/* * * Copyright 2015 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. * */ #import "GRPCCall.h" #import "GRPCCall+OAuth2.h" #import "GRPCCallOptions.h" #import "GRPCInterceptor.h" #import #import #import #import #include #include #import "private/GRPCCall+V2API.h" #import "private/GRPCCallInternal.h" #import "private/GRPCChannelPool.h" #import "private/GRPCCompletionQueue.h" #import "private/GRPCConnectivityMonitor.h" #import "private/GRPCHost.h" #import "private/GRPCRequestHeaders.h" #import "private/GRPCWrappedCall.h" #import "private/NSData+GRPC.h" #import "private/NSDictionary+GRPC.h" #import "private/NSError+GRPC.h" // At most 6 ops can be in an op batch for a client: SEND_INITIAL_METADATA, // SEND_MESSAGE, SEND_CLOSE_FROM_CLIENT, RECV_INITIAL_METADATA, RECV_MESSAGE, // and RECV_STATUS_ON_CLIENT. NSInteger kMaxClientBatch = 6; NSString *const kGRPCHeadersKey = @"io.grpc.HeadersKey"; NSString *const kGRPCTrailersKey = @"io.grpc.TrailersKey"; static NSMutableDictionary *callFlags; static NSString *const kAuthorizationHeader = @"authorization"; static NSString *const kBearerPrefix = @"Bearer "; const char *kCFStreamVarName = "grpc_cfstream"; @interface GRPCCall () // Make them read-write. @property(atomic, strong) NSDictionary *responseHeaders; @property(atomic, strong) NSDictionary *responseTrailers; - (void)receiveNextMessages:(NSUInteger)numberOfMessages; - (instancetype)initWithHost:(NSString *)host path:(NSString *)path callSafety:(GRPCCallSafety)safety requestsWriter:(GRXWriter *)requestsWriter callOptions:(GRPCCallOptions *)callOptions writeDone:(void (^)(void))writeDone; @end @implementation GRPCRequestOptions - (instancetype)initWithHost:(NSString *)host path:(NSString *)path safety:(GRPCCallSafety)safety { NSAssert(host.length != 0 && path.length != 0, @"host and path cannot be empty"); if (host.length == 0 || path.length == 0) { return nil; } if ((self = [super init])) { _host = [host copy]; _path = [path copy]; _safety = safety; } return self; } - (id)copyWithZone:(NSZone *)zone { GRPCRequestOptions *request = [[GRPCRequestOptions alloc] initWithHost:_host path:_path safety:_safety]; return request; } @end /** * This class acts as a wrapper for interceptors */ @implementation GRPCCall2 { /** The handler of responses. */ id _responseHandler; /** * Points to the first interceptor in the interceptor chain. */ id _firstInterceptor; /** * The actual call options being used by this call. It is different from the user-provided * call options when the user provided a NULL call options object. */ GRPCCallOptions *_actualCallOptions; } - (instancetype)initWithRequestOptions:(GRPCRequestOptions *)requestOptions responseHandler:(id)responseHandler callOptions:(GRPCCallOptions *)callOptions { NSAssert(requestOptions.host.length != 0 && requestOptions.path.length != 0, @"Neither host nor path can be nil."); NSAssert(requestOptions.safety <= GRPCCallSafetyCacheableRequest, @"Invalid call safety value."); NSAssert(responseHandler != nil, @"Response handler required."); if (requestOptions.host.length == 0 || requestOptions.path.length == 0) { return nil; } if (requestOptions.safety > GRPCCallSafetyCacheableRequest) { return nil; } if (responseHandler == nil) { return nil; } if ((self = [super init])) { _requestOptions = [requestOptions copy]; _callOptions = [callOptions copy]; if (!_callOptions) { _actualCallOptions = [[GRPCCallOptions alloc] init]; } else { _actualCallOptions = [callOptions copy]; } _responseHandler = responseHandler; // Initialize the interceptor chain GRPCCall2Internal *internalCall = [[GRPCCall2Internal alloc] init]; id nextInterceptor = internalCall; GRPCInterceptorManager *nextManager = nil; NSArray *interceptorFactories = _actualCallOptions.interceptorFactories; if (interceptorFactories.count == 0) { [internalCall setResponseHandler:_responseHandler]; } else { for (int i = (int)interceptorFactories.count - 1; i >= 0; i--) { GRPCInterceptorManager *manager = [[GRPCInterceptorManager alloc] initWithNextInterceptor:nextInterceptor]; GRPCInterceptor *interceptor = [interceptorFactories[i] createInterceptorWithManager:manager]; NSAssert(interceptor != nil, @"Failed to create interceptor"); if (interceptor == nil) { return nil; } if (i == (int)interceptorFactories.count - 1) { [internalCall setResponseHandler:interceptor]; } else { [nextManager setPreviousInterceptor:interceptor]; } nextInterceptor = interceptor; nextManager = manager; } [nextManager setPreviousInterceptor:_responseHandler]; } _firstInterceptor = nextInterceptor; } return self; } - (instancetype)initWithRequestOptions:(GRPCRequestOptions *)requestOptions responseHandler:(id)responseHandler { return [self initWithRequestOptions:requestOptions responseHandler:responseHandler callOptions:nil]; } - (void)start { id copiedFirstInterceptor; @synchronized(self) { copiedFirstInterceptor = _firstInterceptor; } GRPCRequestOptions *requestOptions = [_requestOptions copy]; GRPCCallOptions *callOptions = [_actualCallOptions copy]; if ([copiedFirstInterceptor respondsToSelector:@selector(startWithRequestOptions:callOptions:)]) { dispatch_async(copiedFirstInterceptor.requestDispatchQueue, ^{ [copiedFirstInterceptor startWithRequestOptions:requestOptions callOptions:callOptions]; }); } } - (void)cancel { id copiedFirstInterceptor; @synchronized(self) { copiedFirstInterceptor = _firstInterceptor; } if ([copiedFirstInterceptor respondsToSelector:@selector(cancel)]) { dispatch_async(copiedFirstInterceptor.requestDispatchQueue, ^{ [copiedFirstInterceptor cancel]; }); } } - (void)writeData:(id)data { id copiedFirstInterceptor; @synchronized(self) { copiedFirstInterceptor = _firstInterceptor; } if ([copiedFirstInterceptor respondsToSelector:@selector(writeData:)]) { dispatch_async(copiedFirstInterceptor.requestDispatchQueue, ^{ [copiedFirstInterceptor writeData:data]; }); } } - (void)finish { id copiedFirstInterceptor; @synchronized(self) { copiedFirstInterceptor = _firstInterceptor; } if ([copiedFirstInterceptor respondsToSelector:@selector(finish)]) { dispatch_async(copiedFirstInterceptor.requestDispatchQueue, ^{ [copiedFirstInterceptor finish]; }); } } - (void)receiveNextMessages:(NSUInteger)numberOfMessages { id copiedFirstInterceptor; @synchronized(self) { copiedFirstInterceptor = _firstInterceptor; } if ([copiedFirstInterceptor respondsToSelector:@selector(receiveNextMessages:)]) { dispatch_async(copiedFirstInterceptor.requestDispatchQueue, ^{ [copiedFirstInterceptor receiveNextMessages:numberOfMessages]; }); } } @end // The following methods of a C gRPC call object aren't reentrant, and thus // calls to them must be serialized: // - start_batch // - destroy // // start_batch with a SEND_MESSAGE argument can only be called after the // OP_COMPLETE event for any previous write is received. This is achieved by // pausing the requests writer immediately every time it writes a value, and // resuming it again when OP_COMPLETE is received. // // Similarly, start_batch with a RECV_MESSAGE argument can only be called after // the OP_COMPLETE event for any previous read is received.This is easier to // enforce, as we're writing the received messages into the writeable: // start_batch is enqueued once upon receiving the OP_COMPLETE event for the // RECV_METADATA batch, and then once after receiving each OP_COMPLETE event for // each RECV_MESSAGE batch. @implementation GRPCCall { dispatch_queue_t _callQueue; NSString *_host; NSString *_path; GRPCCallSafety _callSafety; GRPCCallOptions *_callOptions; GRPCWrappedCall *_wrappedCall; GRPCConnectivityMonitor *_connectivityMonitor; // The C gRPC library has less guarantees on the ordering of events than we // do. Particularly, in the face of errors, there's no ordering guarantee at // all. This wrapper over our actual writeable ensures thread-safety and // correct ordering. GRXConcurrentWriteable *_responseWriteable; // The network thread wants the requestWriter to resume (when the server is ready for more input), // or to stop (on errors), concurrently with user threads that want to start it, pause it or stop // it. Because a writer isn't thread-safe, we'll synchronize those operations on it. // We don't use a dispatch queue for that purpose, because the writer can call writeValue: or // writesFinishedWithError: on this GRPCCall as part of those operations. We want to be able to // pause the writer immediately on writeValue:, so we need our locking to be recursive. GRXWriter *_requestWriter; // To create a retain cycle when a call is started, up until it finishes. See // |startWithWriteable:| and |finishWithError:|. This saves users from having to retain a // reference to the call object if all they're interested in is the handler being executed when // the response arrives. GRPCCall *_retainSelf; GRPCRequestHeaders *_requestHeaders; // In the case that the call is a unary call (i.e. the writer to GRPCCall is of type // GRXImmediateSingleWriter), GRPCCall will delay sending ops (not send them to C core // immediately) and buffer them into a batch _unaryOpBatch. The batch is sent to C core when // the SendClose op is added. BOOL _unaryCall; NSMutableArray *_unaryOpBatch; // The dispatch queue to be used for enqueuing responses to user. Defaulted to the main dispatch // queue dispatch_queue_t _responseQueue; // The OAuth2 token fetched from a token provider. NSString *_fetchedOauth2AccessToken; // The callback to be called when a write message op is done. void (^_writeDone)(void); // Indicate a read request to core is pending. BOOL _pendingCoreRead; // Indicate pending read message request from user. NSUInteger _pendingReceiveNextMessages; } @synthesize state = _state; + (void)initialize { // Guarantees the code in {} block is invoked only once. See ref at: // https://developer.apple.com/documentation/objectivec/nsobject/1418639-initialize?language=objc if (self == [GRPCCall self]) { // Enable CFStream by default by do not overwrite if the user explicitly disables CFStream with // environment variable "grpc_cfstream=0" setenv(kCFStreamVarName, "1", 0); grpc_init(); callFlags = [NSMutableDictionary dictionary]; } } + (void)setCallSafety:(GRPCCallSafety)callSafety host:(NSString *)host path:(NSString *)path { if (host.length == 0 || path.length == 0) { return; } NSString *hostAndPath = [NSString stringWithFormat:@"%@/%@", host, path]; @synchronized(callFlags) { switch (callSafety) { case GRPCCallSafetyDefault: callFlags[hostAndPath] = @0; break; case GRPCCallSafetyIdempotentRequest: callFlags[hostAndPath] = @GRPC_INITIAL_METADATA_IDEMPOTENT_REQUEST; break; case GRPCCallSafetyCacheableRequest: callFlags[hostAndPath] = @GRPC_INITIAL_METADATA_CACHEABLE_REQUEST; break; default: break; } } } + (uint32_t)callFlagsForHost:(NSString *)host path:(NSString *)path { NSString *hostAndPath = [NSString stringWithFormat:@"%@/%@", host, path]; @synchronized(callFlags) { return [callFlags[hostAndPath] intValue]; } } // Designated initializer - (instancetype)initWithHost:(NSString *)host path:(NSString *)path requestsWriter:(GRXWriter *)requestWriter { return [self initWithHost:host path:path callSafety:GRPCCallSafetyDefault requestsWriter:requestWriter callOptions:nil]; } - (instancetype)initWithHost:(NSString *)host path:(NSString *)path callSafety:(GRPCCallSafety)safety requestsWriter:(GRXWriter *)requestsWriter callOptions:(GRPCCallOptions *)callOptions { return [self initWithHost:host path:path callSafety:safety requestsWriter:requestsWriter callOptions:callOptions writeDone:nil]; } - (instancetype)initWithHost:(NSString *)host path:(NSString *)path callSafety:(GRPCCallSafety)safety requestsWriter:(GRXWriter *)requestsWriter callOptions:(GRPCCallOptions *)callOptions writeDone:(void (^)(void))writeDone { // Purposely using pointer rather than length (host.length == 0) for backwards compatibility. NSAssert(host != nil && path != nil, @"Neither host nor path can be nil."); NSAssert(safety <= GRPCCallSafetyCacheableRequest, @"Invalid call safety value."); NSAssert(requestsWriter.state == GRXWriterStateNotStarted, @"The requests writer can't be already started."); if (!host || !path) { return nil; } if (safety > GRPCCallSafetyCacheableRequest) { return nil; } if (requestsWriter.state != GRXWriterStateNotStarted) { return nil; } if ((self = [super init])) { _host = [host copy]; _path = [path copy]; _callSafety = safety; _callOptions = [callOptions copy]; // Serial queue to invoke the non-reentrant methods of the grpc_call object. _callQueue = dispatch_queue_create("io.grpc.call", DISPATCH_QUEUE_SERIAL); _requestWriter = requestsWriter; _requestHeaders = [[GRPCRequestHeaders alloc] initWithCall:self]; _writeDone = writeDone; if ([requestsWriter isKindOfClass:[GRXImmediateSingleWriter class]]) { _unaryCall = YES; _unaryOpBatch = [NSMutableArray arrayWithCapacity:kMaxClientBatch]; } _responseQueue = dispatch_get_main_queue(); // do not start a read until initial metadata is received _pendingReceiveNextMessages = 0; _pendingCoreRead = YES; } return self; } - (void)setResponseDispatchQueue:(dispatch_queue_t)queue { @synchronized(self) { if (_state != GRXWriterStateNotStarted) { return; } _responseQueue = queue; } } #pragma mark Finish // This function should support being called within a @synchronized(self) block in another function // Should not manipulate _requestWriter for deadlock prevention. - (void)finishWithError:(NSError *)errorOrNil { @synchronized(self) { if (_state == GRXWriterStateFinished) { return; } _state = GRXWriterStateFinished; if (errorOrNil) { [_responseWriteable cancelWithError:errorOrNil]; } else { [_responseWriteable enqueueSuccessfulCompletion]; } // If the call isn't retained anywhere else, it can be deallocated now. _retainSelf = nil; } } - (void)cancel { @synchronized(self) { if (_state == GRXWriterStateFinished) { return; } [self finishWithError:[NSError errorWithDomain:kGRPCErrorDomain code:GRPCErrorCodeCancelled userInfo:@{NSLocalizedDescriptionKey : @"Canceled by app"}]]; [_wrappedCall cancel]; } _requestWriter.state = GRXWriterStateFinished; } - (void)dealloc { [GRPCConnectivityMonitor unregisterObserver:self]; __block GRPCWrappedCall *wrappedCall = _wrappedCall; dispatch_async(_callQueue, ^{ wrappedCall = nil; }); } #pragma mark Read messages // Only called from the call queue. // The handler will be called from the network queue. - (void)startReadWithHandler:(void (^)(grpc_byte_buffer *))handler { // TODO(jcanizales): Add error handlers for async failures [_wrappedCall startBatchWithOperations:@[ [[GRPCOpRecvMessage alloc] initWithHandler:handler] ]]; } // Called initially from the network queue once response headers are received, // then "recursively" from the responseWriteable queue after each response from the // server has been written. // If the call is currently paused, this is a noop. Restarting the call will invoke this // method. // TODO(jcanizales): Rename to readResponseIfNotPaused. - (void)maybeStartNextRead { @synchronized(self) { if (_state != GRXWriterStateStarted) { return; } if (_callOptions.flowControlEnabled && (_pendingCoreRead || _pendingReceiveNextMessages == 0)) { return; } _pendingCoreRead = YES; _pendingReceiveNextMessages--; } dispatch_async(_callQueue, ^{ __weak GRPCCall *weakSelf = self; [self startReadWithHandler:^(grpc_byte_buffer *message) { if (message == NULL) { // No more messages from the server return; } __strong GRPCCall *strongSelf = weakSelf; if (strongSelf == nil) { grpc_byte_buffer_destroy(message); return; } NSData *data = [NSData grpc_dataWithByteBuffer:message]; grpc_byte_buffer_destroy(message); if (!data) { // The app doesn't have enough memory to hold the server response. We // don't want to throw, because the app shouldn't crash for a behavior // that's on the hands of any server to have. Instead we finish and ask // the server to cancel. @synchronized(strongSelf) { strongSelf->_pendingCoreRead = NO; [strongSelf finishWithError:[NSError errorWithDomain:kGRPCErrorDomain code:GRPCErrorCodeResourceExhausted userInfo:@{ NSLocalizedDescriptionKey : @"Client does not have enough memory to " @"hold the server response." }]]; [strongSelf->_wrappedCall cancel]; } strongSelf->_requestWriter.state = GRXWriterStateFinished; } else { @synchronized(strongSelf) { [strongSelf->_responseWriteable enqueueValue:data completionHandler:^{ __strong GRPCCall *strongSelf = weakSelf; if (strongSelf) { @synchronized(strongSelf) { strongSelf->_pendingCoreRead = NO; [strongSelf maybeStartNextRead]; } } }]; } } }]; }); } #pragma mark Send headers - (void)sendHeaders { // TODO (mxyan): Remove after deprecated methods are removed uint32_t callSafetyFlags = 0; switch (_callSafety) { case GRPCCallSafetyDefault: callSafetyFlags = 0; break; case GRPCCallSafetyIdempotentRequest: callSafetyFlags = GRPC_INITIAL_METADATA_IDEMPOTENT_REQUEST; break; case GRPCCallSafetyCacheableRequest: callSafetyFlags = GRPC_INITIAL_METADATA_CACHEABLE_REQUEST; break; } NSMutableDictionary *headers = [_requestHeaders mutableCopy]; NSString *fetchedOauth2AccessToken; @synchronized(self) { fetchedOauth2AccessToken = _fetchedOauth2AccessToken; } if (fetchedOauth2AccessToken != nil) { headers[@"authorization"] = [kBearerPrefix stringByAppendingString:fetchedOauth2AccessToken]; } else if (_callOptions.oauth2AccessToken != nil) { headers[@"authorization"] = [kBearerPrefix stringByAppendingString:_callOptions.oauth2AccessToken]; } // TODO(jcanizales): Add error handlers for async failures GRPCOpSendMetadata *op = [[GRPCOpSendMetadata alloc] initWithMetadata:headers flags:callSafetyFlags handler:nil]; // No clean-up needed after SEND_INITIAL_METADATA dispatch_async(_callQueue, ^{ if (!self->_unaryCall) { [self->_wrappedCall startBatchWithOperations:@[ op ]]; } else { [self->_unaryOpBatch addObject:op]; } }); } - (void)receiveNextMessages:(NSUInteger)numberOfMessages { if (numberOfMessages == 0) { return; } @synchronized(self) { _pendingReceiveNextMessages += numberOfMessages; if (_state != GRXWriterStateStarted || !_callOptions.flowControlEnabled) { return; } [self maybeStartNextRead]; } } #pragma mark GRXWriteable implementation // Only called from the call queue. The error handler will be called from the // network queue if the write didn't succeed. // If the call is a unary call, parameter \a errorHandler will be ignored and // the error handler of GRPCOpSendClose will be executed in case of error. - (void)writeMessage:(NSData *)message withErrorHandler:(void (^)(void))errorHandler { __weak GRPCCall *weakSelf = self; void (^resumingHandler)(void) = ^{ // Resume the request writer. GRPCCall *strongSelf = weakSelf; if (strongSelf) { strongSelf->_requestWriter.state = GRXWriterStateStarted; if (strongSelf->_writeDone) { strongSelf->_writeDone(); } } }; GRPCOpSendMessage *op = [[GRPCOpSendMessage alloc] initWithMessage:message handler:resumingHandler]; if (!_unaryCall) { [_wrappedCall startBatchWithOperations:@[ op ] errorHandler:errorHandler]; } else { // Ignored errorHandler since it is the same as the one for GRPCOpSendClose. // TODO (mxyan): unify the error handlers of all Ops into a single closure. [_unaryOpBatch addObject:op]; } } - (void)writeValue:(id)value { NSAssert([value isKindOfClass:[NSData class]], @"value must be of type NSData"); @synchronized(self) { if (_state == GRXWriterStateFinished) { return; } } // Pause the input and only resume it when the C layer notifies us that writes // can proceed. _requestWriter.state = GRXWriterStatePaused; dispatch_async(_callQueue, ^{ // Write error is not processed here. It is handled by op batch of GRPC_OP_RECV_STATUS_ON_CLIENT [self writeMessage:value withErrorHandler:nil]; }); } // Only called from the call queue. The error handler will be called from the // network queue if the requests stream couldn't be closed successfully. - (void)finishRequestWithErrorHandler:(void (^)(void))errorHandler { if (!_unaryCall) { [_wrappedCall startBatchWithOperations:@[ [[GRPCOpSendClose alloc] init] ] errorHandler:errorHandler]; } else { [_unaryOpBatch addObject:[[GRPCOpSendClose alloc] init]]; [_wrappedCall startBatchWithOperations:_unaryOpBatch errorHandler:errorHandler]; } } - (void)writesFinishedWithError:(NSError *)errorOrNil { if (errorOrNil) { [self cancel]; } else { dispatch_async(_callQueue, ^{ // EOS error is not processed here. It is handled by op batch of GRPC_OP_RECV_STATUS_ON_CLIENT [self finishRequestWithErrorHandler:nil]; }); } } #pragma mark Invoke // Both handlers will eventually be called, from the network queue. Writes can start immediately // after this. // The first one (headersHandler), when the response headers are received. // The second one (completionHandler), whenever the RPC finishes for any reason. - (void)invokeCallWithHeadersHandler:(void (^)(NSDictionary *))headersHandler completionHandler:(void (^)(NSError *, NSDictionary *))completionHandler { dispatch_async(_callQueue, ^{ // TODO(jcanizales): Add error handlers for async failures [self->_wrappedCall startBatchWithOperations:@[ [[GRPCOpRecvMetadata alloc] initWithHandler:headersHandler] ]]; [self->_wrappedCall startBatchWithOperations:@[ [[GRPCOpRecvStatus alloc] initWithHandler:completionHandler] ]]; }); } - (void)invokeCall { __weak GRPCCall *weakSelf = self; [self invokeCallWithHeadersHandler:^(NSDictionary *headers) { // Response headers received. __strong GRPCCall *strongSelf = weakSelf; if (strongSelf) { @synchronized(strongSelf) { // it is ok to set nil because headers are only received once strongSelf.responseHeaders = nil; // copy the header so that the GRPCOpRecvMetadata object may be dealloc'ed NSDictionary *copiedHeaders = [[NSDictionary alloc] initWithDictionary:headers copyItems:YES]; strongSelf.responseHeaders = copiedHeaders; strongSelf->_pendingCoreRead = NO; [strongSelf maybeStartNextRead]; } } } completionHandler:^(NSError *error, NSDictionary *trailers) { __strong GRPCCall *strongSelf = weakSelf; if (strongSelf) { strongSelf.responseTrailers = trailers; if (error) { NSMutableDictionary *userInfo = [NSMutableDictionary dictionary]; if (error.userInfo) { [userInfo addEntriesFromDictionary:error.userInfo]; } userInfo[kGRPCTrailersKey] = strongSelf.responseTrailers; // Since gRPC core does not guarantee the headers block being called before this block, // responseHeaders might be nil. userInfo[kGRPCHeadersKey] = strongSelf.responseHeaders; error = [NSError errorWithDomain:error.domain code:error.code userInfo:userInfo]; } [strongSelf finishWithError:error]; strongSelf->_requestWriter.state = GRXWriterStateFinished; } }]; } #pragma mark GRXWriter implementation // Lock acquired inside startWithWriteable: - (void)startCallWithWriteable:(id)writeable { @synchronized(self) { if (_state == GRXWriterStateFinished) { return; } _responseWriteable = [[GRXConcurrentWriteable alloc] initWithWriteable:writeable dispatchQueue:_responseQueue]; GRPCPooledChannel *channel = [[GRPCChannelPool sharedInstance] channelWithHost:_host callOptions:_callOptions]; _wrappedCall = [channel wrappedCallWithPath:_path completionQueue:[GRPCCompletionQueue completionQueue] callOptions:_callOptions]; if (_wrappedCall == nil) { [self finishWithError:[NSError errorWithDomain:kGRPCErrorDomain code:GRPCErrorCodeUnavailable userInfo:@{ NSLocalizedDescriptionKey : @"Failed to create call or channel." }]]; return; } [self sendHeaders]; [self invokeCall]; // Connectivity monitor is not required for CFStream char *enableCFStream = getenv(kCFStreamVarName); if (enableCFStream == nil || enableCFStream[0] != '1') { [GRPCConnectivityMonitor registerObserver:self selector:@selector(connectivityChanged:)]; } } // Now that the RPC has been initiated, request writes can start. [_requestWriter startWithWriteable:self]; } - (void)startWithWriteable:(id)writeable { id tokenProvider = nil; @synchronized(self) { _state = GRXWriterStateStarted; // Create a retain cycle so that this instance lives until the RPC finishes (or is cancelled). // This makes RPCs in which the call isn't externally retained possible (as long as it is // started before being autoreleased). Care is taken not to retain self strongly in any of the // blocks used in this implementation, so that the life of the instance is determined by this // retain cycle. _retainSelf = self; if (_callOptions == nil) { GRPCMutableCallOptions *callOptions = [[GRPCHost callOptionsForHost:_host] mutableCopy]; if (_serverName.length != 0) { callOptions.serverAuthority = _serverName; } if (_timeout > 0) { callOptions.timeout = _timeout; } uint32_t callFlags = [GRPCCall callFlagsForHost:_host path:_path]; if (callFlags != 0) { if (callFlags == GRPC_INITIAL_METADATA_IDEMPOTENT_REQUEST) { _callSafety = GRPCCallSafetyIdempotentRequest; } else if (callFlags == GRPC_INITIAL_METADATA_CACHEABLE_REQUEST) { _callSafety = GRPCCallSafetyCacheableRequest; } } id tokenProvider = self.tokenProvider; if (tokenProvider != nil) { callOptions.authTokenProvider = tokenProvider; } _callOptions = callOptions; } NSAssert(_callOptions.authTokenProvider == nil || _callOptions.oauth2AccessToken == nil, @"authTokenProvider and oauth2AccessToken cannot be set at the same time"); tokenProvider = _callOptions.authTokenProvider; } if (tokenProvider != nil) { __weak typeof(self) weakSelf = self; [tokenProvider getTokenWithHandler:^(NSString *token) { __strong typeof(self) strongSelf = weakSelf; if (strongSelf) { BOOL startCall = NO; @synchronized(strongSelf) { if (strongSelf->_state != GRXWriterStateFinished) { startCall = YES; if (token) { strongSelf->_fetchedOauth2AccessToken = [token copy]; } } } if (startCall) { [strongSelf startCallWithWriteable:writeable]; } } }]; } else { [self startCallWithWriteable:writeable]; } } - (void)setState:(GRXWriterState)newState { @synchronized(self) { // Manual transitions are only allowed from the started or paused states. if (_state == GRXWriterStateNotStarted || _state == GRXWriterStateFinished) { return; } switch (newState) { case GRXWriterStateFinished: _state = newState; // Per GRXWriter's contract, setting the state to Finished manually // means one doesn't wish the writeable to be messaged anymore. [_responseWriteable cancelSilently]; _responseWriteable = nil; return; case GRXWriterStatePaused: _state = newState; return; case GRXWriterStateStarted: if (_state == GRXWriterStatePaused) { _state = newState; [self maybeStartNextRead]; } return; case GRXWriterStateNotStarted: return; } } } - (void)connectivityChanged:(NSNotification *)note { // Cancel underlying call upon this notification. // Retain because connectivity manager only keeps weak reference to GRPCCall. __strong GRPCCall *strongSelf = self; if (strongSelf) { @synchronized(strongSelf) { [_wrappedCall cancel]; [strongSelf finishWithError:[NSError errorWithDomain:kGRPCErrorDomain code:GRPCErrorCodeUnavailable userInfo:@{ NSLocalizedDescriptionKey : @"Connectivity lost." }]]; } strongSelf->_requestWriter.state = GRXWriterStateFinished; } } @end