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- """
- Contains different types of devices belonging to the AD2USB family.
- """
-
- import usb.core
- import usb.util
- import time
- import threading
- import serial
- import serial.tools.list_ports
- import socket
- import traceback
- from pyftdi.pyftdi.ftdi import *
- from pyftdi.pyftdi.usbtools import *
- from . import util
- from .event import event
-
- class Device(object):
- """
- Generic parent device to all AD2USB products.
- """
-
- # Generic device events
- on_open = event.Event('Called when the device has been opened')
- on_close = event.Event('Called when the device has been closed')
- on_read = event.Event('Called when a line has been read from the device')
- on_write = event.Event('Called when data has been written to the device')
-
- def __init__(self):
- pass
-
- def __del__(self):
- pass
-
- class ReadThread(threading.Thread):
- """
- Reader thread which processes messages from the device.
- """
-
- def __init__(self, device):
- """
- Constructor
- """
- threading.Thread.__init__(self)
- self._device = device
- self._running = False
-
- def stop(self):
- """
- Stops the running thread.
- """
- self._running = False
-
- def run(self):
- """
- The actual read process.
- """
- self._running = True
-
- while self._running:
- try:
- self._device.read_line(timeout=10)
- except util.CommError, err:
- traceback.print_exc(err) # TEMP
- except util.TimeoutError, err:
- pass
-
- time.sleep(0.01)
-
- class USBDevice(Device):
- """
- AD2USB device exposed with PyFTDI's interface.
- """
-
- # Constants
- FTDI_VENDOR_ID = 0x0403
- FTDI_PRODUCT_ID = 0x6001
- BAUDRATE = 115200
-
- @staticmethod
- def find_all():
- """
- Returns all FTDI devices matching our vendor and product IDs.
- """
-
- devices = []
-
- try:
- devices = Ftdi.find_all([(USBDevice.FTDI_VENDOR_ID, USBDevice.FTDI_PRODUCT_ID)], nocache=True)
- except (usb.core.USBError, FtdiError), err:
- raise util.CommError('Error enumerating AD2USB devices: {0}'.format(str(err)))
-
- return devices
-
- def __init__(self, vid=FTDI_VENDOR_ID, pid=FTDI_PRODUCT_ID, serial=None, description=None, interface=0):
- """
- Constructor
- """
-
- Device.__init__(self)
-
- self._vendor_id = vid
- self._product_id = pid
- self._serial_number = serial
- self._description = description
- self._buffer = ''
- self._device = Ftdi()
- self._running = False
- self._interface = interface
- self._id = ''
-
- self._read_thread = Device.ReadThread(self)
-
- def open(self, baudrate=BAUDRATE, interface=None, index=0, no_reader_thread=False):
- """
- Opens the device.
- """
- # Set up defaults
- if baudrate is None:
- baudrate = USBDevice.BAUDRATE
-
- if self._interface is None and interface is None:
- self._interface = 0
-
- if interface is not None:
- self._interface = interface
-
- if index is None:
- index = 0
-
- # Open the device and start up the thread.
- try:
- self._device.open(self._vendor_id,
- self._product_id,
- self._interface,
- index,
- self._serial_number,
- self._description)
-
- self._device.set_baudrate(baudrate)
-
- self._id = 'USB {0}:{1}'.format(self._device.usb_dev.bus, self._device.usb_dev.address)
- except (usb.core.USBError, FtdiError), err:
- self.on_close()
-
- raise util.CommError('Error opening AD2USB device: {0}'.format(str(err)))
- else:
- self._running = True
- if not no_reader_thread:
- self._read_thread.start()
-
- self.on_open((self._serial_number, self._description))
-
- def close(self):
- """
- Closes the device.
- """
- try:
- self._running = False
- self._read_thread.stop()
-
- self._device.close()
-
- # HACK: Probably should fork pyftdi and make this call in .close().
- self._device.usb_dev.attach_kernel_driver(self._interface)
- except (FtdiError, usb.core.USBError):
- pass
-
- self.on_close()
-
- @property
- def id(self):
- return self._id
-
- def is_reader_alive(self):
- """
- Indicates whether or not the reader thread is alive.
- """
- return self._read_thread.is_alive()
-
- def stop_reader(self):
- """
- Stops the reader thread.
- """
- self._read_thread.stop()
-
- def write(self, data):
- """
- Writes data to the device.
- """
- self._device.write_data(data)
-
- self.on_write(data)
-
- def read(self):
- """
- Reads a single character from the device.
- """
- return self._device.read_data(1)
-
- def read_line(self, timeout=0.0):
- """
- Reads a line from the device.
- """
- start_time = time.time()
- got_line = False
- ret = None
-
- try:
- while self._running:
- buf = self._device.read_data(1)
-
- if buf != '':
- self._buffer += buf
-
- if buf == "\n":
- if len(self._buffer) > 1:
- if self._buffer[-2] == "\r":
- self._buffer = self._buffer[:-2]
-
- # ignore if we just got \r\n with nothing else in the buffer.
- if len(self._buffer) != 0:
- got_line = True
- break
- else:
- self._buffer = self._buffer[:-1]
-
- if timeout > 0 and time.time() - start_time > timeout:
- raise util.TimeoutError('Timeout while waiting for line terminator.')
-
- except (usb.core.USBError, FtdiError), err:
- raise util.CommError('Error reading from AD2USB device: {0}'.format(str(err)))
- else:
- if got_line:
- ret = self._buffer
- self._buffer = ''
-
- self.on_read(ret)
-
- return ret
-
-
- class SerialDevice(Device):
- """
- AD2USB or AD2SERIAL device exposed with the pyserial interface.
- """
-
- # Constants
- BAUDRATE = 19200
-
- @staticmethod
- def find_all(pattern=None):
- """
- Returns all serial ports present.
- """
- devices = []
-
- try:
- if pattern:
- devices = serial.tools.list_ports.grep(pattern)
- else:
- devices = serial.tools.list_ports.comports()
- except Exception, err:
- raise util.CommError('Error enumerating AD2SERIAL devices: {0}'.format(str(err)))
-
- return devices
-
- def __init__(self, interface=None):
- """
- Constructor
- """
- Device.__init__(self)
-
- self._device = serial.Serial(timeout=0) # Timeout = non-blocking to match pyftdi.
- self._read_thread = Device.ReadThread(self)
- self._buffer = ''
- self._running = False
- self._interface = interface
- self._id = interface
-
- def __del__(self):
- """
- Destructor
- """
- pass
-
- def open(self, baudrate=BAUDRATE, interface=None, index=None, no_reader_thread=False):
- """
- Opens the device.
- """
- # Set up the defaults
- if baudrate is None:
- baudrate = SerialDevice.BAUDRATE
-
- if self._interface is None and interface is None:
- raise util.NoDeviceError('No AD2SERIAL device interface specified.')
-
- if interface is not None:
- self._interface = interface
-
- self._device.baudrate = baudrate
- self._device.port = self._interface
-
- # Open the device and start up the reader thread.
- try:
- self._device.open()
- self._id = '{0}'.format(self._interface)
-
- except (serial.SerialException, ValueError), err:
- self.on_close()
-
- raise util.NoDeviceError('Error opening AD2SERIAL device on port {0}.'.format(interface))
- else:
- self._running = True
- self.on_open((None, "AD2SERIAL")) # TODO: Fixme.
-
- if not no_reader_thread:
- self._read_thread.start()
-
- def close(self):
- """
- Closes the device.
- """
- try:
- self._running = False
- self._read_thread.stop()
-
- self._device.close()
- except Exception, err:
- pass
-
- self.on_close()
-
- @property
- def id(self):
- return self._id
-
- def is_reader_alive(self):
- """
- Indicates whether or not the reader thread is alive.
- """
- return self._read_thread.is_alive()
-
- def stop_reader(self):
- """
- Stops the reader thread.
- """
- self._read_thread.stop()
-
- def write(self, data):
- """
- Writes data to the device.
- """
- try:
- self._device.write(data)
- except serial.SerialTimeoutException, err:
- pass
- else:
- self.on_write(data)
-
- def read(self):
- """
- Reads a single character from the device.
- """
- return self._device.read(1)
-
- def read_line(self, timeout=0.0):
- """
- Reads a line from the device.
- """
- start_time = time.time()
- got_line = False
- ret = None
-
- try:
- while self._running:
- buf = self._device.read(1)
-
- if buf != '' and buf != "\xff": # AD2SERIAL specifically apparently sends down \xFF on boot.
- self._buffer += buf
-
- if buf == "\n":
- if len(self._buffer) > 1:
- if self._buffer[-2] == "\r":
- self._buffer = self._buffer[:-2]
-
- # ignore if we just got \r\n with nothing else in the buffer.
- if len(self._buffer) != 0:
- got_line = True
- break
- else:
- self._buffer = self._buffer[:-1]
-
- if timeout > 0 and time.time() - start_time > timeout:
- raise util.TimeoutError('Timeout while waiting for line terminator.')
-
- except (OSError, serial.SerialException), err:
- raise util.CommError('Error reading from AD2SERIAL device: {0}'.format(str(err)))
- else:
- if got_line:
- ret = self._buffer
- self._buffer = ''
-
- self.on_read(ret)
-
- return ret
-
- class SocketDevice(Device):
- """
- Device that supports communication with an AD2USB that is exposed via ser2sock or another
- Serial to IP interface.
- """
-
- def __init__(self, interface=None):
- """
- Constructor
- """
- self._host = "localhost"
- self._port = 10000
- self._device = None
- self._buffer = ''
- self._running = False
- self._id = ''
-
- self._read_thread = Device.ReadThread(self)
-
- def __del__(self):
- """
- Destructor
- """
- pass
-
- def open(self, baudrate=None, interface=None, index=0, no_reader_thread=False):
- """
- Opens the device.
- """
- if interface is not None:
- self._host, self._port = interface
-
- try:
- self._device = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
- self._device.connect((self._host, self._port))
- self._id = '{0}:{1}'.format(self._host, self._port)
-
- except socket.error, err:
- self.on_close()
-
- traceback.print_exc(err) # TEMP
- else:
- self._running = True
-
- self.on_open((None, "AD2SOCKET")) # TEMP: Change me.
-
- if not no_reader_thread:
- self._read_thread.start()
-
- def close(self):
- """
- Closes the device.
- """
- self._running = False
-
- try:
- self._read_thread.stop()
- self._device.shutdown(socket.SHUT_RDWR) # Make sure that it closes immediately.
- self._device.close()
- except:
- pass
-
- self.on_close()
-
- @property
- def id(self):
- return self._id
-
- def is_reader_alive(self):
- """
- Indicates whether or not the reader thread is alive.
- """
- return self._read_thread.is_alive()
-
- def stop_reader(self):
- """
- Stops the reader thread.
- """
- self._read_thread.stop()
-
- def write(self, data):
- """
- Writes data to the device.
- """
- data_sent = self._device.send(data)
-
- if data_sent == 0:
- raise util.CommError('Error while sending data.')
- else:
- self.on_write(data)
-
- return data_sent
-
- def read(self):
- """
- Reads a single character from the device.
- """
- try:
- data = self._device.recv(1)
- except socket.error, err:
- raise util.CommError('Error while reading from device: {0}'.format(str(err)))
-
- # ??? - Should we trigger an on_read here as well?
-
- return data
-
- def read_line(self, timeout=0.0):
- """
- Reads a line from the device.
- """
- start_time = time.time()
- got_line = False
- ret = None
-
- try:
- while self._running:
- buf = self._device.recv(1)
-
- if buf != '':
- self._buffer += buf
-
- if buf == "\n":
- if len(self._buffer) > 1:
- if self._buffer[-2] == "\r":
- self._buffer = self._buffer[:-2]
-
- # ignore if we just got \r\n with nothing else in the buffer.
- if len(self._buffer) != 0:
- got_line = True
- break
- else:
- self._buffer = self._buffer[:-1]
-
- if timeout > 0 and time.time() - start_time > timeout:
- raise util.TimeoutError('Timeout while waiting for line terminator.')
-
- except socket.error, err:
- raise util.CommError('Error reading from Socket device: {0}'.format(str(err)))
- else:
- if got_line:
- ret = self._buffer
- self._buffer = ''
-
- self.on_read(ret)
-
- return ret
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