telegraf/plugins/inputs/jenkins/jenkins.go

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package jenkins
import (
"context"
"fmt"
"net/http"
"strconv"
"strings"
"sync"
"time"
"github.com/influxdata/telegraf"
"github.com/influxdata/telegraf/filter"
"github.com/influxdata/telegraf/internal"
"github.com/influxdata/telegraf/internal/tls"
"github.com/influxdata/telegraf/plugins/inputs"
)
// Jenkins plugin gathers information about the nodes and jobs running in a jenkins instance.
type Jenkins struct {
URL string
Username string
Password string
// HTTP Timeout specified as a string - 3s, 1m, 1h
ResponseTimeout internal.Duration
tls.ClientConfig
client *client
Log telegraf.Logger
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MaxConnections int `toml:"max_connections"`
MaxBuildAge internal.Duration `toml:"max_build_age"`
MaxSubJobDepth int `toml:"max_subjob_depth"`
MaxSubJobPerLayer int `toml:"max_subjob_per_layer"`
JobExclude []string `toml:"job_exclude"`
jobFilter filter.Filter
NodeExclude []string `toml:"node_exclude"`
nodeFilter filter.Filter
semaphore chan struct{}
}
const sampleConfig = `
## The Jenkins URL
url = "http://my-jenkins-instance:8080"
# username = "admin"
# password = "admin"
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## Set response_timeout
response_timeout = "5s"
## Optional TLS Config
# tls_ca = "/etc/telegraf/ca.pem"
# tls_cert = "/etc/telegraf/cert.pem"
# tls_key = "/etc/telegraf/key.pem"
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## Use SSL but skip chain & host verification
# insecure_skip_verify = false
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## Optional Max Job Build Age filter
## Default 1 hour, ignore builds older than max_build_age
# max_build_age = "1h"
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## Optional Sub Job Depth filter
## Jenkins can have unlimited layer of sub jobs
## This config will limit the layers of pulling, default value 0 means
## unlimited pulling until no more sub jobs
# max_subjob_depth = 0
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## Optional Sub Job Per Layer
## In workflow-multibranch-plugin, each branch will be created as a sub job.
## This config will limit to call only the lasted branches in each layer,
## empty will use default value 10
# max_subjob_per_layer = 10
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## Jobs to exclude from gathering
# job_exclude = [ "job1", "job2/subjob1/subjob2", "job3/*"]
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## Nodes to exclude from gathering
# node_exclude = [ "node1", "node2" ]
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## Worker pool for jenkins plugin only
## Empty this field will use default value 5
# max_connections = 5
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`
// measurement
const (
measurementNode = "jenkins_node"
measurementJob = "jenkins_job"
)
// SampleConfig implements telegraf.Input interface
func (j *Jenkins) SampleConfig() string {
return sampleConfig
}
// Description implements telegraf.Input interface
func (j *Jenkins) Description() string {
return "Read jobs and cluster metrics from Jenkins instances"
}
// Gather implements telegraf.Input interface
func (j *Jenkins) Gather(acc telegraf.Accumulator) error {
if j.client == nil {
client, err := j.newHTTPClient()
if err != nil {
return err
}
if err = j.initialize(client); err != nil {
return err
}
}
j.gatherNodesData(acc)
j.gatherJobs(acc)
return nil
}
func (j *Jenkins) newHTTPClient() (*http.Client, error) {
tlsCfg, err := j.ClientConfig.TLSConfig()
if err != nil {
return nil, fmt.Errorf("error parse jenkins config[%s]: %v", j.URL, err)
}
return &http.Client{
Transport: &http.Transport{
TLSClientConfig: tlsCfg,
MaxIdleConns: j.MaxConnections,
},
Timeout: j.ResponseTimeout.Duration,
}, nil
}
// seperate the client as dependency to use httptest Client for mocking
func (j *Jenkins) initialize(client *http.Client) error {
var err error
// init job filter
j.jobFilter, err = filter.Compile(j.JobExclude)
if err != nil {
return fmt.Errorf("error compile job filters[%s]: %v", j.URL, err)
}
// init node filter
j.nodeFilter, err = filter.Compile(j.NodeExclude)
if err != nil {
return fmt.Errorf("error compile node filters[%s]: %v", j.URL, err)
}
// init tcp pool with default value
if j.MaxConnections <= 0 {
j.MaxConnections = 5
}
// default sub jobs can be acquired
if j.MaxSubJobPerLayer <= 0 {
j.MaxSubJobPerLayer = 10
}
j.semaphore = make(chan struct{}, j.MaxConnections)
j.client = newClient(client, j.URL, j.Username, j.Password, j.MaxConnections)
return j.client.init()
}
func (j *Jenkins) gatherNodeData(n node, acc telegraf.Accumulator) error {
tags := map[string]string{}
if n.DisplayName == "" {
return fmt.Errorf("error empty node name")
}
tags["node_name"] = n.DisplayName
// filter out excluded node_name
if j.nodeFilter != nil && j.nodeFilter.Match(tags["node_name"]) {
return nil
}
monitorData := n.MonitorData
if monitorData.HudsonNodeMonitorsArchitectureMonitor != "" {
tags["arch"] = monitorData.HudsonNodeMonitorsArchitectureMonitor
}
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tags["status"] = "online"
if n.Offline {
tags["status"] = "offline"
}
fields := make(map[string]interface{})
fields["num_executors"] = n.NumExecutors
if monitorData.HudsonNodeMonitorsResponseTimeMonitor != nil {
fields["response_time"] = monitorData.HudsonNodeMonitorsResponseTimeMonitor.Average
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}
if monitorData.HudsonNodeMonitorsDiskSpaceMonitor != nil {
tags["disk_path"] = monitorData.HudsonNodeMonitorsDiskSpaceMonitor.Path
fields["disk_available"] = monitorData.HudsonNodeMonitorsDiskSpaceMonitor.Size
}
if monitorData.HudsonNodeMonitorsTemporarySpaceMonitor != nil {
tags["temp_path"] = monitorData.HudsonNodeMonitorsTemporarySpaceMonitor.Path
fields["temp_available"] = monitorData.HudsonNodeMonitorsTemporarySpaceMonitor.Size
}
if monitorData.HudsonNodeMonitorsSwapSpaceMonitor != nil {
fields["swap_available"] = monitorData.HudsonNodeMonitorsSwapSpaceMonitor.SwapAvailable
fields["memory_available"] = monitorData.HudsonNodeMonitorsSwapSpaceMonitor.MemoryAvailable
fields["swap_total"] = monitorData.HudsonNodeMonitorsSwapSpaceMonitor.SwapTotal
fields["memory_total"] = monitorData.HudsonNodeMonitorsSwapSpaceMonitor.MemoryTotal
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}
acc.AddFields(measurementNode, fields, tags)
return nil
}
func (j *Jenkins) gatherNodesData(acc telegraf.Accumulator) {
nodeResp, err := j.client.getAllNodes(context.Background())
if err != nil {
acc.AddError(err)
return
}
// get node data
for _, node := range nodeResp.Computers {
err = j.gatherNodeData(node, acc)
if err == nil {
continue
}
acc.AddError(err)
}
}
func (j *Jenkins) gatherJobs(acc telegraf.Accumulator) {
js, err := j.client.getJobs(context.Background(), nil)
if err != nil {
acc.AddError(err)
return
}
var wg sync.WaitGroup
for _, job := range js.Jobs {
wg.Add(1)
go func(name string, wg *sync.WaitGroup, acc telegraf.Accumulator) {
defer wg.Done()
if err := j.getJobDetail(jobRequest{
name: name,
parents: []string{},
layer: 0,
}, acc); err != nil {
acc.AddError(err)
}
}(job.Name, &wg, acc)
}
wg.Wait()
}
// wrap the tcp request with doGet
// block tcp request if buffered channel is full
func (j *Jenkins) doGet(tcp func() error) error {
j.semaphore <- struct{}{}
if err := tcp(); err != nil {
<-j.semaphore
return err
}
<-j.semaphore
return nil
}
func (j *Jenkins) getJobDetail(jr jobRequest, acc telegraf.Accumulator) error {
if j.MaxSubJobDepth > 0 && jr.layer == j.MaxSubJobDepth {
return nil
}
// filter out excluded job.
if j.jobFilter != nil && j.jobFilter.Match(jr.hierarchyName()) {
return nil
}
js, err := j.client.getJobs(context.Background(), &jr)
if err != nil {
return err
}
var wg sync.WaitGroup
for k, ij := range js.Jobs {
if k < len(js.Jobs)-j.MaxSubJobPerLayer-1 {
continue
}
wg.Add(1)
// schedule tcp fetch for inner jobs
go func(ij innerJob, jr jobRequest, acc telegraf.Accumulator) {
defer wg.Done()
if err := j.getJobDetail(jobRequest{
name: ij.Name,
parents: jr.combined(),
layer: jr.layer + 1,
}, acc); err != nil {
acc.AddError(err)
}
}(ij, jr, acc)
}
wg.Wait()
// collect build info
number := js.LastBuild.Number
if number < 1 {
// no build info
return nil
}
build, err := j.client.getBuild(context.Background(), jr, number)
if err != nil {
return err
}
if build.Building {
j.Log.Debugf("Ignore running build on %s, build %v", jr.name, number)
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return nil
}
// stop if build is too old
// Higher up in gatherJobs
cutoff := time.Now().Add(-1 * j.MaxBuildAge.Duration)
// Here we just test
if build.GetTimestamp().Before(cutoff) {
return nil
}
gatherJobBuild(jr, build, acc)
return nil
}
type nodeResponse struct {
Computers []node `json:"computer"`
}
type node struct {
DisplayName string `json:"displayName"`
Offline bool `json:"offline"`
NumExecutors int `json:"numExecutors"`
MonitorData monitorData `json:"monitorData"`
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}
type monitorData struct {
HudsonNodeMonitorsArchitectureMonitor string `json:"hudson.node_monitors.ArchitectureMonitor"`
HudsonNodeMonitorsDiskSpaceMonitor *nodeSpaceMonitor `json:"hudson.node_monitors.DiskSpaceMonitor"`
HudsonNodeMonitorsResponseTimeMonitor *responseTimeMonitor `json:"hudson.node_monitors.ResponseTimeMonitor"`
HudsonNodeMonitorsSwapSpaceMonitor *swapSpaceMonitor `json:"hudson.node_monitors.SwapSpaceMonitor"`
HudsonNodeMonitorsTemporarySpaceMonitor *nodeSpaceMonitor `json:"hudson.node_monitors.TemporarySpaceMonitor"`
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}
type nodeSpaceMonitor struct {
Path string `json:"path"`
Size float64 `json:"size"`
}
type responseTimeMonitor struct {
Average int64 `json:"average"`
}
type swapSpaceMonitor struct {
SwapAvailable float64 `json:"availableSwapSpace"`
SwapTotal float64 `json:"totalSwapSpace"`
MemoryAvailable float64 `json:"availablePhysicalMemory"`
MemoryTotal float64 `json:"totalPhysicalMemory"`
}
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type jobResponse struct {
LastBuild jobBuild `json:"lastBuild"`
Jobs []innerJob `json:"jobs"`
Name string `json:"name"`
}
type innerJob struct {
Name string `json:"name"`
URL string `json:"url"`
Color string `json:"color"`
}
type jobBuild struct {
Number int64
URL string
}
type buildResponse struct {
Building bool `json:"building"`
Duration int64 `json:"duration"`
Result string `json:"result"`
Timestamp int64 `json:"timestamp"`
}
func (b *buildResponse) GetTimestamp() time.Time {
return time.Unix(0, int64(b.Timestamp)*int64(time.Millisecond))
}
const (
nodePath = "/computer/api/json"
jobPath = "/api/json"
)
type jobRequest struct {
name string
parents []string
layer int
}
func (jr jobRequest) combined() []string {
return append(jr.parents, jr.name)
}
func (jr jobRequest) URL() string {
return "/job/" + strings.Join(jr.combined(), "/job/") + jobPath
}
func (jr jobRequest) buildURL(number int64) string {
return "/job/" + strings.Join(jr.combined(), "/job/") + "/" + strconv.Itoa(int(number)) + jobPath
}
func (jr jobRequest) hierarchyName() string {
return strings.Join(jr.combined(), "/")
}
func (jr jobRequest) parentsString() string {
return strings.Join(jr.parents, "/")
}
func gatherJobBuild(jr jobRequest, b *buildResponse, acc telegraf.Accumulator) {
tags := map[string]string{"name": jr.name, "parents": jr.parentsString(), "result": b.Result}
fields := make(map[string]interface{})
fields["duration"] = b.Duration
fields["result_code"] = mapResultCode(b.Result)
acc.AddFields(measurementJob, fields, tags, b.GetTimestamp())
}
// perform status mapping
func mapResultCode(s string) int {
switch strings.ToLower(s) {
case "success":
return 0
case "failure":
return 1
case "not_built":
return 2
case "unstable":
return 3
case "aborted":
return 4
}
return -1
}
func init() {
inputs.Add("jenkins", func() telegraf.Input {
return &Jenkins{
MaxBuildAge: internal.Duration{Duration: time.Duration(time.Hour)},
MaxConnections: 5,
MaxSubJobPerLayer: 10,
}
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})
}