package tpapi import ( "context" "fmt" "sync" "time" ) type ThirdPartyApiServiceState uint32 const ( // 服务未启动 ThirdPartyState_Closed ThirdPartyApiServiceState = iota // 服务正常 ThirdPartyState_Normal // 服务异常 ThirdPartyState_Broken ) // 第三方对接接口服务 type ThirdPartyApiService interface { Name() string // 服务状态 State() ThirdPartyApiServiceState FindAppendApiService() []ThirdPartyApiService //是否真实服务,如果为假,就会调用FindAppendApiService方法 TrueService() bool //服务描述 ServiceDesc() string } // func NewThirdPartyApiService() ThirdPartyApiService { // return &thirdPartyApiService{ // state: ThirdPartyState_Closed, // } // } // type thirdPartyApiService struct { // state ThirdPartyApiServiceState // } // func (s *thirdPartyApiService) UpdateState(state ThirdPartyApiServiceState) { // s.state = state // } // func (s *thirdPartyApiService) State() ThirdPartyApiServiceState { // return s.state // } // UDP通信延时记录 type UdpDelayRecorder struct { mu sync.Mutex // 接收消息间隔,单位毫秒 interval int // 上一次收到消息时刻 lastReceiedTime int64 // 近期收到消息时间间隔 intervals []int64 // 是否发生异常 err error // 长时间未收到消息或恢复处理回调 handler func(err error) cancelFunc context.CancelFunc done chan struct{} // 服务协程退出信号 } func NewUdpDelayRecorder(interval int, handler func(err error)) *UdpDelayRecorder { return &UdpDelayRecorder{ interval: interval, lastReceiedTime: 0, handler: handler, } } func (r *UdpDelayRecorder) Start() { r.mu.Lock() defer r.mu.Unlock() r.lastReceiedTime = 0 r.err = nil r.done = make(chan struct{}) ctx, cf := context.WithCancel(context.Background()) r.cancelFunc = cf go r.checkTimeout(ctx) } func (r *UdpDelayRecorder) checkTimeout(ctx context.Context) { defer close(r.done) for { select { case <-ctx.Done(): return default: } time.Sleep(time.Millisecond * time.Duration(r.interval*2)) lastReceiedTime := r.lastReceiedTime interval := int(time.Now().UnixMilli() - lastReceiedTime) if r.err == nil && interval > calUdpTimeout(r.interval) { // 超时故障回调 r.err = fmt.Errorf("UDP通信超时未收到消息,可能网络异常") if r.handler != nil { r.handler(r.err) } } else if r.err != nil && interval <= r.interval*3 { // 恢复正常回调 r.err = nil if r.handler != nil { r.handler(r.err) } } } } func (r *UdpDelayRecorder) Stop() { r.mu.Lock() defer r.mu.Unlock() if r.cancelFunc == nil { return } r.cancelFunc() <-r.done r.lastReceiedTime = 0 r.err = nil } // 记录时间间隔 func (r *UdpDelayRecorder) RecordInterval() { r.mu.Lock() defer r.mu.Unlock() // 记录时间及间隔 ts := time.Now().UnixMilli() if r.lastReceiedTime > 0 { r.intervals = append(r.intervals, ts-r.lastReceiedTime) if len(r.intervals) > 10 { r.intervals = r.intervals[1:] } } r.lastReceiedTime = ts } func (r *UdpDelayRecorder) GetIntervals() []int64 { return r.intervals } func calUdpTimeout(interval int) int { if interval <= 50 { return interval * 10 } else { return interval * 5 } }