# @Author: carlosgilgonzalez # @Date: 2019-10-15T16:13:47+01:00 # @Last modified by: carlosgilgonzalez # @Last modified time: 2019-10-15T16:56:27+01:00 # Original work: # Adafruit PN532 NFC/RFID control library. # Author: Tony DiCola # Partial Port to Micropython: # Micropython PN532 NFC/RFID control library. # Author: Carlos Gil Gonzalez """ Micropython PN532 NFC/RFID control library (SPI) https://github.com/Carglglz/NFC_PN532_SPI """ import time from machine import Pin from micropython import const # __version__ = "0.0.0-auto.0" # __repo__ = "https://github.com/adafruit/Adafruit_CircuitPython_PN532.git" # pylint: disable=bad-whitespace _PREAMBLE = const(0x00) _STARTCODE1 = const(0x00) _STARTCODE2 = const(0xFF) _POSTAMBLE = const(0x00) _HOSTTOPN532 = const(0xD4) _PN532TOHOST = const(0xD5) # PN532 Commands _COMMAND_DIAGNOSE = const(0x00) _COMMAND_GETFIRMWAREVERSION = const(0x02) _COMMAND_GETGENERALSTATUS = const(0x04) _COMMAND_SETSERIALBAUDRATE = const(0x10) _COMMAND_SETPARAMETERS = const(0x12) _COMMAND_SAMCONFIGURATION = const(0x14) _COMMAND_INLISTPASSIVETARGET = const(0x4A) _COMMAND_INDATAEXCHANGE = const(0x40) _COMMAND_INCOMMUNICATETHRU = const(0x42) _RESPONSE_INDATAEXCHANGE = const(0x41) _RESPONSE_INLISTPASSIVETARGET = const(0x4B) _WAKEUP = const(0x55) _MIFARE_ISO14443A = const(0x00) # Mifare Commands MIFARE_CMD_AUTH_A = const(0x60) MIFARE_CMD_AUTH_B = const(0x61) MIFARE_CMD_READ = const(0x30) MIFARE_CMD_WRITE = const(0xA0) MIFARE_ULTRALIGHT_CMD_WRITE = const(0xA2) # Known keys KEY_DEFAULT_B = bytes([0xFF]*6) _ACK = b'\x00\x00\xFF\x00\xFF\x00' _FRAME_START = b'\x00\x00\xFF' # pylint: enable=bad-whitespace _SPI_STATREAD = const(0x02) _SPI_DATAWRITE = const(0x01) _SPI_DATAREAD = const(0x03) _SPI_READY = const(0x01) def _reset(pin): """Perform a hardware reset toggle""" pin.init(Pin.OUT) pin.value(True) time.sleep(0.1) pin.value(False) time.sleep(0.5) pin.value(True) time.sleep(0.1) class BusyError(Exception): """Base class for exceptions in this module.""" pass def reverse_bit(num): """Turn an LSB byte to an MSB byte, and vice versa. Used for SPI as it is LSB for the PN532, but 99% of SPI implementations are MSB only!""" result = 0 for _ in range(8): result <<= 1 result += (num & 1) num >>= 1 return result class PN532: """Driver for the PN532 connected over SPI. Pass in a hardware or bitbang SPI device & chip select digitalInOut pin. Optional IRQ pin (not used), reset pin and debugging output.""" def __init__(self, spi, cs_pin, irq=None, reset=None, debug=False): """Create an instance of the PN532 class using SPI""" self.debug = debug self._irq = irq self.CSB = cs_pin self._spi = spi self.CSB.on() if reset: if debug: print("Resetting") _reset(reset) try: self._wakeup() # self.get_firmware_version() # first time often fails, try 2ce return except (BusyError, RuntimeError): pass # self.get_firmware_version() def _wakeup(self): """Send any special commands/data to wake up PN532""" time.sleep(1) self.CSB.off() time.sleep_ms(2) self._spi.write(bytearray([0x00])) time.sleep_ms(2) self.CSB.on() # pylint: disable=no-member time.sleep(1) def _wait_ready(self, timeout=1000): """Poll PN532 if status byte is ready, up to `timeout` milliseconds""" status_query = bytearray([reverse_bit(_SPI_STATREAD), 0]) status = bytearray([0, 0]) timestamp = time.ticks_ms() while time.ticks_diff(time.ticks_ms(), timestamp) < timeout: time.sleep(0.02) # required self.CSB.off() time.sleep_ms(2) self._spi.write_readinto(status_query, status) time.sleep_ms(2) self.CSB.on() if reverse_bit(status[1]) == 0x01: # LSB data is read in MSB return True # Not busy anymore! else: time.sleep(0.01) # pause a bit till we ask again # Timed out! return False def _read_data(self, count): """Read a specified count of bytes from the PN532.""" # Build a read request frame. frame = bytearray(count+1) # Add the SPI data read signal byte, but LSB'ify it frame[0] = reverse_bit(_SPI_DATAREAD) time.sleep(0.02) # required self.CSB.off() time.sleep_ms(2) self._spi.write_readinto(frame, frame) time.sleep_ms(2) self.CSB.on() for i, val in enumerate(frame): frame[i] = reverse_bit(val) # turn LSB data to MSB if self.debug: print("DEBUG: _read_data: ", [hex(i) for i in frame[1:]]) return frame[1:] # don't return the status byte def _write_data(self, framebytes): """Write a specified count of bytes to the PN532""" # start by making a frame with data write in front, # then rest of bytes, and LSBify it rev_frame = [reverse_bit(x) for x in bytes([_SPI_DATAWRITE]) + framebytes] if self.debug: print("DEBUG: _write_data: ", [hex(i) for i in rev_frame]) time.sleep(0.02) # required self.CSB.off() time.sleep_ms(2) self._spi.write(bytes(rev_frame)) # pylint: disable=no-member time.sleep_ms(2) self.CSB.on() def _write_frame(self, data): """Write a frame to the PN532 with the specified data bytearray.""" assert data is not None and 1 < len( data) < 255, 'Data must be array of 1 to 255 bytes.' # Build frame to send as: # - Preamble (0x00) # - Start code (0x00, 0xFF) # - Command length (1 byte) # - Command length checksum # - Command bytes # - Checksum # - Postamble (0x00) length = len(data) frame = bytearray(length+8) frame[0] = _PREAMBLE frame[1] = _STARTCODE1 frame[2] = _STARTCODE2 checksum = sum(frame[0:3]) frame[3] = length & 0xFF frame[4] = (~length + 1) & 0xFF frame[5:-2] = data checksum += sum(data) frame[-2] = ~checksum & 0xFF frame[-1] = _POSTAMBLE # Send frame. if self.debug: print('DEBUG: _write_frame: ', [hex(i) for i in frame]) self._write_data(bytes(frame)) def _read_frame(self, length): """Read a response frame from the PN532 of at most length bytes in size. Returns the data inside the frame if found, otherwise raises an exception if there is an error parsing the frame. Note that less than length bytes might be returned! """ # Read frame with expected length of data. response = self._read_data(length+8) if self.debug: print('DEBUG: _read_frame:', [hex(i) for i in response]) # Swallow all the 0x00 values that preceed 0xFF. offset = 0 while response[offset] == 0x00: offset += 1 if offset >= len(response): raise RuntimeError( 'Response frame preamble does not contain 0x00FF!') if response[offset] != 0xFF: raise RuntimeError( 'Response frame preamble does not contain 0x00FF!') offset += 1 if offset >= len(response): raise RuntimeError('Response contains no data!') # Check length & length checksum match. frame_len = response[offset] if (frame_len + response[offset+1]) & 0xFF != 0: raise RuntimeError( 'Response length checksum did not match length!') # Check frame checksum value matches bytes. checksum = sum(response[offset+2:offset+2+frame_len+1]) & 0xFF if checksum != 0: raise RuntimeError( 'Response checksum did not match expected value: ', checksum) # Return frame data. return response[offset+2:offset+2+frame_len] def call_function(self, command, response_length=0, params=[], timeout=1000): # pylint: disable=dangerous-default-value """Send specified command to the PN532 and expect up to response_length bytes back in a response. Note that less than the expected bytes might be returned! Params can optionally specify an array of bytes to send as parameters to the function call. Will wait up to timeout seconds for a response and return a bytearray of response bytes, or None if no response is available within the timeout. """ # Build frame data with command and parameters. data = bytearray(2+len(params)) data[0] = _HOSTTOPN532 data[1] = command & 0xFF for i, val in enumerate(params): data[2+i] = val # Send frame and wait for response. try: self._write_frame(data) except OSError: self._wakeup() return None if not self._wait_ready(timeout): if(self.debug): print('DEBUG: _wait_ready timed out waiting for ACK') return None # Verify ACK response and wait to be ready for function response. if not _ACK == self._read_data(len(_ACK)): raise RuntimeError('Did not receive expected ACK from PN532!') if not self._wait_ready(timeout): if(self.debug): print('DEBUG: _wait_ready timed out waiting for response') return None # Read response bytes. response = self._read_frame(response_length+2) if(self.debug): print('DEBUG: call_function response:', [hex(i) for i in response]) # Check that response is for the called function. if not (response[0] == _PN532TOHOST and response[1] == (command+1)): raise RuntimeError('Received unexpected command response!') # Return response data. return response[2:] def get_firmware_version(self): """Call PN532 GetFirmwareVersion function and return a tuple with the IC, Ver, Rev, and Support values. """ response = self.call_function( _COMMAND_GETFIRMWAREVERSION, 4, timeout=500) if response is None: raise RuntimeError('Failed to detect the PN532') return tuple(response) def SAM_configuration(self): # pylint: disable=invalid-name """Configure the PN532 to read MiFare cards.""" # Send SAM configuration command with configuration for: # - 0x01, normal mode # - 0x14, timeout 50ms * 20 = 1 second # - 0x01, use IRQ pin # Note that no other verification is necessary as call_function will # check the command was executed as expected. self.call_function(_COMMAND_SAMCONFIGURATION, params=[0x01, 0x14, 0x01]) def read_passive_target(self, card_baud=_MIFARE_ISO14443A, timeout=1000): """Wait for a MiFare card to be available and return its UID when found. Will wait up to timeout seconds and return None if no card is found, otherwise a bytearray with the UID of the found card is returned. """ # Send passive read command for 1 card. Expect at most a 7 byte UUID. try: response = self.call_function(_COMMAND_INLISTPASSIVETARGET, params=[0x01, card_baud], response_length=19, timeout=timeout) except BusyError: return None # no card found! # If no response is available return None to indicate no card is present. if response is None: return None # Check only 1 card with up to a 7 byte UID is present. if response[0] != 0x01: raise RuntimeError('More than one card detected!') if response[5] > 7: raise RuntimeError('Found card with unexpectedly long UID!') # Return UID of card. return response[6:6+response[5]] def ntag2xx_write_block(self, block_number, data): """Write a block of data to the card. Block number should be the block to write and data should be a byte array of length 4 with the data to write. If the data is successfully written then True is returned, otherwise False is returned. """ assert data is not None and len( data) == 4, 'Data must be an array of 4 bytes!' # Build parameters for InDataExchange command to do NTAG203 classic write. params = bytearray(3+len(data)) params[0] = 0x01 # Max card numbers params[1] = MIFARE_ULTRALIGHT_CMD_WRITE params[2] = block_number & 0xFF params[3:] = data # Send InDataExchange request. response = self.call_function(_COMMAND_INDATAEXCHANGE, params=params, response_length=1) return response[0] == 0x00 def ntag2xx_read_block(self, block_number): """Read a block of data from the card. Block number should be the block to read. If the block is successfully read a bytearray of length 16 with data starting at the specified block will be returned. If the block is not read then None will be returned. """ return self.mifare_classic_read_block(block_number)[0:4] # only 4 bytes per page def mifare_classic_read_block(self, block_number): """Read a block of data from the card. Block number should be the block to read. If the block is successfully read a bytearray of length 16 with data starting at the specified block will be returned. If the block is not read then None will be returned. """ # Send InDataExchange request to read block of MiFare data. response = self.call_function(_COMMAND_INDATAEXCHANGE, params=[0x01, MIFARE_CMD_READ, block_number & 0xFF], response_length=17) # Check first response is 0x00 to show success. if response[0] != 0x00: return None # Return first 4 bytes since 16 bytes are always returned. return response[1:] def mifare_classic_authenticate_block(self, uid, block_number, key_number=MIFARE_CMD_AUTH_B, key=KEY_DEFAULT_B): # pylint: disable=invalid-name """Authenticate specified block number for a MiFare classic card. Uid should be a byte array with the UID of the card, block number should be the block to authenticate, key number should be the key type (like MIFARE_CMD_AUTH_A or MIFARE_CMD_AUTH_B), and key should be a byte array with the key data. Returns True if the block was authenticated, or False if not authenticated. """ # Build parameters for InDataExchange command to authenticate MiFare card. uidlen = len(uid) keylen = len(key) params = bytearray(3 + uidlen + keylen) params[0] = 0x01 # Max card numbers params[1] = key_number & 0xFF params[2] = block_number & 0xFF params[3 : 3 + keylen] = key params[3 + keylen :] = uid # Send InDataExchange request and verify response is 0x00. response = self.call_function( _COMMAND_INDATAEXCHANGE, params=params, response_length=1 ) return response[0] == 0x00