def close(self):
try:
self.set_close_callback(None)
self.set_timeout_callback(None)
self._remove_timeout()
self._stream.close()
self._stream = HaltObject(MQTTConnectionClosed, 'stream closed')
self._stop_reading()
except MQTTConnectionClosed:
# already closed / interrupted
pass
def close(self):
try:
self.set_close_callback(None)
self.set_timeout_callback(None)
self._remove_timeout()
self._stream.close()
self._stream = HaltObject(MQTTConnectionClosed, 'stream closed')
self._stop_reading()
except MQTTConnectionClosed:
# already closed / interrupted
pass
class MQTTConnection():
def __init__(self, stream, address):
self._stream = stream
self._address = address
self._timeout_callback = None
self._timeout_callback_fcn = None
self._timeout = None
self._timeout_max_interval = 3600
self._read_async_result = None
self._on_close_callback_fcn = None
self._stream.set_close_callback(self._on_close_callback)
@property
def is_readable(self):
return not self.halted() and \
(not self.closed() or self.read_data_available())
def halted(self):
return isinstance(self._stream, HaltObject)
def closed(self):
try:
return self._stream.closed()
except MQTTConnectionClosed:
return True
def close(self):
try:
self.set_close_callback(None)
self.set_timeout_callback(None)
self._remove_timeout()
self._stream.close()
self._stream = HaltObject(MQTTConnectionClosed, 'stream closed')
self._stop_reading()
except MQTTConnectionClosed:
# already closed / interrupted
pass
def set_close_callback(self, callback):
self._on_close_callback_fcn = callback
def set_timeout_callback(self, callback):
self._timeout_callback_fcn = callback
if callback is None:
self._remove_timeout()
def set_timeout(self, seconds):
assert isinstance(seconds, int)
self._timeout = seconds if seconds > 0 else None
def closed_due_error(self):
return self._stream.error is None
def read_bytes_async(self, num_bytes):
"""
Read bytes from `self._stream` with timeout.
If there is result within the time limit, the Future returns the value.
Otherwise the Future raises toro.Timeout.
:param num_bytes: int
:return: Bytes read from stream (as a Future)
:rtype: Future
"""
self._read_async_result = AsyncResult()
def callback(r):
if not self._read_async_result.ready():
self._read_async_result.set(r)
elif self._read_async_result.exception:
# an exception was sat and the getter will raise it later
pass
else:
logger.error('attempting to set _read_async_result twice')
self._stream.read_bytes(num_bytes, callback=callback)
return self._read_async_result.get(self._get_next_timeout())
def read_data_available(self):
return self._stream._read_buffer_size > 0
@gen.coroutine
def read_message(self):
buffer = bytearray()
chunk = yield self.read_bytes_async(
MQTTConstants.MESSAGE_FIXED_HEADER_MINIMUM_SIZE)
buffer.extend(chunk)
while not MQTTUtils.is_length_field_complete(
buffer[MQTTConstants.MESSAGE_TYPE_LENGTH:]):
chunk = yield self.read_bytes_async(1)
buffer.extend(chunk)
msg_length, field_size = MQTTUtils.decode_length(
buffer[MQTTConstants.MESSAGE_TYPE_LENGTH:])
if msg_length > 0:
chunk = yield self.read_bytes_async(msg_length)
buffer.extend(chunk)
self._update_timeout()
return bytes(buffer)
def _stop_reading(self):
if self._read_async_result is not None and \
not self._read_async_result.ready():
self._read_async_result.set_exception(
MQTTConnectionClosed('Stop requested'))
@gen.coroutine
def write_message(self, msg):
assert isinstance(msg, BaseMQTTMessage)
yield gen.Task(self._stream.write, msg.raw_data)
def _remove_timeout(self):
if self._timeout_callback is not None:
IOLoop.instance().remove_timeout(self._timeout_callback)
self._timeout_callback = None
def _update_timeout(self):
self._remove_timeout()
if not self.closed():
timeout = self._get_next_timeout()
self._timeout_callback = IOLoop.instance().add_timeout(
timeout, self._on_connection_timeout)
def _get_next_timeout(self):
if self._timeout is not None and self._timeout > 0:
timeout = min(self._timeout, self._timeout_max_interval) * 1.5
else:
timeout = self._timeout_max_interval * 1.5
return timedelta(seconds=timeout)
def _on_connection_timeout(self):
self.close()
if callable(self._timeout_callback_fcn):
self._timeout_callback_fcn(self)
def _on_close_callback(self):
self._remove_timeout()
if callable(self._on_close_callback_fcn):
self._on_close_callback_fcn(self)
class MQTTConnection():
def __init__(self, stream, address):
self._stream = stream
self._address = address
self._timeout_callback = None
self._timeout_callback_fcn = None
self._timeout = None
self._timeout_max_interval = 3600
self._read_async_result = None
self._on_close_callback_fcn = None
self._stream.set_close_callback(self._on_close_callback)
@property
def is_readable(self):
return not self.halted() and \
(not self.closed() or self.read_data_available())
def halted(self):
return isinstance(self._stream, HaltObject)
def closed(self):
try:
return self._stream.closed()
except MQTTConnectionClosed:
return True
def close(self):
try:
self.set_close_callback(None)
self.set_timeout_callback(None)
self._remove_timeout()
self._stream.close()
self._stream = HaltObject(MQTTConnectionClosed, 'stream closed')
self._stop_reading()
except MQTTConnectionClosed:
# already closed / interrupted
pass
def set_close_callback(self, callback):
self._on_close_callback_fcn = callback
def set_timeout_callback(self, callback):
self._timeout_callback_fcn = callback
if callback is None:
self._remove_timeout()
def set_timeout(self, seconds):
assert isinstance(seconds, int)
self._timeout = seconds if seconds > 0 else None
def closed_due_error(self):
return self._stream.error is None
def read_bytes_async(self, num_bytes):
"""
Read bytes from `self._stream` with timeout.
If there is result within the time limit, the Future returns the value.
Otherwise the Future raises toro.Timeout.
:param num_bytes: int
:return: Bytes read from stream (as a Future)
:rtype: Future
"""
self._read_async_result = AsyncResult()
def callback(r):
if not self._read_async_result.ready():
self._read_async_result.set(r)
elif self._read_async_result.exception:
# an exception was sat and the getter will raise it later
pass
else:
logger.error('attempting to set _read_async_result twice')
self._stream.read_bytes(num_bytes, callback=callback)
return self._read_async_result.get(self._get_next_timeout())
def read_data_available(self):
return self._stream._read_buffer_size > 0
@gen.coroutine
def read_message(self):
buffer = bytearray()
chunk = yield self.read_bytes_async(MQTTConstants.MESSAGE_FIXED_HEADER_MINIMUM_SIZE)
buffer.extend(chunk)
while not MQTTUtils.is_length_field_complete(buffer[MQTTConstants.MESSAGE_TYPE_LENGTH:]):
chunk = yield self.read_bytes_async(1)
buffer.extend(chunk)
msg_length, field_size = MQTTUtils.decode_length(buffer[MQTTConstants.MESSAGE_TYPE_LENGTH:])
if msg_length > 0:
chunk = yield self.read_bytes_async(msg_length)
buffer.extend(chunk)
self._update_timeout()
return bytes(buffer)
def _stop_reading(self):
if self._read_async_result is not None and \
not self._read_async_result.ready():
self._read_async_result.set_exception(MQTTConnectionClosed('Stop requested'))
@gen.coroutine
def write_message(self, msg):
assert isinstance(msg, BaseMQTTMessage)
yield gen.Task(self._stream.write, msg.raw_data)
def _remove_timeout(self):
if self._timeout_callback is not None:
IOLoop.instance().remove_timeout(self._timeout_callback)
self._timeout_callback = None
def _update_timeout(self):
self._remove_timeout()
if not self.closed():
timeout = self._get_next_timeout()
self._timeout_callback = IOLoop.instance().add_timeout(timeout, self._on_connection_timeout)
def _get_next_timeout(self):
if self._timeout is not None and self._timeout > 0:
timeout = min(self._timeout, self._timeout_max_interval) * 1.5
else:
timeout = self._timeout_max_interval * 1.5
return timedelta(seconds=timeout)
def _on_connection_timeout(self):
self.close()
if callable(self._timeout_callback_fcn):
self._timeout_callback_fcn(self)
def _on_close_callback(self):
self._remove_timeout()
if callable(self._on_close_callback_fcn):
self._on_close_callback_fcn(self)
