# Copyright 2019 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. """Interceptors implementation of gRPC Asyncio Python.""" from abc import ABCMeta from abc import abstractmethod import asyncio import collections import functools from typing import ( AsyncIterable, Awaitable, Callable, Iterator, List, Optional, Sequence, Union, ) import grpc from grpc._cython import cygrpc from . import _base_call from ._call import AioRpcError from ._call import StreamStreamCall from ._call import StreamUnaryCall from ._call import UnaryStreamCall from ._call import UnaryUnaryCall from ._call import _API_STYLE_ERROR from ._call import _RPC_ALREADY_FINISHED_DETAILS from ._call import _RPC_HALF_CLOSED_DETAILS from ._metadata import Metadata from ._typing import DeserializingFunction from ._typing import DoneCallbackType from ._typing import EOFType from ._typing import RequestIterableType from ._typing import RequestType from ._typing import ResponseIterableType from ._typing import ResponseType from ._typing import SerializingFunction from ._utils import _timeout_to_deadline _LOCAL_CANCELLATION_DETAILS = "Locally cancelled by application!" class ServerInterceptor(metaclass=ABCMeta): """Affords intercepting incoming RPCs on the service-side. This is an EXPERIMENTAL API. """ @abstractmethod async def intercept_service( self, continuation: Callable[ [grpc.HandlerCallDetails], Awaitable[grpc.RpcMethodHandler] ], handler_call_details: grpc.HandlerCallDetails, ) -> grpc.RpcMethodHandler: """Intercepts incoming RPCs before handing them over to a handler. State can be passed from an interceptor to downstream interceptors via contextvars. The first interceptor is called from an empty contextvars.Context, and the same Context is used for downstream interceptors and for the final handler call. Note that there are no guarantees that interceptors and handlers will be called from the same thread. Args: continuation: A function that takes a HandlerCallDetails and proceeds to invoke the next interceptor in the chain, if any, or the RPC handler lookup logic, with the call details passed as an argument, and returns an RpcMethodHandler instance if the RPC is considered serviced, or None otherwise. handler_call_details: A HandlerCallDetails describing the RPC. Returns: An RpcMethodHandler with which the RPC may be serviced if the interceptor chooses to service this RPC, or None otherwise. """ class ClientCallDetails( collections.namedtuple( "ClientCallDetails", ("method", "timeout", "metadata", "credentials", "wait_for_ready"), ), grpc.ClientCallDetails, ): """Describes an RPC to be invoked. This is an EXPERIMENTAL API. Args: method: The method name of the RPC. timeout: An optional duration of time in seconds to allow for the RPC. metadata: Optional metadata to be transmitted to the service-side of the RPC. credentials: An optional CallCredentials for the RPC. wait_for_ready: An optional flag to enable :term:`wait_for_ready` mechanism. """ method: str timeout: Optional[float] metadata: Optional[Metadata] credentials: Optional[grpc.CallCredentials] wait_for_ready: Optional[bool] class ClientInterceptor(metaclass=ABCMeta): """Base class used for all Aio Client Interceptor classes""" class UnaryUnaryClientInterceptor(ClientInterceptor, metaclass=ABCMeta): """Affords intercepting unary-unary invocations.""" @abstractmethod async def intercept_unary_unary( self, continuation: Callable[ [ClientCallDetails, RequestType], UnaryUnaryCall ], client_call_details: ClientCallDetails, request: RequestType, ) -> Union[UnaryUnaryCall, ResponseType]: """Intercepts a unary-unary invocation asynchronously. Args: continuation: A coroutine that proceeds with the invocation by executing the next interceptor in the chain or invoking the actual RPC on the underlying Channel. It is the interceptor's responsibility to call it if it decides to move the RPC forward. The interceptor can use `call = await continuation(client_call_details, request)` to continue with the RPC. `continuation` returns the call to the RPC. client_call_details: A ClientCallDetails object describing the outgoing RPC. request: The request value for the RPC. Returns: An object with the RPC response. Raises: AioRpcError: Indicating that the RPC terminated with non-OK status. asyncio.CancelledError: Indicating that the RPC was canceled. """ class UnaryStreamClientInterceptor(ClientInterceptor, metaclass=ABCMeta): """Affords intercepting unary-stream invocations.""" @abstractmethod async def intercept_unary_stream( self, continuation: Callable[ [ClientCallDetails, RequestType], UnaryStreamCall ], client_call_details: ClientCallDetails, request: RequestType, ) -> Union[ResponseIterableType, UnaryStreamCall]: """Intercepts a unary-stream invocation asynchronously. The function could return the call object or an asynchronous iterator, in case of being an asyncrhonous iterator this will become the source of the reads done by the caller. Args: continuation: A coroutine that proceeds with the invocation by executing the next interceptor in the chain or invoking the actual RPC on the underlying Channel. It is the interceptor's responsibility to call it if it decides to move the RPC forward. The interceptor can use `call = await continuation(client_call_details, request)` to continue with the RPC. `continuation` returns the call to the RPC. client_call_details: A ClientCallDetails object describing the outgoing RPC. request: The request value for the RPC. Returns: The RPC Call or an asynchronous iterator. Raises: AioRpcError: Indicating that the RPC terminated with non-OK status. asyncio.CancelledError: Indicating that the RPC was canceled. """ class StreamUnaryClientInterceptor(ClientInterceptor, metaclass=ABCMeta): """Affords intercepting stream-unary invocations.""" @abstractmethod async def intercept_stream_unary( self, continuation: Callable[ [ClientCallDetails, RequestType], StreamUnaryCall ], client_call_details: ClientCallDetails, request_iterator: RequestIterableType, ) -> StreamUnaryCall: """Intercepts a stream-unary invocation asynchronously. Within the interceptor the usage of the call methods like `write` or even awaiting the call should be done carefully, since the caller could be expecting an untouched call, for example for start writing messages to it. Args: continuation: A coroutine that proceeds with the invocation by executing the next interceptor in the chain or invoking the actual RPC on the underlying Channel. It is the interceptor's responsibility to call it if it decides to move the RPC forward. The interceptor can use `call = await continuation(client_call_details, request_iterator)` to continue with the RPC. `continuation` returns the call to the RPC. client_call_details: A ClientCallDetails object describing the outgoing RPC. request_iterator: The request iterator that will produce requests for the RPC. Returns: The RPC Call. Raises: AioRpcError: Indicating that the RPC terminated with non-OK status. asyncio.CancelledError: Indicating that the RPC was canceled. """ class StreamStreamClientInterceptor(ClientInterceptor, metaclass=ABCMeta): """Affords intercepting stream-stream invocations.""" @abstractmethod async def intercept_stream_stream( self, continuation: Callable[ [ClientCallDetails, RequestType], StreamStreamCall ], client_call_details: ClientCallDetails, request_iterator: RequestIterableType, ) -> Union[ResponseIterableType, StreamStreamCall]: """Intercepts a stream-stream invocation asynchronously. Within the interceptor the usage of the call methods like `write` or even awaiting the call should be done carefully, since the caller could be expecting an untouched call, for example for start writing messages to it. The function could return the call object or an asynchronous iterator, in case of being an asyncrhonous iterator this will become the source of the reads done by the caller. Args: continuation: A coroutine that proceeds with the invocation by executing the next interceptor in the chain or invoking the actual RPC on the underlying Channel. It is the interceptor's responsibility to call it if it decides to move the RPC forward. The interceptor can use `call = await continuation(client_call_details, request_iterator)` to continue with the RPC. `continuation` returns the call to the RPC. client_call_details: A ClientCallDetails object describing the outgoing RPC. request_iterator: The request iterator that will produce requests for the RPC. Returns: The RPC Call or an asynchronous iterator. Raises: AioRpcError: Indicating that the RPC terminated with non-OK status. asyncio.CancelledError: Indicating that the RPC was canceled. """ class InterceptedCall: """Base implementation for all intercepted call arities. Interceptors might have some work to do before the RPC invocation with the capacity of changing the invocation parameters, and some work to do after the RPC invocation with the capacity for accessing to the wrapped `UnaryUnaryCall`. It handles also early and later cancellations, when the RPC has not even started and the execution is still held by the interceptors or when the RPC has finished but again the execution is still held by the interceptors. Once the RPC is finally executed, all methods are finally done against the intercepted call, being at the same time the same call returned to the interceptors. As a base class for all of the interceptors implements the logic around final status, metadata and cancellation. """ _interceptors_task: asyncio.Task _pending_add_done_callbacks: Sequence[DoneCallbackType] def __init__(self, interceptors_task: asyncio.Task) -> None: self._interceptors_task = interceptors_task self._pending_add_done_callbacks = [] self._interceptors_task.add_done_callback( self._fire_or_add_pending_done_callbacks ) def __del__(self): self.cancel() def _fire_or_add_pending_done_callbacks( self, interceptors_task: asyncio.Task ) -> None: if not self._pending_add_done_callbacks: return call_completed = False try: call = interceptors_task.result() if call.done(): call_completed = True except (AioRpcError, asyncio.CancelledError): call_completed = True if call_completed: for callback in self._pending_add_done_callbacks: callback(self) else: for callback in self._pending_add_done_callbacks: callback = functools.partial( self._wrap_add_done_callback, callback ) call.add_done_callback(callback) self._pending_add_done_callbacks = [] def _wrap_add_done_callback( self, callback: DoneCallbackType, unused_call: _base_call.Call ) -> None: callback(self) def cancel(self) -> bool: if not self._interceptors_task.done(): # There is no yet the intercepted call available, # Trying to cancel it by using the generic Asyncio # cancellation method. return self._interceptors_task.cancel() try: call = self._interceptors_task.result() except AioRpcError: return False except asyncio.CancelledError: return False return call.cancel() def cancelled(self) -> bool: if not self._interceptors_task.done(): return False try: call = self._interceptors_task.result() except AioRpcError as err: return err.code() == grpc.StatusCode.CANCELLED except asyncio.CancelledError: return True return call.cancelled() def done(self) -> bool: if not self._interceptors_task.done(): return False try: call = self._interceptors_task.result() except (AioRpcError, asyncio.CancelledError): return True return call.done() def add_done_callback(self, callback: DoneCallbackType) -> None: if not self._interceptors_task.done(): self._pending_add_done_callbacks.append(callback) return try: call = self._interceptors_task.result() except (AioRpcError, asyncio.CancelledError): callback(self) return if call.done(): callback(self) else: callback = functools.partial(self._wrap_add_done_callback, callback) call.add_done_callback(callback) def time_remaining(self) -> Optional[float]: raise NotImplementedError() async def initial_metadata(self) -> Optional[Metadata]: try: call = await self._interceptors_task except AioRpcError as err: return err.initial_metadata() except asyncio.CancelledError: return None return await call.initial_metadata() async def trailing_metadata(self) -> Optional[Metadata]: try: call = await self._interceptors_task except AioRpcError as err: return err.trailing_metadata() except asyncio.CancelledError: return None return await call.trailing_metadata() async def code(self) -> grpc.StatusCode: try: call = await self._interceptors_task except AioRpcError as err: return err.code() except asyncio.CancelledError: return grpc.StatusCode.CANCELLED return await call.code() async def details(self) -> str: try: call = await self._interceptors_task except AioRpcError as err: return err.details() except asyncio.CancelledError: return _LOCAL_CANCELLATION_DETAILS return await call.details() async def debug_error_string(self) -> Optional[str]: try: call = await self._interceptors_task except AioRpcError as err: return err.debug_error_string() except asyncio.CancelledError: return "" return await call.debug_error_string() async def wait_for_connection(self) -> None: call = await self._interceptors_task return await call.wait_for_connection() class _InterceptedUnaryResponseMixin: def __await__(self): call = yield from self._interceptors_task.__await__() response = yield from call.__await__() return response class _InterceptedStreamResponseMixin: _response_aiter: Optional[AsyncIterable[ResponseType]] def _init_stream_response_mixin(self) -> None: # Is initialized later, otherwise if the iterator is not finally # consumed a logging warning is emitted by Asyncio. self._response_aiter = None async def _wait_for_interceptor_task_response_iterator( self, ) -> ResponseType: call = await self._interceptors_task async for response in call: yield response def __aiter__(self) -> AsyncIterable[ResponseType]: if self._response_aiter is None: self._response_aiter = ( self._wait_for_interceptor_task_response_iterator() ) return self._response_aiter async def read(self) -> Union[EOFType, ResponseType]: if self._response_aiter is None: self._response_aiter = ( self._wait_for_interceptor_task_response_iterator() ) try: return await self._response_aiter.asend(None) except StopAsyncIteration: return cygrpc.EOF class _InterceptedStreamRequestMixin: _write_to_iterator_async_gen: Optional[AsyncIterable[RequestType]] _write_to_iterator_queue: Optional[asyncio.Queue] _status_code_task: Optional[asyncio.Task] _FINISH_ITERATOR_SENTINEL = object() def _init_stream_request_mixin( self, request_iterator: Optional[RequestIterableType] ) -> RequestIterableType: if request_iterator is None: # We provide our own request iterator which is a proxy # of the futures writes that will be done by the caller. self._write_to_iterator_queue = asyncio.Queue(maxsize=1) self._write_to_iterator_async_gen = ( self._proxy_writes_as_request_iterator() ) self._status_code_task = None request_iterator = self._write_to_iterator_async_gen else: self._write_to_iterator_queue = None return request_iterator async def _proxy_writes_as_request_iterator(self): await self._interceptors_task while True: value = await self._write_to_iterator_queue.get() if ( value is _InterceptedStreamRequestMixin._FINISH_ITERATOR_SENTINEL ): break yield value async def _write_to_iterator_queue_interruptible( self, request: RequestType, call: InterceptedCall ): # Write the specified 'request' to the request iterator queue using the # specified 'call' to allow for interruption of the write in the case # of abrupt termination of the call. if self._status_code_task is None: self._status_code_task = self._loop.create_task(call.code()) await asyncio.wait( ( self._loop.create_task( self._write_to_iterator_queue.put(request) ), self._status_code_task, ), return_when=asyncio.FIRST_COMPLETED, ) async def write(self, request: RequestType) -> None: # If no queue was created it means that requests # should be expected through an iterators provided # by the caller. if self._write_to_iterator_queue is None: raise cygrpc.UsageError(_API_STYLE_ERROR) try: call = await self._interceptors_task except (asyncio.CancelledError, AioRpcError): raise asyncio.InvalidStateError(_RPC_ALREADY_FINISHED_DETAILS) if call.done(): raise asyncio.InvalidStateError(_RPC_ALREADY_FINISHED_DETAILS) elif call._done_writing_flag: raise asyncio.InvalidStateError(_RPC_HALF_CLOSED_DETAILS) await self._write_to_iterator_queue_interruptible(request, call) if call.done(): raise asyncio.InvalidStateError(_RPC_ALREADY_FINISHED_DETAILS) async def done_writing(self) -> None: """Signal peer that client is done writing. This method is idempotent. """ # If no queue was created it means that requests # should be expected through an iterators provided # by the caller. if self._write_to_iterator_queue is None: raise cygrpc.UsageError(_API_STYLE_ERROR) try: call = await self._interceptors_task except asyncio.CancelledError: raise asyncio.InvalidStateError(_RPC_ALREADY_FINISHED_DETAILS) await self._write_to_iterator_queue_interruptible( _InterceptedStreamRequestMixin._FINISH_ITERATOR_SENTINEL, call ) class InterceptedUnaryUnaryCall( _InterceptedUnaryResponseMixin, InterceptedCall, _base_call.UnaryUnaryCall ): """Used for running a `UnaryUnaryCall` wrapped by interceptors. For the `__await__` method is it is proxied to the intercepted call only when the interceptor task is finished. """ _loop: asyncio.AbstractEventLoop _channel: cygrpc.AioChannel # pylint: disable=too-many-arguments def __init__( self, interceptors: Sequence[UnaryUnaryClientInterceptor], request: RequestType, timeout: Optional[float], metadata: Metadata, credentials: Optional[grpc.CallCredentials], wait_for_ready: Optional[bool], channel: cygrpc.AioChannel, method: bytes, request_serializer: SerializingFunction, response_deserializer: DeserializingFunction, loop: asyncio.AbstractEventLoop, ) -> None: self._loop = loop self._channel = channel interceptors_task = loop.create_task( self._invoke( interceptors, method, timeout, metadata, credentials, wait_for_ready, request, request_serializer, response_deserializer, ) ) super().__init__(interceptors_task) # pylint: disable=too-many-arguments async def _invoke( self, interceptors: Sequence[UnaryUnaryClientInterceptor], method: bytes, timeout: Optional[float], metadata: Optional[Metadata], credentials: Optional[grpc.CallCredentials], wait_for_ready: Optional[bool], request: RequestType, request_serializer: SerializingFunction, response_deserializer: DeserializingFunction, ) -> UnaryUnaryCall: """Run the RPC call wrapped in interceptors""" async def _run_interceptor( interceptors: List[UnaryUnaryClientInterceptor], client_call_details: ClientCallDetails, request: RequestType, ) -> _base_call.UnaryUnaryCall: if interceptors: continuation = functools.partial( _run_interceptor, interceptors[1:] ) call_or_response = await interceptors[0].intercept_unary_unary( continuation, client_call_details, request ) if isinstance(call_or_response, _base_call.UnaryUnaryCall): return call_or_response else: return UnaryUnaryCallResponse(call_or_response) else: return UnaryUnaryCall( request, _timeout_to_deadline(client_call_details.timeout), client_call_details.metadata, client_call_details.credentials, client_call_details.wait_for_ready, self._channel, client_call_details.method, request_serializer, response_deserializer, self._loop, ) client_call_details = ClientCallDetails( method, timeout, metadata, credentials, wait_for_ready ) return await _run_interceptor( list(interceptors), client_call_details, request ) def time_remaining(self) -> Optional[float]: raise NotImplementedError() class InterceptedUnaryStreamCall( _InterceptedStreamResponseMixin, InterceptedCall, _base_call.UnaryStreamCall ): """Used for running a `UnaryStreamCall` wrapped by interceptors.""" _loop: asyncio.AbstractEventLoop _channel: cygrpc.AioChannel _last_returned_call_from_interceptors = Optional[_base_call.UnaryStreamCall] # pylint: disable=too-many-arguments def __init__( self, interceptors: Sequence[UnaryStreamClientInterceptor], request: RequestType, timeout: Optional[float], metadata: Metadata, credentials: Optional[grpc.CallCredentials], wait_for_ready: Optional[bool], channel: cygrpc.AioChannel, method: bytes, request_serializer: SerializingFunction, response_deserializer: DeserializingFunction, loop: asyncio.AbstractEventLoop, ) -> None: self._loop = loop self._channel = channel self._init_stream_response_mixin() self._last_returned_call_from_interceptors = None interceptors_task = loop.create_task( self._invoke( interceptors, method, timeout, metadata, credentials, wait_for_ready, request, request_serializer, response_deserializer, ) ) super().__init__(interceptors_task) # pylint: disable=too-many-arguments async def _invoke( self, interceptors: Sequence[UnaryStreamClientInterceptor], method: bytes, timeout: Optional[float], metadata: Optional[Metadata], credentials: Optional[grpc.CallCredentials], wait_for_ready: Optional[bool], request: RequestType, request_serializer: SerializingFunction, response_deserializer: DeserializingFunction, ) -> UnaryStreamCall: """Run the RPC call wrapped in interceptors""" async def _run_interceptor( interceptors: List[UnaryStreamClientInterceptor], client_call_details: ClientCallDetails, request: RequestType, ) -> _base_call.UnaryStreamCall: if interceptors: continuation = functools.partial( _run_interceptor, interceptors[1:] ) call_or_response_iterator = await interceptors[ 0 ].intercept_unary_stream( continuation, client_call_details, request ) if isinstance( call_or_response_iterator, _base_call.UnaryStreamCall ): self._last_returned_call_from_interceptors = ( call_or_response_iterator ) else: self._last_returned_call_from_interceptors = ( UnaryStreamCallResponseIterator( self._last_returned_call_from_interceptors, call_or_response_iterator, ) ) return self._last_returned_call_from_interceptors else: self._last_returned_call_from_interceptors = UnaryStreamCall( request, _timeout_to_deadline(client_call_details.timeout), client_call_details.metadata, client_call_details.credentials, client_call_details.wait_for_ready, self._channel, client_call_details.method, request_serializer, response_deserializer, self._loop, ) return self._last_returned_call_from_interceptors client_call_details = ClientCallDetails( method, timeout, metadata, credentials, wait_for_ready ) return await _run_interceptor( list(interceptors), client_call_details, request ) def time_remaining(self) -> Optional[float]: raise NotImplementedError() class InterceptedStreamUnaryCall( _InterceptedUnaryResponseMixin, _InterceptedStreamRequestMixin, InterceptedCall, _base_call.StreamUnaryCall, ): """Used for running a `StreamUnaryCall` wrapped by interceptors. For the `__await__` method is it is proxied to the intercepted call only when the interceptor task is finished. """ _loop: asyncio.AbstractEventLoop _channel: cygrpc.AioChannel # pylint: disable=too-many-arguments def __init__( self, interceptors: Sequence[StreamUnaryClientInterceptor], request_iterator: Optional[RequestIterableType], timeout: Optional[float], metadata: Metadata, credentials: Optional[grpc.CallCredentials], wait_for_ready: Optional[bool], channel: cygrpc.AioChannel, method: bytes, request_serializer: SerializingFunction, response_deserializer: DeserializingFunction, loop: asyncio.AbstractEventLoop, ) -> None: self._loop = loop self._channel = channel request_iterator = self._init_stream_request_mixin(request_iterator) interceptors_task = loop.create_task( self._invoke( interceptors, method, timeout, metadata, credentials, wait_for_ready, request_iterator, request_serializer, response_deserializer, ) ) super().__init__(interceptors_task) # pylint: disable=too-many-arguments async def _invoke( self, interceptors: Sequence[StreamUnaryClientInterceptor], method: bytes, timeout: Optional[float], metadata: Optional[Metadata], credentials: Optional[grpc.CallCredentials], wait_for_ready: Optional[bool], request_iterator: RequestIterableType, request_serializer: SerializingFunction, response_deserializer: DeserializingFunction, ) -> StreamUnaryCall: """Run the RPC call wrapped in interceptors""" async def _run_interceptor( interceptors: Iterator[StreamUnaryClientInterceptor], client_call_details: ClientCallDetails, request_iterator: RequestIterableType, ) -> _base_call.StreamUnaryCall: if interceptors: continuation = functools.partial( _run_interceptor, interceptors[1:] ) return await interceptors[0].intercept_stream_unary( continuation, client_call_details, request_iterator ) else: return StreamUnaryCall( request_iterator, _timeout_to_deadline(client_call_details.timeout), client_call_details.metadata, client_call_details.credentials, client_call_details.wait_for_ready, self._channel, client_call_details.method, request_serializer, response_deserializer, self._loop, ) client_call_details = ClientCallDetails( method, timeout, metadata, credentials, wait_for_ready ) return await _run_interceptor( list(interceptors), client_call_details, request_iterator ) def time_remaining(self) -> Optional[float]: raise NotImplementedError() class InterceptedStreamStreamCall( _InterceptedStreamResponseMixin, _InterceptedStreamRequestMixin, InterceptedCall, _base_call.StreamStreamCall, ): """Used for running a `StreamStreamCall` wrapped by interceptors.""" _loop: asyncio.AbstractEventLoop _channel: cygrpc.AioChannel _last_returned_call_from_interceptors = Optional[ _base_call.StreamStreamCall ] # pylint: disable=too-many-arguments def __init__( self, interceptors: Sequence[StreamStreamClientInterceptor], request_iterator: Optional[RequestIterableType], timeout: Optional[float], metadata: Metadata, credentials: Optional[grpc.CallCredentials], wait_for_ready: Optional[bool], channel: cygrpc.AioChannel, method: bytes, request_serializer: SerializingFunction, response_deserializer: DeserializingFunction, loop: asyncio.AbstractEventLoop, ) -> None: self._loop = loop self._channel = channel self._init_stream_response_mixin() request_iterator = self._init_stream_request_mixin(request_iterator) self._last_returned_call_from_interceptors = None interceptors_task = loop.create_task( self._invoke( interceptors, method, timeout, metadata, credentials, wait_for_ready, request_iterator, request_serializer, response_deserializer, ) ) super().__init__(interceptors_task) # pylint: disable=too-many-arguments async def _invoke( self, interceptors: Sequence[StreamStreamClientInterceptor], method: bytes, timeout: Optional[float], metadata: Optional[Metadata], credentials: Optional[grpc.CallCredentials], wait_for_ready: Optional[bool], request_iterator: RequestIterableType, request_serializer: SerializingFunction, response_deserializer: DeserializingFunction, ) -> StreamStreamCall: """Run the RPC call wrapped in interceptors""" async def _run_interceptor( interceptors: List[StreamStreamClientInterceptor], client_call_details: ClientCallDetails, request_iterator: RequestIterableType, ) -> _base_call.StreamStreamCall: if interceptors: continuation = functools.partial( _run_interceptor, interceptors[1:] ) call_or_response_iterator = await interceptors[ 0 ].intercept_stream_stream( continuation, client_call_details, request_iterator ) if isinstance( call_or_response_iterator, _base_call.StreamStreamCall ): self._last_returned_call_from_interceptors = ( call_or_response_iterator ) else: self._last_returned_call_from_interceptors = ( StreamStreamCallResponseIterator( self._last_returned_call_from_interceptors, call_or_response_iterator, ) ) return self._last_returned_call_from_interceptors else: self._last_returned_call_from_interceptors = StreamStreamCall( request_iterator, _timeout_to_deadline(client_call_details.timeout), client_call_details.metadata, client_call_details.credentials, client_call_details.wait_for_ready, self._channel, client_call_details.method, request_serializer, response_deserializer, self._loop, ) return self._last_returned_call_from_interceptors client_call_details = ClientCallDetails( method, timeout, metadata, credentials, wait_for_ready ) return await _run_interceptor( list(interceptors), client_call_details, request_iterator ) def time_remaining(self) -> Optional[float]: raise NotImplementedError() class UnaryUnaryCallResponse(_base_call.UnaryUnaryCall): """Final UnaryUnaryCall class finished with a response.""" _response: ResponseType def __init__(self, response: ResponseType) -> None: self._response = response def cancel(self) -> bool: return False def cancelled(self) -> bool: return False def done(self) -> bool: return True def add_done_callback(self, unused_callback) -> None: raise NotImplementedError() def time_remaining(self) -> Optional[float]: raise NotImplementedError() async def initial_metadata(self) -> Optional[Metadata]: return None async def trailing_metadata(self) -> Optional[Metadata]: return None async def code(self) -> grpc.StatusCode: return grpc.StatusCode.OK async def details(self) -> str: return "" async def debug_error_string(self) -> Optional[str]: return None def __await__(self): if False: # pylint: disable=using-constant-test # This code path is never used, but a yield statement is needed # for telling the interpreter that __await__ is a generator. yield None return self._response async def wait_for_connection(self) -> None: pass class _StreamCallResponseIterator: _call: Union[_base_call.UnaryStreamCall, _base_call.StreamStreamCall] _response_iterator: AsyncIterable[ResponseType] def __init__( self, call: Union[_base_call.UnaryStreamCall, _base_call.StreamStreamCall], response_iterator: AsyncIterable[ResponseType], ) -> None: self._response_iterator = response_iterator self._call = call def cancel(self) -> bool: return self._call.cancel() def cancelled(self) -> bool: return self._call.cancelled() def done(self) -> bool: return self._call.done() def add_done_callback(self, callback) -> None: self._call.add_done_callback(callback) def time_remaining(self) -> Optional[float]: return self._call.time_remaining() async def initial_metadata(self) -> Optional[Metadata]: return await self._call.initial_metadata() async def trailing_metadata(self) -> Optional[Metadata]: return await self._call.trailing_metadata() async def code(self) -> grpc.StatusCode: return await self._call.code() async def details(self) -> str: return await self._call.details() async def debug_error_string(self) -> Optional[str]: return await self._call.debug_error_string() def __aiter__(self): return self._response_iterator.__aiter__() async def wait_for_connection(self) -> None: return await self._call.wait_for_connection() class UnaryStreamCallResponseIterator( _StreamCallResponseIterator, _base_call.UnaryStreamCall ): """UnaryStreamCall class which uses an alternative response iterator.""" async def read(self) -> Union[EOFType, ResponseType]: # Behind the scenes everything goes through the # async iterator. So this path should not be reached. raise NotImplementedError() class StreamStreamCallResponseIterator( _StreamCallResponseIterator, _base_call.StreamStreamCall ): """StreamStreamCall class which uses an alternative response iterator.""" async def read(self) -> Union[EOFType, ResponseType]: # Behind the scenes everything goes through the # async iterator. So this path should not be reached. raise NotImplementedError() async def write(self, request: RequestType) -> None: # Behind the scenes everything goes through the # async iterator provided by the InterceptedStreamStreamCall. # So this path should not be reached. raise NotImplementedError() async def done_writing(self) -> None: # Behind the scenes everything goes through the # async iterator provided by the InterceptedStreamStreamCall. # So this path should not be reached. raise NotImplementedError() @property def _done_writing_flag(self) -> bool: return self._call._done_writing_flag