// Copyright 2019 fatedier, fatedier@gmail.com // // 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. package stats import ( "sync" "time" "github.com/fatedier/frp/utils/log" "github.com/fatedier/frp/utils/metric" ) type internalCollector struct { enable bool info *ServerStatistics mu sync.Mutex } func NewInternalCollector(enable bool) Collector { return &internalCollector{ enable: enable, info: &ServerStatistics{ TotalTrafficIn: metric.NewDateCounter(ReserveDays), TotalTrafficOut: metric.NewDateCounter(ReserveDays), CurConns: metric.NewCounter(), ClientCounts: metric.NewCounter(), ProxyTypeCounts: make(map[string]metric.Counter), ProxyStatistics: make(map[string]*ProxyStatistics), }, } } func (collector *internalCollector) Run() error { go func() { for { time.Sleep(12 * time.Hour) log.Debug("start to clear useless proxy statistics data...") collector.ClearUselessInfo() log.Debug("finish to clear useless proxy statistics data") } }() return nil } func (collector *internalCollector) ClearUselessInfo() { // To check if there are proxies that closed than 7 days and drop them. collector.mu.Lock() defer collector.mu.Unlock() for name, data := range collector.info.ProxyStatistics { if !data.LastCloseTime.IsZero() && time.Since(data.LastCloseTime) > time.Duration(7*24)*time.Hour { delete(collector.info.ProxyStatistics, name) log.Trace("clear proxy [%s]'s statistics data, lastCloseTime: [%s]", name, data.LastCloseTime.String()) } } } func (collector *internalCollector) Mark(statsType StatsType, payload interface{}) { if !collector.enable { return } switch v := payload.(type) { case *NewClientPayload: collector.newClient(v) case *CloseClientPayload: collector.closeClient(v) case *OpenConnectionPayload: collector.openConnection(v) case *CloseConnectionPayload: collector.closeConnection(v) case *AddTrafficInPayload: collector.addTrafficIn(v) case *AddTrafficOutPayload: collector.addTrafficOut(v) } } func (collector *internalCollector) newClient(payload *NewClientPayload) { collector.info.ClientCounts.Inc(1) } func (collector *internalCollector) closeClient(payload *CloseClientPayload) { collector.info.ClientCounts.Dec(1) } func (collector *internalCollector) newProxy(payload *NewProxyPayload) { collector.mu.Lock() defer collector.mu.Unlock() counter, ok := collector.info.ProxyTypeCounts[payload.ProxyType] if !ok { counter = metric.NewCounter() } counter.Inc(1) collector.info.ProxyTypeCounts[payload.ProxyType] = counter proxyStats, ok := collector.info.ProxyStatistics[payload.Name] if !(ok && proxyStats.ProxyType == payload.ProxyType) { proxyStats = &ProxyStatistics{ Name: payload.Name, ProxyType: payload.ProxyType, CurConns: metric.NewCounter(), TrafficIn: metric.NewDateCounter(ReserveDays), TrafficOut: metric.NewDateCounter(ReserveDays), } collector.info.ProxyStatistics[payload.Name] = proxyStats } proxyStats.LastStartTime = time.Now() } func (collector *internalCollector) closeProxy(payload *CloseProxyPayload) { collector.mu.Lock() defer collector.mu.Unlock() if counter, ok := collector.info.ProxyTypeCounts[payload.ProxyType]; ok { counter.Dec(1) } if proxyStats, ok := collector.info.ProxyStatistics[payload.Name]; ok { proxyStats.LastCloseTime = time.Now() } } func (collector *internalCollector) openConnection(payload *OpenConnectionPayload) { collector.info.CurConns.Inc(1) collector.mu.Lock() defer collector.mu.Unlock() proxyStats, ok := collector.info.ProxyStatistics[payload.ProxyName] if ok { proxyStats.CurConns.Inc(1) collector.info.ProxyStatistics[payload.ProxyName] = proxyStats } } func (collector *internalCollector) closeConnection(payload *CloseConnectionPayload) { collector.info.CurConns.Dec(1) collector.mu.Lock() defer collector.mu.Unlock() proxyStats, ok := collector.info.ProxyStatistics[payload.ProxyName] if ok { proxyStats.CurConns.Dec(1) collector.info.ProxyStatistics[payload.ProxyName] = proxyStats } } func (collector *internalCollector) addTrafficIn(payload *AddTrafficInPayload) { collector.info.TotalTrafficIn.Inc(payload.TrafficBytes) collector.mu.Lock() defer collector.mu.Unlock() proxyStats, ok := collector.info.ProxyStatistics[payload.ProxyName] if ok { proxyStats.TrafficIn.Inc(payload.TrafficBytes) collector.info.ProxyStatistics[payload.ProxyName] = proxyStats } } func (collector *internalCollector) addTrafficOut(payload *AddTrafficOutPayload) { collector.info.TotalTrafficOut.Inc(payload.TrafficBytes) collector.mu.Lock() defer collector.mu.Unlock() proxyStats, ok := collector.info.ProxyStatistics[payload.ProxyName] if ok { proxyStats.TrafficOut.Inc(payload.TrafficBytes) collector.info.ProxyStatistics[payload.ProxyName] = proxyStats } } func (collector *internalCollector) GetServer() *ServerStats { collector.mu.Lock() defer collector.mu.Unlock() s := &ServerStats{ TotalTrafficIn: collector.info.TotalTrafficIn.TodayCount(), TotalTrafficOut: collector.info.TotalTrafficOut.TodayCount(), CurConns: collector.info.CurConns.Count(), ClientCounts: collector.info.ClientCounts.Count(), ProxyTypeCounts: make(map[string]int64), } for k, v := range collector.info.ProxyTypeCounts { s.ProxyTypeCounts[k] = v.Count() } return s } func (collector *internalCollector) GetProxiesByType(proxyType string) []*ProxyStats { res := make([]*ProxyStats, 0) collector.mu.Lock() defer collector.mu.Unlock() for name, proxyStats := range collector.info.ProxyStatistics { if proxyStats.ProxyType != proxyType { continue } ps := &ProxyStats{ Name: name, Type: proxyStats.ProxyType, TodayTrafficIn: proxyStats.TrafficIn.TodayCount(), TodayTrafficOut: proxyStats.TrafficOut.TodayCount(), CurConns: proxyStats.CurConns.Count(), } if !proxyStats.LastStartTime.IsZero() { ps.LastStartTime = proxyStats.LastStartTime.Format("01-02 15:04:05") } if !proxyStats.LastCloseTime.IsZero() { ps.LastCloseTime = proxyStats.LastCloseTime.Format("01-02 15:04:05") } res = append(res, ps) } return res } func (collector *internalCollector) GetProxiesByTypeAndName(proxyType string, proxyName string) (res *ProxyStats) { collector.mu.Lock() defer collector.mu.Unlock() for name, proxyStats := range collector.info.ProxyStatistics { if proxyStats.ProxyType != proxyType { continue } if name != proxyName { continue } res = &ProxyStats{ Name: name, Type: proxyStats.ProxyType, TodayTrafficIn: proxyStats.TrafficIn.TodayCount(), TodayTrafficOut: proxyStats.TrafficOut.TodayCount(), CurConns: proxyStats.CurConns.Count(), } if !proxyStats.LastStartTime.IsZero() { res.LastStartTime = proxyStats.LastStartTime.Format("01-02 15:04:05") } if !proxyStats.LastCloseTime.IsZero() { res.LastCloseTime = proxyStats.LastCloseTime.Format("01-02 15:04:05") } break } return } func (collector *internalCollector) GetProxyTraffic(name string) (res *ProxyTrafficInfo) { collector.mu.Lock() defer collector.mu.Unlock() proxyStats, ok := collector.info.ProxyStatistics[name] if ok { res = &ProxyTrafficInfo{ Name: name, } res.TrafficIn = proxyStats.TrafficIn.GetLastDaysCount(ReserveDays) res.TrafficOut = proxyStats.TrafficOut.GetLastDaysCount(ReserveDays) } return }