#include #include #include #include #include #include #include /* _____ _____ _____ _____ _____ |_ _|___ ___| | | | | | | | | | . | | | |- -| | | | | | |_| |___|_|_|_____|_____|_|___|_____| TonUINO Version 2.1 created by Thorsten Voß and licensed under GNU/GPL. Information and contribution at https://tonuino.de. */ // uncomment the below line to enable five button support //#define FIVEBUTTONS static const uint32_t cardCookie = 322417479; // DFPlayer Mini SoftwareSerial mySoftwareSerial(2, 3); // RX, TX uint16_t numTracksInFolder; uint16_t currentTrack; uint16_t firstTrack; uint8_t queue[255]; uint8_t volume; struct folderSettings { uint8_t folder; uint8_t mode; uint8_t special; uint8_t special2; }; // this object stores nfc tag data struct nfcTagObject { uint32_t cookie; uint8_t version; folderSettings nfcFolderSettings; // uint8_t folder; // uint8_t mode; // uint8_t special; // uint8_t special2; }; // admin settings stored in eeprom struct adminSettings { uint32_t cookie; byte version; uint8_t maxVolume; uint8_t minVolume; uint8_t initVolume; uint8_t eq; bool locked; long standbyTimer; bool invertVolumeButtons; folderSettings shortCuts[4]; uint8_t adminMenuLocked; uint8_t adminMenuPin[4]; }; adminSettings mySettings; nfcTagObject myCard; folderSettings *myFolder; unsigned long sleepAtMillis = 0; static uint16_t _lastTrackFinished; static void nextTrack(uint16_t track); uint8_t voiceMenu(int numberOfOptions, int startMessage, int messageOffset, bool preview = false, int previewFromFolder = 0, int defaultValue = 0, bool exitWithLongPress = false); bool isPlaying(); bool checkTwo ( uint8_t a[], uint8_t b[] ); void writeCard(nfcTagObject nfcTag); void dump_byte_array(byte * buffer, byte bufferSize); void adminMenu(bool fromCard = false); bool knownCard = false; // implement a notification class, // its member methods will get called // class Mp3Notify { public: static void OnError(uint16_t errorCode) { // see DfMp3_Error for code meaning Serial.println(); Serial.print("Com Error "); Serial.println(errorCode); } static void PrintlnSourceAction(DfMp3_PlaySources source, const char* action) { if (source & DfMp3_PlaySources_Sd) Serial.print("SD Karte "); if (source & DfMp3_PlaySources_Usb) Serial.print("USB "); if (source & DfMp3_PlaySources_Flash) Serial.print("Flash "); Serial.println(action); } static void OnPlayFinished(DfMp3_PlaySources source, uint16_t track) { // Serial.print("Track beendet"); // Serial.println(track); // delay(100); nextTrack(track); } static void OnPlaySourceOnline(DfMp3_PlaySources source) { PrintlnSourceAction(source, "online"); } static void OnPlaySourceInserted(DfMp3_PlaySources source) { PrintlnSourceAction(source, "bereit"); } static void OnPlaySourceRemoved(DfMp3_PlaySources source) { PrintlnSourceAction(source, "entfernt"); } }; static DFMiniMp3 mp3(mySoftwareSerial); void shuffleQueue() { // Queue für die Zufallswiedergabe erstellen for (uint8_t x = 0; x < numTracksInFolder - firstTrack + 1; x++) queue[x] = x + firstTrack; // Rest mit 0 auffüllen for (uint8_t x = numTracksInFolder - firstTrack + 1; x < 255; x++) queue[x] = 0; // Queue mischen for (uint8_t i = 0; i < numTracksInFolder - firstTrack + 1; i++) { uint8_t j = random (0, numTracksInFolder - firstTrack + 1); uint8_t t = queue[i]; queue[i] = queue[j]; queue[j] = t; } /* Serial.println(F("Queue :")); for (uint8_t x = 0; x < numTracksInFolder - firstTrack + 1 ; x++) Serial.println(queue[x]); */ } void writeSettingsToFlash() { Serial.println(F("=== writeSettingsToFlash()")); int address = sizeof(myFolder->folder) * 100; EEPROM.put(address, mySettings); } void resetSettings() { Serial.println(F("=== resetSettings()")); mySettings.cookie = cardCookie; mySettings.version = 2; mySettings.maxVolume = 25; mySettings.minVolume = 5; mySettings.initVolume = 15; mySettings.eq = 1; mySettings.locked = false; mySettings.standbyTimer = 0; mySettings.invertVolumeButtons = true; mySettings.shortCuts[0].folder = 0; mySettings.shortCuts[1].folder = 0; mySettings.shortCuts[2].folder = 0; mySettings.shortCuts[3].folder = 0; mySettings.adminMenuLocked = 0; mySettings.adminMenuPin[0] = 1; mySettings.adminMenuPin[1] = 1; mySettings.adminMenuPin[2] = 1; mySettings.adminMenuPin[3] = 1; writeSettingsToFlash(); } void migrateSettings(int oldVersion) { if (oldVersion == 1) { Serial.println(F("=== resetSettings()")); Serial.println(F("1 -> 2")); mySettings.version = 2; mySettings.adminMenuLocked = 0; mySettings.adminMenuPin[0] = 1; mySettings.adminMenuPin[1] = 1; mySettings.adminMenuPin[2] = 1; mySettings.adminMenuPin[3] = 1; writeSettingsToFlash(); } } void loadSettingsFromFlash() { Serial.println(F("=== loadSettingsFromFlash()")); int address = sizeof(myFolder->folder) * 100; EEPROM.get(address, mySettings); if (mySettings.cookie != cardCookie) resetSettings(); migrateSettings(mySettings.version); Serial.print(F("Version: ")); Serial.println(mySettings.version); Serial.print(F("Maximal Volume: ")); Serial.println(mySettings.maxVolume); Serial.print(F("Minimal Volume: ")); Serial.println(mySettings.minVolume); Serial.print(F("Initial Volume: ")); Serial.println(mySettings.initVolume); Serial.print(F("EQ: ")); Serial.println(mySettings.eq); Serial.print(F("Locked: ")); Serial.println(mySettings.locked); Serial.print(F("Sleep Timer: ")); Serial.println(mySettings.standbyTimer); Serial.print(F("Inverted Volume Buttons: ")); Serial.println(mySettings.invertVolumeButtons); Serial.print(F("Admin Menu locked: ")); Serial.println(mySettings.adminMenuLocked); Serial.print(F("Admin Menu Pin: ")); Serial.print(mySettings.adminMenuPin[0]); Serial.print(mySettings.adminMenuPin[1]); Serial.print(mySettings.adminMenuPin[2]); Serial.println(mySettings.adminMenuPin[3]); } class Modifier { public: virtual void loop() {} virtual bool handlePause() { return false; } virtual bool handleNext() { return false; } virtual bool handlePrevious() { return false; } virtual bool handleNextButton() { return false; } virtual bool handlePreviousButton() { return false; } virtual bool handleVolumeUp() { return false; } virtual bool handleVolumeDown() { return false; } virtual bool handleRFID(nfcTagObject *newCard) { return false; } virtual uint8_t getActive() { return 0; } Modifier() { } }; Modifier *activeModifier = NULL; class SleepTimer: public Modifier { private: unsigned long sleepAtMillis = 0; public: void loop() { if (this->sleepAtMillis != 0 && millis() > this->sleepAtMillis) { Serial.println(F("=== SleepTimer::loop() -> SLEEP!")); mp3.pause(); setstandbyTimer(); activeModifier = NULL; delete this; } } SleepTimer(uint8_t minutes) { Serial.println(F("=== SleepTimer()")); Serial.println(minutes); this->sleepAtMillis = millis() + minutes * 60000; // if (isPlaying()) // mp3.playAdvertisement(302); // delay(500); } uint8_t getActive() { Serial.println(F("== SleepTimer::getActive()")); return 1; } }; class FreezeDance: public Modifier { private: unsigned long nextStopAtMillis = 0; const uint8_t minSecondsBetweenStops = 5; const uint8_t maxSecondsBetweenStops = 30; void setNextStopAtMillis() { uint16_t seconds = random(this->minSecondsBetweenStops, this->maxSecondsBetweenStops + 1); Serial.println(F("=== FreezeDance::setNextStopAtMillis()")); Serial.println(seconds); this->nextStopAtMillis = millis() + seconds * 1000; } public: void loop() { if (this->nextStopAtMillis != 0 && millis() > this->nextStopAtMillis) { Serial.println(F("== FreezeDance::loop() -> FREEZE!")); if (isPlaying()) { mp3.playAdvertisement(301); delay(500); } setNextStopAtMillis(); } } FreezeDance(void) { Serial.println(F("=== FreezeDance()")); if (isPlaying()) { delay(1000); mp3.playAdvertisement(300); delay(500); } setNextStopAtMillis(); } uint8_t getActive() { Serial.println(F("== FreezeDance::getActive()")); return 2; } }; class Locked: public Modifier { public: virtual bool handlePause() { Serial.println(F("== Locked::handlePause() -> LOCKED!")); return true; } virtual bool handleNextButton() { Serial.println(F("== Locked::handleNextButton() -> LOCKED!")); return true; } virtual bool handlePreviousButton() { Serial.println(F("== Locked::handlePreviousButton() -> LOCKED!")); return true; } virtual bool handleVolumeUp() { Serial.println(F("== Locked::handleVolumeUp() -> LOCKED!")); return true; } virtual bool handleVolumeDown() { Serial.println(F("== Locked::handleVolumeDown() -> LOCKED!")); return true; } virtual bool handleRFID(nfcTagObject *newCard) { Serial.println(F("== Locked::handleRFID() -> LOCKED!")); return true; } Locked(void) { Serial.println(F("=== Locked()")); // if (isPlaying()) // mp3.playAdvertisement(303); } uint8_t getActive() { return 3; } }; class ToddlerMode: public Modifier { public: virtual bool handlePause() { Serial.println(F("== ToddlerMode::handlePause() -> LOCKED!")); return true; } virtual bool handleNextButton() { Serial.println(F("== ToddlerMode::handleNextButton() -> LOCKED!")); return true; } virtual bool handlePreviousButton() { Serial.println(F("== ToddlerMode::handlePreviousButton() -> LOCKED!")); return true; } virtual bool handleVolumeUp() { Serial.println(F("== ToddlerMode::handleVolumeUp() -> LOCKED!")); return true; } virtual bool handleVolumeDown() { Serial.println(F("== ToddlerMode::handleVolumeDown() -> LOCKED!")); return true; } ToddlerMode(void) { Serial.println(F("=== ToddlerMode()")); // if (isPlaying()) // mp3.playAdvertisement(304); } uint8_t getActive() { Serial.println(F("== ToddlerMode::getActive()")); return 4; } }; class KindergardenMode: public Modifier { private: nfcTagObject nextCard; bool cardQueued = false; public: virtual bool handleNext() { Serial.println(F("== KindergardenMode::handleNext() -> NEXT")); //if (this->nextCard.cookie == cardCookie && this->nextCard.nfcFolderSettings.folder != 0 && this->nextCard.nfcFolderSettings.mode != 0) { //myFolder = &this->nextCard.nfcFolderSettings; if (this->cardQueued == true) { this->cardQueued = false; myCard = nextCard; myFolder = &myCard.nfcFolderSettings; Serial.println(myFolder->folder); Serial.println(myFolder->mode); playFolder(); return true; } return false; } // virtual bool handlePause() { // Serial.println(F("== KindergardenMode::handlePause() -> LOCKED!")); // return true; // } virtual bool handleNextButton() { Serial.println(F("== KindergardenMode::handleNextButton() -> LOCKED!")); return true; } virtual bool handlePreviousButton() { Serial.println(F("== KindergardenMode::handlePreviousButton() -> LOCKED!")); return true; } virtual bool handleRFID(nfcTagObject * newCard) { // lot of work to do! Serial.println(F("== KindergardenMode::handleRFID() -> queued!")); this->nextCard = *newCard; this->cardQueued = true; if (!isPlaying()) { handleNext(); } return true; } KindergardenMode() { Serial.println(F("=== KindergardenMode()")); // if (isPlaying()) // mp3.playAdvertisement(305); // delay(500); } uint8_t getActive() { Serial.println(F("== KindergardenMode::getActive()")); return 5; } }; class RepeatSingleModifier: public Modifier { public: virtual bool handleNext() { Serial.println(F("== RepeatSingleModifier::handleNext() -> REPEAT CURRENT TRACK")); delay(50); if (isPlaying()) return true; if (myFolder->mode == 3 || myFolder->mode == 9){ mp3.playFolderTrack(myFolder->folder, queue[currentTrack - 1]); } else{ mp3.playFolderTrack(myFolder->folder, currentTrack); } _lastTrackFinished = 0; return true; } RepeatSingleModifier() { Serial.println(F("=== RepeatSingleModifier()")); } uint8_t getActive() { Serial.println(F("== RepeatSingleModifier::getActive()")); return 6; } }; // An modifier can also do somethings in addition to the modified action // by returning false (not handled) at the end // This simple FeedbackModifier will tell the volume before changing it and // give some feedback once a RFID card is detected. class FeedbackModifier: public Modifier { public: virtual bool handleVolumeDown() { if (volume > mySettings.minVolume) { mp3.playAdvertisement(volume - 1); } else { mp3.playAdvertisement(volume); } delay(500); Serial.println(F("== FeedbackModifier::handleVolumeDown()!")); return false; } virtual bool handleVolumeUp() { if (volume < mySettings.maxVolume) { mp3.playAdvertisement(volume + 1); } else { mp3.playAdvertisement(volume); } delay(500); Serial.println(F("== FeedbackModifier::handleVolumeUp()!")); return false; } virtual bool handleRFID(nfcTagObject *newCard) { Serial.println(F("== FeedbackModifier::handleRFID()")); return false; } }; // Leider kann das Modul selbst keine Queue abspielen, daher müssen wir selbst die Queue verwalten static void nextTrack(uint16_t track) { Serial.println(track); if (activeModifier != NULL) if (activeModifier->handleNext() == true) return; if (track == _lastTrackFinished) { return; } _lastTrackFinished = track; if (knownCard == false) // Wenn eine neue Karte angelernt wird soll das Ende eines Tracks nicht // verarbeitet werden return; Serial.println(F("=== nextTrack()")); if (myFolder->mode == 1 || myFolder->mode == 7) { Serial.println(F("Hörspielmodus ist aktiv -> keinen neuen Track spielen")); setstandbyTimer(); // mp3.sleep(); // Je nach Modul kommt es nicht mehr zurück aus dem Sleep! } if (myFolder->mode == 2 || myFolder->mode == 8) { if (currentTrack != numTracksInFolder) { currentTrack = currentTrack + 1; mp3.playFolderTrack(myFolder->folder, currentTrack); Serial.print(F("Albummodus ist aktiv -> nächster Track: ")); Serial.print(currentTrack); } else // mp3.sleep(); // Je nach Modul kommt es nicht mehr zurück aus dem Sleep! setstandbyTimer(); { } } if (myFolder->mode == 3 || myFolder->mode == 9) { if (currentTrack != numTracksInFolder - firstTrack + 1) { Serial.print(F("Party -> weiter in der Queue ")); currentTrack++; } else { Serial.println(F("Ende der Queue -> beginne von vorne")); currentTrack = 1; //// Wenn am Ende der Queue neu gemischt werden soll bitte die Zeilen wieder aktivieren // Serial.println(F("Ende der Queue -> mische neu")); // shuffleQueue(); } Serial.println(queue[currentTrack - 1]); mp3.playFolderTrack(myFolder->folder, queue[currentTrack - 1]); } if (myFolder->mode == 4) { Serial.println(F("Einzel Modus aktiv -> Strom sparen")); // mp3.sleep(); // Je nach Modul kommt es nicht mehr zurück aus dem Sleep! setstandbyTimer(); } if (myFolder->mode == 5) { if (currentTrack != numTracksInFolder) { currentTrack = currentTrack + 1; Serial.print(F("Hörbuch Modus ist aktiv -> nächster Track und " "Fortschritt speichern")); Serial.println(currentTrack); mp3.playFolderTrack(myFolder->folder, currentTrack); // Fortschritt im EEPROM abspeichern EEPROM.update(myFolder->folder, currentTrack); } else { // mp3.sleep(); // Je nach Modul kommt es nicht mehr zurück aus dem Sleep! // Fortschritt zurück setzen EEPROM.update(myFolder->folder, 1); setstandbyTimer(); } } delay(500); } static void previousTrack() { Serial.println(F("=== previousTrack()")); /* if (myCard.mode == 1 || myCard.mode == 7) { Serial.println(F("Hörspielmodus ist aktiv -> Track von vorne spielen")); mp3.playFolderTrack(myCard.folder, currentTrack); }*/ if (myFolder->mode == 2 || myFolder->mode == 8) { Serial.println(F("Albummodus ist aktiv -> vorheriger Track")); if (currentTrack != firstTrack) { currentTrack = currentTrack - 1; } mp3.playFolderTrack(myFolder->folder, currentTrack); } if (myFolder->mode == 3 || myFolder->mode == 9) { if (currentTrack != 1) { Serial.print(F("Party Modus ist aktiv -> zurück in der Qeueue ")); currentTrack--; } else { Serial.print(F("Anfang der Queue -> springe ans Ende ")); currentTrack = numTracksInFolder; } Serial.println(queue[currentTrack - 1]); mp3.playFolderTrack(myFolder->folder, queue[currentTrack - 1]); } if (myFolder->mode == 4) { Serial.println(F("Einzel Modus aktiv -> Track von vorne spielen")); mp3.playFolderTrack(myFolder->folder, currentTrack); } if (myFolder->mode == 5) { Serial.println(F("Hörbuch Modus ist aktiv -> vorheriger Track und " "Fortschritt speichern")); if (currentTrack != 1) { currentTrack = currentTrack - 1; } mp3.playFolderTrack(myFolder->folder, currentTrack); // Fortschritt im EEPROM abspeichern EEPROM.update(myFolder->folder, currentTrack); } delay(1000); } // MFRC522 #define RST_PIN 9 // Configurable, see typical pin layout above #define SS_PIN 10 // Configurable, see typical pin layout above MFRC522 mfrc522(SS_PIN, RST_PIN); // Create MFRC522 MFRC522::MIFARE_Key key; bool successRead; byte sector = 1; byte blockAddr = 4; byte trailerBlock = 7; MFRC522::StatusCode status; #define buttonPause A0 #define buttonUp A1 #define buttonDown A2 #define busyPin 4 #define shutdownPin 7 #define openAnalogPin A7 #ifdef FIVEBUTTONS #define buttonFourPin A3 #define buttonFivePin A4 #endif #define LONG_PRESS 1000 Button pauseButton(buttonPause); Button upButton(buttonUp); Button downButton(buttonDown); #ifdef FIVEBUTTONS Button buttonFour(buttonFourPin); Button buttonFive(buttonFivePin); #endif bool ignorePauseButton = false; bool ignoreUpButton = false; bool ignoreDownButton = false; #ifdef FIVEBUTTONS bool ignoreButtonFour = false; bool ignoreButtonFive = false; #endif /// Funktionen für den Standby Timer (z.B. über Pololu-Switch oder Mosfet) void setstandbyTimer() { Serial.println(F("=== setstandbyTimer()")); if (mySettings.standbyTimer != 0) sleepAtMillis = millis() + (mySettings.standbyTimer * 60 * 1000); else sleepAtMillis = 0; Serial.println(sleepAtMillis); } void disablestandbyTimer() { Serial.println(F("=== disablestandby()")); sleepAtMillis = 0; } void checkStandbyAtMillis() { if (sleepAtMillis != 0 && millis() > sleepAtMillis) { Serial.println(F("=== power off!")); // enter sleep state digitalWrite(shutdownPin, HIGH); delay(500); // http://discourse.voss.earth/t/intenso-s10000-powerbank-automatische-abschaltung-software-only/805 // powerdown to 27mA (powerbank switches off after 30-60s) mfrc522.PCD_AntennaOff(); mfrc522.PCD_SoftPowerDown(); mp3.sleep(); set_sleep_mode(SLEEP_MODE_PWR_DOWN); cli(); // Disable interrupts sleep_mode(); } } bool isPlaying() { return !digitalRead(busyPin); } void waitForTrackToFinish() { long currentTime = millis(); #define TIMEOUT 1000 do { mp3.loop(); } while (!isPlaying() && millis() < currentTime + TIMEOUT); delay(1000); do { mp3.loop(); } while (isPlaying()); } void setup() { Serial.begin(115200); // Es gibt ein paar Debug Ausgaben über die serielle Schnittstelle // Wert für randomSeed() erzeugen durch das mehrfache Sammeln von rauschenden LSBs eines offenen Analogeingangs uint32_t ADC_LSB; uint32_t ADCSeed; for (uint8_t i = 0; i < 128; i++) { ADC_LSB = analogRead(openAnalogPin) & 0x1; ADCSeed ^= ADC_LSB << (i % 32); } randomSeed(ADCSeed); // Zufallsgenerator initialisieren // Dieser Hinweis darf nicht entfernt werden Serial.println(F("\n _____ _____ _____ _____ _____")); Serial.println(F("|_ _|___ ___| | | | | | |")); Serial.println(F(" | | | . | | | |- -| | | | | |")); Serial.println(F(" |_| |___|_|_|_____|_____|_|___|_____|\n")); Serial.println(F("TonUINO Version 2.1")); Serial.println(F("created by Thorsten Voß and licensed under GNU/GPL.")); Serial.println(F("Information and contribution at https://tonuino.de.\n")); // Busy Pin pinMode(busyPin, INPUT); // load Settings from EEPROM loadSettingsFromFlash(); // activate standby timer setstandbyTimer(); // DFPlayer Mini initialisieren mp3.begin(); // Zwei Sekunden warten bis der DFPlayer Mini initialisiert ist delay(2000); volume = mySettings.initVolume; mp3.setVolume(volume); mp3.setEq(mySettings.eq - 1); // Fix für das Problem mit dem Timeout (ist jetzt in Upstream daher nicht mehr nötig!) //mySoftwareSerial.setTimeout(10000); // NFC Leser initialisieren SPI.begin(); // Init SPI bus mfrc522.PCD_Init(); // Init MFRC522 mfrc522 .PCD_DumpVersionToSerial(); // Show details of PCD - MFRC522 Card Reader for (byte i = 0; i < 6; i++) { key.keyByte[i] = 0xFF; } pinMode(buttonPause, INPUT_PULLUP); pinMode(buttonUp, INPUT_PULLUP); pinMode(buttonDown, INPUT_PULLUP); #ifdef FIVEBUTTONS pinMode(buttonFourPin, INPUT_PULLUP); pinMode(buttonFivePin, INPUT_PULLUP); #endif pinMode(shutdownPin, OUTPUT); digitalWrite(shutdownPin, LOW); // RESET --- ALLE DREI KNÖPFE BEIM STARTEN GEDRÜCKT HALTEN -> alle EINSTELLUNGEN werden gelöscht if (digitalRead(buttonPause) == LOW && digitalRead(buttonUp) == LOW && digitalRead(buttonDown) == LOW) { Serial.println(F("Reset -> EEPROM wird gelöscht")); for (int i = 0; i < EEPROM.length(); i++) { EEPROM.update(i, 0); } loadSettingsFromFlash(); } // Start Shortcut "at Startup" - e.g. Welcome Sound playShortCut(3); } void readButtons() { pauseButton.read(); upButton.read(); downButton.read(); #ifdef FIVEBUTTONS buttonFour.read(); buttonFive.read(); #endif } void volumeUpButton() { if (activeModifier != NULL) if (activeModifier->handleVolumeUp() == true) return; Serial.println(F("=== volumeUp()")); if (volume < mySettings.maxVolume) { mp3.increaseVolume(); volume++; } Serial.println(volume); } void volumeDownButton() { if (activeModifier != NULL) if (activeModifier->handleVolumeDown() == true) return; Serial.println(F("=== volumeDown()")); if (volume > mySettings.minVolume) { mp3.decreaseVolume(); volume--; } Serial.println(volume); } void nextButton() { if (activeModifier != NULL) if (activeModifier->handleNextButton() == true) return; nextTrack(random(65536)); delay(1000); } void previousButton() { if (activeModifier != NULL) if (activeModifier->handlePreviousButton() == true) return; previousTrack(); delay(1000); } void playFolder() { Serial.println(F("== playFolder()")) ; disablestandbyTimer(); knownCard = true; _lastTrackFinished = 0; numTracksInFolder = mp3.getFolderTrackCount(myFolder->folder); firstTrack = 1; Serial.print(numTracksInFolder); Serial.print(F(" Dateien in Ordner ")); Serial.println(myFolder->folder); // Hörspielmodus: eine zufällige Datei aus dem Ordner if (myFolder->mode == 1) { Serial.println(F("Hörspielmodus -> zufälligen Track wiedergeben")); currentTrack = random(1, numTracksInFolder + 1); Serial.println(currentTrack); mp3.playFolderTrack(myFolder->folder, currentTrack); } // Album Modus: kompletten Ordner spielen if (myFolder->mode == 2) { Serial.println(F("Album Modus -> kompletten Ordner wiedergeben")); currentTrack = 1; mp3.playFolderTrack(myFolder->folder, currentTrack); } // Party Modus: Ordner in zufälliger Reihenfolge if (myFolder->mode == 3) { Serial.println( F("Party Modus -> Ordner in zufälliger Reihenfolge wiedergeben")); shuffleQueue(); currentTrack = 1; mp3.playFolderTrack(myFolder->folder, queue[currentTrack - 1]); } // Einzel Modus: eine Datei aus dem Ordner abspielen if (myFolder->mode == 4) { Serial.println( F("Einzel Modus -> eine Datei aus dem Odrdner abspielen")); currentTrack = myFolder->special; mp3.playFolderTrack(myFolder->folder, currentTrack); } // Hörbuch Modus: kompletten Ordner spielen und Fortschritt merken if (myFolder->mode == 5) { Serial.println(F("Hörbuch Modus -> kompletten Ordner spielen und " "Fortschritt merken")); currentTrack = EEPROM.read(myFolder->folder); if (currentTrack == 0 || currentTrack > numTracksInFolder) { currentTrack = 1; } mp3.playFolderTrack(myFolder->folder, currentTrack); } // Spezialmodus Von-Bin: Hörspiel: eine zufällige Datei aus dem Ordner if (myFolder->mode == 7) { Serial.println(F("Spezialmodus Von-Bin: Hörspiel -> zufälligen Track wiedergeben")); Serial.print(myFolder->special); Serial.print(F(" bis ")); Serial.println(myFolder->special2); numTracksInFolder = myFolder->special2; currentTrack = random(myFolder->special, numTracksInFolder + 1); Serial.println(currentTrack); mp3.playFolderTrack(myFolder->folder, currentTrack); } // Spezialmodus Von-Bis: Album: alle Dateien zwischen Start und Ende spielen if (myFolder->mode == 8) { Serial.println(F("Spezialmodus Von-Bis: Album: alle Dateien zwischen Start- und Enddatei spielen")); Serial.print(myFolder->special); Serial.print(F(" bis ")); Serial.println(myFolder->special2); numTracksInFolder = myFolder->special2; currentTrack = myFolder->special; mp3.playFolderTrack(myFolder->folder, currentTrack); } // Spezialmodus Von-Bis: Party Ordner in zufälliger Reihenfolge if (myFolder->mode == 9) { Serial.println( F("Spezialmodus Von-Bis: Party -> Ordner in zufälliger Reihenfolge wiedergeben")); firstTrack = myFolder->special; numTracksInFolder = myFolder->special2; shuffleQueue(); currentTrack = 1; mp3.playFolderTrack(myFolder->folder, queue[currentTrack - 1]); } } void playShortCut(uint8_t shortCut) { Serial.println(F("=== playShortCut()")); Serial.println(shortCut); if (mySettings.shortCuts[shortCut].folder != 0) { myFolder = &mySettings.shortCuts[shortCut]; playFolder(); disablestandbyTimer(); delay(1000); } else Serial.println(F("Shortcut not configured!")); } void loop() { do { checkStandbyAtMillis(); mp3.loop(); // Modifier : WIP! if (activeModifier != NULL) { activeModifier->loop(); } // Buttons werden nun über JS_Button gehandelt, dadurch kann jede Taste // doppelt belegt werden readButtons(); // admin menu if ((pauseButton.pressedFor(LONG_PRESS) || upButton.pressedFor(LONG_PRESS) || downButton.pressedFor(LONG_PRESS)) && pauseButton.isPressed() && upButton.isPressed() && downButton.isPressed()) { mp3.pause(); do { readButtons(); } while (pauseButton.isPressed() || upButton.isPressed() || downButton.isPressed()); readButtons(); adminMenu(); break; } if (pauseButton.wasReleased()) { if (activeModifier != NULL) if (activeModifier->handlePause() == true) return; if (ignorePauseButton == false) if (isPlaying()) { mp3.pause(); setstandbyTimer(); } else if (knownCard) { mp3.start(); disablestandbyTimer(); } ignorePauseButton = false; } else if (pauseButton.pressedFor(LONG_PRESS) && ignorePauseButton == false) { if (activeModifier != NULL) if (activeModifier->handlePause() == true) return; if (isPlaying()) { uint8_t advertTrack; if (myFolder->mode == 3 || myFolder->mode == 9) { advertTrack = (queue[currentTrack - 1]); } else { advertTrack = currentTrack; } // Spezialmodus Von-Bis für Album und Party gibt die Dateinummer relativ zur Startposition wieder if (myFolder->mode == 8 || myFolder->mode == 9) { advertTrack = advertTrack - myFolder->special + 1; } mp3.playAdvertisement(advertTrack); } else { playShortCut(0); } ignorePauseButton = true; } if (upButton.pressedFor(LONG_PRESS)) { #ifndef FIVEBUTTONS if (isPlaying()) { if (!mySettings.invertVolumeButtons) { volumeUpButton(); } else { nextButton(); } } else { playShortCut(1); } ignoreUpButton = true; #endif } else if (upButton.wasReleased()) { if (!ignoreUpButton) if (!mySettings.invertVolumeButtons) { nextButton(); } else { volumeUpButton(); } ignoreUpButton = false; } if (downButton.pressedFor(LONG_PRESS)) { #ifndef FIVEBUTTONS if (isPlaying()) { if (!mySettings.invertVolumeButtons) { volumeDownButton(); } else { previousButton(); } } else { playShortCut(2); } ignoreDownButton = true; #endif } else if (downButton.wasReleased()) { if (!ignoreDownButton) { if (!mySettings.invertVolumeButtons) { previousButton(); } else { volumeDownButton(); } } ignoreDownButton = false; } #ifdef FIVEBUTTONS if (buttonFour.wasReleased()) { if (isPlaying()) { if (!mySettings.invertVolumeButtons) { volumeUpButton(); } else { nextButton(); } } else { playShortCut(1); } } if (buttonFive.wasReleased()) { if (isPlaying()) { if (!mySettings.invertVolumeButtons) { volumeDownButton(); } else { previousButton(); } } else { playShortCut(2); } } #endif // Ende der Buttons } while (!mfrc522.PICC_IsNewCardPresent()); // RFID Karte wurde aufgelegt if (!mfrc522.PICC_ReadCardSerial()) return; if (readCard(&myCard) == true) { if (myCard.cookie == cardCookie && myCard.nfcFolderSettings.folder != 0 && myCard.nfcFolderSettings.mode != 0) { playFolder(); } // Neue Karte konfigurieren else if (myCard.cookie != cardCookie) { knownCard = false; mp3.playMp3FolderTrack(300); waitForTrackToFinish(); setupCard(); } } mfrc522.PICC_HaltA(); mfrc522.PCD_StopCrypto1(); } void adminMenu(bool fromCard = false) { disablestandbyTimer(); mp3.pause(); Serial.println(F("=== adminMenu()")); knownCard = false; if (fromCard == false) { // Admin menu has been locked - it still can be trigged via admin card if (mySettings.adminMenuLocked == 1) { return; } // Pin check else if (mySettings.adminMenuLocked == 2) { uint8_t pin[4]; mp3.playMp3FolderTrack(991); if (askCode(pin) == true) { if (checkTwo(pin, mySettings.adminMenuPin) == false) { return; } } else { return; } } // Match check else if (mySettings.adminMenuLocked == 3) { uint8_t a = random(10, 20); uint8_t b = random(1, 10); uint8_t c; mp3.playMp3FolderTrack(992); waitForTrackToFinish(); mp3.playMp3FolderTrack(a); if (random(1, 3) == 2) { // a + b c = a + b; waitForTrackToFinish(); mp3.playMp3FolderTrack(993); } else { // a - b b = random(1, a); c = a - b; waitForTrackToFinish(); mp3.playMp3FolderTrack(994); } waitForTrackToFinish(); mp3.playMp3FolderTrack(b); Serial.println(c); uint8_t temp = voiceMenu(255, 0, 0, false); if (temp != c) { return; } } } int subMenu = voiceMenu(12, 900, 900, false, false, 0, true); if (subMenu == 0) return; if (subMenu == 1) { resetCard(); mfrc522.PICC_HaltA(); mfrc522.PCD_StopCrypto1(); } else if (subMenu == 2) { // Maximum Volume mySettings.maxVolume = voiceMenu(30 - mySettings.minVolume, 930, mySettings.minVolume, false, false, mySettings.maxVolume - mySettings.minVolume) + mySettings.minVolume; } else if (subMenu == 3) { // Minimum Volume mySettings.minVolume = voiceMenu(mySettings.maxVolume - 1, 931, 0, false, false, mySettings.minVolume); } else if (subMenu == 4) { // Initial Volume mySettings.initVolume = voiceMenu(mySettings.maxVolume - mySettings.minVolume + 1, 932, mySettings.minVolume - 1, false, false, mySettings.initVolume - mySettings.minVolume + 1) + mySettings.minVolume - 1; } else if (subMenu == 5) { // EQ mySettings.eq = voiceMenu(6, 920, 920, false, false, mySettings.eq); mp3.setEq(mySettings.eq - 1); } else if (subMenu == 6) { // create modifier card nfcTagObject tempCard; tempCard.cookie = cardCookie; tempCard.version = 1; tempCard.nfcFolderSettings.folder = 0; tempCard.nfcFolderSettings.special = 0; tempCard.nfcFolderSettings.special2 = 0; tempCard.nfcFolderSettings.mode = voiceMenu(6, 970, 970, false, false, 0, true); if (tempCard.nfcFolderSettings.mode != 0) { if (tempCard.nfcFolderSettings.mode == 1) { switch (voiceMenu(4, 960, 960)) { case 1: tempCard.nfcFolderSettings.special = 5; break; case 2: tempCard.nfcFolderSettings.special = 15; break; case 3: tempCard.nfcFolderSettings.special = 30; break; case 4: tempCard.nfcFolderSettings.special = 60; break; } } mp3.playMp3FolderTrack(800); do { readButtons(); if (upButton.wasReleased() || downButton.wasReleased()) { Serial.println(F("Abgebrochen!")); mp3.playMp3FolderTrack(802); return; } } while (!mfrc522.PICC_IsNewCardPresent()); // RFID Karte wurde aufgelegt if (mfrc522.PICC_ReadCardSerial()) { Serial.println(F("schreibe Karte...")); writeCard(tempCard); delay(100); mfrc522.PICC_HaltA(); mfrc522.PCD_StopCrypto1(); waitForTrackToFinish(); } } } else if (subMenu == 7) { uint8_t shortcut = voiceMenu(4, 940, 940); setupFolder(&mySettings.shortCuts[shortcut - 1]); mp3.playMp3FolderTrack(400); } else if (subMenu == 8) { switch (voiceMenu(5, 960, 960)) { case 1: mySettings.standbyTimer = 5; break; case 2: mySettings.standbyTimer = 15; break; case 3: mySettings.standbyTimer = 30; break; case 4: mySettings.standbyTimer = 60; break; case 5: mySettings.standbyTimer = 0; break; } } else if (subMenu == 9) { // Create Cards for Folder // Ordner abfragen nfcTagObject tempCard; tempCard.cookie = cardCookie; tempCard.version = 1; tempCard.nfcFolderSettings.mode = 4; tempCard.nfcFolderSettings.folder = voiceMenu(99, 301, 0, true); uint8_t special = voiceMenu(mp3.getFolderTrackCount(tempCard.nfcFolderSettings.folder), 321, 0, true, tempCard.nfcFolderSettings.folder); uint8_t special2 = voiceMenu(mp3.getFolderTrackCount(tempCard.nfcFolderSettings.folder), 322, 0, true, tempCard.nfcFolderSettings.folder, special); mp3.playMp3FolderTrack(936); waitForTrackToFinish(); for (uint8_t x = special; x <= special2; x++) { mp3.playMp3FolderTrack(x); tempCard.nfcFolderSettings.special = x; Serial.print(x); Serial.println(F(" Karte auflegen")); do { readButtons(); if (upButton.wasReleased() || downButton.wasReleased()) { Serial.println(F("Abgebrochen!")); mp3.playMp3FolderTrack(802); return; } } while (!mfrc522.PICC_IsNewCardPresent()); // RFID Karte wurde aufgelegt if (mfrc522.PICC_ReadCardSerial()) { Serial.println(F("schreibe Karte...")); writeCard(tempCard); delay(100); mfrc522.PICC_HaltA(); mfrc522.PCD_StopCrypto1(); waitForTrackToFinish(); } } } else if (subMenu == 10) { // Invert Functions for Up/Down Buttons int temp = voiceMenu(2, 933, 933, false); if (temp == 2) { mySettings.invertVolumeButtons = true; } else { mySettings.invertVolumeButtons = false; } } else if (subMenu == 11) { Serial.println(F("Reset -> EEPROM wird gelöscht")); for (int i = 0; i < EEPROM.length(); i++) { EEPROM.update(i, 0); } resetSettings(); mp3.playMp3FolderTrack(999); } // lock admin menu else if (subMenu == 12) { int temp = voiceMenu(4, 980, 980, false); if (temp == 1) { mySettings.adminMenuLocked = 0; } else if (temp == 2) { mySettings.adminMenuLocked = 1; } else if (temp == 3) { int8_t pin[4]; mp3.playMp3FolderTrack(991); if (askCode(pin)) { memcpy(mySettings.adminMenuPin, pin, 4); mySettings.adminMenuLocked = 2; } } else if (temp == 4) { mySettings.adminMenuLocked = 3; } } writeSettingsToFlash(); setstandbyTimer(); } bool askCode(uint8_t *code) { uint8_t x = 0; while (x < 4) { readButtons(); if (pauseButton.pressedFor(LONG_PRESS)) break; if (pauseButton.wasReleased()) code[x++] = 1; if (upButton.wasReleased()) code[x++] = 2; if (downButton.wasReleased()) code[x++] = 3; } return true; } uint8_t voiceMenu(int numberOfOptions, int startMessage, int messageOffset, bool preview = false, int previewFromFolder = 0, int defaultValue = 0, bool exitWithLongPress = false) { uint8_t returnValue = defaultValue; if (startMessage != 0) mp3.playMp3FolderTrack(startMessage); Serial.print(F("=== voiceMenu() (")); Serial.print(numberOfOptions); Serial.println(F(" Options)")); do { if (Serial.available() > 0) { int optionSerial = Serial.parseInt(); if (optionSerial != 0 && optionSerial <= numberOfOptions) return optionSerial; } readButtons(); mp3.loop(); if (pauseButton.pressedFor(LONG_PRESS)) { mp3.playMp3FolderTrack(802); ignorePauseButton = true; checkStandbyAtMillis(); return defaultValue; } if (pauseButton.wasReleased()) { if (returnValue != 0) { Serial.print(F("=== ")); Serial.print(returnValue); Serial.println(F(" ===")); return returnValue; } delay(1000); } if (upButton.pressedFor(LONG_PRESS)) { returnValue = min(returnValue + 10, numberOfOptions); Serial.println(returnValue); //mp3.pause(); mp3.playMp3FolderTrack(messageOffset + returnValue); waitForTrackToFinish(); /*if (preview) { if (previewFromFolder == 0) mp3.playFolderTrack(returnValue, 1); else mp3.playFolderTrack(previewFromFolder, returnValue); }*/ ignoreUpButton = true; } else if (upButton.wasReleased()) { if (!ignoreUpButton) { returnValue = min(returnValue + 1, numberOfOptions); Serial.println(returnValue); //mp3.pause(); mp3.playMp3FolderTrack(messageOffset + returnValue); if (preview) { waitForTrackToFinish(); if (previewFromFolder == 0) { mp3.playFolderTrack(returnValue, 1); } else { mp3.playFolderTrack(previewFromFolder, returnValue); } delay(1000); } } else { ignoreUpButton = false; } } if (downButton.pressedFor(LONG_PRESS)) { returnValue = max(returnValue - 10, 1); Serial.println(returnValue); //mp3.pause(); mp3.playMp3FolderTrack(messageOffset + returnValue); waitForTrackToFinish(); /*if (preview) { if (previewFromFolder == 0) mp3.playFolderTrack(returnValue, 1); else mp3.playFolderTrack(previewFromFolder, returnValue); }*/ ignoreDownButton = true; } else if (downButton.wasReleased()) { if (!ignoreDownButton) { returnValue = max(returnValue - 1, 1); Serial.println(returnValue); //mp3.pause(); mp3.playMp3FolderTrack(messageOffset + returnValue); if (preview) { waitForTrackToFinish(); if (previewFromFolder == 0) { mp3.playFolderTrack(returnValue, 1); } else { mp3.playFolderTrack(previewFromFolder, returnValue); } delay(1000); } } else { ignoreDownButton = false; } } } while (true); } void resetCard() { mp3.playMp3FolderTrack(800); do { pauseButton.read(); upButton.read(); downButton.read(); if (upButton.wasReleased() || downButton.wasReleased()) { Serial.print(F("Abgebrochen!")); mp3.playMp3FolderTrack(802); return; } } while (!mfrc522.PICC_IsNewCardPresent()); if (!mfrc522.PICC_ReadCardSerial()) return; Serial.print(F("Karte wird neu konfiguriert!")); setupCard(); } bool setupFolder(folderSettings * theFolder) { // Ordner abfragen theFolder->folder = voiceMenu(99, 301, 0, true, 0, 0, true); if (theFolder->folder == 0) return false; // Wiedergabemodus abfragen theFolder->mode = voiceMenu(9, 310, 310, false, 0, 0, true); if (theFolder->mode == 0) return false; // // Hörbuchmodus -> Fortschritt im EEPROM auf 1 setzen // EEPROM.update(theFolder->folder, 1); // Einzelmodus -> Datei abfragen if (theFolder->mode == 4) theFolder->special = voiceMenu(mp3.getFolderTrackCount(theFolder->folder), 320, 0, true, theFolder->folder); // Admin Funktionen if (theFolder->mode == 6) { //theFolder->special = voiceMenu(3, 320, 320); theFolder->folder = 0; theFolder->mode = 255; } // Spezialmodus Von-Bis if (theFolder->mode == 7 || theFolder->mode == 8 || theFolder->mode == 9) { theFolder->special = voiceMenu(mp3.getFolderTrackCount(theFolder->folder), 321, 0, true, theFolder->folder); theFolder->special2 = voiceMenu(mp3.getFolderTrackCount(theFolder->folder), 322, 0, true, theFolder->folder, theFolder->special); } return true; } void setupCard() { mp3.pause(); Serial.println(F("=== setupCard()")); nfcTagObject newCard; if (setupFolder(&newCard.nfcFolderSettings) == true) { // Karte ist konfiguriert -> speichern mp3.pause(); do { } while (isPlaying()); writeCard(newCard); } delay(1000); } bool readCard(nfcTagObject * nfcTag) { nfcTagObject tempCard; // Show some details of the PICC (that is: the tag/card) Serial.print(F("Card UID:")); dump_byte_array(mfrc522.uid.uidByte, mfrc522.uid.size); Serial.println(); Serial.print(F("PICC type: ")); MFRC522::PICC_Type piccType = mfrc522.PICC_GetType(mfrc522.uid.sak); Serial.println(mfrc522.PICC_GetTypeName(piccType)); byte buffer[18]; byte size = sizeof(buffer); // Authenticate using key A if ((piccType == MFRC522::PICC_TYPE_MIFARE_MINI ) || (piccType == MFRC522::PICC_TYPE_MIFARE_1K ) || (piccType == MFRC522::PICC_TYPE_MIFARE_4K ) ) { Serial.println(F("Authenticating Classic using key A...")); status = mfrc522.PCD_Authenticate( MFRC522::PICC_CMD_MF_AUTH_KEY_A, trailerBlock, &key, &(mfrc522.uid)); } else if (piccType == MFRC522::PICC_TYPE_MIFARE_UL ) { byte pACK[] = {0, 0}; //16 bit PassWord ACK returned by the tempCard // Authenticate using key A Serial.println(F("Authenticating MIFARE UL...")); status = mfrc522.PCD_NTAG216_AUTH(key.keyByte, pACK); } if (status != MFRC522::STATUS_OK) { Serial.print(F("PCD_Authenticate() failed: ")); Serial.println(mfrc522.GetStatusCodeName(status)); return false; } // Show the whole sector as it currently is // Serial.println(F("Current data in sector:")); // mfrc522.PICC_DumpMifareClassicSectorToSerial(&(mfrc522.uid), &key, sector); // Serial.println(); // Read data from the block if ((piccType == MFRC522::PICC_TYPE_MIFARE_MINI ) || (piccType == MFRC522::PICC_TYPE_MIFARE_1K ) || (piccType == MFRC522::PICC_TYPE_MIFARE_4K ) ) { Serial.print(F("Reading data from block ")); Serial.print(blockAddr); Serial.println(F(" ...")); status = (MFRC522::StatusCode)mfrc522.MIFARE_Read(blockAddr, buffer, &size); if (status != MFRC522::STATUS_OK) { Serial.print(F("MIFARE_Read() failed: ")); Serial.println(mfrc522.GetStatusCodeName(status)); return false; } } else if (piccType == MFRC522::PICC_TYPE_MIFARE_UL ) { byte buffer2[18]; byte size2 = sizeof(buffer2); status = (MFRC522::StatusCode)mfrc522.MIFARE_Read(8, buffer2, &size2); if (status != MFRC522::STATUS_OK) { Serial.print(F("MIFARE_Read_1() failed: ")); Serial.println(mfrc522.GetStatusCodeName(status)); return false; } memcpy(buffer, buffer2, 4); status = (MFRC522::StatusCode)mfrc522.MIFARE_Read(9, buffer2, &size2); if (status != MFRC522::STATUS_OK) { Serial.print(F("MIFARE_Read_2() failed: ")); Serial.println(mfrc522.GetStatusCodeName(status)); return false; } memcpy(buffer + 4, buffer2, 4); status = (MFRC522::StatusCode)mfrc522.MIFARE_Read(10, buffer2, &size2); if (status != MFRC522::STATUS_OK) { Serial.print(F("MIFARE_Read_3() failed: ")); Serial.println(mfrc522.GetStatusCodeName(status)); return false; } memcpy(buffer + 8, buffer2, 4); status = (MFRC522::StatusCode)mfrc522.MIFARE_Read(11, buffer2, &size2); if (status != MFRC522::STATUS_OK) { Serial.print(F("MIFARE_Read_4() failed: ")); Serial.println(mfrc522.GetStatusCodeName(status)); return false; } memcpy(buffer + 12, buffer2, 4); } Serial.print(F("Data on Card ")); Serial.println(F(":")); dump_byte_array(buffer, 16); Serial.println(); Serial.println(); uint32_t tempCookie; tempCookie = (uint32_t)buffer[0] << 24; tempCookie += (uint32_t)buffer[1] << 16; tempCookie += (uint32_t)buffer[2] << 8; tempCookie += (uint32_t)buffer[3]; tempCard.cookie = tempCookie; tempCard.version = buffer[4]; tempCard.nfcFolderSettings.folder = buffer[5]; tempCard.nfcFolderSettings.mode = buffer[6]; tempCard.nfcFolderSettings.special = buffer[7]; tempCard.nfcFolderSettings.special2 = buffer[8]; if (tempCard.cookie == cardCookie) { if (activeModifier != NULL && tempCard.nfcFolderSettings.folder != 0) { if (activeModifier->handleRFID(&tempCard) == true) { return false; } } if (tempCard.nfcFolderSettings.folder == 0) { if (activeModifier != NULL) { if (activeModifier->getActive() == tempCard.nfcFolderSettings.mode) { activeModifier = NULL; Serial.println(F("modifier removed")); if (isPlaying()) { mp3.playAdvertisement(261); } else { mp3.start(); delay(100); mp3.playAdvertisement(261); delay(100); mp3.pause(); } delay(2000); return false; } } if (tempCard.nfcFolderSettings.mode != 0 && tempCard.nfcFolderSettings.mode != 255) { if (isPlaying()) { mp3.playAdvertisement(260); } else { mp3.start(); delay(100); mp3.playAdvertisement(260); delay(100); mp3.pause(); } } switch (tempCard.nfcFolderSettings.mode ) { case 0: case 255: mfrc522.PICC_HaltA(); mfrc522.PCD_StopCrypto1(); adminMenu(true); break; case 1: activeModifier = new SleepTimer(tempCard.nfcFolderSettings.special); break; case 2: activeModifier = new FreezeDance(); break; case 3: activeModifier = new Locked(); break; case 4: activeModifier = new ToddlerMode(); break; case 5: activeModifier = new KindergardenMode(); break; case 6: activeModifier = new RepeatSingleModifier(); break; } delay(2000); return false; } else { memcpy(nfcTag, &tempCard, sizeof(nfcTagObject)); Serial.println( nfcTag->nfcFolderSettings.folder); myFolder = &nfcTag->nfcFolderSettings; Serial.println( myFolder->folder); } return true; } else { memcpy(nfcTag, &tempCard, sizeof(nfcTagObject)); return true; } } void writeCard(nfcTagObject nfcTag) { MFRC522::PICC_Type mifareType; byte buffer[16] = {0x13, 0x37, 0xb3, 0x47, // 0x1337 0xb347 magic cookie to // identify our nfc tags 0x02, // version 1 nfcTag.nfcFolderSettings.folder, // the folder picked by the user nfcTag.nfcFolderSettings.mode, // the playback mode picked by the user nfcTag.nfcFolderSettings.special, // track or function for admin cards nfcTag.nfcFolderSettings.special2, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; byte size = sizeof(buffer); mifareType = mfrc522.PICC_GetType(mfrc522.uid.sak); // Authenticate using key B //authentificate with the card and set card specific parameters if ((mifareType == MFRC522::PICC_TYPE_MIFARE_MINI ) || (mifareType == MFRC522::PICC_TYPE_MIFARE_1K ) || (mifareType == MFRC522::PICC_TYPE_MIFARE_4K ) ) { Serial.println(F("Authenticating again using key A...")); status = mfrc522.PCD_Authenticate( MFRC522::PICC_CMD_MF_AUTH_KEY_A, trailerBlock, &key, &(mfrc522.uid)); } else if (mifareType == MFRC522::PICC_TYPE_MIFARE_UL ) { byte pACK[] = {0, 0}; //16 bit PassWord ACK returned by the NFCtag // Authenticate using key A Serial.println(F("Authenticating UL...")); status = mfrc522.PCD_NTAG216_AUTH(key.keyByte, pACK); } if (status != MFRC522::STATUS_OK) { Serial.print(F("PCD_Authenticate() failed: ")); Serial.println(mfrc522.GetStatusCodeName(status)); mp3.playMp3FolderTrack(401); return; } // Write data to the block Serial.print(F("Writing data into block ")); Serial.print(blockAddr); Serial.println(F(" ...")); dump_byte_array(buffer, 16); Serial.println(); if ((mifareType == MFRC522::PICC_TYPE_MIFARE_MINI ) || (mifareType == MFRC522::PICC_TYPE_MIFARE_1K ) || (mifareType == MFRC522::PICC_TYPE_MIFARE_4K ) ) { status = (MFRC522::StatusCode)mfrc522.MIFARE_Write(blockAddr, buffer, 16); } else if (mifareType == MFRC522::PICC_TYPE_MIFARE_UL ) { byte buffer2[16]; byte size2 = sizeof(buffer2); memset(buffer2, 0, size2); memcpy(buffer2, buffer, 4); status = (MFRC522::StatusCode)mfrc522.MIFARE_Write(8, buffer2, 16); memset(buffer2, 0, size2); memcpy(buffer2, buffer + 4, 4); status = (MFRC522::StatusCode)mfrc522.MIFARE_Write(9, buffer2, 16); memset(buffer2, 0, size2); memcpy(buffer2, buffer + 8, 4); status = (MFRC522::StatusCode)mfrc522.MIFARE_Write(10, buffer2, 16); memset(buffer2, 0, size2); memcpy(buffer2, buffer + 12, 4); status = (MFRC522::StatusCode)mfrc522.MIFARE_Write(11, buffer2, 16); } if (status != MFRC522::STATUS_OK) { Serial.print(F("MIFARE_Write() failed: ")); Serial.println(mfrc522.GetStatusCodeName(status)); mp3.playMp3FolderTrack(401); } else mp3.playMp3FolderTrack(400); Serial.println(); delay(2000); } /** Helper routine to dump a byte array as hex values to Serial. */ void dump_byte_array(byte * buffer, byte bufferSize) { for (byte i = 0; i < bufferSize; i++) { Serial.print(buffer[i] < 0x10 ? " 0" : " "); Serial.print(buffer[i], HEX); } } ///////////////////////////////////////// Check Bytes /////////////////////////////////// bool checkTwo ( uint8_t a[], uint8_t b[] ) { for ( uint8_t k = 0; k < 4; k++ ) { // Loop 4 times if ( a[k] != b[k] ) { // IF a != b then false, because: one fails, all fail return false; } } return true; }