// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // This file provides a C++ wrapping around the Mojo C API for data pipes, // replacing the prefix of "Mojo" with a "mojo" namespace, and using more // strongly-typed representations of |MojoHandle|s. // // Please see "mojo/public/c/system/data_pipe.h" for complete documentation of // the API. #ifndef MOJO_PUBLIC_CPP_SYSTEM_DATA_PIPE_H_ #define MOJO_PUBLIC_CPP_SYSTEM_DATA_PIPE_H_ #include #include "base/compiler_specific.h" #include "base/logging.h" #include "mojo/public/c/system/data_pipe.h" #include "mojo/public/cpp/system/handle.h" namespace mojo { // A strongly-typed representation of a |MojoHandle| to the producer end of a // data pipe. class DataPipeProducerHandle : public Handle { public: DataPipeProducerHandle() {} explicit DataPipeProducerHandle(MojoHandle value) : Handle(value) {} // Writes to a data pipe. See |MojoWriteData| for complete documentation. MojoResult WriteData(const void* elements, uint32_t* num_bytes, MojoWriteDataFlags flags) const { MojoWriteDataOptions options; options.struct_size = sizeof(options); options.flags = flags; return MojoWriteData(value(), elements, num_bytes, &options); } // Begins a two-phase write to a data pipe. See |MojoBeginWriteData()| for // complete documentation. MojoResult BeginWriteData(void** buffer, uint32_t* buffer_num_bytes, MojoBeginWriteDataFlags flags) const { MojoBeginWriteDataOptions options; options.struct_size = sizeof(options); options.flags = flags; return MojoBeginWriteData(value(), &options, buffer, buffer_num_bytes); } // Completes a two-phase write to a data pipe. See |MojoEndWriteData()| for // complete documentation. MojoResult EndWriteData(uint32_t num_bytes_written) const { return MojoEndWriteData(value(), num_bytes_written, nullptr); } // Copying and assignment allowed. }; static_assert(sizeof(DataPipeProducerHandle) == sizeof(Handle), "Bad size for C++ DataPipeProducerHandle"); typedef ScopedHandleBase ScopedDataPipeProducerHandle; static_assert(sizeof(ScopedDataPipeProducerHandle) == sizeof(DataPipeProducerHandle), "Bad size for C++ ScopedDataPipeProducerHandle"); // A strongly-typed representation of a |MojoHandle| to the consumer end of a // data pipe. class DataPipeConsumerHandle : public Handle { public: DataPipeConsumerHandle() {} explicit DataPipeConsumerHandle(MojoHandle value) : Handle(value) {} // Reads from a data pipe. See |MojoReadData()| for complete documentation. MojoResult ReadData(void* elements, uint32_t* num_bytes, MojoReadDataFlags flags) const { MojoReadDataOptions options; options.struct_size = sizeof(options); options.flags = flags; return MojoReadData(value(), &options, elements, num_bytes); } // Begins a two-phase read from a data pipe. See |MojoBeginReadData()| for // complete documentation. MojoResult BeginReadData(const void** buffer, uint32_t* buffer_num_bytes, MojoBeginReadDataFlags flags) const { MojoBeginReadDataOptions options; options.struct_size = sizeof(options); options.flags = flags; return MojoBeginReadData(value(), &options, buffer, buffer_num_bytes); } // Completes a two-phase read from a data pipe. See |MojoEndReadData()| for // complete documentation. MojoResult EndReadData(uint32_t num_bytes_read) const { return MojoEndReadData(value(), num_bytes_read, nullptr); } // Copying and assignment allowed. }; static_assert(sizeof(DataPipeConsumerHandle) == sizeof(Handle), "Bad size for C++ DataPipeConsumerHandle"); typedef ScopedHandleBase ScopedDataPipeConsumerHandle; static_assert(sizeof(ScopedDataPipeConsumerHandle) == sizeof(DataPipeConsumerHandle), "Bad size for C++ ScopedDataPipeConsumerHandle"); // Creates a new data pipe. See |MojoCreateDataPipe()| for complete // documentation. inline MojoResult CreateDataPipe( const MojoCreateDataPipeOptions* options, ScopedDataPipeProducerHandle* data_pipe_producer, ScopedDataPipeConsumerHandle* data_pipe_consumer) { DCHECK(data_pipe_producer); DCHECK(data_pipe_consumer); DataPipeProducerHandle producer_handle; DataPipeConsumerHandle consumer_handle; MojoResult rv = MojoCreateDataPipe(options, producer_handle.mutable_value(), consumer_handle.mutable_value()); // Reset even on failure (reduces the chances that a "stale"/incorrect handle // will be used). data_pipe_producer->reset(producer_handle); data_pipe_consumer->reset(consumer_handle); return rv; } // A wrapper class that automatically creates a data pipe and owns both handles. // TODO(vtl): Make an even more friendly version? (Maybe templatized for a // particular type instead of some "element"? Maybe functions that take // vectors?) class DataPipe { public: DataPipe(); explicit DataPipe(uint32_t capacity_num_bytes); explicit DataPipe(const MojoCreateDataPipeOptions& options); ~DataPipe(); ScopedDataPipeProducerHandle producer_handle; ScopedDataPipeConsumerHandle consumer_handle; }; inline DataPipe::DataPipe() { MojoResult result = CreateDataPipe(nullptr, &producer_handle, &consumer_handle); ALLOW_UNUSED_LOCAL(result); DCHECK_EQ(MOJO_RESULT_OK, result); } inline DataPipe::DataPipe(uint32_t capacity_num_bytes) { MojoCreateDataPipeOptions options; options.struct_size = sizeof(MojoCreateDataPipeOptions); options.flags = MOJO_CREATE_DATA_PIPE_FLAG_NONE; options.element_num_bytes = 1; options.capacity_num_bytes = capacity_num_bytes; mojo::DataPipe data_pipe(options); MojoResult result = CreateDataPipe(&options, &producer_handle, &consumer_handle); ALLOW_UNUSED_LOCAL(result); DCHECK_EQ(MOJO_RESULT_OK, result); } inline DataPipe::DataPipe(const MojoCreateDataPipeOptions& options) { MojoResult result = CreateDataPipe(&options, &producer_handle, &consumer_handle); ALLOW_UNUSED_LOCAL(result); DCHECK_EQ(MOJO_RESULT_OK, result); } inline DataPipe::~DataPipe() { } } // namespace mojo #endif // MOJO_PUBLIC_CPP_SYSTEM_DATA_PIPE_H_