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status.go
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status.go
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/*
Copyright 2017 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 status
import (
"fmt"
"sync"
"time"
apiv1 "k8s.io/api/core/v1"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
kuberuntime "k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/util/strategicpatch"
clientset "k8s.io/client-go/kubernetes"
"k8s.io/kubernetes/pkg/api"
utilequal "k8s.io/kubernetes/pkg/kubelet/kubeletconfig/util/equal"
utillog "k8s.io/kubernetes/pkg/kubelet/kubeletconfig/util/log"
)
const (
// CurDefaultMessage indicates the Kubelet is using it's current config, which is the default
CurDefaultMessage = "using current (default)"
// LkgDefaultMessage indicates the Kubelet is using it's last-known-good config, which is the default
LkgDefaultMessage = "using last-known-good (default)"
// CurInitMessage indicates the Kubelet is using it's current config, which is from the init config files
CurInitMessage = "using current (init)"
// LkgInitMessage indicates the Kubelet is using it's last-known-good config, which is from the init config files
LkgInitMessage = "using last-known-good (init)"
// CurRemoteMessageFmt indicates the Kubelet is usin it's current config, which is from an API source
CurRemoteMessageFmt = "using current (UID: %q)"
// LkgRemoteMessageFmt indicates the Kubelet is using it's last-known-good config, which is from an API source
LkgRemoteMessageFmt = "using last-known-good (UID: %q)"
// CurDefaultOKReason indicates that no init config files were provided
CurDefaultOKReason = "current is set to the local default, and no init config was provided"
// CurInitOKReason indicates that init config files were provided
CurInitOKReason = "current is set to the local default, and an init config was provided"
// CurRemoteOKReason indicates that the config referenced by Node.ConfigSource is currently passing all checks
CurRemoteOKReason = "passing all checks"
// CurFailLoadReasonFmt indicates that the Kubelet failed to load the current config checkpoint for an API source
CurFailLoadReasonFmt = "failed to load current (UID: %q)"
// CurFailParseReasonFmt indicates that the Kubelet failed to parse the current config checkpoint for an API source
CurFailParseReasonFmt = "failed to parse current (UID: %q)"
// CurFailValidateReasonFmt indicates that the Kubelet failed to validate the current config checkpoint for an API source
CurFailValidateReasonFmt = "failed to validate current (UID: %q)"
// CurFailCrashLoopReasonFmt indicates that the Kubelet experienced a crash loop while using the current config checkpoint for an API source
CurFailCrashLoopReasonFmt = "current failed trial period due to crash loop (UID: %q)"
// LkgFail*ReasonFmt reasons are currently used to print errors in the Kubelet log, but do not appear in Node.Status.Conditions
// LkgFailLoadReasonFmt indicates that the Kubelet failed to load the last-known-good config checkpoint for an API source
LkgFailLoadReasonFmt = "failed to load last-known-good (UID: %q)"
// LkgFailParseReasonFmt indicates that the Kubelet failed to parse the last-known-good config checkpoint for an API source
LkgFailParseReasonFmt = "failed to parse last-known-good (UID: %q)"
// LkgFailValidateReasonFmt indicates that the Kubelet failed to validate the last-known-good config checkpoint for an API source
LkgFailValidateReasonFmt = "failed to validate last-known-good (UID: %q)"
// FailSyncReasonFmt is used when the system couldn't sync the config, due to a malformed Node.Spec.ConfigSource, a download failure, etc.
FailSyncReasonFmt = "failed to sync, reason: %s"
// FailSyncReasonAllNilSubfields is used when no subfields are set
FailSyncReasonAllNilSubfields = "invalid NodeConfigSource, exactly one subfield must be non-nil, but all were nil"
// FailSyncReasonPartialObjectReference is used when some required subfields remain unset
FailSyncReasonPartialObjectReference = "invalid ObjectReference, all of UID, Name, and Namespace must be specified"
// FailSyncReasonUIDMismatchFmt is used when there is a UID mismatch between the referenced and downloaded ConfigMaps,
// this can happen because objects must be downloaded by namespace/name, rather than by UID
FailSyncReasonUIDMismatchFmt = "invalid ObjectReference, UID %q does not match UID of downloaded ConfigMap %q"
// FailSyncReasonDownloadFmt is used when the download fails, e.g. due to network issues
FailSyncReasonDownloadFmt = "failed to download ConfigMap with name %q from namespace %q"
// FailSyncReasonInformer is used when the informer fails to report the Node object
FailSyncReasonInformer = "failed to read Node from informer object cache"
// FailSyncReasonReset is used when we can't reset the local configuration references, e.g. due to filesystem issues
FailSyncReasonReset = "failed to reset to local (default or init) config"
// FailSyncReasonCheckpointExistenceFmt is used when we can't determine if a checkpoint already exists, e.g. due to filesystem issues
FailSyncReasonCheckpointExistenceFmt = "failed to determine whether object with UID %q was already checkpointed"
// FailSyncReasonSaveCheckpointFmt is used when we can't save a checkpoint, e.g. due to filesystem issues
FailSyncReasonSaveCheckpointFmt = "failed to save config checkpoint for object with UID %q"
// FailSyncReasonSetCurrentDefault is used when we can't set the current config checkpoint to the local default, e.g. due to filesystem issues
FailSyncReasonSetCurrentDefault = "failed to set current config checkpoint to default"
// FailSyncReasonSetCurrentUIDFmt is used when we can't set the current config checkpoint to a checkpointed object, e.g. due to filesystem issues
FailSyncReasonSetCurrentUIDFmt = "failed to set current config checkpoint to object with UID %q"
// EmptyMessage is a placeholder in the case that we accidentally set the condition's message to the empty string.
// Doing so can result in a partial patch, and thus a confusing status; this makes it clear that the message was not provided.
EmptyMessage = "unknown - message not provided"
// EmptyReason is a placeholder in the case that we accidentally set the condition's reason to the empty string.
// Doing so can result in a partial patch, and thus a confusing status; this makes it clear that the reason was not provided.
EmptyReason = "unknown - reason not provided"
)
// ConfigOKCondition represents a ConfigOK NodeCondition
type ConfigOKCondition interface {
// Set sets the Message, Reason, and Status of the condition
Set(message, reason string, status apiv1.ConditionStatus)
// SetFailSyncCondition sets the condition for when syncing Kubelet config fails
SetFailSyncCondition(reason string)
// ClearFailSyncCondition clears the overlay from SetFailSyncCondition
ClearFailSyncCondition()
// Sync patches the current condition into the Node identified by `nodeName`
Sync(client clientset.Interface, nodeName string)
}
// configOKCondition implements ConfigOKCondition
type configOKCondition struct {
// conditionMux is a mutex on the condition, alternate between setting and syncing the condition
conditionMux sync.Mutex
// condition is the current ConfigOK node condition, which will be reported in the Node.status.conditions
condition *apiv1.NodeCondition
// failedSyncReason is sent in place of the usual reason when the Kubelet is failing to sync the remote config
failedSyncReason string
// pendingCondition; write to this channel to indicate that ConfigOK needs to be synced to the API server
pendingCondition chan bool
}
// NewConfigOKCondition returns a new ConfigOKCondition
func NewConfigOKCondition() ConfigOKCondition {
return &configOKCondition{
// channels must have capacity at least 1, since we signal with non-blocking writes
pendingCondition: make(chan bool, 1),
}
}
// unsafeSet sets the current state of the condition
// it does not grab the conditionMux lock, so you should generally use setConfigOK unless you need to grab the lock
// at a higher level to synchronize additional operations
func (c *configOKCondition) unsafeSet(message, reason string, status apiv1.ConditionStatus) {
// We avoid an empty Message, Reason, or Status on the condition. Since we use Patch to update conditions, an empty
// field might cause a value from a previous condition to leak through, which can be very confusing.
if len(message) == 0 {
message = EmptyMessage
}
if len(reason) == 0 {
reason = EmptyReason
}
if len(string(status)) == 0 {
status = apiv1.ConditionUnknown
}
c.condition = &apiv1.NodeCondition{
Message: message,
Reason: reason,
Status: status,
Type: apiv1.NodeConfigOK,
}
c.pokeSyncWorker()
}
func (c *configOKCondition) Set(message, reason string, status apiv1.ConditionStatus) {
c.conditionMux.Lock()
defer c.conditionMux.Unlock()
c.unsafeSet(message, reason, status)
}
// SetFailSyncCondition updates the ConfigOK status to reflect that we failed to sync to the latest config,
// e.g. due to a malformed Node.Spec.ConfigSource, a download failure, etc.
func (c *configOKCondition) SetFailSyncCondition(reason string) {
c.conditionMux.Lock()
defer c.conditionMux.Unlock()
// set the reason overlay and poke the sync worker to send the update
c.failedSyncReason = fmt.Sprintf(FailSyncReasonFmt, reason)
c.pokeSyncWorker()
}
// ClearFailSyncCondition removes the "failed to sync" reason overlay
func (c *configOKCondition) ClearFailSyncCondition() {
c.conditionMux.Lock()
defer c.conditionMux.Unlock()
// clear the reason overlay and poke the sync worker to send the update
c.failedSyncReason = ""
c.pokeSyncWorker()
}
// pokeSyncWorker notes that the ConfigOK condition needs to be synced to the API server
func (c *configOKCondition) pokeSyncWorker() {
select {
case c.pendingCondition <- true:
default:
}
}
// Sync attempts to sync `c.condition` with the Node object for this Kubelet,
// if syncing fails, an error is logged, and work is queued for retry.
func (c *configOKCondition) Sync(client clientset.Interface, nodeName string) {
select {
case <-c.pendingCondition:
default:
// no work to be done, return
return
}
// grab the lock
c.conditionMux.Lock()
defer c.conditionMux.Unlock()
// if the sync fails, we want to retry
var err error
defer func() {
if err != nil {
utillog.Errorf(err.Error())
c.pokeSyncWorker()
}
}()
if c.condition == nil {
utillog.Infof("ConfigOK condition is nil, skipping ConfigOK sync")
return
}
// get the Node so we can check the current condition
node, err := client.CoreV1().Nodes().Get(nodeName, metav1.GetOptions{})
if err != nil {
err = fmt.Errorf("could not get Node %q, will not sync ConfigOK condition, error: %v", nodeName, err)
return
}
// set timestamps
syncTime := metav1.NewTime(time.Now())
c.condition.LastHeartbeatTime = syncTime
if remote := getConfigOK(node.Status.Conditions); remote == nil || !utilequal.ConfigOKEq(remote, c.condition) {
// update transition time the first time we create the condition,
// or if we are semantically changing the condition
c.condition.LastTransitionTime = syncTime
} else {
// since the conditions are semantically equal, use lastTransitionTime from the condition currently on the Node
// we need to do this because the field will always be represented in the patch generated below, and this copy
// prevents nullifying the field during the patch operation
c.condition.LastTransitionTime = remote.LastTransitionTime
}
// overlay the failedSyncReason if necessary
var condition *apiv1.NodeCondition
if len(c.failedSyncReason) > 0 {
// get a copy of the condition before we add the overlay
condition = c.condition.DeepCopy()
condition.Reason = c.failedSyncReason
condition.Status = apiv1.ConditionFalse
} else {
condition = c.condition
}
// generate the patch
mediaType := "application/json"
info, ok := kuberuntime.SerializerInfoForMediaType(api.Codecs.SupportedMediaTypes(), mediaType)
if !ok {
err = fmt.Errorf("unsupported media type %q", mediaType)
return
}
versions := api.Registry.EnabledVersionsForGroup(api.GroupName)
if len(versions) == 0 {
err = fmt.Errorf("no enabled versions for group %q", api.GroupName)
return
}
// the "best" version supposedly comes first in the list returned from apiv1.Registry.EnabledVersionsForGroup
encoder := api.Codecs.EncoderForVersion(info.Serializer, versions[0])
before, err := kuberuntime.Encode(encoder, node)
if err != nil {
err = fmt.Errorf(`failed to encode "before" node while generating patch, error: %v`, err)
return
}
patchConfigOK(node, condition)
after, err := kuberuntime.Encode(encoder, node)
if err != nil {
err = fmt.Errorf(`failed to encode "after" node while generating patch, error: %v`, err)
return
}
patch, err := strategicpatch.CreateTwoWayMergePatch(before, after, apiv1.Node{})
if err != nil {
err = fmt.Errorf("failed to generate patch for updating ConfigOK condition, error: %v", err)
return
}
// patch the remote Node object
_, err = client.CoreV1().Nodes().PatchStatus(nodeName, patch)
if err != nil {
err = fmt.Errorf("could not update ConfigOK condition, error: %v", err)
return
}
}
// patchConfigOK replaces or adds the ConfigOK condition to the node
func patchConfigOK(node *apiv1.Node, configOK *apiv1.NodeCondition) {
for i := range node.Status.Conditions {
if node.Status.Conditions[i].Type == apiv1.NodeConfigOK {
// edit the condition
node.Status.Conditions[i] = *configOK
return
}
}
// append the condition
node.Status.Conditions = append(node.Status.Conditions, *configOK)
}
// getConfigOK returns the first NodeCondition in `cs` with Type == apiv1.NodeConfigOK,
// or if no such condition exists, returns nil.
func getConfigOK(cs []apiv1.NodeCondition) *apiv1.NodeCondition {
for i := range cs {
if cs[i].Type == apiv1.NodeConfigOK {
return &cs[i]
}
}
return nil
}