ClickHouse/src/Core/BackgroundSchedulePool.h
2020-10-10 18:55:42 +03:00

174 lines
5.9 KiB
C++

#pragma once
#include <Poco/Notification.h>
#include <Poco/NotificationQueue.h>
#include <Poco/Timestamp.h>
#include <thread>
#include <atomic>
#include <mutex>
#include <condition_variable>
#include <vector>
#include <map>
#include <functional>
#include <boost/noncopyable.hpp>
#include <Common/ZooKeeper/Types.h>
#include <Common/CurrentMetrics.h>
#include <Common/CurrentThread.h>
#include <Common/ThreadPool.h>
namespace DB
{
class TaskNotification;
class BackgroundSchedulePoolTaskInfo;
class BackgroundSchedulePoolTaskHolder;
/** Executes functions scheduled at a specific point in time.
* Basically all tasks are added in a queue and precessed by worker threads.
*
* The most important difference between this and BackgroundProcessingPool
* is that we have the guarantee that the same function is not executed from many workers in the same time.
*
* The usage scenario: instead starting a separate thread for each task,
* register a task in BackgroundSchedulePool and when you need to run the task,
* call schedule or scheduleAfter(duration) method.
*/
class BackgroundSchedulePool
{
public:
friend class BackgroundSchedulePoolTaskInfo;
using TaskInfo = BackgroundSchedulePoolTaskInfo;
using TaskInfoPtr = std::shared_ptr<TaskInfo>;
using TaskFunc = std::function<void()>;
using TaskHolder = BackgroundSchedulePoolTaskHolder;
using DelayedTasks = std::multimap<Poco::Timestamp, TaskInfoPtr>;
TaskHolder createTask(const std::string & log_name, const TaskFunc & function);
size_t getNumberOfThreads() const { return size; }
/// thread_name_ cannot be longer then 13 bytes (2 bytes is reserved for "/D" suffix for delayExecutionThreadFunction())
BackgroundSchedulePool(size_t size_, CurrentMetrics::Metric tasks_metric_, const char *thread_name_);
~BackgroundSchedulePool();
private:
using Threads = std::vector<ThreadFromGlobalPool>;
void threadFunction();
void delayExecutionThreadFunction();
/// Schedule task for execution after specified delay from now.
void scheduleDelayedTask(const TaskInfoPtr & task_info, size_t ms, std::lock_guard<std::mutex> & task_schedule_mutex_lock);
/// Remove task, that was scheduled with delay, from schedule.
void cancelDelayedTask(const TaskInfoPtr & task_info, std::lock_guard<std::mutex> & task_schedule_mutex_lock);
/// Number for worker threads.
const size_t size;
std::atomic<bool> shutdown {false};
Threads threads;
Poco::NotificationQueue queue;
/// Delayed notifications.
std::condition_variable wakeup_cond;
std::mutex delayed_tasks_mutex;
/// Thread waiting for next delayed task.
ThreadFromGlobalPool delayed_thread;
/// Tasks ordered by scheduled time.
DelayedTasks delayed_tasks;
/// Thread group used for profiling purposes
ThreadGroupStatusPtr thread_group;
CurrentMetrics::Metric tasks_metric;
std::string thread_name;
void attachToThreadGroup();
};
class BackgroundSchedulePoolTaskInfo : public std::enable_shared_from_this<BackgroundSchedulePoolTaskInfo>, private boost::noncopyable
{
public:
BackgroundSchedulePoolTaskInfo(BackgroundSchedulePool & pool_, const std::string & log_name_, const BackgroundSchedulePool::TaskFunc & function_);
/// Schedule for execution as soon as possible (if not already scheduled).
/// If the task was already scheduled with delay, the delay will be ignored.
bool schedule();
/// Schedule for execution after specified delay.
/// If overwrite is set then the task will be re-scheduled (if it was already scheduled, i.e. delayed == true).
bool scheduleAfter(size_t ms, bool overwrite = true);
/// Further attempts to schedule become no-op. Will wait till the end of the current execution of the task.
void deactivate();
void activate();
/// Atomically activate task and schedule it for execution.
bool activateAndSchedule();
/// get Coordination::WatchCallback needed for notifications from ZooKeeper watches.
Coordination::WatchCallback getWatchCallback();
private:
friend class TaskNotification;
friend class BackgroundSchedulePool;
void execute();
void scheduleImpl(std::lock_guard<std::mutex> & schedule_mutex_lock);
BackgroundSchedulePool & pool;
std::string log_name;
BackgroundSchedulePool::TaskFunc function;
std::mutex exec_mutex;
std::mutex schedule_mutex;
/// Invariants:
/// * If deactivated is true then scheduled, delayed and executing are all false.
/// * scheduled and delayed cannot be true at the same time.
bool deactivated = false;
bool scheduled = false;
bool delayed = false;
bool executing = false;
/// If the task is scheduled with delay, points to element of delayed_tasks.
BackgroundSchedulePool::DelayedTasks::iterator iterator;
};
using BackgroundSchedulePoolTaskInfoPtr = std::shared_ptr<BackgroundSchedulePoolTaskInfo>;
class BackgroundSchedulePoolTaskHolder
{
public:
BackgroundSchedulePoolTaskHolder() = default;
explicit BackgroundSchedulePoolTaskHolder(const BackgroundSchedulePoolTaskInfoPtr & task_info_) : task_info(task_info_) {}
BackgroundSchedulePoolTaskHolder(const BackgroundSchedulePoolTaskHolder & other) = delete;
BackgroundSchedulePoolTaskHolder(BackgroundSchedulePoolTaskHolder && other) noexcept = default;
BackgroundSchedulePoolTaskHolder & operator=(const BackgroundSchedulePoolTaskHolder & other) noexcept = delete;
BackgroundSchedulePoolTaskHolder & operator=(BackgroundSchedulePoolTaskHolder && other) noexcept = default;
~BackgroundSchedulePoolTaskHolder()
{
if (task_info)
task_info->deactivate();
}
operator bool() const { return task_info != nullptr; }
BackgroundSchedulePoolTaskInfo * operator->() { return task_info.get(); }
const BackgroundSchedulePoolTaskInfo * operator->() const { return task_info.get(); }
private:
BackgroundSchedulePoolTaskInfoPtr task_info;
};
}