/* * 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. // The proxied objects are initialized with either one or two thread // objects that operations can be proxied to: The primary and secondary // threads. // In common usage, the primary thread will be the PeerConnection's // signaling thread, and the secondary thread will be either the // PeerConnection's worker thread or the PeerConnection's network thread. // // 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_PRIMARY_THREAD_DESTRUCTOR() // PROXY_METHOD0(std::string, FooA) // PROXY_CONSTMETHOD1(std::string, FooB, arg1) // PROXY_SECONDARY_METHOD1(std::string, FooC, arg1) // END_PROXY_MAP() // // Where the destructor and first two methods are invoked on the primary // thread, and the third is invoked on the secondary thread. // // The proxy can be created using // // TestProxy::Create(Thread* signaling_thread, Thread* worker_thread, // TestInterface*). // // The variant defined with BEGIN_PRIMARY_PROXY_MAP is unaware of // the secondary thread, and invokes all methods on the primary thread. // // The variant defined with BEGIN_OWNED_PROXY_MAP does not use // refcounting, and instead just takes ownership of the object being proxied. #ifndef PC_PROXY_H_ #define PC_PROXY_H_ #include #include #include #include #include #include "api/scoped_refptr.h" #include "api/task_queue/queued_task.h" #include "api/task_queue/task_queue_base.h" #include "rtc_base/event.h" #include "rtc_base/message_handler.h" #include "rtc_base/ref_counted_object.h" #include "rtc_base/string_utils.h" #include "rtc_base/system/rtc_export.h" #include "rtc_base/thread.h" #if !defined(RTC_DISABLE_PROXY_TRACE_EVENTS) && !defined(WEBRTC_CHROMIUM_BUILD) #define RTC_DISABLE_PROXY_TRACE_EVENTS #endif namespace rtc { class Location; } namespace webrtc { namespace proxy_internal { // Class for tracing the lifetime of MethodCall::Marshal. class ScopedTrace { public: explicit ScopedTrace(const char* class_and_method_name); ~ScopedTrace(); private: const char* const class_and_method_name_; }; } // namespace proxy_internal template class ReturnType { public: template void Invoke(C* c, M m, Args&&... args) { r_ = (c->*m)(std::forward(args)...); } R moved_result() { return std::move(r_); } private: R r_; }; template <> class ReturnType { public: template void Invoke(C* c, M m, Args&&... args) { (c->*m)(std::forward(args)...); } void moved_result() {} }; template class MethodCall : public QueuedTask { 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)...)) {} R Marshal(const rtc::Location& posted_from, rtc::Thread* t) { if (t->IsCurrent()) { Invoke(std::index_sequence_for()); } else { t->PostTask(std::unique_ptr(this)); event_.Wait(rtc::Event::kForever); } return r_.moved_result(); } private: bool Run() override { Invoke(std::index_sequence_for()); event_.Set(); return false; } template void Invoke(std::index_sequence) { r_.Invoke(c_, m_, std::move(std::get(args_))...); } C* c_; Method m_; ReturnType r_; std::tuple args_; rtc::Event event_; }; template class ConstMethodCall : public QueuedTask { 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)...)) {} R Marshal(const rtc::Location& posted_from, rtc::Thread* t) { if (t->IsCurrent()) { Invoke(std::index_sequence_for()); } else { t->PostTask(std::unique_ptr(this)); event_.Wait(rtc::Event::kForever); } return r_.moved_result(); } private: bool Run() override { Invoke(std::index_sequence_for()); event_.Set(); return false; } template void Invoke(std::index_sequence) { r_.Invoke(c_, m_, std::move(std::get(args_))...); } const C* c_; Method m_; ReturnType r_; std::tuple args_; rtc::Event event_; }; #define PROXY_STRINGIZE_IMPL(x) #x #define PROXY_STRINGIZE(x) PROXY_STRINGIZE_IMPL(x) // Helper macros to reduce code duplication. #define PROXY_MAP_BOILERPLATE(c) \ template \ class c##ProxyWithInternal; \ typedef c##ProxyWithInternal c##Proxy; \ template \ class c##ProxyWithInternal : public c##Interface { \ protected: \ static constexpr char proxy_name_[] = #c "Proxy"; \ 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(c) \ }; \ template \ constexpr char c##ProxyWithInternal::proxy_name_[]; // clang-format on #define PRIMARY_PROXY_MAP_BOILERPLATE(c) \ protected: \ c##ProxyWithInternal(rtc::Thread* primary_thread, INTERNAL_CLASS* c) \ : primary_thread_(primary_thread), c_(c) {} \ \ private: \ mutable rtc::Thread* primary_thread_; #define SECONDARY_PROXY_MAP_BOILERPLATE(c) \ protected: \ c##ProxyWithInternal(rtc::Thread* primary_thread, \ rtc::Thread* secondary_thread, INTERNAL_CLASS* c) \ : primary_thread_(primary_thread), \ secondary_thread_(secondary_thread), \ c_(c) {} \ \ private: \ mutable rtc::Thread* primary_thread_; \ mutable rtc::Thread* secondary_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 call( \ this, &c##ProxyWithInternal::DestroyInternal); \ call.Marshal(RTC_FROM_HERE, destructor_thread()); \ } \ \ private: \ void DestroyInternal() { c_ = nullptr; } \ rtc::scoped_refptr 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 call( \ this, &c##ProxyWithInternal::DestroyInternal); \ call.Marshal(RTC_FROM_HERE, destructor_thread()); \ } \ \ private: \ void DestroyInternal() { delete c_; } \ INTERNAL_CLASS* c_; #define BEGIN_PRIMARY_PROXY_MAP(c) \ PROXY_MAP_BOILERPLATE(c) \ PRIMARY_PROXY_MAP_BOILERPLATE(c) \ REFCOUNTED_PROXY_MAP_BOILERPLATE(c) \ public: \ static rtc::scoped_refptr Create( \ rtc::Thread* primary_thread, INTERNAL_CLASS* c) { \ return rtc::make_ref_counted(primary_thread, c); \ } #define BEGIN_PROXY_MAP(c) \ PROXY_MAP_BOILERPLATE(c) \ SECONDARY_PROXY_MAP_BOILERPLATE(c) \ REFCOUNTED_PROXY_MAP_BOILERPLATE(c) \ public: \ static rtc::scoped_refptr Create( \ rtc::Thread* primary_thread, rtc::Thread* secondary_thread, \ INTERNAL_CLASS* c) { \ return rtc::make_ref_counted(primary_thread, \ secondary_thread, c); \ } #define BEGIN_OWNED_PROXY_MAP(c) \ PROXY_MAP_BOILERPLATE(c) \ SECONDARY_PROXY_MAP_BOILERPLATE(c) \ OWNED_PROXY_MAP_BOILERPLATE(c) \ public: \ static std::unique_ptr Create( \ rtc::Thread* primary_thread, rtc::Thread* secondary_thread, \ std::unique_ptr c) { \ return std::unique_ptr(new c##ProxyWithInternal( \ primary_thread, secondary_thread, c.release())); \ } #define PROXY_PRIMARY_THREAD_DESTRUCTOR() \ private: \ rtc::Thread* destructor_thread() const { return primary_thread_; } \ \ public: // NOLINTNEXTLINE #define PROXY_SECONDARY_THREAD_DESTRUCTOR() \ private: \ rtc::Thread* destructor_thread() const { return secondary_thread_; } \ \ public: // NOLINTNEXTLINE #if defined(RTC_DISABLE_PROXY_TRACE_EVENTS) #define TRACE_BOILERPLATE(method) \ do { \ } while (0) #else // if defined(RTC_DISABLE_PROXY_TRACE_EVENTS) #define TRACE_BOILERPLATE(method) \ static constexpr auto class_and_method_name = \ rtc::MakeCompileTimeString(proxy_name_) \ .Concat(rtc::MakeCompileTimeString("::")) \ .Concat(rtc::MakeCompileTimeString(#method)); \ proxy_internal::ScopedTrace scoped_trace(class_and_method_name.string) #endif // if defined(RTC_DISABLE_PROXY_TRACE_EVENTS) #define PROXY_METHOD0(r, method) \ r method() override { \ TRACE_BOILERPLATE(method); \ MethodCall call(c_, &C::method); \ return call.Marshal(RTC_FROM_HERE, primary_thread_); \ } #define PROXY_CONSTMETHOD0(r, method) \ r method() const override { \ TRACE_BOILERPLATE(method); \ ConstMethodCall call(c_, &C::method); \ return call.Marshal(RTC_FROM_HERE, primary_thread_); \ } #define PROXY_METHOD1(r, method, t1) \ r method(t1 a1) override { \ TRACE_BOILERPLATE(method); \ MethodCall call(c_, &C::method, std::move(a1)); \ return call.Marshal(RTC_FROM_HERE, primary_thread_); \ } #define PROXY_CONSTMETHOD1(r, method, t1) \ r method(t1 a1) const override { \ TRACE_BOILERPLATE(method); \ ConstMethodCall call(c_, &C::method, std::move(a1)); \ return call.Marshal(RTC_FROM_HERE, primary_thread_); \ } #define PROXY_METHOD2(r, method, t1, t2) \ r method(t1 a1, t2 a2) override { \ TRACE_BOILERPLATE(method); \ MethodCall call(c_, &C::method, std::move(a1), \ std::move(a2)); \ return call.Marshal(RTC_FROM_HERE, primary_thread_); \ } #define PROXY_METHOD3(r, method, t1, t2, t3) \ r method(t1 a1, t2 a2, t3 a3) override { \ TRACE_BOILERPLATE(method); \ MethodCall call(c_, &C::method, std::move(a1), \ std::move(a2), std::move(a3)); \ return call.Marshal(RTC_FROM_HERE, primary_thread_); \ } #define PROXY_METHOD4(r, method, t1, t2, t3, t4) \ r method(t1 a1, t2 a2, t3 a3, t4 a4) override { \ TRACE_BOILERPLATE(method); \ MethodCall call(c_, &C::method, std::move(a1), \ std::move(a2), std::move(a3), \ std::move(a4)); \ return call.Marshal(RTC_FROM_HERE, primary_thread_); \ } #define PROXY_METHOD5(r, method, t1, t2, t3, t4, t5) \ r method(t1 a1, t2 a2, t3 a3, t4 a4, t5 a5) override { \ TRACE_BOILERPLATE(method); \ MethodCall 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, primary_thread_); \ } // Define methods which should be invoked on the secondary thread. #define PROXY_SECONDARY_METHOD0(r, method) \ r method() override { \ TRACE_BOILERPLATE(method); \ MethodCall call(c_, &C::method); \ return call.Marshal(RTC_FROM_HERE, secondary_thread_); \ } #define PROXY_SECONDARY_CONSTMETHOD0(r, method) \ r method() const override { \ TRACE_BOILERPLATE(method); \ ConstMethodCall call(c_, &C::method); \ return call.Marshal(RTC_FROM_HERE, secondary_thread_); \ } #define PROXY_SECONDARY_METHOD1(r, method, t1) \ r method(t1 a1) override { \ TRACE_BOILERPLATE(method); \ MethodCall call(c_, &C::method, std::move(a1)); \ return call.Marshal(RTC_FROM_HERE, secondary_thread_); \ } #define PROXY_SECONDARY_CONSTMETHOD1(r, method, t1) \ r method(t1 a1) const override { \ TRACE_BOILERPLATE(method); \ ConstMethodCall call(c_, &C::method, std::move(a1)); \ return call.Marshal(RTC_FROM_HERE, secondary_thread_); \ } #define PROXY_SECONDARY_METHOD2(r, method, t1, t2) \ r method(t1 a1, t2 a2) override { \ TRACE_BOILERPLATE(method); \ MethodCall call(c_, &C::method, std::move(a1), \ std::move(a2)); \ return call.Marshal(RTC_FROM_HERE, secondary_thread_); \ } #define PROXY_SECONDARY_CONSTMETHOD2(r, method, t1, t2) \ r method(t1 a1, t2 a2) const override { \ TRACE_BOILERPLATE(method); \ ConstMethodCall call(c_, &C::method, std::move(a1), \ std::move(a2)); \ return call.Marshal(RTC_FROM_HERE, secondary_thread_); \ } #define PROXY_SECONDARY_METHOD3(r, method, t1, t2, t3) \ r method(t1 a1, t2 a2, t3 a3) override { \ TRACE_BOILERPLATE(method); \ MethodCall call(c_, &C::method, std::move(a1), \ std::move(a2), std::move(a3)); \ return call.Marshal(RTC_FROM_HERE, secondary_thread_); \ } #define PROXY_SECONDARY_CONSTMETHOD3(r, method, t1, t2) \ r method(t1 a1, t2 a2, t3 a3) const override { \ TRACE_BOILERPLATE(method); \ ConstMethodCall call(c_, &C::method, std::move(a1), \ std::move(a2), std::move(a3)); \ return call.Marshal(RTC_FROM_HERE, secondary_thread_); \ } // For use when returning purely const state (set during construction). // Use with caution. This method should only be used when the return value will // always be the same. #define BYPASS_PROXY_CONSTMETHOD0(r, method) \ r method() const override { \ TRACE_BOILERPLATE(method); \ return c_->method(); \ } } // namespace webrtc #endif // PC_PROXY_H_