/* * * 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. * */ #ifndef GRPCPP_IMPL_CODEGEN_SERVER_CONTEXT_H #define GRPCPP_IMPL_CODEGEN_SERVER_CONTEXT_H #include #include #include #include #include #include #include #include #include #include #include #include struct grpc_metadata; struct grpc_call; struct census_context; namespace grpc { class ClientContext; template class ServerAsyncReader; template class ServerAsyncWriter; template class ServerAsyncResponseWriter; template class ServerAsyncReaderWriter; template class ServerReader; template class ServerWriter; namespace internal { template class ServerReaderWriterBody; template class RpcMethodHandler; template class ClientStreamingHandler; template class ServerStreamingHandler; template class BidiStreamingHandler; class UnknownMethodHandler; template class TemplatedBidiStreamingHandler; class Call; } // namespace internal class CompletionQueue; class Server; class ServerInterface; namespace testing { class InteropServerContextInspector; class ServerContextTestSpouse; } // namespace testing /// A ServerContext allows the person implementing a service handler to: /// /// - Add custom initial and trailing metadata key-value pairs that will /// propagated to the client side. /// - Control call settings such as compression and authentication. /// - Access metadata coming from the client. /// - Get performance metrics (ie, census). /// /// Context settings are only relevant to the call handler they are supplied to, /// that is to say, they aren't sticky across multiple calls. Some of these /// settings, such as the compression options, can be made persistent at server /// construction time by specifying the appropriate \a ChannelArguments /// to a \a grpc::ServerBuilder, via \a ServerBuilder::AddChannelArgument. /// /// \warning ServerContext instances should \em not be reused across rpcs. class ServerContext { public: ServerContext(); // for async calls ~ServerContext(); /// Return the deadline for the server call. std::chrono::system_clock::time_point deadline() const { return Timespec2Timepoint(deadline_); } /// Return a \a gpr_timespec representation of the server call's deadline. gpr_timespec raw_deadline() const { return deadline_; } /// Add the (\a meta_key, \a meta_value) pair to the initial metadata /// associated with a server call. These are made available at the client side /// by the \a grpc::ClientContext::GetServerInitialMetadata() method. /// /// \warning This method should only be called before sending initial metadata /// to the client (which can happen explicitly, or implicitly when sending a /// a response message or status to the client). /// /// \param meta_key The metadata key. If \a meta_value is binary data, it must /// end in "-bin". /// \param meta_value The metadata value. If its value is binary, the key name /// must end in "-bin". void AddInitialMetadata(const grpc::string& key, const grpc::string& value); /// Add the (\a meta_key, \a meta_value) pair to the initial metadata /// associated with a server call. These are made available at the client /// side by the \a grpc::ClientContext::GetServerTrailingMetadata() method. /// /// \warning This method should only be called before sending trailing /// metadata to the client (which happens when the call is finished and a /// status is sent to the client). /// /// \param meta_key The metadata key. If \a meta_value is binary data, /// it must end in "-bin". /// \param meta_value The metadata value. If its value is binary, the key name /// must end in "-bin". void AddTrailingMetadata(const grpc::string& key, const grpc::string& value); /// IsCancelled is always safe to call when using sync API. /// When using async API, it is only safe to call IsCancelled after /// the AsyncNotifyWhenDone tag has been delivered. bool IsCancelled() const; /// Cancel the Call from the server. This is a best-effort API and /// depending on when it is called, the RPC may still appear successful to /// the client. /// For example, if TryCancel() is called on a separate thread, it might race /// with the server handler which might return success to the client before /// TryCancel() was even started by the thread. /// /// It is the caller's responsibility to prevent such races and ensure that if /// TryCancel() is called, the serverhandler must return Status::CANCELLED. /// The only exception is that if the serverhandler is already returning an /// error status code, it is ok to not return Status::CANCELLED even if /// TryCancel() was called. /// /// Note that TryCancel() does not change any of the tags that are pending /// on the completion queue. All pending tags will still be delivered /// (though their ok result may reflect the effect of cancellation). void TryCancel() const; /// Return a collection of initial metadata key-value pairs sent from the /// client. Note that keys may happen more than /// once (ie, a \a std::multimap is returned). /// /// It is safe to use this method after initial metadata has been received, /// Calls always begin with the client sending initial metadata, so this is /// safe to access as soon as the call has begun on the server side. /// /// \return A multimap of initial metadata key-value pairs from the server. const std::multimap& client_metadata() const { return *client_metadata_.map(); } /// Return the compression algorithm to be used by the server call. grpc_compression_level compression_level() const { return compression_level_; } /// Set \a algorithm to be the compression algorithm used for the server call. /// /// \param algorithm The compression algorithm used for the server call. void set_compression_level(grpc_compression_level level) { compression_level_set_ = true; compression_level_ = level; } /// Return a bool indicating whether the compression level for this call /// has been set (either implicitly or through a previous call to /// \a set_compression_level. bool compression_level_set() const { return compression_level_set_; } /// Return the compression algorithm the server call will request be used. /// Note that the gRPC runtime may decide to ignore this request, for example, /// due to resource constraints, or if the server is aware the client doesn't /// support the requested algorithm. grpc_compression_algorithm compression_algorithm() const { return compression_algorithm_; } /// Set \a algorithm to be the compression algorithm used for the server call. /// /// \param algorithm The compression algorithm used for the server call. void set_compression_algorithm(grpc_compression_algorithm algorithm); /// Set the load reporting costs in \a cost_data for the call. void SetLoadReportingCosts(const std::vector& cost_data); /// Return the authentication context for this server call. /// /// \see grpc::AuthContext. std::shared_ptr auth_context() const { if (auth_context_.get() == nullptr) { auth_context_ = CreateAuthContext(call_); } return auth_context_; } /// Return the peer uri in a string. /// WARNING: this value is never authenticated or subject to any security /// related code. It must not be used for any authentication related /// functionality. Instead, use auth_context. grpc::string peer() const; /// Get the census context associated with this server call. const struct census_context* census_context() const; /// Async only. Has to be called before the rpc starts. /// Returns the tag in completion queue when the rpc finishes. /// IsCancelled() can then be called to check whether the rpc was cancelled. void AsyncNotifyWhenDone(void* tag) { has_notify_when_done_tag_ = true; async_notify_when_done_tag_ = tag; } /// Should be used for framework-level extensions only. /// Applications never need to call this method. grpc_call* c_call() { return call_; } private: friend class ::grpc::testing::InteropServerContextInspector; friend class ::grpc::testing::ServerContextTestSpouse; friend class ::grpc::ServerInterface; friend class ::grpc::Server; template friend class ::grpc::ServerAsyncReader; template friend class ::grpc::ServerAsyncWriter; template friend class ::grpc::ServerAsyncResponseWriter; template friend class ::grpc::ServerAsyncReaderWriter; template friend class ::grpc::ServerReader; template friend class ::grpc::ServerWriter; template friend class ::grpc::internal::ServerReaderWriterBody; template friend class ::grpc::internal::RpcMethodHandler; template friend class ::grpc::internal::ClientStreamingHandler; template friend class ::grpc::internal::ServerStreamingHandler; template friend class ::grpc::internal::TemplatedBidiStreamingHandler; friend class ::grpc::internal::UnknownMethodHandler; friend class ::grpc::ClientContext; /// Prevent copying. ServerContext(const ServerContext&); ServerContext& operator=(const ServerContext&); class CompletionOp; void BeginCompletionOp(internal::Call* call); /// Return the tag queued by BeginCompletionOp() internal::CompletionQueueTag* GetCompletionOpTag(); ServerContext(gpr_timespec deadline, grpc_metadata_array* arr); void set_call(grpc_call* call) { call_ = call; } uint32_t initial_metadata_flags() const { return 0; } CompletionOp* completion_op_; bool has_notify_when_done_tag_; void* async_notify_when_done_tag_; gpr_timespec deadline_; grpc_call* call_; CompletionQueue* cq_; bool sent_initial_metadata_; mutable std::shared_ptr auth_context_; internal::MetadataMap client_metadata_; std::multimap initial_metadata_; std::multimap trailing_metadata_; bool compression_level_set_; grpc_compression_level compression_level_; grpc_compression_algorithm compression_algorithm_; internal::CallOpSet pending_ops_; bool has_pending_ops_; }; } // namespace grpc #endif // GRPCPP_IMPL_CODEGEN_SERVER_CONTEXT_H