTemplateHandler(pMsg); break; #endif case AccelMsg: HandleAccelerometer(pMsg); break; case ReadLightSensorMsg: ReadLightSensorHandler(); break; case WatchDrawnScreenTimeout: IdleUpdateHandler(); break; case RateTestMsg: /* don't care what data is */ Msg.Length = 10; Msg.Type = DiagnosticLoopback; Msg.Options = MSG_OPT_NONE; if (CreateMessage(&Msg)) RouteMsg(&Msg); break; default: PrintF("# Disp Msg:x%02X", pMsg->Type); break; } }
/*! Handle the messages routed to the display queue */ static void DisplayQueueMessageHandler(tMessage* pMsg) { tMessage Msg; unsigned char i = 0; switch (pMsg->Type) { case WriteBufferMsg: WriteBufferHandler(pMsg); break; case SetWidgetListMsg: SetWidgetList(pMsg); break; case UpdateDisplayMsg: UpdateDisplayHandler(pMsg); break; case UpdateClockMsg: UpdateClock(); break; case DrawClockWidgetMsg: DrawClockWidget(pMsg->Options); break; case MonitorBatteryMsg: MonitorBattery(); break; case BluetoothStateChangeMsg: BluetoothStateChangeHandler(pMsg); break; case IdleUpdateMsg: IdleUpdateHandler(); break; case ButtonStateMsg: ButtonStateHandler(); break; case CallerIdMsg: // PrintStringAndDecimal("LcdDisp:CallerId Len:", pMsg->Length); pMsg->pBuffer[pMsg->Length] = NULL; ShowCall((char *)pMsg->pBuffer, pMsg->Options); break; case CallerNameMsg: if (pMsg->Length) { pMsg->pBuffer[pMsg->Length] = NULL; ShowCall((char *)pMsg->pBuffer, SHOW_NOTIF_CALLER_NAME); } else ShowCall("", pMsg->Options); break; case MusicPlayStateMsg: HandleMusicPlayStateChange(pMsg->Options); break; case ChangeModeMsg: ChangeModeHandler(pMsg->Options); break; case ConfigureIdleBufferSize: SetProperty(PROP_PHONE_DRAW_TOP, *pMsg->pBuffer ? PROP_PHONE_DRAW_TOP : 0); break; case ModifyTimeMsg: ModifyTimeHandler(pMsg); break; case MenuModeMsg: MenuModeHandler(pMsg->Options); break; case MenuButtonMsg: MenuButtonHandler(pMsg->Options); break; case EnableButtonMsg: EnableButtonMsgHandler(pMsg); break; case DevTypeMsg: SetupMessageAndAllocateBuffer(&Msg, DevTypeRespMsg, MSG_OPT_NONE); Msg.Options = BOARD_TYPE; //default G2 Msg.pBuffer[0] = BOARD_TYPE; // backward compatible #ifdef WATCH if (GetMsp430HardwareRevision() < 'F') { Msg.Options = DIGITAL_WATCH_TYPE_G1; Msg.pBuffer[0] = DIGITAL_WATCH_TYPE_G1; // backward compatible } #endif Msg.Length = 1; RouteMsg(&Msg); PrintStringAndDecimal("- DevTypeResp:", Msg.pBuffer[0]); break; case VerInfoMsg: SetupMessageAndAllocateBuffer(&Msg, VerInfoRespMsg, MSG_OPT_NONE); /* exclude middle '.' */ strncpy((char *)Msg.pBuffer, BUILD, 3); strncpy((char *)Msg.pBuffer + 3, BUILD + 4, 3); Msg.Length += strlen(BUILD) - 1; *(Msg.pBuffer + Msg.Length++) = (unsigned char)atoi(VERSION); while (VERSION[i++] != '.'); *(Msg.pBuffer + Msg.Length++) = atoi(VERSION + i); *(Msg.pBuffer + Msg.Length++) = NULL; RouteMsg(&Msg); PrintString("-Ver:"); for (i = 6; i < Msg.Length; ++i) PrintHex(Msg.pBuffer[i]); break; case SetVibrateMode: SetVibrateModeHandler(pMsg); break; case SetRtcMsg: halRtcSet((tRtcHostMsgPayload*)pMsg->pBuffer); #ifdef DIGITAL UpdateClock(); #endif break; case GetRtcMsg: SetupMessageAndAllocateBuffer(&Msg, RtcRespMsg, MSG_OPT_NONE); halRtcGet((tRtcHostMsgPayload*)Msg.pBuffer); Msg.Length = sizeof(tRtcHostMsgPayload); RouteMsg(&Msg); break; case ServiceMenuMsg: ServiceMenuHandler(); break; case DisableButtonMsg: DisableButtonMsgHandler(pMsg); break; case ReadButtonConfigMsg: ReadButtonConfigHandler(pMsg); break; case LedChange: LedChangeHandler(pMsg); break; case BatteryConfigMsg: SetBatteryLevels(pMsg->pBuffer); break; case ReadBatteryVoltageMsg: ReadBatteryVoltageHandler(); break; case ResetMsg: SoftwareResetHandler(pMsg); break; case NvalOperationMsg: NvalOperationHandler(pMsg); break; case SecInvertMsg: HandleSecInvert(pMsg->Options); break; case LoadTemplateMsg: LoadTemplateHandler(pMsg); break; case LinkAlarmMsg: if (!GetProperty(PROP_DISABLE_LINK_ALARM)) { SetupMessageAndAllocateBuffer(&Msg, SetVibrateMode, MSG_OPT_NONE); tSetVibrateModePayload* pMsgData; pMsgData = (tSetVibrateModePayload *)Msg.pBuffer; pMsgData->Enable = 1; pMsgData->OnDurationLsb = 0xC8; pMsgData->OnDurationMsb = 0x00; pMsgData->OffDurationLsb = 0xF4; pMsgData->OffDurationMsb = 0x01; pMsgData->NumberOfCycles = 1; //3 RouteMsg(&Msg); } break; case ModeTimeoutMsg: ModeTimeoutHandler(); break; case WatchStatusMsg: PageType = PAGE_TYPE_INFO; CurrentPage[PageType] = StatusPage; DrawWatchStatusScreen(); break; // case ListPairedDevicesMsg: // ListPairedDevicesHandler(); // break; case WatchDrawnScreenTimeout: IdleUpdateHandler(); break; case TermModeMsg: TermModeHandler(); break; case LowBatteryWarningMsg: break; case LowBatteryBtOffMsg: UpdateClock(); break; #if __IAR_SYSTEMS_ICC__ case EraseTemplateMsg: EraseTemplateHandler(pMsg); break; case WriteToTemplateMsg: WriteToTemplateHandler(pMsg); break; #endif case EnableAccelerometerMsg: case DisableAccelerometerMsg: case AccelerometerSendDataMsg: case AccelerometerAccessMsg: case AccelerometerSetupMsg: HandleAccelerometer(pMsg); break; case ReadLightSensorMsg: ReadLightSensorHandler(); break; case RateTestMsg: SetupMessageAndAllocateBuffer(&Msg, DiagnosticLoopback, MSG_OPT_NONE); /* don't care what data is */ Msg.Length = 10; RouteMsg(&Msg); break; case RamTestMsg: RamTestHandler(pMsg); break; default: PrintStringAndHexByte("# Disp Msg: 0x", pMsg->Type); break; } }
/*! Handle the messages routed to the display queue */ static void DisplayQueueMessageHandler(tMessage* pMsg) { tMessage Msg; unsigned char i = 0; switch (pMsg->Type) { case WriteBufferMsg: WriteBufferHandler(pMsg); break; case SetWidgetListMsg: SetWidgetList(pMsg); break; case UpdateDisplayMsg: if ((!(pMsg->Options & MSG_OPT_UPD_INTERNAL) && (pMsg->Options & MODE_MASK) == NOTIF_MODE) && GetProperty(PROP_AUTO_BACKLIGHT)) SendMessage(&Msg, AutoBacklightMsg, MSG_OPT_NONE); UpdateDisplayHandler(pMsg); break; case UpdateClockMsg: UpdateClock(); break; case DrawClockWidgetMsg: DrawClockWidget(pMsg->Options); break; case MonitorBatteryMsg: MonitorBattery(); break; case BluetoothStateChangeMsg: BluetoothStateChangeHandler(pMsg); break; case IdleUpdateMsg: IdleUpdateHandler(); break; case ButtonStateMsg: ButtonStateHandler(); break; case CallerIdMsg: pMsg->pBuffer[pMsg->Length] = NUL; ShowCall((char *)pMsg->pBuffer, pMsg->Options); break; case CallerNameMsg: if (pMsg->Length) { pMsg->pBuffer[pMsg->Length] = NUL; ShowCall((char *)pMsg->pBuffer, SHOW_NOTIF_CALLER_NAME); if (GetProperty(PROP_AUTO_BACKLIGHT)) SendMessage(&Msg, AutoBacklightMsg, MSG_OPT_NONE); } else ShowCall("", pMsg->Options); break; case MusicPlayStateMsg: HandleMusicPlayStateChange(pMsg->Options); break; case ChangeModeMsg: ChangeModeHandler(pMsg->Options); break; case ControlFullScreenMsg: SetProperty(PROP_PHONE_DRAW_TOP, pMsg->Options || *pMsg->pBuffer ? PROP_PHONE_DRAW_TOP : 0); break; case ModifyTimeMsg: ModifyTimeHandler(pMsg); break; case MenuModeMsg: MenuModeHandler(pMsg->Options); break; case MenuButtonMsg: MenuButtonHandler(pMsg->Options); break; case EnableButtonMsg: EnableButtonMsgHandler(pMsg); break; case DevTypeMsg: SetupMessageWithBuffer(&Msg, DevTypeRespMsg, BOARD_TYPE); //default G2 if (Msg.pBuffer != NULL) { Msg.pBuffer[0] = BOARD_TYPE; // backward compatible Msg.Length = 1; if (GetMsp430HardwareRevision() < 'F') { Msg.Options = DIGITAL_WATCH_TYPE_G1; Msg.pBuffer[0] = DIGITAL_WATCH_TYPE_G1; // backward compatible } Msg.Options |= pMsg->Options & 0x80; // support ACK RouteMsg(&Msg); } PrintF("- DevTypeResp:%d", Msg.Options); // set ACK bit SendMessage(&Msg, ConnTypeMsg, pMsg->Options); break; case VerInfoMsg: SetupMessageWithBuffer(&Msg, VerInfoRespMsg, MSG_OPT_NONE); if (Msg.pBuffer != NULL) { /* exclude middle '.' */ strncpy((char *)Msg.pBuffer, BUILD, 3); strncpy((char *)Msg.pBuffer + 3, BUILD + 4, 3); Msg.Length += strlen(BUILD) - 1; *(Msg.pBuffer + Msg.Length++) = (unsigned char)atoi(VERSION); while (VERSION[i++] != '.'); *(Msg.pBuffer + Msg.Length++) = atoi(VERSION + i); *(Msg.pBuffer + Msg.Length++) = NULL; RouteMsg(&Msg); } PrintS("-Ver:"); for (i = 6; i < Msg.Length; ++i) PrintH(Msg.pBuffer[i]); break; case SetVibrateMode: SetVibrateModeHandler(pMsg); break; case SetRtcMsg: SetRtc((Rtc_t *)pMsg->pBuffer); #if COUNTDOWN_TIMER if (CurrentPage[PageType] == CountdownPage && CountdownMode() == COUNTING) SendMessage(&Msg, CountDownMsg, MSG_OPT_CNTDWN_TIME); #endif UpdateClock(); break; #if COUNTDOWN_TIMER case CountDownMsg: if (pMsg->Options == MSG_OPT_NONE) { PageType = PAGE_TYPE_INFO; CurrentPage[PageType] = CountdownPage; } DrawCountdownScreen(pMsg->Options); break; case SetCountdownDoneMsg: // for testing // Rtc_t Done; // Done.Month = 5; // Done.Day = 1; // Done.Hour = 0; // Done.Minute = 0; // SetDoneTime(&Done); // Valid only DoneTime is different if (SetDoneTime((Rtc_t *)pMsg->pBuffer)) SendMessage(&Msg, CountDownMsg, MSG_OPT_NONE); break; #endif case ServiceMenuMsg: ServiceMenuHandler(); break; case DisableButtonMsg: DisableButtonMsgHandler(pMsg); break; case ReadButtonConfigMsg: ReadButtonConfigHandler(pMsg); break; case SetBacklightMsg: SetBacklight(pMsg->Options); // testing // pMsg->Type = AccelMsg; // pMsg->Options = 1; //enable // HandleAccelerometer(pMsg); break; case AutoBacklightMsg: if (LightSenseCycle() < DARK_LEVEL) SetBacklight(LED_ON_OPTION); break; case BatteryConfigMsg: SetBatteryLevels(pMsg->pBuffer); break; case ReadBatteryVoltageMsg: ReadBatteryVoltageHandler(); break; case ResetMsg: SoftwareResetHandler(pMsg); break; case NvalOperationMsg: NvalOperationHandler(pMsg); break; case SecInvertMsg: HandleSecInvert(pMsg->Options); break; case LoadTemplateMsg: LoadTemplateHandler(pMsg); break; case LinkAlarmMsg: if (LinkAlarmEnable) { SetupMessageWithBuffer(&Msg, SetVibrateMode, MSG_OPT_NONE); if (Msg.pBuffer != NULL) { *(tSetVibrateModePayload *)Msg.pBuffer = LnkAlmTone; RouteMsg(&Msg); } } break; case ModeTimeoutMsg: ModeTimeoutHandler(); break; case WatchStatusMsg: PageType = PAGE_TYPE_INFO; CurrentPage[PageType] = StatusPage; DrawWatchStatusScreen(); break; // case ListPairedDevicesMsg: // ListPairedDevicesHandler(); // break; case WatchDrawnScreenTimeout: IdleUpdateHandler(); break; case TermModeMsg: TermModeHandler(); break; case LowBatteryWarningMsg: break; case LowBatteryBtOffMsg: UpdateClock(); break; #if __IAR_SYSTEMS_ICC__ case EraseTemplateMsg: EraseTemplateHandler(pMsg); break; case WriteToTemplateMsg: WriteToTemplateHandler(pMsg); break; #endif case AccelMsg: HandleAccelerometer(pMsg); break; case ReadLightSensorMsg: ReadLightSensorHandler(); break; case RateTestMsg: SetupMessageWithBuffer(&Msg, DiagnosticLoopback, MSG_OPT_NONE); if (Msg.pBuffer != NULL) { /* don't care what data is */ Msg.Length = 10; RouteMsg(&Msg); } break; default: PrintF("# Disp Msg: 0x%02x", pMsg->Type); break; } }
void routine(){ START: if(SolarStatus()==1){ //if solar-panel is on solarcounter = 0; while (BatteryCharged()){ //if battery is charged if (ReadInitFlag()==0){ //check if its first initialisation of device GSM_ON(); //turn on GSM module SIM900_SEND(2); //send a configuration request message to server SetInitFlag(); //set initcheck flag } char c=0; while ((TEMP_INT==0)&&(c<=3)){ //check DHT11 sensor 3 times for reading if no data received getTempHum(); c++; } DayTEMP[tempcounter]=TEMP_INT; DayHUM[tempcounter]=RH_INT; tempcounter++; delay_1ms(1); sleep(); if (tempcounter==2){ days++; //increment days avgTempHum(); //calculate average temperature and humidity minmaxTempHum(); //calculate minimum and maximum temperature and humidity getConductivity(); //get conductivity value from sensor getWaterLevel(); //get water level from ultrasonic sensor ShiftData(); //shift gathered data by offset if ((WaterLevel-OFFSET) >= WATER_THRESHOLD){ //check if water level is too low SMS_data[0]=WARNING_PREFIX; //initiate message with warning char SMS_data[1]=WaterLevel; //put water level in text message SMS_data[2]=DATA_SUFFIX; //end message with suffix GSM_ON(); //turn on sim900 delay_1s(10); //wait for GSM to connect to network SIM900_SEND(1); //Send data message to server } } } if (!BatteryCharged()){ MonitorBattery(); } if (SolarStatus()==0) //if solar-panel is off goto OFF; goto START; } else { //when solar-panel is off OFF: SaveData(); //Sava sensor readings to memory tempcounter=0; //check if data transmission frequency is met if (days >= TRANSMIT_FREQ){ SMS_data[0]=DATA_PREFIX; //start message with prefix gatherData(); //read data from memory getCheckByte(); //calculate check byte GSM_ON(); //turn on sim900 delay_1s(10); //wait for GSM to connect to network SIM900_SEND(1); //Send data message to server days=0; } //reset days counter only after successful tranmsission //sleep for 6h for (char z=0; z<3; z++){ sleep(); } while (SolarStatus()==2){ //if solar-panel is off for (char z=0; z<5; z++){ delay_1s(60); } solarcounter++; if (solarcounter > SOLAR_THRESHOLD){ //turn on Fault LED goto START; } } } }