/* Copyright 2021 The KubeVela 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 appfile import ( "context" "encoding/json" "fmt" "sort" "github.com/pkg/errors" kerrors "k8s.io/apimachinery/pkg/api/errors" metav1 "k8s.io/apimachinery/pkg/apis/meta/v1" "k8s.io/apimachinery/pkg/apis/meta/v1/unstructured" "k8s.io/apimachinery/pkg/runtime" ktypes "k8s.io/apimachinery/pkg/types" "sigs.k8s.io/controller-runtime/pkg/client" "github.com/oam-dev/kubevela/apis/core.oam.dev/common" "github.com/oam-dev/kubevela/apis/core.oam.dev/v1alpha1" "github.com/oam-dev/kubevela/apis/core.oam.dev/v1beta1" "github.com/oam-dev/kubevela/apis/types" "github.com/oam-dev/kubevela/pkg/component" "github.com/oam-dev/kubevela/pkg/cue/definition" "github.com/oam-dev/kubevela/pkg/cue/packages" monitorContext "github.com/oam-dev/kubevela/pkg/monitor/context" "github.com/oam-dev/kubevela/pkg/monitor/metrics" "github.com/oam-dev/kubevela/pkg/oam" "github.com/oam-dev/kubevela/pkg/oam/discoverymapper" "github.com/oam-dev/kubevela/pkg/oam/util" policypkg "github.com/oam-dev/kubevela/pkg/policy" "github.com/oam-dev/kubevela/pkg/utils" "github.com/oam-dev/kubevela/pkg/workflow/step" wftypes "github.com/oam-dev/kubevela/pkg/workflow/types" ) // TemplateLoaderFn load template of a capability definition type TemplateLoaderFn func(context.Context, discoverymapper.DiscoveryMapper, client.Reader, string, types.CapType) (*Template, error) // LoadTemplate load template of a capability definition func (fn TemplateLoaderFn) LoadTemplate(ctx context.Context, dm discoverymapper.DiscoveryMapper, c client.Reader, capName string, capType types.CapType) (*Template, error) { return fn(ctx, dm, c, capName, capType) } // Parser is an application parser type Parser struct { client client.Client dm discoverymapper.DiscoveryMapper pd *packages.PackageDiscover tmplLoader TemplateLoaderFn } // NewApplicationParser create appfile parser func NewApplicationParser(cli client.Client, dm discoverymapper.DiscoveryMapper, pd *packages.PackageDiscover) *Parser { return &Parser{ client: cli, dm: dm, pd: pd, tmplLoader: LoadTemplate, } } // NewDryRunApplicationParser create an appfile parser for DryRun func NewDryRunApplicationParser(cli client.Client, dm discoverymapper.DiscoveryMapper, pd *packages.PackageDiscover, defs []oam.Object) *Parser { return &Parser{ client: cli, dm: dm, pd: pd, tmplLoader: DryRunTemplateLoader(defs), } } // GenerateAppFile generate appfile for the application to run, if the application is controlled by PublishVersion, // the application revision will be used to create the appfile func (p *Parser) GenerateAppFile(ctx context.Context, app *v1beta1.Application) (*Appfile, error) { if ctx, ok := ctx.(monitorContext.Context); ok { subCtx := ctx.Fork("generate-app-file", monitorContext.DurationMetric(func(v float64) { metrics.ParseAppFileDurationHistogram.WithLabelValues("application").Observe(v) })) defer subCtx.Commit("finish generate appFile") } if isLatest, appRev, err := p.isLatestPublishVersion(ctx, app); err != nil { return nil, err } else if isLatest { app.Spec = appRev.Spec.Application.Spec return p.GenerateAppFileFromRevision(appRev) } return p.GenerateAppFileFromApp(ctx, app) } // GenerateAppFileFromApp converts an application to an Appfile func (p *Parser) GenerateAppFileFromApp(ctx context.Context, app *v1beta1.Application) (*Appfile, error) { ns := app.Namespace appName := app.Name appfile := p.newAppfile(appName, ns, app) if app.Status.LatestRevision != nil { appfile.AppRevisionName = app.Status.LatestRevision.Name } var wds []*Workload for _, comp := range app.Spec.Components { wd, err := p.parseWorkload(ctx, comp) if err != nil { return nil, err } wds = append(wds, wd) } appfile.Workloads = wds appfile.Components = app.Spec.Components var err error if err = p.parseWorkflowSteps(ctx, appfile); err != nil { return nil, errors.Wrapf(err, "failed to parseWorkflowSteps") } if err = p.parsePolicies(ctx, appfile); err != nil { return nil, errors.Wrapf(err, "failed to parsePolicies") } if err = p.parseReferredObjects(ctx, appfile); err != nil { return nil, errors.Wrapf(err, "failed to parseReferredObjects") } for _, w := range wds { if w == nil { continue } if w.FullTemplate.ComponentDefinition != nil { cd := w.FullTemplate.ComponentDefinition.DeepCopy() cd.Status = v1beta1.ComponentDefinitionStatus{} appfile.RelatedComponentDefinitions[w.FullTemplate.ComponentDefinition.Name] = cd } for _, t := range w.Traits { if t == nil { continue } if t.FullTemplate.TraitDefinition != nil { td := t.FullTemplate.TraitDefinition.DeepCopy() td.Status = v1beta1.TraitDefinitionStatus{} appfile.RelatedTraitDefinitions[t.FullTemplate.TraitDefinition.Name] = td } } for _, s := range w.ScopeDefinition { if s == nil { continue } appfile.RelatedScopeDefinitions[s.Name] = s.DeepCopy() } } return appfile, nil } func (p *Parser) newAppfile(appName, ns string, app *v1beta1.Application) *Appfile { file := &Appfile{ Name: appName, Namespace: ns, AppLabels: make(map[string]string), AppAnnotations: make(map[string]string), RelatedTraitDefinitions: make(map[string]*v1beta1.TraitDefinition), RelatedComponentDefinitions: make(map[string]*v1beta1.ComponentDefinition), RelatedScopeDefinitions: make(map[string]*v1beta1.ScopeDefinition), RelatedWorkflowStepDefinitions: make(map[string]*v1beta1.WorkflowStepDefinition), ExternalPolicies: make(map[string]*v1alpha1.Policy), parser: p, app: app, } for k, v := range app.Annotations { file.AppAnnotations[k] = v } for k, v := range app.Labels { file.AppLabels[k] = v } return file } // isLatestPublishVersion checks if the latest application revision has the same publishVersion with the application, // return true and the latest ApplicationRevision if they share the same publishVersion func (p *Parser) isLatestPublishVersion(ctx context.Context, app *v1beta1.Application) (bool, *v1beta1.ApplicationRevision, error) { if !metav1.HasAnnotation(app.ObjectMeta, oam.AnnotationPublishVersion) { return false, nil, nil } if app.Status.LatestRevision == nil { return false, nil, nil } appRev := &v1beta1.ApplicationRevision{} if err := p.client.Get(ctx, ktypes.NamespacedName{Name: app.Status.LatestRevision.Name, Namespace: app.GetNamespace()}, appRev); err != nil { if kerrors.IsNotFound(err) { return false, nil, nil } return false, nil, errors.Wrapf(err, "failed to load latest application revision") } if !metav1.HasAnnotation(appRev.ObjectMeta, oam.AnnotationPublishVersion) { return false, nil, nil } if app.GetAnnotations()[oam.AnnotationPublishVersion] != appRev.GetAnnotations()[oam.AnnotationPublishVersion] { return false, nil, nil } return true, appRev, nil } // inheritLabelAndAnnotationFromAppRev is a compatible function, that we can't record metadata for application object in AppRev func inheritLabelAndAnnotationFromAppRev(appRev *v1beta1.ApplicationRevision) { if len(appRev.Spec.Application.Annotations) > 0 || len(appRev.Spec.Application.Labels) > 0 { return } appRev.Spec.Application.SetNamespace(appRev.Namespace) if appRev.Spec.Application.GetName() == "" { appRev.Spec.Application.SetName(appRev.Labels[oam.LabelAppName]) } labels := make(map[string]string) for k, v := range appRev.GetLabels() { if k == oam.LabelAppRevisionHash || k == oam.LabelAppName { continue } labels[k] = v } appRev.Spec.Application.SetLabels(labels) annotations := make(map[string]string) for k, v := range appRev.GetAnnotations() { annotations[k] = v } appRev.Spec.Application.SetAnnotations(annotations) } // GenerateAppFileFromRevision converts an application revision to an Appfile func (p *Parser) GenerateAppFileFromRevision(appRev *v1beta1.ApplicationRevision) (*Appfile, error) { inheritLabelAndAnnotationFromAppRev(appRev) app := appRev.Spec.Application.DeepCopy() ns := app.Namespace appName := app.Name appfile := p.newAppfile(appName, ns, app) appfile.AppRevision = appRev appfile.AppRevisionName = appRev.Name appfile.AppRevisionHash = appRev.Labels[oam.LabelAppRevisionHash] appfile.ExternalPolicies = make(map[string]*v1alpha1.Policy) for key, po := range appRev.Spec.Policies { appfile.ExternalPolicies[key] = po.DeepCopy() } appfile.ExternalWorkflow = appRev.Spec.Workflow var wds []*Workload for _, comp := range app.Spec.Components { wd, err := p.ParseWorkloadFromRevision(comp, appRev) if err != nil { return nil, err } wds = append(wds, wd) } appfile.Workloads = wds appfile.Components = app.Spec.Components if err := p.parseWorkflowStepsFromRevision(context.Background(), appfile); err != nil { return nil, errors.Wrapf(err, "failed to parseWorkflowStepsFromRevision") } if err := p.parsePoliciesFromRevision(context.Background(), appfile); err != nil { return nil, errors.Wrapf(err, "failed to parsePolicies") } if err := p.parseReferredObjectsFromRevision(appfile); err != nil { return nil, errors.Wrapf(err, "failed to parseReferredObjects") } for k, v := range appRev.Spec.ComponentDefinitions { appfile.RelatedComponentDefinitions[k] = v.DeepCopy() } for k, v := range appRev.Spec.TraitDefinitions { appfile.RelatedTraitDefinitions[k] = v.DeepCopy() } for k, v := range appRev.Spec.WorkflowStepDefinitions { appfile.RelatedWorkflowStepDefinitions[k] = v.DeepCopy() } // add compatible code for upgrading to v1.3 as the workflow steps were not recorded before v1.2 if len(appfile.RelatedWorkflowStepDefinitions) == 0 && len(appfile.WorkflowSteps) > 0 { ctx := context.Background() for _, workflowStep := range appfile.WorkflowSteps { if wftypes.IsBuiltinWorkflowStepType(workflowStep.Type) { continue } if _, found := appfile.RelatedWorkflowStepDefinitions[workflowStep.Type]; found { continue } def := &v1beta1.WorkflowStepDefinition{} if err := util.GetCapabilityDefinition(ctx, p.client, def, workflowStep.Type); err != nil { return nil, errors.Wrapf(err, "failed to get workflow step definition %s", workflowStep.Type) } appfile.RelatedWorkflowStepDefinitions[workflowStep.Type] = def } appRev.Spec.WorkflowStepDefinitions = make(map[string]v1beta1.WorkflowStepDefinition) for name, def := range appfile.RelatedWorkflowStepDefinitions { appRev.Spec.WorkflowStepDefinitions[name] = *def } } for k, v := range appRev.Spec.ScopeDefinitions { appfile.RelatedScopeDefinitions[k] = v.DeepCopy() } return appfile, nil } func (p *Parser) parseReferredObjectsFromRevision(af *Appfile) error { af.ReferredObjects = []*unstructured.Unstructured{} for _, obj := range af.AppRevision.Spec.ReferredObjects { un := &unstructured.Unstructured{} if err := json.Unmarshal(obj.Raw, un); err != nil { return errors.Errorf("failed to unmarshal referred objects %s", obj.Raw) } af.ReferredObjects = append(af.ReferredObjects, un) } return nil } func (p *Parser) parseReferredObjects(ctx context.Context, af *Appfile) error { for _, comp := range af.Components { if comp.Type != v1alpha1.RefObjectsComponentType { continue } spec := &v1alpha1.RefObjectsComponentSpec{} if err := utils.StrictUnmarshal(comp.Properties.Raw, spec); err != nil { return errors.Wrapf(err, "invalid properties for ref-objects in component %s", comp.Name) } for _, selector := range spec.Objects { objs, err := component.SelectRefObjectsForDispatch(ctx, p.client, af.app.GetNamespace(), comp.Name, selector) if err != nil { return err } af.ReferredObjects = component.AppendUnstructuredObjects(af.ReferredObjects, objs...) } } sort.Slice(af.ReferredObjects, func(i, j int) bool { a, b := af.ReferredObjects[i], af.ReferredObjects[j] keyA := a.GroupVersionKind().String() + "|" + client.ObjectKeyFromObject(a).String() keyB := b.GroupVersionKind().String() + "|" + client.ObjectKeyFromObject(b).String() return keyA < keyB }) return nil } func (p *Parser) parsePoliciesFromRevision(ctx context.Context, af *Appfile) (err error) { af.Policies, err = step.LoadExternalPoliciesForWorkflow(ctx, af.PolicyClient(p.client), af.app.GetNamespace(), af.WorkflowSteps, af.app.Spec.Policies) if err != nil { return err } for _, policy := range af.Policies { switch policy.Type { case v1alpha1.GarbageCollectPolicyType: case v1alpha1.ApplyOncePolicyType: case v1alpha1.EnvBindingPolicyType: case v1alpha1.TopologyPolicyType: case v1alpha1.OverridePolicyType: case v1alpha1.DebugPolicyType: af.Debug = true default: w, err := p.makeWorkloadFromRevision(policy.Name, policy.Type, types.TypePolicy, policy.Properties, af.AppRevision) if err != nil { return err } af.PolicyWorkloads = append(af.PolicyWorkloads, w) } } return nil } func (p *Parser) parsePolicies(ctx context.Context, af *Appfile) (err error) { af.Policies, err = step.LoadExternalPoliciesForWorkflow(ctx, af.PolicyClient(p.client), af.app.GetNamespace(), af.WorkflowSteps, af.app.Spec.Policies) if err != nil { return err } for _, policy := range af.Policies { switch policy.Type { case v1alpha1.GarbageCollectPolicyType: case v1alpha1.ApplyOncePolicyType: case v1alpha1.EnvBindingPolicyType: case v1alpha1.TopologyPolicyType: case v1alpha1.DebugPolicyType: af.Debug = true case v1alpha1.OverridePolicyType: compDefs, traitDefs, err := policypkg.ParseOverridePolicyRelatedDefinitions(ctx, p.client, af.app, policy) if err != nil { return err } for _, def := range compDefs { af.RelatedComponentDefinitions[def.Name] = def } for _, def := range traitDefs { af.RelatedTraitDefinitions[def.Name] = def } default: w, err := p.makeWorkload(ctx, policy.Name, policy.Type, types.TypePolicy, policy.Properties) if err != nil { return err } af.PolicyWorkloads = append(af.PolicyWorkloads, w) } } return nil } func (p *Parser) loadWorkflowToAppfile(ctx context.Context, af *Appfile) error { var err error // parse workflow steps af.WorkflowMode = common.WorkflowModeDAG if wfSpec := af.app.Spec.Workflow; wfSpec != nil && len(wfSpec.Steps) > 0 { af.WorkflowMode = common.WorkflowModeStep af.WorkflowSteps = wfSpec.Steps } af.WorkflowSteps, err = step.NewChainWorkflowStepGenerator( &step.RefWorkflowStepGenerator{Client: af.WorkflowClient(p.client), Context: ctx}, &step.DeployWorkflowStepGenerator{}, &step.Deploy2EnvWorkflowStepGenerator{}, &step.ApplyComponentWorkflowStepGenerator{}, &step.DeployPreApproveWorkflowStepGenerator{}, ).Generate(af.app, af.WorkflowSteps) return err } func (p *Parser) parseWorkflowStepsFromRevision(ctx context.Context, af *Appfile) error { return p.loadWorkflowToAppfile(ctx, af) } func (p *Parser) parseWorkflowSteps(ctx context.Context, af *Appfile) error { if err := p.loadWorkflowToAppfile(ctx, af); err != nil { return err } for _, workflowStep := range af.WorkflowSteps { err := p.parseWorkflowStep(ctx, af, workflowStep.Type) if err != nil { return err } if workflowStep.SubSteps != nil { for _, workflowSubStep := range workflowStep.SubSteps { err := p.parseWorkflowStep(ctx, af, workflowSubStep.Type) if err != nil { return err } } } } return nil } func (p *Parser) parseWorkflowStep(ctx context.Context, af *Appfile, workflowStepType string) error { if wftypes.IsBuiltinWorkflowStepType(workflowStepType) { return nil } if _, found := af.RelatedWorkflowStepDefinitions[workflowStepType]; found { return nil } def := &v1beta1.WorkflowStepDefinition{} if err := util.GetCapabilityDefinition(ctx, p.client, def, workflowStepType); err != nil { return errors.Wrapf(err, "failed to get workflow step definition %s", workflowStepType) } af.RelatedWorkflowStepDefinitions[workflowStepType] = def return nil } func (p *Parser) makeWorkload(ctx context.Context, name, typ string, capType types.CapType, props *runtime.RawExtension) (*Workload, error) { templ, err := p.tmplLoader.LoadTemplate(ctx, p.dm, p.client, typ, capType) if err != nil { return nil, errors.WithMessagef(err, "fetch component/policy type of %s", name) } return p.convertTemplate2Workload(name, typ, props, templ) } func (p *Parser) makeWorkloadFromRevision(name, typ string, capType types.CapType, props *runtime.RawExtension, appRev *v1beta1.ApplicationRevision) (*Workload, error) { templ, err := LoadTemplateFromRevision(typ, capType, appRev, p.dm) if err != nil { return nil, errors.WithMessagef(err, "fetch component/policy type of %s from revision", name) } return p.convertTemplate2Workload(name, typ, props, templ) } func (p *Parser) convertTemplate2Workload(name, typ string, props *runtime.RawExtension, templ *Template) (*Workload, error) { settings, err := util.RawExtension2Map(props) if err != nil { return nil, errors.WithMessagef(err, "fail to parse settings for %s", name) } wlType, err := util.ConvertDefinitionRevName(typ) if err != nil { wlType = typ } return &Workload{ Traits: []*Trait{}, ScopeDefinition: []*v1beta1.ScopeDefinition{}, Name: name, Type: wlType, CapabilityCategory: templ.CapabilityCategory, FullTemplate: templ, Params: settings, engine: definition.NewWorkloadAbstractEngine(name, p.pd), }, nil } // parseWorkload resolve an ApplicationComponent and generate a Workload // containing ALL information required by an Appfile. func (p *Parser) parseWorkload(ctx context.Context, comp common.ApplicationComponent) (*Workload, error) { workload, err := p.makeWorkload(ctx, comp.Name, comp.Type, types.TypeComponentDefinition, comp.Properties) if err != nil { return nil, err } workload.ExternalRevision = comp.ExternalRevision for _, traitValue := range comp.Traits { properties, err := util.RawExtension2Map(traitValue.Properties) if err != nil { return nil, errors.Errorf("fail to parse properties of %s for %s", traitValue.Type, comp.Name) } trait, err := p.parseTrait(ctx, traitValue.Type, properties) if err != nil { return nil, errors.WithMessagef(err, "component(%s) parse trait(%s)", comp.Name, traitValue.Type) } workload.Traits = append(workload.Traits, trait) } for scopeType, instanceName := range comp.Scopes { sd, gvk, err := GetScopeDefAndGVK(ctx, p.client, p.dm, scopeType) if err != nil { return nil, err } workload.Scopes = append(workload.Scopes, Scope{ Name: instanceName, GVK: gvk, ResourceVersion: sd.Spec.Reference.Name + "/" + sd.Spec.Reference.Version, }) workload.ScopeDefinition = append(workload.ScopeDefinition, sd) } return workload, nil } // ParseWorkloadFromRevision resolve an ApplicationComponent and generate a Workload // containing ALL information required by an Appfile from app revision. func (p *Parser) ParseWorkloadFromRevision(comp common.ApplicationComponent, appRev *v1beta1.ApplicationRevision) (*Workload, error) { workload, err := p.makeWorkloadFromRevision(comp.Name, comp.Type, types.TypeComponentDefinition, comp.Properties, appRev) if err != nil { return nil, err } workload.ExternalRevision = comp.ExternalRevision for _, traitValue := range comp.Traits { properties, err := util.RawExtension2Map(traitValue.Properties) if err != nil { return nil, errors.Errorf("fail to parse properties of %s for %s", traitValue.Type, comp.Name) } trait, err := p.parseTraitFromRevision(traitValue.Type, properties, appRev) if err != nil { return nil, errors.WithMessagef(err, "component(%s) parse trait(%s)", comp.Name, traitValue.Type) } workload.Traits = append(workload.Traits, trait) } for scopeType, instanceName := range comp.Scopes { sd, gvk, err := GetScopeDefAndGVKFromRevision(scopeType, appRev) if err != nil { return nil, err } workload.Scopes = append(workload.Scopes, Scope{ Name: instanceName, GVK: gvk, ResourceVersion: sd.Spec.Reference.Name + "/" + sd.Spec.Reference.Version, }) workload.ScopeDefinition = append(workload.ScopeDefinition, sd) } return workload, nil } func (p *Parser) parseTrait(ctx context.Context, name string, properties map[string]interface{}) (*Trait, error) { templ, err := p.tmplLoader.LoadTemplate(ctx, p.dm, p.client, name, types.TypeTrait) if kerrors.IsNotFound(err) { return nil, errors.Errorf("trait definition of %s not found", name) } if err != nil { return nil, err } return p.convertTemplate2Trait(name, properties, templ) } func (p *Parser) parseTraitFromRevision(name string, properties map[string]interface{}, appRev *v1beta1.ApplicationRevision) (*Trait, error) { templ, err := LoadTemplateFromRevision(name, types.TypeTrait, appRev, p.dm) if err != nil { return nil, err } return p.convertTemplate2Trait(name, properties, templ) } func (p *Parser) convertTemplate2Trait(name string, properties map[string]interface{}, templ *Template) (*Trait, error) { traitName, err := util.ConvertDefinitionRevName(name) if err != nil { traitName = name } return &Trait{ Name: traitName, CapabilityCategory: templ.CapabilityCategory, Params: properties, Template: templ.TemplateStr, HealthCheckPolicy: templ.Health, CustomStatusFormat: templ.CustomStatus, FullTemplate: templ, engine: definition.NewTraitAbstractEngine(traitName, p.pd), }, nil } // ValidateComponentNames validate all component name whether repeat in cluster and template func (p *Parser) ValidateComponentNames(ctx context.Context, af *Appfile) (int, error) { existCompNames := make(map[string]string) existApps := v1beta1.ApplicationList{} listOpts := []client.ListOption{ client.InNamespace(af.Namespace), } if err := p.client.List(ctx, &existApps, listOpts...); err != nil { return 0, err } for _, existApp := range existApps.Items { ea := existApp.DeepCopy() existAf, err := p.GenerateAppFile(ctx, ea) if err != nil || existAf.Name == af.Name { continue } for _, existComp := range existAf.Workloads { existCompNames[existComp.Name] = existApp.Name } } for i, wl := range af.Workloads { if existAfName, ok := existCompNames[wl.Name]; ok { return i, fmt.Errorf("component named '%s' is already exist in application '%s'", wl.Name, existAfName) } for j := i + 1; j < len(af.Workloads); j++ { if wl.Name == af.Workloads[j].Name { return i, fmt.Errorf("component named '%s' is repeat in this appfile", wl.Name) } } } return 0, nil } // GetScopeDefAndGVK get grouped API version of the given scope func GetScopeDefAndGVK(ctx context.Context, cli client.Reader, dm discoverymapper.DiscoveryMapper, name string) (*v1beta1.ScopeDefinition, metav1.GroupVersionKind, error) { var gvk metav1.GroupVersionKind sd := new(v1beta1.ScopeDefinition) err := util.GetDefinition(ctx, cli, sd, name) if err != nil { return nil, gvk, err } gvk, err = util.GetGVKFromDefinition(dm, sd.Spec.Reference) if err != nil { return nil, gvk, err } return sd, gvk, nil } // GetScopeDefAndGVKFromRevision get grouped API version of the given scope func GetScopeDefAndGVKFromRevision(name string, appRev *v1beta1.ApplicationRevision) (*v1beta1.ScopeDefinition, metav1.GroupVersionKind, error) { var gvk metav1.GroupVersionKind sd, ok := appRev.Spec.ScopeDefinitions[name] if !ok { return nil, gvk, fmt.Errorf("scope %s not found in application revision", name) } gvk, ok = appRev.Spec.ScopeGVK[sd.Spec.Reference.Name+"/"+sd.Spec.Reference.Version] if !ok { return nil, gvk, fmt.Errorf("scope definition found but GVK %s not found in application revision", name) } return sd.DeepCopy(), gvk, nil }