k3s/vendor/k8s.io/kubernetes/pkg/kubelet/server/server.go

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/*
Copyright 2014 The Kubernetes Authors.
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 server
import (
"context"
"crypto/tls"
"fmt"
"io"
"net"
"net/http"
"net/http/pprof"
"net/url"
"reflect"
goruntime "runtime"
"strconv"
"strings"
"time"
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"github.com/emicklei/go-restful"
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cadvisormetrics "github.com/google/cadvisor/container"
cadvisorapi "github.com/google/cadvisor/info/v1"
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cadvisorv2 "github.com/google/cadvisor/info/v2"
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"github.com/google/cadvisor/metrics"
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"google.golang.org/grpc"
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"k8s.io/klog/v2"
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"k8s.io/kubernetes/pkg/kubelet/metrics/collectors"
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"k8s.io/utils/clock"
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v1 "k8s.io/api/core/v1"
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metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/runtime/schema"
"k8s.io/apimachinery/pkg/types"
"k8s.io/apimachinery/pkg/util/proxy"
utilruntime "k8s.io/apimachinery/pkg/util/runtime"
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"k8s.io/apimachinery/pkg/util/sets"
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"k8s.io/apiserver/pkg/authentication/authenticator"
"k8s.io/apiserver/pkg/authorization/authorizer"
"k8s.io/apiserver/pkg/server/healthz"
"k8s.io/apiserver/pkg/server/httplog"
"k8s.io/apiserver/pkg/server/routes"
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utilfeature "k8s.io/apiserver/pkg/util/feature"
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"k8s.io/apiserver/pkg/util/flushwriter"
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"k8s.io/component-base/configz"
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"k8s.io/component-base/logs"
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compbasemetrics "k8s.io/component-base/metrics"
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"k8s.io/component-base/metrics/legacyregistry"
podresourcesapi "k8s.io/kubelet/pkg/apis/podresources/v1"
podresourcesapiv1alpha1 "k8s.io/kubelet/pkg/apis/podresources/v1alpha1"
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"k8s.io/kubernetes/pkg/api/legacyscheme"
api "k8s.io/kubernetes/pkg/apis/core"
"k8s.io/kubernetes/pkg/apis/core/v1/validation"
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"k8s.io/kubernetes/pkg/features"
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"k8s.io/kubernetes/pkg/kubelet/apis/podresources"
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kubecontainer "k8s.io/kubernetes/pkg/kubelet/container"
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"k8s.io/kubernetes/pkg/kubelet/cri/streaming"
"k8s.io/kubernetes/pkg/kubelet/cri/streaming/portforward"
remotecommandserver "k8s.io/kubernetes/pkg/kubelet/cri/streaming/remotecommand"
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"k8s.io/kubernetes/pkg/kubelet/prober"
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servermetrics "k8s.io/kubernetes/pkg/kubelet/server/metrics"
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"k8s.io/kubernetes/pkg/kubelet/server/stats"
kubelettypes "k8s.io/kubernetes/pkg/kubelet/types"
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"k8s.io/kubernetes/pkg/kubelet/util"
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)
const (
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metricsPath = "/metrics"
cadvisorMetricsPath = "/metrics/cadvisor"
resourceMetricsPath = "/metrics/resource"
proberMetricsPath = "/metrics/probes"
specPath = "/spec/"
statsPath = "/stats/"
logsPath = "/logs/"
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)
// Server is a http.Handler which exposes kubelet functionality over HTTP.
type Server struct {
auth AuthInterface
host HostInterface
restfulCont containerInterface
metricsBuckets sets.String
metricsMethodBuckets sets.String
resourceAnalyzer stats.ResourceAnalyzer
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}
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// TLSOptions holds the TLS options.
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type TLSOptions struct {
Config *tls.Config
CertFile string
KeyFile string
}
// containerInterface defines the restful.Container functions used on the root container
type containerInterface interface {
Add(service *restful.WebService) *restful.Container
Handle(path string, handler http.Handler)
Filter(filter restful.FilterFunction)
ServeHTTP(w http.ResponseWriter, r *http.Request)
RegisteredWebServices() []*restful.WebService
// RegisteredHandlePaths returns the paths of handlers registered directly with the container (non-web-services)
// Used to test filters are being applied on non-web-service handlers
RegisteredHandlePaths() []string
}
// filteringContainer delegates all Handle(...) calls to Container.HandleWithFilter(...),
// so we can ensure restful.FilterFunctions are used for all handlers
type filteringContainer struct {
*restful.Container
registeredHandlePaths []string
}
func (a *filteringContainer) Handle(path string, handler http.Handler) {
a.HandleWithFilter(path, handler)
a.registeredHandlePaths = append(a.registeredHandlePaths, path)
}
func (a *filteringContainer) RegisteredHandlePaths() []string {
return a.registeredHandlePaths
}
// ListenAndServeKubeletServer initializes a server to respond to HTTP network requests on the Kubelet.
func ListenAndServeKubeletServer(
host HostInterface,
resourceAnalyzer stats.ResourceAnalyzer,
address net.IP,
port uint,
tlsOptions *TLSOptions,
auth AuthInterface,
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enableCAdvisorJSONEndpoints,
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enableDebuggingHandlers,
enableContentionProfiling,
enableSystemLogHandler bool) {
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klog.Infof("Starting to listen on %s:%d", address, port)
handler := NewServer(host, resourceAnalyzer, auth, enableCAdvisorJSONEndpoints, enableDebuggingHandlers, enableContentionProfiling, enableSystemLogHandler)
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s := &http.Server{
Addr: net.JoinHostPort(address.String(), strconv.FormatUint(uint64(port), 10)),
Handler: &handler,
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ReadTimeout: 4 * 60 * time.Minute,
WriteTimeout: 4 * 60 * time.Minute,
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MaxHeaderBytes: 1 << 20,
}
if tlsOptions != nil {
s.TLSConfig = tlsOptions.Config
// Passing empty strings as the cert and key files means no
// cert/keys are specified and GetCertificate in the TLSConfig
// should be called instead.
klog.Fatal(s.ListenAndServeTLS(tlsOptions.CertFile, tlsOptions.KeyFile))
} else {
klog.Fatal(s.ListenAndServe())
}
}
// ListenAndServeKubeletReadOnlyServer initializes a server to respond to HTTP network requests on the Kubelet.
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func ListenAndServeKubeletReadOnlyServer(host HostInterface, resourceAnalyzer stats.ResourceAnalyzer, address net.IP, port uint, enableCAdvisorJSONEndpoints bool) {
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klog.V(1).Infof("Starting to listen read-only on %s:%d", address, port)
s := NewServer(host, resourceAnalyzer, nil, enableCAdvisorJSONEndpoints, false, false, false)
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server := &http.Server{
Addr: net.JoinHostPort(address.String(), strconv.FormatUint(uint64(port), 10)),
Handler: &s,
MaxHeaderBytes: 1 << 20,
}
klog.Fatal(server.ListenAndServe())
}
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// ListenAndServePodResources initializes a gRPC server to serve the PodResources service
func ListenAndServePodResources(socket string, podsProvider podresources.PodsProvider, devicesProvider podresources.DevicesProvider, cpusProvider podresources.CPUsProvider) {
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server := grpc.NewServer()
podresourcesapiv1alpha1.RegisterPodResourcesListerServer(server, podresources.NewV1alpha1PodResourcesServer(podsProvider, devicesProvider))
podresourcesapi.RegisterPodResourcesListerServer(server, podresources.NewV1PodResourcesServer(podsProvider, devicesProvider, cpusProvider))
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l, err := util.CreateListener(socket)
if err != nil {
klog.Fatalf("Failed to create listener for podResources endpoint: %v", err)
}
klog.Fatal(server.Serve(l))
}
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// AuthInterface contains all methods required by the auth filters
type AuthInterface interface {
authenticator.Request
authorizer.RequestAttributesGetter
authorizer.Authorizer
}
// HostInterface contains all the kubelet methods required by the server.
// For testability.
type HostInterface interface {
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stats.Provider
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GetVersionInfo() (*cadvisorapi.VersionInfo, error)
GetCachedMachineInfo() (*cadvisorapi.MachineInfo, error)
GetRunningPods() ([]*v1.Pod, error)
RunInContainer(name string, uid types.UID, container string, cmd []string) ([]byte, error)
GetKubeletContainerLogs(ctx context.Context, podFullName, containerName string, logOptions *v1.PodLogOptions, stdout, stderr io.Writer) error
ServeLogs(w http.ResponseWriter, req *http.Request)
ResyncInterval() time.Duration
GetHostname() string
LatestLoopEntryTime() time.Time
GetExec(podFullName string, podUID types.UID, containerName string, cmd []string, streamOpts remotecommandserver.Options) (*url.URL, error)
GetAttach(podFullName string, podUID types.UID, containerName string, streamOpts remotecommandserver.Options) (*url.URL, error)
GetPortForward(podName, podNamespace string, podUID types.UID, portForwardOpts portforward.V4Options) (*url.URL, error)
}
// NewServer initializes and configures a kubelet.Server object to handle HTTP requests.
func NewServer(
host HostInterface,
resourceAnalyzer stats.ResourceAnalyzer,
auth AuthInterface,
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enableCAdvisorJSONEndpoints,
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enableDebuggingHandlers,
enableContentionProfiling,
enableSystemLogHandler bool) Server {
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server := Server{
host: host,
resourceAnalyzer: resourceAnalyzer,
auth: auth,
restfulCont: &filteringContainer{Container: restful.NewContainer()},
metricsBuckets: sets.NewString(),
metricsMethodBuckets: sets.NewString("OPTIONS", "GET", "HEAD", "POST", "PUT", "DELETE", "TRACE", "CONNECT"),
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}
if auth != nil {
server.InstallAuthFilter()
}
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server.InstallDefaultHandlers(enableCAdvisorJSONEndpoints)
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if enableDebuggingHandlers {
server.InstallDebuggingHandlers()
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// To maintain backward compatibility serve logs only when enableDebuggingHandlers is also enabled
// see https://github.com/kubernetes/kubernetes/pull/87273
server.InstallSystemLogHandler(enableSystemLogHandler)
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if enableContentionProfiling {
goruntime.SetBlockProfileRate(1)
}
} else {
server.InstallDebuggingDisabledHandlers()
}
return server
}
// InstallAuthFilter installs authentication filters with the restful Container.
func (s *Server) InstallAuthFilter() {
s.restfulCont.Filter(func(req *restful.Request, resp *restful.Response, chain *restful.FilterChain) {
// Authenticate
info, ok, err := s.auth.AuthenticateRequest(req.Request)
if err != nil {
klog.Errorf("Unable to authenticate the request due to an error: %v", err)
resp.WriteErrorString(http.StatusUnauthorized, "Unauthorized")
return
}
if !ok {
resp.WriteErrorString(http.StatusUnauthorized, "Unauthorized")
return
}
// Get authorization attributes
attrs := s.auth.GetRequestAttributes(info.User, req.Request)
// Authorize
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decision, _, err := s.auth.Authorize(req.Request.Context(), attrs)
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if err != nil {
msg := fmt.Sprintf("Authorization error (user=%s, verb=%s, resource=%s, subresource=%s)", attrs.GetUser().GetName(), attrs.GetVerb(), attrs.GetResource(), attrs.GetSubresource())
klog.Errorf(msg, err)
resp.WriteErrorString(http.StatusInternalServerError, msg)
return
}
if decision != authorizer.DecisionAllow {
msg := fmt.Sprintf("Forbidden (user=%s, verb=%s, resource=%s, subresource=%s)", attrs.GetUser().GetName(), attrs.GetVerb(), attrs.GetResource(), attrs.GetSubresource())
klog.V(2).Info(msg)
resp.WriteErrorString(http.StatusForbidden, msg)
return
}
// Continue
chain.ProcessFilter(req, resp)
})
}
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// addMetricsBucketMatcher adds a regexp matcher and the relevant bucket to use when
// it matches. Please be aware this is not thread safe and should not be used dynamically
func (s *Server) addMetricsBucketMatcher(bucket string) {
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s.metricsBuckets.Insert(bucket)
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}
// getMetricBucket find the appropriate metrics reporting bucket for the given path
func (s *Server) getMetricBucket(path string) string {
root := getURLRootPath(path)
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if s.metricsBuckets.Has(root) {
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return root
}
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return "other"
}
// getMetricMethodBucket checks for unknown or invalid HTTP verbs
func (s *Server) getMetricMethodBucket(method string) string {
if s.metricsMethodBuckets.Has(method) {
return method
}
return "other"
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}
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// InstallDefaultHandlers registers the default set of supported HTTP request
// patterns with the restful Container.
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func (s *Server) InstallDefaultHandlers(enableCAdvisorJSONEndpoints bool) {
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s.addMetricsBucketMatcher("healthz")
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healthz.InstallHandler(s.restfulCont,
healthz.PingHealthz,
healthz.LogHealthz,
healthz.NamedCheck("syncloop", s.syncLoopHealthCheck),
)
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s.addMetricsBucketMatcher("pods")
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ws := new(restful.WebService)
ws.
Path("/pods").
Produces(restful.MIME_JSON)
ws.Route(ws.GET("").
To(s.getPods).
Operation("getPods"))
s.restfulCont.Add(ws)
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s.addMetricsBucketMatcher("stats")
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s.restfulCont.Add(stats.CreateHandlers(statsPath, s.host, s.resourceAnalyzer, enableCAdvisorJSONEndpoints))
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s.addMetricsBucketMatcher("metrics")
s.addMetricsBucketMatcher("metrics/cadvisor")
s.addMetricsBucketMatcher("metrics/probes")
s.addMetricsBucketMatcher("metrics/resource")
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//lint:ignore SA1019 https://github.com/kubernetes/enhancements/issues/1206
s.restfulCont.Handle(metricsPath, legacyregistry.Handler())
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// cAdvisor metrics are exposed under the secured handler as well
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r := compbasemetrics.NewKubeRegistry()
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includedMetrics := cadvisormetrics.MetricSet{
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cadvisormetrics.CpuUsageMetrics: struct{}{},
cadvisormetrics.MemoryUsageMetrics: struct{}{},
cadvisormetrics.CpuLoadMetrics: struct{}{},
cadvisormetrics.DiskIOMetrics: struct{}{},
cadvisormetrics.DiskUsageMetrics: struct{}{},
cadvisormetrics.NetworkUsageMetrics: struct{}{},
cadvisormetrics.AppMetrics: struct{}{},
cadvisormetrics.ProcessMetrics: struct{}{},
}
// Only add the Accelerator metrics if the feature is inactive
// Note: Accelerator metrics will be removed in the future, hence the feature gate.
if !utilfeature.DefaultFeatureGate.Enabled(features.DisableAcceleratorUsageMetrics) {
includedMetrics.Add(cadvisormetrics.MetricKind(cadvisormetrics.AcceleratorUsageMetrics))
}
cadvisorOpts := cadvisorv2.RequestOptions{
IdType: cadvisorv2.TypeName,
Count: 1,
Recursive: true,
}
r.RawMustRegister(metrics.NewPrometheusCollector(prometheusHostAdapter{s.host}, containerPrometheusLabelsFunc(s.host), includedMetrics, clock.RealClock{}, cadvisorOpts))
r.RawMustRegister(metrics.NewPrometheusMachineCollector(prometheusHostAdapter{s.host}, includedMetrics))
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s.restfulCont.Handle(cadvisorMetricsPath,
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compbasemetrics.HandlerFor(r, compbasemetrics.HandlerOpts{ErrorHandling: compbasemetrics.ContinueOnError}),
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)
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s.addMetricsBucketMatcher("metrics/resource")
resourceRegistry := compbasemetrics.NewKubeRegistry()
resourceRegistry.CustomMustRegister(collectors.NewResourceMetricsCollector(s.resourceAnalyzer))
s.restfulCont.Handle(resourceMetricsPath,
compbasemetrics.HandlerFor(resourceRegistry, compbasemetrics.HandlerOpts{ErrorHandling: compbasemetrics.ContinueOnError}),
)
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// prober metrics are exposed under a different endpoint
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s.addMetricsBucketMatcher("metrics/probes")
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p := compbasemetrics.NewKubeRegistry()
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_ = compbasemetrics.RegisterProcessStartTime(p.Register)
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p.MustRegister(prober.ProberResults)
s.restfulCont.Handle(proberMetricsPath,
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compbasemetrics.HandlerFor(p, compbasemetrics.HandlerOpts{ErrorHandling: compbasemetrics.ContinueOnError}),
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)
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s.addMetricsBucketMatcher("spec")
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if enableCAdvisorJSONEndpoints {
ws := new(restful.WebService)
ws.
Path(specPath).
Produces(restful.MIME_JSON)
ws.Route(ws.GET("").
To(s.getSpec).
Operation("getSpec").
Writes(cadvisorapi.MachineInfo{}))
s.restfulCont.Add(ws)
}
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}
const pprofBasePath = "/debug/pprof/"
// InstallDebuggingHandlers registers the HTTP request patterns that serve logs or run commands/containers
func (s *Server) InstallDebuggingHandlers() {
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klog.Infof("Adding debug handlers to kubelet server.")
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s.addMetricsBucketMatcher("run")
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ws := new(restful.WebService)
ws.
Path("/run")
ws.Route(ws.POST("/{podNamespace}/{podID}/{containerName}").
To(s.getRun).
Operation("getRun"))
ws.Route(ws.POST("/{podNamespace}/{podID}/{uid}/{containerName}").
To(s.getRun).
Operation("getRun"))
s.restfulCont.Add(ws)
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s.addMetricsBucketMatcher("exec")
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ws = new(restful.WebService)
ws.
Path("/exec")
ws.Route(ws.GET("/{podNamespace}/{podID}/{containerName}").
To(s.getExec).
Operation("getExec"))
ws.Route(ws.POST("/{podNamespace}/{podID}/{containerName}").
To(s.getExec).
Operation("getExec"))
ws.Route(ws.GET("/{podNamespace}/{podID}/{uid}/{containerName}").
To(s.getExec).
Operation("getExec"))
ws.Route(ws.POST("/{podNamespace}/{podID}/{uid}/{containerName}").
To(s.getExec).
Operation("getExec"))
s.restfulCont.Add(ws)
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s.addMetricsBucketMatcher("attach")
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ws = new(restful.WebService)
ws.
Path("/attach")
ws.Route(ws.GET("/{podNamespace}/{podID}/{containerName}").
To(s.getAttach).
Operation("getAttach"))
ws.Route(ws.POST("/{podNamespace}/{podID}/{containerName}").
To(s.getAttach).
Operation("getAttach"))
ws.Route(ws.GET("/{podNamespace}/{podID}/{uid}/{containerName}").
To(s.getAttach).
Operation("getAttach"))
ws.Route(ws.POST("/{podNamespace}/{podID}/{uid}/{containerName}").
To(s.getAttach).
Operation("getAttach"))
s.restfulCont.Add(ws)
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s.addMetricsBucketMatcher("portForward")
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ws = new(restful.WebService)
ws.
Path("/portForward")
ws.Route(ws.GET("/{podNamespace}/{podID}").
To(s.getPortForward).
Operation("getPortForward"))
ws.Route(ws.POST("/{podNamespace}/{podID}").
To(s.getPortForward).
Operation("getPortForward"))
ws.Route(ws.GET("/{podNamespace}/{podID}/{uid}").
To(s.getPortForward).
Operation("getPortForward"))
ws.Route(ws.POST("/{podNamespace}/{podID}/{uid}").
To(s.getPortForward).
Operation("getPortForward"))
s.restfulCont.Add(ws)
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s.addMetricsBucketMatcher("containerLogs")
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ws = new(restful.WebService)
ws.
Path("/containerLogs")
ws.Route(ws.GET("/{podNamespace}/{podID}/{containerName}").
To(s.getContainerLogs).
Operation("getContainerLogs"))
s.restfulCont.Add(ws)
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s.addMetricsBucketMatcher("configz")
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configz.InstallHandler(s.restfulCont)
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s.addMetricsBucketMatcher("debug")
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handlePprofEndpoint := func(req *restful.Request, resp *restful.Response) {
name := strings.TrimPrefix(req.Request.URL.Path, pprofBasePath)
switch name {
case "profile":
pprof.Profile(resp, req.Request)
case "symbol":
pprof.Symbol(resp, req.Request)
case "cmdline":
pprof.Cmdline(resp, req.Request)
case "trace":
pprof.Trace(resp, req.Request)
default:
pprof.Index(resp, req.Request)
}
}
// Setup pprof handlers.
ws = new(restful.WebService).Path(pprofBasePath)
ws.Route(ws.GET("/{subpath:*}").To(func(req *restful.Request, resp *restful.Response) {
handlePprofEndpoint(req, resp)
})).Doc("pprof endpoint")
s.restfulCont.Add(ws)
// Setup flags handlers.
// so far, only logging related endpoints are considered valid to add for these debug flags.
s.restfulCont.Handle("/debug/flags/v", routes.StringFlagPutHandler(logs.GlogSetter))
// The /runningpods endpoint is used for testing only.
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s.addMetricsBucketMatcher("runningpods")
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ws = new(restful.WebService)
ws.
Path("/runningpods/").
Produces(restful.MIME_JSON)
ws.Route(ws.GET("").
To(s.getRunningPods).
Operation("getRunningPods"))
s.restfulCont.Add(ws)
}
// InstallDebuggingDisabledHandlers registers the HTTP request patterns that provide better error message
func (s *Server) InstallDebuggingDisabledHandlers() {
h := http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
http.Error(w, "Debug endpoints are disabled.", http.StatusMethodNotAllowed)
})
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s.addMetricsBucketMatcher("run")
s.addMetricsBucketMatcher("exec")
s.addMetricsBucketMatcher("attach")
s.addMetricsBucketMatcher("portForward")
s.addMetricsBucketMatcher("containerLogs")
s.addMetricsBucketMatcher("runningpods")
s.addMetricsBucketMatcher("pprof")
s.addMetricsBucketMatcher("logs")
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paths := []string{
"/run/", "/exec/", "/attach/", "/portForward/", "/containerLogs/",
"/runningpods/", pprofBasePath, logsPath}
for _, p := range paths {
s.restfulCont.Handle(p, h)
}
}
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// InstallSystemLogHandler registers the HTTP request patterns for logs endpoint.
func (s *Server) InstallSystemLogHandler(enableSystemLogHandler bool) {
s.addMetricsBucketMatcher("logs")
if enableSystemLogHandler {
ws := new(restful.WebService)
ws.Path(logsPath)
ws.Route(ws.GET("").
To(s.getLogs).
Operation("getLogs"))
ws.Route(ws.GET("/{logpath:*}").
To(s.getLogs).
Operation("getLogs").
Param(ws.PathParameter("logpath", "path to the log").DataType("string")))
s.restfulCont.Add(ws)
} else {
h := http.HandlerFunc(func(w http.ResponseWriter, r *http.Request) {
http.Error(w, "logs endpoint is disabled.", http.StatusMethodNotAllowed)
})
s.restfulCont.Handle(logsPath, h)
}
}
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// Checks if kubelet's sync loop that updates containers is working.
func (s *Server) syncLoopHealthCheck(req *http.Request) error {
duration := s.host.ResyncInterval() * 2
minDuration := time.Minute * 5
if duration < minDuration {
duration = minDuration
}
enterLoopTime := s.host.LatestLoopEntryTime()
if !enterLoopTime.IsZero() && time.Now().After(enterLoopTime.Add(duration)) {
return fmt.Errorf("sync Loop took longer than expected")
}
return nil
}
// getContainerLogs handles containerLogs request against the Kubelet
func (s *Server) getContainerLogs(request *restful.Request, response *restful.Response) {
podNamespace := request.PathParameter("podNamespace")
podID := request.PathParameter("podID")
containerName := request.PathParameter("containerName")
ctx := request.Request.Context()
if len(podID) == 0 {
// TODO: Why return JSON when the rest return plaintext errors?
// TODO: Why return plaintext errors?
response.WriteError(http.StatusBadRequest, fmt.Errorf(`{"message": "Missing podID."}`))
return
}
if len(containerName) == 0 {
// TODO: Why return JSON when the rest return plaintext errors?
response.WriteError(http.StatusBadRequest, fmt.Errorf(`{"message": "Missing container name."}`))
return
}
if len(podNamespace) == 0 {
// TODO: Why return JSON when the rest return plaintext errors?
response.WriteError(http.StatusBadRequest, fmt.Errorf(`{"message": "Missing podNamespace."}`))
return
}
query := request.Request.URL.Query()
// backwards compatibility for the "tail" query parameter
if tail := request.QueryParameter("tail"); len(tail) > 0 {
query["tailLines"] = []string{tail}
// "all" is the same as omitting tail
if tail == "all" {
delete(query, "tailLines")
}
}
// container logs on the kubelet are locked to the v1 API version of PodLogOptions
logOptions := &v1.PodLogOptions{}
if err := legacyscheme.ParameterCodec.DecodeParameters(query, v1.SchemeGroupVersion, logOptions); err != nil {
response.WriteError(http.StatusBadRequest, fmt.Errorf(`{"message": "Unable to decode query."}`))
return
}
logOptions.TypeMeta = metav1.TypeMeta{}
if errs := validation.ValidatePodLogOptions(logOptions); len(errs) > 0 {
response.WriteError(http.StatusUnprocessableEntity, fmt.Errorf(`{"message": "Invalid request."}`))
return
}
pod, ok := s.host.GetPodByName(podNamespace, podID)
if !ok {
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response.WriteError(http.StatusNotFound, fmt.Errorf("pod %q does not exist", podID))
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return
}
// Check if containerName is valid.
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if kubecontainer.GetContainerSpec(pod, containerName) == nil {
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response.WriteError(http.StatusNotFound, fmt.Errorf("container %q not found in pod %q", containerName, podID))
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return
}
if _, ok := response.ResponseWriter.(http.Flusher); !ok {
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response.WriteError(http.StatusInternalServerError, fmt.Errorf("unable to convert %v into http.Flusher, cannot show logs", reflect.TypeOf(response)))
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return
}
fw := flushwriter.Wrap(response.ResponseWriter)
response.Header().Set("Transfer-Encoding", "chunked")
if err := s.host.GetKubeletContainerLogs(ctx, kubecontainer.GetPodFullName(pod), containerName, logOptions, fw, fw); err != nil {
response.WriteError(http.StatusBadRequest, err)
return
}
}
// encodePods creates an v1.PodList object from pods and returns the encoded
// PodList.
func encodePods(pods []*v1.Pod) (data []byte, err error) {
podList := new(v1.PodList)
for _, pod := range pods {
podList.Items = append(podList.Items, *pod)
}
// TODO: this needs to be parameterized to the kubelet, not hardcoded. Depends on Kubelet
// as API server refactor.
// TODO: Locked to v1, needs to be made generic
codec := legacyscheme.Codecs.LegacyCodec(schema.GroupVersion{Group: v1.GroupName, Version: "v1"})
return runtime.Encode(codec, podList)
}
// getPods returns a list of pods bound to the Kubelet and their spec.
func (s *Server) getPods(request *restful.Request, response *restful.Response) {
pods := s.host.GetPods()
data, err := encodePods(pods)
if err != nil {
response.WriteError(http.StatusInternalServerError, err)
return
}
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writeJSONResponse(response, data)
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}
// getRunningPods returns a list of pods running on Kubelet. The list is
// provided by the container runtime, and is different from the list returned
// by getPods, which is a set of desired pods to run.
func (s *Server) getRunningPods(request *restful.Request, response *restful.Response) {
pods, err := s.host.GetRunningPods()
if err != nil {
response.WriteError(http.StatusInternalServerError, err)
return
}
data, err := encodePods(pods)
if err != nil {
response.WriteError(http.StatusInternalServerError, err)
return
}
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writeJSONResponse(response, data)
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}
// getLogs handles logs requests against the Kubelet.
func (s *Server) getLogs(request *restful.Request, response *restful.Response) {
s.host.ServeLogs(response, request.Request)
}
// getSpec handles spec requests against the Kubelet.
func (s *Server) getSpec(request *restful.Request, response *restful.Response) {
info, err := s.host.GetCachedMachineInfo()
if err != nil {
response.WriteError(http.StatusInternalServerError, err)
return
}
response.WriteEntity(info)
}
type execRequestParams struct {
podNamespace string
podName string
podUID types.UID
containerName string
cmd []string
}
func getExecRequestParams(req *restful.Request) execRequestParams {
return execRequestParams{
podNamespace: req.PathParameter("podNamespace"),
podName: req.PathParameter("podID"),
podUID: types.UID(req.PathParameter("uid")),
containerName: req.PathParameter("containerName"),
cmd: req.Request.URL.Query()[api.ExecCommandParam],
}
}
type portForwardRequestParams struct {
podNamespace string
podName string
podUID types.UID
}
func getPortForwardRequestParams(req *restful.Request) portForwardRequestParams {
return portForwardRequestParams{
podNamespace: req.PathParameter("podNamespace"),
podName: req.PathParameter("podID"),
podUID: types.UID(req.PathParameter("uid")),
}
}
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type responder struct{}
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func (r *responder) Error(w http.ResponseWriter, req *http.Request, err error) {
klog.Errorf("Error while proxying request: %v", err)
http.Error(w, err.Error(), http.StatusInternalServerError)
}
// proxyStream proxies stream to url.
func proxyStream(w http.ResponseWriter, r *http.Request, url *url.URL) {
// TODO(random-liu): Set MaxBytesPerSec to throttle the stream.
handler := proxy.NewUpgradeAwareHandler(url, nil /*transport*/, false /*wrapTransport*/, true /*upgradeRequired*/, &responder{})
handler.ServeHTTP(w, r)
}
// getAttach handles requests to attach to a container.
func (s *Server) getAttach(request *restful.Request, response *restful.Response) {
params := getExecRequestParams(request)
streamOpts, err := remotecommandserver.NewOptions(request.Request)
if err != nil {
utilruntime.HandleError(err)
response.WriteError(http.StatusBadRequest, err)
return
}
pod, ok := s.host.GetPodByName(params.podNamespace, params.podName)
if !ok {
response.WriteError(http.StatusNotFound, fmt.Errorf("pod does not exist"))
return
}
podFullName := kubecontainer.GetPodFullName(pod)
url, err := s.host.GetAttach(podFullName, params.podUID, params.containerName, *streamOpts)
if err != nil {
streaming.WriteError(err, response.ResponseWriter)
return
}
proxyStream(response.ResponseWriter, request.Request, url)
}
// getExec handles requests to run a command inside a container.
func (s *Server) getExec(request *restful.Request, response *restful.Response) {
params := getExecRequestParams(request)
streamOpts, err := remotecommandserver.NewOptions(request.Request)
if err != nil {
utilruntime.HandleError(err)
response.WriteError(http.StatusBadRequest, err)
return
}
pod, ok := s.host.GetPodByName(params.podNamespace, params.podName)
if !ok {
response.WriteError(http.StatusNotFound, fmt.Errorf("pod does not exist"))
return
}
podFullName := kubecontainer.GetPodFullName(pod)
url, err := s.host.GetExec(podFullName, params.podUID, params.containerName, params.cmd, *streamOpts)
if err != nil {
streaming.WriteError(err, response.ResponseWriter)
return
}
proxyStream(response.ResponseWriter, request.Request, url)
}
// getRun handles requests to run a command inside a container.
func (s *Server) getRun(request *restful.Request, response *restful.Response) {
params := getExecRequestParams(request)
pod, ok := s.host.GetPodByName(params.podNamespace, params.podName)
if !ok {
response.WriteError(http.StatusNotFound, fmt.Errorf("pod does not exist"))
return
}
// For legacy reasons, run uses different query param than exec.
params.cmd = strings.Split(request.QueryParameter("cmd"), " ")
data, err := s.host.RunInContainer(kubecontainer.GetPodFullName(pod), params.podUID, params.containerName, params.cmd)
if err != nil {
response.WriteError(http.StatusInternalServerError, err)
return
}
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writeJSONResponse(response, data)
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}
// Derived from go-restful writeJSON.
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func writeJSONResponse(response *restful.Response, data []byte) {
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if data == nil {
response.WriteHeader(http.StatusOK)
// do not write a nil representation
return
}
response.Header().Set(restful.HEADER_ContentType, restful.MIME_JSON)
response.WriteHeader(http.StatusOK)
if _, err := response.Write(data); err != nil {
klog.Errorf("Error writing response: %v", err)
}
}
// getPortForward handles a new restful port forward request. It determines the
// pod name and uid and then calls ServePortForward.
func (s *Server) getPortForward(request *restful.Request, response *restful.Response) {
params := getPortForwardRequestParams(request)
portForwardOptions, err := portforward.NewV4Options(request.Request)
if err != nil {
utilruntime.HandleError(err)
response.WriteError(http.StatusBadRequest, err)
return
}
pod, ok := s.host.GetPodByName(params.podNamespace, params.podName)
if !ok {
response.WriteError(http.StatusNotFound, fmt.Errorf("pod does not exist"))
return
}
if len(params.podUID) > 0 && pod.UID != params.podUID {
response.WriteError(http.StatusNotFound, fmt.Errorf("pod not found"))
return
}
url, err := s.host.GetPortForward(pod.Name, pod.Namespace, pod.UID, *portForwardOptions)
if err != nil {
streaming.WriteError(err, response.ResponseWriter)
return
}
proxyStream(response.ResponseWriter, request.Request, url)
}
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// getURLRootPath trims a URL path.
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// For paths in the format of "/metrics/xxx", "metrics/xxx" is returned;
// For all other paths, the first part of the path is returned.
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func getURLRootPath(path string) string {
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parts := strings.SplitN(strings.TrimPrefix(path, "/"), "/", 3)
if len(parts) == 0 {
return path
}
if parts[0] == "metrics" && len(parts) > 1 {
return fmt.Sprintf("%s/%s", parts[0], parts[1])
}
return parts[0]
}
var longRunningRequestPathMap = map[string]bool{
"exec": true,
"attach": true,
"portforward": true,
"debug": true,
}
// isLongRunningRequest determines whether the request is long-running or not.
func isLongRunningRequest(path string) bool {
_, ok := longRunningRequestPathMap[path]
return ok
}
var statusesNoTracePred = httplog.StatusIsNot(
http.StatusOK,
http.StatusFound,
http.StatusMovedPermanently,
http.StatusTemporaryRedirect,
http.StatusBadRequest,
http.StatusNotFound,
http.StatusSwitchingProtocols,
)
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// ServeHTTP responds to HTTP requests on the Kubelet.
func (s *Server) ServeHTTP(w http.ResponseWriter, req *http.Request) {
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handler := httplog.WithLogging(s.restfulCont, statusesNoTracePred)
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// monitor http requests
var serverType string
if s.auth == nil {
serverType = "readonly"
} else {
serverType = "readwrite"
}
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method, path := s.getMetricMethodBucket(req.Method), s.getMetricBucket(req.URL.Path)
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longRunning := strconv.FormatBool(isLongRunningRequest(path))
servermetrics.HTTPRequests.WithLabelValues(method, path, serverType, longRunning).Inc()
servermetrics.HTTPInflightRequests.WithLabelValues(method, path, serverType, longRunning).Inc()
defer servermetrics.HTTPInflightRequests.WithLabelValues(method, path, serverType, longRunning).Dec()
startTime := time.Now()
defer servermetrics.HTTPRequestsDuration.WithLabelValues(method, path, serverType, longRunning).Observe(servermetrics.SinceInSeconds(startTime))
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handler.ServeHTTP(w, req)
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}
// prometheusHostAdapter adapts the HostInterface to the interface expected by the
// cAdvisor prometheus collector.
type prometheusHostAdapter struct {
host HostInterface
}
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func (a prometheusHostAdapter) GetRequestedContainersInfo(containerName string, options cadvisorv2.RequestOptions) (map[string]*cadvisorapi.ContainerInfo, error) {
return a.host.GetRequestedContainersInfo(containerName, options)
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}
func (a prometheusHostAdapter) GetVersionInfo() (*cadvisorapi.VersionInfo, error) {
return a.host.GetVersionInfo()
}
func (a prometheusHostAdapter) GetMachineInfo() (*cadvisorapi.MachineInfo, error) {
return a.host.GetCachedMachineInfo()
}
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func containerPrometheusLabelsFunc(s stats.Provider) metrics.ContainerLabelsFunc {
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// containerPrometheusLabels maps cAdvisor labels to prometheus labels.
return func(c *cadvisorapi.ContainerInfo) map[string]string {
// Prometheus requires that all metrics in the same family have the same labels,
// so we arrange to supply blank strings for missing labels
var name, image, podName, namespace, containerName string
if len(c.Aliases) > 0 {
name = c.Aliases[0]
}
image = c.Spec.Image
if v, ok := c.Spec.Labels[kubelettypes.KubernetesPodNameLabel]; ok {
podName = v
}
if v, ok := c.Spec.Labels[kubelettypes.KubernetesPodNamespaceLabel]; ok {
namespace = v
}
if v, ok := c.Spec.Labels[kubelettypes.KubernetesContainerNameLabel]; ok {
containerName = v
}
// Associate pod cgroup with pod so we have an accurate accounting of sandbox
if podName == "" && namespace == "" {
if pod, found := s.GetPodByCgroupfs(c.Name); found {
podName = pod.Name
namespace = pod.Namespace
}
}
set := map[string]string{
metrics.LabelID: c.Name,
metrics.LabelName: name,
metrics.LabelImage: image,
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"pod": podName,
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"namespace": namespace,
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"container": containerName,
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}
return set
}
}