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fuchsia / third_party / grpc / refs/heads/main / . / src / python / grpcio / grpc / _channel.py
blob: 3572737c87425a3d2d6d3e872786d8c562fc4667 [file] [log] [blame]
# Copyright 2016 gRPC authors.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Invocation-side implementation of gRPC Python."""
import sys
import threading
import time
import logging
import grpc
from grpc import _common
from grpc import _grpcio_metadata
from grpc._cython import cygrpc
from grpc.framework.foundation import callable_util
_USER_AGENT = 'grpc-python/{}'.format(_grpcio_metadata.__version__)
_EMPTY_FLAGS = 0
_INFINITE_FUTURE = cygrpc.Timespec(float('+inf'))
_UNARY_UNARY_INITIAL_DUE = (cygrpc.OperationType.send_initial_metadata,
cygrpc.OperationType.send_message,
cygrpc.OperationType.send_close_from_client,
cygrpc.OperationType.receive_initial_metadata,
cygrpc.OperationType.receive_message,
cygrpc.OperationType.receive_status_on_client,)
_UNARY_STREAM_INITIAL_DUE = (cygrpc.OperationType.send_initial_metadata,
cygrpc.OperationType.send_message,
cygrpc.OperationType.send_close_from_client,
cygrpc.OperationType.receive_initial_metadata,
cygrpc.OperationType.receive_status_on_client,)
_STREAM_UNARY_INITIAL_DUE = (cygrpc.OperationType.send_initial_metadata,
cygrpc.OperationType.receive_initial_metadata,
cygrpc.OperationType.receive_message,
cygrpc.OperationType.receive_status_on_client,)
_STREAM_STREAM_INITIAL_DUE = (cygrpc.OperationType.send_initial_metadata,
cygrpc.OperationType.receive_initial_metadata,
cygrpc.OperationType.receive_status_on_client,)
_CHANNEL_SUBSCRIPTION_CALLBACK_ERROR_LOG_MESSAGE = (
'Exception calling channel subscription callback!')
def _deadline(timeout):
if timeout is None:
return None, _INFINITE_FUTURE
else:
deadline = time.time() + timeout
return deadline, cygrpc.Timespec(deadline)
def _unknown_code_details(unknown_cygrpc_code, details):
return 'Server sent unknown code {} and details "{}"'.format(
unknown_cygrpc_code, details)
def _wait_once_until(condition, until):
if until is None:
condition.wait()
else:
remaining = until - time.time()
if remaining < 0:
raise grpc.FutureTimeoutError()
else:
condition.wait(timeout=remaining)
_INTERNAL_CALL_ERROR_MESSAGE_FORMAT = (
'Internal gRPC call error %d. ' +
'Please report to https://github.com/grpc/grpc/issues')
def _check_call_error(call_error, metadata):
if call_error == cygrpc.CallError.invalid_metadata:
raise ValueError('metadata was invalid: %s' % metadata)
elif call_error != cygrpc.CallError.ok:
raise ValueError(_INTERNAL_CALL_ERROR_MESSAGE_FORMAT % call_error)
def _call_error_set_RPCstate(state, call_error, metadata):
if call_error == cygrpc.CallError.invalid_metadata:
_abort(state, grpc.StatusCode.INTERNAL,
'metadata was invalid: %s' % metadata)
else:
_abort(state, grpc.StatusCode.INTERNAL,
_INTERNAL_CALL_ERROR_MESSAGE_FORMAT % call_error)
class _RPCState(object):
def __init__(self, due, initial_metadata, trailing_metadata, code, details):
self.condition = threading.Condition()
# The cygrpc.OperationType objects representing events due from the RPC's
# completion queue.
self.due = set(due)
self.initial_metadata = initial_metadata
self.response = None
self.trailing_metadata = trailing_metadata
self.code = code
self.details = details
# The semantics of grpc.Future.cancel and grpc.Future.cancelled are
# slightly wonky, so they have to be tracked separately from the rest of the
# result of the RPC. This field tracks whether cancellation was requested
# prior to termination of the RPC.
self.cancelled = False
self.callbacks = []
def _abort(state, code, details):
if state.code is None:
state.code = code
state.details = details
if state.initial_metadata is None:
state.initial_metadata = ()
state.trailing_metadata = ()
def _handle_event(event, state, response_deserializer):
callbacks = []
for batch_operation in event.batch_operations:
operation_type = batch_operation.type()
state.due.remove(operation_type)
if operation_type == cygrpc.OperationType.receive_initial_metadata:
state.initial_metadata = batch_operation.initial_metadata()
elif operation_type == cygrpc.OperationType.receive_message:
serialized_response = batch_operation.message()
if serialized_response is not None:
response = _common.deserialize(serialized_response,
response_deserializer)
if response is None:
details = 'Exception deserializing response!'
_abort(state, grpc.StatusCode.INTERNAL, details)
else:
state.response = response
elif operation_type == cygrpc.OperationType.receive_status_on_client:
state.trailing_metadata = batch_operation.trailing_metadata()
if state.code is None:
code = _common.CYGRPC_STATUS_CODE_TO_STATUS_CODE.get(
batch_operation.code())
if code is None:
state.code = grpc.StatusCode.UNKNOWN
state.details = _unknown_code_details(
code, batch_operation.details())
else:
state.code = code
state.details = batch_operation.details()
callbacks.extend(state.callbacks)
state.callbacks = None
return callbacks
def _event_handler(state, call, response_deserializer):
def handle_event(event):
with state.condition:
callbacks = _handle_event(event, state, response_deserializer)
state.condition.notify_all()
done = not state.due
for callback in callbacks:
callback()
return call if done else None
return handle_event
def _consume_request_iterator(request_iterator, state, call,
request_serializer):
event_handler = _event_handler(state, call, None)
def consume_request_iterator():
while True:
try:
request = next(request_iterator)
except StopIteration:
break
except Exception: # pylint: disable=broad-except
logging.exception("Exception iterating requests!")
call.cancel()
_abort(state, grpc.StatusCode.UNKNOWN,
"Exception iterating requests!")
return
serialized_request = _common.serialize(request, request_serializer)
with state.condition:
if state.code is None and not state.cancelled:
if serialized_request is None:
call.cancel()
details = 'Exception serializing request!'
_abort(state, grpc.StatusCode.INTERNAL, details)
return
else:
operations = (cygrpc.SendMessageOperation(
serialized_request, _EMPTY_FLAGS),)
call.start_client_batch(operations, event_handler)
state.due.add(cygrpc.OperationType.send_message)
while True:
state.condition.wait()
if state.code is None:
if cygrpc.OperationType.send_message not in state.due:
break
else:
return
else:
return
with state.condition:
if state.code is None:
operations = (
cygrpc.SendCloseFromClientOperation(_EMPTY_FLAGS),)
call.start_client_batch(operations, event_handler)
state.due.add(cygrpc.OperationType.send_close_from_client)
def stop_consumption_thread(timeout): # pylint: disable=unused-argument
with state.condition:
if state.code is None:
call.cancel()
state.cancelled = True
_abort(state, grpc.StatusCode.CANCELLED, 'Cancelled!')
state.condition.notify_all()
consumption_thread = _common.CleanupThread(
stop_consumption_thread, target=consume_request_iterator)
consumption_thread.start()
class _Rendezvous(grpc.RpcError, grpc.Future, grpc.Call):
def __init__(self, state, call, response_deserializer, deadline):
super(_Rendezvous, self).__init__()
self._state = state
self._call = call
self._response_deserializer = response_deserializer
self._deadline = deadline
def cancel(self):
with self._state.condition:
if self._state.code is None:
self._call.cancel()
self._state.cancelled = True
_abort(self._state, grpc.StatusCode.CANCELLED, 'Cancelled!')
self._state.condition.notify_all()
return False
def cancelled(self):
with self._state.condition:
return self._state.cancelled
def running(self):
with self._state.condition:
return self._state.code is None
def done(self):
with self._state.condition:
return self._state.code is not None
def result(self, timeout=None):
until = None if timeout is None else time.time() + timeout
with self._state.condition:
while True:
if self._state.code is None:
_wait_once_until(self._state.condition, until)
elif self._state.code is grpc.StatusCode.OK:
return self._state.response
elif self._state.cancelled:
raise grpc.FutureCancelledError()
else:
raise self
def exception(self, timeout=None):
until = None if timeout is None else time.time() + timeout
with self._state.condition:
while True:
if self._state.code is None:
_wait_once_until(self._state.condition, until)
elif self._state.code is grpc.StatusCode.OK:
return None
elif self._state.cancelled:
raise grpc.FutureCancelledError()
else:
return self
def traceback(self, timeout=None):
until = None if timeout is None else time.time() + timeout
with self._state.condition:
while True:
if self._state.code is None:
_wait_once_until(self._state.condition, until)
elif self._state.code is grpc.StatusCode.OK:
return None
elif self._state.cancelled:
raise grpc.FutureCancelledError()
else:
try:
raise self
except grpc.RpcError:
return sys.exc_info()[2]
def add_done_callback(self, fn):
with self._state.condition:
if self._state.code is None:
self._state.callbacks.append(lambda: fn(self))
return
fn(self)
def _next(self):
with self._state.condition:
if self._state.code is None:
event_handler = _event_handler(self._state, self._call,
self._response_deserializer)
self._call.start_client_batch(
(cygrpc.ReceiveMessageOperation(_EMPTY_FLAGS),),
event_handler)
self._state.due.add(cygrpc.OperationType.receive_message)
elif self._state.code is grpc.StatusCode.OK:
raise StopIteration()
else:
raise self
while True:
self._state.condition.wait()
if self._state.response is not None:
response = self._state.response
self._state.response = None
return response
elif cygrpc.OperationType.receive_message not in self._state.due:
if self._state.code is grpc.StatusCode.OK:
raise StopIteration()
elif self._state.code is not None:
raise self
def __iter__(self):
return self
def __next__(self):
return self._next()
def next(self):
return self._next()
def is_active(self):
with self._state.condition:
return self._state.code is None
def time_remaining(self):
if self._deadline is None:
return None
else:
return max(self._deadline - time.time(), 0)
def add_callback(self, callback):
with self._state.condition:
if self._state.callbacks is None:
return False
else:
self._state.callbacks.append(callback)
return True
def initial_metadata(self):
with self._state.condition:
while self._state.initial_metadata is None:
self._state.condition.wait()
return self._state.initial_metadata
def trailing_metadata(self):
with self._state.condition:
while self._state.trailing_metadata is None:
self._state.condition.wait()
return self._state.trailing_metadata
def code(self):
with self._state.condition:
while self._state.code is None:
self._state.condition.wait()
return self._state.code
def details(self):
with self._state.condition:
while self._state.details is None:
self._state.condition.wait()
return _common.decode(self._state.details)
def _repr(self):
with self._state.condition:
if self._state.code is None:
return '<_Rendezvous object of in-flight RPC>'
else:
return '<_Rendezvous of RPC that terminated with ({}, {})>'.format(
self._state.code, _common.decode(self._state.details))
def __repr__(self):
return self._repr()
def __str__(self):
return self._repr()
def __del__(self):
with self._state.condition:
if self._state.code is None:
self._call.cancel()
self._state.cancelled = True
self._state.code = grpc.StatusCode.CANCELLED
self._state.condition.notify_all()
def _start_unary_request(request, timeout, request_serializer):
deadline, deadline_timespec = _deadline(timeout)
serialized_request = _common.serialize(request, request_serializer)
if serialized_request is None:
state = _RPCState((), (), (), grpc.StatusCode.INTERNAL,
'Exception serializing request!')
rendezvous = _Rendezvous(state, None, None, deadline)
return deadline, deadline_timespec, None, rendezvous
else:
return deadline, deadline_timespec, serialized_request, None
def _end_unary_response_blocking(state, call, with_call, deadline):
if state.code is grpc.StatusCode.OK:
if with_call:
rendezvous = _Rendezvous(state, call, None, deadline)
return state.response, rendezvous
else:
return state.response
else:
raise _Rendezvous(state, None, None, deadline)
class _UnaryUnaryMultiCallable(grpc.UnaryUnaryMultiCallable):
def __init__(self, channel, managed_call, method, request_serializer,
response_deserializer):
self._channel = channel
self._managed_call = managed_call
self._method = method
self._request_serializer = request_serializer
self._response_deserializer = response_deserializer
def _prepare(self, request, timeout, metadata):
deadline, deadline_timespec, serialized_request, rendezvous = (
_start_unary_request(request, timeout, self._request_serializer))
if serialized_request is None:
return None, None, None, None, rendezvous
else:
state = _RPCState(_UNARY_UNARY_INITIAL_DUE, None, None, None, None)
operations = (
cygrpc.SendInitialMetadataOperation(metadata, _EMPTY_FLAGS),
cygrpc.SendMessageOperation(serialized_request, _EMPTY_FLAGS),
cygrpc.SendCloseFromClientOperation(_EMPTY_FLAGS),
cygrpc.ReceiveInitialMetadataOperation(_EMPTY_FLAGS),
cygrpc.ReceiveMessageOperation(_EMPTY_FLAGS),
cygrpc.ReceiveStatusOnClientOperation(_EMPTY_FLAGS),)
return state, operations, deadline, deadline_timespec, None
def _blocking(self, request, timeout, metadata, credentials):
state, operations, deadline, deadline_timespec, rendezvous = self._prepare(
request, timeout, metadata)
if rendezvous:
raise rendezvous
else:
completion_queue = cygrpc.CompletionQueue()
call = self._channel.create_call(None, 0, completion_queue,
self._method, None,
deadline_timespec)
if credentials is not None:
call.set_credentials(credentials._credentials)
call_error = call.start_client_batch(operations, None)
_check_call_error(call_error, metadata)
_handle_event(completion_queue.poll(), state,
self._response_deserializer)
return state, call, deadline
def __call__(self, request, timeout=None, metadata=None, credentials=None):
state, call, deadline = self._blocking(request, timeout, metadata,
credentials)
return _end_unary_response_blocking(state, call, False, deadline)
def with_call(self, request, timeout=None, metadata=None, credentials=None):
state, call, deadline = self._blocking(request, timeout, metadata,
credentials)
return _end_unary_response_blocking(state, call, True, deadline)
def future(self, request, timeout=None, metadata=None, credentials=None):
state, operations, deadline, deadline_timespec, rendezvous = self._prepare(
request, timeout, metadata)
if rendezvous:
return rendezvous
else:
call, drive_call = self._managed_call(None, 0, self._method, None,
deadline_timespec)
if credentials is not None:
call.set_credentials(credentials._credentials)
event_handler = _event_handler(state, call,
self._response_deserializer)
with state.condition:
call_error = call.start_client_batch(operations, event_handler)
if call_error != cygrpc.CallError.ok:
_call_error_set_RPCstate(state, call_error, metadata)
return _Rendezvous(state, None, None, deadline)
drive_call()
return _Rendezvous(state, call, self._response_deserializer,
deadline)
class _UnaryStreamMultiCallable(grpc.UnaryStreamMultiCallable):
def __init__(self, channel, managed_call, method, request_serializer,
response_deserializer):
self._channel = channel
self._managed_call = managed_call
self._method = method
self._request_serializer = request_serializer
self._response_deserializer = response_deserializer
def __call__(self, request, timeout=None, metadata=None, credentials=None):
deadline, deadline_timespec, serialized_request, rendezvous = (
_start_unary_request(request, timeout, self._request_serializer))
if serialized_request is None:
raise rendezvous
else:
state = _RPCState(_UNARY_STREAM_INITIAL_DUE, None, None, None, None)
call, drive_call = self._managed_call(None, 0, self._method, None,
deadline_timespec)
if credentials is not None:
call.set_credentials(credentials._credentials)
event_handler = _event_handler(state, call,
self._response_deserializer)
with state.condition:
call.start_client_batch(
(cygrpc.ReceiveInitialMetadataOperation(_EMPTY_FLAGS),),
event_handler)
operations = (
cygrpc.SendInitialMetadataOperation(
metadata, _EMPTY_FLAGS), cygrpc.SendMessageOperation(
serialized_request, _EMPTY_FLAGS),
cygrpc.SendCloseFromClientOperation(_EMPTY_FLAGS),
cygrpc.ReceiveStatusOnClientOperation(_EMPTY_FLAGS),)
call_error = call.start_client_batch(operations, event_handler)
if call_error != cygrpc.CallError.ok:
_call_error_set_RPCstate(state, call_error, metadata)
return _Rendezvous(state, None, None, deadline)
drive_call()
return _Rendezvous(state, call, self._response_deserializer,
deadline)
class _StreamUnaryMultiCallable(grpc.StreamUnaryMultiCallable):
def __init__(self, channel, managed_call, method, request_serializer,
response_deserializer):
self._channel = channel
self._managed_call = managed_call
self._method = method
self._request_serializer = request_serializer
self._response_deserializer = response_deserializer
def _blocking(self, request_iterator, timeout, metadata, credentials):
deadline, deadline_timespec = _deadline(timeout)
state = _RPCState(_STREAM_UNARY_INITIAL_DUE, None, None, None, None)
completion_queue = cygrpc.CompletionQueue()
call = self._channel.create_call(None, 0, completion_queue,
self._method, None, deadline_timespec)
if credentials is not None:
call.set_credentials(credentials._credentials)
with state.condition:
call.start_client_batch(
(cygrpc.ReceiveInitialMetadataOperation(_EMPTY_FLAGS),), None)
operations = (
cygrpc.SendInitialMetadataOperation(metadata, _EMPTY_FLAGS),
cygrpc.ReceiveMessageOperation(_EMPTY_FLAGS),
cygrpc.ReceiveStatusOnClientOperation(_EMPTY_FLAGS),)
call_error = call.start_client_batch(operations, None)
_check_call_error(call_error, metadata)
_consume_request_iterator(request_iterator, state, call,
self._request_serializer)
while True:
event = completion_queue.poll()
with state.condition:
_handle_event(event, state, self._response_deserializer)
state.condition.notify_all()
if not state.due:
break
return state, call, deadline
def __call__(self,
request_iterator,
timeout=None,
metadata=None,
credentials=None):
state, call, deadline = self._blocking(request_iterator, timeout,
metadata, credentials)
return _end_unary_response_blocking(state, call, False, deadline)
def with_call(self,
request_iterator,
timeout=None,
metadata=None,
credentials=None):
state, call, deadline = self._blocking(request_iterator, timeout,
metadata, credentials)
return _end_unary_response_blocking(state, call, True, deadline)
def future(self,
request_iterator,
timeout=None,
metadata=None,
credentials=None):
deadline, deadline_timespec = _deadline(timeout)
state = _RPCState(_STREAM_UNARY_INITIAL_DUE, None, None, None, None)
call, drive_call = self._managed_call(None, 0, self._method, None,
deadline_timespec)
if credentials is not None:
call.set_credentials(credentials._credentials)
event_handler = _event_handler(state, call, self._response_deserializer)
with state.condition:
call.start_client_batch(
(cygrpc.ReceiveInitialMetadataOperation(_EMPTY_FLAGS),),
event_handler)
operations = (
cygrpc.SendInitialMetadataOperation(metadata, _EMPTY_FLAGS),
cygrpc.ReceiveMessageOperation(_EMPTY_FLAGS),
cygrpc.ReceiveStatusOnClientOperation(_EMPTY_FLAGS),)
call_error = call.start_client_batch(operations, event_handler)
if call_error != cygrpc.CallError.ok:
_call_error_set_RPCstate(state, call_error, metadata)
return _Rendezvous(state, None, None, deadline)
drive_call()
_consume_request_iterator(request_iterator, state, call,
self._request_serializer)
return _Rendezvous(state, call, self._response_deserializer, deadline)
class _StreamStreamMultiCallable(grpc.StreamStreamMultiCallable):
def __init__(self, channel, managed_call, method, request_serializer,
response_deserializer):
self._channel = channel
self._managed_call = managed_call
self._method = method
self._request_serializer = request_serializer
self._response_deserializer = response_deserializer
def __call__(self,
request_iterator,
timeout=None,
metadata=None,
credentials=None):
deadline, deadline_timespec = _deadline(timeout)
state = _RPCState(_STREAM_STREAM_INITIAL_DUE, None, None, None, None)
call, drive_call = self._managed_call(None, 0, self._method, None,
deadline_timespec)
if credentials is not None:
call.set_credentials(credentials._credentials)
event_handler = _event_handler(state, call, self._response_deserializer)
with state.condition:
call.start_client_batch(
(cygrpc.ReceiveInitialMetadataOperation(_EMPTY_FLAGS),),
event_handler)
operations = (
cygrpc.SendInitialMetadataOperation(metadata, _EMPTY_FLAGS),
cygrpc.ReceiveStatusOnClientOperation(_EMPTY_FLAGS),)
call_error = call.start_client_batch(operations, event_handler)
if call_error != cygrpc.CallError.ok:
_call_error_set_RPCstate(state, call_error, metadata)
return _Rendezvous(state, None, None, deadline)
drive_call()
_consume_request_iterator(request_iterator, state, call,
self._request_serializer)
return _Rendezvous(state, call, self._response_deserializer, deadline)
class _ChannelCallState(object):
def __init__(self, channel):
self.lock = threading.Lock()
self.channel = channel
self.completion_queue = cygrpc.CompletionQueue()
self.managed_calls = None
def _run_channel_spin_thread(state):
def channel_spin():
while True:
event = state.completion_queue.poll()
completed_call = event.tag(event)
if completed_call is not None:
with state.lock:
state.managed_calls.remove(completed_call)
if not state.managed_calls:
state.managed_calls = None
return
def stop_channel_spin(timeout): # pylint: disable=unused-argument
with state.lock:
if state.managed_calls is not None:
for call in state.managed_calls:
call.cancel()
channel_spin_thread = _common.CleanupThread(
stop_channel_spin, target=channel_spin)
channel_spin_thread.start()
def _channel_managed_call_management(state):
def create(parent, flags, method, host, deadline):
"""Creates a managed cygrpc.Call and a function to call to drive it.
If operations are successfully added to the returned cygrpc.Call, the
returned function must be called. If operations are not successfully added
to the returned cygrpc.Call, the returned function must not be called.
Args:
parent: A cygrpc.Call to be used as the parent of the created call.
flags: An integer bitfield of call flags.
method: The RPC method.
host: A host string for the created call.
deadline: A cygrpc.Timespec to be the deadline of the created call.
Returns:
A cygrpc.Call with which to conduct an RPC and a function to call if
operations are successfully started on the call.
"""
call = state.channel.create_call(parent, flags, state.completion_queue,
method, host, deadline)
def drive():
with state.lock:
if state.managed_calls is None:
state.managed_calls = set((call,))
_run_channel_spin_thread(state)
else:
state.managed_calls.add(call)
return call, drive
return create
class _ChannelConnectivityState(object):
def __init__(self, channel):
self.lock = threading.RLock()
self.channel = channel
self.polling = False
self.connectivity = None
self.try_to_connect = False
self.callbacks_and_connectivities = []
self.delivering = False
def _deliveries(state):
callbacks_needing_update = []
for callback_and_connectivity in state.callbacks_and_connectivities:
callback, callback_connectivity, = callback_and_connectivity
if callback_connectivity is not state.connectivity:
callbacks_needing_update.append(callback)
callback_and_connectivity[1] = state.connectivity
return callbacks_needing_update
def _deliver(state, initial_connectivity, initial_callbacks):
connectivity = initial_connectivity
callbacks = initial_callbacks
while True:
for callback in callbacks:
callable_util.call_logging_exceptions(
callback, _CHANNEL_SUBSCRIPTION_CALLBACK_ERROR_LOG_MESSAGE,
connectivity)
with state.lock:
callbacks = _deliveries(state)
if callbacks:
connectivity = state.connectivity
else:
state.delivering = False
return
def _spawn_delivery(state, callbacks):
delivering_thread = threading.Thread(
target=_deliver, args=(state, state.connectivity, callbacks,))
delivering_thread.start()
state.delivering = True
# NOTE(https://github.com/grpc/grpc/issues/3064): We'd rather not poll.
def _poll_connectivity(state, channel, initial_try_to_connect):
try_to_connect = initial_try_to_connect
connectivity = channel.check_connectivity_state(try_to_connect)
with state.lock:
state.connectivity = (
_common.CYGRPC_CONNECTIVITY_STATE_TO_CHANNEL_CONNECTIVITY[
connectivity])
callbacks = tuple(callback
for callback, unused_but_known_to_be_none_connectivity
in state.callbacks_and_connectivities)
for callback_and_connectivity in state.callbacks_and_connectivities:
callback_and_connectivity[1] = state.connectivity
if callbacks:
_spawn_delivery(state, callbacks)
completion_queue = cygrpc.CompletionQueue()
while True:
channel.watch_connectivity_state(connectivity,
cygrpc.Timespec(time.time() + 0.2),
completion_queue, None)
event = completion_queue.poll()
with state.lock:
if not state.callbacks_and_connectivities and not state.try_to_connect:
state.polling = False
state.connectivity = None
break
try_to_connect = state.try_to_connect
state.try_to_connect = False
if event.success or try_to_connect:
connectivity = channel.check_connectivity_state(try_to_connect)
with state.lock:
state.connectivity = (
_common.CYGRPC_CONNECTIVITY_STATE_TO_CHANNEL_CONNECTIVITY[
connectivity])
if not state.delivering:
# NOTE(nathaniel): The field is only ever used as a
# sequence so it's fine that both lists and tuples are
# assigned to it.
callbacks = _deliveries(state) # pylint: disable=redefined-variable-type
if callbacks:
_spawn_delivery(state, callbacks)
def _moot(state):
with state.lock:
del state.callbacks_and_connectivities[:]
def _subscribe(state, callback, try_to_connect):
with state.lock:
if not state.callbacks_and_connectivities and not state.polling:
polling_thread = _common.CleanupThread(
lambda timeout: _moot(state),
target=_poll_connectivity,
args=(state, state.channel, bool(try_to_connect)))
polling_thread.start()
state.polling = True
state.callbacks_and_connectivities.append([callback, None])
elif not state.delivering and state.connectivity is not None:
_spawn_delivery(state, (callback,))
state.try_to_connect |= bool(try_to_connect)
state.callbacks_and_connectivities.append(
[callback, state.connectivity])
else:
state.try_to_connect |= bool(try_to_connect)
state.callbacks_and_connectivities.append([callback, None])
def _unsubscribe(state, callback):
with state.lock:
for index, (subscribed_callback, unused_connectivity
) in enumerate(state.callbacks_and_connectivities):
if callback == subscribed_callback:
state.callbacks_and_connectivities.pop(index)
break
def _options(options):
return list(options) + [
(cygrpc.ChannelArgKey.primary_user_agent_string, _USER_AGENT)
]
class Channel(grpc.Channel):
"""A cygrpc.Channel-backed implementation of grpc.Channel."""
def __init__(self, target, options, credentials):
"""Constructor.
Args:
target: The target to which to connect.
options: Configuration options for the channel.
credentials: A cygrpc.ChannelCredentials or None.
"""
self._channel = cygrpc.Channel(
_common.encode(target),
_common.channel_args(_options(options)), credentials)
self._call_state = _ChannelCallState(self._channel)
self._connectivity_state = _ChannelConnectivityState(self._channel)
# TODO(https://github.com/grpc/grpc/issues/9884)
# Temporary work around UNAVAILABLE issues
# Remove this once c-core has retry support
_subscribe(self._connectivity_state, lambda *args: None, None)
def subscribe(self, callback, try_to_connect=None):
_subscribe(self._connectivity_state, callback, try_to_connect)
def unsubscribe(self, callback):
_unsubscribe(self._connectivity_state, callback)
def unary_unary(self,
method,
request_serializer=None,
response_deserializer=None):
return _UnaryUnaryMultiCallable(
self._channel,
_channel_managed_call_management(self._call_state),
_common.encode(method), request_serializer, response_deserializer)
def unary_stream(self,
method,
request_serializer=None,
response_deserializer=None):
return _UnaryStreamMultiCallable(
self._channel,
_channel_managed_call_management(self._call_state),
_common.encode(method), request_serializer, response_deserializer)
def stream_unary(self,
method,
request_serializer=None,
response_deserializer=None):
return _StreamUnaryMultiCallable(
self._channel,
_channel_managed_call_management(self._call_state),
_common.encode(method), request_serializer, response_deserializer)
def stream_stream(self,
method,
request_serializer=None,
response_deserializer=None):
return _StreamStreamMultiCallable(
self._channel,
_channel_managed_call_management(self._call_state),
_common.encode(method), request_serializer, response_deserializer)
def __del__(self):
_moot(self._connectivity_state)