//----------------------------------------------------------------------------- // Copyright (C) Microsoft. All rights reserved. // Licensed under the MIT license. // See LICENSE.txt file in the project root for full license information. //----------------------------------------------------------------------------- package main import ( "sort" "time" ) type ethrNetStat struct { netDevStats []ethrNetDevStat tcpStats ethrTCPStat } type ethrNetDevStat struct { interfaceName string rxBytes uint64 txBytes uint64 rxPkts uint64 txPkts uint64 } type ethrTCPStat struct { segRetrans uint64 } func getNetworkStats() ethrNetStat { stats := ðrNetStat{} getNetDevStats(stats) /* devStats, err := osStats.GetNetDevStats() if err != nil { return stats.EthrNetStats{}, errors.Wrap(err, "getNetworkStats: could not get net device stats") } */ sort.SliceStable(stats.netDevStats, func(i, j int) bool { return stats.netDevStats[i].interfaceName < stats.netDevStats[j].interfaceName }) getTCPStats(stats) /* tcpStats, err := osStats.GetTCPStats() if err != nil { return stats.EthrNetStats{}, errors.Wrap(err, "getNetworkStats: could not get net TCP stats") } return stats.EthrNetStats{NetDevStats: devStats, TCPStats: tcpStats}, nil */ return *stats } func getNetDevStatDiff(curStats ethrNetDevStat, prevNetStats ethrNetStat, seconds uint64) ethrNetDevStat { for _, prevStats := range prevNetStats.netDevStats { if prevStats.interfaceName != curStats.interfaceName { continue } if curStats.rxBytes >= prevStats.rxBytes { curStats.rxBytes -= prevStats.rxBytes } else { curStats.rxBytes += (^uint64(0) - prevStats.rxBytes) } if curStats.txBytes >= prevStats.txBytes { curStats.txBytes -= prevStats.txBytes } else { curStats.txBytes += (^uint64(0) - prevStats.txBytes) } if curStats.rxPkts >= prevStats.rxPkts { curStats.rxPkts -= prevStats.rxPkts } else { curStats.rxPkts += (^uint64(0) - prevStats.rxPkts) } if curStats.txPkts >= prevStats.txPkts { curStats.txPkts -= prevStats.txPkts } else { curStats.txPkts += (^uint64(0) - prevStats.txPkts) } break } curStats.rxBytes /= seconds curStats.txBytes /= seconds curStats.rxPkts /= seconds curStats.txPkts /= seconds return curStats } var statsEnabled bool func startStatsTimer() { if statsEnabled { return } ticker := time.NewTicker(time.Second) statsEnabled = true go func() { for statsEnabled { select { case <-ticker.C: emitStats() } } ticker.Stop() return }() } func stopStatsTimer() { statsEnabled = false } var lastStatsTime time.Time = time.Now() func timeToNextTick() time.Duration { nextTick := lastStatsTime.Add(time.Second) return time.Until(nextTick) } func emitStats() { d := time.Since(lastStatsTime) lastStatsTime = time.Now() seconds := int64(d.Seconds()) if seconds < 1 { seconds = 1 } ui.emitTestResultBegin() emitTestResults(uint64(seconds)) ui.emitTestResultEnd() ui.emitStats(getNetworkStats()) ui.paint(uint64(seconds)) } func emitTestResults(s uint64) { gSessionLock.RLock() defer gSessionLock.RUnlock() for _, k := range gSessionKeys { v := gSessions[k] ui.emitTestResult(v, TCP, s) ui.emitTestResult(v, UDP, s) ui.emitTestResult(v, HTTP, s) ui.emitTestResult(v, HTTPS, s) ui.emitTestResult(v, ICMP, s) } }