/************************************************************************* * Arduino GPS/OBD-II/G-Force Data Logger * Distributed under GPL v2.0 * Copyright (c) 2013 Stanley Huang * All rights reserved. *************************************************************************/ #include #include #include #include #include #include #include #include #include "images.h" #include "datalogger.h" /************************************** * Choose SD pin here **************************************/ //#define SD_CS_PIN 4 // ethernet shield //#define SD_CS_PIN 7 // microduino //#define SD_CS_PIN 10 // SD breakout #define SD_CS_PIN SS /************************************** * Config GPS here **************************************/ #define USE_GPS #define GPS_BAUDRATE 38400 /* bps */ //#define GPS_OPEN_BAUDRATE 4800 /* bps */ /************************************** * Other options **************************************/ //#define OBD_MIN_INTERVAL 200 /* ms */ #define GPS_DATA_TIMEOUT 2000 /* ms */ // logger states #define STATE_SD_READY 0x1 #define STATE_OBD_READY 0x2 #define STATE_GPS_CONNECTED 0x4 #define STATE_GPS_READY 0x8 #define STATE_ACC_READY 0x10 #define STATE_DATE_SAVED 0x20 #ifdef USE_GPS // GPS logging can only be enabled when there is additional hardware serial UART #if defined(__AVR_ATmega2560__) || defined(__AVR_ATmega1280__) #define GPSUART Serial2 #elif defined(__AVR_ATmega644P__) #define GPSUART Serial1 #endif #ifdef GPSUART #define PMTK_SET_NMEA_UPDATE_1HZ "$PMTK220,1000*1F" #define PMTK_SET_NMEA_UPDATE_5HZ "$PMTK220,200*2C" #define PMTK_SET_NMEA_UPDATE_10HZ "$PMTK220,100*2F" #define PMTK_SET_NMEA_OUTPUT_ALLDATA "$PMTK314,1,1,1,1,1,1,0,0,0,0,0,0,0,0,0,0,0,0,0*28" #define PMTK_SET_BAUDRATE "$PMTK251,115200*1F" TinyGPS gps; #endif // GPSUART #endif LCD_ILI9325D lcd; /* for 2.8" TFT shield */ #define LCD_LINES 24 #define CHAR_WIDTH 9 #define RGB16(r,g,b) (((uint16_t)(r >> 3) << 11) | ((uint16_t)(g >> 2) << 5) | (b >> 2)) #define RGB16_RED 0xF800 #define RGB16_GREEN 0x7E0 #define RGB16_BLUE 0x1F #define RGB16_WHITE 0xFFFF static uint32_t lastFileSize = 0; static uint32_t lastDataTime = 0; static uint32_t lastGPSDataTime = 0; static uint16_t lastRefreshTime = 0; static uint16_t lastSpeed = -1; static int startDistance = 0; static uint16_t fileIndex = 0; static uint32_t startTime = 0; class COBDLogger : public COBD, public CDataLogger { public: COBDLogger():state(0) {} void setup() { lastGPSDataTime = 0; showStates(); if (MPU6050_init() == 0) state |= STATE_ACC_READY; showStates(); #ifdef GPSUART unsigned long t = millis(); do { if (GPSUART.available() && GPSUART.read() == '\r') { state |= STATE_GPS_CONNECTED; break; } } while (millis() - t <= 2000); #endif do { showStates(); } while (!init()); state |= STATE_OBD_READY; showStates(); //lcd.setFont(FONT_SIZE_MEDIUM); //lcd.setCursor(0, 14); //lcd.print("VIN: XXXXXXXX"); showECUCap(); readSensor(PID_DISTANCE, startDistance); // open file for logging if (!(state & STATE_SD_READY)) { if (checkSD()) { state |= STATE_SD_READY; showStates(); } } uint16_t flags = FLAG_CAR | FLAG_OBD; if (state & STATE_GPS_CONNECTED) flags |= FLAG_GPS; if (state & STATE_ACC_READY) flags |= FLAG_ACC; uint16_t index = openFile(LOG_TYPE_DEFAULT, flags); lcd.setCursor(0, 6); lcd.print("File ID:"); lcd.printInt(index); delay(5000); initScreen(); lastDataTime = millis(); lastRefreshTime = lastDataTime >> 10; } void loop() { static byte count = 0; byte dataCount; uint32_t t = millis(); logOBDData(PID_RPM); logOBDData(PID_SPEED); logOBDData(PID_THROTTLE); dataCount = 3; switch (count++) { case 0: case 128: logOBDData(PID_DISTANCE); dataCount++; break; case 32: logOBDData(PID_COOLANT_TEMP); dataCount++; break; case 64: logOBDData(PID_INTAKE_TEMP); dataCount++; break; case 160: if (isValidPID(PID_AMBIENT_TEMP)) { logOBDData(PID_AMBIENT_TEMP); dataCount++; } break; case 192: if (isValidPID(PID_BAROMETRIC)) { logOBDData(PID_BAROMETRIC); dataCount++; } break; } if ((count & 1) == 0) { logOBDData(PID_ENGINE_LOAD); dataCount++; } else { if (isValidPID(PID_INTAKE_MAP)) { logOBDData(PID_INTAKE_MAP); dataCount++; } else if (isValidPID(PID_MAF_FLOW)) { logOBDData(PID_MAF_FLOW); dataCount++; } } if (dataTime >> 10 != lastRefreshTime) { char buf[10]; unsigned int sec = (dataTime - startTime) / 1000; sprintf(buf, "%02u:%02u", sec / 60, sec % 60); lcd.setFont(FONT_SIZE_MEDIUM); lcd.setCursor(250, 2); lcd.print(buf); lcd.setCursor(250, 11); lcd.printInt((uint16_t)(dataTime - t) / dataCount); lcd.setFont(FONT_SIZE_SMALL); lcd.print(" ms"); dataCount = 0; lastRefreshTime = dataTime >> 10; } if (errors >= 3) { reconnect(); count = 0; } #ifdef GPSUART if (millis() - lastGPSDataTime > GPS_DATA_TIMEOUT || gps.satellites() < 3) { // GPS not ready state &= ~STATE_GPS_READY; } else { // GPS ready state |= STATE_GPS_READY; } #endif } bool checkSD() { Sd2Card card; SdVolume volume; state &= ~STATE_SD_READY; pinMode(SS, OUTPUT); lcd.setCursor(0, 4); if (card.init(SPI_HALF_SPEED, SD_CS_PIN)) { const char* type; char buf[20]; switch(card.type()) { case SD_CARD_TYPE_SD1: type = "SD1"; break; case SD_CARD_TYPE_SD2: type = "SD2"; break; case SD_CARD_TYPE_SDHC: type = "SDHC"; break; default: type = "SDx"; } lcd.print(type); lcd.write(' '); if (!volume.init(card)) { lcd.print("No FAT!"); return false; } uint32_t volumesize = volume.blocksPerCluster(); volumesize >>= 1; // 512 bytes per block volumesize *= volume.clusterCount(); volumesize >>= 10; sprintf(buf, "%dMB", (int)volumesize); lcd.print(buf); } else { lcd.print("No SD Card "); return false; } lcd.setCursor(0, 6); if (!SD.begin(SD_CS_PIN)) { lcd.print("Bad SD"); return false; } state |= STATE_SD_READY; return true; } private: void dataIdleLoop() { if (getState() == OBD_CONNECTED) { if (state & STATE_ACC_READY) processAccelerometer(); if (lastDataTime && GPSUART.available()) processGPS(); return; } // display while initializing char buf[10]; unsigned int t = (millis() - startTime) / 1000; sprintf(buf, "%02u:%02u", t / 60, t % 60); lcd.setFont(FONT_SIZE_SMALL); lcd.setCursor(0, 28); lcd.print(buf); #ifdef GPSUART // detect GPS signal if (GPSUART.available()) { char c = GPSUART.read(); if (gps.encode(c)) { state |= STATE_GPS_READY; lastGPSDataTime = millis(); unsigned long date, time; gps.get_datetime(&date, &time, 0); long lat, lon; gps.get_position(&lat, &lon, 0); lcd.setCursor(0, 14); lcd.print("Time:"); lcd.print(time); lcd.setCursor(0, 16); lcd.print("LAT: "); lcd.print(lat); lcd.setCursor(0, 18); lcd.print("LON: "); lcd.println(lon); } } #endif } #ifdef GPSUART void processGPS() { // process GPS data char c = GPSUART.read(); if (!gps.encode(c)) return; // parsed GPS data is ready static uint32_t lastAltTime = 0; uint32_t time; uint32_t date; dataTime = millis(); gps.get_datetime(&date, &time, 0); logData(PID_GPS_TIME, time, date); uint32_t speed = gps.speed() * 1852 / 100; logData(PID_GPS_SPEED, speed); // no need to log GPS data when vehicle has not been moving // that's when previous speed is zero and current speed is also zero byte sat = gps.satellites(); if (sat >= 3 && sat < 100) { // lastSpeed will be updated //ShowSensorData(PID_SPEED, speed); long lat, lon; gps.get_position(&lat, &lon, 0); logData(PID_GPS_COORDINATES, (float)lat / 100000, (float)lon / 100000); if (dataTime - lastAltTime > 10000) { logData(PID_GPS_ALTITUDE, (float)gps.altitude()); } lcd.setFont(FONT_SIZE_MEDIUM); char buf[16]; sprintf(buf, "%d.%ld", (int)(lat / 100000), abs(lat) % 100000); lcd.setCursor(50, 18); lcd.print(buf); sprintf(buf, "%d.%ld", (int)(lon / 100000), abs(lon) % 100000); lcd.setCursor(50, 21); lcd.print(buf); int32_t alt = gps.altitude(); if (alt < 1000000) { sprintf(buf, "%dm ", (int)(alt / 100)); lcd.setCursor(50, 24); lcd.print(buf); } lcd.setCursor(50, 27); lcd.printInt(gps.satellites()); } lastGPSDataTime = dataTime; } #endif void processAccelerometer() { char buf[20]; accel_t_gyro_union data; MPU6050_readout(&data); dataTime = millis(); lcd.setFont(FONT_SIZE_SMALL); sprintf(buf, "%3d", data.value.x_accel / 160); lcd.setCursor(197, 21); lcd.print(buf); sprintf(buf, "%3d", data.value.y_accel / 160); lcd.setCursor(239, 21); lcd.print(buf); sprintf(buf, "%3d", data.value.z_accel / 160); lcd.setCursor(281, 21); lcd.print(buf); sprintf(buf, "%3d", data.value.x_gyro / 256); lcd.setCursor(197, 26); lcd.print(buf); sprintf(buf, "%3d", data.value.y_gyro / 256); lcd.setCursor(239, 26); lcd.print(buf); sprintf(buf, "%3d", data.value.z_gyro / 256); lcd.setCursor(281, 26); lcd.print(buf); // log x/y/z of accelerometer logData(PID_ACC, data.value.x_accel, data.value.y_accel, data.value.z_accel); // log x/y/z of gyro meter logData(PID_GYRO, data.value.x_gyro, data.value.y_gyro, data.value.z_gyro); } void logOBDData(byte pid) { char buffer[OBD_RECV_BUF_SIZE]; int value; uint32_t start = millis(); if (!readSensor(pid, value)) return; dataTime = millis(); // display data showSensorData(pid, value); // log data to SD card logData(0x100 | pid, value); // flush SD data every 1KB if (dataSize - lastFileSize >= 1024) { flushFile(); // display logged data size lcd.setFont(FONT_SIZE_MEDIUM); lcd.setCursor(250, 8); lcd.printInt((unsigned int)(dataSize >> 10)); lcd.setFont(FONT_SIZE_SMALL); lcd.print(" KB"); lastFileSize = dataSize; } // if OBD response is very fast, go on processing other data for a while #ifdef OBD_MIN_INTERVAL while (millis() - start < OBD_MIN_INTERVAL) { dataIdleLoop(); } #endif } void showECUCap() { byte pidlist[] = {PID_RPM, PID_SPEED, PID_THROTTLE, PID_ENGINE_LOAD, PID_MAF_FLOW, PID_INTAKE_MAP, PID_FUEL_LEVEL, PID_FUEL_PRESSURE, PID_COOLANT_TEMP, PID_INTAKE_TEMP, PID_AMBIENT_TEMP, PID_TIMING_ADVANCE, PID_BAROMETRIC}; const char* namelist[] = {"ENGINE RPM", "SPEED", "THROTTLE", "ENGINE LOAD", "MAF", "MAP", "FUEL LEVEL", "FUEL PRESSURE", "COOLANT TEMP", "INTAKE TEMP","AMBIENT TEMP", "IGNITION TIMING", "BAROMETER"}; lcd.setFont(FONT_SIZE_MEDIUM); for (byte i = 0; i < sizeof(pidlist) / sizeof(pidlist[0]); i++) { lcd.setCursor(160, i * 2 + 4); lcd.print(namelist[i]); } for (byte i = 0; i < sizeof(pidlist) / sizeof(pidlist[0]); i++) { bool valid = isValidPID(pidlist[i]); lcd.setColor(valid ? RGB16_GREEN : RGB16_RED); lcd.draw(valid ? tick : cross, 304, i * 16 + 32, 16, 16); } lcd.setColor(RGB16_WHITE); } void reconnect() { closeFile(); lcd.clear(); lcd.setFont(FONT_SIZE_MEDIUM); lcd.print("Reconnecting..."); state &= ~(STATE_OBD_READY | STATE_ACC_READY | STATE_DATE_SAVED); //digitalWrite(SD_CS_PIN, LOW); for (int i = 0; !init(); i++) { if (i == 10) lcd.clear(); } fileIndex++; write('\r'); setup(); } byte state; // screen layout related stuff void showStates() { lcd.setFont(FONT_SIZE_MEDIUM); lcd.setCursor(0, 8); lcd.print("OBD"); lcd.setColor((state & STATE_OBD_READY) ? RGB16_GREEN : RGB16_RED); lcd.draw((state & STATE_OBD_READY) ? tick : cross, 36, 64, 16, 16); lcd.setColor(RGB16_WHITE); lcd.setCursor(0, 10); lcd.print("ACC"); lcd.setColor((state & STATE_ACC_READY) ? RGB16_GREEN : RGB16_RED); lcd.draw((state & STATE_ACC_READY) ? tick : cross, 36, 80, 16, 16); lcd.setColor(RGB16_WHITE); lcd.setCursor(0, 12); lcd.print("GPS"); if (state & STATE_GPS_READY) { lcd.setColor(RGB16_GREEN); lcd.draw(tick, 36, 96, 16, 16); } else if (state & STATE_GPS_CONNECTED) lcd.print(" --"); else { lcd.setColor(RGB16_RED); lcd.draw(cross, 36, 96, 16, 16); } lcd.setColor(RGB16_WHITE); } void showSensorData(byte pid, int value) { char buf[8]; switch (pid) { case PID_RPM: lcd.setFont(FONT_SIZE_XLARGE); lcd.setCursor(34, 7); lcd.printInt((unsigned int)value % 10000, 4); break; case PID_SPEED: if (lastSpeed != value) { lcd.setFont(FONT_SIZE_XLARGE); lcd.setCursor(50, 2); lcd.printInt((unsigned int)value % 1000, 3); lastSpeed = value; } break; case PID_THROTTLE: lcd.setFont(FONT_SIZE_SMALL); lcd.setCursor(39, 12); lcd.printInt(value % 100, 3); break; case PID_INTAKE_TEMP: lcd.setFont(FONT_SIZE_SMALL); lcd.setCursor(102, 12); lcd.printInt(value % 1000, 3); break; case PID_DISTANCE: if ((unsigned int)value >= startDistance) { lcd.setFont(FONT_SIZE_MEDIUM); lcd.setCursor(250, 5); lcd.printInt(((unsigned int)value - startDistance) % 1000); lcd.setFont(FONT_SIZE_SMALL); lcd.print(" km"); } break; } } void initScreen() { lcd.clear(); lcd.draw2x(frame0[0], 0, 0, 78, 58); lcd.draw2x(frame0[0], 164, 0, 78, 58); lcd.draw2x(frame0[0], 0, 124, 78, 58); lcd.draw2x(frame0[0], 164, 124, 78, 58); //lcd.setColor(RGB16(0x7f, 0x7f, 0x7f)); lcd.setFont(FONT_SIZE_SMALL); lcd.setCursor(110, 4); lcd.print("km/h"); lcd.setCursor(110, 8); lcd.print("rpm"); lcd.setCursor(15, 12); lcd.print("THR: %"); lcd.setCursor(78, 12); lcd.print("AIR: C"); //lcd.setFont(FONT_SIZE_MEDIUM); lcd.setCursor(185, 2); lcd.print("ELAPSED:"); lcd.setCursor(185, 5); lcd.print("DISTANCE:"); lcd.setCursor(185, 8); lcd.print("LOG SIZE:"); lcd.setCursor(185, 11); lcd.print("OBD TIME:"); lcd.setCursor(20, 18); lcd.print("LAT:"); lcd.setCursor(20, 21); lcd.print("LON:"); lcd.setCursor(20, 24); lcd.print("ALT:"); lcd.setCursor(20, 27); lcd.print("SAT:"); lcd.setFont(FONT_SIZE_MEDIUM); lcd.setCursor(185, 18); lcd.print("Accelerometer"); lcd.setCursor(200, 23); lcd.print("Gyroscope"); lcd.setFont(FONT_SIZE_SMALL); lcd.setCursor(185, 21); lcd.print("X: Y: Z:"); lcd.setCursor(185, 26); lcd.print("X: Y: Z:"); //lcd.setColor(0xFFFF); /* lcd.setCursor(32, 4); lcd.print("%"); lcd.setCursor(68, 5); lcd.print("Intake Air"); lcd.setCursor(112, 4); lcd.print("C"); */ } }; static COBDLogger logger; void setup() { #ifdef GPSUART #ifdef GPS_OPEN_BAUDRATE GPSUART.begin(GPS_OPEN_BAUDRATE); delay(10); GPSUART.println(PMTK_SET_BAUDRATE); GPSUART.end(); #endif GPSUART.begin(GPS_BAUDRATE); // switching to 10Hz mode, effective only for MTK3329 //GPSUART.println(PMTK_SET_NMEA_OUTPUT_ALLDATA); GPSUART.println(PMTK_SET_NMEA_UPDATE_10HZ); #endif Wire.begin(); delay(200); lcd.begin(); logger.begin(); logger.initSender(); //lcd.clear(); lcd.setLineHeight(8); lcd.setFont(FONT_SIZE_MEDIUM); lcd.backlight(true); lcd.setColor(0xFFE0); lcd.print("MEGA LOGGER - OBD-II/GPS/G-FORCE"); lcd.setColor(0xFFFF); logger.checkSD(); logger.setup(); } void loop() { logger.loop(); }