/* * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you 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 _THRIFT_TPROCESSOR_H_ #define _THRIFT_TPROCESSOR_H_ 1 #include #include namespace apache { namespace thrift { /** * Virtual interface class that can handle events from the processor. To * use this you should subclass it and implement the methods that you care * about. Your subclass can also store local data that you may care about, * such as additional "arguments" to these methods (stored in the object * instance's state). */ class TProcessorEventHandler { public: virtual ~TProcessorEventHandler() = default; /** * Called before calling other callback methods. * Expected to return some sort of context object. * The return value is passed to all other callbacks * for that function invocation. */ virtual void* getContext(const char* fn_name, void* serverContext) { (void)fn_name; (void)serverContext; return nullptr; } /** * Expected to free resources associated with a context. */ virtual void freeContext(void* ctx, const char* fn_name) { (void)ctx; (void)fn_name; } /** * Called before reading arguments. */ virtual void preRead(void* ctx, const char* fn_name) { (void)ctx; (void)fn_name; } /** * Called between reading arguments and calling the handler. */ virtual void postRead(void* ctx, const char* fn_name, uint32_t bytes) { (void)ctx; (void)fn_name; (void)bytes; } /** * Called between calling the handler and writing the response. */ virtual void preWrite(void* ctx, const char* fn_name) { (void)ctx; (void)fn_name; } /** * Called after writing the response. */ virtual void postWrite(void* ctx, const char* fn_name, uint32_t bytes) { (void)ctx; (void)fn_name; (void)bytes; } /** * Called when an async function call completes successfully. */ virtual void asyncComplete(void* ctx, const char* fn_name) { (void)ctx; (void)fn_name; } /** * Called if the handler throws an undeclared exception. */ virtual void handlerError(void* ctx, const char* fn_name) { (void)ctx; (void)fn_name; } protected: TProcessorEventHandler() = default; }; /** * A helper class used by the generated code to free each context. */ class TProcessorContextFreer { public: TProcessorContextFreer(TProcessorEventHandler* handler, void* context, const char* method) : handler_(handler), context_(context), method_(method) {} ~TProcessorContextFreer() { if (handler_ != nullptr) handler_->freeContext(context_, method_); } void unregister() { handler_ = nullptr; } private: apache::thrift::TProcessorEventHandler* handler_; void* context_; const char* method_; }; /** * A processor is a generic object that acts upon two streams of data, one * an input and the other an output. The definition of this object is loose, * though the typical case is for some sort of server that either generates * responses to an input stream or forwards data from one pipe onto another. * */ class TProcessor { public: virtual ~TProcessor() = default; virtual bool process(std::shared_ptr in, std::shared_ptr out, void* connectionContext) = 0; bool process(std::shared_ptr io, void* connectionContext) { return process(io, io, connectionContext); } std::shared_ptr getEventHandler() const { return eventHandler_; } void setEventHandler(std::shared_ptr eventHandler) { eventHandler_ = eventHandler; } protected: TProcessor() = default; std::shared_ptr eventHandler_; }; /** * This is a helper class to allow std::shared_ptr to be used with handler * pointers returned by the generated handler factories. * * The handler factory classes generated by the thrift compiler return raw * pointers, and factory->releaseHandler() must be called when the handler is * no longer needed. * * A ReleaseHandler object can be instantiated and passed as the second * parameter to a shared_ptr, so that factory->releaseHandler() will be called * when the object is no longer needed, instead of deleting the pointer. */ template class ReleaseHandler { public: ReleaseHandler(const std::shared_ptr& handlerFactory) : handlerFactory_(handlerFactory) {} void operator()(typename HandlerFactory_::Handler* handler) { if (handler) { handlerFactory_->releaseHandler(handler); } } private: std::shared_ptr handlerFactory_; }; struct TConnectionInfo { // The input and output protocols std::shared_ptr input; std::shared_ptr output; // The underlying transport used for the connection // This is the transport that was returned by TServerTransport::accept(), // and it may be different than the transport pointed to by the input and // output protocols. std::shared_ptr transport; }; class TProcessorFactory { public: virtual ~TProcessorFactory() = default; /** * Get the TProcessor to use for a particular connection. * * This method is always invoked in the same thread that the connection was * accepted on. This generally means that this call does not need to be * thread safe, as it will always be invoked from a single thread. */ virtual std::shared_ptr getProcessor(const TConnectionInfo& connInfo) = 0; }; class TSingletonProcessorFactory : public TProcessorFactory { public: TSingletonProcessorFactory(std::shared_ptr processor) : processor_(processor) {} std::shared_ptr getProcessor(const TConnectionInfo&) override { return processor_; } private: std::shared_ptr processor_; }; } } // apache::thrift #endif // #ifndef _THRIFT_TPROCESSOR_H_