def _setup_serial_port(self): def _success(device: str): self.device = device logging.debug('(ser) board connected to %s', self.device) return True waitchars = ['/', '-', '\\', '|'] if self.watchdog_timer.is_running(): logging.debug('watchdog timer is stopped now') self.watchdog_timer.stop() if self.serial: return True with self.lock: if self.given_device: if self._open_serial(self.given_device): return _success(self.given_device) else: for file in listdir('/dev'): if file.startswith('ttyACM') or file.startswith('ttyUSB') or file == 'rfcomm0': dev = path.join('/dev', file) if self._open_serial(dev): return _success(dev) if self._open_bluetooth(): return _success('/dev/rfcomm123') # text = self.dgttranslate.text('N00_noboard', 'Board' + waitchars[self.wait_counter]) bwait = 'Board' + waitchars[self.wait_counter] text = Dgt.DISPLAY_TEXT(l='no e-' + bwait, m='no' + bwait, s=bwait, wait=True, beep=False, maxtime=0.1, devs={'i2c', 'web'}) DisplayMsg.show(Message.DGT_NO_EBOARD_ERROR(text=text)) self.wait_counter = (self.wait_counter + 1) % len(waitchars) return False
def display_move_on_clock(self, message): """Display a move on the web clock.""" is_new_rev2 = self.dgtboard.is_revelation and self.dgtboard.enable_revelation_pi if self.enable_dgt3000 or is_new_rev2 or self.enable_dgtpi: bit_board, text = self.get_san(message, not self.enable_dgtpi) points = '...' if message.side == ClockSide.RIGHT else '.' if self.enable_dgtpi: text = '{:3d}{:s}{:s}'.format(bit_board.fullmove_number, points, text) else: text = '{:2d}{:s}{:s}'.format(bit_board.fullmove_number % 100, points, text) else: text = message.move.uci() if message.side == ClockSide.RIGHT: text = text[:2].rjust(3) + text[2:].rjust(3) else: text = text[:2].ljust(3) + text[2:].ljust(3) if self.get_name() not in message.devs: logging.debug('ignored %s - devs: %s', text, message.devs) return True self.clock_show_time = False self._create_clock_text() logging.debug('[%s]', text) self.shared['clock_text'] = text result = {'event': 'Clock', 'msg': text} DisplayMsg.show(Message.DISPLAY_TEXT(text=result)) EventHandler.write_to_clients(result) return True
def __init__(self, shared, dgtboard: DgtBoard): super(WebVr, self).__init__(dgtboard) self.shared = shared self.virtual_timer = None self.enable_dgtpi = dgtboard.is_pi sub = 2 if dgtboard.is_pi else 0 DisplayMsg.show(Message.DGT_CLOCK_VERSION(main=2, sub=sub, dev='web', text=None)) self.clock_show_time = True # keep the last time to find out errorous DGT_MSG_BWTIME messages (error: current time > last time) self.r_time = 3600 * 10 # max value cause 10h cant be reached by clock self.l_time = 3600 * 10 # max value cause 10h cant be reached by clock
def __init__(self, shared, dgtboard: DgtBoard): super(WebVr, self).__init__(dgtboard) self.shared = shared self.virtual_timer = None self.enable_dgtpi = dgtboard.is_pi sub = 2 if dgtboard.is_pi else 0 DisplayMsg.show( Message.DGT_CLOCK_VERSION(main=2, sub=sub, dev='web', text=None)) self.clock_show_time = True # keep the last time to find out errorous DGT_MSG_BWTIME messages (error: current time > last time) self.r_time = 3600 * 10 # max value cause 10h cant be reached by clock self.l_time = 3600 * 10 # max value cause 10h cant be reached by clock
def display_text_on_clock(self, message): """Display a text on the web clock.""" is_new_rev2 = self.dgtboard.is_revelation and self.dgtboard.enable_revelation_pi if self.enable_dgtpi or is_new_rev2: text = message.l else: text = message.m if self.enable_dgt3000 else message.s if self.get_name() not in message.devs: logging.debug('ignored %s - devs: %s', text, message.devs) return True self.clock_show_time = False self._create_clock_text() logging.debug('[%s]', text) self.shared['clock_text'] = text result = {'event': 'Clock', 'msg': text} EventHandler.write_to_clients(result) DisplayMsg.show(Message.DISPLAY_TEXT(text=result)) return True
def display_text_on_clock(self, message): """Display a text on the web clock.""" if self.enable_dgtpi: text = message.l else: text = message.m if self.enable_dgt3000 else message.s if text is None: text = message.m if self.get_name() not in message.devs: logging.debug('ignored %s - devs: %s', text, message.devs) return True self.clock_show_time = False self._create_clock_text() self.shared['clock_text'] = text result = {'event': 'Clock', 'msg': text} DisplayMsg.show(Message.DISPLAY_TEXT(text=result)) EventHandler.write_to_clients(result) return True
def _runclock(self): if self.side_running == ClockSide.LEFT: time_left = self.l_time - 1 if time_left <= 0: logging.info('negative/zero time left: %s', time_left) self.virtual_timer.stop() time_left = 0 self.l_time = time_left if self.side_running == ClockSide.RIGHT: time_right = self.r_time - 1 if time_right <= 0: logging.info('negative/zero time right: %s', time_right) self.virtual_timer.stop() time_right = 0 self.r_time = time_right logging.info('(web) clock new time received l:%s r:%s', hms_time(self.l_time), hms_time(self.r_time)) DisplayMsg.show(Message.DGT_CLOCK_TIME(time_left=self.l_time, time_right=self.r_time, connect=True, dev='web')) self._display_time(self.l_time, self.r_time)
def _runclock(self): if self.side_running == ClockSide.LEFT: time_left = self.l_time - 1 if time_left <= 0: logging.info('negative/zero time left: %s', time_left) self.virtual_timer.stop() time_left = 0 self.l_time = time_left if self.side_running == ClockSide.RIGHT: time_right = self.r_time - 1 if time_right <= 0: logging.info('negative/zero time right: %s', time_right) self.virtual_timer.stop() time_right = 0 self.r_time = time_right logging.info('(web) clock new time received l:%s r:%s', hms_time(self.l_time), hms_time(self.r_time)) DisplayMsg.show( Message.DGT_CLOCK_TIME(time_left=self.l_time, time_right=self.r_time, connect=True, dev='web')) self._display_time(self.l_time, self.r_time)
def _startup_i2c_clock(self): while self.lib.dgtpicom_init() < 0: logging.warning('Init() failed - Jack half connected?') DisplayMsg.show(Message.DGT_JACK_CONNECTED_ERROR()) time.sleep(0.5) # dont flood the log if self.lib.dgtpicom_configure() < 0: logging.warning('Configure() failed - Jack connected back?') DisplayMsg.show(Message.DGT_JACK_CONNECTED_ERROR()) DisplayMsg.show(Message.DGT_CLOCK_VERSION(main=2, sub=2, dev='i2c', text=None))
def _startup_i2c_clock(self): while self.lib.dgtpicom_init() < 0: logging.warning('Init() failed - Jack half connected?') DisplayMsg.show(Message.DGT_JACK_CONNECTED_ERROR()) time.sleep(0.5) # dont flood the log if self.lib.dgtpicom_configure() < 0: logging.warning('Configure() failed - Jack connected back?') DisplayMsg.show(Message.DGT_JACK_CONNECTED_ERROR()) DisplayMsg.show( Message.DGT_CLOCK_VERSION(main=2, sub=2, dev='i2c', text=None))
def _process_incoming_clock_forever(self): but = c_byte(0) buttime = c_byte(0) clktime = create_string_buffer(6) counter = 0 logging.info('incoming_clock ready') while True: with self.lib_lock: # get button events res = self.lib.dgtpicom_get_button_message( pointer(but), pointer(buttime)) if res > 0: ack3 = but.value if ack3 == 0x01: logging.info('(i2c) clock button 0 pressed') DisplayMsg.show(Message.DGT_BUTTON(button=0, dev='i2c')) if ack3 == 0x02: logging.info('(i2c) clock button 1 pressed') DisplayMsg.show(Message.DGT_BUTTON(button=1, dev='i2c')) if ack3 == 0x04: logging.info('(i2c) clock button 2 pressed') DisplayMsg.show(Message.DGT_BUTTON(button=2, dev='i2c')) if ack3 == 0x08: logging.info('(i2c) clock button 3 pressed') DisplayMsg.show(Message.DGT_BUTTON(button=3, dev='i2c')) if ack3 == 0x10: logging.info('(i2c) clock button 4 pressed') DisplayMsg.show(Message.DGT_BUTTON(button=4, dev='i2c')) if ack3 == 0x20: logging.info('(i2c) clock button on/off pressed') self.lib.dgtpicom_configure( ) # restart the clock - cause its OFF DisplayMsg.show( Message.DGT_BUTTON( button=0x20, dev='i2c')) # WD Fehlerbereinigung if ack3 == 0x11: logging.info('(i2c) clock button 0+4 pressed') DisplayMsg.show( Message.DGT_BUTTON(button=0x11, dev='i2c')) if ack3 == 0x40: logging.info( '(i2c) clock lever pressed > right side down') DisplayMsg.show( Message.DGT_BUTTON(button=0x40, dev='i2c')) if ack3 == -0x40: logging.info( '(i2c) clock lever pressed > left side down') DisplayMsg.show( Message.DGT_BUTTON(button=-0x40, dev='i2c')) if res < 0: logging.warning('GetButtonMessage returned error %i', res) # get time events self.lib.dgtpicom_get_time(clktime) times = list(clktime.raw) counter = (counter + 1) % 10 if counter == 0: l_hms = times[:3] r_hms = times[3:] logging.info('(i2c) clock new time received l:%s r:%s', l_hms, r_hms) if self.in_settime: logging.info( '(i2c) clock still not finished set time, sending old time' ) else: # DgtPi needs 2secs for a stopped clock to return the correct(!) time # we make it easy here and just set the time from the side counting down if self.side_running == ClockSide.LEFT: self.l_time = l_hms[0] * 3600 + l_hms[1] * 60 + l_hms[2] if self.side_running == ClockSide.RIGHT: self.r_time = r_hms[0] * 3600 + r_hms[1] * 60 + r_hms[2] text = Message.DGT_CLOCK_TIME(time_left=self.l_time, time_right=self.r_time, connect=True, dev='i2c') DisplayMsg.show(text) time.sleep(0.1)
def _process_incoming_clock_forever(self): but = c_byte(0) buttime = c_byte(0) clktime = create_string_buffer(6) counter = 0 logging.info('incoming_clock ready') while True: with self.lib_lock: # get button events res = self.lib.dgtpicom_get_button_message(pointer(but), pointer(buttime)) if res > 0: ack3 = but.value if ack3 == 0x01: logging.info('(i2c) clock button 0 pressed') DisplayMsg.show(Message.DGT_BUTTON(button=0, dev='i2c')) if ack3 == 0x02: logging.info('(i2c) clock button 1 pressed') DisplayMsg.show(Message.DGT_BUTTON(button=1, dev='i2c')) if ack3 == 0x04: logging.info('(i2c) clock button 2 pressed') DisplayMsg.show(Message.DGT_BUTTON(button=2, dev='i2c')) if ack3 == 0x08: logging.info('(i2c) clock button 3 pressed') DisplayMsg.show(Message.DGT_BUTTON(button=3, dev='i2c')) if ack3 == 0x10: logging.info('(i2c) clock button 4 pressed') DisplayMsg.show(Message.DGT_BUTTON(button=4, dev='i2c')) if ack3 == 0x20: logging.info('(i2c) clock button on/off pressed') self.lib.dgtpicom_configure() # restart the clock - cause its OFF DisplayMsg.show(Message.DGT_BUTTON(button=0x11, dev='i2c')) if ack3 == 0x11: logging.info('(i2c) clock button 0+4 pressed') DisplayMsg.show(Message.DGT_BUTTON(button=0x11, dev='i2c')) if ack3 == 0x40: logging.info('(i2c) clock lever pressed > right side down') DisplayMsg.show(Message.DGT_BUTTON(button=0x40, dev='i2c')) if ack3 == -0x40: logging.info('(i2c) clock lever pressed > left side down') DisplayMsg.show(Message.DGT_BUTTON(button=-0x40, dev='i2c')) if res < 0: logging.warning('GetButtonMessage returned error %i', res) # get time events self.lib.dgtpicom_get_time(clktime) times = list(clktime.raw) counter = (counter + 1) % 10 if counter == 0: l_hms = times[:3] r_hms = times[3:] logging.info('(i2c) clock new time received l:%s r:%s', l_hms, r_hms) if self.in_settime: logging.info('(i2c) clock still not finished set time, sending old time') else: # DgtPi needs 2secs for a stopped clock to return the correct(!) time # we make it easy here and just set the time from the side counting down if self.side_running == ClockSide.LEFT: self.l_time = l_hms[0] * 3600 + l_hms[1] * 60 + l_hms[2] if self.side_running == ClockSide.RIGHT: self.r_time = r_hms[0] * 3600 + r_hms[1] * 60 + r_hms[2] text = Message.DGT_CLOCK_TIME(time_left=self.l_time, time_right=self.r_time, connect=True, dev='i2c') DisplayMsg.show(text) time.sleep(0.1)
def _process_board_message(self, message_id: int, message: tuple, message_length: int): if False: # switch-case pass elif message_id == DgtMsg.DGT_MSG_VERSION: if message_length != 2: logging.warning('illegal length in data') board_version = str(message[0]) + '.' + str(message[1]) logging.debug('(ser) board version %0.2f', float(board_version)) self.write_command([DgtCmd.DGT_SEND_BRD ]) # Update the board => get first FEN if self.device.find('rfc') == -1: text_l, text_m, text_s = 'USB e-Board', 'USBboard', 'ok usb' self.channel = 'USB' else: btname5 = self.bt_name[-5:] if 'REVII' in self.bt_name: text_l, text_m, text_s = 'RevII ' + btname5, 'Rev' + btname5, 'b' + btname5 self.is_revelation = True self.write_command([DgtCmd.DGT_RETURN_LONG_SERIALNR]) elif 'DGT_BT' in self.bt_name: text_l, text_m, text_s = 'DGTBT ' + btname5, 'BT ' + btname5, 'b' + btname5 else: text_l, text_m, text_s = 'BT e-Board', 'BT board', 'ok bt' self.channel = 'BT' self.ask_battery_status() self.bconn_text = Dgt.DISPLAY_TEXT(l=text_l, m=text_m, s=text_s, wait=True, beep=False, maxtime=1.1, devs={'i2c', 'web' }) # serial clock lateron DisplayMsg.show( Message.DGT_EBOARD_VERSION(text=self.bconn_text, channel=self.channel)) self.startup_serial_clock() # now ask the serial clock to answer if self.watchdog_timer.is_running(): logging.warning('watchdog timer is already running') else: logging.debug('watchdog timer is started') self.watchdog_timer.start() elif message_id == DgtMsg.DGT_MSG_BWTIME: if message_length != 7: logging.warning('illegal length in data') if ((message[0] & 0x0f) == 0x0a) or ((message[3] & 0x0f) == 0x0a): # Clock ack message # Construct the ack message ack0 = ((message[1]) & 0x7f) | ((message[3] << 3) & 0x80) ack1 = ((message[2]) & 0x7f) | ((message[3] << 2) & 0x80) ack2 = ((message[4]) & 0x7f) | ((message[0] << 3) & 0x80) ack3 = ((message[5]) & 0x7f) | ((message[0] << 2) & 0x80) if ack0 != 0x10: logging.warning('(ser) clock ACK error %s', (ack0, ack1, ack2, ack3)) if self.last_clock_command: logging.debug( '(ser) clock resending failed message [%s]', self.last_clock_command) self.write_command(self.last_clock_command) self.last_clock_command = [] # only resend once return else: logging.debug('(ser) clock ACK okay [%s]', DgtAck(ack1)) if self.last_clock_command: cmd = self.last_clock_command[3] # type: DgtClk if cmd.value != ack1 and ack1 < 0x80: logging.warning( '(ser) clock ACK [%s] out of sync - last: [%s]', DgtAck(ack1), cmd) # @todo these lines are better as what is done on DgtHw but it doesnt work # if ack1 == DgtAck.DGT_ACK_CLOCK_SETNRUN.value: # logging.info('(ser) clock out of set time now') # self.in_settime = False if ack1 == DgtAck.DGT_ACK_CLOCK_BUTTON.value: # this are the other (ack2-ack3) codes # 05-49 33-52 17-51 09-50 65-53 | button 0-4 (single) # 37-52 21-51 13-50 69-53 | button 0 + 1-4 # 49-51 41-50 97-53 | button 1 + 2-4 # 25-50 81-53 | button 2 + 3-4 # 73-53 | button 3 + 4 if ack3 == 49: logging.info('(ser) clock button 0 pressed - ack2: %i', ack2) DisplayMsg.show(Message.DGT_BUTTON(button=0, dev='ser')) if ack3 == 52: logging.info('(ser) clock button 1 pressed - ack2: %i', ack2) DisplayMsg.show(Message.DGT_BUTTON(button=1, dev='ser')) if ack3 == 51: logging.info('(ser) clock button 2 pressed - ack2: %i', ack2) DisplayMsg.show(Message.DGT_BUTTON(button=2, dev='ser')) if ack3 == 50: logging.info('(ser) clock button 3 pressed - ack2: %i', ack2) DisplayMsg.show(Message.DGT_BUTTON(button=3, dev='ser')) if ack3 == 53: if ack2 == 69: logging.info( '(ser) clock button 0+4 pressed - ack2: %i', ack2) DisplayMsg.show( Message.DGT_BUTTON(button=0x11, dev='ser')) else: logging.info( '(ser) clock button 4 pressed - ack2: %i', ack2) DisplayMsg.show( Message.DGT_BUTTON(button=4, dev='ser')) if ack1 == DgtAck.DGT_ACK_CLOCK_VERSION.value: self.enable_ser_clock = True main = ack2 >> 4 sub = ack2 & 0x0f logging.debug('(ser) clock version %0.2f', float(str(main) + '.' + str(sub))) if self.bconn_text: self.bconn_text.devs = { 'ser' } # Now send the (delayed) message to serial clock dev = 'ser' else: dev = 'err' DisplayMsg.show( Message.DGT_CLOCK_VERSION(main=main, sub=sub, dev=dev, text=self.bconn_text)) elif any(message[:7]): r_hours = message[0] & 0x0f r_mins = (message[1] >> 4) * 10 + (message[1] & 0x0f) r_secs = (message[2] >> 4) * 10 + (message[2] & 0x0f) l_hours = message[3] & 0x0f l_mins = (message[4] >> 4) * 10 + (message[4] & 0x0f) l_secs = (message[5] >> 4) * 10 + (message[5] & 0x0f) r_time = r_hours * 3600 + r_mins * 60 + r_secs l_time = l_hours * 3600 + l_mins * 60 + l_secs errtim = r_hours > 9 or l_hours > 9 or r_mins > 59 or l_mins > 59 or r_secs > 59 or l_secs > 59 if errtim: # complete illegal package received logging.warning('(ser) clock illegal new time received %s', message) elif r_time > self.r_time or l_time > self.l_time: # the new time is higher as the old => ignore logging.warning( '(ser) clock strange old time received %s l:%s r:%s', message, hms_time(self.l_time), hms_time(self.r_time)) if self.in_settime: logging.info( '(ser) clock still in set mode, ignore received time' ) errtim = True elif r_time - self.r_time > 3600 or l_time - self.l_time > 3600: logging.info( '(ser) clock new time over 1h difference, ignore received time' ) errtim = True else: logging.info('(ser) clock new time received l:%s r:%s', hms_time(l_time), hms_time(r_time)) status = message[6] & 0x3f connect = not status & 0x20 if connect: right_side_down = -0x40 if status & 0x02 else 0x40 if self.lever_pos != right_side_down: logging.debug( '(ser) clock button status: 0x%x old lever: %s', status, self.lever_pos) if self.lever_pos is not None: DisplayMsg.show( Message.DGT_BUTTON(button=right_side_down, dev='ser')) self.lever_pos = right_side_down else: logging.info( '(ser) clock not connected, sending old time l:%s r:%s', hms_time(self.l_time), hms_time(self.r_time)) l_time = self.l_time r_time = self.r_time if self.in_settime: logging.info( '(ser) clock still in set mode, sending old time l:%s r:%s', hms_time(self.l_time), hms_time(self.r_time)) l_time = self.l_time r_time = self.r_time DisplayMsg.show( Message.DGT_CLOCK_TIME(time_left=l_time, time_right=r_time, connect=connect, dev='ser')) if not self.enable_ser_clock: dev = 'rev' if 'REVII' in self.bt_name else 'ser' if self.watchdog_timer.is_running( ): # a running watchdog means: board already found logging.info('(%s) clock restarting setup', dev) self.startup_serial_clock() else: logging.info( '(%s) clock sends messages already but (%s) board still not found', dev, dev) if not errtim: self.r_time = r_time self.l_time = l_time else: logging.debug('(ser) clock null message ignored') if self.clock_lock: logging.debug('(ser) clock unlocked after %.3f secs', time.time() - self.clock_lock) self.clock_lock = False elif message_id == DgtMsg.DGT_MSG_BOARD_DUMP: if message_length != 64: logging.warning('illegal length in data') piece_to_char = { 0x01: 'P', 0x02: 'R', 0x03: 'N', 0x04: 'B', 0x05: 'K', 0x06: 'Q', 0x07: 'p', 0x08: 'r', 0x09: 'n', 0x0a: 'b', 0x0b: 'k', 0x0c: 'q', 0x0d: '$', 0x0e: '%', 0x0f: '&', 0x00: '.' } board = '' for character in message: board += piece_to_char[character & 0x0f] logging.debug('\n' + '\n'.join( board[0 + i:8 + i] for i in range(0, len(board), 8))) # Show debug board # Create fen from board fen = '' empty = 0 for square in range(0, 64): if message[square] != 0 and message[ square] < 0x0d: # @todo for the moment ignore the special pieces if empty > 0: fen += str(empty) empty = 0 fen += piece_to_char[message[square] & 0x0f] else: empty += 1 if (square + 1) % 8 == 0: if empty > 0: fen += str(empty) empty = 0 if square < 63: fen += '/' # Attention! This fen is NOT flipped logging.debug('raw fen [%s]', fen) DisplayMsg.show(Message.DGT_FEN(fen=fen, raw=True)) elif message_id == DgtMsg.DGT_MSG_FIELD_UPDATE: if message_length != 2: logging.warning('illegal length in data') if self.field_timer_running: self.stop_field_timer() self.start_field_timer() elif message_id == DgtMsg.DGT_MSG_SERIALNR: if message_length != 5: logging.warning('illegal length in data') DisplayMsg.show( Message.DGT_SERIAL_NR( number=''.join([chr(elem) for elem in message]))) elif message_id == DgtMsg.DGT_MSG_LONG_SERIALNR: if message_length != 10: logging.warning('illegal length in data') number = ''.join([chr(elem) for elem in message]) self.enable_revelation_pi = float( number[:4]) >= 3.25 # "3.250010001"=yes "0000000001"=no logging.info('(rev) clock in PiMode: %s - serial: %s', 'yes' if self.enable_revelation_pi else 'no', number) elif message_id == DgtMsg.DGT_MSG_BATTERY_STATUS: if message_length != 9: logging.warning('illegal length in data') DisplayMsg.show(Message.BATTERY(percent=message[0])) else: # Default logging.warning('message not handled [%s]', DgtMsg(message_id))
def _process_board_message(self, message_id: int, message: tuple, message_length: int): if False: # switch-case pass elif message_id == DgtMsg.DGT_MSG_VERSION: if message_length != 2: logging.warning('illegal length in data') board_version = str(message[0]) + '.' + str(message[1]) logging.debug('(ser) board version %0.2f', float(board_version)) self.write_command([DgtCmd.DGT_SEND_BRD]) # Update the board => get first FEN if self.device.find('rfc') == -1: text_l, text_m, text_s = 'USB e-Board', 'USBboard', 'ok usb' self.channel = 'USB' else: btname5 = self.bt_name[-5:] if 'REVII' in self.bt_name: text_l, text_m, text_s = 'RevII ' + btname5, 'Rev' + btname5, 'b' + btname5 self.is_revelation = True self.write_command([DgtCmd.DGT_RETURN_LONG_SERIALNR]) elif 'DGT_BT' in self.bt_name: text_l, text_m, text_s = 'DGTBT ' + btname5, 'BT ' + btname5, 'b' + btname5 else: text_l, text_m, text_s = 'BT e-Board', 'BT board', 'ok bt' self.channel = 'BT' self.ask_battery_status() self.bconn_text = Dgt.DISPLAY_TEXT(l=text_l, m=text_m, s=text_s, wait=True, beep=False, maxtime=1.1, devs={'i2c', 'web'}) # serial clock lateron DisplayMsg.show(Message.DGT_EBOARD_VERSION(text=self.bconn_text, channel=self.channel)) self.startup_serial_clock() # now ask the serial clock to answer if self.watchdog_timer.is_running(): logging.warning('watchdog timer is already running') else: logging.debug('watchdog timer is started') self.watchdog_timer.start() elif message_id == DgtMsg.DGT_MSG_BWTIME: if message_length != 7: logging.warning('illegal length in data') if ((message[0] & 0x0f) == 0x0a) or ((message[3] & 0x0f) == 0x0a): # Clock ack message # Construct the ack message ack0 = ((message[1]) & 0x7f) | ((message[3] << 3) & 0x80) ack1 = ((message[2]) & 0x7f) | ((message[3] << 2) & 0x80) ack2 = ((message[4]) & 0x7f) | ((message[0] << 3) & 0x80) ack3 = ((message[5]) & 0x7f) | ((message[0] << 2) & 0x80) if ack0 != 0x10: logging.warning('(ser) clock ACK error %s', (ack0, ack1, ack2, ack3)) if self.last_clock_command: logging.debug('(ser) clock resending failed message [%s]', self.last_clock_command) self.write_command(self.last_clock_command) self.last_clock_command = [] # only resend once return else: logging.debug('(ser) clock ACK okay [%s]', DgtAck(ack1)) if self.last_clock_command: cmd = self.last_clock_command[3] # type: DgtClk if cmd.value != ack1 and ack1 < 0x80: logging.warning('(ser) clock ACK [%s] out of sync - last: [%s]', DgtAck(ack1), cmd) # @todo these lines are better as what is done on DgtHw but it doesnt work # if ack1 == DgtAck.DGT_ACK_CLOCK_SETNRUN.value: # logging.info('(ser) clock out of set time now') # self.in_settime = False if ack1 == DgtAck.DGT_ACK_CLOCK_BUTTON.value: # this are the other (ack2-ack3) codes # 05-49 33-52 17-51 09-50 65-53 | button 0-4 (single) # 37-52 21-51 13-50 69-53 | button 0 + 1-4 # 49-51 41-50 97-53 | button 1 + 2-4 # 25-50 81-53 | button 2 + 3-4 # 73-53 | button 3 + 4 if ack3 == 49: logging.info('(ser) clock button 0 pressed - ack2: %i', ack2) DisplayMsg.show(Message.DGT_BUTTON(button=0, dev='ser')) if ack3 == 52: logging.info('(ser) clock button 1 pressed - ack2: %i', ack2) DisplayMsg.show(Message.DGT_BUTTON(button=1, dev='ser')) if ack3 == 51: logging.info('(ser) clock button 2 pressed - ack2: %i', ack2) DisplayMsg.show(Message.DGT_BUTTON(button=2, dev='ser')) if ack3 == 50: logging.info('(ser) clock button 3 pressed - ack2: %i', ack2) DisplayMsg.show(Message.DGT_BUTTON(button=3, dev='ser')) if ack3 == 53: if ack2 == 69: logging.info('(ser) clock button 0+4 pressed - ack2: %i', ack2) DisplayMsg.show(Message.DGT_BUTTON(button=0x11, dev='ser')) else: logging.info('(ser) clock button 4 pressed - ack2: %i', ack2) DisplayMsg.show(Message.DGT_BUTTON(button=4, dev='ser')) if ack1 == DgtAck.DGT_ACK_CLOCK_VERSION.value: self.enable_ser_clock = True main = ack2 >> 4 sub = ack2 & 0x0f logging.debug('(ser) clock version %0.2f', float(str(main) + '.' + str(sub))) if self.bconn_text: self.bconn_text.devs = {'ser'} # Now send the (delayed) message to serial clock dev = 'ser' else: dev = 'err' DisplayMsg.show(Message.DGT_CLOCK_VERSION(main=main, sub=sub, dev=dev, text=self.bconn_text)) elif any(message[:7]): r_hours = message[0] & 0x0f r_mins = (message[1] >> 4) * 10 + (message[1] & 0x0f) r_secs = (message[2] >> 4) * 10 + (message[2] & 0x0f) l_hours = message[3] & 0x0f l_mins = (message[4] >> 4) * 10 + (message[4] & 0x0f) l_secs = (message[5] >> 4) * 10 + (message[5] & 0x0f) r_time = r_hours * 3600 + r_mins * 60 + r_secs l_time = l_hours * 3600 + l_mins * 60 + l_secs errtim = r_hours > 9 or l_hours > 9 or r_mins > 59 or l_mins > 59 or r_secs > 59 or l_secs > 59 if errtim: # complete illegal package received logging.warning('(ser) clock illegal new time received %s', message) elif r_time > self.r_time or l_time > self.l_time: # the new time is higher as the old => ignore logging.warning('(ser) clock strange old time received %s l:%s r:%s', message, hms_time(self.l_time), hms_time(self.r_time)) if self.in_settime: logging.info('(ser) clock still in set mode, ignore received time') errtim = True elif r_time - self.r_time > 3600 or l_time - self.l_time > 3600: logging.info('(ser) clock new time over 1h difference, ignore received time') errtim = True else: logging.info('(ser) clock new time received l:%s r:%s', hms_time(l_time), hms_time(r_time)) status = message[6] & 0x3f connect = not status & 0x20 if connect: right_side_down = -0x40 if status & 0x02 else 0x40 if self.lever_pos != right_side_down: logging.debug('(ser) clock button status: 0x%x old lever: %s', status, self.lever_pos) if self.lever_pos is not None: DisplayMsg.show(Message.DGT_BUTTON(button=right_side_down, dev='ser')) self.lever_pos = right_side_down else: logging.info('(ser) clock not connected, sending old time l:%s r:%s', hms_time(self.l_time), hms_time(self.r_time)) l_time = self.l_time r_time = self.r_time if self.in_settime: logging.info('(ser) clock still in set mode, sending old time l:%s r:%s', hms_time(self.l_time), hms_time(self.r_time)) l_time = self.l_time r_time = self.r_time DisplayMsg.show(Message.DGT_CLOCK_TIME(time_left=l_time, time_right=r_time, connect=connect, dev='ser')) if not self.enable_ser_clock: dev = 'rev' if 'REVII' in self.bt_name else 'ser' if self.watchdog_timer.is_running(): # a running watchdog means: board already found logging.info('(%s) clock restarting setup', dev) self.startup_serial_clock() else: logging.info('(%s) clock sends messages already but (%s) board still not found', dev, dev) if not errtim: self.r_time = r_time self.l_time = l_time else: logging.debug('(ser) clock null message ignored') if self.clock_lock: logging.debug('(ser) clock unlocked after %.3f secs', time.time() - self.clock_lock) self.clock_lock = False elif message_id == DgtMsg.DGT_MSG_BOARD_DUMP: if message_length != 64: logging.warning('illegal length in data') piece_to_char = { 0x01: 'P', 0x02: 'R', 0x03: 'N', 0x04: 'B', 0x05: 'K', 0x06: 'Q', 0x07: 'p', 0x08: 'r', 0x09: 'n', 0x0a: 'b', 0x0b: 'k', 0x0c: 'q', 0x0d: '$', 0x0e: '%', 0x0f: '&', 0x00: '.' } board = '' for character in message: board += piece_to_char[character & 0x0f] logging.debug('\n' + '\n'.join(board[0 + i:8 + i] for i in range(0, len(board), 8))) # Show debug board # Create fen from board fen = '' empty = 0 for square in range(0, 64): if message[square] != 0 and message[square] < 0x0d: # @todo for the moment ignore the special pieces if empty > 0: fen += str(empty) empty = 0 fen += piece_to_char[message[square] & 0x0f] else: empty += 1 if (square + 1) % 8 == 0: if empty > 0: fen += str(empty) empty = 0 if square < 63: fen += '/' # Attention! This fen is NOT flipped logging.debug('raw fen [%s]', fen) DisplayMsg.show(Message.DGT_FEN(fen=fen, raw=True)) elif message_id == DgtMsg.DGT_MSG_FIELD_UPDATE: if message_length != 2: logging.warning('illegal length in data') if self.field_timer_running: self.stop_field_timer() self.start_field_timer() elif message_id == DgtMsg.DGT_MSG_SERIALNR: if message_length != 5: logging.warning('illegal length in data') DisplayMsg.show(Message.DGT_SERIAL_NR(number=''.join([chr(elem) for elem in message]))) elif message_id == DgtMsg.DGT_MSG_LONG_SERIALNR: if message_length != 10: logging.warning('illegal length in data') number = ''.join([chr(elem) for elem in message]) self.enable_revelation_pi = float(number[:4]) >= 3.25 # "3.250010001"=yes "0000000001"=no logging.info('(rev) clock in PiMode: %s - serial: %s', 'yes' if self.enable_revelation_pi else 'no', number) elif message_id == DgtMsg.DGT_MSG_BATTERY_STATUS: if message_length != 9: logging.warning('illegal length in data') DisplayMsg.show(Message.BATTERY(percent=message[0])) else: # Default logging.warning('message not handled [%s]', DgtMsg(message_id))