private boolean writeToTag(NdefMessage message, NdefMessage messageWithoutPhoto, Ndef ndef) throws IOException, FormatException { int size = message.toByteArray().length; int sizeSmall = messageWithoutPhoto.toByteArray().length; ndef.connect(); if (!ndef.isWritable()) { toast("Tag is read-only."); return false; } NdefMessage messageToWrite = message; if (ndef.getMaxSize() < size) { if (ndef.getMaxSize() < sizeSmall) { toast(getResources().getString(R.string.write_tag_failed_size, ndef.getMaxSize(), size)); return false; } else { messageToWrite = messageWithoutPhoto; } } ndef.writeNdefMessage(messageToWrite); return true; }
private void write(String text, Tag tag) throws IOException, FormatException { NdefRecord[] records = {createWellKnownRecord(text)}; NdefMessage message = new NdefMessage(records); // Get an instance of Ndef for the tag. Ndef ndef = Ndef.get(tag); // Enable I/O ndef.connect(); // Write the message ndef.writeNdefMessage(message); // Close the connection ndef.close(); }
/** Metoda zapisujaca w tle wiadomosc do tagu NFC Przed sprawdzeniem formatuje tag */ @Override protected Void doInBackground(Void... nop) { int size = this.msg.toByteArray().length; try { Ndef ndef = Ndef.get(this.tag); if (ndef == null) { NdefFormatable formatable = NdefFormatable.get(this.tag); if (formatable != null) { try { formatable.connect(); try { formatable.format(this.msg); } catch (Exception e) { this.returnText = R.string.nfc_tag_refused_to_format; } } catch (Exception e) { this.returnText = R.string.nfc_tag_refused_to_connect; } finally { formatable.close(); } } else { this.returnText = R.string.nfc_tag_does_not_support_ndef; } } else { ndef.connect(); try { if (!ndef.isWritable()) { this.returnText = R.string.nfc_tag_is_read_only; } else if (ndef.getMaxSize() < size) { this.returnText = R.string.nfc_message_is_too_big; } else { ndef.writeNdefMessage(this.msg); this.returnText = R.string.nfc_tag_saved; this.returnStatus = Activity.RESULT_OK; } } catch (Exception e) { this.returnText = R.string.nfc_tag_refused_to_connect; } finally { ndef.close(); } } } catch (Exception e) { Log.e(TAG, "Exception when writing tag", e); this.returnText = R.string.nfc_general_exception; } return (null); }
public boolean writeNdefMessageToTag(NdefMessage message, Tag detectedTag) { int size = message.toByteArray().length; try { Ndef ndef = Ndef.get(detectedTag); if (ndef != null) { ndef.connect(); if (!ndef.isWritable()) { Toast.makeText(this, "Tag is read-only.", Toast.LENGTH_SHORT).show(); return false; } if (ndef.getMaxSize() < size) { Toast.makeText( this, "The data cannot written to tag,Tag capacity is " + ndef.getMaxSize() + " bytes, message is " + size + " bytes.", Toast.LENGTH_SHORT) .show(); return false; } ndef.writeNdefMessage(message); ndef.close(); Toast.makeText(this, "Message is written tag.", Toast.LENGTH_SHORT).show(); return true; } else { NdefFormatable ndefFormat = NdefFormatable.get(detectedTag); if (ndefFormat != null) { try { ndefFormat.connect(); ndefFormat.format(message); ndefFormat.close(); Toast.makeText(this, "The data is written to the tag ", Toast.LENGTH_SHORT).show(); return true; } catch (IOException e) { Toast.makeText(this, "Failed to format tag", Toast.LENGTH_SHORT).show(); return false; } } else { Toast.makeText(this, "NDEF is not supported", Toast.LENGTH_SHORT).show(); return false; } } } catch (Exception e) { Toast.makeText(this, "Write opreation is failed", Toast.LENGTH_SHORT).show(); } return false; }
public void writeTag(NdefMessage message, Tag tag) { int size = message.toByteArray().length; String mess; try { Ndef ndef = Ndef.get(tag); if (ndef != null) { ndef.connect(); if (!ndef.isWritable()) { this.status = 0; this.message = "Tag is read-only"; } if (ndef.getMaxSize() < size) { mess = "Tag capacity is " + ndef.getMaxSize() + " bytes, message is " + size + " bytes."; this.status = 0; this.message = mess; } ndef.writeNdefMessage(message); if (writeProtect) ndef.makeReadOnly(); mess = "Wrote message to pre-formatted tag."; this.status = 1; this.message = mess; } else { NdefFormatable format = NdefFormatable.get(tag); if (format != null) { try { format.connect(); format.format(message); mess = "Formatted tag and wrote message"; this.status = 1; this.message = mess; } catch (IOException e) { mess = "Failed to format tag."; this.status = 0; this.message = mess; } } else { mess = "Tag doesn't support NDEF."; this.status = 0; this.message = mess; } } } catch (Exception e) { mess = "Failed to write tag"; this.status = 0; this.message = mess; } }
/** * タグ書き込みを行う * * @param message * @param tag * @return */ boolean writeTag(NdefMessage message, Tag tag) { int size = message.toByteArray().length; try { Ndef ndef = Ndef.get(tag); if (ndef != null) { ndef.connect(); if (!ndef.isWritable()) { toast("Tag is read-only."); return false; } if (ndef.getMaxSize() < size) { toast("Tag capacity is " + ndef.getMaxSize() + " bytes, message is " + size + " bytes."); return false; } ndef.writeNdefMessage(message); mVib.vibrate(300); toast("Wrote message to pre-formatted tag."); return true; } else { NdefFormatable format = NdefFormatable.get(tag); if (format != null) { try { format.connect(); format.format(message); mVib.vibrate(300); toast("Formatted tag and wrote message"); return true; } catch (IOException e) { toast("Failed to format tag."); return false; } } else { toast("Tag doesn't support NDEF."); return false; } } } catch (Exception e) { e.printStackTrace(); toast("Failed to write tag"); } return false; }
// El método write es el más importante, será el que se encargue de crear el mensaje // y escribirlo en nuestro tag. private void write(String text, Tag tag) throws IOException, FormatException { try { // Creamos un array de elementos NdefRecord. Este Objeto representa un registro del mensaje // NDEF // Para crear el objeto NdefRecord usamos el método createRecord(String s) NdefRecord[] records = {createRecord(text)}; // NdefMessage encapsula un mensaje Ndef(NFC Data Exchange Format). Estos mensajes están // compuestos por varios registros encapsulados por la clase NdefRecord NdefMessage message = new NdefMessage(records); // Obtenemos una instancia de Ndef del Tag Ndef ndef = Ndef.get(tag); ndef.connect(); ndef.writeNdefMessage(message); ndef.close(); } catch (Exception e) { Log.d("WRITE", "Excepción: " + e.getMessage()); } } // write
private boolean writeTxtToTag(String textToWrite, Tag tag) throws IOException, FormatException { if (tag == null) { Log.d(TAG, "writeTxtToTag: tag is null!"); Toast.makeText(this, "Tag is null", Toast.LENGTH_SHORT).show(); return false; } NdefRecord record = createRecord(textToWrite); if (record == null) { Log.d(TAG, "writeTxtToTag: record is null!"); return false; } else { NdefRecord[] records = {record}; NdefMessage message = new NdefMessage(records); Ndef ndef = Ndef.get(tag); ndef.connect(); ndef.writeNdefMessage(message); ndef.close(); } return true; }
public void writeTag(NdefMessage ndefMessage, Tag tag) { try { Ndef ndef = Ndef.get(tag); if (ndef != null) { ndef.connect(); ndef.writeNdefMessage(ndefMessage); } else { NdefFormatable format = NdefFormatable.get(tag); if (format != null) { try { format.connect(); format.format(ndefMessage); } catch (IOException e) { Log.e(Constants.LOGTAG, e.getMessage(), e); } } } } catch (Exception e) { Log.e(Constants.LOGTAG, e.getMessage(), e); } }
/** Actually writes data into tag (sticker). */ private void writeTag(NdefMessage message, Tag tag) { int size = message.toByteArray().length; try { Ndef ndef = Ndef.get(tag); if (ndef != null) { ndef.connect(); if (!ndef.isWritable()) { toast(R.string.tag_read_only); return; } if (ndef.getMaxSize() < size) { toast(R.string.exceeded_tag_capacity); return; } ndef.writeNdefMessage(message); toast(R.string.sticker_write_success); } else { NdefFormatable format = NdefFormatable.get(tag); if (format != null) { try { format.connect(); format.format(message); toast(R.string.sticker_write_success); } catch (IOException e) { toast(R.string.sticker_write_error); } } else { toast(R.string.sticker_write_error); } } } catch (FormatException e) { toast(R.string.sticker_write_error); } catch (IOException e) { toast(R.string.sticker_write_error); } }
boolean writeTag(NdefMessage message, Tag tag) { int size = message.toByteArray().length; try { Ndef ndef = Ndef.get(tag); if (ndef != null) { ndef.connect(); if (!ndef.isWritable()) { Toast.makeText( this, "Cannot write to this tag. This tag is read-only.", Toast.LENGTH_LONG) .show(); return false; } if (ndef.getMaxSize() < size) { Toast.makeText( this, "Cannot write to this tag. Message size (" + size + " bytes) exceeds this tag's capacity of " + ndef.getMaxSize() + " bytes.", Toast.LENGTH_LONG) .show(); return false; } ndef.writeNdefMessage(message); Toast.makeText(this, "A pre-formatted tag was successfully updated.", Toast.LENGTH_LONG) .show(); return true; } else { NdefFormatable format = NdefFormatable.get(tag); if (format != null) { try { format.connect(); format.format(message); Toast.makeText( this, "This tag was successfully formatted and updated.", Toast.LENGTH_LONG) .show(); return true; } catch (IOException e) { Toast.makeText( this, "Cannot write to this tag due to I/O Exception.", Toast.LENGTH_LONG) .show(); return false; } } else { Toast.makeText( this, "Cannot write to this tag. This tag does not support NDEF.", Toast.LENGTH_LONG) .show(); return false; } } } catch (Exception e) { Toast.makeText(this, "Cannot write to this tag due to an Exception.", Toast.LENGTH_LONG) .show(); } return false; }