src/google/protobuf/service.h - platform/external/protobuf-javalite - Gitiles

 // Protocol Buffers - Google's data interchange format
 // Copyright 2008 Google Inc.  All rights reserved.
 // https://developers.google.com/protocol-buffers/
 //
 // 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.

 // Author: kenton@google.com (Kenton Varda)
 //  Based on original Protocol Buffers design by
 //  Sanjay Ghemawat, Jeff Dean, and others.
 //
 // DEPRECATED:  This module declares the abstract interfaces underlying proto2
 // RPC services.  These are intented to be independent of any particular RPC
 // implementation, so that proto2 services can be used on top of a variety
 // of implementations.  Starting with version 2.3.0, RPC implementations should
 // not try to build on these, but should instead provide code generator plugins
 // which generate code specific to the particular RPC implementation.  This way
 // the generated code can be more appropriate for the implementation in use
 // and can avoid unnecessary layers of indirection.
 //
 //
 // When you use the protocol compiler to compile a service definition, it
 // generates two classes:  An abstract interface for the service (with
 // methods matching the service definition) and a "stub" implementation.
 // A stub is just a type-safe wrapper around an RpcChannel which emulates a
 // local implementation of the service.
 //
 // For example, the service definition:
 //   service MyService {
 //     rpc Foo(MyRequest) returns(MyResponse);
 //   }
 // will generate abstract interface "MyService" and class "MyService::Stub".
 // You could implement a MyService as follows:
 //   class MyServiceImpl : public MyService {
 //    public:
 //     MyServiceImpl() {}
 //     ~MyServiceImpl() {}
 //
 //     // implements MyService ---------------------------------------
 //
 //     void Foo(google::protobuf::RpcController* controller,
 //              const MyRequest* request,
 //              MyResponse* response,
 //              Closure* done) {
 //       // ... read request and fill in response ...
 //       done->Run();
 //     }
 //   };
 // You would then register an instance of MyServiceImpl with your RPC server
 // implementation.  (How to do that depends on the implementation.)
 //
 // To call a remote MyServiceImpl, first you need an RpcChannel connected to it.
 // How to construct a channel depends, again, on your RPC implementation.
 // Here we use a hypothetical "MyRpcChannel" as an example:
 //   MyRpcChannel channel("rpc:hostname:1234/myservice");
 //   MyRpcController controller;
 //   MyServiceImpl::Stub stub(&channel);
 //   FooRequest request;
 //   FooResponse response;
 //
 //   // ... fill in request ...
 //
 //   stub.Foo(&controller, request, &response, NewCallback(HandleResponse));
 //
 // On Thread-Safety:
 //
 // Different RPC implementations may make different guarantees about what
 // threads they may run callbacks on, and what threads the application is
 // allowed to use to call the RPC system.  Portable software should be ready
 // for callbacks to be called on any thread, but should not try to call the
 // RPC system from any thread except for the ones on which it received the
 // callbacks.  Realistically, though, simple software will probably want to
 // use a single-threaded RPC system while high-end software will want to
 // use multiple threads.  RPC implementations should provide multiple
 // choices.

 #ifndef GOOGLE_PROTOBUF_SERVICE_H__
 #define GOOGLE_PROTOBUF_SERVICE_H__

 #include <string>
 #include <google/protobuf/stubs/common.h>
 #include <google/protobuf/stubs/callback.h>

 namespace google {
 namespace protobuf {

 // Defined in this file.
 class Service;
 class RpcController;
 class RpcChannel;

 // Defined in other files.
 class Descriptor;            // descriptor.h
 class ServiceDescriptor;     // descriptor.h
 class MethodDescriptor;      // descriptor.h
 class Message;               // message.h

 // Abstract base interface for protocol-buffer-based RPC services.  Services
 // themselves are abstract interfaces (implemented either by servers or as
 // stubs), but they subclass this base interface.  The methods of this
 // interface can be used to call the methods of the Service without knowing
 // its exact type at compile time (analogous to Reflection).
 class LIBPROTOBUF_EXPORT Service {
  public:
   inline Service() {}
   virtual ~Service();

   // When constructing a stub, you may pass STUB_OWNS_CHANNEL as the second
   // parameter to the constructor to tell it to delete its RpcChannel when
   // destroyed.
   enum ChannelOwnership {
     STUB_OWNS_CHANNEL,
     STUB_DOESNT_OWN_CHANNEL
   };

   // Get the ServiceDescriptor describing this service and its methods.
   virtual const ServiceDescriptor* GetDescriptor() = 0;

   // Call a method of the service specified by MethodDescriptor.  This is
   // normally implemented as a simple switch() that calls the standard
   // definitions of the service's methods.
   //
   // Preconditions:
   // * method->service() == GetDescriptor()
   // * request and response are of the exact same classes as the objects
   //   returned by GetRequestPrototype(method) and
   //   GetResponsePrototype(method).
   // * After the call has started, the request must not be modified and the
   //   response must not be accessed at all until "done" is called.
   // * "controller" is of the correct type for the RPC implementation being
   //   used by this Service.  For stubs, the "correct type" depends on the
   //   RpcChannel which the stub is using.  Server-side Service
   //   implementations are expected to accept whatever type of RpcController
   //   the server-side RPC implementation uses.
   //
   // Postconditions:
   // * "done" will be called when the method is complete.  This may be
   //   before CallMethod() returns or it may be at some point in the future.
   // * If the RPC succeeded, "response" contains the response returned by
   //   the server.
   // * If the RPC failed, "response"'s contents are undefined.  The
   //   RpcController can be queried to determine if an error occurred and
   //   possibly to get more information about the error.
   virtual void CallMethod(const MethodDescriptor* method,
                           RpcController* controller,
                           const Message* request,
                           Message* response,
                           Closure* done) = 0;

   // CallMethod() requires that the request and response passed in are of a
   // particular subclass of Message.  GetRequestPrototype() and
   // GetResponsePrototype() get the default instances of these required types.
   // You can then call Message::New() on these instances to construct mutable
   // objects which you can then pass to CallMethod().
   //
   // Example:
   //   const MethodDescriptor* method =
   //     service->GetDescriptor()->FindMethodByName("Foo");
   //   Message* request  = stub->GetRequestPrototype (method)->New();
   //   Message* response = stub->GetResponsePrototype(method)->New();
   //   request->ParseFromString(input);
   //   service->CallMethod(method, *request, response, callback);
   virtual const Message& GetRequestPrototype(
     const MethodDescriptor* method) const = 0;
   virtual const Message& GetResponsePrototype(
     const MethodDescriptor* method) const = 0;

  private:
   GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(Service);
 };

 // An RpcController mediates a single method call.  The primary purpose of
 // the controller is to provide a way to manipulate settings specific to the
 // RPC implementation and to find out about RPC-level errors.
 //
 // The methods provided by the RpcController interface are intended to be a
 // "least common denominator" set of features which we expect all
 // implementations to support.  Specific implementations may provide more
 // advanced features (e.g. deadline propagation).
 class LIBPROTOBUF_EXPORT RpcController {
  public:
   inline RpcController() {}
   virtual ~RpcController();

   // Client-side methods ---------------------------------------------
   // These calls may be made from the client side only.  Their results
   // are undefined on the server side (may crash).

   // Resets the RpcController to its initial state so that it may be reused in
   // a new call.  Must not be called while an RPC is in progress.
   virtual void Reset() = 0;

   // After a call has finished, returns true if the call failed.  The possible
   // reasons for failure depend on the RPC implementation.  Failed() must not
   // be called before a call has finished.  If Failed() returns true, the
   // contents of the response message are undefined.
   virtual bool Failed() const = 0;

   // If Failed() is true, returns a human-readable description of the error.
   virtual string ErrorText() const = 0;

   // Advises the RPC system that the caller desires that the RPC call be
   // canceled.  The RPC system may cancel it immediately, may wait awhile and
   // then cancel it, or may not even cancel the call at all.  If the call is
   // canceled, the "done" callback will still be called and the RpcController
   // will indicate that the call failed at that time.
   virtual void StartCancel() = 0;

   // Server-side methods ---------------------------------------------
   // These calls may be made from the server side only.  Their results
   // are undefined on the client side (may crash).

   // Causes Failed() to return true on the client side.  "reason" will be
   // incorporated into the message returned by ErrorText().  If you find
   // you need to return machine-readable information about failures, you
   // should incorporate it into your response protocol buffer and should
   // NOT call SetFailed().
   virtual void SetFailed(const string& reason) = 0;

   // If true, indicates that the client canceled the RPC, so the server may
   // as well give up on replying to it.  The server should still call the
   // final "done" callback.
   virtual bool IsCanceled() const = 0;

   // Asks that the given callback be called when the RPC is canceled.  The
   // callback will always be called exactly once.  If the RPC completes without
   // being canceled, the callback will be called after completion.  If the RPC
   // has already been canceled when NotifyOnCancel() is called, the callback
   // will be called immediately.
   //
   // NotifyOnCancel() must be called no more than once per request.
   virtual void NotifyOnCancel(Closure* callback) = 0;

  private:
   GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(RpcController);
 };

 // Abstract interface for an RPC channel.  An RpcChannel represents a
 // communication line to a Service which can be used to call that Service's
 // methods.  The Service may be running on another machine.  Normally, you
 // should not call an RpcChannel directly, but instead construct a stub Service
 // wrapping it.  Example:
 //   RpcChannel* channel = new MyRpcChannel("remotehost.example.com:1234");
 //   MyService* service = new MyService::Stub(channel);
 //   service->MyMethod(request, &response, callback);
 class LIBPROTOBUF_EXPORT RpcChannel {
  public:
   inline RpcChannel() {}
   virtual ~RpcChannel();

   // Call the given method of the remote service.  The signature of this
   // procedure looks the same as Service::CallMethod(), but the requirements
   // are less strict in one important way:  the request and response objects
   // need not be of any specific class as long as their descriptors are
   // method->input_type() and method->output_type().
   virtual void CallMethod(const MethodDescriptor* method,
                           RpcController* controller,
                           const Message* request,
                           Message* response,
                           Closure* done) = 0;

  private:
   GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(RpcChannel);
 };

 }  // namespace protobuf

 }  // namespace google
 #endif  // GOOGLE_PROTOBUF_SERVICE_H__
	// Protocol Buffers - Google's data interchange format
	// Copyright 2008 Google Inc. All rights reserved.
	// https://developers.google.com/protocol-buffers/
	//
	// 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.

	// Author: kenton@google.com (Kenton Varda)
	// Based on original Protocol Buffers design by
	// Sanjay Ghemawat, Jeff Dean, and others.
	//
	// DEPRECATED: This module declares the abstract interfaces underlying proto2
	// RPC services. These are intented to be independent of any particular RPC
	// implementation, so that proto2 services can be used on top of a variety
	// of implementations. Starting with version 2.3.0, RPC implementations should
	// not try to build on these, but should instead provide code generator plugins
	// which generate code specific to the particular RPC implementation. This way
	// the generated code can be more appropriate for the implementation in use
	// and can avoid unnecessary layers of indirection.
	//
	//
	// When you use the protocol compiler to compile a service definition, it
	// generates two classes: An abstract interface for the service (with
	// methods matching the service definition) and a "stub" implementation.
	// A stub is just a type-safe wrapper around an RpcChannel which emulates a
	// local implementation of the service.
	//
	// For example, the service definition:
	// service MyService {
	// rpc Foo(MyRequest) returns(MyResponse);
	// }
	// will generate abstract interface "MyService" and class "MyService::Stub".
	// You could implement a MyService as follows:
	// class MyServiceImpl : public MyService {
	// public:
	// MyServiceImpl() {}
	// ~MyServiceImpl() {}
	//
	// // implements MyService ---------------------------------------
	//
	// void Foo(google::protobuf::RpcController* controller,
	// const MyRequest* request,
	// MyResponse* response,
	// Closure* done) {
	// // ... read request and fill in response ...
	// done->Run();
	// }
	// };
	// You would then register an instance of MyServiceImpl with your RPC server
	// implementation. (How to do that depends on the implementation.)
	//
	// To call a remote MyServiceImpl, first you need an RpcChannel connected to it.
	// How to construct a channel depends, again, on your RPC implementation.
	// Here we use a hypothetical "MyRpcChannel" as an example:
	// MyRpcChannel channel("rpc:hostname:1234/myservice");
	// MyRpcController controller;
	// MyServiceImpl::Stub stub(&channel);
	// FooRequest request;
	// FooResponse response;
	//
	// // ... fill in request ...
	//
	// stub.Foo(&controller, request, &response, NewCallback(HandleResponse));
	//
	// On Thread-Safety:
	//
	// Different RPC implementations may make different guarantees about what
	// threads they may run callbacks on, and what threads the application is
	// allowed to use to call the RPC system. Portable software should be ready
	// for callbacks to be called on any thread, but should not try to call the
	// RPC system from any thread except for the ones on which it received the
	// callbacks. Realistically, though, simple software will probably want to
	// use a single-threaded RPC system while high-end software will want to
	// use multiple threads. RPC implementations should provide multiple
	// choices.

	#ifndef GOOGLE_PROTOBUF_SERVICE_H__
	#define GOOGLE_PROTOBUF_SERVICE_H__

	#include <string>
	#include <google/protobuf/stubs/common.h>
	#include <google/protobuf/stubs/callback.h>

	namespace google {
	namespace protobuf {

	// Defined in this file.
	class Service;
	class RpcController;
	class RpcChannel;

	// Defined in other files.
	class Descriptor; // descriptor.h
	class ServiceDescriptor; // descriptor.h
	class MethodDescriptor; // descriptor.h
	class Message; // message.h

	// Abstract base interface for protocol-buffer-based RPC services. Services
	// themselves are abstract interfaces (implemented either by servers or as
	// stubs), but they subclass this base interface. The methods of this
	// interface can be used to call the methods of the Service without knowing
	// its exact type at compile time (analogous to Reflection).
	class LIBPROTOBUF_EXPORT Service {
	public:
	inline Service() {}
	virtual ~Service();

	// When constructing a stub, you may pass STUB_OWNS_CHANNEL as the second
	// parameter to the constructor to tell it to delete its RpcChannel when
	// destroyed.
	enum ChannelOwnership {
	STUB_OWNS_CHANNEL,
	STUB_DOESNT_OWN_CHANNEL
	};

	// Get the ServiceDescriptor describing this service and its methods.
	virtual const ServiceDescriptor* GetDescriptor() = 0;

	// Call a method of the service specified by MethodDescriptor. This is
	// normally implemented as a simple switch() that calls the standard
	// definitions of the service's methods.
	//
	// Preconditions:
	// * method->service() == GetDescriptor()
	// * request and response are of the exact same classes as the objects
	// returned by GetRequestPrototype(method) and
	// GetResponsePrototype(method).
	// * After the call has started, the request must not be modified and the
	// response must not be accessed at all until "done" is called.
	// * "controller" is of the correct type for the RPC implementation being
	// used by this Service. For stubs, the "correct type" depends on the
	// RpcChannel which the stub is using. Server-side Service
	// implementations are expected to accept whatever type of RpcController
	// the server-side RPC implementation uses.
	//
	// Postconditions:
	// * "done" will be called when the method is complete. This may be
	// before CallMethod() returns or it may be at some point in the future.
	// * If the RPC succeeded, "response" contains the response returned by
	// the server.
	// * If the RPC failed, "response"'s contents are undefined. The
	// RpcController can be queried to determine if an error occurred and
	// possibly to get more information about the error.
	virtual void CallMethod(const MethodDescriptor* method,
	RpcController* controller,
	const Message* request,
	Message* response,
	Closure* done) = 0;

	// CallMethod() requires that the request and response passed in are of a
	// particular subclass of Message. GetRequestPrototype() and
	// GetResponsePrototype() get the default instances of these required types.
	// You can then call Message::New() on these instances to construct mutable
	// objects which you can then pass to CallMethod().
	//
	// Example:
	// const MethodDescriptor* method =
	// service->GetDescriptor()->FindMethodByName("Foo");
	// Message* request = stub->GetRequestPrototype (method)->New();
	// Message* response = stub->GetResponsePrototype(method)->New();
	// request->ParseFromString(input);
	// service->CallMethod(method, *request, response, callback);
	virtual const Message& GetRequestPrototype(
	const MethodDescriptor* method) const = 0;
	virtual const Message& GetResponsePrototype(
	const MethodDescriptor* method) const = 0;

	private:
	GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(Service);
	};

	// An RpcController mediates a single method call. The primary purpose of
	// the controller is to provide a way to manipulate settings specific to the
	// RPC implementation and to find out about RPC-level errors.
	//
	// The methods provided by the RpcController interface are intended to be a
	// "least common denominator" set of features which we expect all
	// implementations to support. Specific implementations may provide more
	// advanced features (e.g. deadline propagation).
	class LIBPROTOBUF_EXPORT RpcController {
	public:
	inline RpcController() {}
	virtual ~RpcController();

	// Client-side methods ---------------------------------------------
	// These calls may be made from the client side only. Their results
	// are undefined on the server side (may crash).

	// Resets the RpcController to its initial state so that it may be reused in
	// a new call. Must not be called while an RPC is in progress.
	virtual void Reset() = 0;

	// After a call has finished, returns true if the call failed. The possible
	// reasons for failure depend on the RPC implementation. Failed() must not
	// be called before a call has finished. If Failed() returns true, the
	// contents of the response message are undefined.
	virtual bool Failed() const = 0;

	// If Failed() is true, returns a human-readable description of the error.
	virtual string ErrorText() const = 0;

	// Advises the RPC system that the caller desires that the RPC call be
	// canceled. The RPC system may cancel it immediately, may wait awhile and
	// then cancel it, or may not even cancel the call at all. If the call is
	// canceled, the "done" callback will still be called and the RpcController
	// will indicate that the call failed at that time.
	virtual void StartCancel() = 0;

	// Server-side methods ---------------------------------------------
	// These calls may be made from the server side only. Their results
	// are undefined on the client side (may crash).

	// Causes Failed() to return true on the client side. "reason" will be
	// incorporated into the message returned by ErrorText(). If you find
	// you need to return machine-readable information about failures, you
	// should incorporate it into your response protocol buffer and should
	// NOT call SetFailed().
	virtual void SetFailed(const string& reason) = 0;

	// If true, indicates that the client canceled the RPC, so the server may
	// as well give up on replying to it. The server should still call the
	// final "done" callback.
	virtual bool IsCanceled() const = 0;

	// Asks that the given callback be called when the RPC is canceled. The
	// callback will always be called exactly once. If the RPC completes without
	// being canceled, the callback will be called after completion. If the RPC
	// has already been canceled when NotifyOnCancel() is called, the callback
	// will be called immediately.
	//
	// NotifyOnCancel() must be called no more than once per request.
	virtual void NotifyOnCancel(Closure* callback) = 0;

	private:
	GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(RpcController);
	};

	// Abstract interface for an RPC channel. An RpcChannel represents a
	// communication line to a Service which can be used to call that Service's
	// methods. The Service may be running on another machine. Normally, you
	// should not call an RpcChannel directly, but instead construct a stub Service
	// wrapping it. Example:
	// RpcChannel* channel = new MyRpcChannel("remotehost.example.com:1234");
	// MyService* service = new MyService::Stub(channel);
	// service->MyMethod(request, &response, callback);
	class LIBPROTOBUF_EXPORT RpcChannel {
	public:
	inline RpcChannel() {}
	virtual ~RpcChannel();

	// Call the given method of the remote service. The signature of this
	// procedure looks the same as Service::CallMethod(), but the requirements
	// are less strict in one important way: the request and response objects
	// need not be of any specific class as long as their descriptors are
	// method->input_type() and method->output_type().
	virtual void CallMethod(const MethodDescriptor* method,
	RpcController* controller,
	const Message* request,
	Message* response,
	Closure* done) = 0;

	private:
	GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(RpcChannel);
	};

	} // namespace protobuf

	} // namespace google
	#endif // GOOGLE_PROTOBUF_SERVICE_H__