src/objective-c/GRPCClient/GRPCCall.m - external/github.com/grpc/grpc - Git at Google

 /*
  *
  * Copyright 2015, Google Inc.
  * All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are
  * met:
  *
  *     * Redistributions of source code must retain the above copyright
  * notice, this list of conditions and the following disclaimer.
  *     * Redistributions in binary form must reproduce the above
  * copyright notice, this list of conditions and the following disclaimer
  * in the documentation and/or other materials provided with the
  * distribution.
  *     * Neither the name of Google Inc. nor the names of its
  * contributors may be used to endorse or promote products derived from
  * this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
  * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
  * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
  * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  *
  */

 #import "GRPCCall.h"

 #include <grpc/grpc.h>
 #include <grpc/support/time.h>
 #import <RxLibrary/GRXConcurrentWriteable.h>
 #import <RxLibrary/GRXImmediateSingleWriter.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;

 @interface GRPCCall () <GRXWriteable>
 // Make them read-write.
 @property(atomic, strong) NSDictionary *responseHeaders;
 @property(atomic, strong) NSDictionary *responseTrailers;
 @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;
   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;
 }

 @synthesize state = _state;

 // TODO(jcanizales): If grpc_init is idempotent, this should be changed from load to initialize.
 + (void)load {
   grpc_init();
   callFlags = [NSMutableDictionary dictionary];
 }

 + (void)setCallSafety:(GRPCCallSafety)callSafety host:(NSString *)host path:(NSString *)path {
   NSString *hostAndPath = [NSString stringWithFormat:@"%@/%@", host, path];
   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];
   return [callFlags[hostAndPath] intValue];
 }

 - (instancetype)init {
   return [self initWithHost:nil path:nil requestsWriter:nil];
 }

 // Designated initializer
 - (instancetype)initWithHost:(NSString *)host
                         path:(NSString *)path
               requestsWriter:(GRXWriter *)requestWriter {
   if (!host || !path) {
     [NSException raise:NSInvalidArgumentException format:@"Neither host nor path can be nil."];
   }
   if (requestWriter.state != GRXWriterStateNotStarted) {
     [NSException raise:NSInvalidArgumentException
                 format:@"The requests writer can't be already started."];
   }
   if ((self = [super init])) {
     _host = [host copy];
     _path = [path copy];

     // Serial queue to invoke the non-reentrant methods of the grpc_call object.
     _callQueue = dispatch_queue_create("io.grpc.call", NULL);

     _requestWriter = requestWriter;

     _requestHeaders = [[GRPCRequestHeaders alloc] initWithCall:self];

     if ([requestWriter isKindOfClass:[GRXImmediateSingleWriter class]]) {
       _unaryCall = YES;
       _unaryOpBatch = [NSMutableArray arrayWithCapacity:kMaxClientBatch];
     }
   }
   return self;
 }

 #pragma mark Finish

 - (void)finishWithError:(NSError *)errorOrNil {
   @synchronized(self) {
     if (_state == GRXWriterStateFinished) {
       return;
     }
     _state = GRXWriterStateFinished;
   }

   // If the call isn't retained anywhere else, it can be deallocated now.
   _retainSelf = nil;

   // If there were still request messages coming, stop them.
   @synchronized(_requestWriter) {
     _requestWriter.state = GRXWriterStateFinished;
   }

   if (errorOrNil) {
     [_responseWriteable cancelWithError:errorOrNil];
   } else {
     [_responseWriteable enqueueSuccessfulCompletion];
   }
 }

 - (void)cancelCall {
   // Can be called from any thread, any number of times.
   [_wrappedCall cancel];
 }

 - (void)cancel {
   [self finishWithError:[NSError errorWithDomain:kGRPCErrorDomain
                                             code:GRPCErrorCodeCancelled
                                         userInfo:@{NSLocalizedDescriptionKey: @"Canceled by app"}]];
   [self cancelCall];
 }

 - (void)dealloc {
   __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)startNextRead {
   if (self.state == GRXWriterStatePaused) {
     return;
   }
   __weak GRPCCall *weakSelf = self;
   __weak GRXConcurrentWriteable *weakWriteable = _responseWriteable;

   dispatch_async(_callQueue, ^{
     [weakSelf startReadWithHandler:^(grpc_byte_buffer *message) {
       if (message == NULL) {
         // No more messages from the server
         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.
         [weakSelf finishWithError:[NSError errorWithDomain:kGRPCErrorDomain
                                                       code:GRPCErrorCodeResourceExhausted
                                                   userInfo:@{NSLocalizedDescriptionKey: @"Client does not have enough memory to hold the server response."}]];
         [weakSelf cancelCall];
         return;
       }
       [weakWriteable enqueueValue:data completionHandler:^{
         [weakSelf startNextRead];
       }];
     }];
   });
 }

 #pragma mark Send headers

 - (void)sendHeaders:(NSDictionary *)headers {
   // TODO(jcanizales): Add error handlers for async failures
   GRPCOpSendMetadata *op = [[GRPCOpSendMetadata alloc] initWithMetadata:headers
                                                                   flags:[GRPCCall callFlagsForHost:_host path:_path]
                                                                 handler:nil];  // No clean-up needed after SEND_INITIAL_METADATA
   if (!_unaryCall) {
     [_wrappedCall startBatchWithOperations:@[op]];
   } else {
     [_unaryOpBatch addObject:op];
   }
 }

 #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 (^)())errorHandler {

   __weak GRPCCall *weakSelf = self;
   void(^resumingHandler)(void) = ^{
     // Resume the request writer.
     GRPCCall *strongSelf = weakSelf;
     if (strongSelf) {
       @synchronized(strongSelf->_requestWriter) {
         strongSelf->_requestWriter.state = GRXWriterStateStarted;
       }
     }
   };

   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 {
   // TODO(jcanizales): Throw/assert if value isn't NSData.

   // Pause the input and only resume it when the C layer notifies us that writes
   // can proceed.
   @synchronized(_requestWriter) {
     _requestWriter.state = GRXWriterStatePaused;
   }

   __weak GRPCCall *weakSelf = self;
   dispatch_async(_callQueue, ^{
     [weakSelf writeMessage:value withErrorHandler:^{
       [weakSelf finishWithError:[NSError errorWithDomain:kGRPCErrorDomain
                                                     code:GRPCErrorCodeInternal
                                                 userInfo: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 (^)())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 {
     __weak GRPCCall *weakSelf = self;
     dispatch_async(_callQueue, ^{
       [weakSelf finishRequestWithErrorHandler:^{
         [weakSelf finishWithError:[NSError errorWithDomain:kGRPCErrorDomain
                                                       code:GRPCErrorCodeInternal
                                                   userInfo: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 {
   // TODO(jcanizales): Add error handlers for async failures
   [_wrappedCall startBatchWithOperations:@[[[GRPCOpRecvMetadata alloc]
                                             initWithHandler:headersHandler]]];
   [_wrappedCall startBatchWithOperations:@[[[GRPCOpRecvStatus alloc]
                                             initWithHandler:completionHandler]]];
 }

 - (void)invokeCall {
   [self invokeCallWithHeadersHandler:^(NSDictionary *headers) {
     // Response headers received.
     self.responseHeaders = headers;
     [self startNextRead];
   } completionHandler:^(NSError *error, NSDictionary *trailers) {
     self.responseTrailers = trailers;

     if (error) {
       NSMutableDictionary *userInfo = [NSMutableDictionary dictionary];
       if (error.userInfo) {
         [userInfo addEntriesFromDictionary:error.userInfo];
       }
       userInfo[kGRPCTrailersKey] = self.responseTrailers;
       // TODO(jcanizales): The C gRPC library doesn't guarantee that the headers block will be
       // called before this one, so an error might end up with trailers but no headers. We
       // shouldn't call finishWithError until ater both blocks are called. It is also when this is
       // done that we can provide a merged view of response headers and trailers in a thread-safe
       // way.
       if (self.responseHeaders) {
         userInfo[kGRPCHeadersKey] = self.responseHeaders;
       }
       error = [NSError errorWithDomain:error.domain code:error.code userInfo:userInfo];
     }
     [self finishWithError:error];
   }];
   // Now that the RPC has been initiated, request writes can start.
   @synchronized(_requestWriter) {
     [_requestWriter startWithWriteable:self];
   }
 }

 #pragma mark GRXWriter implementation

 - (void)startWithWriteable:(id<GRXWriteable>)writeable {
   @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;

   _responseWriteable = [[GRXConcurrentWriteable alloc] initWithWriteable:writeable];

   _wrappedCall = [[GRPCWrappedCall alloc] initWithHost:_host path:_path];
   NSAssert(_wrappedCall, @"Error allocating RPC objects. Low memory?");

   [self sendHeaders:_requestHeaders];
   [self invokeCall];

   // TODO(jcanizales): Extract this logic somewhere common.
   NSString *host = [NSURL URLWithString:[@"https://" stringByAppendingString:_host]].host;
   if (!host) {
     // TODO(jcanizales): Check this on init.
     [NSException raise:NSInvalidArgumentException format:@"host of %@ is nil", _host];
   }
   __weak typeof(self) weakSelf = self;
   _connectivityMonitor = [GRPCConnectivityMonitor monitorWithHost:host];
   void (^handler)() = ^{
     typeof(self) strongSelf = weakSelf;
     if (strongSelf) {
       [strongSelf finishWithError:[NSError errorWithDomain:kGRPCErrorDomain
                                                       code:GRPCErrorCodeUnavailable
                                                   userInfo:@{ NSLocalizedDescriptionKey : @"Connectivity lost." }]];
     }
   };
   [_connectivityMonitor handleLossWithHandler:handler
                       wifiStatusChangeHandler:nil];
 }

 - (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 startNextRead];
         }
         return;
       case GRXWriterStateNotStarted:
         return;
     }
   }
 }

 @end
	/*
	*
	* Copyright 2015, Google Inc.
	* All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are
	* met:
	*
	* * Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* * Redistributions in binary form must reproduce the above
	* copyright notice, this list of conditions and the following disclaimer
	* in the documentation and/or other materials provided with the
	* distribution.
	* * Neither the name of Google Inc. nor the names of its
	* contributors may be used to endorse or promote products derived from
	* this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*
	*/

	#import "GRPCCall.h"

	#include <grpc/grpc.h>
	#include <grpc/support/time.h>
	#import <RxLibrary/GRXConcurrentWriteable.h>
	#import <RxLibrary/GRXImmediateSingleWriter.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;

	@interface GRPCCall () <GRXWriteable>
	// Make them read-write.
	@property(atomic, strong) NSDictionary *responseHeaders;
	@property(atomic, strong) NSDictionary *responseTrailers;
	@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;
	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;
	}

	@synthesize state = _state;

	// TODO(jcanizales): If grpc_init is idempotent, this should be changed from load to initialize.
	+ (void)load {
	grpc_init();
	callFlags = [NSMutableDictionary dictionary];
	}

	+ (void)setCallSafety:(GRPCCallSafety)callSafety host:(NSString )host path:(NSString )path {
	NSString *hostAndPath = [NSString stringWithFormat:@"%@/%@", host, path];
	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];
	return [callFlags[hostAndPath] intValue];
	}

	- (instancetype)init {
	return [self initWithHost:nil path:nil requestsWriter:nil];
	}

	// Designated initializer
	- (instancetype)initWithHost:(NSString *)host
	path:(NSString *)path
	requestsWriter:(GRXWriter *)requestWriter {
	if (!host \|\| !path) {
	[NSException raise:NSInvalidArgumentException format:@"Neither host nor path can be nil."];
	}
	if (requestWriter.state != GRXWriterStateNotStarted) {
	[NSException raise:NSInvalidArgumentException
	format:@"The requests writer can't be already started."];
	}
	if ((self = [super init])) {
	_host = [host copy];
	_path = [path copy];

	// Serial queue to invoke the non-reentrant methods of the grpc_call object.
	_callQueue = dispatch_queue_create("io.grpc.call", NULL);

	_requestWriter = requestWriter;

	_requestHeaders = [[GRPCRequestHeaders alloc] initWithCall:self];

	if ([requestWriter isKindOfClass:[GRXImmediateSingleWriter class]]) {
	_unaryCall = YES;
	_unaryOpBatch = [NSMutableArray arrayWithCapacity:kMaxClientBatch];
	}
	}
	return self;
	}

	#pragma mark Finish

	- (void)finishWithError:(NSError *)errorOrNil {
	@synchronized(self) {
	if (_state == GRXWriterStateFinished) {
	return;
	}
	_state = GRXWriterStateFinished;
	}

	// If the call isn't retained anywhere else, it can be deallocated now.
	_retainSelf = nil;

	// If there were still request messages coming, stop them.
	@synchronized(_requestWriter) {
	_requestWriter.state = GRXWriterStateFinished;
	}

	if (errorOrNil) {
	[_responseWriteable cancelWithError:errorOrNil];
	} else {
	[_responseWriteable enqueueSuccessfulCompletion];
	}
	}

	- (void)cancelCall {
	// Can be called from any thread, any number of times.
	[_wrappedCall cancel];
	}

	- (void)cancel {
	[self finishWithError:[NSError errorWithDomain:kGRPCErrorDomain
	code:GRPCErrorCodeCancelled
	userInfo:@{NSLocalizedDescriptionKey: @"Canceled by app"}]];
	[self cancelCall];
	}

	- (void)dealloc {
	__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)startNextRead {
	if (self.state == GRXWriterStatePaused) {
	return;
	}
	__weak GRPCCall *weakSelf = self;
	__weak GRXConcurrentWriteable *weakWriteable = _responseWriteable;

	dispatch_async(_callQueue, ^{
	[weakSelf startReadWithHandler:^(grpc_byte_buffer *message) {
	if (message == NULL) {
	// No more messages from the server
	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.
	[weakSelf finishWithError:[NSError errorWithDomain:kGRPCErrorDomain
	code:GRPCErrorCodeResourceExhausted
	userInfo:@{NSLocalizedDescriptionKey: @"Client does not have enough memory to hold the server response."}]];
	[weakSelf cancelCall];
	return;
	}
	[weakWriteable enqueueValue:data completionHandler:^{
	[weakSelf startNextRead];
	}];
	}];
	});
	}

	#pragma mark Send headers

	- (void)sendHeaders:(NSDictionary *)headers {
	// TODO(jcanizales): Add error handlers for async failures
	GRPCOpSendMetadata *op = [[GRPCOpSendMetadata alloc] initWithMetadata:headers
	flags:[GRPCCall callFlagsForHost:_host path:_path]
	handler:nil]; // No clean-up needed after SEND_INITIAL_METADATA
	if (!_unaryCall) {
	[_wrappedCall startBatchWithOperations:@[op]];
	} else {
	[_unaryOpBatch addObject:op];
	}
	}

	#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 (^)())errorHandler {

	__weak GRPCCall *weakSelf = self;
	void(^resumingHandler)(void) = ^{
	// Resume the request writer.
	GRPCCall *strongSelf = weakSelf;
	if (strongSelf) {
	@synchronized(strongSelf->_requestWriter) {
	strongSelf->_requestWriter.state = GRXWriterStateStarted;
	}
	}
	};

	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 {
	// TODO(jcanizales): Throw/assert if value isn't NSData.

	// Pause the input and only resume it when the C layer notifies us that writes
	// can proceed.
	@synchronized(_requestWriter) {
	_requestWriter.state = GRXWriterStatePaused;
	}

	__weak GRPCCall *weakSelf = self;
	dispatch_async(_callQueue, ^{
	[weakSelf writeMessage:value withErrorHandler:^{
	[weakSelf finishWithError:[NSError errorWithDomain:kGRPCErrorDomain
	code:GRPCErrorCodeInternal
	userInfo: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 (^)())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 {
	__weak GRPCCall *weakSelf = self;
	dispatch_async(_callQueue, ^{
	[weakSelf finishRequestWithErrorHandler:^{
	[weakSelf finishWithError:[NSError errorWithDomain:kGRPCErrorDomain
	code:GRPCErrorCodeInternal
	userInfo: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 {
	// TODO(jcanizales): Add error handlers for async failures
	[_wrappedCall startBatchWithOperations:@[[[GRPCOpRecvMetadata alloc]
	initWithHandler:headersHandler]]];
	[_wrappedCall startBatchWithOperations:@[[[GRPCOpRecvStatus alloc]
	initWithHandler:completionHandler]]];
	}

	- (void)invokeCall {
	[self invokeCallWithHeadersHandler:^(NSDictionary *headers) {
	// Response headers received.
	self.responseHeaders = headers;
	[self startNextRead];
	} completionHandler:^(NSError error, NSDictionary trailers) {
	self.responseTrailers = trailers;

	if (error) {
	NSMutableDictionary *userInfo = [NSMutableDictionary dictionary];
	if (error.userInfo) {
	[userInfo addEntriesFromDictionary:error.userInfo];
	}
	userInfo[kGRPCTrailersKey] = self.responseTrailers;
	// TODO(jcanizales): The C gRPC library doesn't guarantee that the headers block will be
	// called before this one, so an error might end up with trailers but no headers. We
	// shouldn't call finishWithError until ater both blocks are called. It is also when this is
	// done that we can provide a merged view of response headers and trailers in a thread-safe
	// way.
	if (self.responseHeaders) {
	userInfo[kGRPCHeadersKey] = self.responseHeaders;
	}
	error = [NSError errorWithDomain:error.domain code:error.code userInfo:userInfo];
	}
	[self finishWithError:error];
	}];
	// Now that the RPC has been initiated, request writes can start.
	@synchronized(_requestWriter) {
	[_requestWriter startWithWriteable:self];
	}
	}

	#pragma mark GRXWriter implementation

	- (void)startWithWriteable:(id<GRXWriteable>)writeable {
	@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;

	_responseWriteable = [[GRXConcurrentWriteable alloc] initWithWriteable:writeable];

	_wrappedCall = [[GRPCWrappedCall alloc] initWithHost:_host path:_path];
	NSAssert(_wrappedCall, @"Error allocating RPC objects. Low memory?");

	[self sendHeaders:_requestHeaders];
	[self invokeCall];

	// TODO(jcanizales): Extract this logic somewhere common.
	NSString *host = [NSURL URLWithString:[@"https://" stringByAppendingString:_host]].host;
	if (!host) {
	// TODO(jcanizales): Check this on init.
	[NSException raise:NSInvalidArgumentException format:@"host of %@ is nil", _host];
	}
	__weak typeof(self) weakSelf = self;
	_connectivityMonitor = [GRPCConnectivityMonitor monitorWithHost:host];
	void (^handler)() = ^{
	typeof(self) strongSelf = weakSelf;
	if (strongSelf) {
	[strongSelf finishWithError:[NSError errorWithDomain:kGRPCErrorDomain
	code:GRPCErrorCodeUnavailable
	userInfo:@{ NSLocalizedDescriptionKey : @"Connectivity lost." }]];
	}
	};
	[_connectivityMonitor handleLossWithHandler:handler
	wifiStatusChangeHandler:nil];
	}

	- (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 startNextRead];
	}
	return;
	case GRXWriterStateNotStarted:
	return;
	}
	}
	}

	@end