rtc_base/thread.h - mirrors/cros/chromiumos/third_party/webrtc-apm - Git at Google

 /*
  *  Copyright 2004 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_THREAD_H_
 #define RTC_BASE_THREAD_H_

 #include <stdint.h>
 #include <list>
 #include <memory>
 #include <string>
 #include <type_traits>

 #if defined(WEBRTC_POSIX)
 #include <pthread.h>
 #endif
 #include "rtc_base/constructor_magic.h"
 #include "rtc_base/location.h"
 #include "rtc_base/message_handler.h"
 #include "rtc_base/message_queue.h"
 #include "rtc_base/platform_thread_types.h"
 #include "rtc_base/socket_server.h"
 #include "rtc_base/thread_annotations.h"

 #if defined(WEBRTC_WIN)
 #include "rtc_base/win32.h"
 #endif

 namespace rtc {

 class Thread;

 namespace rtc_thread_internal {

 template <class FunctorT>
 class SingleMessageHandlerWithFunctor final : public MessageHandler {
  public:
   explicit SingleMessageHandlerWithFunctor(FunctorT&& functor)
       : functor_(std::forward<FunctorT>(functor)) {}

   void OnMessage(Message* msg) override {
     functor_();
     delete this;
   }

  private:
   ~SingleMessageHandlerWithFunctor() override {}

   typename std::remove_reference<FunctorT>::type functor_;

   RTC_DISALLOW_COPY_AND_ASSIGN(SingleMessageHandlerWithFunctor);
 };

 }  // namespace rtc_thread_internal

 class ThreadManager {
  public:
   static const int kForever = -1;

   // Singleton, constructor and destructor are private.
   static ThreadManager* Instance();

   Thread* CurrentThread();
   void SetCurrentThread(Thread* thread);

   // Returns a thread object with its thread_ ivar set
   // to whatever the OS uses to represent the thread.
   // If there already *is* a Thread object corresponding to this thread,
   // this method will return that.  Otherwise it creates a new Thread
   // object whose wrapped() method will return true, and whose
   // handle will, on Win32, be opened with only synchronization privileges -
   // if you need more privilegs, rather than changing this method, please
   // write additional code to adjust the privileges, or call a different
   // factory method of your own devising, because this one gets used in
   // unexpected contexts (like inside browser plugins) and it would be a
   // shame to break it.  It is also conceivable on Win32 that we won't even
   // be able to get synchronization privileges, in which case the result
   // will have a null handle.
   Thread* WrapCurrentThread();
   void UnwrapCurrentThread();

   bool IsMainThread();

  private:
   ThreadManager();
   ~ThreadManager();

 #if defined(WEBRTC_POSIX)
   pthread_key_t key_;
 #endif

 #if defined(WEBRTC_WIN)
   const DWORD key_;
 #endif

   // The thread to potentially autowrap.
   const PlatformThreadRef main_thread_ref_;

   RTC_DISALLOW_COPY_AND_ASSIGN(ThreadManager);
 };

 struct _SendMessage {
   _SendMessage() {}
   Thread* thread;
   Message msg;
   bool* ready;
 };

 class Runnable {
  public:
   virtual ~Runnable() {}
   virtual void Run(Thread* thread) = 0;

  protected:
   Runnable() {}

  private:
   RTC_DISALLOW_COPY_AND_ASSIGN(Runnable);
 };

 // WARNING! SUBCLASSES MUST CALL Stop() IN THEIR DESTRUCTORS!  See ~Thread().

 class RTC_LOCKABLE Thread : public MessageQueue {
  public:
   // DEPRECATED.
   // The default constructor should not be used because it hides whether or
   // not a socket server will be associated with the thread. Most instances
   // of Thread do actually not need one, so please use either of the Create*
   // methods to construct an instance of Thread.
   Thread();

   explicit Thread(SocketServer* ss);
   explicit Thread(std::unique_ptr<SocketServer> ss);
   // Constructors meant for subclasses; they should call DoInit themselves and
   // pass false for |do_init|, so that DoInit is called only on the fully
   // instantiated class, which avoids a vptr data race.
   Thread(SocketServer* ss, bool do_init);
   Thread(std::unique_ptr<SocketServer> ss, bool do_init);

   // NOTE: ALL SUBCLASSES OF Thread MUST CALL Stop() IN THEIR DESTRUCTORS (or
   // guarantee Stop() is explicitly called before the subclass is destroyed).
   // This is required to avoid a data race between the destructor modifying the
   // vtable, and the Thread::PreRun calling the virtual method Run().
   ~Thread() override;

   static std::unique_ptr<Thread> CreateWithSocketServer();
   static std::unique_ptr<Thread> Create();
   static Thread* Current();

   // Used to catch performance regressions. Use this to disallow blocking calls
   // (Invoke) for a given scope.  If a synchronous call is made while this is in
   // effect, an assert will be triggered.
   // Note that this is a single threaded class.
   class ScopedDisallowBlockingCalls {
    public:
     ScopedDisallowBlockingCalls();
     ~ScopedDisallowBlockingCalls();

    private:
     Thread* const thread_;
     const bool previous_state_;
   };

   bool IsCurrent() const;

   // Sleeps the calling thread for the specified number of milliseconds, during
   // which time no processing is performed. Returns false if sleeping was
   // interrupted by a signal (POSIX only).
   static bool SleepMs(int millis);

   // Sets the thread's name, for debugging. Must be called before Start().
   // If |obj| is non-null, its value is appended to |name|.
   const std::string& name() const { return name_; }
   bool SetName(const std::string& name, const void* obj);

   // Starts the execution of the thread.
   bool Start(Runnable* runnable = nullptr);

   // Tells the thread to stop and waits until it is joined.
   // Never call Stop on the current thread.  Instead use the inherited Quit
   // function which will exit the base MessageQueue without terminating the
   // underlying OS thread.
   virtual void Stop();

   // By default, Thread::Run() calls ProcessMessages(kForever).  To do other
   // work, override Run().  To receive and dispatch messages, call
   // ProcessMessages occasionally.
   virtual void Run();

   virtual void Send(const Location& posted_from,
                     MessageHandler* phandler,
                     uint32_t id = 0,
                     MessageData* pdata = nullptr);

   // Convenience method to invoke a functor on another thread.  Caller must
   // provide the |ReturnT| template argument, which cannot (easily) be deduced.
   // Uses Send() internally, which blocks the current thread until execution
   // is complete.
   // Ex: bool result = thread.Invoke<bool>(RTC_FROM_HERE,
   // &MyFunctionReturningBool);
   // NOTE: This function can only be called when synchronous calls are allowed.
   // See ScopedDisallowBlockingCalls for details.
   // NOTE: Blocking invokes are DISCOURAGED, consider if what you're doing can
   // be achieved with PostTask() and callbacks instead.
   template <class ReturnT, class FunctorT>
   ReturnT Invoke(const Location& posted_from, FunctorT&& functor) {
     FunctorMessageHandler<ReturnT, FunctorT> handler(
         std::forward<FunctorT>(functor));
     InvokeInternal(posted_from, &handler);
     return handler.MoveResult();
   }

   // Posts a task to invoke the functor on |this| thread asynchronously, i.e.
   // without blocking the thread that invoked PostTask(). Ownership of |functor|
   // is passed and destroyed on |this| thread after it is invoked.
   // Requirements of FunctorT:
   // - FunctorT is movable.
   // - FunctorT implements "T operator()()" or "T operator()() const" for some T
   //   (if T is not void, the return value is discarded on |this| thread).
   // - FunctorT has a public destructor that can be invoked from |this| thread
   //   after operation() has been invoked.
   // - The functor must not cause the thread to quit before PostTask() is done.
   //
   // Example - Calling a class method:
   // class Foo {
   //  public:
   //   void DoTheThing();
   // };
   // Foo foo;
   // thread->PostTask(RTC_FROM_HERE, Bind(&Foo::DoTheThing, &foo));
   //
   // Example - Calling a lambda function:
   // thread->PostTask(RTC_FROM_HERE,
   //                  [&x, &y] { x.TrackComputations(y.Compute()); });
   template <class FunctorT>
   void PostTask(const Location& posted_from, FunctorT&& functor) {
     Post(posted_from,
          new rtc_thread_internal::SingleMessageHandlerWithFunctor<FunctorT>(
              std::forward<FunctorT>(functor)));
     // This DCHECK guarantees that the post was successful.
     // Post() doesn't say whether it succeeded, but it will only fail if the
     // thread is quitting. DCHECKing that the thread is not quitting *after*
     // posting might yield some false positives (where the thread did in fact
     // quit, but only after posting), but if we have false positives here then
     // we have a race condition anyway.
     // TODO(https://crbug.com/webrtc/10364): When Post() returns a bool we can
     // DCHECK the result instead of inferring success from IsQuitting().
     RTC_DCHECK(!IsQuitting());
   }

   // From MessageQueue
   bool IsProcessingMessagesForTesting() override;
   void Clear(MessageHandler* phandler,
              uint32_t id = MQID_ANY,
              MessageList* removed = nullptr) override;
   void ReceiveSends() override;

   // ProcessMessages will process I/O and dispatch messages until:
   //  1) cms milliseconds have elapsed (returns true)
   //  2) Stop() is called (returns false)
   bool ProcessMessages(int cms);

   // Returns true if this is a thread that we created using the standard
   // constructor, false if it was created by a call to
   // ThreadManager::WrapCurrentThread().  The main thread of an application
   // is generally not owned, since the OS representation of the thread
   // obviously exists before we can get to it.
   // You cannot call Start on non-owned threads.
   bool IsOwned();

   // Expose private method IsRunning() for tests.
   //
   // DANGER: this is a terrible public API.  Most callers that might want to
   // call this likely do not have enough control/knowledge of the Thread in
   // question to guarantee that the returned value remains true for the duration
   // of whatever code is conditionally executing because of the return value!
   bool RunningForTest() { return IsRunning(); }

   // These functions are public to avoid injecting test hooks. Don't call them
   // outside of tests.
   // This method should be called when thread is created using non standard
   // method, like derived implementation of rtc::Thread and it can not be
   // started by calling Start(). This will set started flag to true and
   // owned to false. This must be called from the current thread.
   bool WrapCurrent();
   void UnwrapCurrent();

   // Sets the per-thread allow-blocking-calls flag to false; this is
   // irrevocable. Must be called on this thread.
   void DisallowBlockingCalls() { SetAllowBlockingCalls(false); }

 #ifdef WEBRTC_ANDROID
   // Sets the per-thread allow-blocking-calls flag to true, sidestepping the
   // invariants upheld by DisallowBlockingCalls() and
   // ScopedDisallowBlockingCalls. Must be called on this thread.
   void DEPRECATED_AllowBlockingCalls() { SetAllowBlockingCalls(true); }
 #endif

  protected:
   // Same as WrapCurrent except that it never fails as it does not try to
   // acquire the synchronization access of the thread. The caller should never
   // call Stop() or Join() on this thread.
   void SafeWrapCurrent();

   // Blocks the calling thread until this thread has terminated.
   void Join();

   static void AssertBlockingIsAllowedOnCurrentThread();

   friend class ScopedDisallowBlockingCalls;

  private:
   struct ThreadInit {
     Thread* thread;
     Runnable* runnable;
   };

   // Sets the per-thread allow-blocking-calls flag and returns the previous
   // value. Must be called on this thread.
   bool SetAllowBlockingCalls(bool allow);

 #if defined(WEBRTC_WIN)
   static DWORD WINAPI PreRun(LPVOID context);
 #else
   static void* PreRun(void* pv);
 #endif

   // ThreadManager calls this instead WrapCurrent() because
   // ThreadManager::Instance() cannot be used while ThreadManager is
   // being created.
   // The method tries to get synchronization rights of the thread on Windows if
   // |need_synchronize_access| is true.
   bool WrapCurrentWithThreadManager(ThreadManager* thread_manager,
                                     bool need_synchronize_access);

   // Return true if the thread is currently running.
   bool IsRunning();

   // Processes received "Send" requests. If |source| is not null, only requests
   // from |source| are processed, otherwise, all requests are processed.
   void ReceiveSendsFromThread(const Thread* source);

   // If |source| is not null, pops the first "Send" message from |source| in
   // |sendlist_|, otherwise, pops the first "Send" message of |sendlist_|.
   // The caller must lock |crit_| before calling.
   // Returns true if there is such a message.
   bool PopSendMessageFromThread(const Thread* source, _SendMessage* msg);

   void InvokeInternal(const Location& posted_from, MessageHandler* handler);

   std::list<_SendMessage> sendlist_;
   std::string name_;

 // TODO(tommi): Add thread checks for proper use of control methods.
 // Ideally we should be able to just use PlatformThread.

 #if defined(WEBRTC_POSIX)
   pthread_t thread_ = 0;
 #endif

 #if defined(WEBRTC_WIN)
   HANDLE thread_ = nullptr;
   DWORD thread_id_ = 0;
 #endif

   // Indicates whether or not ownership of the worker thread lies with
   // this instance or not. (i.e. owned_ == !wrapped).
   // Must only be modified when the worker thread is not running.
   bool owned_ = true;

   // Only touched from the worker thread itself.
   bool blocking_calls_allowed_ = true;

   friend class ThreadManager;

   RTC_DISALLOW_COPY_AND_ASSIGN(Thread);
 };

 // AutoThread automatically installs itself at construction
 // uninstalls at destruction, if a Thread object is
 // _not already_ associated with the current OS thread.

 class AutoThread : public Thread {
  public:
   AutoThread();
   ~AutoThread() override;

  private:
   RTC_DISALLOW_COPY_AND_ASSIGN(AutoThread);
 };

 // AutoSocketServerThread automatically installs itself at
 // construction and uninstalls at destruction. If a Thread object is
 // already associated with the current OS thread, it is temporarily
 // disassociated and restored by the destructor.

 class AutoSocketServerThread : public Thread {
  public:
   explicit AutoSocketServerThread(SocketServer* ss);
   ~AutoSocketServerThread() override;

  private:
   rtc::Thread* old_thread_;

   RTC_DISALLOW_COPY_AND_ASSIGN(AutoSocketServerThread);
 };

 }  // namespace rtc

 #endif  // RTC_BASE_THREAD_H_
	/*
	* Copyright 2004 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_THREAD_H_
	#define RTC_BASE_THREAD_H_

	#include <stdint.h>
	#include <list>
	#include <memory>
	#include <string>
	#include <type_traits>

	#if defined(WEBRTC_POSIX)
	#include <pthread.h>
	#endif
	#include "rtc_base/constructor_magic.h"
	#include "rtc_base/location.h"
	#include "rtc_base/message_handler.h"
	#include "rtc_base/message_queue.h"
	#include "rtc_base/platform_thread_types.h"
	#include "rtc_base/socket_server.h"
	#include "rtc_base/thread_annotations.h"

	#if defined(WEBRTC_WIN)
	#include "rtc_base/win32.h"
	#endif

	namespace rtc {

	class Thread;

	namespace rtc_thread_internal {

	template <class FunctorT>
	class SingleMessageHandlerWithFunctor final : public MessageHandler {
	public:
	explicit SingleMessageHandlerWithFunctor(FunctorT&& functor)
	: functor_(std::forward<FunctorT>(functor)) {}

	void OnMessage(Message* msg) override {
	functor_();
	delete this;
	}

	private:
	~SingleMessageHandlerWithFunctor() override {}

	typename std::remove_reference<FunctorT>::type functor_;

	RTC_DISALLOW_COPY_AND_ASSIGN(SingleMessageHandlerWithFunctor);
	};

	} // namespace rtc_thread_internal

	class ThreadManager {
	public:
	static const int kForever = -1;

	// Singleton, constructor and destructor are private.
	static ThreadManager* Instance();

	Thread* CurrentThread();
	void SetCurrentThread(Thread* thread);

	// Returns a thread object with its thread_ ivar set
	// to whatever the OS uses to represent the thread.
	// If there already is a Thread object corresponding to this thread,
	// this method will return that. Otherwise it creates a new Thread
	// object whose wrapped() method will return true, and whose
	// handle will, on Win32, be opened with only synchronization privileges -
	// if you need more privilegs, rather than changing this method, please
	// write additional code to adjust the privileges, or call a different
	// factory method of your own devising, because this one gets used in
	// unexpected contexts (like inside browser plugins) and it would be a
	// shame to break it. It is also conceivable on Win32 that we won't even
	// be able to get synchronization privileges, in which case the result
	// will have a null handle.
	Thread* WrapCurrentThread();
	void UnwrapCurrentThread();

	bool IsMainThread();

	private:
	ThreadManager();
	~ThreadManager();

	#if defined(WEBRTC_POSIX)
	pthread_key_t key_;
	#endif

	#if defined(WEBRTC_WIN)
	const DWORD key_;
	#endif

	// The thread to potentially autowrap.
	const PlatformThreadRef main_thread_ref_;

	RTC_DISALLOW_COPY_AND_ASSIGN(ThreadManager);
	};

	struct _SendMessage {
	_SendMessage() {}
	Thread* thread;
	Message msg;
	bool* ready;
	};

	class Runnable {
	public:
	virtual ~Runnable() {}
	virtual void Run(Thread* thread) = 0;

	protected:
	Runnable() {}

	private:
	RTC_DISALLOW_COPY_AND_ASSIGN(Runnable);
	};

	// WARNING! SUBCLASSES MUST CALL Stop() IN THEIR DESTRUCTORS! See ~Thread().

	class RTC_LOCKABLE Thread : public MessageQueue {
	public:
	// DEPRECATED.
	// The default constructor should not be used because it hides whether or
	// not a socket server will be associated with the thread. Most instances
	// of Thread do actually not need one, so please use either of the Create*
	// methods to construct an instance of Thread.
	Thread();

	explicit Thread(SocketServer* ss);
	explicit Thread(std::unique_ptr<SocketServer> ss);
	// Constructors meant for subclasses; they should call DoInit themselves and
	// pass false for \|do_init\|, so that DoInit is called only on the fully
	// instantiated class, which avoids a vptr data race.
	Thread(SocketServer* ss, bool do_init);
	Thread(std::unique_ptr<SocketServer> ss, bool do_init);

	// NOTE: ALL SUBCLASSES OF Thread MUST CALL Stop() IN THEIR DESTRUCTORS (or
	// guarantee Stop() is explicitly called before the subclass is destroyed).
	// This is required to avoid a data race between the destructor modifying the
	// vtable, and the Thread::PreRun calling the virtual method Run().
	~Thread() override;

	static std::unique_ptr<Thread> CreateWithSocketServer();
	static std::unique_ptr<Thread> Create();
	static Thread* Current();

	// Used to catch performance regressions. Use this to disallow blocking calls
	// (Invoke) for a given scope. If a synchronous call is made while this is in
	// effect, an assert will be triggered.
	// Note that this is a single threaded class.
	class ScopedDisallowBlockingCalls {
	public:
	ScopedDisallowBlockingCalls();
	~ScopedDisallowBlockingCalls();

	private:
	Thread* const thread_;
	const bool previous_state_;
	};

	bool IsCurrent() const;

	// Sleeps the calling thread for the specified number of milliseconds, during
	// which time no processing is performed. Returns false if sleeping was
	// interrupted by a signal (POSIX only).
	static bool SleepMs(int millis);

	// Sets the thread's name, for debugging. Must be called before Start().
	// If \|obj\| is non-null, its value is appended to \|name\|.
	const std::string& name() const { return name_; }
	bool SetName(const std::string& name, const void* obj);

	// Starts the execution of the thread.
	bool Start(Runnable* runnable = nullptr);

	// Tells the thread to stop and waits until it is joined.
	// Never call Stop on the current thread. Instead use the inherited Quit
	// function which will exit the base MessageQueue without terminating the
	// underlying OS thread.
	virtual void Stop();

	// By default, Thread::Run() calls ProcessMessages(kForever). To do other
	// work, override Run(). To receive and dispatch messages, call
	// ProcessMessages occasionally.
	virtual void Run();

	virtual void Send(const Location& posted_from,
	MessageHandler* phandler,
	uint32_t id = 0,
	MessageData* pdata = nullptr);

	// Convenience method to invoke a functor on another thread. Caller must
	// provide the \|ReturnT\| template argument, which cannot (easily) be deduced.
	// Uses Send() internally, which blocks the current thread until execution
	// is complete.
	// Ex: bool result = thread.Invoke<bool>(RTC_FROM_HERE,
	// &MyFunctionReturningBool);
	// NOTE: This function can only be called when synchronous calls are allowed.
	// See ScopedDisallowBlockingCalls for details.
	// NOTE: Blocking invokes are DISCOURAGED, consider if what you're doing can
	// be achieved with PostTask() and callbacks instead.
	template <class ReturnT, class FunctorT>
	ReturnT Invoke(const Location& posted_from, FunctorT&& functor) {
	FunctorMessageHandler<ReturnT, FunctorT> handler(
	std::forward<FunctorT>(functor));
	InvokeInternal(posted_from, &handler);
	return handler.MoveResult();
	}

	// Posts a task to invoke the functor on \|this\| thread asynchronously, i.e.
	// without blocking the thread that invoked PostTask(). Ownership of \|functor\|
	// is passed and destroyed on \|this\| thread after it is invoked.
	// Requirements of FunctorT:
	// - FunctorT is movable.
	// - FunctorT implements "T operator()()" or "T operator()() const" for some T
	// (if T is not void, the return value is discarded on \|this\| thread).
	// - FunctorT has a public destructor that can be invoked from \|this\| thread
	// after operation() has been invoked.
	// - The functor must not cause the thread to quit before PostTask() is done.
	//
	// Example - Calling a class method:
	// class Foo {
	// public:
	// void DoTheThing();
	// };
	// Foo foo;
	// thread->PostTask(RTC_FROM_HERE, Bind(&Foo::DoTheThing, &foo));
	//
	// Example - Calling a lambda function:
	// thread->PostTask(RTC_FROM_HERE,
	// [&x, &y] { x.TrackComputations(y.Compute()); });
	template <class FunctorT>
	void PostTask(const Location& posted_from, FunctorT&& functor) {
	Post(posted_from,
	new rtc_thread_internal::SingleMessageHandlerWithFunctor<FunctorT>(
	std::forward<FunctorT>(functor)));
	// This DCHECK guarantees that the post was successful.
	// Post() doesn't say whether it succeeded, but it will only fail if the
	// thread is quitting. DCHECKing that the thread is not quitting after
	// posting might yield some false positives (where the thread did in fact
	// quit, but only after posting), but if we have false positives here then
	// we have a race condition anyway.
	// TODO(https://crbug.com/webrtc/10364): When Post() returns a bool we can
	// DCHECK the result instead of inferring success from IsQuitting().
	RTC_DCHECK(!IsQuitting());
	}

	// From MessageQueue
	bool IsProcessingMessagesForTesting() override;
	void Clear(MessageHandler* phandler,
	uint32_t id = MQID_ANY,
	MessageList* removed = nullptr) override;
	void ReceiveSends() override;

	// ProcessMessages will process I/O and dispatch messages until:
	// 1) cms milliseconds have elapsed (returns true)
	// 2) Stop() is called (returns false)
	bool ProcessMessages(int cms);

	// Returns true if this is a thread that we created using the standard
	// constructor, false if it was created by a call to
	// ThreadManager::WrapCurrentThread(). The main thread of an application
	// is generally not owned, since the OS representation of the thread
	// obviously exists before we can get to it.
	// You cannot call Start on non-owned threads.
	bool IsOwned();

	// Expose private method IsRunning() for tests.
	//
	// DANGER: this is a terrible public API. Most callers that might want to
	// call this likely do not have enough control/knowledge of the Thread in
	// question to guarantee that the returned value remains true for the duration
	// of whatever code is conditionally executing because of the return value!
	bool RunningForTest() { return IsRunning(); }

	// These functions are public to avoid injecting test hooks. Don't call them
	// outside of tests.
	// This method should be called when thread is created using non standard
	// method, like derived implementation of rtc::Thread and it can not be
	// started by calling Start(). This will set started flag to true and
	// owned to false. This must be called from the current thread.
	bool WrapCurrent();
	void UnwrapCurrent();

	// Sets the per-thread allow-blocking-calls flag to false; this is
	// irrevocable. Must be called on this thread.
	void DisallowBlockingCalls() { SetAllowBlockingCalls(false); }

	#ifdef WEBRTC_ANDROID
	// Sets the per-thread allow-blocking-calls flag to true, sidestepping the
	// invariants upheld by DisallowBlockingCalls() and
	// ScopedDisallowBlockingCalls. Must be called on this thread.
	void DEPRECATED_AllowBlockingCalls() { SetAllowBlockingCalls(true); }
	#endif

	protected:
	// Same as WrapCurrent except that it never fails as it does not try to
	// acquire the synchronization access of the thread. The caller should never
	// call Stop() or Join() on this thread.
	void SafeWrapCurrent();

	// Blocks the calling thread until this thread has terminated.
	void Join();

	static void AssertBlockingIsAllowedOnCurrentThread();

	friend class ScopedDisallowBlockingCalls;

	private:
	struct ThreadInit {
	Thread* thread;
	Runnable* runnable;
	};

	// Sets the per-thread allow-blocking-calls flag and returns the previous
	// value. Must be called on this thread.
	bool SetAllowBlockingCalls(bool allow);

	#if defined(WEBRTC_WIN)
	static DWORD WINAPI PreRun(LPVOID context);
	#else
	static void* PreRun(void* pv);
	#endif

	// ThreadManager calls this instead WrapCurrent() because
	// ThreadManager::Instance() cannot be used while ThreadManager is
	// being created.
	// The method tries to get synchronization rights of the thread on Windows if
	// \|need_synchronize_access\| is true.
	bool WrapCurrentWithThreadManager(ThreadManager* thread_manager,
	bool need_synchronize_access);

	// Return true if the thread is currently running.
	bool IsRunning();

	// Processes received "Send" requests. If \|source\| is not null, only requests
	// from \|source\| are processed, otherwise, all requests are processed.
	void ReceiveSendsFromThread(const Thread* source);

	// If \|source\| is not null, pops the first "Send" message from \|source\| in
	// \|sendlist_\|, otherwise, pops the first "Send" message of \|sendlist_\|.
	// The caller must lock \|crit_\| before calling.
	// Returns true if there is such a message.
	bool PopSendMessageFromThread(const Thread* source, _SendMessage* msg);

	void InvokeInternal(const Location& posted_from, MessageHandler* handler);

	std::list<_SendMessage> sendlist_;
	std::string name_;

	// TODO(tommi): Add thread checks for proper use of control methods.
	// Ideally we should be able to just use PlatformThread.

	#if defined(WEBRTC_POSIX)
	pthread_t thread_ = 0;
	#endif

	#if defined(WEBRTC_WIN)
	HANDLE thread_ = nullptr;
	DWORD thread_id_ = 0;
	#endif

	// Indicates whether or not ownership of the worker thread lies with
	// this instance or not. (i.e. owned_ == !wrapped).
	// Must only be modified when the worker thread is not running.
	bool owned_ = true;

	// Only touched from the worker thread itself.
	bool blocking_calls_allowed_ = true;

	friend class ThreadManager;

	RTC_DISALLOW_COPY_AND_ASSIGN(Thread);
	};

	// AutoThread automatically installs itself at construction
	// uninstalls at destruction, if a Thread object is
	// _not already_ associated with the current OS thread.

	class AutoThread : public Thread {
	public:
	AutoThread();
	~AutoThread() override;

	private:
	RTC_DISALLOW_COPY_AND_ASSIGN(AutoThread);
	};

	// AutoSocketServerThread automatically installs itself at
	// construction and uninstalls at destruction. If a Thread object is
	// already associated with the current OS thread, it is temporarily
	// disassociated and restored by the destructor.

	class AutoSocketServerThread : public Thread {
	public:
	explicit AutoSocketServerThread(SocketServer* ss);
	~AutoSocketServerThread() override;

	private:
	rtc::Thread* old_thread_;

	RTC_DISALLOW_COPY_AND_ASSIGN(AutoSocketServerThread);
	};

	} // namespace rtc

	#endif // RTC_BASE_THREAD_H_