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k3s/test/e2e/log_size_monitoring.go

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/*
Copyright 2015 The Kubernetes Authors All rights reserved.
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 e2e
import (
"bytes"
"fmt"
"strconv"
"strings"
"sync"
"text/tabwriter"
"time"
client "k8s.io/kubernetes/pkg/client/unversioned"
)
const (
// Minimal period between polling log sizes from components
pollingPeriod = 5 * time.Second
workersNo = 5
kubeletLogsPath = "/var/log/kubelet.log"
kubeProxyLogsPath = "/var/log/kube-proxy.log"
kubeAddonsLogsPath = "/var/log/kube-addons.log"
kubeMasterAddonsLogsPath = "/var/log/kube-master-addons.log"
apiServerLogsPath = "/var/log/kube-apiserver.log"
controllersLogsPath = "/var/log/kube-controller-manager.log"
schedulerLogsPath = "/var/log/kube-scheduler.log"
)
var (
nodeLogsToCheck = []string{kubeletLogsPath, kubeProxyLogsPath}
masterLogsToCheck = []string{kubeletLogsPath, kubeAddonsLogsPath, kubeMasterAddonsLogsPath,
apiServerLogsPath, controllersLogsPath, schedulerLogsPath}
)
// TimestampedSize contains a size together with a time of measurement.
type TimestampedSize struct {
timestamp time.Time
size int
}
// LogSizeGatherer is a worker which grabs a WorkItem from the channel and does assigned work.
type LogSizeGatherer struct {
stopChannel chan bool
data *LogsSizeData
wg *sync.WaitGroup
workChannel chan WorkItem
}
// LogsSizeVerifier gathers data about log files sizes from master and node machines.
// It oversees a <workersNo> workers which do the gathering.
type LogsSizeVerifier struct {
client *client.Client
stopChannel chan bool
// data stores LogSizeData groupped per IP and log_path
data LogsSizeData
masterAddress string
nodeAddresses []string
wg sync.WaitGroup
workChannel chan WorkItem
workers []*LogSizeGatherer
}
type LogsSizeData struct {
data map[string]map[string][]TimestampedSize
lock sync.Mutex
}
// WorkItem is a command for a worker that contains an IP of machine from which we want to
// gather data and paths to all files we're interested in.
type WorkItem struct {
ip string
paths []string
}
func prepareData(masterAddress string, nodeAddresses []string) LogsSizeData {
data := make(map[string]map[string][]TimestampedSize)
ips := append(nodeAddresses, masterAddress)
for _, ip := range ips {
data[ip] = make(map[string][]TimestampedSize)
}
return LogsSizeData{
data: data,
lock: sync.Mutex{},
}
}
func (d *LogsSizeData) AddNewData(ip, path string, timestamp time.Time, size int) {
d.lock.Lock()
defer d.lock.Unlock()
d.data[ip][path] = append(
d.data[ip][path],
TimestampedSize{
timestamp: timestamp,
size: size,
},
)
}
func (d *LogsSizeData) PrintData() string {
d.lock.Lock()
defer d.lock.Unlock()
buf := &bytes.Buffer{}
w := tabwriter.NewWriter(buf, 1, 0, 1, ' ', 0)
fmt.Fprintf(w, "host\tlog_file\taverage_rate (B/s)\tnumber_of_probes\n")
for k, v := range d.data {
fmt.Fprintf(w, "%v\t\t\t\n", k)
for path, data := range v {
if len(data) > 1 {
last := data[len(data)-1]
first := data[0]
rate := (last.size - first.size) / int(last.timestamp.Sub(first.timestamp)/time.Second)
fmt.Fprintf(w, "\t%v\t%v\t%v\n", path, rate, len(data))
}
}
}
w.Flush()
return buf.String()
}
// NewLogsVerifier creates a new LogsSizeVerifier which will stop when stopChannel is closed
func NewLogsVerifier(c *client.Client, stopChannel chan bool) *LogsSizeVerifier {
nodeAddresses, err := NodeSSHHosts(c)
expectNoError(err)
masterAddress := getMasterHost() + ":22"
workChannel := make(chan WorkItem, len(nodeAddresses)+1)
workers := make([]*LogSizeGatherer, workersNo)
verifier := &LogsSizeVerifier{
client: c,
stopChannel: stopChannel,
data: prepareData(masterAddress, nodeAddresses),
masterAddress: masterAddress,
nodeAddresses: nodeAddresses,
wg: sync.WaitGroup{},
workChannel: workChannel,
workers: workers,
}
verifier.wg.Add(workersNo)
for i := 0; i < workersNo; i++ {
workers[i] = &LogSizeGatherer{
stopChannel: stopChannel,
data: &verifier.data,
wg: &verifier.wg,
workChannel: workChannel,
}
}
return verifier
}
// PrintData returns a string with formated results
func (v *LogsSizeVerifier) PrintData() string {
return v.data.PrintData()
}
// Run starts log size gathering. It starts a gorouting for every worker and then blocks until stopChannel is closed
func (v *LogsSizeVerifier) Run() {
v.workChannel <- WorkItem{
ip: v.masterAddress,
paths: masterLogsToCheck,
}
for _, node := range v.nodeAddresses {
v.workChannel <- WorkItem{
ip: node,
paths: nodeLogsToCheck,
}
}
for _, worker := range v.workers {
go worker.Run()
}
<-v.stopChannel
v.wg.Wait()
Logf("\n%v", v.PrintData())
}
func (g *LogSizeGatherer) Run() {
for g.Work() {
}
}
// Work does a single unit of work: tries to take out a WorkItem from the queue, ssh-es into a given machine,
// gathers data, writes it to the shared <data> map, and creates a gorouting which reinserts work item into
// the queue with a <pollingPeriod> delay.
func (g *LogSizeGatherer) Work() bool {
var workItem WorkItem
select {
case <-g.stopChannel:
g.wg.Done()
return false
case workItem = <-g.workChannel:
}
sshResult, err := SSH(
fmt.Sprintf("ls -l %v | awk '{print $9, $5}' | tr '\n' ' '", strings.Join(workItem.paths, " ")),
workItem.ip,
testContext.Provider,
)
expectNoError(err)
results := strings.Split(sshResult.Stdout, " ")
now := time.Now()
for i := 0; i+1 < len(results); i = i + 2 {
path := results[i]
size, err := strconv.Atoi(results[i+1])
expectNoError(err)
g.data.AddNewData(workItem.ip, path, now, size)
}
go func() {
time.Sleep(pollingPeriod)
g.workChannel <- workItem
}()
return true
}
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