package stat import ( "os" "sync" "time" "github.com/zeromicro/go-zero/core/executors" "github.com/zeromicro/go-zero/core/logx" "github.com/zeromicro/go-zero/core/syncx" ) var ( logInterval = time.Minute writerLock sync.Mutex reportWriter Writer = nil logEnabled = syncx.ForAtomicBool(true) ) type ( // Writer interface wraps the Write method. Writer interface { Write(report *StatReport) error } // A StatReport is a stat report entry. StatReport struct { Name string `json:"name"` Timestamp int64 `json:"tm"` Pid int `json:"pid"` ReqsPerSecond float32 `json:"qps"` Drops int `json:"drops"` Average float32 `json:"avg"` Median float32 `json:"med"` Top90th float32 `json:"t90"` Top99th float32 `json:"t99"` Top99p9th float32 `json:"t99p9"` } // A Metrics is used to log and report stat reports. Metrics struct { executor *executors.PeriodicalExecutor container *metricsContainer } ) // DisableLog disables logs of stats. func DisableLog() { logEnabled.Set(false) } // SetReportWriter sets the report writer. func SetReportWriter(writer Writer) { writerLock.Lock() reportWriter = writer writerLock.Unlock() } // NewMetrics returns a Metrics. func NewMetrics(name string) *Metrics { container := &metricsContainer{ name: name, pid: os.Getpid(), } return &Metrics{ executor: executors.NewPeriodicalExecutor(logInterval, container), container: container, } } // Add adds task to m. func (m *Metrics) Add(task Task) { m.executor.Add(task) } // AddDrop adds a drop to m. func (m *Metrics) AddDrop() { m.executor.Add(Task{ Drop: true, }) } // SetName sets the name of m. func (m *Metrics) SetName(name string) { m.executor.Sync(func() { m.container.name = name }) } type ( tasksDurationPair struct { tasks []Task duration time.Duration drops int } metricsContainer struct { name string pid int tasks []Task duration time.Duration drops int } ) func (c *metricsContainer) AddTask(v interface{}) bool { if task, ok := v.(Task); ok { if task.Drop { c.drops++ } else { c.tasks = append(c.tasks, task) c.duration += task.Duration } } return false } func (c *metricsContainer) Execute(v interface{}) { pair := v.(tasksDurationPair) tasks := pair.tasks duration := pair.duration drops := pair.drops size := len(tasks) report := &StatReport{ Name: c.name, Timestamp: time.Now().Unix(), Pid: c.pid, ReqsPerSecond: float32(size) / float32(logInterval/time.Second), Drops: drops, } if size > 0 { report.Average = float32(duration/time.Millisecond) / float32(size) fiftyPercent := size >> 1 if fiftyPercent > 0 { top50pTasks := topK(tasks, fiftyPercent) medianTask := top50pTasks[0] report.Median = float32(medianTask.Duration) / float32(time.Millisecond) tenPercent := fiftyPercent / 5 if tenPercent > 0 { top10pTasks := topK(tasks, tenPercent) task90th := top10pTasks[0] report.Top90th = float32(task90th.Duration) / float32(time.Millisecond) onePercent := tenPercent / 10 if onePercent > 0 { top1pTasks := topK(top10pTasks, onePercent) task99th := top1pTasks[0] report.Top99th = float32(task99th.Duration) / float32(time.Millisecond) pointOnePercent := onePercent / 10 if pointOnePercent > 0 { topPointOneTasks := topK(top1pTasks, pointOnePercent) task99Point9th := topPointOneTasks[0] report.Top99p9th = float32(task99Point9th.Duration) / float32(time.Millisecond) } else { report.Top99p9th = getTopDuration(top1pTasks) } } else { mostDuration := getTopDuration(top10pTasks) report.Top99th = mostDuration report.Top99p9th = mostDuration } } else { mostDuration := getTopDuration(tasks) report.Top90th = mostDuration report.Top99th = mostDuration report.Top99p9th = mostDuration } } else { mostDuration := getTopDuration(tasks) report.Median = mostDuration report.Top90th = mostDuration report.Top99th = mostDuration report.Top99p9th = mostDuration } } log(report) } func (c *metricsContainer) RemoveAll() interface{} { tasks := c.tasks duration := c.duration drops := c.drops c.tasks = nil c.duration = 0 c.drops = 0 return tasksDurationPair{ tasks: tasks, duration: duration, drops: drops, } } func getTopDuration(tasks []Task) float32 { top := topK(tasks, 1) if len(top) < 1 { return 0 } return float32(top[0].Duration) / float32(time.Millisecond) } func log(report *StatReport) { writeReport(report) if logEnabled.True() { logx.Statf("(%s) - qps: %.1f/s, drops: %d, avg time: %.1fms, med: %.1fms, "+ "90th: %.1fms, 99th: %.1fms, 99.9th: %.1fms", report.Name, report.ReqsPerSecond, report.Drops, report.Average, report.Median, report.Top90th, report.Top99th, report.Top99p9th) } } func writeReport(report *StatReport) { writerLock.Lock() defer writerLock.Unlock() if reportWriter != nil { if err := reportWriter.Write(report); err != nil { logx.Error(err) } } }