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VictoriaMetrics/lib/promscrape/discovery/kubernetes/api_watcher.go
Aliaksandr Valialkin 3449d563bd
all: add up to 10% random jitter to the interval between periodic tasks performed by various components 
This should smooth CPU and RAM usage spikes related to these periodic tasks,
by reducing the probability that multiple concurrent periodic tasks are performed at the same time.
2024-01-22 18:40:32 +02:00

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package kubernetes
import (
"context"
"encoding/json"
"errors"
"flag"
"fmt"
"io"
"net/http"
"net/url"
"os"
"reflect"
"strconv"
"strings"
"sync"
"sync/atomic"
"time"
"github.com/VictoriaMetrics/metrics"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/cgroup"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/promauth"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/promutils"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/timerpool"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/timeutil"
)
var (
apiServerTimeout = flag.Duration("promscrape.kubernetes.apiServerTimeout", 30*time.Minute, "How frequently to reload the full state from Kubernetes API server")
attachNodeMetadataAll = flag.Bool("promscrape.kubernetes.attachNodeMetadataAll", false, "Whether to set attach_metadata.node=true for all the kubernetes_sd_configs at -promscrape.config . "+
"It is possible to set attach_metadata.node=false individually per each kubernetes_sd_configs . See https://docs.victoriametrics.com/sd_configs.html#kubernetes_sd_configs")
)
// WatchEvent is a watch event returned from API server endpoints if `watch=1` query arg is set.
//
// See https://kubernetes.io/docs/reference/using-api/api-concepts/#efficient-detection-of-changes
type WatchEvent struct {
Type string
Object json.RawMessage
}
// object is any Kubernetes object.
type object interface {
key() string
// getTargetLabels must be called under gw.mu lock.
getTargetLabels(gw *groupWatcher) []*promutils.Labels
}
// parseObjectFunc must parse object from the given data.
type parseObjectFunc func(data []byte) (object, error)
// parseObjectListFunc must parse objectList from the given r.
type parseObjectListFunc func(r io.Reader) (map[string]object, ListMeta, error)
// apiWatcher is used for watching for Kubernetes object changes and caching their latest states.
type apiWatcher struct {
role string
// Constructor for creating ScrapeWork objects from labels
swcFunc ScrapeWorkConstructorFunc
gw *groupWatcher
// swosByURLWatcher contains per-urlWatcher maps of ScrapeWork objects for the given apiWatcher
swosByURLWatcher map[*urlWatcher]map[string][]interface{}
swosByURLWatcherLock sync.Mutex
swosCount *metrics.Counter
}
func newAPIWatcher(apiServer string, ac *promauth.Config, sdc *SDConfig, swcFunc ScrapeWorkConstructorFunc) (*apiWatcher, error) {
namespaces := sdc.Namespaces.Names
if len(namespaces) == 0 {
if sdc.Namespaces.OwnNamespace {
namespace, err := os.ReadFile("/var/run/secrets/kubernetes.io/serviceaccount/namespace")
if err != nil {
return nil, fmt.Errorf("cannot determine namespace for the current pod according to `own_namespace: true` option in kubernetes_sd_config: %w", err)
}
namespaces = []string{string(namespace)}
}
}
selectors := sdc.Selectors
attachNodeMetadata := *attachNodeMetadataAll
if sdc.AttachMetadata != nil {
attachNodeMetadata = sdc.AttachMetadata.Node
}
proxyURL := sdc.ProxyURL.GetURL()
gw, err := getGroupWatcher(apiServer, ac, namespaces, selectors, attachNodeMetadata, proxyURL)
if err != nil {
return nil, err
}
role := sdc.role()
aw := &apiWatcher{
role: role,
swcFunc: swcFunc,
gw: gw,
swosByURLWatcher: make(map[*urlWatcher]map[string][]interface{}),
swosCount: metrics.GetOrCreateCounter(fmt.Sprintf(`vm_promscrape_discovery_kubernetes_scrape_works{role=%q}`, role)),
}
return aw, nil
}
func (aw *apiWatcher) mustStart() {
atomic.AddInt32(&aw.gw.apiWatcherInflightStartCalls, 1)
aw.gw.startWatchersForRole(aw.role, aw)
atomic.AddInt32(&aw.gw.apiWatcherInflightStartCalls, -1)
}
func (aw *apiWatcher) updateSwosCount(multiplier int, swosByKey map[string][]interface{}) {
n := 0
for _, swos := range swosByKey {
n += len(swos)
}
n *= multiplier
aw.swosCount.Add(n)
}
func (aw *apiWatcher) mustStop() {
aw.gw.unsubscribeAPIWatcher(aw)
aw.swosByURLWatcherLock.Lock()
for _, swosByKey := range aw.swosByURLWatcher {
aw.updateSwosCount(-1, swosByKey)
}
aw.swosByURLWatcher = make(map[*urlWatcher]map[string][]interface{})
aw.swosByURLWatcherLock.Unlock()
}
func (aw *apiWatcher) replaceScrapeWorks(uw *urlWatcher, swosByKey map[string][]interface{}) {
aw.swosByURLWatcherLock.Lock()
aw.updateSwosCount(-1, aw.swosByURLWatcher[uw])
aw.updateSwosCount(1, swosByKey)
aw.swosByURLWatcher[uw] = swosByKey
aw.swosByURLWatcherLock.Unlock()
}
func (aw *apiWatcher) updateScrapeWorks(uw *urlWatcher, swosByKey map[string][]interface{}) {
aw.swosByURLWatcherLock.Lock()
dst := aw.swosByURLWatcher[uw]
if dst == nil {
dst = make(map[string][]interface{})
aw.swosByURLWatcher[uw] = dst
}
for key, swos := range swosByKey {
aw.swosCount.Add(len(swos) - len(dst[key]))
if len(swos) == 0 {
delete(dst, key)
} else {
dst[key] = swos
}
}
aw.swosByURLWatcherLock.Unlock()
}
func (aw *apiWatcher) setScrapeWorks(uw *urlWatcher, key string, labelss []*promutils.Labels) {
swos := getScrapeWorkObjectsForLabels(aw.swcFunc, labelss)
aw.swosByURLWatcherLock.Lock()
swosByKey := aw.swosByURLWatcher[uw]
if swosByKey == nil {
swosByKey = make(map[string][]interface{})
aw.swosByURLWatcher[uw] = swosByKey
}
aw.swosCount.Add(len(swos) - len(swosByKey[key]))
if len(swos) == 0 {
delete(swosByKey, key)
} else {
swosByKey[key] = swos
}
aw.swosByURLWatcherLock.Unlock()
}
func (aw *apiWatcher) removeScrapeWorks(uw *urlWatcher, key string) {
aw.swosByURLWatcherLock.Lock()
swosByKey := aw.swosByURLWatcher[uw]
if len(swosByKey) > 0 {
aw.swosCount.Add(-len(swosByKey[key]))
delete(swosByKey, key)
}
aw.swosByURLWatcherLock.Unlock()
}
func getScrapeWorkObjectsForLabels(swcFunc ScrapeWorkConstructorFunc, labelss []*promutils.Labels) []interface{} {
// Do not pre-allocate swos, since it is likely the swos will be empty because of relabeling
var swos []interface{}
for _, labels := range labelss {
swo := swcFunc(labels)
// The reflect check is needed because of https://mangatmodi.medium.com/go-check-nil-interface-the-right-way-d142776edef1
if swo != nil && !reflect.ValueOf(swo).IsNil() {
swos = append(swos, swo)
}
}
return swos
}
// getScrapeWorkObjects returns all the ScrapeWork objects for the given aw.
func (aw *apiWatcher) getScrapeWorkObjects() []interface{} {
aw.gw.registerPendingAPIWatchers()
swos := make([]interface{}, 0, aw.swosCount.Get())
aw.swosByURLWatcherLock.Lock()
for _, swosByKey := range aw.swosByURLWatcher {
for _, swosLocal := range swosByKey {
swos = append(swos, swosLocal...)
}
}
aw.swosByURLWatcherLock.Unlock()
return swos
}
// groupWatcher watches for Kubernetes objects on the given apiServer with the given namespaces,
// selectors and attachNodeMetadata using the given client.
type groupWatcher struct {
// The number of in-flight apiWatcher.mustStart() calls for the given groupWatcher.
// This field is used by groupWatchersCleaner() in order to determine when the given groupWatcher can be stopped.
apiWatcherInflightStartCalls int32
// Old Kubernetes doesn't support /apis/networking.k8s.io/v1/, so /apis/networking.k8s.io/v1beta1/ must be used instead.
// This flag is used for automatic substitution of v1 API path with v1beta1 API path during requests to apiServer.
useNetworkingV1Beta1 uint32
// Old Kubernetes doesn't support /apis/discovery.k8s.io/v1/, so discovery.k8s.io/v1beta1/ must be used instead.
// This flag is used for automatic substitution of v1 API path with v1beta1 API path during requests to apiServer.
useDiscoveryV1Beta1 uint32
apiServer string
namespaces []string
selectors []Selector
attachNodeMetadata bool
setHeaders func(req *http.Request) error
client *http.Client
mu sync.Mutex
m map[string]*urlWatcher
// cancel is used for stopping all the urlWatcher instances inside m,
// which must check for ctx.Done() when performing their background watch work.
ctx context.Context
cancel context.CancelFunc
// noAPIWatchers is set to true when there are no API watchers for the given groupWatcher.
// This field is used for determining when it is safe to stop all the urlWatcher instances
// for the given groupWatcher.
noAPIWatchers bool
}
func newGroupWatcher(apiServer string, ac *promauth.Config, namespaces []string, selectors []Selector, attachNodeMetadata bool, proxyURL *url.URL) (*groupWatcher, error) {
var proxy func(*http.Request) (*url.URL, error)
if proxyURL != nil {
proxy = http.ProxyURL(proxyURL)
}
tlsConfig, err := ac.NewTLSConfig()
if err != nil {
return nil, fmt.Errorf("cannot initialize tls config: %w", err)
}
client := &http.Client{
Transport: &http.Transport{
TLSClientConfig: tlsConfig,
Proxy: proxy,
TLSHandshakeTimeout: 10 * time.Second,
IdleConnTimeout: *apiServerTimeout,
MaxIdleConnsPerHost: 100,
},
Timeout: *apiServerTimeout,
}
ctx, cancel := context.WithCancel(context.Background())
gw := &groupWatcher{
apiServer: apiServer,
namespaces: namespaces,
selectors: selectors,
attachNodeMetadata: attachNodeMetadata,
setHeaders: func(req *http.Request) error {
return ac.SetHeaders(req, true)
},
client: client,
m: make(map[string]*urlWatcher),
ctx: ctx,
cancel: cancel,
}
return gw, nil
}
func getGroupWatcher(apiServer string, ac *promauth.Config, namespaces []string, selectors []Selector, attachNodeMetadata bool, proxyURL *url.URL) (*groupWatcher, error) {
proxyURLStr := "<nil>"
if proxyURL != nil {
proxyURLStr = proxyURL.String()
}
key := fmt.Sprintf("apiServer=%s, namespaces=%s, selectors=%s, attachNodeMetadata=%v, proxyURL=%s, authConfig=%s",
apiServer, namespaces, selectorsKey(selectors), attachNodeMetadata, proxyURLStr, ac.String())
groupWatchersLock.Lock()
gw := groupWatchers[key]
var err error
if gw == nil {
gw, err = newGroupWatcher(apiServer, ac, namespaces, selectors, attachNodeMetadata, proxyURL)
if err != nil {
err = fmt.Errorf("cannot initialize watcher for key={%s}: %w", key, err)
} else {
groupWatchers[key] = gw
}
}
groupWatchersLock.Unlock()
return gw, err
}
func selectorsKey(selectors []Selector) string {
var sb strings.Builder
for _, s := range selectors {
fmt.Fprintf(&sb, "{role=%q, label=%q, field=%q}", s.Role, s.Label, s.Field)
}
return sb.String()
}
var (
groupWatchersLock sync.Mutex
groupWatchers map[string]*groupWatcher
_ = metrics.NewGauge(`vm_promscrape_discovery_kubernetes_group_watchers`, func() float64 {
groupWatchersLock.Lock()
n := len(groupWatchers)
groupWatchersLock.Unlock()
return float64(n)
})
)
func init() {
groupWatchers = make(map[string]*groupWatcher)
go groupWatchersCleaner()
}
func groupWatchersCleaner() {
for {
time.Sleep(7 * time.Second)
groupWatchersLock.Lock()
for key, gw := range groupWatchers {
gw.mu.Lock()
// Calculate the number of apiWatcher instances subscribed to gw.
awsTotal := 0
for _, uw := range gw.m {
awsTotal += len(uw.aws) + len(uw.awsPending)
}
if awsTotal == 0 && atomic.LoadInt32(&gw.apiWatcherInflightStartCalls) == 0 {
// There are no API watchers subscribed to gw and there are no in-flight apiWatcher.mustStart() calls.
// Stop all the urlWatcher instances at gw and drop gw from groupWatchers in this case,
// but do it only on the second iteration in order to reduce urlWatcher churn
// during scrape config reloads.
if gw.noAPIWatchers {
gw.cancel()
delete(groupWatchers, key)
} else {
gw.noAPIWatchers = true
}
} else {
gw.noAPIWatchers = false
}
gw.mu.Unlock()
}
groupWatchersLock.Unlock()
}
}
type swosByKeyWithLock struct {
mu sync.Mutex
swosByKey map[string][]interface{}
}
func (gw *groupWatcher) getScrapeWorkObjectsByAPIWatcherLocked(objectsByKey map[string]object, awsMap map[*apiWatcher]struct{}) map[*apiWatcher]*swosByKeyWithLock {
if len(awsMap) == 0 {
return nil
}
swosByAPIWatcher := make(map[*apiWatcher]*swosByKeyWithLock, len(awsMap))
for aw := range awsMap {
swosByAPIWatcher[aw] = &swosByKeyWithLock{
swosByKey: make(map[string][]interface{}),
}
}
// Generate ScrapeWork objects in parallel on available CPU cores.
// This should reduce the time needed for their generation on systems with many CPU cores.
var wg sync.WaitGroup
limiterCh := make(chan struct{}, cgroup.AvailableCPUs())
for key, o := range objectsByKey {
labelss := o.getTargetLabels(gw)
wg.Add(1)
limiterCh <- struct{}{}
go func(key string, labelss []*promutils.Labels) {
for aw, e := range swosByAPIWatcher {
swos := getScrapeWorkObjectsForLabels(aw.swcFunc, labelss)
e.mu.Lock()
e.swosByKey[key] = swos
e.mu.Unlock()
}
putLabelssToPool(labelss)
wg.Done()
<-limiterCh
}(key, labelss)
}
wg.Wait()
return swosByAPIWatcher
}
func putLabelssToPool(labelss []*promutils.Labels) {
for _, labels := range labelss {
promutils.PutLabels(labels)
}
}
func (gw *groupWatcher) getObjectByRoleLocked(role, namespace, name string) object {
if role == "node" {
// Node objects have no namespace
namespace = ""
}
key := namespace + "/" + name
for _, uw := range gw.m {
if uw.role != role {
// Role mismatch
continue
}
if namespace != "" && uw.namespace != "" && uw.namespace != namespace {
// Namespace mismatch
continue
}
if o := uw.objectsByKey[key]; o != nil {
return o
}
}
return nil
}
func (gw *groupWatcher) startWatchersForRole(role string, aw *apiWatcher) {
if role == "endpoints" || role == "endpointslice" {
// endpoints and endpointslice watchers query pod and service objects. So start watchers for these roles as well.
gw.startWatchersForRole("pod", nil)
gw.startWatchersForRole("service", nil)
}
if gw.attachNodeMetadata && (role == "pod" || role == "endpoints" || role == "endpointslice") {
gw.startWatchersForRole("node", nil)
}
paths := getAPIPathsWithNamespaces(role, gw.namespaces, gw.selectors)
for _, path := range paths {
apiURL := gw.apiServer + path
gw.mu.Lock()
uw := gw.m[apiURL]
needStart := uw == nil
if needStart {
uw = newURLWatcher(role, apiURL, gw)
gw.m[apiURL] = uw
}
if aw != nil {
uw.subscribeAPIWatcherLocked(aw)
}
gw.mu.Unlock()
if needStart {
uw.reloadObjects()
go uw.watchForUpdates()
if role == "endpoints" || role == "endpointslice" || (gw.attachNodeMetadata && role == "pod") {
// Refresh targets in background, since they depend on other object types such as pod, service or node.
// This should guarantee that the ScrapeWork objects for these objects are properly updated
// as soon as the objects they depend on are updated.
// This should fix https://github.com/VictoriaMetrics/VictoriaMetrics/issues/1240 .
go uw.recreateScrapeWorks()
}
}
}
}
// doRequest performs http request to the given requestURL.
func (gw *groupWatcher) doRequest(ctx context.Context, requestURL string) (*http.Response, error) {
if strings.Contains(requestURL, "/apis/networking.k8s.io/v1/") && atomic.LoadUint32(&gw.useNetworkingV1Beta1) == 1 {
// Update networking URL for old Kubernetes API, which supports only v1beta1 path.
requestURL = strings.Replace(requestURL, "/apis/networking.k8s.io/v1/", "/apis/networking.k8s.io/v1beta1/", 1)
}
if strings.Contains(requestURL, "/apis/discovery.k8s.io/v1/") && atomic.LoadUint32(&gw.useDiscoveryV1Beta1) == 1 {
// Update discovery URL for old Kubernetes API, which supports only v1beta1 path.
requestURL = strings.Replace(requestURL, "/apis/discovery.k8s.io/v1/", "/apis/discovery.k8s.io/v1beta1/", 1)
}
req, err := http.NewRequestWithContext(ctx, http.MethodGet, requestURL, nil)
if err != nil {
logger.Panicf("FATAL: cannot create a request for %q: %s", requestURL, err)
}
if err := gw.setHeaders(req); err != nil {
return nil, fmt.Errorf("cannot set request headers: %w", err)
}
resp, err := gw.client.Do(req)
if err != nil {
return nil, err
}
if resp.StatusCode == http.StatusNotFound {
if strings.Contains(requestURL, "/apis/networking.k8s.io/v1/") && atomic.LoadUint32(&gw.useNetworkingV1Beta1) == 0 {
atomic.StoreUint32(&gw.useNetworkingV1Beta1, 1)
return gw.doRequest(ctx, requestURL)
}
if strings.Contains(requestURL, "/apis/discovery.k8s.io/v1/") && atomic.LoadUint32(&gw.useDiscoveryV1Beta1) == 0 {
atomic.StoreUint32(&gw.useDiscoveryV1Beta1, 1)
return gw.doRequest(ctx, requestURL)
}
}
return resp, nil
}
func (gw *groupWatcher) registerPendingAPIWatchers() {
gw.mu.Lock()
for _, uw := range gw.m {
uw.registerPendingAPIWatchersLocked()
}
gw.mu.Unlock()
}
func (gw *groupWatcher) unsubscribeAPIWatcher(aw *apiWatcher) {
gw.mu.Lock()
for _, uw := range gw.m {
uw.unsubscribeAPIWatcherLocked(aw)
}
gw.mu.Unlock()
}
// urlWatcher watches for an apiURL and updates object states in objectsByKey.
//
// urlWatcher fields must be accessed under gw.mu lock.
type urlWatcher struct {
role string
namespace string
apiURL string
gw *groupWatcher
parseObject parseObjectFunc
parseObjectList parseObjectListFunc
// awsPending contains pending apiWatcher objects, which are registered in a batch.
// Batch registering saves CPU time needed for registering big number of Kubernetes objects
// shared among big number of scrape jobs, since per-object labels are generated only once
// for all the scrape jobs (each scrape job is associated with a single apiWatcher).
// See registerPendingAPIWatchersLocked for details.
awsPending map[*apiWatcher]struct{}
// aws contains registered apiWatcher objects
aws map[*apiWatcher]struct{}
// objectsByKey contains the latest state for objects obtained from apiURL
objectsByKey map[string]object
needRecreateScrapeWorks bool
resourceVersion string
objectsCount *metrics.Counter
objectsAdded *metrics.Counter
objectsRemoved *metrics.Counter
objectsUpdated *metrics.Counter
staleResourceVersions *metrics.Counter
}
func newURLWatcher(role, apiURL string, gw *groupWatcher) *urlWatcher {
parseObject, parseObjectList := getObjectParsersForRole(role)
metrics.GetOrCreateCounter(fmt.Sprintf(`vm_promscrape_discovery_kubernetes_url_watchers{role=%q}`, role)).Inc()
uw := &urlWatcher{
role: role,
apiURL: apiURL,
gw: gw,
parseObject: parseObject,
parseObjectList: parseObjectList,
awsPending: make(map[*apiWatcher]struct{}),
aws: make(map[*apiWatcher]struct{}),
objectsByKey: make(map[string]object),
objectsCount: metrics.GetOrCreateCounter(fmt.Sprintf(`vm_promscrape_discovery_kubernetes_objects{role=%q}`, role)),
objectsAdded: metrics.GetOrCreateCounter(fmt.Sprintf(`vm_promscrape_discovery_kubernetes_objects_added_total{role=%q}`, role)),
objectsRemoved: metrics.GetOrCreateCounter(fmt.Sprintf(`vm_promscrape_discovery_kubernetes_objects_removed_total{role=%q}`, role)),
objectsUpdated: metrics.GetOrCreateCounter(fmt.Sprintf(`vm_promscrape_discovery_kubernetes_objects_updated_total{role=%q}`, role)),
staleResourceVersions: metrics.GetOrCreateCounter(fmt.Sprintf(`vm_promscrape_discovery_kubernetes_stale_resource_versions_total{role=%q}`, role)),
}
logger.Infof("started %s watcher for %q", uw.role, uw.apiURL)
return uw
}
func (uw *urlWatcher) recreateScrapeWorks() {
minSleepTime := timeutil.AddJitterToDuration(5 * time.Second)
sleepTime := minSleepTime
gw := uw.gw
stopCh := gw.ctx.Done()
for {
t := timerpool.Get(sleepTime)
select {
case <-stopCh:
timerpool.Put(t)
return
case <-t.C:
timerpool.Put(t)
}
startTime := time.Now()
gw.mu.Lock()
if uw.needRecreateScrapeWorks {
uw.needRecreateScrapeWorks = false
uw.recreateScrapeWorksLocked(uw.objectsByKey, uw.aws)
sleepTime = time.Since(startTime)
if sleepTime < minSleepTime {
sleepTime = minSleepTime
}
}
gw.mu.Unlock()
}
}
func (uw *urlWatcher) subscribeAPIWatcherLocked(aw *apiWatcher) {
if _, ok := uw.aws[aw]; !ok {
if _, ok := uw.awsPending[aw]; !ok {
uw.awsPending[aw] = struct{}{}
metrics.GetOrCreateCounter(fmt.Sprintf(`vm_promscrape_discovery_kubernetes_subscribers{role=%q,status="pending"}`, uw.role)).Inc()
}
}
}
func (uw *urlWatcher) registerPendingAPIWatchersLocked() {
if len(uw.awsPending) == 0 {
return
}
uw.recreateScrapeWorksLocked(uw.objectsByKey, uw.awsPending)
for aw := range uw.awsPending {
uw.aws[aw] = struct{}{}
}
awsPendingLen := len(uw.awsPending)
uw.awsPending = make(map[*apiWatcher]struct{})
metrics.GetOrCreateCounter(fmt.Sprintf(`vm_promscrape_discovery_kubernetes_subscribers{role=%q,status="working"}`, uw.role)).Add(awsPendingLen)
metrics.GetOrCreateCounter(fmt.Sprintf(`vm_promscrape_discovery_kubernetes_subscribers{role=%q,status="pending"}`, uw.role)).Add(-awsPendingLen)
}
func (uw *urlWatcher) recreateScrapeWorksLocked(objectsByKey map[string]object, awsMap map[*apiWatcher]struct{}) {
es := uw.gw.getScrapeWorkObjectsByAPIWatcherLocked(objectsByKey, awsMap)
for aw, e := range es {
swosByKey := e.swosByKey
for key, swos := range swosByKey {
if len(swos) == 0 {
delete(swosByKey, key)
}
}
aw.replaceScrapeWorks(uw, swosByKey)
}
}
func (uw *urlWatcher) updateScrapeWorksLocked(objectsByKey map[string]object, awsMap map[*apiWatcher]struct{}) {
es := uw.gw.getScrapeWorkObjectsByAPIWatcherLocked(objectsByKey, awsMap)
for aw, e := range es {
aw.updateScrapeWorks(uw, e.swosByKey)
}
}
func (uw *urlWatcher) removeScrapeWorksLocked(keys []string) {
for _, key := range keys {
for aw := range uw.aws {
aw.removeScrapeWorks(uw, key)
}
}
}
func (uw *urlWatcher) unsubscribeAPIWatcherLocked(aw *apiWatcher) {
if _, ok := uw.awsPending[aw]; ok {
delete(uw.awsPending, aw)
metrics.GetOrCreateCounter(fmt.Sprintf(`vm_promscrape_discovery_kubernetes_subscribers{role=%q,status="pending"}`, uw.role)).Dec()
}
if _, ok := uw.aws[aw]; ok {
delete(uw.aws, aw)
metrics.GetOrCreateCounter(fmt.Sprintf(`vm_promscrape_discovery_kubernetes_subscribers{role=%q,status="working"}`, uw.role)).Dec()
}
}
// reloadObjects reloads objects to the latest state and returns resourceVersion for the latest state.
func (uw *urlWatcher) reloadObjects() string {
if uw.resourceVersion != "" {
// Fast path - there is no need in reloading the objects.
return uw.resourceVersion
}
gw := uw.gw
startTime := time.Now()
apiURL := uw.apiURL
// Set resourceVersion to 0 in order to reduce load on Kubernetes control plane.
// See https://kubernetes.io/docs/reference/using-api/api-concepts/#semantics-for-get-and-list
// and https://github.com/VictoriaMetrics/VictoriaMetrics/issues/4855 .
delimiter := getQueryArgsDelimiter(apiURL)
requestURL := apiURL + delimiter + "resourceVersion=0&resourceVersionMatch=NotOlderThan"
resp, err := gw.doRequest(gw.ctx, requestURL)
if err != nil {
if !errors.Is(err, context.Canceled) {
logger.Errorf("cannot perform request to %q: %s", requestURL, err)
}
return ""
}
if resp.StatusCode != http.StatusOK {
body, _ := io.ReadAll(resp.Body)
_ = resp.Body.Close()
logger.Errorf("unexpected status code for request to %q: %d; want %d; response: %q", requestURL, resp.StatusCode, http.StatusOK, body)
return ""
}
objectsByKey, metadata, err := uw.parseObjectList(resp.Body)
_ = resp.Body.Close()
if err != nil {
logger.Errorf("cannot parse objects from %q: %s", requestURL, err)
return ""
}
gw.mu.Lock()
objectsAdded := make(map[string]object)
objectsUpdated := make(map[string]object)
var objectsRemoved []string
for key, oPrev := range uw.objectsByKey {
o, ok := objectsByKey[key]
if ok {
if !reflect.DeepEqual(oPrev, o) {
objectsUpdated[key] = o
}
// Overwrite oPrev with o even if these objects are equal.
// This should free up memory associated with oPrev.
uw.objectsByKey[key] = o
} else {
objectsRemoved = append(objectsRemoved, key)
delete(uw.objectsByKey, key)
}
}
for key, o := range objectsByKey {
if _, ok := uw.objectsByKey[key]; !ok {
objectsAdded[key] = o
uw.objectsByKey[key] = o
}
}
uw.removeScrapeWorksLocked(objectsRemoved)
uw.updateScrapeWorksLocked(objectsUpdated, uw.aws)
uw.updateScrapeWorksLocked(objectsAdded, uw.aws)
uw.needRecreateScrapeWorks = false
if len(objectsRemoved) > 0 || len(objectsUpdated) > 0 || len(objectsAdded) > 0 {
uw.maybeUpdateDependedScrapeWorksLocked()
}
gw.mu.Unlock()
uw.objectsUpdated.Add(len(objectsUpdated))
uw.objectsRemoved.Add(len(objectsRemoved))
uw.objectsAdded.Add(len(objectsAdded))
uw.objectsCount.Add(len(objectsAdded) - len(objectsRemoved))
uw.resourceVersion = metadata.ResourceVersion
logger.Infof("reloaded %d objects from %q in %.3fs; updated=%d, removed=%d, added=%d, resourceVersion=%q",
len(objectsByKey), requestURL, time.Since(startTime).Seconds(), len(objectsUpdated), len(objectsRemoved), len(objectsAdded), uw.resourceVersion)
return uw.resourceVersion
}
// watchForUpdates watches for object updates starting from uw.resourceVersion and updates the corresponding objects to the latest state.
//
// See https://kubernetes.io/docs/reference/using-api/api-concepts/#efficient-detection-of-changes
func (uw *urlWatcher) watchForUpdates() {
gw := uw.gw
stopCh := gw.ctx.Done()
minBackoffDelay := timeutil.AddJitterToDuration(time.Second)
maxBackoffDelay := timeutil.AddJitterToDuration(time.Second * 30)
backoffDelay := minBackoffDelay
backoffSleep := func() {
t := timerpool.Get(backoffDelay)
select {
case <-stopCh:
timerpool.Put(t)
return
case <-t.C:
timerpool.Put(t)
}
backoffDelay *= 2
if backoffDelay > maxBackoffDelay {
backoffDelay = maxBackoffDelay
}
}
apiURL := uw.apiURL
delimiter := getQueryArgsDelimiter(apiURL)
timeoutSeconds := time.Duration(0.9 * float64(gw.client.Timeout)).Seconds()
apiURL += delimiter + "watch=1&allowWatchBookmarks=true&timeoutSeconds=" + strconv.Itoa(int(timeoutSeconds))
for {
select {
case <-stopCh:
metrics.GetOrCreateCounter(fmt.Sprintf(`vm_promscrape_discovery_kubernetes_url_watchers{role=%q}`, uw.role)).Dec()
logger.Infof("stopped %s watcher for %q", uw.role, uw.apiURL)
return
default:
}
resourceVersion := uw.reloadObjects()
if resourceVersion == "" {
backoffSleep()
continue
}
requestURL := apiURL + "&resourceVersion=" + url.QueryEscape(resourceVersion)
resp, err := gw.doRequest(gw.ctx, requestURL)
if err != nil {
if !errors.Is(err, context.Canceled) {
logger.Errorf("cannot perform request to %q: %s", requestURL, err)
backoffSleep()
}
continue
}
if resp.StatusCode != http.StatusOK {
if resp.StatusCode == 410 {
// There is no need for sleep on 410 error. See https://kubernetes.io/docs/reference/using-api/api-concepts/#410-gone-responses
backoffDelay = minBackoffDelay
uw.staleResourceVersions.Inc()
uw.resourceVersion = ""
} else {
body, _ := io.ReadAll(resp.Body)
_ = resp.Body.Close()
logger.Errorf("unexpected status code for request to %q: %d; want %d; response: %q", requestURL, resp.StatusCode, http.StatusOK, body)
backoffSleep()
}
continue
}
backoffDelay = minBackoffDelay
err = uw.readObjectUpdateStream(resp.Body)
_ = resp.Body.Close()
if err != nil {
if !errors.Is(err, io.EOF) && !errors.Is(err, context.Canceled) {
logger.Errorf("error when reading WatchEvent stream from %q: %s", requestURL, err)
uw.resourceVersion = ""
}
backoffSleep()
continue
}
}
}
// readObjectUpdateStream reads Kubernetes watch events from r and updates locally cached objects according to the received events.
func (uw *urlWatcher) readObjectUpdateStream(r io.Reader) error {
gw := uw.gw
d := json.NewDecoder(r)
var we WatchEvent
for {
if err := d.Decode(&we); err != nil {
return fmt.Errorf("cannot parse WatchEvent json response: %w", err)
}
switch we.Type {
case "ADDED", "MODIFIED":
o, err := uw.parseObject(we.Object)
if err != nil {
return fmt.Errorf("cannot parse %s object: %w", we.Type, err)
}
key := o.key()
gw.mu.Lock()
uw.updateObjectLocked(key, o)
gw.mu.Unlock()
case "DELETED":
o, err := uw.parseObject(we.Object)
if err != nil {
return fmt.Errorf("cannot parse %s object: %w", we.Type, err)
}
key := o.key()
gw.mu.Lock()
uw.removeObjectLocked(key)
gw.mu.Unlock()
case "BOOKMARK":
// See https://kubernetes.io/docs/reference/using-api/api-concepts/#watch-bookmarks
bm, err := parseBookmark(we.Object)
if err != nil {
return fmt.Errorf("cannot parse bookmark from %q: %w", we.Object, err)
}
uw.resourceVersion = bm.Metadata.ResourceVersion
case "ERROR":
em, err := parseError(we.Object)
if err != nil {
return fmt.Errorf("cannot parse error message from %q: %w", we.Object, err)
}
if em.Code == 410 {
// See https://kubernetes.io/docs/reference/using-api/api-concepts/#410-gone-responses
uw.staleResourceVersions.Inc()
uw.resourceVersion = ""
return nil
}
return fmt.Errorf("unexpected error message: %q", we.Object)
default:
return fmt.Errorf("unexpected WatchEvent type %q: %q", we.Type, we.Object)
}
}
}
func (uw *urlWatcher) updateObjectLocked(key string, o object) {
oPrev, ok := uw.objectsByKey[key]
// Overwrite oPrev with o even if these objects are equal.
// This should free up memory associated with oPrev.
uw.objectsByKey[key] = o
if !ok {
uw.objectsCount.Inc()
uw.objectsAdded.Inc()
} else {
if reflect.DeepEqual(oPrev, o) {
// Nothing to do, since the new object is equal to the previous one.
return
}
uw.objectsUpdated.Inc()
}
if len(uw.aws) > 0 {
labelss := o.getTargetLabels(uw.gw)
for aw := range uw.aws {
aw.setScrapeWorks(uw, key, labelss)
}
putLabelssToPool(labelss)
}
uw.maybeUpdateDependedScrapeWorksLocked()
}
func (uw *urlWatcher) removeObjectLocked(key string) {
if _, ok := uw.objectsByKey[key]; !ok {
return
}
uw.objectsCount.Dec()
uw.objectsRemoved.Inc()
delete(uw.objectsByKey, key)
for aw := range uw.aws {
aw.removeScrapeWorks(uw, key)
}
uw.maybeUpdateDependedScrapeWorksLocked()
}
func (uw *urlWatcher) maybeUpdateDependedScrapeWorksLocked() {
role := uw.role
attachNodeMetadata := uw.gw.attachNodeMetadata
if !(role == "pod" || role == "service" || (attachNodeMetadata && role == "node")) {
// Nothing to update
return
}
namespace := uw.namespace
for _, uwx := range uw.gw.m {
if namespace != "" && uwx.namespace != "" && uwx.namespace != namespace {
// Namespace mismatch
continue
}
if (role == "pod" || role == "service") && (uwx.role == "endpoints" || uwx.role == "endpointslice") {
// endpoints and endpointslice objects depend on pods and service objects
uwx.needRecreateScrapeWorks = true
continue
}
if attachNodeMetadata && role == "node" && (uwx.role == "pod" || uwx.role == "endpoints" || uwx.role == "endpointslice") {
// pod, endpoints and enpointslices objects depend on node objects if attachNodeMetadata is set
uwx.needRecreateScrapeWorks = true
continue
}
}
}
// Bookmark is a bookmark message from Kubernetes Watch API.
// See https://kubernetes.io/docs/reference/using-api/api-concepts/#watch-bookmarks
type Bookmark struct {
Metadata struct {
ResourceVersion string
}
}
func parseBookmark(data []byte) (*Bookmark, error) {
var bm Bookmark
if err := json.Unmarshal(data, &bm); err != nil {
return nil, err
}
return &bm, nil
}
// Error is an error message from Kubernetes Watch API.
type Error struct {
Code int
}
func parseError(data []byte) (*Error, error) {
var em Error
if err := json.Unmarshal(data, &em); err != nil {
return nil, err
}
return &em, nil
}
func getAPIPathsWithNamespaces(role string, namespaces []string, selectors []Selector) []string {
objectType := getObjectTypeByRole(role)
if objectType == "nodes" || len(namespaces) == 0 {
query := joinSelectors(role, selectors)
path := getAPIPath(objectType, "", query)
return []string{path}
}
query := joinSelectors(role, selectors)
paths := make([]string, len(namespaces))
for i, namespace := range namespaces {
paths[i] = getAPIPath(objectType, namespace, query)
}
return paths
}
func getAPIPath(objectType, namespace, query string) string {
suffix := objectType
if namespace != "" {
suffix = "namespaces/" + namespace + "/" + objectType
}
if len(query) > 0 {
suffix += "?" + query
}
if objectType == "ingresses" {
return "/apis/networking.k8s.io/v1/" + suffix
}
if objectType == "endpointslices" {
return "/apis/discovery.k8s.io/v1/" + suffix
}
return "/api/v1/" + suffix
}
func joinSelectors(role string, selectors []Selector) string {
var labelSelectors, fieldSelectors []string
for _, s := range selectors {
if s.Role != role {
continue
}
if s.Label != "" {
labelSelectors = append(labelSelectors, s.Label)
}
if s.Field != "" {
fieldSelectors = append(fieldSelectors, s.Field)
}
}
var args []string
if len(labelSelectors) > 0 {
args = append(args, "labelSelector="+url.QueryEscape(strings.Join(labelSelectors, ",")))
}
if len(fieldSelectors) > 0 {
args = append(args, "fieldSelector="+url.QueryEscape(strings.Join(fieldSelectors, ",")))
}
return strings.Join(args, "&")
}
func getObjectTypeByRole(role string) string {
switch role {
case "node":
return "nodes"
case "pod":
return "pods"
case "service":
return "services"
case "endpoints":
return "endpoints"
case "endpointslice":
return "endpointslices"
case "ingress":
return "ingresses"
default:
logger.Panicf("BUG: unknonw role=%q", role)
return ""
}
}
func getObjectParsersForRole(role string) (parseObjectFunc, parseObjectListFunc) {
switch role {
case "node":
return parseNode, parseNodeList
case "pod":
return parsePod, parsePodList
case "service":
return parseService, parseServiceList
case "endpoints":
return parseEndpoints, parseEndpointsList
case "endpointslice":
return parseEndpointSlice, parseEndpointSliceList
case "ingress":
return parseIngress, parseIngressList
default:
logger.Panicf("BUG: unsupported role=%q", role)
return nil, nil
}
}
func getQueryArgsDelimiter(apiURL string) string {
if strings.Contains(apiURL, "?") {
return "&"
}
return "?"
}
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