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/*
* Copyright 2014 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.
*/
#ifndef RTC_BASE_ASYNC_INVOKER_H_
#define RTC_BASE_ASYNC_INVOKER_H_
#include <atomic>
#include <memory>
#include <utility>
#include "api/scoped_refptr.h"
#include "rtc_base/async_invoker_inl.h"
#include "rtc_base/bind.h"
#include "rtc_base/constructor_magic.h"
#include "rtc_base/event.h"
#include "rtc_base/ref_counted_object.h"
#include "rtc_base/third_party/sigslot/sigslot.h"
#include "rtc_base/thread.h"
namespace rtc {
// Invokes function objects (aka functors) asynchronously on a Thread, and
// owns the lifetime of calls (ie, when this object is destroyed, calls in
// flight are cancelled). AsyncInvoker can optionally execute a user-specified
// function when the asynchronous call is complete, or operates in
// fire-and-forget mode otherwise.
//
// AsyncInvoker does not own the thread it calls functors on.
//
// A note about async calls and object lifetimes: users should
// be mindful of object lifetimes when calling functions asynchronously and
// ensure objects used by the function _cannot_ be deleted between the
// invocation and execution of the functor. AsyncInvoker is designed to
// help: any calls in flight will be cancelled when the AsyncInvoker used to
// make the call is destructed, and any calls executing will be allowed to
// complete before AsyncInvoker destructs.
//
// The easiest way to ensure lifetimes are handled correctly is to create a
// class that owns the Thread and AsyncInvoker objects, and then call its
// methods asynchronously as needed.
//
// Example:
// class MyClass {
// public:
// void FireAsyncTaskWithResult(Thread* thread, int x) {
// // Specify a callback to get the result upon completion.
// invoker_.AsyncInvoke<int>(RTC_FROM_HERE,
// thread, Bind(&MyClass::AsyncTaskWithResult, this, x),
// &MyClass::OnTaskComplete, this);
// }
// void FireAnotherAsyncTask(Thread* thread) {
// // No callback specified means fire-and-forget.
// invoker_.AsyncInvoke<void>(RTC_FROM_HERE,
// thread, Bind(&MyClass::AnotherAsyncTask, this));
//
// private:
// int AsyncTaskWithResult(int x) {
// // Some long running process...
// return x * x;
// }
// void AnotherAsyncTask() {
// // Some other long running process...
// }
// void OnTaskComplete(int result) { result_ = result; }
//
// AsyncInvoker invoker_;
// int result_;
// };
//
// More details about threading:
// - It's safe to construct/destruct AsyncInvoker on different threads.
// - It's safe to call AsyncInvoke from different threads.
// - It's safe to call AsyncInvoke recursively from *within* a functor that's
// being AsyncInvoked.
// - However, it's *not* safe to call AsyncInvoke from *outside* a functor
// that's being AsyncInvoked while the AsyncInvoker is being destroyed on
// another thread. This is just inherently unsafe and there's no way to
// prevent that. So, the user of this class should ensure that the start of
// each "chain" of invocations is synchronized somehow with the AsyncInvoker's
// destruction. This can be done by starting each chain of invocations on the
// same thread on which it will be destroyed, or by using some other
// synchronization method.
class AsyncInvoker : public MessageHandler {
public:
AsyncInvoker();
~AsyncInvoker() override;
// Call |functor| asynchronously on |thread|, with no callback upon
// completion. Returns immediately.
template <class ReturnT, class FunctorT>
void AsyncInvoke(const Location& posted_from,
Thread* thread,
FunctorT&& functor,
uint32_t id = 0) {
std::unique_ptr<AsyncClosure> closure(
new FireAndForgetAsyncClosure<FunctorT>(
this, std::forward<FunctorT>(functor)));
DoInvoke(posted_from, thread, std::move(closure), id);
}
// Call |functor| asynchronously on |thread| with |delay_ms|, with no callback
// upon completion. Returns immediately.
template <class ReturnT, class FunctorT>
void AsyncInvokeDelayed(const Location& posted_from,
Thread* thread,
FunctorT&& functor,
uint32_t delay_ms,
uint32_t id = 0) {
std::unique_ptr<AsyncClosure> closure(
new FireAndForgetAsyncClosure<FunctorT>(
this, std::forward<FunctorT>(functor)));
DoInvokeDelayed(posted_from, thread, std::move(closure), delay_ms, id);
}
// Synchronously execute on |thread| all outstanding calls we own
// that are pending on |thread|, and wait for calls to complete
// before returning. Optionally filter by message id.
// The destructor will not wait for outstanding calls, so if that
// behavior is desired, call Flush() before destroying this object.
void Flush(Thread* thread, uint32_t id = MQID_ANY);
// Cancels any outstanding calls we own that are pending on any thread, and
// which have not yet started to execute. This does not wait for any calls
// that have already started executing to complete.
void Clear();
private:
void OnMessage(Message* msg) override;
void DoInvoke(const Location& posted_from,
Thread* thread,
std::unique_ptr<AsyncClosure> closure,
uint32_t id);
void DoInvokeDelayed(const Location& posted_from,
Thread* thread,
std::unique_ptr<AsyncClosure> closure,
uint32_t delay_ms,
uint32_t id);
// Used to keep track of how many invocations (AsyncClosures) are still
// alive, so that the destructor can wait for them to finish, as described in
// the class documentation.
//
// TODO(deadbeef): Using a raw std::atomic like this is prone to error and
// difficult to maintain. We should try to wrap this functionality in a
// separate class to reduce the chance of errors being introduced in the
// future.
std::atomic<int> pending_invocations_;
// Reference counted so that if the AsyncInvoker destructor finishes before
// an AsyncClosure's destructor that's about to call
// "invocation_complete_->Set()", it's not dereferenced after being
// destroyed.
scoped_refptr<RefCountedObject<Event>> invocation_complete_;
// This flag is used to ensure that if an application AsyncInvokes tasks that
// recursively AsyncInvoke other tasks ad infinitum, the cycle eventually
// terminates.
std::atomic<bool> destroying_;
friend class AsyncClosure;
RTC_DISALLOW_COPY_AND_ASSIGN(AsyncInvoker);
};
// Similar to AsyncInvoker, but guards against the Thread being destroyed while
// there are outstanding dangling pointers to it. It will connect to the current
// thread in the constructor, and will get notified when that thread is
// destroyed. After GuardedAsyncInvoker is constructed, it can be used from
// other threads to post functors to the thread it was constructed on. If that
// thread dies, any further calls to AsyncInvoke() will be safely ignored.
class GuardedAsyncInvoker : public sigslot::has_slots<> {
public:
GuardedAsyncInvoker();
~GuardedAsyncInvoker() override;
// Synchronously execute all outstanding calls we own, and wait for calls to
// complete before returning. Optionally filter by message id. The destructor
// will not wait for outstanding calls, so if that behavior is desired, call
// Flush() first. Returns false if the thread has died.
bool Flush(uint32_t id = MQID_ANY);
// Call |functor| asynchronously with no callback upon completion. Returns
// immediately. Returns false if the thread has died.
template <class ReturnT, class FunctorT>
bool AsyncInvoke(const Location& posted_from,
FunctorT&& functor,
uint32_t id = 0) {
CritScope cs(&crit_);
if (thread_ == nullptr)
return false;
invoker_.AsyncInvoke<ReturnT, FunctorT>(
posted_from, thread_, std::forward<FunctorT>(functor), id);
return true;
}
// Call |functor| asynchronously with |delay_ms|, with no callback upon
// completion. Returns immediately. Returns false if the thread has died.
template <class ReturnT, class FunctorT>
bool AsyncInvokeDelayed(const Location& posted_from,
FunctorT&& functor,
uint32_t delay_ms,
uint32_t id = 0) {
CritScope cs(&crit_);
if (thread_ == nullptr)
return false;
invoker_.AsyncInvokeDelayed<ReturnT, FunctorT>(
posted_from, thread_, std::forward<FunctorT>(functor), delay_ms, id);
return true;
}
// Call |functor| asynchronously, calling |callback| when done. Returns false
// if the thread has died.
template <class ReturnT, class FunctorT, class HostT>
bool AsyncInvoke(const Location& posted_from,
const Location& callback_posted_from,
FunctorT&& functor,
void (HostT::*callback)(ReturnT),
HostT* callback_host,
uint32_t id = 0) {
CritScope cs(&crit_);
if (thread_ == nullptr)
return false;
invoker_.AsyncInvoke<ReturnT, FunctorT, HostT>(
posted_from, callback_posted_from, thread_,
std::forward<FunctorT>(functor), callback, callback_host, id);
return true;
}
// Call |functor| asynchronously calling |callback| when done. Overloaded for
// void return. Returns false if the thread has died.
template <class ReturnT, class FunctorT, class HostT>
bool AsyncInvoke(const Location& posted_from,
const Location& callback_posted_from,
FunctorT&& functor,
void (HostT::*callback)(),
HostT* callback_host,
uint32_t id = 0) {
CritScope cs(&crit_);
if (thread_ == nullptr)
return false;
invoker_.AsyncInvoke<ReturnT, FunctorT, HostT>(
posted_from, callback_posted_from, thread_,
std::forward<FunctorT>(functor), callback, callback_host, id);
return true;
}
private:
// Callback when |thread_| is destroyed.
void ThreadDestroyed();
CriticalSection crit_;
Thread* thread_ RTC_GUARDED_BY(crit_);
AsyncInvoker invoker_ RTC_GUARDED_BY(crit_);
};
} // namespace rtc
#endif // RTC_BASE_ASYNC_INVOKER_H_