#include "Debug.h" #include "Flash.h" #include "Positions.h" #define MENU_ENTRY(name, text) const char MENU_##name[] PROGMEM = text const char FAKE_GPS_ENTRY[] PROGMEM = "1,1,20170924074842.000,49.454862,1.144537,71.900,67.99,172.6,1,,1.3,2.2,1.8,,11,7,,,37,,"; MENU_ENTRY(HEADER, "-- Debug Menu --"); MENU_ENTRY(SEPARATOR, "----"); MENU_ENTRY(RUN, "[R] Run"); MENU_ENTRY(RUN_ONCE, "[r] Run once"); MENU_ENTRY(RAM, "[f] Free RAM"); MENU_ENTRY(READ_BATTERY, "[b] Read battery"); MENU_ENTRY(GPS_ON, "[G] GPS On"); MENU_ENTRY(GPS_OFF, "[g] GPS Off"); MENU_ENTRY(GPS_GET, "[L] Get GPS position"); MENU_ENTRY(GPS_SET, "[l] Set last GPS position"); MENU_ENTRY(RTC_SET, "[T] Get RTC time"); MENU_ENTRY(RTC_GET, "[t] Set RTC time"); MENU_ENTRY(SD_WRITE_TEST, "[W] Write to test file"); MENU_ENTRY(EEPROM_GET_CONFIG, "[S] Get EEPROM config"); MENU_ENTRY(EEPROM_RESET_CONFIG, "[s] Reset EEPROM config"); MENU_ENTRY(EEPROM_GET_CONTENT, "[C] Get EEPROM content"); MENU_ENTRY(EEPROM_GET_ENTRIES, "[P] Get EEPROM entries"); MENU_ENTRY(EEPROM_GET_LAST_ENTRY, "[p] Get EEPROM last entry"); MENU_ENTRY(EEPROM_ADD_ENTRY, "[a] Add last entry to EEPROM"); MENU_ENTRY(QUESTION, "?"); const PROGMEM uint8_t commandIdMapping[] = { 'R', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::RUN), 'r', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::ONCE), 'f', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::RAM), 'b', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::BATTERY), 'G', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::GPS_ON), 'g', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::GPS_OFF), 'L', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::GPS_GET), 'l', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::GPS_SET), 'T', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::RTC_GET), 't', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::RTC_SET), 'W', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::SD_WRITE_TEST), 'S', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::EEPROM_GET_CONFIG), 's', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::EEPROM_RESET_CONFIG), 'C', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::EEPROM_GET_CONTENT), 'P', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::EEPROM_GET_ENTRIES), 'p', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::EEPROM_GET_LAST_ENTRY), 'a', static_cast(debug::GPSTRACKER_DEBUG_COMMAND::EEPROM_ADD_ENTRY), }; const char * const MENU_ENTRIES[] PROGMEM = { MENU_HEADER, MENU_RUN, MENU_RUN_ONCE, MENU_SEPARATOR, MENU_RAM, MENU_READ_BATTERY, MENU_SEPARATOR, MENU_GPS_ON, MENU_GPS_OFF, MENU_GPS_GET, MENU_GPS_SET, MENU_SEPARATOR, MENU_RTC_SET, MENU_RTC_GET, MENU_SEPARATOR, MENU_SD_WRITE_TEST, MENU_SEPARATOR, MENU_EEPROM_GET_CONFIG, MENU_EEPROM_RESET_CONFIG, MENU_EEPROM_GET_CONTENT, MENU_EEPROM_GET_ENTRIES, MENU_EEPROM_GET_LAST_ENTRY, MENU_EEPROM_ADD_ENTRY, MENU_QUESTION }; int freeRam2() { // dirty hack because putting it in namespace doesn't compile extern int __heap_start, *__brkval; int v; return (int)&v - (__brkval == 0 ? (int)&__heap_start : (int)__brkval); } namespace debug { namespace details { inline void displayPosition(PositionEntry entry) { Log.notice(F("%d%%, %dmV, %d, %s\n"), entry.battery.level, entry.battery.voltage, entry.status, entry.position); } } void waitForSerial() { while (!Serial); Serial.begin(DEBUG_SERIAL_SPEED); Serial.println("Starting !"); } int freeRam() { return freeRam2(); } GPSTRACKER_DEBUG_COMMAND parseCommand(char id) { size_t mappingArraySize = flash::getArraySize(commandIdMapping); char commandId; for (uint8_t i = 0; i < mappingArraySize; i += 2) { commandId = pgm_read_byte_near(commandIdMapping + i); if (commandId == id) return static_cast(pgm_read_byte_near(commandIdMapping + i + 1)); } return GPSTRACKER_DEBUG_COMMAND::NONE; } GPSTRACKER_DEBUG_COMMAND menu() { if (!Serial) return GPSTRACKER_DEBUG_COMMAND::RUN; GPSTRACKER_DEBUG_COMMAND command; size_t menuSize = flash::getArraySize(MENU_ENTRIES); do { for (uint8_t i = 0; i < menuSize; i++) { Serial.println(reinterpret_cast(pgm_read_word_near(&MENU_ENTRIES[i]))); } while (!Serial.available()); command = parseCommand(Serial.read()); while (Serial.available()) Serial.read(); } while (command == GPSTRACKER_DEBUG_COMMAND::NONE); return command; } void getAndDisplayGpsPosition() { SIM808_GPS_STATUS gpsStatus = gps::acquireCurrentPosition(GPS_DEFAULT_TOTAL_TIMEOUT_MS); Log.notice(F("%d %s\n"), gpsStatus, gps::lastPosition); } void setFakeGpsPosition() { strlcpy_P(gps::lastPosition, FAKE_GPS_ENTRY, GPS_POSITION_SIZE); Log.notice(F("Last position set to : %s\n"), gps::lastPosition); } void getAndDisplayBattery() { hardware::sim808::powerOn(); SIM808ChargingStatus status = hardware::sim808::device.getChargingState(); hardware::sim808::powerOff(); Log.notice(F("%d %d%% %dmV\n"), status.state, status.level, status.voltage); } void getAndDisplayRtcTime() { tmElements_t time; rtc::getTime(time); Log.notice(F("%d/%d/%d %d:%d:%d\n"), tmYearToCalendar(time.Year), time.Month, time.Day, time.Hour, time.Minute, time.Second); } void getAndDisplayEepromConfig() { config::read(); } void getAndDisplayEepromContent() { char buffer[128]; hardware::i2c::eepromPowerOn(); for (int i = 0; i < 8; i++) { hardware::i2c::eeprom.read(128 * i, buffer, 128); for (int i = 0; i < 128; i++) { Serial.print(buffer[i], HEX); } } Serial.println(); hardware::i2c::eepromPowerOff(); Log.notice("Done\n"); } void getAndDisplayEepromPositions() { uint16_t currentEntryIndex = config::value.firstEntry; PositionEntry currentEntry; do { if (!positions::get(currentEntryIndex, currentEntry)) break; details::displayPosition(currentEntry); } while (positions::moveNext(currentEntryIndex)); } void getAndDisplayEepromLastPosition() { uint16_t lastEntryIndex = config::value.lastEntry; PositionEntry lastEntry; positions::get(lastEntryIndex, lastEntry); details::displayPosition(lastEntry); } void addLastPositionToEeprom() { hardware::sim808::powerOn(); SIM808ChargingStatus status = hardware::sim808::device.getChargingState(); hardware::sim808::powerOff(); positions::appendLast(status, SIM808_GPS_STATUS::OFF); } void setRtcTime() { tmElements_t time; gps::getTime(time); rtc::setTime(time); Log.notice(F("OK\n")); } }