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stats.go
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/
stats.go
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//-----------------------------------------------------------------------------
// 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
}
// In an ideal setup, client and server should print stats at the same time.
// However, instead of building a whole time synchronization mechanism, a
// hack is used that starts stat at a second granularity. This is done on
// both client and sever, and as long as both client & server have time
// synchronized e.g. with a time server, both would print stats of the running
// test at _almost_ the same time.
SleepUntilNextWholeSecond()
lastStatsTime = time.Now()
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, ICMP, s)
}
}