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protocol.py
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protocol.py
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# See protocol.hpp for an overview of the protocol
import time
import struct
import sys
import threading
import traceback
#import fibre.utils
from fibre.utils import Event, wait_any, TimeoutError
import abc
if sys.version_info >= (3, 4):
ABC = abc.ABC
else:
ABC = abc.ABCMeta('ABC', (), {})
if sys.version_info < (3, 3):
from monotonic import monotonic
time.monotonic = monotonic
SYNC_BYTE = 0xAA
CRC8_INIT = 0x42
CRC16_INIT = 0x1337
PROTOCOL_VERSION = 1
CRC8_DEFAULT = 0x37 # this must match the polynomial in the C++ implementation
CRC16_DEFAULT = 0x3d65 # this must match the polynomial in the C++ implementation
MAX_PACKET_SIZE = 128
def calc_crc(remainder, value, polynomial, bitwidth):
topbit = (1 << (bitwidth - 1))
# Bring the next byte into the remainder.
remainder ^= (value << (bitwidth - 8))
for bitnumber in range(0,8):
if (remainder & topbit):
remainder = (remainder << 1) ^ polynomial
else:
remainder = (remainder << 1)
return remainder & ((1 << bitwidth) - 1)
def calc_crc8(remainder, value):
if isinstance(value, bytearray) or isinstance(value, bytes) or isinstance(value, list):
for byte in value:
if not isinstance(byte,int):
byte = ord(byte)
remainder = calc_crc(remainder, byte, CRC8_DEFAULT, 8)
else:
remainder = calc_crc(remainder, byte, CRC8_DEFAULT, 8)
return remainder
def calc_crc16(remainder, value):
if isinstance(value, bytearray) or isinstance(value, bytes) or isinstance(value, list):
for byte in value:
if not isinstance(byte, int):
byte = ord(byte)
remainder = calc_crc(remainder, byte, CRC16_DEFAULT, 16)
else:
remainder = calc_crc(remainder, value, CRC16_DEFAULT, 16)
return remainder
# Can be verified with http://www.sunshine2k.de/coding/javascript/crc/crc_js.html:
#print(hex(calc_crc8(0x12, [1, 2, 3, 4, 5, 0x10, 0x13, 0x37])))
#print(hex(calc_crc16(0xfeef, [1, 2, 3, 4, 5, 0x10, 0x13, 0x37])))
class DeviceInitException(Exception):
pass
class ChannelDamagedException(Exception):
"""
Raised when the channel is temporarily broken and a
resend of the message might be successful
"""
pass
class ChannelBrokenException(Exception):
"""
Raised when the channel is permanently broken
"""
pass
class StreamSource(ABC):
@abc.abstractmethod
def get_bytes(self, n_bytes, deadline):
pass
class StreamSink(ABC):
@abc.abstractmethod
def process_bytes(self, bytes):
pass
class PacketSource(ABC):
@abc.abstractmethod
def get_packet(self, deadline):
pass
class PacketSink(ABC):
@abc.abstractmethod
def process_packet(self, packet):
pass
class StreamToPacketSegmenter(StreamSink):
def __init__(self, output):
self._header = []
self._packet = []
self._packet_length = 0
self._output = output
def process_bytes(self, bytes):
"""
Processes an arbitrary number of bytes. If one or more full packets are
are received, they are sent to this instance's output PacketSink.
Incomplete packets are buffered between subsequent calls to this function.
"""
for byte in bytes:
if (len(self._header) < 3):
# Process header byte
self._header.append(byte)
if (len(self._header) == 1) and (self._header[0] != SYNC_BYTE):
self._header = []
elif (len(self._header) == 2) and (self._header[1] & 0x80):
self._header = [] # TODO: support packets larger than 128 bytes
elif (len(self._header) == 3) and calc_crc8(CRC8_INIT, self._header):
self._header = []
elif (len(self._header) == 3):
self._packet_length = self._header[1] + 2
else:
# Process payload byte
self._packet.append(byte)
# If both header and packet are fully received, hand it on to the packet processor
if (len(self._header) == 3) and (len(self._packet) == self._packet_length):
if calc_crc16(CRC16_INIT, self._packet) == 0:
self._output.process_packet(self._packet[:-2])
self._header = []
self._packet = []
self._packet_length = 0
class StreamBasedPacketSink(PacketSink):
def __init__(self, output):
self._output = output
def process_packet(self, packet):
if (len(packet) >= MAX_PACKET_SIZE):
raise NotImplementedError("packet larger than 127 currently not supported")
header = bytearray()
header.append(SYNC_BYTE)
header.append(len(packet))
header.append(calc_crc8(CRC8_INIT, header))
self._output.process_bytes(header)
self._output.process_bytes(packet)
# append CRC in big endian
crc16 = calc_crc16(CRC16_INIT, packet)
self._output.process_bytes(struct.pack('>H', crc16))
class PacketFromStreamConverter(PacketSource):
def __init__(self, input):
self._input = input
def get_packet(self, deadline):
"""
Requests bytes from the underlying input stream until a full packet is
received or the deadline is reached, in which case None is returned. A
deadline before the current time corresponds to non-blocking mode.
"""
while True:
header = bytes()
# TODO: sometimes this call hangs, even though the device apparently sent something
header = header + self._input.get_bytes_or_fail(1, deadline)
if (header[0] != SYNC_BYTE):
#print("sync byte mismatch")
continue
header = header + self._input.get_bytes_or_fail(1, deadline)
if (header[1] & 0x80):
#print("packet too large")
continue # TODO: support packets larger than 128 bytes
header = header + self._input.get_bytes_or_fail(1, deadline)
if calc_crc8(CRC8_INIT, header) != 0:
#print("crc8 mismatch")
continue
packet_length = header[1] + 2
#print("wait for {} bytes".format(packet_length))
packet = self._input.get_bytes_or_fail(packet_length, deadline)
if calc_crc16(CRC16_INIT, packet) != 0:
#print("crc16 mismatch")
continue
return packet[:-2]
class Channel(PacketSink):
# Choose these parameters to be sensible for a specific transport layer
_resend_timeout = 5.0 # [s]
_send_attempts = 5
def __init__(self, name, input, output, cancellation_token, logger):
"""
Params:
input: A PacketSource where this channel will source packets from on
demand. Alternatively packets can be provided to this channel
directly by calling process_packet on this instance.
output: A PacketSink where this channel will put outgoing packets.
"""
self._name = name
self._input = input
self._output = output
self._logger = logger
self._outbound_seq_no = 0
self._interface_definition_crc = 0
self._expected_acks = {}
self._responses = {}
self._my_lock = threading.Lock()
self._channel_broken = Event(cancellation_token)
self.start_receiver_thread(Event(self._channel_broken))
def start_receiver_thread(self, cancellation_token):
"""
Starts the receiver thread that processes incoming messages.
The thread quits as soon as the channel enters a broken state.
"""
def receiver_thread():
error_ctr = 0
try:
while (not cancellation_token.is_set() and not self._channel_broken.is_set()
and error_ctr < 10):
# Set an arbitrary deadline because the get_packet function
# currently doesn't support a cancellation_token
deadline = time.monotonic() + 1.0
try:
response = self._input.get_packet(deadline)
except TimeoutError:
continue # try again
except ChannelDamagedException:
error_ctr += 1
continue # try again
if (error_ctr > 0):
error_ctr -= 1
# Process response
# This should not throw an exception, otherwise the channel breaks
self.process_packet(response)
#print("receiver thread is exiting")
except Exception:
self._logger.debug("receiver thread is exiting: " + traceback.format_exc())
finally:
self._channel_broken.set()
t = threading.Thread(target=receiver_thread)
t.daemon = True
t.start()
def remote_endpoint_operation(self, endpoint_id, input, expect_ack, output_length):
if input is None:
input = bytearray(0)
if (len(input) >= 128):
raise Exception("packet larger than 127 currently not supported")
if (expect_ack):
endpoint_id |= 0x8000
self._my_lock.acquire()
try:
self._outbound_seq_no = ((self._outbound_seq_no + 1) & 0x7fff)
seq_no = self._outbound_seq_no
finally:
self._my_lock.release()
seq_no |= 0x80 # FIXME: we hardwire one bit of the seq-no to 1 to avoid conflicts with the ascii protocol
packet = struct.pack('<HHH', seq_no, endpoint_id, output_length)
packet = packet + input
crc16 = calc_crc16(CRC16_INIT, packet)
if (endpoint_id & 0x7fff == 0):
trailer = PROTOCOL_VERSION
else:
trailer = self._interface_definition_crc
#print("append trailer " + trailer)
packet = packet + struct.pack('<H', trailer)
if (expect_ack):
ack_event = Event()
self._expected_acks[seq_no] = ack_event
try:
attempt = 0
while (attempt < self._send_attempts):
self._my_lock.acquire()
try:
self._output.process_packet(packet)
except ChannelDamagedException:
attempt += 1
continue # resend
except TimeoutError:
attempt += 1
continue # resend
finally:
self._my_lock.release()
# Wait for ACK until the resend timeout is exceeded
try:
if wait_any(self._resend_timeout, ack_event, self._channel_broken) != 0:
raise ChannelBrokenException()
except TimeoutError:
attempt += 1
continue # resend
return self._responses.pop(seq_no)
# TODO: record channel statistics
raise ChannelBrokenException() # Too many resend attempts
finally:
self._expected_acks.pop(seq_no)
self._responses.pop(seq_no, None)
else:
# fire and forget
self._output.process_packet(packet)
return None
def remote_endpoint_read_buffer(self, endpoint_id):
"""
Handles reads from long endpoints
"""
# TODO: handle device that could (maliciously) send infinite stream
buffer = bytes()
while True:
chunk_length = 512
chunk = self.remote_endpoint_operation(endpoint_id, struct.pack("<I", len(buffer)), True, chunk_length)
if (len(chunk) == 0):
break
buffer += chunk
return buffer
def process_packet(self, packet):
#print("process packet")
packet = bytes(packet)
if (len(packet) < 2):
raise Exception("packet too short")
seq_no = struct.unpack('<H', packet[0:2])[0]
if (seq_no & 0x8000):
seq_no &= 0x7fff
ack_signal = self._expected_acks.get(seq_no, None)
if (ack_signal):
self._responses[seq_no] = packet[2:]
ack_signal.set()
#print("received ack for packet " + str(seq_no))
else:
print("received unexpected ACK: " + str(seq_no))
else:
#if (calc_crc16(CRC16_INIT, struct.pack('<HBB', PROTOCOL_VERSION, packet[-2], packet[-1]))):
# raise Exception("CRC16 mismatch")
print("endpoint requested")
# TODO: handle local endpoint operation