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webrtc_m130/pc/proxy.h
Tommi f9e13f8813 Reland "[DataChannel] Send and receive packets on the network thread." 
This reverts commit 7f16fcda0fd5bb625584b71311dd37b54c096136.

Reason for reland: Re-landing after addressing issues in downstream
code and hardening the ObserverAdapter from situations where attempted
usage of data channel proxies could occur after shutting down the
peer connection and terminating the network thread.

Original change's description:
> Revert "[DataChannel] Send and receive packets on the network thread."
>
> This reverts commit fe53fec24e02d2d644220f913c3f9ae596bbb2d9.
>
> Reason for revert: Speculative revert, may be breaking downstream project
>
> Original change's description:
> > [DataChannel] Send and receive packets on the network thread.
> >
> > This updates sctp channels, including work that happens between the
> > data channel controller and the transport, to run on the network
> > thread. Previously all network traffic related to data channels was
> > routed through the signaling thread before going to either the network
> > thread or the caller's thread (e.g. js thread in chrome). Now the
> > calls can go straight from the network thread to the JS thread with
> > enabling a special flag on the observer (see below) and similarly
> > calls to send data, involve 2 threads instead of 3.
> >
> > * Custom data channel observer adapter implementation that
> >   maintains compatibility with existing observer implementations in
> >   that notifications are delivered on the signaling thread.
> >   The adapter can be explicitly disabled for implementations that
> >   want to optimize the callback path and promise to not block the
> >   network thread.
> > * Remove the signaling thread copy of data channels in the controller.
> > * Remove several PostTask operations that were needed to keep things
> >   in sync (but the need has gone away).
> > * Update tests for the controller to consistently call
> >   TeardownDataChannelTransport_n to match with production.
> > * Update stats collectors (current and legacy) to fetch the data
> >   channel stats on the network thread where they're maintained.
> > * Remove the AsyncChannelCloseTeardown test since the async teardown
> >   step has gone away.
> > * Remove `sid_s` in the channel code since we only need the network
> >   state now.
> > * For the custom observer support (with and without data adapter) and
> >   maintain compatibility with existing implementations, added a new
> >   proxy macro that allows an implementation to selectively provide
> >   its own implementation without being proxied. This is used for
> >   registering/unregistering a data channel observer.
> > * Update the data channel proxy to map most methods to the network
> >   thread, avoiding the interim jump to the signaling thread.
> > * Update a plethora of thread checkers from signaling to network.
> >
> > Bug: webrtc:11547
> > Change-Id: Ib4cff1482e31c46008e187189a79e967389bc518
> > Reviewed-on: https://webrtc-review.googlesource.com/c/src/+/299142
> > Commit-Queue: Tomas Gunnarsson <tommi@webrtc.org>
> > Reviewed-by: Henrik Boström <hbos@webrtc.org>
> > Cr-Commit-Position: refs/heads/main@{#39760}
>
> Bug: webrtc:11547
> Change-Id: Id0d65594bf727ccea5c49093c942b09714d101ad
> No-Presubmit: true
> No-Tree-Checks: true
> No-Try: true
> Reviewed-on: https://webrtc-review.googlesource.com/c/src/+/300341
> Auto-Submit: Andrey Logvin <landrey@webrtc.org>
> Owners-Override: Andrey Logvin <landrey@webrtc.org>
> Bot-Commit: rubber-stamper@appspot.gserviceaccount.com <rubber-stamper@appspot.gserviceaccount.com>
> Commit-Queue: Mirko Bonadei <mbonadei@webrtc.org>
> Reviewed-by: Mirko Bonadei <mbonadei@webrtc.org>
> Cr-Commit-Position: refs/heads/main@{#39764}

Bug: webrtc:11547
Change-Id: I47dfa7e7168be0cd2faab4f8f3ebf110c3728af5
Reviewed-on: https://webrtc-review.googlesource.com/c/src/+/300360
Commit-Queue: Tomas Gunnarsson <tommi@webrtc.org>
Reviewed-by: Henrik Boström <hbos@webrtc.org>
Cr-Commit-Position: refs/heads/main@{#39786}
2023-04-07 09:04:30 +00:00

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/*
* 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.
// 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.
//
#ifndef PC_PROXY_H_
#define PC_PROXY_H_
#include <stddef.h>
#include <memory>
#include <string>
#include <tuple>
#include <type_traits>
#include <utility>
#include "api/scoped_refptr.h"
#include "api/task_queue/task_queue_base.h"
#include "rtc_base/event.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 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:
[[maybe_unused]] const char* const class_and_method_name_;
};
} // namespace proxy_internal
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() {}
};
template <typename C, typename R, typename... Args>
class MethodCall {
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(rtc::Thread* t) {
if (t->IsCurrent()) {
Invoke(std::index_sequence_for<Args...>());
} else {
t->PostTask([this] {
Invoke(std::index_sequence_for<Args...>());
event_.Set();
});
event_.Wait(rtc::Event::kForever);
}
return r_.moved_result();
}
private:
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_;
rtc::Event event_;
};
template <typename C, typename R, typename... Args>
class ConstMethodCall {
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(rtc::Thread* t) {
if (t->IsCurrent()) {
Invoke(std::index_sequence_for<Args...>());
} else {
t->PostTask([this] {
Invoke(std::index_sequence_for<Args...>());
event_.Set();
});
event_.Wait(rtc::Event::kForever);
}
return r_.moved_result();
}
private:
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_;
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(class_name) \
template <class INTERNAL_CLASS> \
class class_name##ProxyWithInternal; \
typedef class_name##ProxyWithInternal<class_name##Interface> \
class_name##Proxy; \
template <class INTERNAL_CLASS> \
class class_name##ProxyWithInternal : public class_name##Interface { \
protected: \
static constexpr char proxy_name_[] = #class_name "Proxy"; \
typedef class_name##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(class_name) \
}; \
template <class INTERNAL_CLASS> \
constexpr char class_name##ProxyWithInternal<INTERNAL_CLASS>::proxy_name_[];
// clang-format on
#define PRIMARY_PROXY_MAP_BOILERPLATE(class_name) \
protected: \
class_name##ProxyWithInternal(rtc::Thread* primary_thread, \
rtc::scoped_refptr<INTERNAL_CLASS> c) \
: primary_thread_(primary_thread), c_(std::move(c)) {} \
\
private: \
mutable rtc::Thread* primary_thread_;
#define SECONDARY_PROXY_MAP_BOILERPLATE(class_name) \
protected: \
class_name##ProxyWithInternal(rtc::Thread* primary_thread, \
rtc::Thread* secondary_thread, \
rtc::scoped_refptr<INTERNAL_CLASS> c) \
: primary_thread_(primary_thread), \
secondary_thread_(secondary_thread), \
c_(std::move(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(class_name) \
protected: \
~class_name##ProxyWithInternal() { \
MethodCall<class_name##ProxyWithInternal, void> call( \
this, &class_name##ProxyWithInternal::DestroyInternal); \
call.Marshal(destructor_thread()); \
} \
\
private: \
const INTERNAL_CLASS* c() const { return c_.get(); } \
INTERNAL_CLASS* c() { return c_.get(); } \
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(class_name) \
public: \
~class_name##ProxyWithInternal() { \
MethodCall<class_name##ProxyWithInternal, void> call( \
this, &class_name##ProxyWithInternal::DestroyInternal); \
call.Marshal(destructor_thread()); \
} \
\
private: \
const INTERNAL_CLASS* c() const { return c_; } \
INTERNAL_CLASS* c() { return c_; } \
void DestroyInternal() { delete c_; } \
INTERNAL_CLASS* c_;
#define BEGIN_PRIMARY_PROXY_MAP(class_name) \
PROXY_MAP_BOILERPLATE(class_name) \
PRIMARY_PROXY_MAP_BOILERPLATE(class_name) \
REFCOUNTED_PROXY_MAP_BOILERPLATE(class_name) \
public: \
static rtc::scoped_refptr<class_name##ProxyWithInternal> Create( \
rtc::Thread* primary_thread, rtc::scoped_refptr<INTERNAL_CLASS> c) { \
return rtc::make_ref_counted<class_name##ProxyWithInternal>( \
primary_thread, std::move(c)); \
}
#define BEGIN_PROXY_MAP(class_name) \
PROXY_MAP_BOILERPLATE(class_name) \
SECONDARY_PROXY_MAP_BOILERPLATE(class_name) \
REFCOUNTED_PROXY_MAP_BOILERPLATE(class_name) \
public: \
static rtc::scoped_refptr<class_name##ProxyWithInternal> Create( \
rtc::Thread* primary_thread, rtc::Thread* secondary_thread, \
rtc::scoped_refptr<INTERNAL_CLASS> c) { \
return rtc::make_ref_counted<class_name##ProxyWithInternal>( \
primary_thread, secondary_thread, std::move(c)); \
}
#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<C, r> call(c(), &C::method); \
return call.Marshal(primary_thread_); \
}
#define PROXY_CONSTMETHOD0(r, method) \
r method() const override { \
TRACE_BOILERPLATE(method); \
ConstMethodCall<C, r> call(c(), &C::method); \
return call.Marshal(primary_thread_); \
}
#define PROXY_METHOD1(r, method, t1) \
r method(t1 a1) override { \
TRACE_BOILERPLATE(method); \
MethodCall<C, r, t1> call(c(), &C::method, std::move(a1)); \
return call.Marshal(primary_thread_); \
}
#define PROXY_CONSTMETHOD1(r, method, t1) \
r method(t1 a1) const override { \
TRACE_BOILERPLATE(method); \
ConstMethodCall<C, r, t1> call(c(), &C::method, std::move(a1)); \
return call.Marshal(primary_thread_); \
}
#define PROXY_METHOD2(r, method, t1, t2) \
r method(t1 a1, t2 a2) override { \
TRACE_BOILERPLATE(method); \
MethodCall<C, r, t1, t2> call(c(), &C::method, std::move(a1), \
std::move(a2)); \
return call.Marshal(primary_thread_); \
}
#define PROXY_METHOD3(r, method, t1, t2, t3) \
r method(t1 a1, t2 a2, t3 a3) override { \
TRACE_BOILERPLATE(method); \
MethodCall<C, r, t1, t2, t3> call(c(), &C::method, std::move(a1), \
std::move(a2), std::move(a3)); \
return call.Marshal(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<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(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<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(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<C, r> call(c(), &C::method); \
return call.Marshal(secondary_thread_); \
}
#define PROXY_SECONDARY_CONSTMETHOD0(r, method) \
r method() const override { \
TRACE_BOILERPLATE(method); \
ConstMethodCall<C, r> call(c(), &C::method); \
return call.Marshal(secondary_thread_); \
}
#define PROXY_SECONDARY_METHOD1(r, method, t1) \
r method(t1 a1) override { \
TRACE_BOILERPLATE(method); \
MethodCall<C, r, t1> call(c(), &C::method, std::move(a1)); \
return call.Marshal(secondary_thread_); \
}
#define PROXY_SECONDARY_CONSTMETHOD1(r, method, t1) \
r method(t1 a1) const override { \
TRACE_BOILERPLATE(method); \
ConstMethodCall<C, r, t1> call(c(), &C::method, std::move(a1)); \
return call.Marshal(secondary_thread_); \
}
#define PROXY_SECONDARY_METHOD2(r, method, t1, t2) \
r method(t1 a1, t2 a2) override { \
TRACE_BOILERPLATE(method); \
MethodCall<C, r, t1, t2> call(c(), &C::method, std::move(a1), \
std::move(a2)); \
return call.Marshal(secondary_thread_); \
}
#define PROXY_SECONDARY_CONSTMETHOD2(r, method, t1, t2) \
r method(t1 a1, t2 a2) const override { \
TRACE_BOILERPLATE(method); \
ConstMethodCall<C, r, t1, t2> call(c(), &C::method, std::move(a1), \
std::move(a2)); \
return call.Marshal(secondary_thread_); \
}
#define PROXY_SECONDARY_METHOD3(r, method, t1, t2, t3) \
r method(t1 a1, t2 a2, t3 a3) override { \
TRACE_BOILERPLATE(method); \
MethodCall<C, r, t1, t2, t3> call(c(), &C::method, std::move(a1), \
std::move(a2), std::move(a3)); \
return call.Marshal(secondary_thread_); \
}
#define PROXY_SECONDARY_CONSTMETHOD3(r, method, t1, t2) \
r method(t1 a1, t2 a2, t3 a3) const override { \
TRACE_BOILERPLATE(method); \
ConstMethodCall<C, r, t1, t2, t3> call(c(), &C::method, std::move(a1), \
std::move(a2), std::move(a3)); \
return call.Marshal(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(); \
}
// Allows a custom implementation of a method where the otherwise proxied
// implementation can do a more efficient, yet thread-safe, job than the proxy
// can do by default or when more flexibility is needed than can be provided
// by a proxy.
// Note that calls to these methods should be expected to be made from unknown
// threads.
#define BYPASS_PROXY_METHOD0(r, method) \
r method() override { \
TRACE_BOILERPLATE(method); \
return c_->method(); \
}
// The 1 argument version of `BYPASS_PROXY_METHOD0`.
#define BYPASS_PROXY_METHOD1(r, method, t1) \
r method(t1 a1) override { \
TRACE_BOILERPLATE(method); \
return c_->method(std::move(a1)); \
}
// The 2 argument version of `BYPASS_PROXY_METHOD0`.
#define BYPASS_PROXY_METHOD2(r, method, t1, t2) \
r method(t1 a1, t2 a2) override { \
TRACE_BOILERPLATE(method); \
return c_->method(std::move(a1), std::move(a2)); \
}
} // namespace webrtc
#endif // PC_PROXY_H_
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