xcore/thread_pool.cpp - platform/external/libxcam - Git at Google

 /*
  * thread_pool.cpp - Thread Pool
  *
  *  Copyright (c) 2017 Intel Corporation
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  *
  * Author: Wind Yuan <feng.yuan@intel.com>
  */

 #include "thread_pool.h"

 #define XCAM_POOL_MIN_THREADS 2
 #define XCAM_POOL_MAX_THREADS 1024

 namespace XCam {

 class UserThread
     : public Thread
 {
 public:
     UserThread (const SmartPtr<ThreadPool> &pool, const char *name)
         : Thread (name)
         , _pool (pool)
     {}

 protected:
     virtual bool started ();
     virtual void stopped ();
     virtual bool loop ();

 private:
     SmartPtr<ThreadPool> _pool;
 };

 bool
 UserThread::started ()
 {
     XCAM_ASSERT (_pool.ptr ());
     SmartLock lock (_pool->_mutex);
     return true;
 }

 void
 UserThread::stopped ()
 {
     XCAM_LOG_DEBUG ("thread(%s, %p) stopped", XCAM_STR(get_name ()), this);
 }

 bool
 UserThread::loop ()
 {
     XCAM_ASSERT (_pool.ptr ());
     {
         SmartLock lock (_pool->_mutex);
         if (!_pool->_running)
             return false;
     }

     SmartPtr<ThreadPool::UserData> data = _pool->_data_queue.pop ();
     if (!data.ptr ()) {
         XCAM_LOG_DEBUG ("user thread(%s) get null data, need stop", XCAM_STR (_pool->get_name ()));
         return false;
     }

     {
         SmartLock lock (_pool->_mutex);
         XCAM_ASSERT (_pool->_free_threads > 0);
         --_pool->_free_threads;
     }

     bool ret = _pool->dispatch (data);

     if (ret) {
         SmartLock lock (_pool->_mutex);
         ++_pool->_free_threads;
     }
     return ret;
 }

 bool
 ThreadPool::dispatch (const SmartPtr<ThreadPool::UserData> &data)
 {
     XCAM_FAIL_RETURN (
         ERROR, data.ptr(), true,
         "ThreadPool(%s) dispatch NULL data", XCAM_STR (get_name ()));
     XCamReturn err = data->run ();
     data->done (err);
     return true;
 }

 ThreadPool::ThreadPool (const char *name)
     : _name (NULL)
     , _min_threads (XCAM_POOL_MIN_THREADS)
     , _max_threads (XCAM_POOL_MIN_THREADS)
     , _allocated_threads (0)
     , _free_threads (0)
     , _running (false)
 {
     if (name)
         _name = strndup (name, XCAM_MAX_STR_SIZE);
 }

 ThreadPool::~ThreadPool ()
 {
     stop ();

     xcam_mem_clear (_name);
 }

 bool
 ThreadPool::set_threads (uint32_t min, uint32_t max)
 {
     XCAM_FAIL_RETURN (
         ERROR, !_running, false,
         "ThreadPool(%s) set threads failed, need stop the pool first", XCAM_STR(get_name ()));

     if (min < XCAM_POOL_MIN_THREADS)
         min = XCAM_POOL_MIN_THREADS;
     if (max > XCAM_POOL_MAX_THREADS)
         max = XCAM_POOL_MAX_THREADS;

     if (min > max)
         min = max;

     _min_threads = min;
     _max_threads = max;
     return true;
 }

 bool
 ThreadPool::is_running ()
 {
     SmartLock locker(_mutex);
     return _running;
 }

 XCamReturn
 ThreadPool::start ()
 {
     SmartLock locker(_mutex);
     if (_running)
         return XCAM_RETURN_NO_ERROR;

     _free_threads = 0;
     _allocated_threads = 0;
     _data_queue.resume_pop ();

     for (uint32_t i = 0; i < _min_threads; ++i) {
         XCamReturn ret = create_user_thread_unsafe ();
         XCAM_FAIL_RETURN (
             ERROR, xcam_ret_is_ok (ret), ret,
             "thread pool(%s) start failed by creating user thread", XCAM_STR (get_name()));
     }

     XCAM_ASSERT (_allocated_threads == _min_threads);

     _running = true;
     return XCAM_RETURN_NO_ERROR;
 }

 XCamReturn
 ThreadPool::stop ()
 {
     UserThreadList threads;
     {
         SmartLock locker(_mutex);
         if (!_running)
             return XCAM_RETURN_NO_ERROR;

         _running = false;
         threads = _thread_list;
         _thread_list.clear ();
     }

     for (UserThreadList::iterator i = threads.begin (); i != threads.end (); ++i)
     {
         SmartPtr<UserThread> t = *i;
         XCAM_ASSERT (t.ptr ());
         t->emit_stop ();
     }

     _data_queue.pause_pop ();
     _data_queue.clear ();

     for (UserThreadList::iterator i = threads.begin (); i != threads.end (); ++i)
     {
         SmartPtr<UserThread> t = *i;
         XCAM_ASSERT (t.ptr ());
         t->stop ();
     }

     {
         SmartLock locker(_mutex);
         _free_threads = 0;
         _allocated_threads = 0;
     }

     return XCAM_RETURN_NO_ERROR;
 }

 XCamReturn
 ThreadPool::create_user_thread_unsafe ()
 {
     char name[256];
     snprintf (name, 255, "%s-%d", XCAM_STR (get_name()), _allocated_threads);
     SmartPtr<UserThread> thread = new UserThread (this, name);
     XCAM_ASSERT (thread.ptr ());
     XCAM_FAIL_RETURN (
         ERROR, thread.ptr () && thread->start (), XCAM_RETURN_ERROR_THREAD,
         "ThreadPool(%s) create user thread failed by starting error", XCAM_STR (get_name()));

     _thread_list.push_back (thread);

     ++_allocated_threads;
     ++_free_threads;
     XCAM_ASSERT (_free_threads <= _allocated_threads);

     return XCAM_RETURN_NO_ERROR;
 }

 XCamReturn
 ThreadPool::queue (const SmartPtr<UserData> &data)
 {
     XCAM_ASSERT (data.ptr ());
     {
         SmartLock locker (_mutex);
         if (!_running)
             return XCAM_RETURN_ERROR_THREAD;
     }

     if (!_data_queue.push (data))
         return XCAM_RETURN_ERROR_THREAD;

     do {
         SmartLock locker(_mutex);
         if (!_running) {
             _data_queue.erase (data);
             return XCAM_RETURN_ERROR_THREAD;
         }

         if (_allocated_threads >= _max_threads)
             break;

         if (!_free_threads)
             break;

         XCamReturn err = create_user_thread_unsafe ();
         if (!xcam_ret_is_ok (err) && _allocated_threads) {
             XCAM_LOG_WARNING ("thread pool(%s) create new thread failed but queue data can continue");
             break;
         }

         XCAM_FAIL_RETURN (
             ERROR, xcam_ret_is_ok (err), err,
             "thread pool(%s) queue data failed by creating user thread", XCAM_STR (get_name()));

     } while (0);

     return XCAM_RETURN_NO_ERROR;
 }

 }
	/*
	* thread_pool.cpp - Thread Pool
	*
	* Copyright (c) 2017 Intel Corporation
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*
	* Author: Wind Yuan <feng.yuan@intel.com>
	*/

	#include "thread_pool.h"

	#define XCAM_POOL_MIN_THREADS 2
	#define XCAM_POOL_MAX_THREADS 1024

	namespace XCam {

	class UserThread
	: public Thread
	{
	public:
	UserThread (const SmartPtr<ThreadPool> &pool, const char *name)
	: Thread (name)
	, _pool (pool)
	{}

	protected:
	virtual bool started ();
	virtual void stopped ();
	virtual bool loop ();

	private:
	SmartPtr<ThreadPool> _pool;
	};

	bool
	UserThread::started ()
	{
	XCAM_ASSERT (_pool.ptr ());
	SmartLock lock (_pool->_mutex);
	return true;
	}

	void
	UserThread::stopped ()
	{
	XCAM_LOG_DEBUG ("thread(%s, %p) stopped", XCAM_STR(get_name ()), this);
	}

	bool
	UserThread::loop ()
	{
	XCAM_ASSERT (_pool.ptr ());
	{
	SmartLock lock (_pool->_mutex);
	if (!_pool->_running)
	return false;
	}

	SmartPtr<ThreadPool::UserData> data = _pool->_data_queue.pop ();
	if (!data.ptr ()) {
	XCAM_LOG_DEBUG ("user thread(%s) get null data, need stop", XCAM_STR (_pool->get_name ()));
	return false;
	}

	{
	SmartLock lock (_pool->_mutex);
	XCAM_ASSERT (_pool->_free_threads > 0);
	--_pool->_free_threads;
	}

	bool ret = _pool->dispatch (data);

	if (ret) {
	SmartLock lock (_pool->_mutex);
	++_pool->_free_threads;
	}
	return ret;
	}

	bool
	ThreadPool::dispatch (const SmartPtr<ThreadPool::UserData> &data)
	{
	XCAM_FAIL_RETURN (
	ERROR, data.ptr(), true,
	"ThreadPool(%s) dispatch NULL data", XCAM_STR (get_name ()));
	XCamReturn err = data->run ();
	data->done (err);
	return true;
	}

	ThreadPool::ThreadPool (const char *name)
	: _name (NULL)
	, _min_threads (XCAM_POOL_MIN_THREADS)
	, _max_threads (XCAM_POOL_MIN_THREADS)
	, _allocated_threads (0)
	, _free_threads (0)
	, _running (false)
	{
	if (name)
	_name = strndup (name, XCAM_MAX_STR_SIZE);
	}

	ThreadPool::~ThreadPool ()
	{
	stop ();

	xcam_mem_clear (_name);
	}

	bool
	ThreadPool::set_threads (uint32_t min, uint32_t max)
	{
	XCAM_FAIL_RETURN (
	ERROR, !_running, false,
	"ThreadPool(%s) set threads failed, need stop the pool first", XCAM_STR(get_name ()));

	if (min < XCAM_POOL_MIN_THREADS)
	min = XCAM_POOL_MIN_THREADS;
	if (max > XCAM_POOL_MAX_THREADS)
	max = XCAM_POOL_MAX_THREADS;

	if (min > max)
	min = max;

	_min_threads = min;
	_max_threads = max;
	return true;
	}

	bool
	ThreadPool::is_running ()
	{
	SmartLock locker(_mutex);
	return _running;
	}

	XCamReturn
	ThreadPool::start ()
	{
	SmartLock locker(_mutex);
	if (_running)
	return XCAM_RETURN_NO_ERROR;

	_free_threads = 0;
	_allocated_threads = 0;
	_data_queue.resume_pop ();

	for (uint32_t i = 0; i < _min_threads; ++i) {
	XCamReturn ret = create_user_thread_unsafe ();
	XCAM_FAIL_RETURN (
	ERROR, xcam_ret_is_ok (ret), ret,
	"thread pool(%s) start failed by creating user thread", XCAM_STR (get_name()));
	}

	XCAM_ASSERT (_allocated_threads == _min_threads);

	_running = true;
	return XCAM_RETURN_NO_ERROR;
	}

	XCamReturn
	ThreadPool::stop ()
	{
	UserThreadList threads;
	{
	SmartLock locker(_mutex);
	if (!_running)
	return XCAM_RETURN_NO_ERROR;

	_running = false;
	threads = _thread_list;
	_thread_list.clear ();
	}

	for (UserThreadList::iterator i = threads.begin (); i != threads.end (); ++i)
	{
	SmartPtr<UserThread> t = *i;
	XCAM_ASSERT (t.ptr ());
	t->emit_stop ();
	}

	_data_queue.pause_pop ();
	_data_queue.clear ();

	for (UserThreadList::iterator i = threads.begin (); i != threads.end (); ++i)
	{
	SmartPtr<UserThread> t = *i;
	XCAM_ASSERT (t.ptr ());
	t->stop ();
	}

	{
	SmartLock locker(_mutex);
	_free_threads = 0;
	_allocated_threads = 0;
	}

	return XCAM_RETURN_NO_ERROR;
	}

	XCamReturn
	ThreadPool::create_user_thread_unsafe ()
	{
	char name[256];
	snprintf (name, 255, "%s-%d", XCAM_STR (get_name()), _allocated_threads);
	SmartPtr<UserThread> thread = new UserThread (this, name);
	XCAM_ASSERT (thread.ptr ());
	XCAM_FAIL_RETURN (
	ERROR, thread.ptr () && thread->start (), XCAM_RETURN_ERROR_THREAD,
	"ThreadPool(%s) create user thread failed by starting error", XCAM_STR (get_name()));

	_thread_list.push_back (thread);

	++_allocated_threads;
	++_free_threads;
	XCAM_ASSERT (_free_threads <= _allocated_threads);

	return XCAM_RETURN_NO_ERROR;
	}

	XCamReturn
	ThreadPool::queue (const SmartPtr<UserData> &data)
	{
	XCAM_ASSERT (data.ptr ());
	{
	SmartLock locker (_mutex);
	if (!_running)
	return XCAM_RETURN_ERROR_THREAD;
	}

	if (!_data_queue.push (data))
	return XCAM_RETURN_ERROR_THREAD;

	do {
	SmartLock locker(_mutex);
	if (!_running) {
	_data_queue.erase (data);
	return XCAM_RETURN_ERROR_THREAD;
	}

	if (_allocated_threads >= _max_threads)
	break;

	if (!_free_threads)
	break;

	XCamReturn err = create_user_thread_unsafe ();
	if (!xcam_ret_is_ok (err) && _allocated_threads) {
	XCAM_LOG_WARNING ("thread pool(%s) create new thread failed but queue data can continue");
	break;
	}

	XCAM_FAIL_RETURN (
	ERROR, xcam_ret_is_ok (err), err,
	"thread pool(%s) queue data failed by creating user thread", XCAM_STR (get_name()));

	} while (0);

	return XCAM_RETURN_NO_ERROR;
	}

	}