api/proxy.h - src - Git at Google

 /*
  *  Copyright 2013 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 // This file contains Macros for creating proxies for webrtc MediaStream and
 // PeerConnection classes.
 // TODO(deadbeef): Move this to pc/; this is part of the implementation.

 //
 // Example usage:
 //
 // class TestInterface : public rtc::RefCountInterface {
 //  public:
 //   std::string FooA() = 0;
 //   std::string FooB(bool arg1) const = 0;
 //   std::string FooC(bool arg1) = 0;
 //  };
 //
 // Note that return types can not be a const reference.
 //
 // class Test : public TestInterface {
 // ... implementation of the interface.
 // };
 //
 // BEGIN_PROXY_MAP(Test)
 //   PROXY_SIGNALING_THREAD_DESTRUCTOR()
 //   PROXY_METHOD0(std::string, FooA)
 //   PROXY_CONSTMETHOD1(std::string, FooB, arg1)
 //   PROXY_WORKER_METHOD1(std::string, FooC, arg1)
 // END_PROXY_MAP()
 //
 // Where the destructor and first two methods are invoked on the signaling
 // thread, and the third is invoked on the worker thread.
 //
 // The proxy can be created using
 //
 //   TestProxy::Create(Thread* signaling_thread, Thread* worker_thread,
 //                     TestInterface*).
 //
 // The variant defined with BEGIN_SIGNALING_PROXY_MAP is unaware of
 // the worker thread, and invokes all methods on the signaling thread.
 //
 // The variant defined with BEGIN_OWNED_PROXY_MAP does not use
 // refcounting, and instead just takes ownership of the object being proxied.

 #ifndef API_PROXY_H_
 #define API_PROXY_H_

 #include <memory>
 #include <string>
 #include <tuple>
 #include <utility>

 #include "api/scoped_refptr.h"
 #include "rtc_base/event.h"
 #include "rtc_base/message_handler.h"
 #include "rtc_base/ref_counted_object.h"
 #include "rtc_base/system/rtc_export.h"
 #include "rtc_base/thread.h"

 namespace rtc {
 class Location;
 }

 namespace webrtc {

 template <typename R>
 class ReturnType {
  public:
   template <typename C, typename M, typename... Args>
   void Invoke(C* c, M m, Args&&... args) {
     r_ = (c->*m)(std::forward<Args>(args)...);
   }

   R moved_result() { return std::move(r_); }

  private:
   R r_;
 };

 template <>
 class ReturnType<void> {
  public:
   template <typename C, typename M, typename... Args>
   void Invoke(C* c, M m, Args&&... args) {
     (c->*m)(std::forward<Args>(args)...);
   }

   void moved_result() {}
 };

 namespace internal {

 class RTC_EXPORT SynchronousMethodCall : public rtc::MessageData,
                                          public rtc::MessageHandler {
  public:
   explicit SynchronousMethodCall(rtc::MessageHandler* proxy);
   ~SynchronousMethodCall() override;

   void Invoke(const rtc::Location& posted_from, rtc::Thread* t);

  private:
   void OnMessage(rtc::Message*) override;

   rtc::Event e_;
   rtc::MessageHandler* proxy_;
 };

 }  // namespace internal

 template <typename C, typename R, typename... Args>
 class MethodCall : public rtc::Message, public rtc::MessageHandler {
  public:
   typedef R (C::*Method)(Args...);
   MethodCall(C* c, Method m, Args&&... args)
       : c_(c),
         m_(m),
         args_(std::forward_as_tuple(std::forward<Args>(args)...)) {}

   R Marshal(const rtc::Location& posted_from, rtc::Thread* t) {
     internal::SynchronousMethodCall(this).Invoke(posted_from, t);
     return r_.moved_result();
   }

  private:
   void OnMessage(rtc::Message*) { Invoke(std::index_sequence_for<Args...>()); }

   template <size_t... Is>
   void Invoke(std::index_sequence<Is...>) {
     r_.Invoke(c_, m_, std::move(std::get<Is>(args_))...);
   }

   C* c_;
   Method m_;
   ReturnType<R> r_;
   std::tuple<Args&&...> args_;
 };

 template <typename C, typename R, typename... Args>
 class ConstMethodCall : public rtc::Message, public rtc::MessageHandler {
  public:
   typedef R (C::*Method)(Args...) const;
   ConstMethodCall(const C* c, Method m, Args&&... args)
       : c_(c),
         m_(m),
         args_(std::forward_as_tuple(std::forward<Args>(args)...)) {}

   R Marshal(const rtc::Location& posted_from, rtc::Thread* t) {
     internal::SynchronousMethodCall(this).Invoke(posted_from, t);
     return r_.moved_result();
   }

  private:
   void OnMessage(rtc::Message*) { Invoke(std::index_sequence_for<Args...>()); }

   template <size_t... Is>
   void Invoke(std::index_sequence<Is...>) {
     r_.Invoke(c_, m_, std::move(std::get<Is>(args_))...);
   }

   const C* c_;
   Method m_;
   ReturnType<R> r_;
   std::tuple<Args&&...> args_;
 };

 // Helper macros to reduce code duplication.
 #define PROXY_MAP_BOILERPLATE(c)                          \
   template <class INTERNAL_CLASS>                         \
   class c##ProxyWithInternal;                             \
   typedef c##ProxyWithInternal<c##Interface> c##Proxy;    \
   template <class INTERNAL_CLASS>                         \
   class c##ProxyWithInternal : public c##Interface {      \
    protected:                                             \
     typedef c##Interface C;                               \
                                                           \
    public:                                                \
     const INTERNAL_CLASS* internal() const { return c_; } \
     INTERNAL_CLASS* internal() { return c_; }

 // clang-format off
 // clang-format would put the semicolon alone,
 // leading to a presubmit error (cpplint.py)
 #define END_PROXY_MAP() \
   };
 // clang-format on

 #define SIGNALING_PROXY_MAP_BOILERPLATE(c)                               \
  protected:                                                              \
   c##ProxyWithInternal(rtc::Thread* signaling_thread, INTERNAL_CLASS* c) \
       : signaling_thread_(signaling_thread), c_(c) {}                    \
                                                                          \
  private:                                                                \
   mutable rtc::Thread* signaling_thread_;

 #define WORKER_PROXY_MAP_BOILERPLATE(c)                               \
  protected:                                                           \
   c##ProxyWithInternal(rtc::Thread* signaling_thread,                 \
                        rtc::Thread* worker_thread, INTERNAL_CLASS* c) \
       : signaling_thread_(signaling_thread),                          \
         worker_thread_(worker_thread),                                \
         c_(c) {}                                                      \
                                                                       \
  private:                                                             \
   mutable rtc::Thread* signaling_thread_;                             \
   mutable rtc::Thread* worker_thread_;

 // Note that the destructor is protected so that the proxy can only be
 // destroyed via RefCountInterface.
 #define REFCOUNTED_PROXY_MAP_BOILERPLATE(c)            \
  protected:                                            \
   ~c##ProxyWithInternal() {                            \
     MethodCall<c##ProxyWithInternal, void> call(       \
         this, &c##ProxyWithInternal::DestroyInternal); \
     call.Marshal(RTC_FROM_HERE, destructor_thread());  \
   }                                                    \
                                                        \
  private:                                              \
   void DestroyInternal() { c_ = nullptr; }             \
   rtc::scoped_refptr<INTERNAL_CLASS> c_;

 // Note: This doesn't use a unique_ptr, because it intends to handle a corner
 // case where an object's deletion triggers a callback that calls back into
 // this proxy object. If relying on a unique_ptr to delete the object, its
 // inner pointer would be set to null before this reentrant callback would have
 // a chance to run, resulting in a segfault.
 #define OWNED_PROXY_MAP_BOILERPLATE(c)                 \
  public:                                               \
   ~c##ProxyWithInternal() {                            \
     MethodCall<c##ProxyWithInternal, void> call(       \
         this, &c##ProxyWithInternal::DestroyInternal); \
     call.Marshal(RTC_FROM_HERE, destructor_thread());  \
   }                                                    \
                                                        \
  private:                                              \
   void DestroyInternal() { delete c_; }                \
   INTERNAL_CLASS* c_;

 #define BEGIN_SIGNALING_PROXY_MAP(c)                                         \
   PROXY_MAP_BOILERPLATE(c)                                                   \
   SIGNALING_PROXY_MAP_BOILERPLATE(c)                                         \
   REFCOUNTED_PROXY_MAP_BOILERPLATE(c)                                        \
  public:                                                                     \
   static rtc::scoped_refptr<c##ProxyWithInternal> Create(                    \
       rtc::Thread* signaling_thread, INTERNAL_CLASS* c) {                    \
     return new rtc::RefCountedObject<c##ProxyWithInternal>(signaling_thread, \
                                                            c);               \
   }

 #define BEGIN_PROXY_MAP(c)                                                    \
   PROXY_MAP_BOILERPLATE(c)                                                    \
   WORKER_PROXY_MAP_BOILERPLATE(c)                                             \
   REFCOUNTED_PROXY_MAP_BOILERPLATE(c)                                         \
  public:                                                                      \
   static rtc::scoped_refptr<c##ProxyWithInternal> Create(                     \
       rtc::Thread* signaling_thread, rtc::Thread* worker_thread,              \
       INTERNAL_CLASS* c) {                                                    \
     return new rtc::RefCountedObject<c##ProxyWithInternal>(signaling_thread,  \
                                                            worker_thread, c); \
   }

 #define BEGIN_OWNED_PROXY_MAP(c)                                   \
   PROXY_MAP_BOILERPLATE(c)                                         \
   WORKER_PROXY_MAP_BOILERPLATE(c)                                  \
   OWNED_PROXY_MAP_BOILERPLATE(c)                                   \
  public:                                                           \
   static std::unique_ptr<c##Interface> Create(                     \
       rtc::Thread* signaling_thread, rtc::Thread* worker_thread,   \
       std::unique_ptr<INTERNAL_CLASS> c) {                         \
     return std::unique_ptr<c##Interface>(new c##ProxyWithInternal( \
         signaling_thread, worker_thread, c.release()));            \
   }

 #define PROXY_SIGNALING_THREAD_DESTRUCTOR()                            \
  private:                                                              \
   rtc::Thread* destructor_thread() const { return signaling_thread_; } \
                                                                        \
  public:  // NOLINTNEXTLINE

 #define PROXY_WORKER_THREAD_DESTRUCTOR()                            \
  private:                                                           \
   rtc::Thread* destructor_thread() const { return worker_thread_; } \
                                                                     \
  public:  // NOLINTNEXTLINE

 #define PROXY_METHOD0(r, method)                           \
   r method() override {                                    \
     MethodCall<C, r> call(c_, &C::method);                 \
     return call.Marshal(RTC_FROM_HERE, signaling_thread_); \
   }

 #define PROXY_CONSTMETHOD0(r, method)                      \
   r method() const override {                              \
     ConstMethodCall<C, r> call(c_, &C::method);            \
     return call.Marshal(RTC_FROM_HERE, signaling_thread_); \
   }

 #define PROXY_METHOD1(r, method, t1)                          \
   r method(t1 a1) override {                                  \
     MethodCall<C, r, t1> call(c_, &C::method, std::move(a1)); \
     return call.Marshal(RTC_FROM_HERE, signaling_thread_);    \
   }

 #define PROXY_CONSTMETHOD1(r, method, t1)                          \
   r method(t1 a1) const override {                                 \
     ConstMethodCall<C, r, t1> call(c_, &C::method, std::move(a1)); \
     return call.Marshal(RTC_FROM_HERE, signaling_thread_);         \
   }

 #define PROXY_METHOD2(r, method, t1, t2)                         \
   r method(t1 a1, t2 a2) override {                              \
     MethodCall<C, r, t1, t2> call(c_, &C::method, std::move(a1), \
                                   std::move(a2));                \
     return call.Marshal(RTC_FROM_HERE, signaling_thread_);       \
   }

 #define PROXY_METHOD3(r, method, t1, t2, t3)                         \
   r method(t1 a1, t2 a2, t3 a3) override {                           \
     MethodCall<C, r, t1, t2, t3> call(c_, &C::method, std::move(a1), \
                                       std::move(a2), std::move(a3)); \
     return call.Marshal(RTC_FROM_HERE, signaling_thread_);           \
   }

 #define PROXY_METHOD4(r, method, t1, t2, t3, t4)                         \
   r method(t1 a1, t2 a2, t3 a3, t4 a4) override {                        \
     MethodCall<C, r, t1, t2, t3, t4> call(c_, &C::method, std::move(a1), \
                                           std::move(a2), std::move(a3),  \
                                           std::move(a4));                \
     return call.Marshal(RTC_FROM_HERE, signaling_thread_);               \
   }

 #define PROXY_METHOD5(r, method, t1, t2, t3, t4, t5)                         \
   r method(t1 a1, t2 a2, t3 a3, t4 a4, t5 a5) override {                     \
     MethodCall<C, r, t1, t2, t3, t4, t5> call(c_, &C::method, std::move(a1), \
                                               std::move(a2), std::move(a3),  \
                                               std::move(a4), std::move(a5)); \
     return call.Marshal(RTC_FROM_HERE, signaling_thread_);                   \
   }

 // Define methods which should be invoked on the worker thread.
 #define PROXY_WORKER_METHOD0(r, method)                 \
   r method() override {                                 \
     MethodCall<C, r> call(c_, &C::method);              \
     return call.Marshal(RTC_FROM_HERE, worker_thread_); \
   }

 #define PROXY_WORKER_CONSTMETHOD0(r, method)            \
   r method() const override {                           \
     ConstMethodCall<C, r> call(c_, &C::method);         \
     return call.Marshal(RTC_FROM_HERE, worker_thread_); \
   }

 #define PROXY_WORKER_METHOD1(r, method, t1)                   \
   r method(t1 a1) override {                                  \
     MethodCall<C, r, t1> call(c_, &C::method, std::move(a1)); \
     return call.Marshal(RTC_FROM_HERE, worker_thread_);       \
   }

 #define PROXY_WORKER_CONSTMETHOD1(r, method, t1)                   \
   r method(t1 a1) const override {                                 \
     ConstMethodCall<C, r, t1> call(c_, &C::method, std::move(a1)); \
     return call.Marshal(RTC_FROM_HERE, worker_thread_);            \
   }

 #define PROXY_WORKER_METHOD2(r, method, t1, t2)                  \
   r method(t1 a1, t2 a2) override {                              \
     MethodCall<C, r, t1, t2> call(c_, &C::method, std::move(a1), \
                                   std::move(a2));                \
     return call.Marshal(RTC_FROM_HERE, worker_thread_);          \
   }

 #define PROXY_WORKER_CONSTMETHOD2(r, method, t1, t2)                  \
   r method(t1 a1, t2 a2) const override {                             \
     ConstMethodCall<C, r, t1, t2> call(c_, &C::method, std::move(a1), \
                                        std::move(a2));                \
     return call.Marshal(RTC_FROM_HERE, worker_thread_);               \
   }

 #define PROXY_WORKER_METHOD3(r, method, t1, t2, t3)                  \
   r method(t1 a1, t2 a2, t3 a3) override {                           \
     MethodCall<C, r, t1, t2, t3> call(c_, &C::method, std::move(a1), \
                                       std::move(a2), std::move(a3)); \
     return call.Marshal(RTC_FROM_HERE, worker_thread_);              \
   }

 #define PROXY_WORKER_CONSTMETHOD3(r, method, t1, t2)                      \
   r method(t1 a1, t2 a2, t3 a3) const override {                          \
     ConstMethodCall<C, r, t1, t2, t3> call(c_, &C::method, std::move(a1), \
                                            std::move(a2), std::move(a3)); \
     return call.Marshal(RTC_FROM_HERE, worker_thread_);                   \
   }

 }  // namespace webrtc

 #endif  //  API_PROXY_H_
	/*
	* Copyright 2013 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	// This file contains Macros for creating proxies for webrtc MediaStream and
	// PeerConnection classes.
	// TODO(deadbeef): Move this to pc/; this is part of the implementation.

	//
	// Example usage:
	//
	// class TestInterface : public rtc::RefCountInterface {
	// public:
	// std::string FooA() = 0;
	// std::string FooB(bool arg1) const = 0;
	// std::string FooC(bool arg1) = 0;
	// };
	//
	// Note that return types can not be a const reference.
	//
	// class Test : public TestInterface {
	// ... implementation of the interface.
	// };
	//
	// BEGIN_PROXY_MAP(Test)
	// PROXY_SIGNALING_THREAD_DESTRUCTOR()
	// PROXY_METHOD0(std::string, FooA)
	// PROXY_CONSTMETHOD1(std::string, FooB, arg1)
	// PROXY_WORKER_METHOD1(std::string, FooC, arg1)
	// END_PROXY_MAP()
	//
	// Where the destructor and first two methods are invoked on the signaling
	// thread, and the third is invoked on the worker thread.
	//
	// The proxy can be created using
	//
	// TestProxy::Create(Thread* signaling_thread, Thread* worker_thread,
	// TestInterface*).
	//
	// The variant defined with BEGIN_SIGNALING_PROXY_MAP is unaware of
	// the worker thread, and invokes all methods on the signaling thread.
	//
	// The variant defined with BEGIN_OWNED_PROXY_MAP does not use
	// refcounting, and instead just takes ownership of the object being proxied.

	#ifndef API_PROXY_H_
	#define API_PROXY_H_

	#include <memory>
	#include <string>
	#include <tuple>
	#include <utility>

	#include "api/scoped_refptr.h"
	#include "rtc_base/event.h"
	#include "rtc_base/message_handler.h"
	#include "rtc_base/ref_counted_object.h"
	#include "rtc_base/system/rtc_export.h"
	#include "rtc_base/thread.h"

	namespace rtc {
	class Location;
	}

	namespace webrtc {

	template <typename R>
	class ReturnType {
	public:
	template <typename C, typename M, typename... Args>
	void Invoke(C* c, M m, Args&&... args) {
	r_ = (c->*m)(std::forward<Args>(args)...);
	}

	R moved_result() { return std::move(r_); }

	private:
	R r_;
	};

	template <>
	class ReturnType<void> {
	public:
	template <typename C, typename M, typename... Args>
	void Invoke(C* c, M m, Args&&... args) {
	(c->*m)(std::forward<Args>(args)...);
	}

	void moved_result() {}
	};

	namespace internal {

	class RTC_EXPORT SynchronousMethodCall : public rtc::MessageData,
	public rtc::MessageHandler {
	public:
	explicit SynchronousMethodCall(rtc::MessageHandler* proxy);
	~SynchronousMethodCall() override;

	void Invoke(const rtc::Location& posted_from, rtc::Thread* t);

	private:
	void OnMessage(rtc::Message*) override;

	rtc::Event e_;
	rtc::MessageHandler* proxy_;
	};

	} // namespace internal

	template <typename C, typename R, typename... Args>
	class MethodCall : public rtc::Message, public rtc::MessageHandler {
	public:
	typedef R (C::*Method)(Args...);
	MethodCall(C* c, Method m, Args&&... args)
	: c_(c),
	m_(m),
	args_(std::forward_as_tuple(std::forward<Args>(args)...)) {}

	R Marshal(const rtc::Location& posted_from, rtc::Thread* t) {
	internal::SynchronousMethodCall(this).Invoke(posted_from, t);
	return r_.moved_result();
	}

	private:
	void OnMessage(rtc::Message*) { Invoke(std::index_sequence_for<Args...>()); }

	template <size_t... Is>
	void Invoke(std::index_sequence<Is...>) {
	r_.Invoke(c_, m_, std::move(std::get<Is>(args_))...);
	}

	C* c_;
	Method m_;
	ReturnType<R> r_;
	std::tuple<Args&&...> args_;
	};

	template <typename C, typename R, typename... Args>
	class ConstMethodCall : public rtc::Message, public rtc::MessageHandler {
	public:
	typedef R (C::*Method)(Args...) const;
	ConstMethodCall(const C* c, Method m, Args&&... args)
	: c_(c),
	m_(m),
	args_(std::forward_as_tuple(std::forward<Args>(args)...)) {}

	R Marshal(const rtc::Location& posted_from, rtc::Thread* t) {
	internal::SynchronousMethodCall(this).Invoke(posted_from, t);
	return r_.moved_result();
	}

	private:
	void OnMessage(rtc::Message*) { Invoke(std::index_sequence_for<Args...>()); }

	template <size_t... Is>
	void Invoke(std::index_sequence<Is...>) {
	r_.Invoke(c_, m_, std::move(std::get<Is>(args_))...);
	}

	const C* c_;
	Method m_;
	ReturnType<R> r_;
	std::tuple<Args&&...> args_;
	};

	// Helper macros to reduce code duplication.
	#define PROXY_MAP_BOILERPLATE(c) \
	template <class INTERNAL_CLASS> \
	class c##ProxyWithInternal; \
	typedef c##ProxyWithInternal<c##Interface> c##Proxy; \
	template <class INTERNAL_CLASS> \
	class c##ProxyWithInternal : public c##Interface { \
	protected: \
	typedef c##Interface C; \
	\
	public: \
	const INTERNAL_CLASS* internal() const { return c_; } \
	INTERNAL_CLASS* internal() { return c_; }

	// clang-format off
	// clang-format would put the semicolon alone,
	// leading to a presubmit error (cpplint.py)
	#define END_PROXY_MAP() \
	};
	// clang-format on

	#define SIGNALING_PROXY_MAP_BOILERPLATE(c) \
	protected: \
	c##ProxyWithInternal(rtc::Thread* signaling_thread, INTERNAL_CLASS* c) \
	: signaling_thread_(signaling_thread), c_(c) {} \
	\
	private: \
	mutable rtc::Thread* signaling_thread_;

	#define WORKER_PROXY_MAP_BOILERPLATE(c) \
	protected: \
	c##ProxyWithInternal(rtc::Thread* signaling_thread, \
	rtc::Thread* worker_thread, INTERNAL_CLASS* c) \
	: signaling_thread_(signaling_thread), \
	worker_thread_(worker_thread), \
	c_(c) {} \
	\
	private: \
	mutable rtc::Thread* signaling_thread_; \
	mutable rtc::Thread* worker_thread_;

	// Note that the destructor is protected so that the proxy can only be
	// destroyed via RefCountInterface.
	#define REFCOUNTED_PROXY_MAP_BOILERPLATE(c) \
	protected: \
	~c##ProxyWithInternal() { \
	MethodCall<c##ProxyWithInternal, void> call( \
	this, &c##ProxyWithInternal::DestroyInternal); \
	call.Marshal(RTC_FROM_HERE, destructor_thread()); \
	} \
	\
	private: \
	void DestroyInternal() { c_ = nullptr; } \
	rtc::scoped_refptr<INTERNAL_CLASS> c_;

	// Note: This doesn't use a unique_ptr, because it intends to handle a corner
	// case where an object's deletion triggers a callback that calls back into
	// this proxy object. If relying on a unique_ptr to delete the object, its
	// inner pointer would be set to null before this reentrant callback would have
	// a chance to run, resulting in a segfault.
	#define OWNED_PROXY_MAP_BOILERPLATE(c) \
	public: \
	~c##ProxyWithInternal() { \
	MethodCall<c##ProxyWithInternal, void> call( \
	this, &c##ProxyWithInternal::DestroyInternal); \
	call.Marshal(RTC_FROM_HERE, destructor_thread()); \
	} \
	\
	private: \
	void DestroyInternal() { delete c_; } \
	INTERNAL_CLASS* c_;

	#define BEGIN_SIGNALING_PROXY_MAP(c) \
	PROXY_MAP_BOILERPLATE(c) \
	SIGNALING_PROXY_MAP_BOILERPLATE(c) \
	REFCOUNTED_PROXY_MAP_BOILERPLATE(c) \
	public: \
	static rtc::scoped_refptr<c##ProxyWithInternal> Create( \
	rtc::Thread* signaling_thread, INTERNAL_CLASS* c) { \
	return new rtc::RefCountedObject<c##ProxyWithInternal>(signaling_thread, \
	c); \
	}

	#define BEGIN_PROXY_MAP(c) \
	PROXY_MAP_BOILERPLATE(c) \
	WORKER_PROXY_MAP_BOILERPLATE(c) \
	REFCOUNTED_PROXY_MAP_BOILERPLATE(c) \
	public: \
	static rtc::scoped_refptr<c##ProxyWithInternal> Create( \
	rtc::Thread* signaling_thread, rtc::Thread* worker_thread, \
	INTERNAL_CLASS* c) { \
	return new rtc::RefCountedObject<c##ProxyWithInternal>(signaling_thread, \
	worker_thread, c); \
	}

	#define BEGIN_OWNED_PROXY_MAP(c) \
	PROXY_MAP_BOILERPLATE(c) \
	WORKER_PROXY_MAP_BOILERPLATE(c) \
	OWNED_PROXY_MAP_BOILERPLATE(c) \
	public: \
	static std::unique_ptr<c##Interface> Create( \
	rtc::Thread* signaling_thread, rtc::Thread* worker_thread, \
	std::unique_ptr<INTERNAL_CLASS> c) { \
	return std::unique_ptr<c##Interface>(new c##ProxyWithInternal( \
	signaling_thread, worker_thread, c.release())); \
	}

	#define PROXY_SIGNALING_THREAD_DESTRUCTOR() \
	private: \
	rtc::Thread* destructor_thread() const { return signaling_thread_; } \
	\
	public: // NOLINTNEXTLINE

	#define PROXY_WORKER_THREAD_DESTRUCTOR() \
	private: \
	rtc::Thread* destructor_thread() const { return worker_thread_; } \
	\
	public: // NOLINTNEXTLINE

	#define PROXY_METHOD0(r, method) \
	r method() override { \
	MethodCall<C, r> call(c_, &C::method); \
	return call.Marshal(RTC_FROM_HERE, signaling_thread_); \
	}

	#define PROXY_CONSTMETHOD0(r, method) \
	r method() const override { \
	ConstMethodCall<C, r> call(c_, &C::method); \
	return call.Marshal(RTC_FROM_HERE, signaling_thread_); \
	}

	#define PROXY_METHOD1(r, method, t1) \
	r method(t1 a1) override { \
	MethodCall<C, r, t1> call(c_, &C::method, std::move(a1)); \
	return call.Marshal(RTC_FROM_HERE, signaling_thread_); \
	}

	#define PROXY_CONSTMETHOD1(r, method, t1) \
	r method(t1 a1) const override { \
	ConstMethodCall<C, r, t1> call(c_, &C::method, std::move(a1)); \
	return call.Marshal(RTC_FROM_HERE, signaling_thread_); \
	}

	#define PROXY_METHOD2(r, method, t1, t2) \
	r method(t1 a1, t2 a2) override { \
	MethodCall<C, r, t1, t2> call(c_, &C::method, std::move(a1), \
	std::move(a2)); \
	return call.Marshal(RTC_FROM_HERE, signaling_thread_); \
	}

	#define PROXY_METHOD3(r, method, t1, t2, t3) \
	r method(t1 a1, t2 a2, t3 a3) override { \
	MethodCall<C, r, t1, t2, t3> call(c_, &C::method, std::move(a1), \
	std::move(a2), std::move(a3)); \
	return call.Marshal(RTC_FROM_HERE, signaling_thread_); \
	}

	#define PROXY_METHOD4(r, method, t1, t2, t3, t4) \
	r method(t1 a1, t2 a2, t3 a3, t4 a4) override { \
	MethodCall<C, r, t1, t2, t3, t4> call(c_, &C::method, std::move(a1), \
	std::move(a2), std::move(a3), \
	std::move(a4)); \
	return call.Marshal(RTC_FROM_HERE, signaling_thread_); \
	}

	#define PROXY_METHOD5(r, method, t1, t2, t3, t4, t5) \
	r method(t1 a1, t2 a2, t3 a3, t4 a4, t5 a5) override { \
	MethodCall<C, r, t1, t2, t3, t4, t5> call(c_, &C::method, std::move(a1), \
	std::move(a2), std::move(a3), \
	std::move(a4), std::move(a5)); \
	return call.Marshal(RTC_FROM_HERE, signaling_thread_); \
	}

	// Define methods which should be invoked on the worker thread.
	#define PROXY_WORKER_METHOD0(r, method) \
	r method() override { \
	MethodCall<C, r> call(c_, &C::method); \
	return call.Marshal(RTC_FROM_HERE, worker_thread_); \
	}

	#define PROXY_WORKER_CONSTMETHOD0(r, method) \
	r method() const override { \
	ConstMethodCall<C, r> call(c_, &C::method); \
	return call.Marshal(RTC_FROM_HERE, worker_thread_); \
	}

	#define PROXY_WORKER_METHOD1(r, method, t1) \
	r method(t1 a1) override { \
	MethodCall<C, r, t1> call(c_, &C::method, std::move(a1)); \
	return call.Marshal(RTC_FROM_HERE, worker_thread_); \
	}

	#define PROXY_WORKER_CONSTMETHOD1(r, method, t1) \
	r method(t1 a1) const override { \
	ConstMethodCall<C, r, t1> call(c_, &C::method, std::move(a1)); \
	return call.Marshal(RTC_FROM_HERE, worker_thread_); \
	}

	#define PROXY_WORKER_METHOD2(r, method, t1, t2) \
	r method(t1 a1, t2 a2) override { \
	MethodCall<C, r, t1, t2> call(c_, &C::method, std::move(a1), \
	std::move(a2)); \
	return call.Marshal(RTC_FROM_HERE, worker_thread_); \
	}

	#define PROXY_WORKER_CONSTMETHOD2(r, method, t1, t2) \
	r method(t1 a1, t2 a2) const override { \
	ConstMethodCall<C, r, t1, t2> call(c_, &C::method, std::move(a1), \
	std::move(a2)); \
	return call.Marshal(RTC_FROM_HERE, worker_thread_); \
	}

	#define PROXY_WORKER_METHOD3(r, method, t1, t2, t3) \
	r method(t1 a1, t2 a2, t3 a3) override { \
	MethodCall<C, r, t1, t2, t3> call(c_, &C::method, std::move(a1), \
	std::move(a2), std::move(a3)); \
	return call.Marshal(RTC_FROM_HERE, worker_thread_); \
	}

	#define PROXY_WORKER_CONSTMETHOD3(r, method, t1, t2) \
	r method(t1 a1, t2 a2, t3 a3) const override { \
	ConstMethodCall<C, r, t1, t2, t3> call(c_, &C::method, std::move(a1), \
	std::move(a2), std::move(a3)); \
	return call.Marshal(RTC_FROM_HERE, worker_thread_); \
	}

	} // namespace webrtc

	#endif // API_PROXY_H_