// Copyright (C) 2018 spdfg
//
// This file is part of Elektron.
//
// Elektron is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// Elektron is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with Elektron. If not, see <http://www.gnu.org/licenses/>.
//
package powerCap
import (
"bufio"
"container/ring"
"fmt"
"log"
"os/exec"
"sort"
"strconv"
"strings"
"syscall"
"time"
elekLogDef "github.com/spdfg/elektron/logging/def"
"github.com/spdfg/elektron/pcp"
"github.com/spdfg/elektron/rapl"
)
func StartPCPLogAndExtremaDynamicCap(quit chan struct{}, logging *bool, hiThreshold, loThreshold float64,
logMType chan elekLogDef.LogMessageType, logMsg chan string, pcpConfigFile string) {
var pcpCommand string = "pmdumptext -m -l -f '' -t 1.0 -d , -c " + pcpConfigFile
cmd := exec.Command("sh", "-c", pcpCommand, pcpConfigFile)
cmd.SysProcAttr = &syscall.SysProcAttr{Setpgid: true}
if hiThreshold < loThreshold {
log.Println("High threshold is lower than low threshold!")
}
pipe, err := cmd.StdoutPipe()
if err != nil {
log.Fatal(err)
}
//cmd.Stdout = stdout
scanner := bufio.NewScanner(pipe)
go func(logging *bool, hiThreshold, loThreshold float64) {
// Get names of the columns.
scanner.Scan()
// Write to logfile
logMType <- elekLogDef.PCP
logMsg <- scanner.Text()
headers := strings.Split(scanner.Text(), ",")
powerIndexes := make([]int, 0, 0)
powerHistories := make(map[string]*ring.Ring)
indexToHost := make(map[int]string)
for i, hostMetric := range headers {
metricSplit := strings.Split(hostMetric, ":")
if strings.Contains(metricSplit[1], "RAPL_ENERGY_PKG") ||
strings.Contains(metricSplit[1], "RAPL_ENERGY_DRAM") {
powerIndexes = append(powerIndexes, i)
indexToHost[i] = metricSplit[0]
// Only create one ring per host.
if _, ok := powerHistories[metricSplit[0]]; !ok {
// Two PKGS, two DRAM per node, 20 - 5 seconds of tracking.
powerHistories[metricSplit[0]] = ring.New(20)
}
}
}
// Throw away first set of results.
scanner.Scan()
cappedHosts := make(map[string]bool)
orderCapped := make([]string, 0, 8)
clusterPowerHist := ring.New(5)
seconds := 0
for scanner.Scan() {
if *logging {
logMType <- elekLogDef.GENERAL
logMsg <- "Logging PCP..."
text := scanner.Text()
split := strings.Split(text, ",")
logMType <- elekLogDef.PCP
logMsg <- text
totalPower := 0.0
for _, powerIndex := range powerIndexes {
power, _ := strconv.ParseFloat(split[powerIndex], 64)
host := indexToHost[powerIndex]
powerHistories[host].Value = power
powerHistories[host] = powerHistories[host].Next()
logMType <- elekLogDef.GENERAL
logMsg <- fmt.Sprintf("Host: %s, Power: %f", indexToHost[powerIndex], (power * pcp.RAPLUnits))
totalPower += power
}
clusterPower := totalPower * pcp.RAPLUnits
clusterPowerHist.Value = clusterPower
clusterPowerHist = clusterPowerHist.Next()
clusterMean := pcp.AverageClusterPowerHistory(clusterPowerHist)
logMType <- elekLogDef.GENERAL
logMsg <- fmt.Sprintf("Total power: %f, %d Sec Avg: %f", clusterPower, clusterPowerHist.Len(), clusterMean)
if clusterMean > hiThreshold {
logMType <- elekLogDef.GENERAL
logMsg <- "Need to cap a node"
// Create statics for all victims and choose one to cap
victims := make([]pcp.Victim, 0, 8)
// TODO: Just keep track of the largest to reduce fron nlogn to n
for name, history := range powerHistories {
histMean := pcp.AverageNodePowerHistory(history)
// Consider doing mean calculations using go routines if we need to speed up.
victims = append(victims, pcp.Victim{Watts: histMean, Host: name})
}
sort.Sort(pcp.VictimSorter(victims)) // Sort by average wattage.
// From best victim to worst, if everyone is already capped NOOP.
for _, victim := range victims {
// Only cap if host hasn't been capped yet.
if !cappedHosts[victim.Host] {
cappedHosts[victim.Host] = true
orderCapped = append(orderCapped, victim.Host)
logMType <- elekLogDef.GENERAL
logMsg <- fmt.Sprintf("Capping Victim %s Avg. Wattage: %f", victim.Host, victim.Watts*pcp.RAPLUnits)
if err := rapl.Cap(victim.Host, "rapl", 50); err != nil {
logMType <- elekLogDef.ERROR
logMsg <- "Error capping host"
}
break // Only cap one machine at at time.
}
}
} else if clusterMean < loThreshold {
if len(orderCapped) > 0 {
host := orderCapped[len(orderCapped)-1]
orderCapped = orderCapped[:len(orderCapped)-1]
cappedHosts[host] = false
// User RAPL package to send uncap.
log.Printf("Uncapping host %s", host)
logMType <- elekLogDef.GENERAL
logMsg <- fmt.Sprintf("Uncapped host %s", host)
if err := rapl.Cap(host, "rapl", 100); err != nil {
logMType <- elekLogDef.ERROR
logMsg <- "Error capping host"
}
}
}
}
seconds++
}
}(logging, hiThreshold, loThreshold)
logMType <- elekLogDef.GENERAL
logMsg <- "PCP logging started"
if err := cmd.Start(); err != nil {
log.Fatal(err)
}
pgid, err := syscall.Getpgid(cmd.Process.Pid)
select {
case <-quit:
logMType <- elekLogDef.GENERAL
logMsg <- "Stopping PCP logging in 5 seconds"
time.Sleep(5 * time.Second)
// http://stackoverflow.com/questions/22470193/why-wont-go-kill-a-child-process-correctly
// Kill process and all children processes.
syscall.Kill(-pgid, 15)
return
}
}