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compute.go
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compute.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 upgrade
import (
"fmt"
"strings"
"k8s.io/kubernetes/cmd/kubeadm/app/phases/addons/dns"
"k8s.io/kubernetes/pkg/util/version"
)
// Upgrade defines an upgrade possibility to upgrade from a current version to a new one
type Upgrade struct {
Description string
Before ClusterState
After ClusterState
}
// CanUpgradeKubelets returns whether an upgrade of any kubelet in the cluster is possible
func (u *Upgrade) CanUpgradeKubelets() bool {
// If there are multiple different versions now, an upgrade is possible (even if only for a subset of the nodes)
if len(u.Before.KubeletVersions) > 1 {
return true
}
// Don't report something available for upgrade if we don't know the current state
if len(u.Before.KubeletVersions) == 0 {
return false
}
// if the same version number existed both before and after, we don't have to upgrade it
_, sameVersionFound := u.Before.KubeletVersions[u.After.KubeVersion]
return !sameVersionFound
}
// ClusterState describes the state of certain versions for a cluster
type ClusterState struct {
// KubeVersion describes the version of the Kubernetes API Server, Controller Manager, Scheduler and Proxy.
KubeVersion string
// DNSVersion describes the version of the kube-dns images used and manifest version
DNSVersion string
// KubeadmVersion describes the version of the kubeadm CLI
KubeadmVersion string
// KubeletVersions is a map with a version number linked to the amount of kubelets running that version in the cluster
KubeletVersions map[string]uint16
}
// GetAvailableUpgrades fetches all versions from the specified VersionGetter and computes which
// kinds of upgrades can be performed
func GetAvailableUpgrades(versionGetterImpl VersionGetter, experimentalUpgradesAllowed, rcUpgradesAllowed bool) ([]Upgrade, error) {
fmt.Println("[upgrade] Fetching available versions to upgrade to")
// Collect the upgrades kubeadm can do in this list
upgrades := []Upgrade{}
// Get the cluster version
clusterVersionStr, clusterVersion, err := versionGetterImpl.ClusterVersion()
if err != nil {
return nil, err
}
// Get current kubeadm CLI version
kubeadmVersionStr, kubeadmVersion, err := versionGetterImpl.KubeadmVersion()
if err != nil {
return nil, err
}
// Get and output the current latest stable version
stableVersionStr, stableVersion, err := versionGetterImpl.VersionFromCILabel("stable", "stable version")
if err != nil {
fmt.Printf("[upgrade/versions] WARNING: %v\n", err)
fmt.Println("[upgrade/versions] WARNING: Falling back to current kubeadm version as latest stable version")
stableVersionStr, stableVersion = kubeadmVersionStr, kubeadmVersion
}
// Get the kubelet versions in the cluster
kubeletVersions, err := versionGetterImpl.KubeletVersions()
if err != nil {
return nil, err
}
// Construct a descriptor for the current state of the world
beforeState := ClusterState{
KubeVersion: clusterVersionStr,
DNSVersion: dns.GetKubeDNSVersion(clusterVersion),
KubeadmVersion: kubeadmVersionStr,
KubeletVersions: kubeletVersions,
}
// Do a "dumb guess" that a new minor upgrade is available just because the latest stable version is higher than the cluster version
// This guess will be corrected once we know if there is a patch version available
canDoMinorUpgrade := clusterVersion.LessThan(stableVersion)
// A patch version doesn't exist if the cluster version is higher than or equal to the current stable version
// in the case that a user is trying to upgrade from, let's say, v1.8.0-beta.2 to v1.8.0-rc.1 (given we support such upgrades experimentally)
// a stable-1.8 branch doesn't exist yet. Hence this check.
if patchVersionBranchExists(clusterVersion, stableVersion) {
currentBranch := getBranchFromVersion(clusterVersionStr)
versionLabel := fmt.Sprintf("stable-%s", currentBranch)
description := fmt.Sprintf("version in the v%s series", currentBranch)
// Get and output the latest patch version for the cluster branch
patchVersionStr, patchVersion, err := versionGetterImpl.VersionFromCILabel(versionLabel, description)
if err != nil {
fmt.Printf("[upgrade/versions] WARNING: %v\n", err)
} else {
// Check if a minor version upgrade is possible when a patch release exists
// It's only possible if the latest patch version is higher than the current patch version
// If that's the case, they must be on different branches => a newer minor version can be upgraded to
canDoMinorUpgrade = minorUpgradePossibleWithPatchRelease(stableVersion, patchVersion)
// If the cluster version is lower than the newest patch version, we should inform about the possible upgrade
if patchUpgradePossible(clusterVersion, patchVersion) {
// The kubeadm version has to be upgraded to the latest patch version
newKubeadmVer := patchVersionStr
if kubeadmVersion.AtLeast(patchVersion) {
// In this case, the kubeadm CLI version is new enough. Don't display an update suggestion for kubeadm by making .NewKubeadmVersion equal .CurrentKubeadmVersion
newKubeadmVer = kubeadmVersionStr
}
upgrades = append(upgrades, Upgrade{
Description: description,
Before: beforeState,
After: ClusterState{
KubeVersion: patchVersionStr,
DNSVersion: dns.GetKubeDNSVersion(patchVersion),
KubeadmVersion: newKubeadmVer,
// KubeletVersions is unset here as it is not used anywhere in .After
},
})
}
}
}
if canDoMinorUpgrade {
upgrades = append(upgrades, Upgrade{
Description: "stable version",
Before: beforeState,
After: ClusterState{
KubeVersion: stableVersionStr,
DNSVersion: dns.GetKubeDNSVersion(stableVersion),
KubeadmVersion: stableVersionStr,
// KubeletVersions is unset here as it is not used anywhere in .After
},
})
}
if experimentalUpgradesAllowed || rcUpgradesAllowed {
// dl.k8s.io/release/latest.txt is ALWAYS an alpha.X version
// dl.k8s.io/release/latest-1.X.txt is first v1.X.0-alpha.0 -> v1.X.0-alpha.Y, then v1.X.0-beta.0 to v1.X.0-beta.Z, then v1.X.0-rc.1 to v1.X.0-rc.W.
// After the v1.X.0 release, latest-1.X.txt is always a beta.0 version. Let's say the latest stable version on the v1.7 branch is v1.7.3, then the
// latest-1.7 version is v1.7.4-beta.0
// Worth noticing is that when the release-1.X branch is cut; there are two versions tagged: v1.X.0-beta.0 AND v1.(X+1).alpha.0
// The v1.(X+1).alpha.0 is pretty much useless and should just be ignored, as more betas may be released that have more features than the initial v1.(X+1).alpha.0
// So what we do below is getting the latest overall version, always an v1.X.0-alpha.Y version. Then we get latest-1.(X-1) version. This version may be anything
// between v1.(X-1).0-beta.0 and v1.(X-1).Z-beta.0. At some point in time, latest-1.(X-1) will point to v1.(X-1).0-rc.1. Then we should show it.
// The flow looks like this (with time on the X axis):
// v1.8.0-alpha.1 -> v1.8.0-alpha.2 -> v1.8.0-alpha.3 | release-1.8 branch | v1.8.0-beta.0 -> v1.8.0-beta.1 -> v1.8.0-beta.2 -> v1.8.0-rc.1 -> v1.8.0 -> v1.8.1
// v1.9.0-alpha.0 -> v1.9.0-alpha.1 -> v1.9.0-alpha.2
// Get and output the current latest unstable version
latestVersionStr, latestVersion, err := versionGetterImpl.VersionFromCILabel("latest", "experimental version")
if err != nil {
return nil, err
}
minorUnstable := latestVersion.Components()[1]
// Get and output the current latest unstable version
previousBranch := fmt.Sprintf("latest-1.%d", minorUnstable-1)
previousBranchLatestVersionStr, previousBranchLatestVersion, err := versionGetterImpl.VersionFromCILabel(previousBranch, "")
if err != nil {
return nil, err
}
// If that previous latest version is an RC, RCs are allowed and the cluster version is lower than the RC version, show the upgrade
if rcUpgradesAllowed && rcUpgradePossible(clusterVersion, previousBranchLatestVersion) {
upgrades = append(upgrades, Upgrade{
Description: "release candidate version",
Before: beforeState,
After: ClusterState{
KubeVersion: previousBranchLatestVersionStr,
DNSVersion: dns.GetKubeDNSVersion(previousBranchLatestVersion),
KubeadmVersion: previousBranchLatestVersionStr,
// KubeletVersions is unset here as it is not used anywhere in .After
},
})
}
// Show the possibility if experimental upgrades are allowed
if experimentalUpgradesAllowed && clusterVersion.LessThan(latestVersion) {
// Default to assume that the experimental version to show is the unstable one
unstableKubeVersion := latestVersionStr
unstableKubeDNSVersion := dns.GetKubeDNSVersion(latestVersion)
// Ẃe should not display alpha.0. The previous branch's beta/rc versions are more relevant due how the kube branching process works.
if latestVersion.PreRelease() == "alpha.0" {
unstableKubeVersion = previousBranchLatestVersionStr
unstableKubeDNSVersion = dns.GetKubeDNSVersion(previousBranchLatestVersion)
}
upgrades = append(upgrades, Upgrade{
Description: "experimental version",
Before: beforeState,
After: ClusterState{
KubeVersion: unstableKubeVersion,
DNSVersion: unstableKubeDNSVersion,
KubeadmVersion: unstableKubeVersion,
// KubeletVersions is unset here as it is not used anywhere in .After
},
})
}
}
// Add a newline in the end of this output to leave some space to the next output section
fmt.Println("")
return upgrades, nil
}
func getBranchFromVersion(version string) string {
return strings.TrimPrefix(version, "v")[:3]
}
func patchVersionBranchExists(clusterVersion, stableVersion *version.Version) bool {
return stableVersion.AtLeast(clusterVersion)
}
func patchUpgradePossible(clusterVersion, patchVersion *version.Version) bool {
return clusterVersion.LessThan(patchVersion)
}
func rcUpgradePossible(clusterVersion, previousBranchLatestVersion *version.Version) bool {
return strings.HasPrefix(previousBranchLatestVersion.PreRelease(), "rc") && clusterVersion.LessThan(previousBranchLatestVersion)
}
func minorUpgradePossibleWithPatchRelease(stableVersion, patchVersion *version.Version) bool {
return patchVersion.LessThan(stableVersion)
}