1
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forked from s434596/CatOrNot
CatOrNot/venv/lib/python3.6/site-packages/grpc/_channel.py
2018-12-11 00:32:28 +01:00

1057 lines
41 KiB
Python

# 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 logging
import sys
import threading
import time
import grpc
from grpc import _common
from grpc import _grpcio_metadata
from grpc._cython import cygrpc
from grpc.framework.foundation import callable_util
_LOGGER = logging.getLogger(__name__)
_USER_AGENT = 'grpc-python/{}'.format(_grpcio_metadata.__version__)
_EMPTY_FLAGS = 0
_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!')
_OK_RENDEZVOUS_REPR_FORMAT = ('<_Rendezvous of RPC that terminated with:\n'
'\tstatus = {}\n'
'\tdetails = "{}"\n'
'>')
_NON_OK_RENDEZVOUS_REPR_FORMAT = ('<_Rendezvous of RPC that terminated with:\n'
'\tstatus = {}\n'
'\tdetails = "{}"\n'
'\tdebug_error_string = "{}"\n'
'>')
def _deadline(timeout):
return None if timeout is None else time.time() + timeout
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)
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
self.debug_error_string = None
# 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 = []
self.fork_epoch = cygrpc.get_fork_epoch()
def reset_postfork_child(self):
self.condition = threading.Condition()
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()
state.debug_error_string = batch_operation.error_string()
callbacks.extend(state.callbacks)
state.callbacks = None
return callbacks
def _event_handler(state, 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 done and state.fork_epoch >= cygrpc.get_fork_epoch()
return handle_event
def _consume_request_iterator(request_iterator, state, call, request_serializer,
event_handler):
if cygrpc.is_fork_support_enabled():
condition_wait_timeout = 1.0
else:
condition_wait_timeout = None
def consume_request_iterator(): # pylint: disable=too-many-branches
while True:
return_from_user_request_generator_invoked = False
try:
# The thread may die in user-code. Do not block fork for this.
cygrpc.enter_user_request_generator()
request = next(request_iterator)
except StopIteration:
break
except Exception: # pylint: disable=broad-except
cygrpc.return_from_user_request_generator()
return_from_user_request_generator_invoked = True
code = grpc.StatusCode.UNKNOWN
details = 'Exception iterating requests!'
_LOGGER.exception(details)
call.cancel(_common.STATUS_CODE_TO_CYGRPC_STATUS_CODE[code],
details)
_abort(state, code, details)
return
finally:
if not return_from_user_request_generator_invoked:
cygrpc.return_from_user_request_generator()
serialized_request = _common.serialize(request, request_serializer)
with state.condition:
if state.code is None and not state.cancelled:
if serialized_request is None:
code = grpc.StatusCode.INTERNAL
details = 'Exception serializing request!'
call.cancel(
_common.STATUS_CODE_TO_CYGRPC_STATUS_CODE[code],
details)
_abort(state, code, details)
return
else:
operations = (cygrpc.SendMessageOperation(
serialized_request, _EMPTY_FLAGS),)
operating = call.operate(operations, event_handler)
if operating:
state.due.add(cygrpc.OperationType.send_message)
else:
return
while True:
state.condition.wait(condition_wait_timeout)
cygrpc.block_if_fork_in_progress(state)
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),)
operating = call.operate(operations, event_handler)
if operating:
state.due.add(cygrpc.OperationType.send_close_from_client)
consumption_thread = cygrpc.ForkManagedThread(
target=consume_request_iterator)
consumption_thread.setDaemon(True)
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:
code = grpc.StatusCode.CANCELLED
details = 'Locally cancelled by application!'
self._call.cancel(
_common.STATUS_CODE_TO_CYGRPC_STATUS_CODE[code], details)
self._state.cancelled = True
_abort(self._state, code, details)
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._response_deserializer)
operating = self._call.operate(
(cygrpc.ReceiveMessageOperation(_EMPTY_FLAGS),),
event_handler)
if operating:
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 debug_error_string(self):
with self._state.condition:
while self._state.debug_error_string is None:
self._state.condition.wait()
return _common.decode(self._state.debug_error_string)
def _repr(self):
with self._state.condition:
if self._state.code is None:
return '<_Rendezvous object of in-flight RPC>'
elif self._state.code is grpc.StatusCode.OK:
return _OK_RENDEZVOUS_REPR_FORMAT.format(
self._state.code, self._state.details)
else:
return _NON_OK_RENDEZVOUS_REPR_FORMAT.format(
self._state.code, self._state.details,
self._state.debug_error_string)
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._state.code = grpc.StatusCode.CANCELLED
self._state.details = 'Cancelled upon garbage collection!'
self._state.cancelled = True
self._call.cancel(
_common.STATUS_CODE_TO_CYGRPC_STATUS_CODE[self._state.code],
self._state.details)
self._state.condition.notify_all()
def _start_unary_request(request, timeout, request_serializer):
deadline = _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, None, rendezvous
else:
return deadline, 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)
def _stream_unary_invocation_operationses(metadata, initial_metadata_flags):
return (
(
cygrpc.SendInitialMetadataOperation(metadata,
initial_metadata_flags),
cygrpc.ReceiveMessageOperation(_EMPTY_FLAGS),
cygrpc.ReceiveStatusOnClientOperation(_EMPTY_FLAGS),
),
(cygrpc.ReceiveInitialMetadataOperation(_EMPTY_FLAGS),),
)
def _stream_unary_invocation_operationses_and_tags(metadata,
initial_metadata_flags):
return tuple((
operations,
None,
)
for operations in _stream_unary_invocation_operationses(
metadata, initial_metadata_flags))
class _UnaryUnaryMultiCallable(grpc.UnaryUnaryMultiCallable):
# pylint: disable=too-many-arguments
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, wait_for_ready):
deadline, serialized_request, rendezvous = _start_unary_request(
request, timeout, self._request_serializer)
initial_metadata_flags = _InitialMetadataFlags().with_wait_for_ready(
wait_for_ready)
if serialized_request is None:
return None, None, None, rendezvous
else:
state = _RPCState(_UNARY_UNARY_INITIAL_DUE, None, None, None, None)
operations = (
cygrpc.SendInitialMetadataOperation(metadata,
initial_metadata_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, None
def _blocking(self, request, timeout, metadata, credentials,
wait_for_ready):
state, operations, deadline, rendezvous = self._prepare(
request, timeout, metadata, wait_for_ready)
if state is None:
raise rendezvous
else:
call = self._channel.segregated_call(
0, self._method, None, deadline, metadata, None
if credentials is None else credentials._credentials, ((
operations,
None,
),))
event = call.next_event()
_handle_event(event, state, self._response_deserializer)
return state, call,
def __call__(self,
request,
timeout=None,
metadata=None,
credentials=None,
wait_for_ready=None):
state, call, = self._blocking(request, timeout, metadata, credentials,
wait_for_ready)
return _end_unary_response_blocking(state, call, False, None)
def with_call(self,
request,
timeout=None,
metadata=None,
credentials=None,
wait_for_ready=None):
state, call, = self._blocking(request, timeout, metadata, credentials,
wait_for_ready)
return _end_unary_response_blocking(state, call, True, None)
def future(self,
request,
timeout=None,
metadata=None,
credentials=None,
wait_for_ready=None):
state, operations, deadline, rendezvous = self._prepare(
request, timeout, metadata, wait_for_ready)
if state is None:
raise rendezvous
else:
event_handler = _event_handler(state, self._response_deserializer)
call = self._managed_call(
0, self._method, None, deadline, metadata, None
if credentials is None else credentials._credentials,
(operations,), event_handler)
return _Rendezvous(state, call, self._response_deserializer,
deadline)
class _UnaryStreamMultiCallable(grpc.UnaryStreamMultiCallable):
# pylint: disable=too-many-arguments
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,
wait_for_ready=None):
deadline, serialized_request, rendezvous = _start_unary_request(
request, timeout, self._request_serializer)
initial_metadata_flags = _InitialMetadataFlags().with_wait_for_ready(
wait_for_ready)
if serialized_request is None:
raise rendezvous
else:
state = _RPCState(_UNARY_STREAM_INITIAL_DUE, None, None, None, None)
operationses = (
(
cygrpc.SendInitialMetadataOperation(metadata,
initial_metadata_flags),
cygrpc.SendMessageOperation(serialized_request,
_EMPTY_FLAGS),
cygrpc.SendCloseFromClientOperation(_EMPTY_FLAGS),
cygrpc.ReceiveStatusOnClientOperation(_EMPTY_FLAGS),
),
(cygrpc.ReceiveInitialMetadataOperation(_EMPTY_FLAGS),),
)
event_handler = _event_handler(state, self._response_deserializer)
call = self._managed_call(
0, self._method, None, deadline, metadata, None
if credentials is None else credentials._credentials,
operationses, event_handler)
return _Rendezvous(state, call, self._response_deserializer,
deadline)
class _StreamUnaryMultiCallable(grpc.StreamUnaryMultiCallable):
# pylint: disable=too-many-arguments
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,
wait_for_ready):
deadline = _deadline(timeout)
state = _RPCState(_STREAM_UNARY_INITIAL_DUE, None, None, None, None)
initial_metadata_flags = _InitialMetadataFlags().with_wait_for_ready(
wait_for_ready)
call = self._channel.segregated_call(
0, self._method, None, deadline, metadata, None
if credentials is None else credentials._credentials,
_stream_unary_invocation_operationses_and_tags(
metadata, initial_metadata_flags))
_consume_request_iterator(request_iterator, state, call,
self._request_serializer, None)
while True:
event = call.next_event()
with state.condition:
_handle_event(event, state, self._response_deserializer)
state.condition.notify_all()
if not state.due:
break
return state, call,
def __call__(self,
request_iterator,
timeout=None,
metadata=None,
credentials=None,
wait_for_ready=None):
state, call, = self._blocking(request_iterator, timeout, metadata,
credentials, wait_for_ready)
return _end_unary_response_blocking(state, call, False, None)
def with_call(self,
request_iterator,
timeout=None,
metadata=None,
credentials=None,
wait_for_ready=None):
state, call, = self._blocking(request_iterator, timeout, metadata,
credentials, wait_for_ready)
return _end_unary_response_blocking(state, call, True, None)
def future(self,
request_iterator,
timeout=None,
metadata=None,
credentials=None,
wait_for_ready=None):
deadline = _deadline(timeout)
state = _RPCState(_STREAM_UNARY_INITIAL_DUE, None, None, None, None)
event_handler = _event_handler(state, self._response_deserializer)
initial_metadata_flags = _InitialMetadataFlags().with_wait_for_ready(
wait_for_ready)
call = self._managed_call(
0, self._method, None, deadline, metadata, None
if credentials is None else credentials._credentials,
_stream_unary_invocation_operationses(
metadata, initial_metadata_flags), event_handler)
_consume_request_iterator(request_iterator, state, call,
self._request_serializer, event_handler)
return _Rendezvous(state, call, self._response_deserializer, deadline)
class _StreamStreamMultiCallable(grpc.StreamStreamMultiCallable):
# pylint: disable=too-many-arguments
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,
wait_for_ready=None):
deadline = _deadline(timeout)
state = _RPCState(_STREAM_STREAM_INITIAL_DUE, None, None, None, None)
initial_metadata_flags = _InitialMetadataFlags().with_wait_for_ready(
wait_for_ready)
operationses = (
(
cygrpc.SendInitialMetadataOperation(metadata,
initial_metadata_flags),
cygrpc.ReceiveStatusOnClientOperation(_EMPTY_FLAGS),
),
(cygrpc.ReceiveInitialMetadataOperation(_EMPTY_FLAGS),),
)
event_handler = _event_handler(state, self._response_deserializer)
call = self._managed_call(
0, self._method, None, deadline, metadata, None
if credentials is None else credentials._credentials, operationses,
event_handler)
_consume_request_iterator(request_iterator, state, call,
self._request_serializer, event_handler)
return _Rendezvous(state, call, self._response_deserializer, deadline)
class _InitialMetadataFlags(int):
"""Stores immutable initial metadata flags"""
def __new__(cls, value=_EMPTY_FLAGS):
value &= cygrpc.InitialMetadataFlags.used_mask
return super(_InitialMetadataFlags, cls).__new__(cls, value)
def with_wait_for_ready(self, wait_for_ready):
if wait_for_ready is not None:
if wait_for_ready:
self = self.__class__(self | cygrpc.InitialMetadataFlags.wait_for_ready | \
cygrpc.InitialMetadataFlags.wait_for_ready_explicitly_set)
elif not wait_for_ready:
self = self.__class__(self & ~cygrpc.InitialMetadataFlags.wait_for_ready | \
cygrpc.InitialMetadataFlags.wait_for_ready_explicitly_set)
return self
class _ChannelCallState(object):
def __init__(self, channel):
self.lock = threading.Lock()
self.channel = channel
self.managed_calls = 0
self.threading = False
def reset_postfork_child(self):
self.managed_calls = 0
def _run_channel_spin_thread(state):
def channel_spin():
while True:
cygrpc.block_if_fork_in_progress(state)
event = state.channel.next_call_event()
if event.completion_type == cygrpc.CompletionType.queue_timeout:
continue
call_completed = event.tag(event)
if call_completed:
with state.lock:
state.managed_calls -= 1
if state.managed_calls == 0:
return
channel_spin_thread = cygrpc.ForkManagedThread(target=channel_spin)
channel_spin_thread.setDaemon(True)
channel_spin_thread.start()
def _channel_managed_call_management(state):
# pylint: disable=too-many-arguments
def create(flags, method, host, deadline, metadata, credentials,
operationses, event_handler):
"""Creates a cygrpc.IntegratedCall.
Args:
flags: An integer bitfield of call flags.
method: The RPC method.
host: A host string for the created call.
deadline: A float to be the deadline of the created call or None if
the call is to have an infinite deadline.
metadata: The metadata for the call or None.
credentials: A cygrpc.CallCredentials or None.
operationses: An iterable of iterables of cygrpc.Operations to be
started on the call.
event_handler: A behavior to call to handle the events resultant from
the operations on the call.
Returns:
A cygrpc.IntegratedCall with which to conduct an RPC.
"""
operationses_and_tags = tuple((
operations,
event_handler,
) for operations in operationses)
with state.lock:
call = state.channel.integrated_call(flags, method, host, deadline,
metadata, credentials,
operationses_and_tags)
if state.managed_calls == 0:
state.managed_calls = 1
_run_channel_spin_thread(state)
else:
state.managed_calls += 1
return call
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 reset_postfork_child(self):
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:
cygrpc.block_if_fork_in_progress(state)
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 = cygrpc.ForkManagedThread(
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)
while True:
event = channel.watch_connectivity_state(connectivity,
time.time() + 0.2)
cygrpc.block_if_fork_in_progress(state)
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:
callbacks = _deliveries(state)
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 = cygrpc.ForkManagedThread(
target=_poll_connectivity,
args=(state, state.channel, bool(try_to_connect)))
polling_thread.setDaemon(True)
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), _options(options), credentials)
self._call_state = _ChannelCallState(self._channel)
self._connectivity_state = _ChannelConnectivityState(self._channel)
cygrpc.fork_register_channel(self)
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 _close(self):
self._channel.close(cygrpc.StatusCode.cancelled, 'Channel closed!')
_moot(self._connectivity_state)
def _close_on_fork(self):
self._channel.close_on_fork(cygrpc.StatusCode.cancelled,
'Channel closed due to fork')
_moot(self._connectivity_state)
def __enter__(self):
return self
def __exit__(self, exc_type, exc_val, exc_tb):
self._close()
return False
def close(self):
self._close()
def __del__(self):
# TODO(https://github.com/grpc/grpc/issues/12531): Several releases
# after 1.12 (1.16 or thereabouts?) add a "self._channel.close" call
# here (or more likely, call self._close() here). We don't do this today
# because many valid use cases today allow the channel to be deleted
# immediately after stubs are created. After a sufficient period of time
# has passed for all users to be trusted to hang out to their channels
# for as long as they are in use and to close them after using them,
# then deletion of this grpc._channel.Channel instance can be made to
# effect closure of the underlying cygrpc.Channel instance.
if cygrpc is not None: # Globals may have already been collected.
cygrpc.fork_unregister_channel(self)
# This prevent the failed-at-initializing object removal from failing.
# Though the __init__ failed, the removal will still trigger __del__.
if _moot is not None and hasattr(self, "_connectivity_state"):
_moot(self._connectivity_state)