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kubelet.go
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kubelet.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 kubelet
import (
"bufio"
"bytes"
"errors"
"fmt"
"io"
"io/ioutil"
"net"
"net/http"
"os"
"path"
"path/filepath"
"sort"
"strings"
"sync"
"time"
"github.com/golang/glog"
cadvisorapi "github.com/google/cadvisor/info/v1"
"k8s.io/kubernetes/pkg/api"
apierrors "k8s.io/kubernetes/pkg/api/errors"
"k8s.io/kubernetes/pkg/api/resource"
"k8s.io/kubernetes/pkg/api/unversioned"
"k8s.io/kubernetes/pkg/api/validation"
"k8s.io/kubernetes/pkg/client/cache"
"k8s.io/kubernetes/pkg/client/record"
client "k8s.io/kubernetes/pkg/client/unversioned"
"k8s.io/kubernetes/pkg/cloudprovider"
"k8s.io/kubernetes/pkg/fieldpath"
"k8s.io/kubernetes/pkg/fields"
"k8s.io/kubernetes/pkg/kubelet/cadvisor"
"k8s.io/kubernetes/pkg/kubelet/cm"
kubecontainer "k8s.io/kubernetes/pkg/kubelet/container"
"k8s.io/kubernetes/pkg/kubelet/dockertools"
"k8s.io/kubernetes/pkg/kubelet/envvars"
"k8s.io/kubernetes/pkg/kubelet/metrics"
"k8s.io/kubernetes/pkg/kubelet/network"
"k8s.io/kubernetes/pkg/kubelet/pleg"
kubepod "k8s.io/kubernetes/pkg/kubelet/pod"
"k8s.io/kubernetes/pkg/kubelet/prober"
proberesults "k8s.io/kubernetes/pkg/kubelet/prober/results"
"k8s.io/kubernetes/pkg/kubelet/rkt"
"k8s.io/kubernetes/pkg/kubelet/status"
kubetypes "k8s.io/kubernetes/pkg/kubelet/types"
"k8s.io/kubernetes/pkg/kubelet/util/format"
"k8s.io/kubernetes/pkg/kubelet/util/queue"
"k8s.io/kubernetes/pkg/runtime"
"k8s.io/kubernetes/pkg/securitycontext"
"k8s.io/kubernetes/pkg/types"
"k8s.io/kubernetes/pkg/util"
"k8s.io/kubernetes/pkg/util/atomic"
"k8s.io/kubernetes/pkg/util/bandwidth"
"k8s.io/kubernetes/pkg/util/chmod"
"k8s.io/kubernetes/pkg/util/chown"
utilerrors "k8s.io/kubernetes/pkg/util/errors"
kubeio "k8s.io/kubernetes/pkg/util/io"
"k8s.io/kubernetes/pkg/util/mount"
nodeutil "k8s.io/kubernetes/pkg/util/node"
"k8s.io/kubernetes/pkg/util/oom"
"k8s.io/kubernetes/pkg/util/procfs"
"k8s.io/kubernetes/pkg/util/selinux"
"k8s.io/kubernetes/pkg/util/sets"
"k8s.io/kubernetes/pkg/util/validation/field"
"k8s.io/kubernetes/pkg/util/yaml"
"k8s.io/kubernetes/pkg/version"
"k8s.io/kubernetes/pkg/volume"
"k8s.io/kubernetes/pkg/watch"
"k8s.io/kubernetes/plugin/pkg/scheduler/algorithm/predicates"
"k8s.io/kubernetes/third_party/golang/expansion"
)
const (
// Max amount of time to wait for the container runtime to come up.
maxWaitForContainerRuntime = 5 * time.Minute
// nodeStatusUpdateRetry specifies how many times kubelet retries when posting node status failed.
nodeStatusUpdateRetry = 5
// Location of container logs.
containerLogsDir = "/var/log/containers"
// max backoff period, exported for the e2e test
MaxContainerBackOff = 300 * time.Second
// Capacity of the channel for storing pods to kill. A small number should
// suffice because a goroutine is dedicated to check the channel and does
// not block on anything else.
podKillingChannelCapacity = 50
// system default DNS resolver configuration
ResolvConfDefault = "/etc/resolv.conf"
// Period for performing global cleanup tasks.
housekeepingPeriod = time.Second * 2
etcHostsPath = "/etc/hosts"
// Capacity of the channel for recieving pod lifecycle events. This number
// is a bit arbitrary and may be adjusted in the future.
plegChannelCapacity = 1000
// Generic PLEG relies on relisting for discovering container events.
// The period directly affects the response time of kubelet.
plegRelistPeriod = time.Second * 3
// backOffPeriod is the period to back off when pod syncing resulting in an
// error. It is also used as the base period for the exponential backoff
// container restarts and image pulls.
backOffPeriod = time.Second * 10
)
var (
// ErrContainerNotFound returned when a container in the given pod with the
// given container name was not found, amongst those managed by the kubelet.
ErrContainerNotFound = errors.New("no matching container")
)
// SyncHandler is an interface implemented by Kubelet, for testability
type SyncHandler interface {
HandlePodAdditions(pods []*api.Pod)
HandlePodUpdates(pods []*api.Pod)
HandlePodDeletions(pods []*api.Pod)
HandlePodSyncs(pods []*api.Pod)
HandlePodCleanups() error
}
type SourcesReadyFn func(sourcesSeen sets.String) bool
// Wait for the container runtime to be up with a timeout.
func waitUntilRuntimeIsUp(cr kubecontainer.Runtime, timeout time.Duration) error {
var err error = nil
waitStart := time.Now()
for time.Since(waitStart) < timeout {
_, err = cr.Version()
if err == nil {
return nil
}
time.Sleep(100 * time.Millisecond)
}
return err
}
// New instantiates a new Kubelet object along with all the required internal modules.
// No initialization of Kubelet and its modules should happen here.
func NewMainKubelet(
hostname string,
nodeName string,
dockerClient dockertools.DockerInterface,
kubeClient client.Interface,
rootDirectory string,
podInfraContainerImage string,
resyncInterval time.Duration,
pullQPS float32,
pullBurst int,
eventQPS float32,
eventBurst int,
containerGCPolicy kubecontainer.ContainerGCPolicy,
sourcesReady SourcesReadyFn,
registerNode bool,
registerSchedulable bool,
standaloneMode bool,
clusterDomain string,
clusterDNS net.IP,
masterServiceNamespace string,
volumePlugins []volume.VolumePlugin,
networkPlugins []network.NetworkPlugin,
networkPluginName string,
streamingConnectionIdleTimeout time.Duration,
recorder record.EventRecorder,
cadvisorInterface cadvisor.Interface,
imageGCPolicy ImageGCPolicy,
diskSpacePolicy DiskSpacePolicy,
cloud cloudprovider.Interface,
nodeLabels []string,
nodeLabelsFile string,
nodeStatusUpdateFrequency time.Duration,
resourceContainer string,
osInterface kubecontainer.OSInterface,
cgroupRoot string,
containerRuntime string,
rktPath string,
rktStage1Image string,
mounter mount.Interface,
writer kubeio.Writer,
chownRunner chown.Interface,
chmodRunner chmod.Interface,
dockerDaemonContainer string,
systemContainer string,
configureCBR0 bool,
podCIDR string,
reconcileCIDR bool,
maxPods int,
dockerExecHandler dockertools.ExecHandler,
resolverConfig string,
cpuCFSQuota bool,
daemonEndpoints *api.NodeDaemonEndpoints,
oomAdjuster *oom.OOMAdjuster,
serializeImagePulls bool,
containerManager cm.ContainerManager,
flannelExperimentalOverlay bool,
) (*Kubelet, error) {
if rootDirectory == "" {
return nil, fmt.Errorf("invalid root directory %q", rootDirectory)
}
if resyncInterval <= 0 {
return nil, fmt.Errorf("invalid sync frequency %d", resyncInterval)
}
if systemContainer != "" && cgroupRoot == "" {
return nil, fmt.Errorf("invalid configuration: system container was specified and cgroup root was not specified")
}
dockerClient = dockertools.NewInstrumentedDockerInterface(dockerClient)
serviceStore := cache.NewStore(cache.MetaNamespaceKeyFunc)
if kubeClient != nil {
// TODO: cache.NewListWatchFromClient is limited as it takes a client implementation rather
// than an interface. There is no way to construct a list+watcher using resource name.
listWatch := &cache.ListWatch{
ListFunc: func(options api.ListOptions) (runtime.Object, error) {
return kubeClient.Services(api.NamespaceAll).List(options)
},
WatchFunc: func(options api.ListOptions) (watch.Interface, error) {
return kubeClient.Services(api.NamespaceAll).Watch(options)
},
}
cache.NewReflector(listWatch, &api.Service{}, serviceStore, 0).Run()
}
serviceLister := &cache.StoreToServiceLister{Store: serviceStore}
nodeStore := cache.NewStore(cache.MetaNamespaceKeyFunc)
if kubeClient != nil {
// TODO: cache.NewListWatchFromClient is limited as it takes a client implementation rather
// than an interface. There is no way to construct a list+watcher using resource name.
fieldSelector := fields.Set{client.ObjectNameField: nodeName}.AsSelector()
listWatch := &cache.ListWatch{
ListFunc: func(options api.ListOptions) (runtime.Object, error) {
options.FieldSelector = fieldSelector
return kubeClient.Nodes().List(options)
},
WatchFunc: func(options api.ListOptions) (watch.Interface, error) {
options.FieldSelector = fieldSelector
return kubeClient.Nodes().Watch(options)
},
}
cache.NewReflector(listWatch, &api.Node{}, nodeStore, 0).Run()
}
nodeLister := &cache.StoreToNodeLister{Store: nodeStore}
nodeInfo := &predicates.CachedNodeInfo{nodeLister}
// TODO: get the real node object of ourself,
// and use the real node name and UID.
// TODO: what is namespace for node?
nodeRef := &api.ObjectReference{
Kind: "Node",
Name: nodeName,
UID: types.UID(nodeName),
Namespace: "",
}
diskSpaceManager, err := newDiskSpaceManager(cadvisorInterface, diskSpacePolicy)
if err != nil {
return nil, fmt.Errorf("failed to initialize disk manager: %v", err)
}
containerRefManager := kubecontainer.NewRefManager()
volumeManager := newVolumeManager()
oomWatcher := NewOOMWatcher(cadvisorInterface, recorder)
klet := &Kubelet{
hostname: hostname,
nodeName: nodeName,
dockerClient: dockerClient,
kubeClient: kubeClient,
rootDirectory: rootDirectory,
resyncInterval: resyncInterval,
containerRefManager: containerRefManager,
httpClient: &http.Client{},
sourcesReady: sourcesReady,
registerNode: registerNode,
registerSchedulable: registerSchedulable,
standaloneMode: standaloneMode,
clusterDomain: clusterDomain,
clusterDNS: clusterDNS,
serviceLister: serviceLister,
nodeLister: nodeLister,
nodeInfo: nodeInfo,
masterServiceNamespace: masterServiceNamespace,
streamingConnectionIdleTimeout: streamingConnectionIdleTimeout,
recorder: recorder,
cadvisor: cadvisorInterface,
diskSpaceManager: diskSpaceManager,
volumeManager: volumeManager,
cloud: cloud,
nodeRef: nodeRef,
nodeLabels: nodeLabels,
nodeLabelsFile: nodeLabelsFile,
nodeStatusUpdateFrequency: nodeStatusUpdateFrequency,
resourceContainer: resourceContainer,
os: osInterface,
oomWatcher: oomWatcher,
cgroupRoot: cgroupRoot,
mounter: mounter,
chmodRunner: chmodRunner,
chownRunner: chownRunner,
writer: writer,
configureCBR0: configureCBR0,
reconcileCIDR: reconcileCIDR,
maxPods: maxPods,
syncLoopMonitor: atomic.Value{},
resolverConfig: resolverConfig,
cpuCFSQuota: cpuCFSQuota,
daemonEndpoints: daemonEndpoints,
containerManager: containerManager,
flannelExperimentalOverlay: flannelExperimentalOverlay,
flannelHelper: NewFlannelHelper(),
}
if klet.flannelExperimentalOverlay {
glog.Infof("Flannel is in charge of podCIDR and overlay networking.")
}
if klet.kubeClient == nil {
// The master kubelet cannot wait for the flannel daemon because it is responsible
// for starting up the flannel server in a static pod. So even though the flannel
// daemon runs on the master, it doesn't hold up cluster bootstrap. All the pods
// on the master run with host networking, so the master flannel doesn't care
// even if the network changes. We only need it for the master proxy.
klet.flannelExperimentalOverlay = false
}
if plug, err := network.InitNetworkPlugin(networkPlugins, networkPluginName, &networkHost{klet}); err != nil {
return nil, err
} else {
klet.networkPlugin = plug
}
machineInfo, err := klet.GetCachedMachineInfo()
if err != nil {
return nil, err
}
procFs := procfs.NewProcFS()
imageBackOff := util.NewBackOff(backOffPeriod, MaxContainerBackOff)
klet.livenessManager = proberesults.NewManager()
// Initialize the runtime.
switch containerRuntime {
case "docker":
// Only supported one for now, continue.
klet.containerRuntime = dockertools.NewDockerManager(
dockerClient,
kubecontainer.FilterEventRecorder(recorder),
klet.livenessManager,
containerRefManager,
machineInfo,
podInfraContainerImage,
pullQPS,
pullBurst,
containerLogsDir,
osInterface,
klet.networkPlugin,
klet,
klet.httpClient,
dockerExecHandler,
oomAdjuster,
procFs,
klet.cpuCFSQuota,
imageBackOff,
serializeImagePulls,
)
klet.pleg = pleg.NewGenericPLEG(klet.containerRuntime, plegChannelCapacity, plegRelistPeriod)
case "rkt":
conf := &rkt.Config{
Path: rktPath,
Stage1Image: rktStage1Image,
InsecureSkipVerify: true,
}
rktRuntime, err := rkt.New(
conf,
klet,
recorder,
containerRefManager,
klet.livenessManager,
klet.volumeManager,
imageBackOff,
serializeImagePulls,
)
if err != nil {
return nil, err
}
klet.containerRuntime = rktRuntime
klet.pleg = pleg.NewGenericPLEG(klet.containerRuntime, plegChannelCapacity, plegRelistPeriod)
// No Docker daemon to put in a container.
dockerDaemonContainer = ""
default:
return nil, fmt.Errorf("unsupported container runtime %q specified", containerRuntime)
}
klet.runtimeState = newRuntimeState(maxWaitForContainerRuntime, configureCBR0, podCIDR, klet.isContainerRuntimeVersionCompatible)
// setup containerGC
containerGC, err := kubecontainer.NewContainerGC(klet.containerRuntime, containerGCPolicy)
if err != nil {
return nil, err
}
klet.containerGC = containerGC
// setup imageManager
imageManager, err := newImageManager(klet.containerRuntime, cadvisorInterface, recorder, nodeRef, imageGCPolicy)
if err != nil {
return nil, fmt.Errorf("failed to initialize image manager: %v", err)
}
klet.imageManager = imageManager
// Setup container manager, can fail if the devices hierarchy is not mounted
// (it is required by Docker however).
klet.nodeConfig = cm.NodeConfig{
DockerDaemonContainerName: dockerDaemonContainer,
SystemContainerName: systemContainer,
KubeletContainerName: resourceContainer,
}
klet.runtimeState.setRuntimeSync(time.Now())
klet.runner = klet.containerRuntime
klet.podManager = kubepod.NewBasicPodManager(kubepod.NewBasicMirrorClient(klet.kubeClient))
klet.statusManager = status.NewManager(kubeClient, klet.podManager)
klet.probeManager = prober.NewManager(
klet.statusManager,
klet.livenessManager,
klet.runner,
containerRefManager,
recorder)
if err := klet.volumePluginMgr.InitPlugins(volumePlugins, &volumeHost{klet}); err != nil {
return nil, err
}
runtimeCache, err := kubecontainer.NewRuntimeCache(klet.containerRuntime)
if err != nil {
return nil, err
}
klet.runtimeCache = runtimeCache
klet.workQueue = queue.NewBasicWorkQueue()
klet.podWorkers = newPodWorkers(runtimeCache, klet.syncPod, recorder, klet.workQueue, klet.resyncInterval, backOffPeriod)
klet.backOff = util.NewBackOff(backOffPeriod, MaxContainerBackOff)
klet.podKillingCh = make(chan *kubecontainer.Pod, podKillingChannelCapacity)
klet.sourcesSeen = sets.NewString()
return klet, nil
}
type serviceLister interface {
List() (api.ServiceList, error)
}
type nodeLister interface {
List() (machines api.NodeList, err error)
}
// Kubelet is the main kubelet implementation.
type Kubelet struct {
hostname string
nodeName string
dockerClient dockertools.DockerInterface
runtimeCache kubecontainer.RuntimeCache
kubeClient client.Interface
rootDirectory string
podWorkers PodWorkers
resyncInterval time.Duration
sourcesReady SourcesReadyFn
// sourcesSeen records the sources seen by kubelet. This set is not thread
// safe and should only be access by the main kubelet syncloop goroutine.
sourcesSeen sets.String
podManager kubepod.Manager
// Needed to report events for containers belonging to deleted/modified pods.
// Tracks references for reporting events
containerRefManager *kubecontainer.RefManager
// Optional, defaults to /logs/ from /var/log
logServer http.Handler
// Optional, defaults to simple Docker implementation
runner kubecontainer.ContainerCommandRunner
// Optional, client for http requests, defaults to empty client
httpClient kubetypes.HttpGetter
// cAdvisor used for container information.
cadvisor cadvisor.Interface
// Set to true to have the node register itself with the apiserver.
registerNode bool
// Set to true to have the node register itself as schedulable.
registerSchedulable bool
// for internal book keeping; access only from within registerWithApiserver
registrationCompleted bool
// Set to true if the kubelet is in standalone mode (i.e. setup without an apiserver)
standaloneMode bool
// If non-empty, use this for container DNS search.
clusterDomain string
// If non-nil, use this for container DNS server.
clusterDNS net.IP
masterServiceNamespace string
serviceLister serviceLister
nodeLister nodeLister
nodeInfo predicates.NodeInfo
// a list of node labels to register
nodeLabels []string
// the path to a yaml or json file container series of node labels
nodeLabelsFile string
// Last timestamp when runtime responded on ping.
// Mutex is used to protect this value.
runtimeState *runtimeState
// Volume plugins.
volumePluginMgr volume.VolumePluginMgr
// Network plugin.
networkPlugin network.NetworkPlugin
// Handles container probing.
probeManager prober.Manager
// Manages container health check results.
livenessManager proberesults.Manager
// How long to keep idle streaming command execution/port forwarding
// connections open before terminating them
streamingConnectionIdleTimeout time.Duration
// The EventRecorder to use
recorder record.EventRecorder
// Policy for handling garbage collection of dead containers.
containerGC kubecontainer.ContainerGC
// Manager for images.
imageManager imageManager
// Diskspace manager.
diskSpaceManager diskSpaceManager
// Cached MachineInfo returned by cadvisor.
machineInfo *cadvisorapi.MachineInfo
// Syncs pods statuses with apiserver; also used as a cache of statuses.
statusManager status.Manager
// Manager for the volume maps for the pods.
volumeManager *volumeManager
//Cloud provider interface
cloud cloudprovider.Interface
// Reference to this node.
nodeRef *api.ObjectReference
// Container runtime.
containerRuntime kubecontainer.Runtime
// nodeStatusUpdateFrequency specifies how often kubelet posts node status to master.
// Note: be cautious when changing the constant, it must work with nodeMonitorGracePeriod
// in nodecontroller. There are several constraints:
// 1. nodeMonitorGracePeriod must be N times more than nodeStatusUpdateFrequency, where
// N means number of retries allowed for kubelet to post node status. It is pointless
// to make nodeMonitorGracePeriod be less than nodeStatusUpdateFrequency, since there
// will only be fresh values from Kubelet at an interval of nodeStatusUpdateFrequency.
// The constant must be less than podEvictionTimeout.
// 2. nodeStatusUpdateFrequency needs to be large enough for kubelet to generate node
// status. Kubelet may fail to update node status reliably if the value is too small,
// as it takes time to gather all necessary node information.
nodeStatusUpdateFrequency time.Duration
// Generates pod events.
pleg pleg.PodLifecycleEventGenerator
// The name of the resource-only container to run the Kubelet in (empty for no container).
// Name must be absolute.
resourceContainer string
os kubecontainer.OSInterface
// Watcher of out of memory events.
oomWatcher OOMWatcher
// If non-empty, pass this to the container runtime as the root cgroup.
cgroupRoot string
// Mounter to use for volumes.
mounter mount.Interface
// chown.Interface implementation to use
chownRunner chown.Interface
// chmod.Interface implementation to use
chmodRunner chmod.Interface
// Writer interface to use for volumes.
writer kubeio.Writer
// Manager of non-Runtime containers.
containerManager cm.ContainerManager
nodeConfig cm.NodeConfig
// Whether or not kubelet should take responsibility for keeping cbr0 in
// the correct state.
configureCBR0 bool
reconcileCIDR bool
// Maximum Number of Pods which can be run by this Kubelet
maxPods int
// Monitor Kubelet's sync loop
syncLoopMonitor atomic.Value
// Container restart Backoff
backOff *util.Backoff
// Channel for sending pods to kill.
podKillingCh chan *kubecontainer.Pod
// The configuration file used as the base to generate the container's
// DNS resolver configuration file. This can be used in conjunction with
// clusterDomain and clusterDNS.
resolverConfig string
// Optionally shape the bandwidth of a pod
shaper bandwidth.BandwidthShaper
// True if container cpu limits should be enforced via cgroup CFS quota
cpuCFSQuota bool
// Information about the ports which are opened by daemons on Node running this Kubelet server.
daemonEndpoints *api.NodeDaemonEndpoints
// A queue used to trigger pod workers.
workQueue queue.WorkQueue
// oneTimeInitializer is used to initialize modules that are dependent on the runtime to be up.
oneTimeInitializer sync.Once
flannelExperimentalOverlay bool
// TODO: Flannelhelper doesn't store any state, we can instantiate it
// on the fly if we're confident the dbus connetions it opens doesn't
// put the system under duress.
flannelHelper *FlannelHelper
}
func (kl *Kubelet) allSourcesReady() bool {
// Make a copy of the sourcesSeen list because it's not thread-safe.
return kl.sourcesReady(sets.NewString(kl.sourcesSeen.List()...))
}
func (kl *Kubelet) addSource(source string) {
kl.sourcesSeen.Insert(source)
}
// getRootDir returns the full path to the directory under which kubelet can
// store data. These functions are useful to pass interfaces to other modules
// that may need to know where to write data without getting a whole kubelet
// instance.
func (kl *Kubelet) getRootDir() string {
return kl.rootDirectory
}
// getPodsDir returns the full path to the directory under which pod
// directories are created.
func (kl *Kubelet) getPodsDir() string {
return path.Join(kl.getRootDir(), "pods")
}
// getPluginsDir returns the full path to the directory under which plugin
// directories are created. Plugins can use these directories for data that
// they need to persist. Plugins should create subdirectories under this named
// after their own names.
func (kl *Kubelet) getPluginsDir() string {
return path.Join(kl.getRootDir(), "plugins")
}
// getPluginDir returns a data directory name for a given plugin name.
// Plugins can use these directories to store data that they need to persist.
// For per-pod plugin data, see getPodPluginDir.
func (kl *Kubelet) getPluginDir(pluginName string) string {
return path.Join(kl.getPluginsDir(), pluginName)
}
// getPodDir returns the full path to the per-pod data directory for the
// specified pod. This directory may not exist if the pod does not exist.
func (kl *Kubelet) getPodDir(podUID types.UID) string {
// Backwards compat. The "old" stuff should be removed before 1.0
// release. The thinking here is this:
// !old && !new = use new
// !old && new = use new
// old && !new = use old
// old && new = use new (but warn)
oldPath := path.Join(kl.getRootDir(), string(podUID))
oldExists := dirExists(oldPath)
newPath := path.Join(kl.getPodsDir(), string(podUID))
newExists := dirExists(newPath)
if oldExists && !newExists {
return oldPath
}
if oldExists {
glog.Warningf("Data dir for pod %q exists in both old and new form, using new", podUID)
}
return newPath
}
// getPodVolumesDir returns the full path to the per-pod data directory under
// which volumes are created for the specified pod. This directory may not
// exist if the pod does not exist.
func (kl *Kubelet) getPodVolumesDir(podUID types.UID) string {
return path.Join(kl.getPodDir(podUID), "volumes")
}
// getPodVolumeDir returns the full path to the directory which represents the
// named volume under the named plugin for specified pod. This directory may not
// exist if the pod does not exist.
func (kl *Kubelet) getPodVolumeDir(podUID types.UID, pluginName string, volumeName string) string {
return path.Join(kl.getPodVolumesDir(podUID), pluginName, volumeName)
}
// getPodPluginsDir returns the full path to the per-pod data directory under
// which plugins may store data for the specified pod. This directory may not
// exist if the pod does not exist.
func (kl *Kubelet) getPodPluginsDir(podUID types.UID) string {
return path.Join(kl.getPodDir(podUID), "plugins")
}
// getPodPluginDir returns a data directory name for a given plugin name for a
// given pod UID. Plugins can use these directories to store data that they
// need to persist. For non-per-pod plugin data, see getPluginDir.
func (kl *Kubelet) getPodPluginDir(podUID types.UID, pluginName string) string {
return path.Join(kl.getPodPluginsDir(podUID), pluginName)
}
// getPodContainerDir returns the full path to the per-pod data directory under
// which container data is held for the specified pod. This directory may not
// exist if the pod or container does not exist.
func (kl *Kubelet) getPodContainerDir(podUID types.UID, ctrName string) string {
// Backwards compat. The "old" stuff should be removed before 1.0
// release. The thinking here is this:
// !old && !new = use new
// !old && new = use new
// old && !new = use old
// old && new = use new (but warn)
oldPath := path.Join(kl.getPodDir(podUID), ctrName)
oldExists := dirExists(oldPath)
newPath := path.Join(kl.getPodDir(podUID), "containers", ctrName)
newExists := dirExists(newPath)
if oldExists && !newExists {
return oldPath
}
if oldExists {
glog.Warningf("Data dir for pod %q, container %q exists in both old and new form, using new", podUID, ctrName)
}
return newPath
}
func dirExists(path string) bool {
s, err := os.Stat(path)
if err != nil {
return false
}
return s.IsDir()
}
func (kl *Kubelet) setupDataDirs() error {
kl.rootDirectory = path.Clean(kl.rootDirectory)
if err := os.MkdirAll(kl.getRootDir(), 0750); err != nil {
return fmt.Errorf("error creating root directory: %v", err)
}
if err := os.MkdirAll(kl.getPodsDir(), 0750); err != nil {
return fmt.Errorf("error creating pods directory: %v", err)
}
if err := os.MkdirAll(kl.getPluginsDir(), 0750); err != nil {
return fmt.Errorf("error creating plugins directory: %v", err)
}
return nil
}
// Get a list of pods that have data directories.
func (kl *Kubelet) listPodsFromDisk() ([]types.UID, error) {
podInfos, err := ioutil.ReadDir(kl.getPodsDir())
if err != nil {
return nil, err
}
pods := []types.UID{}
for i := range podInfos {
if podInfos[i].IsDir() {
pods = append(pods, types.UID(podInfos[i].Name()))
}
}
return pods, nil
}
func (kl *Kubelet) GetNode() (*api.Node, error) {
if kl.standaloneMode {
return nil, errors.New("no node entry for kubelet in standalone mode")
}
return kl.nodeInfo.GetNodeInfo(kl.nodeName)
}
// Starts garbage collection threads.
func (kl *Kubelet) StartGarbageCollection() {
go util.Until(func() {
if err := kl.containerGC.GarbageCollect(); err != nil {
glog.Errorf("Container garbage collection failed: %v", err)
}
}, time.Minute, util.NeverStop)
go util.Until(func() {
if err := kl.imageManager.GarbageCollect(); err != nil {
glog.Errorf("Image garbage collection failed: %v", err)
}
}, 5*time.Minute, util.NeverStop)
}
// initializeModules will initialize internal modules that do not require the container runtime to be up.
// Note that the modules here must not depend on modules that are not initialized here.
func (kl *Kubelet) initializeModules() error {
// Promethues metrics.
metrics.Register(kl.runtimeCache)
// Step 1: Setup filesystem directories.
if err := kl.setupDataDirs(); err != nil {
return err
}
// Step 2: If the container logs directory does not exist, create it.
if _, err := os.Stat(containerLogsDir); err != nil {
if err := kl.os.Mkdir(containerLogsDir, 0755); err != nil {
glog.Errorf("Failed to create directory %q: %v", containerLogsDir, err)
}
}
// Step 3: Move Kubelet to a container, if required.
if kl.resourceContainer != "" {
// Fixme: I need to reside inside ContainerManager interface.
err := util.RunInResourceContainer(kl.resourceContainer)
if err != nil {
glog.Warningf("Failed to move Kubelet to container %q: %v", kl.resourceContainer, err)
}
glog.Infof("Running in container %q", kl.resourceContainer)
}
// Step 4: Start the image manager.
if err := kl.imageManager.Start(); err != nil {
return fmt.Errorf("Failed to start ImageManager, images may not be garbage collected: %v", err)
}
// Step 5: Start container manager.
if err := kl.containerManager.Start(kl.nodeConfig); err != nil {
return fmt.Errorf("Failed to start ContainerManager %v", err)
}
// Step 6: Start out of memory watcher.
if err := kl.oomWatcher.Start(kl.nodeRef); err != nil {
return fmt.Errorf("Failed to start OOM watcher %v", err)
}
return nil
}
// initializeRuntimeDependentModules will initialize internal modules that require the container runtime to be up.
func (kl *Kubelet) initializeRuntimeDependentModules() {
if err := kl.cadvisor.Start(); err != nil {
kl.runtimeState.setInternalError(fmt.Errorf("Failed to start cAdvisor %v", err))
}
}
// Run starts the kubelet reacting to config updates
func (kl *Kubelet) Run(updates <-chan kubetypes.PodUpdate) {
if kl.logServer == nil {
kl.logServer = http.StripPrefix("/logs/", http.FileServer(http.Dir("/var/log/")))
}
if kl.kubeClient == nil {
glog.Warning("No api server defined - no node status update will be sent.")
}
if err := kl.initializeModules(); err != nil {
kl.recorder.Eventf(kl.nodeRef, api.EventTypeWarning, kubecontainer.KubeletSetupFailed, err.Error())
glog.Error(err)
kl.runtimeState.setInitError(err)
}
if kl.kubeClient != nil {
// Start syncing node status immediately, this may set up things the runtime needs to run.
go util.Until(kl.syncNodeStatus, kl.nodeStatusUpdateFrequency, util.NeverStop)
}
go util.Until(kl.syncNetworkStatus, 30*time.Second, util.NeverStop)
go util.Until(kl.updateRuntimeUp, 5*time.Second, util.NeverStop)
// Start a goroutine responsible for killing pods (that are not properly
// handled by pod workers).
go util.Until(kl.podKiller, 1*time.Second, util.NeverStop)
// Run the system oom watcher forever.
kl.statusManager.Start()
// Start the pod lifecycle event generator.
kl.pleg.Start()
kl.syncLoop(updates, kl)
}
func (kl *Kubelet) initialNodeStatus() (*api.Node, error) {
node := &api.Node{
ObjectMeta: api.ObjectMeta{
Name: kl.nodeName,
Labels: map[string]string{"kubernetes.io/hostname": kl.hostname},
},
Spec: api.NodeSpec{
Unschedulable: !kl.registerSchedulable,
},
}
labels, err := kl.getNodeLabels()
if err != nil {
return nil, err
}
// @question: should this be place after the call to the cloud provider? which also applies labels
for k, v := range labels {
if cv, found := node.ObjectMeta.Labels[k]; found {
glog.Warningf("the node label %s=%s will overwrite default setting %s", k, v, cv)
}
node.ObjectMeta.Labels[k] = v
}
if kl.cloud != nil {
instances, ok := kl.cloud.Instances()
if !ok {
return nil, fmt.Errorf("failed to get instances from cloud provider")
}
// TODO(roberthbailey): Can we do this without having credentials to talk
// to the cloud provider?
// TODO: ExternalID is deprecated, we'll have to drop this code
externalID, err := instances.ExternalID(kl.nodeName)
if err != nil {
return nil, fmt.Errorf("failed to get external ID from cloud provider: %v", err)
}
node.Spec.ExternalID = externalID
// TODO: We can't assume that the node has credentials to talk to the
// cloudprovider from arbitrary nodes. At most, we should talk to a
// local metadata server here.
node.Spec.ProviderID, err = cloudprovider.GetInstanceProviderID(kl.cloud, kl.nodeName)
if err != nil {
return nil, err
}
// If the cloud has zone information, label the node with the zone information
zones, ok := kl.cloud.Zones()
if ok {
zone, err := zones.GetZone()
if err != nil {
return nil, fmt.Errorf("failed to get zone from cloud provider: %v", err)
}
if zone.FailureDomain != "" {
glog.Infof("Adding node label from cloud provider: %s=%s", unversioned.LabelZoneFailureDomain, zone.FailureDomain)
node.ObjectMeta.Labels[unversioned.LabelZoneFailureDomain] = zone.FailureDomain
}
if zone.Region != "" {
glog.Infof("Adding node label from cloud provider: %s=%s", unversioned.LabelZoneRegion, zone.Region)
node.ObjectMeta.Labels[unversioned.LabelZoneRegion] = zone.Region
}
}
} else {
node.Spec.ExternalID = kl.hostname
}
if err := kl.setNodeStatus(node); err != nil {
return nil, err
}
return node, nil
}
// getNodeLabels is just a wrapper method for the two below, not to duplicate above