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/** * @Author: Aceld * @Date: 2019/5/8 17:43 * @Mail: danbing.at@gmail.com * * 时间轮调度器 * 依赖模块,delayfunc.go timer.go timewheel.go */ package ztimer
import ( "github.com/aceld/zinx/zlog" "math" "sync" "time" )
const ( //默认缓冲触发函数队列大小
MAX_CHAN_BUFF = 2048 //默认最大误差时间
MAX_TIME_DELAY = 100 )
type TimerScheduler struct { //当前调度器的最高级时间轮
tw *TimeWheel //定时器编号累加器
idGen uint32 //已经触发定时器的channel
triggerChan chan *DelayFunc //互斥锁
sync.RWMutex //所有注册的timerId集合
ids []uint32 }
/* 返回一个定时器调度器
主要创建分层定时器,并做关联,并依次启动 */ func NewTimerScheduler() *TimerScheduler {
//创建秒级时间轮
second_tw := NewTimeWheel(SECOND_NAME, SECOND_INTERVAL, SECOND_SCALES, TIMERS_MAX_CAP) //创建分钟级时间轮
minute_tw := NewTimeWheel(MINUTE_NAME, MINUTE_INTERVAL, MINUTE_SCALES, TIMERS_MAX_CAP) //创建小时级时间轮
hour_tw := NewTimeWheel(HOUR_NAME, HOUR_INTERVAL, HOUR_SCALES, TIMERS_MAX_CAP)
//将分层时间轮做关联
hour_tw.AddTimeWheel(minute_tw) minute_tw.AddTimeWheel(second_tw)
//时间轮运行
second_tw.Run() minute_tw.Run() hour_tw.Run()
return &TimerScheduler{ tw: hour_tw, triggerChan: make(chan *DelayFunc, MAX_CHAN_BUFF), ids: make([]uint32, 0), } }
//创建一个定点Timer 并将Timer添加到分层时间轮中, 返回Timer的tid
func (this *TimerScheduler) CreateTimerAt(df *DelayFunc, unixNano int64) (uint32, error) { this.Lock() defer this.Unlock()
this.idGen++ this.ids = append(this.ids, this.idGen) return this.idGen, this.tw.AddTimer(this.idGen, NewTimerAt(df, unixNano)) }
//创建一个延迟Timer 并将Timer添加到分层时间轮中, 返回Timer的tid
func (this *TimerScheduler) CreateTimerAfter(df *DelayFunc, duration time.Duration) (uint32, error) { this.Lock() defer this.Unlock()
this.idGen++ this.ids = append(this.ids, this.idGen) return this.idGen, this.tw.AddTimer(this.idGen, NewTimerAfter(df, duration)) }
//删除timer
func (this *TimerScheduler) CancelTimer(tid uint32) { this.Lock() this.Unlock() //this.tw.RemoveTimer(tid) 这个方法无效
//删除timerId
var index = -1 for i := 0; i < len(this.ids); i++ { if this.ids[i] == tid { index = i } }
if index > -1 { this.ids = append(this.ids[:index], this.ids[index+1:]...) } }
//获取计时结束的延迟执行函数通道
func (this *TimerScheduler) GetTriggerChan() chan *DelayFunc { return this.triggerChan }
func (this *TimerScheduler) HasTimer(tid uint32) bool { for i := 0; i < len(this.ids); i++ { if this.ids[i] == tid { return true } } return false }
//非阻塞的方式启动timerSchedule
func (this *TimerScheduler) Start() { go func() { for { //当前时间
now := UnixMilli() //获取最近MAX_TIME_DELAY 毫秒的超时定时器集合
timerList := this.tw.GetTimerWithIn(MAX_TIME_DELAY * time.Millisecond) for tid, timer := range timerList { if math.Abs(float64(now-timer.unixts)) > MAX_TIME_DELAY { //已经超时的定时器,报警
zlog.Error("want call at ", timer.unixts, "; real call at", now, "; delay ", now-timer.unixts) } if this.HasTimer(tid) { //将超时触发函数写入管道
this.triggerChan <- timer.delayFunc } } time.Sleep(MAX_TIME_DELAY / 2 * time.Millisecond) } }() }
//时间轮定时器 自动调度
func NewAutoExecTimerScheduler() *TimerScheduler { //创建一个调度器
autoExecScheduler := NewTimerScheduler() //启动调度器
autoExecScheduler.Start()
//永久从调度器中获取超时 触发的函数 并执行
go func() { delayFuncChan := autoExecScheduler.GetTriggerChan() for df := range delayFuncChan { go df.Call() } }()
return autoExecScheduler }
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