def __init__(self, name=None, baudrate=None, timeout=0.1): assert name != None, logger.error("Serial port not defined.") assert baudrate != None, logger.error("Serial baudrate not defined.") logger.info('init: Creating the Serial object.') # Call constructor threading.Thread.__init__(self) # Terminate thread event self.stop_event = threading.Event() # Serial port self.serial_port = None self.name = name self.baudrate = baudrate self.timeout = timeout # HDLC driver self.hdlc = Hdlc() # Receive variables self.receive_buffer = [] self.receive_message = [] self.receive_condition = threading.Condition() self.is_receiving = False self.rx_byte = '' self.last_rx_byte = '' # Transmit variables self.transmit_buffer = [] self.transmit_message = [] self.transmit_condition = threading.Condition() # Quality control variables self.tx_total_frames = 0 self.tx_good_frames = 0 self.tx_bad_frames = 0 self.rx_total_frames = 0 self.rx_good_frames = 0 self.rx_bad_frames = 0 try: logger.info( "init: Opening the serial port on {} at {} bps.".format( self.name, self.baudrate)) # Open the serial port self.serial_port = serial.Serial(port=self.name, baudrate=self.baudrate, timeout=self.timeout) except: logger.error( "init: Error while opening the serial port on {}.".format( self.name)) raise Exception else: logger.info("init: Serial object created.")
def __init__(self, serial_name=None, baud_rate=None, bsl_mode=None): assert serial_name != None, logger.error("Serial port not defined.") assert baud_rate != None, logger.error("Serial baudrate not defined.") assert bsl_mode != None, logger.error("Bootloader mode not defined.") logger.info('init: Creating the Serial object.') # Call constructor threading.Thread.__init__(self) # Set thread as daemon self.setDaemon(False) # Terminate thread event self.stop_event = threading.Event() # Serial port self.serial_port = None self.serial_name = serial_name self.baud_rate = baud_rate self.time_out = 1.0 self.bsl_mode = bsl_mode # HDLC driver self.hdlc = Hdlc() # Receive variables self.receive_buffer = '' self.receive_message = '' self.receive_condition = threading.Condition() self.is_receiving = False self.last_rx_byte = 0 # Transmit variables self.transmit_buffer = '' self.transmit_message = '' self.transmit_condition = threading.Condition() try: logger.info('init: Opening the serial port on %s at %s bps.', self.serial_name, self.baud_rate) # Open the serial port self.serial_port = serial.Serial(port=self.serial_name, baudrate=self.baud_rate, timeout=self.time_out) except: logger.error('init: Error while opening the serial port on %s.', self.serial_name) raise Exception else: logger.info('init: Serial object created.') if (self.bsl_mode == "true"): self.bsl_start()
def __init__(self, serial_name = None, baud_rate = None, bsl_mode = None): assert serial_name != None, logger.error("Serial port not defined.") assert baud_rate != None, logger.error("Serial baudrate not defined.") assert bsl_mode != None, logger.error("Bootloader mode not defined.") logger.info('init: Creating the Serial object.') # Call constructor threading.Thread.__init__(self) # Set thread as daemon self.setDaemon(False) # Terminate thread event self.stop_event = threading.Event() # Serial port self.serial_port = None self.serial_name = serial_name self.baud_rate = baud_rate self.time_out = 1.0 self.bsl_mode = bsl_mode # HDLC driver self.hdlc = Hdlc() # Receive variables self.receive_buffer = '' self.receive_message = '' self.receive_condition = threading.Condition() self.is_receiving = False self.last_rx_byte = 0 # Transmit variables self.transmit_buffer = '' self.transmit_message = '' self.transmit_condition = threading.Condition() try: logger.info('init: Opening the serial port on %s at %s bps.', self.serial_name, self.baud_rate) # Open the serial port self.serial_port = serial.Serial(port = self.serial_name, baudrate = self.baud_rate, timeout = self.time_out) except: logger.error('init: Error while opening the serial port on %s.', self.serial_name) raise Exception else: logger.info('init: Serial object created.') if (self.bsl_mode == "true"): self.bsl_start()
class Serial(threading.Thread): def __init__(self, serial_name = None, baud_rate = None, bsl_mode = None): assert serial_name != None, logger.error("Serial port not defined.") assert baud_rate != None, logger.error("Serial baudrate not defined.") assert bsl_mode != None, logger.error("Bootloader mode not defined.") logger.info('init: Creating the Serial object.') # Call constructor threading.Thread.__init__(self) # Set thread as daemon self.setDaemon(False) # Terminate thread event self.stop_event = threading.Event() # Serial port self.serial_port = None self.serial_name = serial_name self.baud_rate = baud_rate self.time_out = 1.0 self.bsl_mode = bsl_mode # HDLC driver self.hdlc = Hdlc() # Receive variables self.receive_buffer = '' self.receive_message = '' self.receive_condition = threading.Condition() self.is_receiving = False self.last_rx_byte = 0 # Transmit variables self.transmit_buffer = '' self.transmit_message = '' self.transmit_condition = threading.Condition() try: logger.info('init: Opening the serial port on %s at %s bps.', self.serial_name, self.baud_rate) # Open the serial port self.serial_port = serial.Serial(port = self.serial_name, baudrate = self.baud_rate, timeout = self.time_out) except: logger.error('init: Error while opening the serial port on %s.', self.serial_name) raise Exception else: logger.info('init: Serial object created.') if (self.bsl_mode == "true"): self.bsl_start() # Runs the MoteProbe thread def run(self): logger.info("run: Starting the Serial object.") if (self.serial_port == None): return # Flush the serial input/ouput self.serial_port.flushInput() self.serial_port.flushOutput() # Execute while thread is alive while (not self.stop_event.isSet()): try: # Try to receive a byte from the serial port (blocking) self.rx_byte = self.serial_port.read(size = 1) except: logger.error('run: Error while receiving from the serial port on %s.', self.serial_port) # Terminate the thread self.stop() # Break the loop break # Start of frame if ((not self.is_receiving) and (self.last_rx_byte == self.hdlc.HDLC_FLAG) and (self.rx_byte != self.hdlc.HDLC_FLAG)): self.is_receiving = True self.receive_buffer = self.hdlc.HDLC_FLAG self.receive_buffer += self.rx_byte # Middle of HDLC frame elif ((self.is_receiving) and (self.rx_byte != self.hdlc.HDLC_FLAG)): self.receive_buffer += self.rx_byte # End of HDLC frame elif ((self.is_receiving) and (self.rx_byte == self.hdlc.HDLC_FLAG)): # Receive the last byte self.receive_buffer += self.rx_byte # Reset the variables self.is_receiving = False self.last_rx_byte = '' self.rx_byte = '' try: logger.debug('run: Received an HDLC frame from the Serial port, now de-HDLCifying it.') self.receive_message = self.hdlc.dehdlcify(self.receive_buffer) except: logger.error('run: Error while de-HDLCifying the frame received from the Serial port.') self.receive_buffer = '' self.receive_message = '' else: # Acquire the transmit condition self.receive_condition.acquire() # Notify the transmit condition self.receive_condition.notify() # Release the transmit condition self.receive_condition.release() # Reset the receive buffer self.receive_buffer = '' else: # Acquire the transmit condition self.transmit_condition.acquire() # Check if there is something to transmit if (not self.is_receiving and self.transmit_message): logger.debug('run: HDLCifying the transmit buffer.') # HDLCify the message self.transmit_buffer = self.hdlc.hdlcify(self.transmit_message) logger.debug('run: Now transmitting the message.') # Send the message through the serial port (blocking) self.serial_port.write(self.transmit_buffer) # Empty the transmit message and buffer self.transmit_message = '' # Release the transmit condition self.transmit_condition.release() # Always save the last received byte self.last_rx_byte = self.rx_byte # Stops the thread def stop(self): logger.info('stop: Stopping the Serial port.') # Terminates the thread self.stop_event.set() if (self.serial_port != None and self.bsl_mode == "true"): self.bsl_stop() # Receive a message def receive(self): status = True message = None length = 0 # Acquire the receive condition self.receive_condition.acquire() # Try to receive a message with timeout self.receive_condition.wait(0.5) # If we really got a message, copy it! if (not self.is_receiving and self.receive_message): message = self.receive_message length = len(self.receive_message) logger.info('receive: Received a message with %d bytes.', length) # Reset the receive message self.receive_message = '' # Release the receive condition self.receive_condition.release() # Get the status of the thread status = self.stop_event.isSet() # Return the received message and length return (status, message, length) # Transmit a message def transmit(self, message): logger.info('transmit: Got a message to transmit with %d bytes.', len(message)) # Acquire the transmit condition self.transmit_condition.acquire() # Copy the message self.transmit_message = message # Release the transmit condition self.transmit_condition.release() def bsl_start(self): self.serial_port.setDTR(High) time.sleep(0.1) self.serial_port.setRTS(Low) time.sleep(0.1) self.serial_port.setDTR(Low) def bsl_stop(self): self.serial_port.setDTR(High) time.sleep(0.1) self.serial_port.setRTS(Low) time.sleep(0.1) self.serial_port.setDTR(Low)
class Serial(threading.Thread): def __init__(self, name=None, baudrate=None, timeout=0.1): assert name != None, logger.error("Serial port not defined.") assert baudrate != None, logger.error("Serial baudrate not defined.") logger.info('init: Creating the Serial object.') # Call constructor threading.Thread.__init__(self) # Terminate thread event self.stop_event = threading.Event() # Serial port self.serial_port = None self.name = name self.baudrate = baudrate self.timeout = timeout # HDLC driver self.hdlc = Hdlc() # Receive variables self.receive_buffer = [] self.receive_message = [] self.receive_condition = threading.Condition() self.is_receiving = False self.rx_byte = '' self.last_rx_byte = '' # Transmit variables self.transmit_buffer = [] self.transmit_message = [] self.transmit_condition = threading.Condition() # Quality control variables self.tx_total_frames = 0 self.tx_good_frames = 0 self.tx_bad_frames = 0 self.rx_total_frames = 0 self.rx_good_frames = 0 self.rx_bad_frames = 0 try: logger.info( "init: Opening the serial port on {} at {} bps.".format( self.name, self.baudrate)) # Open the serial port self.serial_port = serial.Serial(port=self.name, baudrate=self.baudrate, timeout=self.timeout) except: logger.error( "init: Error while opening the serial port on {}.".format( self.name)) raise Exception else: logger.info("init: Serial object created.") # Runs the thread def run(self): logger.info("run: Starting the Serial.") if (self.serial_port == None): raise # Flush the serial input/ouput self.serial_port.flushInput() self.serial_port.flushOutput() # Execute while thread is alive while (not self.stop_event.isSet()): rx_bytes = [] rx_length = 0 try: # Read the number of bytes available rx_length = self.serial_port.in_waiting # If bytes are available read them if (rx_length > 0): logger.debug( "run: Read {} bytes from serial port on {}.".format( rx_length, self.serial_port)) # Try to receive a byte from the serial port (blocking) rx_bytes = self.serial_port.read(size=rx_length) except: logger.error( "run: Error while receiving from the serial port on {}.". format(self.serial_port)) # Terminate the thread self.stop() # Break the loop break # Iterate over received bytes for rx_byte in rx_bytes: # Recover byte self.rx_byte = rx_byte # Start of frame if ((not self.is_receiving) and (self.last_rx_byte == self.hdlc.HDLC_FLAG) and (self.rx_byte != self.hdlc.HDLC_FLAG)): logger.debug("run: Start of HDLC frame.") self.is_receiving = True self.receive_buffer = [] self.receive_buffer.append(self.hdlc.HDLC_FLAG) self.receive_buffer.append(self.rx_byte) # Middle of HDLC frame elif ((self.is_receiving) and (self.rx_byte != self.hdlc.HDLC_FLAG)): logger.debug("run: Middle of HDLC frame.") self.receive_buffer.append(self.rx_byte) # End of HDLC frame elif ((self.is_receiving) and (self.rx_byte == self.hdlc.HDLC_FLAG)): logger.debug("run: End of HDLC frame.") # Receive the last byte self.receive_buffer.append(self.rx_byte) # Reset the variables self.is_receiving = False self.last_rx_byte = '' self.rx_byte = '' # Compute statistics self.rx_total_frames += 1 try: logger.debug( "run: Received an HDLC frame from the Serial port, now de-HDLCifying it." ) # Receive me self.receive_message = self.hdlc.dehdlcify( self.receive_buffer) # Compute statistics self.rx_good_frames += 1 except: logger.error( "run: Error while de-HDLCifying the frame received from the Serial port." ) # Clean buffers self.receive_buffer = [] self.receive_message = [] # Compute statistics self.rx_bad_frames += 1 else: # Acquire the receive condition self.receive_condition.acquire() # Notify the receive condition self.receive_condition.notify() # Release the transmit condition self.receive_condition.release() # Reset the receive buffer self.receive_buffer = [] # Always save the last received byte self.last_rx_byte = self.rx_byte # If no bytes were received, sleep if (rx_length == 0): # Sleep for a while time.sleep(self.timeout) # Close the serial port self.serial_port.close() # Stops the thread def stop(self): logger.info("stop: Stopping the {} serial port.".format(self.name)) # Terminates the thread self.stop_event.set() # Receive a message def receive(self, timeout=0.1): status = True message = [] length = -1 # Acquire the lock self.receive_condition.acquire() # Try to receive a message with timeout self.receive_condition.wait(timeout) # If we really got a message, copy it! if (self.receive_message): message = self.receive_message length = len(message) logger.info( "receive: Received a message with {} bytes.".format(length)) # Reset the receive message self.receive_message = [] # Release the receive condition self.receive_condition.release() # Get the status of the thread status = self.stop_event.isSet() # Return the received message and length return (message, length) # Transmit a message def transmit(self, message): logger.info( "transmit: Got a message to transmit with {} bytes.".format( len(message))) # Compute statistics self.tx_total_frames += 1 try: logger.debug("transmit: HDLCifying the transmit buffer.") # HDLCify the message self.transmit_buffer = self.hdlc.hdlcify(message) except: logger.error("transmit: Error HDLCifying the transmit buffer.") # Compute statistics self.tx_bad_frames += 1 raise try: logger.debug("run: Transmitting the message with {} bytes.".format( len(self.transmit_buffer))) # Send the message through the serial port (blocking) self.serial_port.write(self.transmit_buffer) except: logger.error("transmit: Error transmitting the transmit buffer.") # Compute statistics self.tx_bad_frames += 1 raise # Compute statistics self.tx_good_frames += 1 def clear_statistics(self): self.tx_total_frames = 0 self.tx_good_frames = 0 self.tx_bad_frames = 0 self.rx_total_frames = 0 self.rx_good_frames = 0 self.rx_bad_frames = 0 def get_statistics(self): return "TX Total={}, TX Good={}, TX Bad={}, RX Total={}, RX Good={}, RX Bad={}".format( self.tx_total_frames, self.tx_good_frames, self.tx_bad_frames, self.rx_total_frames, self.rx_good_frames, self.rx_bad_frames)
class Serial(threading.Thread): def __init__(self, serial_name=None, baud_rate=None, bsl_mode=None): assert serial_name != None, logger.error("Serial port not defined.") assert baud_rate != None, logger.error("Serial baudrate not defined.") assert bsl_mode != None, logger.error("Bootloader mode not defined.") logger.info('init: Creating the Serial object.') # Call constructor threading.Thread.__init__(self) # Set thread as daemon self.setDaemon(False) # Terminate thread event self.stop_event = threading.Event() # Serial port self.serial_port = None self.serial_name = serial_name self.baud_rate = baud_rate self.time_out = 1.0 self.bsl_mode = bsl_mode # HDLC driver self.hdlc = Hdlc() # Receive variables self.receive_buffer = '' self.receive_message = '' self.receive_condition = threading.Condition() self.is_receiving = False self.last_rx_byte = 0 # Transmit variables self.transmit_buffer = '' self.transmit_message = '' self.transmit_condition = threading.Condition() try: logger.info('init: Opening the serial port on %s at %s bps.', self.serial_name, self.baud_rate) # Open the serial port self.serial_port = serial.Serial(port=self.serial_name, baudrate=self.baud_rate, timeout=self.time_out) except: logger.error('init: Error while opening the serial port on %s.', self.serial_name) raise Exception else: logger.info('init: Serial object created.') if (self.bsl_mode == "true"): self.bsl_start() # Runs the MoteProbe thread def run(self): logger.info("run: Starting the Serial object.") if (self.serial_port == None): return # Flush the serial input/ouput self.serial_port.flushInput() self.serial_port.flushOutput() # Execute while thread is alive while (not self.stop_event.isSet()): try: # Try to receive a byte from the serial port (blocking) self.rx_byte = self.serial_port.read(size=1) except: logger.error( 'run: Error while receiving from the serial port on %s.', self.serial_port) # Terminate the thread self.stop() # Break the loop break # Start of frame if ((not self.is_receiving) and (self.last_rx_byte == self.hdlc.HDLC_FLAG) and (self.rx_byte != self.hdlc.HDLC_FLAG)): self.is_receiving = True self.receive_buffer = self.hdlc.HDLC_FLAG self.receive_buffer += self.rx_byte # Middle of HDLC frame elif ((self.is_receiving) and (self.rx_byte != self.hdlc.HDLC_FLAG)): self.receive_buffer += self.rx_byte # End of HDLC frame elif ((self.is_receiving) and (self.rx_byte == self.hdlc.HDLC_FLAG)): # Receive the last byte self.receive_buffer += self.rx_byte # Reset the variables self.is_receiving = False self.last_rx_byte = '' self.rx_byte = '' try: logger.debug( 'run: Received an HDLC frame from the Serial port, now de-HDLCifying it.' ) self.receive_message = self.hdlc.dehdlcify( self.receive_buffer) except: logger.error( 'run: Error while de-HDLCifying the frame received from the Serial port.' ) self.receive_buffer = '' self.receive_message = '' else: # Acquire the transmit condition self.receive_condition.acquire() # Notify the transmit condition self.receive_condition.notify() # Release the transmit condition self.receive_condition.release() # Reset the receive buffer self.receive_buffer = '' else: # Acquire the transmit condition self.transmit_condition.acquire() # Check if there is something to transmit if (not self.is_receiving and self.transmit_message): logger.debug('run: HDLCifying the transmit buffer.') # HDLCify the message self.transmit_buffer = self.hdlc.hdlcify( self.transmit_message) logger.debug('run: Now transmitting the message.') # Send the message through the serial port (blocking) self.serial_port.write(self.transmit_buffer) # Empty the transmit message and buffer self.transmit_message = '' # Release the transmit condition self.transmit_condition.release() # Always save the last received byte self.last_rx_byte = self.rx_byte # Stops the thread def stop(self): logger.info('stop: Stopping the Serial port.') # Terminates the thread self.stop_event.set() if (self.serial_port != None and self.bsl_mode == "true"): self.bsl_stop() # Receive a message def receive(self): status = True message = None length = 0 # Acquire the receive condition self.receive_condition.acquire() # Try to receive a message with timeout self.receive_condition.wait(0.5) # If we really got a message, copy it! if (not self.is_receiving and self.receive_message): message = self.receive_message length = len(self.receive_message) logger.info('receive: Received a message with %d bytes.', length) # Reset the receive message self.receive_message = '' # Release the receive condition self.receive_condition.release() # Get the status of the thread status = self.stop_event.isSet() # Return the received message and length return (status, message, length) # Transmit a message def transmit(self, message): logger.info('transmit: Got a message to transmit with %d bytes.', len(message)) # Acquire the transmit condition self.transmit_condition.acquire() # Copy the message self.transmit_message = message # Release the transmit condition self.transmit_condition.release() def bsl_start(self): self.serial_port.setDTR(High) time.sleep(0.1) self.serial_port.setRTS(Low) time.sleep(0.1) self.serial_port.setDTR(Low) def bsl_stop(self): self.serial_port.setDTR(High) time.sleep(0.1) self.serial_port.setRTS(Low) time.sleep(0.1) self.serial_port.setDTR(Low)