/ *
Copyright The Helm 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 action
import (
"bytes"
"fmt"
"strings"
"time"
"github.com/pkg/errors"
metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
"k8s.io/cli-runtime/pkg/resource"
"helm.sh/helm/pkg/chart"
"helm.sh/helm/pkg/chartutil"
"helm.sh/helm/pkg/kube"
"helm.sh/helm/pkg/release"
"helm.sh/helm/pkg/releaseutil"
)
// Upgrade is the action for upgrading releases.
//
// It provides the implementation of 'helm upgrade'.
type Upgrade struct {
cfg * Configuration
ChartPathOptions
Install bool
Devel bool
Namespace string
Timeout time . Duration
Wait bool
DisableHooks bool
DryRun bool
Force bool
ResetValues bool
ReuseValues bool
// Recreate will (if true) recreate pods after a rollback.
Recreate bool
// MaxHistory limits the maximum number of revisions saved per release
MaxHistory int
Atomic bool
CleanupOnFail bool
OutputFormat string
SubNotes bool
}
// NewUpgrade creates a new Upgrade object with the given configuration.
func NewUpgrade ( cfg * Configuration ) * Upgrade {
return & Upgrade {
cfg : cfg ,
}
}
// Run executes the upgrade on the given release.
func ( u * Upgrade ) Run ( name string , chart * chart . Chart , vals map [ string ] interface { } ) ( * release . Release , error ) {
// Make sure if Atomic is set, that wait is set as well. This makes it so
// the user doesn't have to specify both
u . Wait = u . Wait || u . Atomic
if err := validateReleaseName ( name ) ; err != nil {
return nil , errors . Errorf ( "release name is invalid: %s" , name )
}
u . cfg . Log ( "preparing upgrade for %s" , name )
currentRelease , upgradedRelease , err := u . prepareUpgrade ( name , chart , vals )
if err != nil {
return nil , err
}
u . cfg . Releases . MaxHistory = u . MaxHistory
u . cfg . Log ( "performing update for %s" , name )
res , err := u . performUpgrade ( currentRelease , upgradedRelease )
if err != nil {
return res , err
}
if ! u . DryRun {
u . cfg . Log ( "updating status for upgraded release for %s" , name )
if err := u . cfg . Releases . Update ( upgradedRelease ) ; err != nil {
return res , err
}
}
return res , nil
}
func validateReleaseName ( releaseName string ) error {
if releaseName == "" {
return errMissingRelease
}
if ! ValidName . MatchString ( releaseName ) || ( len ( releaseName ) > releaseNameMaxLen ) {
return errInvalidName
}
return nil
}
// prepareUpgrade builds an upgraded release for an upgrade operation.
func ( u * Upgrade ) prepareUpgrade ( name string , chart * chart . Chart , vals map [ string ] interface { } ) ( * release . Release , * release . Release , error ) {
if chart == nil {
return nil , nil , errMissingChart
}
// finds the deployed release with the given name
currentRelease , err := u . cfg . Releases . Deployed ( name )
if err != nil {
return nil , nil , err
}
// determine if values will be reused
vals , err = u . reuseValues ( chart , currentRelease , vals )
if err != nil {
return nil , nil , err
}
if err := chartutil . ProcessDependencies ( chart , vals ) ; err != nil {
return nil , nil , err
}
// finds the non-deleted release with the given name
lastRelease , err := u . cfg . Releases . Last ( name )
if err != nil {
return nil , nil , err
}
// Increment revision count. This is passed to templates, and also stored on
// the release object.
revision := lastRelease . Version + 1
options := chartutil . ReleaseOptions {
Name : name ,
Namespace : currentRelease . Namespace ,
IsUpgrade : true ,
}
caps , err := u . cfg . getCapabilities ( )
if err != nil {
return nil , nil , err
}
valuesToRender , err := chartutil . ToRenderValues ( chart , vals , options , caps )
if err != nil {
return nil , nil , err
}
hooks , manifestDoc , notesTxt , err := u . cfg . renderResources ( chart , valuesToRender , "" , u . SubNotes )
if err != nil {
return nil , nil , err
}
// Store an upgraded release.
upgradedRelease := & release . Release {
Name : name ,
Namespace : currentRelease . Namespace ,
Chart : chart ,
Config : vals ,
Info : & release . Info {
FirstDeployed : currentRelease . Info . FirstDeployed ,
LastDeployed : Timestamper ( ) ,
Status : release . StatusPendingUpgrade ,
Description : "Preparing upgrade" , // This should be overwritten later.
} ,
Version : revision ,
Manifest : manifestDoc . String ( ) ,
Hooks : hooks ,
}
if len ( notesTxt ) > 0 {
upgradedRelease . Info . Notes = notesTxt
}
err = validateManifest ( u . cfg . KubeClient , manifestDoc . Bytes ( ) )
return currentRelease , upgradedRelease , err
}
func ( u * Upgrade ) performUpgrade ( originalRelease , upgradedRelease * release . Release ) ( * release . Release , error ) {
current , err := u . cfg . KubeClient . Build ( bytes . NewBufferString ( originalRelease . Manifest ) )
if err != nil {
return upgradedRelease , errors . Wrap ( err , "unable to build kubernetes objects from current release manifest" )
}
target , err := u . cfg . KubeClient . Build ( bytes . NewBufferString ( upgradedRelease . Manifest ) )
if err != nil {
return upgradedRelease , errors . Wrap ( err , "unable to build kubernetes objects from new release manifest" )
}
// Do a basic diff using gvk + name to figure out what new resources are being created so we can validate they don't already exist
existingResources := make ( map [ string ] bool )
for _ , r := range current {
existingResources [ objectKey ( r ) ] = true
}
var toBeCreated kube . ResourceList
for _ , r := range target {
if ! existingResources [ objectKey ( r ) ] {
toBeCreated = append ( toBeCreated , r )
}
}
if err := existingResourceConflict ( toBeCreated ) ; err != nil {
return nil , errors . Wrap ( err , "rendered manifests contain a new resource that already exists. Unable to continue with update" )
}
if u . DryRun {
u . cfg . Log ( "dry run for %s" , upgradedRelease . Name )
upgradedRelease . Info . Description = "Dry run complete"
return upgradedRelease , nil
}
u . cfg . Log ( "creating upgraded release for %s" , upgradedRelease . Name )
if err := u . cfg . Releases . Create ( upgradedRelease ) ; err != nil {
return nil , err
}
// pre-upgrade hooks
if ! u . DisableHooks {
if err := u . cfg . execHook ( upgradedRelease , release . HookPreUpgrade , u . Timeout ) ; err != nil {
return u . failRelease ( upgradedRelease , kube . ResourceList { } , fmt . Errorf ( "pre-upgrade hooks failed: %s" , err ) )
}
} else {
u . cfg . Log ( "upgrade hooks disabled for %s" , upgradedRelease . Name )
}
results , err := u . cfg . KubeClient . Update ( current , target , u . Force )
if err != nil {
u . cfg . recordRelease ( originalRelease )
return u . failRelease ( upgradedRelease , results . Created , err )
}
if u . Recreate {
// NOTE: Because this is not critical for a release to succeed, we just
// log if an error occurs and continue onward. If we ever introduce log
// levels, we should make these error level logs so users are notified
// that they'll need to go do the cleanup on their own
if err := recreate ( u . cfg , results . Updated ) ; err != nil {
u . cfg . Log ( err . Error ( ) )
}
}
if u . Wait {
if err := u . cfg . KubeClient . Wait ( target , u . Timeout ) ; err != nil {
u . cfg . recordRelease ( originalRelease )
return u . failRelease ( upgradedRelease , results . Created , err )
}
}
// post-upgrade hooks
if ! u . DisableHooks {
if err := u . cfg . execHook ( upgradedRelease , release . HookPostUpgrade , u . Timeout ) ; err != nil {
return u . failRelease ( upgradedRelease , results . Created , fmt . Errorf ( "post-upgrade hooks failed: %s" , err ) )
}
}
originalRelease . Info . Status = release . StatusSuperseded
u . cfg . recordRelease ( originalRelease )
upgradedRelease . Info . Status = release . StatusDeployed
upgradedRelease . Info . Description = "Upgrade complete"
return upgradedRelease , nil
}
func ( u * Upgrade ) failRelease ( rel * release . Release , created kube . ResourceList , err error ) ( * release . Release , error ) {
msg := fmt . Sprintf ( "Upgrade %q failed: %s" , rel . Name , err )
u . cfg . Log ( "warning: %s" , msg )
rel . Info . Status = release . StatusFailed
rel . Info . Description = msg
u . cfg . recordRelease ( rel )
if u . CleanupOnFail {
u . cfg . Log ( "Cleanup on fail set, cleaning up %d resources" , len ( created ) )
_ , errs := u . cfg . KubeClient . Delete ( created )
if errs != nil {
var errorList [ ] string
for _ , e := range errs {
errorList = append ( errorList , e . Error ( ) )
}
return rel , errors . Wrapf ( fmt . Errorf ( "unable to cleanup resources: %s" , strings . Join ( errorList , ", " ) ) , "an error occurred while cleaning up resources. original upgrade error: %s" , err )
}
u . cfg . Log ( "Resource cleanup complete" )
}
if u . Atomic {
u . cfg . Log ( "Upgrade failed and atomic is set, rolling back to last successful release" )
// As a protection, get the last successful release before rollback.
// If there are no successful releases, bail out
hist := NewHistory ( u . cfg )
fullHistory , herr := hist . Run ( rel . Name )
if herr != nil {
return rel , errors . Wrapf ( herr , "an error occurred while finding last successful release. original upgrade error: %s" , err )
}
// There isn't a way to tell if a previous release was successful, but
// generally failed releases do not get superseded unless the next
// release is successful, so this should be relatively safe
filteredHistory := releaseutil . FilterFunc ( func ( r * release . Release ) bool {
return r . Info . Status == release . StatusSuperseded || r . Info . Status == release . StatusDeployed
} ) . Filter ( fullHistory )
if len ( filteredHistory ) == 0 {
return rel , errors . Wrap ( err , "unable to find a previously successful release when attempting to rollback. original upgrade error" )
}
releaseutil . Reverse ( filteredHistory , releaseutil . SortByRevision )
rollin := NewRollback ( u . cfg )
rollin . Version = filteredHistory [ 0 ] . Version
rollin . Wait = true
rollin . DisableHooks = u . DisableHooks
rollin . Recreate = u . Recreate
rollin . Force = u . Force
rollin . Timeout = u . Timeout
if rollErr := rollin . Run ( rel . Name ) ; rollErr != nil {
return rel , errors . Wrapf ( rollErr , "an error occurred while rolling back the release. original upgrade error: %s" , err )
}
return rel , errors . Wrapf ( err , "release %s failed, and has been rolled back due to atomic being set" , rel . Name )
}
return rel , err
}
// reuseValues copies values from the current release to a new release if the
// new release does not have any values.
//
// If the request already has values, or if there are no values in the current
// release, this does nothing.
//
// This is skipped if the u.ResetValues flag is set, in which case the
// request values are not altered.
func ( u * Upgrade ) reuseValues ( chart * chart . Chart , current * release . Release , newVals map [ string ] interface { } ) ( map [ string ] interface { } , error ) {
if u . ResetValues {
// If ResetValues is set, we completely ignore current.Config.
u . cfg . Log ( "resetting values to the chart's original version" )
return newVals , nil
}
// If the ReuseValues flag is set, we always copy the old values over the new config's values.
if u . ReuseValues {
u . cfg . Log ( "reusing the old release's values" )
// We have to regenerate the old coalesced values:
oldVals , err := chartutil . CoalesceValues ( current . Chart , current . Config )
if err != nil {
return nil , errors . Wrap ( err , "failed to rebuild old values" )
}
newVals = chartutil . CoalesceTables ( newVals , current . Config )
chart . Values = oldVals
return newVals , nil
}
if len ( newVals ) == 0 && len ( current . Config ) > 0 {
u . cfg . Log ( "copying values from %s (v%d) to new release." , current . Name , current . Version )
newVals = current . Config
}
return newVals , nil
}
func validateManifest ( c kube . Interface , manifest [ ] byte ) error {
_ , err := c . Build ( bytes . NewReader ( manifest ) )
return err
}
// recreate captures all the logic for recreating pods for both upgrade and
// rollback. If we end up refactoring rollback to use upgrade, this can just be
// made an unexported method on the upgrade action.
func recreate ( cfg * Configuration , resources kube . ResourceList ) error {
for _ , res := range resources {
versioned := kube . AsVersioned ( res )
selector , err := kube . SelectorsForObject ( versioned )
if err != nil {
// If no selector is returned, it means this object is
// definitely not a pod, so continue onward
continue
}
client , err := cfg . KubernetesClientSet ( )
if err != nil {
return errors . Wrapf ( err , "unable to recreate pods for object %s/%s because an error occurred" , res . Namespace , res . Name )
}
pods , err := client . CoreV1 ( ) . Pods ( res . Namespace ) . List ( metav1 . ListOptions {
LabelSelector : selector . String ( ) ,
} )
if err != nil {
return errors . Wrapf ( err , "unable to recreate pods for object %s/%s because an error occurred" , res . Namespace , res . Name )
}
// Restart pods
for _ , pod := range pods . Items {
// Delete each pod for get them restarted with changed spec.
if err := client . CoreV1 ( ) . Pods ( pod . Namespace ) . Delete ( pod . Name , metav1 . NewPreconditionDeleteOptions ( string ( pod . UID ) ) ) ; err != nil {
return errors . Wrapf ( err , "unable to recreate pods for object %s/%s because an error occurred" , res . Namespace , res . Name )
}
}
}
return nil
}
func objectKey ( r * resource . Info ) string {
gvk := r . Object . GetObjectKind ( ) . GroupVersionKind ( )
return fmt . Sprintf ( "%s/%s/%s" , gvk . GroupVersion ( ) . String ( ) , gvk . Kind , r . Name )
}