/* * * Copyright 2015-2016, 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. * */ #ifndef GRPCXX_SUPPORT_ASYNC_STREAM_H #define GRPCXX_SUPPORT_ASYNC_STREAM_H #include #include #include #include #include #include #include #include namespace grpc { /// Common interface for all client side asynchronous streaming. class ClientAsyncStreamingInterface { public: virtual ~ClientAsyncStreamingInterface() {} /// Request notification of the reading of the initial metadata. Completion /// will be notified by \a tag on the associated completion queue. /// /// \param[in] tag Tag identifying this request. virtual void ReadInitialMetadata(void* tag) = 0; /// Request notification completion. /// /// \param[out] status To be updated with the operation status. /// \param[in] tag Tag identifying this request. virtual void Finish(Status* status, void* tag) = 0; }; /// An interface that yields a sequence of messages of type \a R. template class AsyncReaderInterface { public: virtual ~AsyncReaderInterface() {} /// Read a message of type \a R into \a msg. Completion will be notified by \a /// tag on the associated completion queue. /// /// \param[out] msg Where to eventually store the read message. /// \param[in] tag The tag identifying the operation. virtual void Read(R* msg, void* tag) = 0; }; /// An interface that can be fed a sequence of messages of type \a W. template class AsyncWriterInterface { public: virtual ~AsyncWriterInterface() {} /// Request the writing of \a msg with identifying tag \a tag. /// /// Only one write may be outstanding at any given time. This means that /// after calling Write, one must wait to receive \a tag from the completion /// queue BEFORE calling Write again. /// /// \param[in] msg The message to be written. /// \param[in] tag The tag identifying the operation. virtual void Write(const W& msg, void* tag) = 0; }; template class ClientAsyncReaderInterface : public ClientAsyncStreamingInterface, public AsyncReaderInterface {}; template class ClientAsyncReader GRPC_FINAL : public ClientAsyncReaderInterface { public: /// Create a stream and write the first request out. template ClientAsyncReader(ChannelInterface* channel, CompletionQueue* cq, const RpcMethod& method, ClientContext* context, const W& request, void* tag) : context_(context), call_(channel->CreateCall(method, context, cq)) { init_ops_.set_output_tag(tag); init_ops_.SendInitialMetadata(context->send_initial_metadata_); // TODO(ctiller): don't assert GPR_ASSERT(init_ops_.SendMessage(request).ok()); init_ops_.ClientSendClose(); call_.PerformOps(&init_ops_); } void ReadInitialMetadata(void* tag) GRPC_OVERRIDE { GPR_ASSERT(!context_->initial_metadata_received_); meta_ops_.set_output_tag(tag); meta_ops_.RecvInitialMetadata(context_); call_.PerformOps(&meta_ops_); } void Read(R* msg, void* tag) GRPC_OVERRIDE { read_ops_.set_output_tag(tag); if (!context_->initial_metadata_received_) { read_ops_.RecvInitialMetadata(context_); } read_ops_.RecvMessage(msg); call_.PerformOps(&read_ops_); } void Finish(Status* status, void* tag) GRPC_OVERRIDE { finish_ops_.set_output_tag(tag); if (!context_->initial_metadata_received_) { finish_ops_.RecvInitialMetadata(context_); } finish_ops_.ClientRecvStatus(context_, status); call_.PerformOps(&finish_ops_); } private: ClientContext* context_; Call call_; CallOpSet init_ops_; CallOpSet meta_ops_; CallOpSet> read_ops_; CallOpSet finish_ops_; }; /// Common interface for client side asynchronous writing. template class ClientAsyncWriterInterface : public ClientAsyncStreamingInterface, public AsyncWriterInterface { public: /// Signal the client is done with the writes. /// /// \param[in] tag The tag identifying the operation. virtual void WritesDone(void* tag) = 0; }; template class ClientAsyncWriter GRPC_FINAL : public ClientAsyncWriterInterface { public: template ClientAsyncWriter(ChannelInterface* channel, CompletionQueue* cq, const RpcMethod& method, ClientContext* context, R* response, void* tag) : context_(context), call_(channel->CreateCall(method, context, cq)) { finish_ops_.RecvMessage(response); init_ops_.set_output_tag(tag); init_ops_.SendInitialMetadata(context->send_initial_metadata_); call_.PerformOps(&init_ops_); } void ReadInitialMetadata(void* tag) GRPC_OVERRIDE { GPR_ASSERT(!context_->initial_metadata_received_); meta_ops_.set_output_tag(tag); meta_ops_.RecvInitialMetadata(context_); call_.PerformOps(&meta_ops_); } void Write(const W& msg, void* tag) GRPC_OVERRIDE { write_ops_.set_output_tag(tag); // TODO(ctiller): don't assert GPR_ASSERT(write_ops_.SendMessage(msg).ok()); call_.PerformOps(&write_ops_); } void WritesDone(void* tag) GRPC_OVERRIDE { writes_done_ops_.set_output_tag(tag); writes_done_ops_.ClientSendClose(); call_.PerformOps(&writes_done_ops_); } void Finish(Status* status, void* tag) GRPC_OVERRIDE { finish_ops_.set_output_tag(tag); if (!context_->initial_metadata_received_) { finish_ops_.RecvInitialMetadata(context_); } finish_ops_.ClientRecvStatus(context_, status); call_.PerformOps(&finish_ops_); } private: ClientContext* context_; Call call_; CallOpSet init_ops_; CallOpSet meta_ops_; CallOpSet write_ops_; CallOpSet writes_done_ops_; CallOpSet finish_ops_; }; /// Client-side interface for asynchronous bi-directional streaming. template class ClientAsyncReaderWriterInterface : public ClientAsyncStreamingInterface, public AsyncWriterInterface, public AsyncReaderInterface { public: /// Signal the client is done with the writes. /// /// \param[in] tag The tag identifying the operation. virtual void WritesDone(void* tag) = 0; }; template class ClientAsyncReaderWriter GRPC_FINAL : public ClientAsyncReaderWriterInterface { public: ClientAsyncReaderWriter(ChannelInterface* channel, CompletionQueue* cq, const RpcMethod& method, ClientContext* context, void* tag) : context_(context), call_(channel->CreateCall(method, context, cq)) { init_ops_.set_output_tag(tag); init_ops_.SendInitialMetadata(context->send_initial_metadata_); call_.PerformOps(&init_ops_); } void ReadInitialMetadata(void* tag) GRPC_OVERRIDE { GPR_ASSERT(!context_->initial_metadata_received_); meta_ops_.set_output_tag(tag); meta_ops_.RecvInitialMetadata(context_); call_.PerformOps(&meta_ops_); } void Read(R* msg, void* tag) GRPC_OVERRIDE { read_ops_.set_output_tag(tag); if (!context_->initial_metadata_received_) { read_ops_.RecvInitialMetadata(context_); } read_ops_.RecvMessage(msg); call_.PerformOps(&read_ops_); } void Write(const W& msg, void* tag) GRPC_OVERRIDE { write_ops_.set_output_tag(tag); // TODO(ctiller): don't assert GPR_ASSERT(write_ops_.SendMessage(msg).ok()); call_.PerformOps(&write_ops_); } void WritesDone(void* tag) GRPC_OVERRIDE { writes_done_ops_.set_output_tag(tag); writes_done_ops_.ClientSendClose(); call_.PerformOps(&writes_done_ops_); } void Finish(Status* status, void* tag) GRPC_OVERRIDE { finish_ops_.set_output_tag(tag); if (!context_->initial_metadata_received_) { finish_ops_.RecvInitialMetadata(context_); } finish_ops_.ClientRecvStatus(context_, status); call_.PerformOps(&finish_ops_); } private: ClientContext* context_; Call call_; CallOpSet init_ops_; CallOpSet meta_ops_; CallOpSet> read_ops_; CallOpSet write_ops_; CallOpSet writes_done_ops_; CallOpSet finish_ops_; }; template class ServerAsyncReader GRPC_FINAL : public ServerAsyncStreamingInterface, public AsyncReaderInterface { public: explicit ServerAsyncReader(ServerContext* ctx) : call_(nullptr, nullptr, nullptr), ctx_(ctx) {} void SendInitialMetadata(void* tag) GRPC_OVERRIDE { GPR_ASSERT(!ctx_->sent_initial_metadata_); meta_ops_.set_output_tag(tag); meta_ops_.SendInitialMetadata(ctx_->initial_metadata_); ctx_->sent_initial_metadata_ = true; call_.PerformOps(&meta_ops_); } void Read(R* msg, void* tag) GRPC_OVERRIDE { read_ops_.set_output_tag(tag); read_ops_.RecvMessage(msg); call_.PerformOps(&read_ops_); } void Finish(const W& msg, const Status& status, void* tag) { finish_ops_.set_output_tag(tag); if (!ctx_->sent_initial_metadata_) { finish_ops_.SendInitialMetadata(ctx_->initial_metadata_); ctx_->sent_initial_metadata_ = true; } // The response is dropped if the status is not OK. if (status.ok()) { finish_ops_.ServerSendStatus(ctx_->trailing_metadata_, finish_ops_.SendMessage(msg)); } else { finish_ops_.ServerSendStatus(ctx_->trailing_metadata_, status); } call_.PerformOps(&finish_ops_); } void FinishWithError(const Status& status, void* tag) { GPR_ASSERT(!status.ok()); finish_ops_.set_output_tag(tag); if (!ctx_->sent_initial_metadata_) { finish_ops_.SendInitialMetadata(ctx_->initial_metadata_); ctx_->sent_initial_metadata_ = true; } finish_ops_.ServerSendStatus(ctx_->trailing_metadata_, status); call_.PerformOps(&finish_ops_); } private: void BindCall(Call* call) GRPC_OVERRIDE { call_ = *call; } Call call_; ServerContext* ctx_; CallOpSet meta_ops_; CallOpSet> read_ops_; CallOpSet finish_ops_; }; template class ServerAsyncWriter GRPC_FINAL : public ServerAsyncStreamingInterface, public AsyncWriterInterface { public: explicit ServerAsyncWriter(ServerContext* ctx) : call_(nullptr, nullptr, nullptr), ctx_(ctx) {} void SendInitialMetadata(void* tag) GRPC_OVERRIDE { GPR_ASSERT(!ctx_->sent_initial_metadata_); meta_ops_.set_output_tag(tag); meta_ops_.SendInitialMetadata(ctx_->initial_metadata_); ctx_->sent_initial_metadata_ = true; call_.PerformOps(&meta_ops_); } void Write(const W& msg, void* tag) GRPC_OVERRIDE { write_ops_.set_output_tag(tag); if (!ctx_->sent_initial_metadata_) { write_ops_.SendInitialMetadata(ctx_->initial_metadata_); ctx_->sent_initial_metadata_ = true; } // TODO(ctiller): don't assert GPR_ASSERT(write_ops_.SendMessage(msg).ok()); call_.PerformOps(&write_ops_); } void Finish(const Status& status, void* tag) { finish_ops_.set_output_tag(tag); if (!ctx_->sent_initial_metadata_) { finish_ops_.SendInitialMetadata(ctx_->initial_metadata_); ctx_->sent_initial_metadata_ = true; } finish_ops_.ServerSendStatus(ctx_->trailing_metadata_, status); call_.PerformOps(&finish_ops_); } private: void BindCall(Call* call) GRPC_OVERRIDE { call_ = *call; } Call call_; ServerContext* ctx_; CallOpSet meta_ops_; CallOpSet write_ops_; CallOpSet finish_ops_; }; /// Server-side interface for asynchronous bi-directional streaming. template class ServerAsyncReaderWriter GRPC_FINAL : public ServerAsyncStreamingInterface, public AsyncWriterInterface, public AsyncReaderInterface { public: explicit ServerAsyncReaderWriter(ServerContext* ctx) : call_(nullptr, nullptr, nullptr), ctx_(ctx) {} void SendInitialMetadata(void* tag) GRPC_OVERRIDE { GPR_ASSERT(!ctx_->sent_initial_metadata_); meta_ops_.set_output_tag(tag); meta_ops_.SendInitialMetadata(ctx_->initial_metadata_); ctx_->sent_initial_metadata_ = true; call_.PerformOps(&meta_ops_); } void Read(R* msg, void* tag) GRPC_OVERRIDE { read_ops_.set_output_tag(tag); read_ops_.RecvMessage(msg); call_.PerformOps(&read_ops_); } void Write(const W& msg, void* tag) GRPC_OVERRIDE { write_ops_.set_output_tag(tag); if (!ctx_->sent_initial_metadata_) { write_ops_.SendInitialMetadata(ctx_->initial_metadata_); ctx_->sent_initial_metadata_ = true; } // TODO(ctiller): don't assert GPR_ASSERT(write_ops_.SendMessage(msg).ok()); call_.PerformOps(&write_ops_); } void Finish(const Status& status, void* tag) { finish_ops_.set_output_tag(tag); if (!ctx_->sent_initial_metadata_) { finish_ops_.SendInitialMetadata(ctx_->initial_metadata_); ctx_->sent_initial_metadata_ = true; } finish_ops_.ServerSendStatus(ctx_->trailing_metadata_, status); call_.PerformOps(&finish_ops_); } private: friend class ::grpc::Server; void BindCall(Call* call) GRPC_OVERRIDE { call_ = *call; } Call call_; ServerContext* ctx_; CallOpSet meta_ops_; CallOpSet> read_ops_; CallOpSet write_ops_; CallOpSet finish_ops_; }; } // namespace grpc #endif // GRPCXX_SUPPORT_ASYNC_STREAM_H