/* Copyright 2019 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 cloudup import ( "bytes" "context" "fmt" "net/url" "os" "path" "strings" "github.com/blang/semver/v4" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/klog/v2" kopsbase "k8s.io/kops" "k8s.io/kops/pkg/acls" "k8s.io/kops/pkg/apis/kops" "k8s.io/kops/pkg/apis/kops/registry" "k8s.io/kops/pkg/apis/kops/util" "k8s.io/kops/pkg/apis/kops/validation" "k8s.io/kops/pkg/apis/nodeup" "k8s.io/kops/pkg/assets" "k8s.io/kops/pkg/client/simple" "k8s.io/kops/pkg/client/simple/vfsclientset" "k8s.io/kops/pkg/dns" "k8s.io/kops/pkg/featureflag" "k8s.io/kops/pkg/model" "k8s.io/kops/pkg/model/alimodel" "k8s.io/kops/pkg/model/awsmodel" "k8s.io/kops/pkg/model/components" "k8s.io/kops/pkg/model/components/etcdmanager" "k8s.io/kops/pkg/model/components/kubeapiserver" "k8s.io/kops/pkg/model/domodel" "k8s.io/kops/pkg/model/gcemodel" "k8s.io/kops/pkg/model/iam" "k8s.io/kops/pkg/model/openstackmodel" "k8s.io/kops/pkg/model/spotinstmodel" "k8s.io/kops/pkg/resources/digitalocean" "k8s.io/kops/pkg/templates" "k8s.io/kops/upup/models" "k8s.io/kops/upup/pkg/fi" "k8s.io/kops/upup/pkg/fi/cloudup/aliup" "k8s.io/kops/upup/pkg/fi/cloudup/awsup" "k8s.io/kops/upup/pkg/fi/cloudup/cloudformation" "k8s.io/kops/upup/pkg/fi/cloudup/do" "k8s.io/kops/upup/pkg/fi/cloudup/gce" "k8s.io/kops/upup/pkg/fi/cloudup/openstack" "k8s.io/kops/upup/pkg/fi/cloudup/terraform" "k8s.io/kops/util/pkg/architectures" "k8s.io/kops/util/pkg/vfs" ) const ( starline = "*********************************************************************************" ) var ( // AlphaAllowDO is a feature flag that gates DigitalOcean support while it is alpha AlphaAllowDO = featureflag.New("AlphaAllowDO", featureflag.Bool(false)) // AlphaAllowGCE is a feature flag that gates GCE support while it is alpha AlphaAllowGCE = featureflag.New("AlphaAllowGCE", featureflag.Bool(false)) // AlphaAllowALI is a feature flag that gates aliyun support while it is alpha AlphaAllowALI = featureflag.New("AlphaAllowALI", featureflag.Bool(false)) // OldestSupportedKubernetesVersion is the oldest kubernetes version that is supported in Kops OldestSupportedKubernetesVersion = "1.11.0" // OldestRecommendedKubernetesVersion is the oldest kubernetes version that is not deprecated in Kops OldestRecommendedKubernetesVersion = "1.13.0" ) type ApplyClusterCmd struct { Cloud fi.Cloud Cluster *kops.Cluster InstanceGroups []*kops.InstanceGroup // NodeUpSource is the location from which we download nodeup NodeUpSource map[architectures.Architecture]string // NodeUpHash is the sha hash NodeUpHash map[architectures.Architecture]string // TargetName specifies how we are operating e.g. direct to GCE, or AWS, or dry-run, or terraform TargetName string // Target is the fi.Target we will operate against Target fi.Target // OutDir is a local directory in which we place output, can cache files etc OutDir string // Assets is a list of sources for files (primarily when not using everything containerized) // Formats: // raw url: http://... or https://... // url with hash: @http://... or @https://... Assets map[architectures.Architecture][]*MirroredAsset Clientset simple.Clientset // DryRun is true if this is only a dry run DryRun bool // AllowKopsDowngrade permits applying with a kops version older than what was last used to apply to the cluster. AllowKopsDowngrade bool // RunTasksOptions defines parameters for task execution, e.g. retry interval RunTasksOptions *fi.RunTasksOptions // The channel we are using channel *kops.Channel // Phase can be set to a Phase to run the specific subset of tasks, if we don't want to run everything Phase Phase // LifecycleOverrides is passed in to override the lifecycle for one of more tasks. // The key value is the task name such as InternetGateway and the value is the fi.Lifecycle // that is re-mapped. LifecycleOverrides map[string]fi.Lifecycle // TaskMap is the map of tasks that we built (output) TaskMap map[string]fi.Task } func (c *ApplyClusterCmd) Run(ctx context.Context) error { if c.InstanceGroups == nil { list, err := c.Clientset.InstanceGroupsFor(c.Cluster).List(ctx, metav1.ListOptions{}) if err != nil { return err } var instanceGroups []*kops.InstanceGroup for i := range list.Items { instanceGroups = append(instanceGroups, &list.Items[i]) } c.InstanceGroups = instanceGroups } for _, ig := range c.InstanceGroups { // Try to guess the path for additional third party volume plugins in Flatcar image := strings.ToLower(ig.Spec.Image) if strings.Contains(image, "flatcar") { if c.Cluster.Spec.Kubelet == nil { c.Cluster.Spec.Kubelet = &kops.KubeletConfigSpec{} } if c.Cluster.Spec.Kubelet.VolumePluginDirectory == "" { c.Cluster.Spec.Kubelet.VolumePluginDirectory = "/var/lib/kubelet/volumeplugins/" } } } channel, err := ChannelForCluster(c.Cluster) if err != nil { klog.Warningf("%v", err) } c.channel = channel stageAssetsLifecycle := fi.LifecycleSync securityLifecycle := fi.LifecycleSync networkLifecycle := fi.LifecycleSync clusterLifecycle := fi.LifecycleSync switch c.Phase { case Phase(""): // Everything ... the default // until we implement finding assets we need to Ignore them stageAssetsLifecycle = fi.LifecycleIgnore case PhaseStageAssets: networkLifecycle = fi.LifecycleIgnore securityLifecycle = fi.LifecycleIgnore clusterLifecycle = fi.LifecycleIgnore case PhaseNetwork: stageAssetsLifecycle = fi.LifecycleIgnore securityLifecycle = fi.LifecycleIgnore clusterLifecycle = fi.LifecycleIgnore case PhaseSecurity: stageAssetsLifecycle = fi.LifecycleIgnore networkLifecycle = fi.LifecycleExistsAndWarnIfChanges clusterLifecycle = fi.LifecycleIgnore case PhaseCluster: if c.TargetName == TargetDryRun { stageAssetsLifecycle = fi.LifecycleIgnore securityLifecycle = fi.LifecycleExistsAndWarnIfChanges networkLifecycle = fi.LifecycleExistsAndWarnIfChanges } else { stageAssetsLifecycle = fi.LifecycleIgnore networkLifecycle = fi.LifecycleExistsAndValidates securityLifecycle = fi.LifecycleExistsAndValidates } default: return fmt.Errorf("unknown phase %q", c.Phase) } // This is kinda a hack. Need to move phases out of fi. If we use Phase here we introduce a circular // go dependency. phase := string(c.Phase) assetBuilder := assets.NewAssetBuilder(c.Cluster, phase) err = c.upgradeSpecs(assetBuilder) if err != nil { return err } err = c.validateKopsVersion() if err != nil { return err } err = c.validateKubernetesVersion() if err != nil { return err } cluster := c.Cluster configBase, err := vfs.Context.BuildVfsPath(cluster.Spec.ConfigBase) if err != nil { return fmt.Errorf("error parsing config base %q: %v", cluster.Spec.ConfigBase, err) } if !c.AllowKopsDowngrade { kopsVersionUpdatedBytes, err := configBase.Join(registry.PathKopsVersionUpdated).ReadFile() if err == nil { kopsVersionUpdated := strings.TrimSpace(string(kopsVersionUpdatedBytes)) version, err := semver.Parse(kopsVersionUpdated) if err != nil { return fmt.Errorf("error parsing last kops version updated: %v", err) } if version.GT(semver.MustParse(kopsbase.Version)) { fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") fmt.Printf("The cluster was last updated by kops version %s\n", kopsVersionUpdated) fmt.Printf("To permit updating by the older version %s, run with the --allow-kops-downgrade flag\n", kopsbase.Version) fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") return fmt.Errorf("kops version older than last used to update the cluster") } } else if err != os.ErrNotExist { return fmt.Errorf("error reading last kops version used to update: %v", err) } } cloud := c.Cloud err = validation.DeepValidate(c.Cluster, c.InstanceGroups, true, cloud) if err != nil { return err } if cluster.Spec.KubernetesVersion == "" { return fmt.Errorf("KubernetesVersion not set") } if cluster.Spec.DNSZone == "" && !dns.IsGossipHostname(cluster.ObjectMeta.Name) { return fmt.Errorf("DNSZone not set") } l := &Loader{} l.Init() keyStore, err := c.Clientset.KeyStore(cluster) if err != nil { return err } sshCredentialStore, err := c.Clientset.SSHCredentialStore(cluster) if err != nil { return err } secretStore, err := c.Clientset.SecretStore(cluster) if err != nil { return err } addonsClient := c.Clientset.AddonsFor(cluster) addons, err := addonsClient.List() if err != nil { return fmt.Errorf("error fetching addons: %v", err) } // Normalize k8s version versionWithoutV := strings.TrimSpace(cluster.Spec.KubernetesVersion) versionWithoutV = strings.TrimPrefix(versionWithoutV, "v") if cluster.Spec.KubernetesVersion != versionWithoutV { klog.Warningf("Normalizing kubernetes version: %q -> %q", cluster.Spec.KubernetesVersion, versionWithoutV) cluster.Spec.KubernetesVersion = versionWithoutV } // check if we should recommend turning off anonymousAuth { // we do a check here because setting modifying the kubelet object messes with the output warn := false if cluster.Spec.Kubelet == nil { warn = true } else if cluster.Spec.Kubelet.AnonymousAuth == nil { warn = true } if warn { fmt.Println("") fmt.Printf("%s\n", starline) fmt.Println("") fmt.Println("Kubelet anonymousAuth is currently turned on. This allows RBAC escalation and remote code execution possibilities.") fmt.Println("It is highly recommended you turn it off by setting 'spec.kubelet.anonymousAuth' to 'false' via 'kops edit cluster'") fmt.Println("") fmt.Println("See https://kops.sigs.k8s.io/security/#kubelet-api") fmt.Println("") fmt.Printf("%s\n", starline) fmt.Println("") } } if fi.BoolValue(c.Cluster.Spec.EncryptionConfig) { secret, err := secretStore.FindSecret("encryptionconfig") if err != nil { return fmt.Errorf("could not load encryptionconfig secret: %v", err) } if secret == nil { fmt.Println("") fmt.Println("You have encryptionConfig enabled, but no encryptionconfig secret has been set.") fmt.Println("See `kops create secret encryptionconfig -h` and https://kubernetes.io/docs/tasks/administer-cluster/encrypt-data/") return fmt.Errorf("could not find encryptionconfig secret") } } if err := c.addFileAssets(assetBuilder); err != nil { return err } // Only setup transfer of kops assets if using a FileRepository if c.Cluster.Spec.Assets != nil && c.Cluster.Spec.Assets.FileRepository != nil { if err := SetKopsAssetsLocations(assetBuilder); err != nil { return err } } checkExisting := true region := "" project := "" var sshPublicKeys [][]byte { keys, err := sshCredentialStore.FindSSHPublicKeys(fi.SecretNameSSHPrimary) if err != nil { return fmt.Errorf("error retrieving SSH public key %q: %v", fi.SecretNameSSHPrimary, err) } for _, k := range keys { sshPublicKeys = append(sshPublicKeys, []byte(k.Spec.PublicKey)) } } modelContext := &model.KopsModelContext{ IAMModelContext: iam.IAMModelContext{Cluster: cluster}, InstanceGroups: c.InstanceGroups, } switch kops.CloudProviderID(cluster.Spec.CloudProvider) { case kops.CloudProviderGCE: { gceCloud := cloud.(gce.GCECloud) region = gceCloud.Region() project = gceCloud.Project() if !AlphaAllowGCE.Enabled() { return fmt.Errorf("GCE support is currently alpha, and is feature-gated. export KOPS_FEATURE_FLAGS=AlphaAllowGCE") } modelContext.SSHPublicKeys = sshPublicKeys } case kops.CloudProviderDO: { if !AlphaAllowDO.Enabled() { return fmt.Errorf("DigitalOcean support is currently (very) alpha and is feature-gated. export KOPS_FEATURE_FLAGS=AlphaAllowDO to enable it") } if len(sshPublicKeys) == 0 && (c.Cluster.Spec.SSHKeyName == nil || *c.Cluster.Spec.SSHKeyName == "") { return fmt.Errorf("SSH public key must be specified when running with DigitalOcean (create with `kops create secret --name %s sshpublickey admin -i ~/.ssh/id_rsa.pub`)", cluster.ObjectMeta.Name) } modelContext.SSHPublicKeys = sshPublicKeys } case kops.CloudProviderAWS: { awsCloud := cloud.(awsup.AWSCloud) region = awsCloud.Region() accountID, partition, err := awsCloud.AccountInfo() if err != nil { return err } modelContext.AWSAccountID = accountID modelContext.AWSPartition = partition if len(sshPublicKeys) == 0 && c.Cluster.Spec.SSHKeyName == nil { return fmt.Errorf("SSH public key must be specified when running with AWS (create with `kops create secret --name %s sshpublickey admin -i ~/.ssh/id_rsa.pub`)", cluster.ObjectMeta.Name) } modelContext.SSHPublicKeys = sshPublicKeys if len(sshPublicKeys) > 1 { return fmt.Errorf("exactly one 'admin' SSH public key can be specified when running with AWS; please delete a key using `kops delete secret`") } } case kops.CloudProviderALI: { if !AlphaAllowALI.Enabled() { return fmt.Errorf("aliyun support is currently alpha, and is feature-gated. export KOPS_FEATURE_FLAGS=AlphaAllowALI") } aliCloud := cloud.(aliup.ALICloud) region = aliCloud.Region() if len(sshPublicKeys) == 0 { return fmt.Errorf("SSH public key must be specified when running with ALICloud (create with `kops create secret --name %s sshpublickey admin -i ~/.ssh/id_rsa.pub`)", cluster.ObjectMeta.Name) } modelContext.SSHPublicKeys = sshPublicKeys if len(sshPublicKeys) != 1 { return fmt.Errorf("exactly one 'admin' SSH public key can be specified when running with ALICloud; please delete a key using `kops delete secret`") } } case kops.CloudProviderOpenstack: { osCloud := cloud.(openstack.OpenstackCloud) region = osCloud.Region() if len(sshPublicKeys) == 0 { return fmt.Errorf("SSH public key must be specified when running with Openstack (create with `kops create secret --name %s sshpublickey admin -i ~/.ssh/id_rsa.pub`)", cluster.ObjectMeta.Name) } modelContext.SSHPublicKeys = sshPublicKeys if len(sshPublicKeys) != 1 { return fmt.Errorf("exactly one 'admin' SSH public key can be specified when running with Openstack; please delete a key using `kops delete secret`") } } default: return fmt.Errorf("unknown CloudProvider %q", cluster.Spec.CloudProvider) } modelContext.Region = region if dns.IsGossipHostname(cluster.ObjectMeta.Name) { klog.Infof("Gossip DNS: skipping DNS validation") } else { err = validateDNS(cluster, cloud) if err != nil { return err } } tf := &TemplateFunctions{ KopsModelContext: *modelContext, } { templates, err := templates.LoadTemplates(cluster, models.NewAssetPath("cloudup/resources")) if err != nil { return fmt.Errorf("error loading templates: %v", err) } err = tf.AddTo(templates.TemplateFunctions, secretStore) if err != nil { return err } l.Builders = append(l.Builders, &BootstrapChannelBuilder{ KopsModelContext: modelContext, Lifecycle: &clusterLifecycle, assetBuilder: assetBuilder, templates: templates, ClusterAddons: addons, }, &model.PKIModelBuilder{ KopsModelContext: modelContext, Lifecycle: &clusterLifecycle, }, &kubeapiserver.KubeApiserverBuilder{ AssetBuilder: assetBuilder, KopsModelContext: modelContext, Lifecycle: &clusterLifecycle, }, &etcdmanager.EtcdManagerBuilder{ AssetBuilder: assetBuilder, KopsModelContext: modelContext, Lifecycle: &clusterLifecycle, }, ) switch kops.CloudProviderID(cluster.Spec.CloudProvider) { case kops.CloudProviderAWS: awsModelContext := &awsmodel.AWSModelContext{ KopsModelContext: modelContext, } l.Builders = append(l.Builders, &model.MasterVolumeBuilder{KopsModelContext: modelContext, Lifecycle: &clusterLifecycle}, &awsmodel.APILoadBalancerBuilder{AWSModelContext: awsModelContext, Lifecycle: &clusterLifecycle, SecurityLifecycle: &securityLifecycle}, &model.BastionModelBuilder{KopsModelContext: modelContext, Lifecycle: &clusterLifecycle, SecurityLifecycle: &securityLifecycle}, &model.DNSModelBuilder{KopsModelContext: modelContext, Lifecycle: &clusterLifecycle}, &model.ExternalAccessModelBuilder{KopsModelContext: modelContext, Lifecycle: &securityLifecycle}, &model.FirewallModelBuilder{KopsModelContext: modelContext, Lifecycle: &securityLifecycle}, &model.SSHKeyModelBuilder{KopsModelContext: modelContext, Lifecycle: &securityLifecycle}, ) l.Builders = append(l.Builders, &model.NetworkModelBuilder{KopsModelContext: modelContext, Lifecycle: &networkLifecycle}, ) l.Builders = append(l.Builders, &model.IAMModelBuilder{KopsModelContext: modelContext, Lifecycle: &securityLifecycle}, &awsmodel.OIDCProviderBuilder{KopsModelContext: modelContext, Lifecycle: &securityLifecycle, KeyStore: keyStore}, ) case kops.CloudProviderDO: doModelContext := &domodel.DOModelContext{ KopsModelContext: modelContext, } l.Builders = append(l.Builders, &model.MasterVolumeBuilder{KopsModelContext: modelContext, Lifecycle: &clusterLifecycle}, &domodel.APILoadBalancerModelBuilder{DOModelContext: doModelContext, Lifecycle: &securityLifecycle}, ) case kops.CloudProviderGCE: gceModelContext := &gcemodel.GCEModelContext{ KopsModelContext: modelContext, } storageACLLifecycle := securityLifecycle if storageACLLifecycle != fi.LifecycleIgnore { // This is a best-effort permissions fix storageACLLifecycle = fi.LifecycleWarnIfInsufficientAccess } l.Builders = append(l.Builders, &model.MasterVolumeBuilder{KopsModelContext: modelContext, Lifecycle: &clusterLifecycle}, &gcemodel.APILoadBalancerBuilder{GCEModelContext: gceModelContext, Lifecycle: &securityLifecycle}, &gcemodel.ExternalAccessModelBuilder{GCEModelContext: gceModelContext, Lifecycle: &securityLifecycle}, &gcemodel.FirewallModelBuilder{GCEModelContext: gceModelContext, Lifecycle: &securityLifecycle}, &gcemodel.NetworkModelBuilder{GCEModelContext: gceModelContext, Lifecycle: &networkLifecycle}, ) l.Builders = append(l.Builders, &gcemodel.StorageAclBuilder{GCEModelContext: gceModelContext, Cloud: cloud.(gce.GCECloud), Lifecycle: &storageACLLifecycle}, ) case kops.CloudProviderALI: aliModelContext := &alimodel.ALIModelContext{ KopsModelContext: modelContext, } l.Builders = append(l.Builders, &model.MasterVolumeBuilder{KopsModelContext: modelContext, Lifecycle: &clusterLifecycle}, &alimodel.APILoadBalancerModelBuilder{ALIModelContext: aliModelContext, Lifecycle: &clusterLifecycle}, &alimodel.NetworkModelBuilder{ALIModelContext: aliModelContext, Lifecycle: &clusterLifecycle}, &alimodel.RAMModelBuilder{ALIModelContext: aliModelContext, Lifecycle: &clusterLifecycle}, &alimodel.SSHKeyModelBuilder{ALIModelContext: aliModelContext, Lifecycle: &clusterLifecycle}, &alimodel.FirewallModelBuilder{ALIModelContext: aliModelContext, Lifecycle: &clusterLifecycle}, &alimodel.ExternalAccessModelBuilder{ALIModelContext: aliModelContext, Lifecycle: &clusterLifecycle}, ) case kops.CloudProviderOpenstack: openstackModelContext := &openstackmodel.OpenstackModelContext{ KopsModelContext: modelContext, } l.Builders = append(l.Builders, &model.MasterVolumeBuilder{KopsModelContext: modelContext, Lifecycle: &clusterLifecycle}, // &openstackmodel.APILBModelBuilder{OpenstackModelContext: openstackModelContext, Lifecycle: &clusterLifecycle}, &openstackmodel.NetworkModelBuilder{OpenstackModelContext: openstackModelContext, Lifecycle: &networkLifecycle}, &openstackmodel.SSHKeyModelBuilder{OpenstackModelContext: openstackModelContext, Lifecycle: &securityLifecycle}, &openstackmodel.FirewallModelBuilder{OpenstackModelContext: openstackModelContext, Lifecycle: &securityLifecycle}, ) default: return fmt.Errorf("unknown cloudprovider %q", cluster.Spec.CloudProvider) } } configBuilder, err := c.newNodeUpConfigBuilder(assetBuilder) if err != nil { return err } bootstrapScriptBuilder := &model.BootstrapScriptBuilder{ NodeUpConfigBuilder: configBuilder, NodeUpSource: c.NodeUpSource, NodeUpSourceHash: c.NodeUpHash, } switch kops.CloudProviderID(cluster.Spec.CloudProvider) { case kops.CloudProviderAWS: { awsModelContext := &awsmodel.AWSModelContext{ KopsModelContext: modelContext, } awsModelBuilder := &awsmodel.AutoscalingGroupModelBuilder{ AWSModelContext: awsModelContext, BootstrapScriptBuilder: bootstrapScriptBuilder, Lifecycle: &clusterLifecycle, SecurityLifecycle: &securityLifecycle, } if featureflag.Spotinst.Enabled() { l.Builders = append(l.Builders, &spotinstmodel.InstanceGroupModelBuilder{ KopsModelContext: modelContext, BootstrapScriptBuilder: bootstrapScriptBuilder, Lifecycle: &clusterLifecycle, SecurityLifecycle: &securityLifecycle, }) if featureflag.SpotinstHybrid.Enabled() { l.Builders = append(l.Builders, awsModelBuilder) } } else { l.Builders = append(l.Builders, awsModelBuilder) } } case kops.CloudProviderDO: doModelContext := &domodel.DOModelContext{ KopsModelContext: modelContext, } l.Builders = append(l.Builders, &domodel.DropletBuilder{ DOModelContext: doModelContext, BootstrapScriptBuilder: bootstrapScriptBuilder, Lifecycle: &clusterLifecycle, }) case kops.CloudProviderGCE: { gceModelContext := &gcemodel.GCEModelContext{ KopsModelContext: modelContext, } l.Builders = append(l.Builders, &gcemodel.AutoscalingGroupModelBuilder{ GCEModelContext: gceModelContext, BootstrapScriptBuilder: bootstrapScriptBuilder, Lifecycle: &clusterLifecycle, }) } case kops.CloudProviderALI: { aliModelContext := &alimodel.ALIModelContext{ KopsModelContext: modelContext, } l.Builders = append(l.Builders, &alimodel.ScalingGroupModelBuilder{ ALIModelContext: aliModelContext, BootstrapScriptBuilder: bootstrapScriptBuilder, Lifecycle: &clusterLifecycle, }) } case kops.CloudProviderOpenstack: openstackModelContext := &openstackmodel.OpenstackModelContext{ KopsModelContext: modelContext, } l.Builders = append(l.Builders, &openstackmodel.ServerGroupModelBuilder{ OpenstackModelContext: openstackModelContext, BootstrapScriptBuilder: bootstrapScriptBuilder, Lifecycle: &clusterLifecycle, }) default: return fmt.Errorf("unknown cloudprovider %q", cluster.Spec.CloudProvider) } taskMap, err := l.BuildTasks(assetBuilder, &stageAssetsLifecycle, c.LifecycleOverrides) if err != nil { return fmt.Errorf("error building tasks: %v", err) } c.TaskMap = taskMap var target fi.Target dryRun := false shouldPrecreateDNS := true switch c.TargetName { case TargetDirect: switch kops.CloudProviderID(cluster.Spec.CloudProvider) { case kops.CloudProviderGCE: target = gce.NewGCEAPITarget(cloud.(gce.GCECloud)) case kops.CloudProviderAWS: target = awsup.NewAWSAPITarget(cloud.(awsup.AWSCloud)) case kops.CloudProviderDO: target = do.NewDOAPITarget(cloud.(*digitalocean.Cloud)) case kops.CloudProviderOpenstack: target = openstack.NewOpenstackAPITarget(cloud.(openstack.OpenstackCloud)) case kops.CloudProviderALI: target = aliup.NewALIAPITarget(cloud.(aliup.ALICloud)) default: return fmt.Errorf("direct configuration not supported with CloudProvider:%q", cluster.Spec.CloudProvider) } case TargetTerraform: checkExisting = false outDir := c.OutDir tfVersion := terraform.Version011 if featureflag.Terraform012.Enabled() { tfVersion = terraform.Version012 } tf := terraform.NewTerraformTarget(cloud, region, project, outDir, tfVersion, cluster.Spec.Target) // We include a few "util" variables in the TF output if err := tf.AddOutputVariable("region", terraform.LiteralFromStringValue(region)); err != nil { return err } if project != "" { if err := tf.AddOutputVariable("project", terraform.LiteralFromStringValue(project)); err != nil { return err } } if err := tf.AddOutputVariable("cluster_name", terraform.LiteralFromStringValue(cluster.ObjectMeta.Name)); err != nil { return err } target = tf // Can cause conflicts with terraform management shouldPrecreateDNS = false case TargetCloudformation: checkExisting = false outDir := c.OutDir target = cloudformation.NewCloudformationTarget(cloud, region, project, outDir) // Can cause conflicts with cloudformation management shouldPrecreateDNS = false case TargetDryRun: target = fi.NewDryRunTarget(assetBuilder, os.Stdout) dryRun = true // Avoid making changes on a dry-run shouldPrecreateDNS = false default: return fmt.Errorf("unsupported target type %q", c.TargetName) } c.Target = target if !dryRun { acl, err := acls.GetACL(configBase, cluster) if err != nil { return err } err = configBase.Join(registry.PathKopsVersionUpdated).WriteFile(bytes.NewReader([]byte(kopsbase.Version)), acl) if err != nil { return fmt.Errorf("error writing kops version: %v", err) } err = registry.WriteConfigDeprecated(cluster, configBase.Join(registry.PathClusterCompleted), c.Cluster) if err != nil { return fmt.Errorf("error writing completed cluster spec: %v", err) } vfsMirror := vfsclientset.NewInstanceGroupMirror(cluster, configBase) for _, g := range c.InstanceGroups { // TODO: We need to update the mirror (below), but do we need to update the primary? _, err := c.Clientset.InstanceGroupsFor(c.Cluster).Update(ctx, g, metav1.UpdateOptions{}) if err != nil { return fmt.Errorf("error writing InstanceGroup %q to registry: %v", g.ObjectMeta.Name, err) } // TODO: Don't write if vfsMirror == c.ClientSet if err := vfsMirror.WriteMirror(g); err != nil { return fmt.Errorf("error writing instance group spec to mirror: %v", err) } } } context, err := fi.NewContext(target, cluster, cloud, keyStore, secretStore, configBase, checkExisting, taskMap) if err != nil { return fmt.Errorf("error building context: %v", err) } defer context.Close() var options fi.RunTasksOptions if c.RunTasksOptions != nil { options = *c.RunTasksOptions } else { options.InitDefaults() } err = context.RunTasks(options) if err != nil { return fmt.Errorf("error running tasks: %v", err) } if dns.IsGossipHostname(cluster.Name) { shouldPrecreateDNS = false } if shouldPrecreateDNS { if err := precreateDNS(ctx, cluster, cloud); err != nil { klog.Warningf("unable to pre-create DNS records - cluster startup may be slower: %v", err) } } err = target.Finish(taskMap) //This will finish the apply, and print the changes if err != nil { return fmt.Errorf("error closing target: %v", err) } return nil } // upgradeSpecs ensures that fields are fully populated / defaulted func (c *ApplyClusterCmd) upgradeSpecs(assetBuilder *assets.AssetBuilder) error { fullCluster, err := PopulateClusterSpec(c.Clientset, c.Cluster, c.Cloud, assetBuilder) if err != nil { return err } c.Cluster = fullCluster for i, g := range c.InstanceGroups { fullGroup, err := PopulateInstanceGroupSpec(fullCluster, g, c.Cloud, c.channel) if err != nil { return err } c.InstanceGroups[i] = fullGroup } return nil } // validateKopsVersion ensures that kops meet the version requirements / recommendations in the channel func (c *ApplyClusterCmd) validateKopsVersion() error { kopsVersion, err := semver.ParseTolerant(kopsbase.Version) if err != nil { klog.Warningf("unable to parse kops version %q", kopsbase.Version) // Not a hard-error return nil } if c.channel == nil { klog.Warning("channel unavailable, skipping version validation") return nil } versionInfo := kops.FindKopsVersionSpec(c.channel.Spec.KopsVersions, kopsVersion) if versionInfo == nil { klog.Warningf("unable to find version information for kops version %q in channel", kopsVersion) // Not a hard-error return nil } recommended, err := versionInfo.FindRecommendedUpgrade(kopsVersion) if err != nil { klog.Warningf("unable to parse version recommendation for kops version %q in channel", kopsVersion) } required, err := versionInfo.IsUpgradeRequired(kopsVersion) if err != nil { klog.Warningf("unable to parse version requirement for kops version %q in channel", kopsVersion) } if recommended != nil && !required { fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") fmt.Printf("A new kops version is available: %s", recommended) fmt.Printf("\n") fmt.Printf("Upgrading is recommended\n") fmt.Printf("More information: %s\n", buildPermalink("upgrade_kops", recommended.String())) fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") } else if required { fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") if recommended != nil { fmt.Printf("a new kops version is available: %s\n", recommended) } fmt.Println("") fmt.Printf("This version of kops (%s) is no longer supported; upgrading is required\n", kopsbase.Version) fmt.Printf("(you can bypass this check by exporting KOPS_RUN_OBSOLETE_VERSION)\n") fmt.Println("") fmt.Printf("More information: %s\n", buildPermalink("upgrade_kops", recommended.String())) fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") } if required { if os.Getenv("KOPS_RUN_OBSOLETE_VERSION") == "" { return fmt.Errorf("kops upgrade is required") } } return nil } // validateKubernetesVersion ensures that kubernetes meet the version requirements / recommendations in the channel func (c *ApplyClusterCmd) validateKubernetesVersion() error { parsed, err := util.ParseKubernetesVersion(c.Cluster.Spec.KubernetesVersion) if err != nil { klog.Warningf("unable to parse kubernetes version %q", c.Cluster.Spec.KubernetesVersion) // Not a hard-error return nil } kopsVersion, err := semver.Parse(kopsbase.KOPS_RELEASE_VERSION) if err != nil { klog.Warningf("unable to parse kops version %q", kopsVersion) } else { tooNewVersion := kopsVersion tooNewVersion.Minor++ tooNewVersion.Pre = nil tooNewVersion.Build = nil if util.IsKubernetesGTE(tooNewVersion.String(), *parsed) { fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") fmt.Printf("This version of kubernetes is not yet supported; upgrading kops is required\n") fmt.Printf("(you can bypass this check by exporting KOPS_RUN_TOO_NEW_VERSION)\n") fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") if os.Getenv("KOPS_RUN_TOO_NEW_VERSION") == "" { return fmt.Errorf("kops upgrade is required") } } } if !util.IsKubernetesGTE(OldestSupportedKubernetesVersion, *parsed) { fmt.Printf("This version of Kubernetes is no longer supported; upgrading Kubernetes is required\n") fmt.Printf("\n") fmt.Printf("More information: %s\n", buildPermalink("upgrade_k8s", OldestRecommendedKubernetesVersion)) fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") return fmt.Errorf("kubernetes upgrade is required") } if !util.IsKubernetesGTE(OldestRecommendedKubernetesVersion, *parsed) { fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") fmt.Printf("Kops support for this Kubernetes version is deprecated and will be removed in a future release.\n") fmt.Printf("\n") fmt.Printf("Upgrading Kubernetes is recommended\n") fmt.Printf("More information: %s\n", buildPermalink("upgrade_k8s", OldestRecommendedKubernetesVersion)) fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") } // TODO: make util.ParseKubernetesVersion not return a pointer kubernetesVersion := *parsed if c.channel == nil { klog.Warning("unable to load channel, skipping kubernetes version recommendation/requirements checks") return nil } versionInfo := kops.FindKubernetesVersionSpec(c.channel.Spec.KubernetesVersions, kubernetesVersion) if versionInfo == nil { klog.Warningf("unable to find version information for kubernetes version %q in channel", kubernetesVersion) // Not a hard-error return nil } recommended, err := versionInfo.FindRecommendedUpgrade(kubernetesVersion) if err != nil { klog.Warningf("unable to parse version recommendation for kubernetes version %q in channel", kubernetesVersion) } required, err := versionInfo.IsUpgradeRequired(kubernetesVersion) if err != nil { klog.Warningf("unable to parse version requirement for kubernetes version %q in channel", kubernetesVersion) } if recommended != nil && !required { fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") fmt.Printf("A new kubernetes version is available: %s\n", recommended) fmt.Printf("Upgrading is recommended (try kops upgrade cluster)\n") fmt.Printf("\n") fmt.Printf("More information: %s\n", buildPermalink("upgrade_k8s", recommended.String())) fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") } else if required { fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") if recommended != nil { fmt.Printf("A new kubernetes version is available: %s\n", recommended) } fmt.Printf("\n") fmt.Printf("This version of kubernetes is no longer supported; upgrading is required\n") fmt.Printf("(you can bypass this check by exporting KOPS_RUN_OBSOLETE_VERSION)\n") fmt.Printf("\n") fmt.Printf("More information: %s\n", buildPermalink("upgrade_k8s", recommended.String())) fmt.Printf("\n") fmt.Printf("%s\n", starline) fmt.Printf("\n") } if required { if os.Getenv("KOPS_RUN_OBSOLETE_VERSION") == "" { return fmt.Errorf("kubernetes upgrade is required") } } return nil } // addFileAssets adds the file assets within the assetBuilder func (c *ApplyClusterCmd) addFileAssets(assetBuilder *assets.AssetBuilder) error { var baseURL string if components.IsBaseURL(c.Cluster.Spec.KubernetesVersion) { baseURL = c.Cluster.Spec.KubernetesVersion } else { baseURL = "https://storage.googleapis.com/kubernetes-release/release/v" + c.Cluster.Spec.KubernetesVersion } c.Assets = make(map[architectures.Architecture][]*MirroredAsset) c.NodeUpSource = make(map[architectures.Architecture]string) c.NodeUpHash = make(map[architectures.Architecture]string) for _, arch := range architectures.GetSupported() { c.Assets[arch] = []*MirroredAsset{} c.NodeUpSource[arch] = "" c.NodeUpHash[arch] = "" k8sAssetsNames := []string{ fmt.Sprintf("/bin/linux/%s/kubelet", arch), fmt.Sprintf("/bin/linux/%s/kubectl", arch), } if needsMounterAsset(c.Cluster, c.InstanceGroups) { k8sAssetsNames = append(k8sAssetsNames, fmt.Sprintf("/bin/linux/%s/mounter", arch)) } for _, an := range k8sAssetsNames { k, err := url.Parse(baseURL) if err != nil { return err } k.Path = path.Join(k.Path, an) u, hash, err := assetBuilder.RemapFileAndSHA(k) if err != nil { return err } c.Assets[arch] = append(c.Assets[arch], BuildMirroredAsset(u, hash)) } cniAsset, cniAssetHash, err := findCNIAssets(c.Cluster, assetBuilder, arch) if err != nil { return err } c.Assets[arch] = append(c.Assets[arch], BuildMirroredAsset(cniAsset, cniAssetHash)) if c.Cluster.Spec.Networking.LyftVPC != nil { lyftAsset, lyftAssetHash, err := findLyftVPCAssets(c.Cluster, assetBuilder, arch) if err != nil { return err } c.Assets[arch] = append(c.Assets[arch], BuildMirroredAsset(lyftAsset, lyftAssetHash)) } asset, err := NodeUpAsset(assetBuilder, arch) if err != nil { return err } c.NodeUpSource[arch] = strings.Join(asset.Locations, ",") c.NodeUpHash[arch] = asset.Hash.Hex() // Explicitly add the protokube image, // otherwise when the Target is DryRun this asset is not added // Is there a better way to call this? _, _, err = ProtokubeImageSource(assetBuilder, arch) if err != nil { return err } } return nil } // buildPermalink returns a link to our "permalink docs", to further explain an error message func buildPermalink(key, anchor string) string { url := "https://github.com/kubernetes/kops/blob/master/permalinks/" + key + ".md" if anchor != "" { url += "#" + anchor } return url } func ChannelForCluster(c *kops.Cluster) (*kops.Channel, error) { channelLocation := c.Spec.Channel if channelLocation == "" { channelLocation = kops.DefaultChannel } return kops.LoadChannel(channelLocation) } // needsMounterAsset checks if we need the mounter program // This is only needed currently on ContainerOS i.e. GCE, but we don't have a nice way to detect it yet func needsMounterAsset(c *kops.Cluster, instanceGroups []*kops.InstanceGroup) bool { // TODO: Do real detection of ContainerOS (but this has to work with image names, and maybe even forked images) switch kops.CloudProviderID(c.Spec.CloudProvider) { case kops.CloudProviderGCE: return true default: return false } } type nodeUpConfigBuilder struct { *ApplyClusterCmd assetBuilder *assets.AssetBuilder channels []string configBase vfs.Path cluster *kops.Cluster etcdManifests map[kops.InstanceGroupRole][]string images map[kops.InstanceGroupRole]map[architectures.Architecture][]*nodeup.Image protokubeImage map[kops.InstanceGroupRole]map[architectures.Architecture]*nodeup.Image } func (c *ApplyClusterCmd) newNodeUpConfigBuilder(assetBuilder *assets.AssetBuilder) (model.NodeUpConfigBuilder, error) { cluster := c.Cluster configBase, err := vfs.Context.BuildVfsPath(cluster.Spec.ConfigBase) if err != nil { return nil, fmt.Errorf("error parsing config base %q: %v", cluster.Spec.ConfigBase, err) } channels := []string{ configBase.Join("addons", "bootstrap-channel.yaml").Path(), } for i := range cluster.Spec.Addons { channels = append(channels, cluster.Spec.Addons[i].Manifest) } useGossip := dns.IsGossipHostname(cluster.Spec.MasterInternalName) etcdManifests := map[kops.InstanceGroupRole][]string{} images := map[kops.InstanceGroupRole]map[architectures.Architecture][]*nodeup.Image{} protokubeImage := map[kops.InstanceGroupRole]map[architectures.Architecture]*nodeup.Image{} for _, role := range kops.AllInstanceGroupRoles { isMaster := role == kops.InstanceGroupRoleMaster images[role] = make(map[architectures.Architecture][]*nodeup.Image) if components.IsBaseURL(cluster.Spec.KubernetesVersion) { // When using a custom version, we want to preload the images over http components := []string{"kube-proxy"} if isMaster { components = append(components, "kube-apiserver", "kube-controller-manager", "kube-scheduler") } for _, arch := range architectures.GetSupported() { for _, component := range components { baseURL, err := url.Parse(cluster.Spec.KubernetesVersion) if err != nil { return nil, err } baseURL.Path = path.Join(baseURL.Path, "/bin/linux", string(arch), component+".tar") u, hash, err := assetBuilder.RemapFileAndSHA(baseURL) if err != nil { return nil, err } image := &nodeup.Image{ Sources: []string{u.String()}, Hash: hash.Hex(), } images[role][arch] = append(images[role][arch], image) } } } // `docker load` our images when using a KOPS_BASE_URL, so we // don't need to push/pull from a registry if os.Getenv("KOPS_BASE_URL") != "" && isMaster { for _, arch := range architectures.GetSupported() { for _, name := range []string{"kops-controller", "dns-controller", "kube-apiserver-healthcheck"} { baseURL, err := url.Parse(os.Getenv("KOPS_BASE_URL")) if err != nil { return nil, err } baseURL.Path = path.Join(baseURL.Path, "/images/"+name+"-"+string(arch)+".tar.gz") u, hash, err := assetBuilder.RemapFileAndSHA(baseURL) if err != nil { return nil, err } image := &nodeup.Image{ Sources: []string{u.String()}, Hash: hash.Hex(), } images[role][arch] = append(images[role][arch], image) } } } if isMaster || useGossip { protokubeImage[role] = make(map[architectures.Architecture]*nodeup.Image) for _, arch := range architectures.GetSupported() { u, hash, err := ProtokubeImageSource(assetBuilder, arch) if err != nil { return nil, err } asset := BuildMirroredAsset(u, hash) protokubeImage[role][arch] = &nodeup.Image{ Name: kopsbase.DefaultProtokubeImageName(), Sources: asset.Locations, Hash: asset.Hash.Hex(), } } } if role == kops.InstanceGroupRoleMaster { for _, etcdCluster := range cluster.Spec.EtcdClusters { if etcdCluster.Provider == kops.EtcdProviderTypeManager { p := configBase.Join("manifests/etcd/" + etcdCluster.Name + ".yaml").Path() etcdManifests[role] = append(etcdManifests[role], p) } } } } configBuilder := nodeUpConfigBuilder{ ApplyClusterCmd: c, assetBuilder: assetBuilder, channels: channels, configBase: configBase, cluster: cluster, etcdManifests: etcdManifests, images: images, protokubeImage: protokubeImage, } return &configBuilder, nil } // BuildNodeUpConfig returns the NodeUp config, in YAML format func (n *nodeUpConfigBuilder) BuildConfig(ig *kops.InstanceGroup, apiserverAdditionalIPs []string) (*nodeup.Config, error) { cluster := n.cluster if ig == nil { return nil, fmt.Errorf("instanceGroup cannot be nil") } role := ig.Spec.Role if role == "" { return nil, fmt.Errorf("cannot determine role for instance group: %v", ig.ObjectMeta.Name) } config := nodeup.NewConfig(cluster, ig) config.Assets = make(map[architectures.Architecture][]string) for _, arch := range architectures.GetSupported() { config.Assets[arch] = []string{} for _, a := range n.Assets[arch] { config.Assets[arch] = append(config.Assets[arch], a.CompactString()) } } config.ClusterName = cluster.ObjectMeta.Name config.ConfigBase = fi.String(n.configBase.Path()) config.InstanceGroupName = ig.ObjectMeta.Name if role == kops.InstanceGroupRoleMaster { config.ApiserverAdditionalIPs = apiserverAdditionalIPs } for _, manifest := range n.assetBuilder.StaticManifests { match := false for _, r := range manifest.Roles { if r == role { match = true } } if !match { continue } config.StaticManifests = append(config.StaticManifests, &nodeup.StaticManifest{ Key: manifest.Key, Path: manifest.Path, }) } config.Images = n.images[role] config.Channels = n.channels config.EtcdManifests = n.etcdManifests[role] config.ProtokubeImage = n.protokubeImage[role] return config, nil }