/* * * 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. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "src/core/lib/profiling/timers.h" #include "src/cpp/server/thread_pool_interface.h" namespace grpc { class DefaultGlobalCallbacks GRPC_FINAL : public Server::GlobalCallbacks { public: ~DefaultGlobalCallbacks() GRPC_OVERRIDE {} void PreSynchronousRequest(ServerContext* context) GRPC_OVERRIDE {} void PostSynchronousRequest(ServerContext* context) GRPC_OVERRIDE {} }; static std::shared_ptr g_callbacks = nullptr; static gpr_once g_once_init_callbacks = GPR_ONCE_INIT; static void InitGlobalCallbacks() { if (g_callbacks == nullptr) { g_callbacks.reset(new DefaultGlobalCallbacks()); } } class Server::UnimplementedAsyncRequestContext { protected: UnimplementedAsyncRequestContext() : generic_stream_(&server_context_) {} GenericServerContext server_context_; GenericServerAsyncReaderWriter generic_stream_; }; class Server::UnimplementedAsyncRequest GRPC_FINAL : public UnimplementedAsyncRequestContext, public GenericAsyncRequest { public: UnimplementedAsyncRequest(Server* server, ServerCompletionQueue* cq) : GenericAsyncRequest(server, &server_context_, &generic_stream_, cq, cq, NULL, false), server_(server), cq_(cq) {} bool FinalizeResult(void** tag, bool* status) GRPC_OVERRIDE; ServerContext* context() { return &server_context_; } GenericServerAsyncReaderWriter* stream() { return &generic_stream_; } private: Server* const server_; ServerCompletionQueue* const cq_; }; typedef SneakyCallOpSet UnimplementedAsyncResponseOp; class Server::UnimplementedAsyncResponse GRPC_FINAL : public UnimplementedAsyncResponseOp { public: UnimplementedAsyncResponse(UnimplementedAsyncRequest* request); ~UnimplementedAsyncResponse() { delete request_; } bool FinalizeResult(void** tag, bool* status) GRPC_OVERRIDE { bool r = UnimplementedAsyncResponseOp::FinalizeResult(tag, status); delete this; return r; } private: UnimplementedAsyncRequest* const request_; }; class Server::ShutdownRequest GRPC_FINAL : public CompletionQueueTag { public: bool FinalizeResult(void** tag, bool* status) { delete this; return false; } }; class Server::SyncRequest GRPC_FINAL : public CompletionQueueTag { public: SyncRequest(RpcServiceMethod* method, void* tag) : method_(method), tag_(tag), in_flight_(false), has_request_payload_(method->method_type() == RpcMethod::NORMAL_RPC || method->method_type() == RpcMethod::SERVER_STREAMING), call_details_(nullptr), cq_(nullptr) { grpc_metadata_array_init(&request_metadata_); } ~SyncRequest() { if (call_details_) { delete call_details_; } grpc_metadata_array_destroy(&request_metadata_); } static SyncRequest* Wait(CompletionQueue* cq, bool* ok) { void* tag = nullptr; *ok = false; if (!cq->Next(&tag, ok)) { return nullptr; } auto* mrd = static_cast(tag); GPR_ASSERT(mrd->in_flight_); return mrd; } static bool AsyncWait(CompletionQueue* cq, SyncRequest** req, bool* ok, gpr_timespec deadline) { void* tag = nullptr; *ok = false; switch (cq->AsyncNext(&tag, ok, deadline)) { case CompletionQueue::TIMEOUT: *req = nullptr; return true; case CompletionQueue::SHUTDOWN: *req = nullptr; return false; case CompletionQueue::GOT_EVENT: *req = static_cast(tag); GPR_ASSERT((*req)->in_flight_); return true; } GPR_UNREACHABLE_CODE(return false); } void SetupRequest() { cq_ = grpc_completion_queue_create(nullptr); } void TeardownRequest() { grpc_completion_queue_destroy(cq_); cq_ = nullptr; } void Request(grpc_server* server, grpc_completion_queue* notify_cq) { GPR_ASSERT(cq_ && !in_flight_); in_flight_ = true; if (tag_) { GPR_ASSERT(GRPC_CALL_OK == grpc_server_request_registered_call( server, tag_, &call_, &deadline_, &request_metadata_, has_request_payload_ ? &request_payload_ : nullptr, cq_, notify_cq, this)); } else { if (!call_details_) { call_details_ = new grpc_call_details; grpc_call_details_init(call_details_); } GPR_ASSERT(GRPC_CALL_OK == grpc_server_request_call( server, &call_, call_details_, &request_metadata_, cq_, notify_cq, this)); } } bool FinalizeResult(void** tag, bool* status) GRPC_OVERRIDE { if (!*status) { grpc_completion_queue_destroy(cq_); } if (call_details_) { deadline_ = call_details_->deadline; grpc_call_details_destroy(call_details_); grpc_call_details_init(call_details_); } return true; } class CallData GRPC_FINAL { public: explicit CallData(Server* server, SyncRequest* mrd) : cq_(mrd->cq_), call_(mrd->call_, server, &cq_, server->max_message_size_), ctx_(mrd->deadline_, mrd->request_metadata_.metadata, mrd->request_metadata_.count), has_request_payload_(mrd->has_request_payload_), request_payload_(mrd->request_payload_), method_(mrd->method_) { ctx_.set_call(mrd->call_); ctx_.cq_ = &cq_; GPR_ASSERT(mrd->in_flight_); mrd->in_flight_ = false; mrd->request_metadata_.count = 0; } ~CallData() { if (has_request_payload_ && request_payload_) { grpc_byte_buffer_destroy(request_payload_); } } void Run(std::shared_ptr global_callbacks) { ctx_.BeginCompletionOp(&call_); global_callbacks->PreSynchronousRequest(&ctx_); method_->handler()->RunHandler(MethodHandler::HandlerParameter( &call_, &ctx_, request_payload_, call_.max_message_size())); global_callbacks->PostSynchronousRequest(&ctx_); request_payload_ = nullptr; void* ignored_tag; bool ignored_ok; cq_.Shutdown(); GPR_ASSERT(cq_.Next(&ignored_tag, &ignored_ok) == false); } private: CompletionQueue cq_; Call call_; ServerContext ctx_; const bool has_request_payload_; grpc_byte_buffer* request_payload_; RpcServiceMethod* const method_; }; private: RpcServiceMethod* const method_; void* const tag_; bool in_flight_; const bool has_request_payload_; grpc_call* call_; grpc_call_details* call_details_; gpr_timespec deadline_; grpc_metadata_array request_metadata_; grpc_byte_buffer* request_payload_; grpc_completion_queue* cq_; }; static internal::GrpcLibraryInitializer g_gli_initializer; Server::Server(ThreadPoolInterface* thread_pool, bool thread_pool_owned, int max_message_size, ChannelArguments* args) : max_message_size_(max_message_size), started_(false), shutdown_(false), num_running_cb_(0), sync_methods_(new std::list), has_generic_service_(false), server_(nullptr), thread_pool_(thread_pool), thread_pool_owned_(thread_pool_owned) { g_gli_initializer.summon(); gpr_once_init(&g_once_init_callbacks, InitGlobalCallbacks); global_callbacks_ = g_callbacks; global_callbacks_->UpdateArguments(args); grpc_channel_args channel_args; args->SetChannelArgs(&channel_args); server_ = grpc_server_create(&channel_args, nullptr); grpc_server_register_completion_queue(server_, cq_.cq(), nullptr); } Server::~Server() { { grpc::unique_lock lock(mu_); if (started_ && !shutdown_) { lock.unlock(); Shutdown(); } else if (!started_) { cq_.Shutdown(); } } void* got_tag; bool ok; GPR_ASSERT(!cq_.Next(&got_tag, &ok)); grpc_server_destroy(server_); if (thread_pool_owned_) { delete thread_pool_; } delete sync_methods_; } void Server::SetGlobalCallbacks(GlobalCallbacks* callbacks) { GPR_ASSERT(g_callbacks == nullptr); GPR_ASSERT(callbacks != nullptr); g_callbacks.reset(callbacks); } bool Server::RegisterService(const grpc::string* host, Service* service) { bool has_async_methods = service->has_async_methods(); if (has_async_methods) { GPR_ASSERT(service->server_ == nullptr && "Can only register an asynchronous service against one server."); service->server_ = this; } for (auto it = service->methods_.begin(); it != service->methods_.end(); ++it) { if (it->get() == nullptr) { // Handled by generic service if any. continue; } RpcServiceMethod* method = it->get(); void* tag = grpc_server_register_method(server_, method->name(), host ? host->c_str() : nullptr); if (tag == nullptr) { gpr_log(GPR_DEBUG, "Attempt to register %s multiple times", method->name()); return false; } if (method->handler() == nullptr) { method->set_server_tag(tag); } else { sync_methods_->emplace_back(method, tag); } } return true; } void Server::RegisterAsyncGenericService(AsyncGenericService* service) { GPR_ASSERT(service->server_ == nullptr && "Can only register an async generic service against one server."); service->server_ = this; has_generic_service_ = true; } int Server::AddListeningPort(const grpc::string& addr, ServerCredentials* creds) { GPR_ASSERT(!started_); return creds->AddPortToServer(addr, server_); } bool Server::Start(ServerCompletionQueue** cqs, size_t num_cqs) { GPR_ASSERT(!started_); started_ = true; grpc_server_start(server_); if (!has_generic_service_) { if (!sync_methods_->empty()) { unknown_method_.reset(new RpcServiceMethod( "unknown", RpcMethod::BIDI_STREAMING, new UnknownMethodHandler)); // Use of emplace_back with just constructor arguments is not accepted // here by gcc-4.4 because it can't match the anonymous nullptr with a // proper constructor implicitly. Construct the object and use push_back. sync_methods_->push_back(SyncRequest(unknown_method_.get(), nullptr)); } for (size_t i = 0; i < num_cqs; i++) { new UnimplementedAsyncRequest(this, cqs[i]); } } // Start processing rpcs. if (!sync_methods_->empty()) { for (auto m = sync_methods_->begin(); m != sync_methods_->end(); m++) { m->SetupRequest(); m->Request(server_, cq_.cq()); } ScheduleCallback(); } return true; } void Server::ShutdownInternal(gpr_timespec deadline) { grpc::unique_lock lock(mu_); if (started_ && !shutdown_) { shutdown_ = true; grpc_server_shutdown_and_notify(server_, cq_.cq(), new ShutdownRequest()); cq_.Shutdown(); lock.unlock(); // Spin, eating requests until the completion queue is completely shutdown. // If the deadline expires then cancel anything that's pending and keep // spinning forever until the work is actually drained. // Since nothing else needs to touch state guarded by mu_, holding it // through this loop is fine. SyncRequest* request; bool ok; while (SyncRequest::AsyncWait(&cq_, &request, &ok, deadline)) { if (request == NULL) { // deadline expired grpc_server_cancel_all_calls(server_); deadline = gpr_inf_future(GPR_CLOCK_MONOTONIC); } else if (ok) { SyncRequest::CallData call_data(this, request); } } lock.lock(); // Wait for running callbacks to finish. while (num_running_cb_ != 0) { callback_cv_.wait(lock); } } } void Server::Wait() { grpc::unique_lock lock(mu_); while (num_running_cb_ != 0) { callback_cv_.wait(lock); } } void Server::PerformOpsOnCall(CallOpSetInterface* ops, Call* call) { static const size_t MAX_OPS = 8; size_t nops = 0; grpc_op cops[MAX_OPS]; ops->FillOps(cops, &nops); auto result = grpc_call_start_batch(call->call(), cops, nops, ops, nullptr); GPR_ASSERT(GRPC_CALL_OK == result); } ServerInterface::BaseAsyncRequest::BaseAsyncRequest( ServerInterface* server, ServerContext* context, ServerAsyncStreamingInterface* stream, CompletionQueue* call_cq, void* tag, bool delete_on_finalize) : server_(server), context_(context), stream_(stream), call_cq_(call_cq), tag_(tag), delete_on_finalize_(delete_on_finalize), call_(nullptr) { memset(&initial_metadata_array_, 0, sizeof(initial_metadata_array_)); } bool ServerInterface::BaseAsyncRequest::FinalizeResult(void** tag, bool* status) { if (*status) { for (size_t i = 0; i < initial_metadata_array_.count; i++) { context_->client_metadata_.insert( std::pair( initial_metadata_array_.metadata[i].key, grpc::string_ref( initial_metadata_array_.metadata[i].value, initial_metadata_array_.metadata[i].value_length))); } } grpc_metadata_array_destroy(&initial_metadata_array_); context_->set_call(call_); context_->cq_ = call_cq_; Call call(call_, server_, call_cq_, server_->max_message_size()); if (*status && call_) { context_->BeginCompletionOp(&call); } // just the pointers inside call are copied here stream_->BindCall(&call); *tag = tag_; if (delete_on_finalize_) { delete this; } return true; } ServerInterface::RegisteredAsyncRequest::RegisteredAsyncRequest( ServerInterface* server, ServerContext* context, ServerAsyncStreamingInterface* stream, CompletionQueue* call_cq, void* tag) : BaseAsyncRequest(server, context, stream, call_cq, tag, true) {} void ServerInterface::RegisteredAsyncRequest::IssueRequest( void* registered_method, grpc_byte_buffer** payload, ServerCompletionQueue* notification_cq) { grpc_server_request_registered_call( server_->server(), registered_method, &call_, &context_->deadline_, &initial_metadata_array_, payload, call_cq_->cq(), notification_cq->cq(), this); } ServerInterface::GenericAsyncRequest::GenericAsyncRequest( ServerInterface* server, GenericServerContext* context, ServerAsyncStreamingInterface* stream, CompletionQueue* call_cq, ServerCompletionQueue* notification_cq, void* tag, bool delete_on_finalize) : BaseAsyncRequest(server, context, stream, call_cq, tag, delete_on_finalize) { grpc_call_details_init(&call_details_); GPR_ASSERT(notification_cq); GPR_ASSERT(call_cq); grpc_server_request_call(server->server(), &call_, &call_details_, &initial_metadata_array_, call_cq->cq(), notification_cq->cq(), this); } bool ServerInterface::GenericAsyncRequest::FinalizeResult(void** tag, bool* status) { // TODO(yangg) remove the copy here. if (*status) { static_cast(context_)->method_ = call_details_.method; static_cast(context_)->host_ = call_details_.host; } gpr_free(call_details_.method); gpr_free(call_details_.host); return BaseAsyncRequest::FinalizeResult(tag, status); } bool Server::UnimplementedAsyncRequest::FinalizeResult(void** tag, bool* status) { if (GenericAsyncRequest::FinalizeResult(tag, status) && *status) { new UnimplementedAsyncRequest(server_, cq_); new UnimplementedAsyncResponse(this); } else { delete this; } return false; } Server::UnimplementedAsyncResponse::UnimplementedAsyncResponse( UnimplementedAsyncRequest* request) : request_(request) { Status status(StatusCode::UNIMPLEMENTED, ""); UnknownMethodHandler::FillOps(request_->context(), this); request_->stream()->call_.PerformOps(this); } void Server::ScheduleCallback() { { grpc::unique_lock lock(mu_); num_running_cb_++; } thread_pool_->Add(std::bind(&Server::RunRpc, this)); } void Server::RunRpc() { // Wait for one more incoming rpc. bool ok; GPR_TIMER_SCOPE("Server::RunRpc", 0); auto* mrd = SyncRequest::Wait(&cq_, &ok); if (mrd) { ScheduleCallback(); if (ok) { SyncRequest::CallData cd(this, mrd); { mrd->SetupRequest(); grpc::unique_lock lock(mu_); if (!shutdown_) { mrd->Request(server_, cq_.cq()); } else { // destroy the structure that was created mrd->TeardownRequest(); } } GPR_TIMER_SCOPE("cd.Run()", 0); cd.Run(global_callbacks_); } } { grpc::unique_lock lock(mu_); num_running_cb_--; if (shutdown_) { callback_cv_.notify_all(); } } } } // namespace grpc