/* Copyright 2016 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 generators import ( "fmt" "path" "path/filepath" "strings" "k8s.io/gengo/args" "k8s.io/gengo/generator" "k8s.io/gengo/namer" "k8s.io/gengo/types" "k8s.io/klog" "k8s.io/code-generator/cmd/client-gen/generators/util" clientgentypes "k8s.io/code-generator/cmd/client-gen/types" informergenargs "k8s.io/code-generator/cmd/informer-gen/args" ) // NameSystems returns the name system used by the generators in this package. func NameSystems() namer.NameSystems { pluralExceptions := map[string]string{ "Endpoints": "Endpoints", } return namer.NameSystems{ "public": namer.NewPublicNamer(0), "private": namer.NewPrivateNamer(0), "raw": namer.NewRawNamer("", nil), "publicPlural": namer.NewPublicPluralNamer(pluralExceptions), "allLowercasePlural": namer.NewAllLowercasePluralNamer(pluralExceptions), "lowercaseSingular": &lowercaseSingularNamer{}, } } // lowercaseSingularNamer implements Namer type lowercaseSingularNamer struct{} // Name returns t's name in all lowercase. func (n *lowercaseSingularNamer) Name(t *types.Type) string { return strings.ToLower(t.Name.Name) } // DefaultNameSystem returns the default name system for ordering the types to be // processed by the generators in this package. func DefaultNameSystem() string { return "public" } // objectMetaForPackage returns the type of ObjectMeta used by package p. func objectMetaForPackage(p *types.Package) (*types.Type, bool, error) { generatingForPackage := false for _, t := range p.Types { if !util.MustParseClientGenTags(append(t.SecondClosestCommentLines, t.CommentLines...)).GenerateClient { continue } generatingForPackage = true for _, member := range t.Members { if member.Name == "ObjectMeta" { return member.Type, isInternal(member), nil } } } if generatingForPackage { return nil, false, fmt.Errorf("unable to find ObjectMeta for any types in package %s", p.Path) } return nil, false, nil } // isInternal returns true if the tags for a member do not contain a json tag func isInternal(m types.Member) bool { return !strings.Contains(m.Tags, "json") } func packageForInternalInterfaces(base string) string { return filepath.Join(base, "internalinterfaces") } func vendorless(p string) string { if pos := strings.LastIndex(p, "/vendor/"); pos != -1 { return p[pos+len("/vendor/"):] } return p } // Packages makes the client package definition. func Packages(context *generator.Context, arguments *args.GeneratorArgs) generator.Packages { boilerplate, err := arguments.LoadGoBoilerplate() if err != nil { klog.Fatalf("Failed loading boilerplate: %v", err) } customArgs, ok := arguments.CustomArgs.(*informergenargs.CustomArgs) if !ok { klog.Fatalf("Wrong CustomArgs type: %T", arguments.CustomArgs) } internalVersionPackagePath := filepath.Join(arguments.OutputPackagePath) externalVersionPackagePath := filepath.Join(arguments.OutputPackagePath) if !customArgs.SingleDirectory { internalVersionPackagePath = filepath.Join(arguments.OutputPackagePath, "internalversion") externalVersionPackagePath = filepath.Join(arguments.OutputPackagePath, "externalversions") } var packageList generator.Packages typesForGroupVersion := make(map[clientgentypes.GroupVersion][]*types.Type) externalGroupVersions := make(map[string]clientgentypes.GroupVersions) internalGroupVersions := make(map[string]clientgentypes.GroupVersions) groupGoNames := make(map[string]string) for _, inputDir := range arguments.InputDirs { p := context.Universe.Package(vendorless(inputDir)) objectMeta, internal, err := objectMetaForPackage(p) if err != nil { klog.Fatal(err) } if objectMeta == nil { // no types in this package had genclient continue } var gv clientgentypes.GroupVersion var targetGroupVersions map[string]clientgentypes.GroupVersions if internal { lastSlash := strings.LastIndex(p.Path, "/") if lastSlash == -1 { klog.Fatalf("error constructing internal group version for package %q", p.Path) } gv.Group = clientgentypes.Group(p.Path[lastSlash+1:]) targetGroupVersions = internalGroupVersions } else { parts := strings.Split(p.Path, "/") gv.Group = clientgentypes.Group(parts[len(parts)-2]) gv.Version = clientgentypes.Version(parts[len(parts)-1]) targetGroupVersions = externalGroupVersions } groupPackageName := gv.Group.NonEmpty() gvPackage := path.Clean(p.Path) // If there's a comment of the form "// +groupName=somegroup" or // "// +groupName=somegroup.foo.bar.io", use the first field (somegroup) as the name of the // group when generating. if override := types.ExtractCommentTags("+", p.Comments)["groupName"]; override != nil { gv.Group = clientgentypes.Group(override[0]) } // If there's a comment of the form "// +groupGoName=SomeUniqueShortName", use that as // the Go group identifier in CamelCase. It defaults groupGoNames[groupPackageName] = namer.IC(strings.Split(gv.Group.NonEmpty(), ".")[0]) if override := types.ExtractCommentTags("+", p.Comments)["groupGoName"]; override != nil { groupGoNames[groupPackageName] = namer.IC(override[0]) } var typesToGenerate []*types.Type for _, t := range p.Types { tags := util.MustParseClientGenTags(append(t.SecondClosestCommentLines, t.CommentLines...)) if !tags.GenerateClient || tags.NoVerbs || !tags.HasVerb("list") || !tags.HasVerb("watch") { continue } typesToGenerate = append(typesToGenerate, t) if _, ok := typesForGroupVersion[gv]; !ok { typesForGroupVersion[gv] = []*types.Type{} } typesForGroupVersion[gv] = append(typesForGroupVersion[gv], t) } if len(typesToGenerate) == 0 { continue } groupVersionsEntry, ok := targetGroupVersions[groupPackageName] if !ok { groupVersionsEntry = clientgentypes.GroupVersions{ PackageName: groupPackageName, Group: gv.Group, } } groupVersionsEntry.Versions = append(groupVersionsEntry.Versions, clientgentypes.PackageVersion{Version: gv.Version, Package: gvPackage}) targetGroupVersions[groupPackageName] = groupVersionsEntry orderer := namer.Orderer{Namer: namer.NewPrivateNamer(0)} typesToGenerate = orderer.OrderTypes(typesToGenerate) if internal { packageList = append(packageList, versionPackage(internalVersionPackagePath, groupPackageName, gv, groupGoNames[groupPackageName], boilerplate, typesToGenerate, customArgs.InternalClientSetPackage, customArgs.ListersPackage)) } else { packageList = append(packageList, versionPackage(externalVersionPackagePath, groupPackageName, gv, groupGoNames[groupPackageName], boilerplate, typesToGenerate, customArgs.VersionedClientSetPackage, customArgs.ListersPackage)) } } if len(externalGroupVersions) != 0 { packageList = append(packageList, factoryInterfacePackage(externalVersionPackagePath, boilerplate, customArgs.VersionedClientSetPackage)) packageList = append(packageList, factoryPackage(externalVersionPackagePath, boilerplate, groupGoNames, externalGroupVersions, customArgs.VersionedClientSetPackage, typesForGroupVersion)) for _, gvs := range externalGroupVersions { packageList = append(packageList, groupPackage(externalVersionPackagePath, gvs, boilerplate)) } } if len(internalGroupVersions) != 0 { packageList = append(packageList, factoryInterfacePackage(internalVersionPackagePath, boilerplate, customArgs.InternalClientSetPackage)) packageList = append(packageList, factoryPackage(internalVersionPackagePath, boilerplate, groupGoNames, internalGroupVersions, customArgs.InternalClientSetPackage, typesForGroupVersion)) for _, gvs := range internalGroupVersions { packageList = append(packageList, groupPackage(internalVersionPackagePath, gvs, boilerplate)) } } return packageList } func factoryPackage(basePackage string, boilerplate []byte, groupGoNames map[string]string, groupVersions map[string]clientgentypes.GroupVersions, clientSetPackage string, typesForGroupVersion map[clientgentypes.GroupVersion][]*types.Type) generator.Package { return &generator.DefaultPackage{ PackageName: filepath.Base(basePackage), PackagePath: basePackage, HeaderText: boilerplate, GeneratorFunc: func(c *generator.Context) (generators []generator.Generator) { generators = append(generators, &factoryGenerator{ DefaultGen: generator.DefaultGen{ OptionalName: "factory", }, outputPackage: basePackage, imports: generator.NewImportTracker(), groupVersions: groupVersions, clientSetPackage: clientSetPackage, internalInterfacesPackage: packageForInternalInterfaces(basePackage), gvGoNames: groupGoNames, }) generators = append(generators, &genericGenerator{ DefaultGen: generator.DefaultGen{ OptionalName: "generic", }, outputPackage: basePackage, imports: generator.NewImportTracker(), groupVersions: groupVersions, typesForGroupVersion: typesForGroupVersion, groupGoNames: groupGoNames, }) return generators }, } } func factoryInterfacePackage(basePackage string, boilerplate []byte, clientSetPackage string) generator.Package { packagePath := packageForInternalInterfaces(basePackage) return &generator.DefaultPackage{ PackageName: filepath.Base(packagePath), PackagePath: packagePath, HeaderText: boilerplate, GeneratorFunc: func(c *generator.Context) (generators []generator.Generator) { generators = append(generators, &factoryInterfaceGenerator{ DefaultGen: generator.DefaultGen{ OptionalName: "factory_interfaces", }, outputPackage: packagePath, imports: generator.NewImportTracker(), clientSetPackage: clientSetPackage, }) return generators }, } } func groupPackage(basePackage string, groupVersions clientgentypes.GroupVersions, boilerplate []byte) generator.Package { packagePath := filepath.Join(basePackage, groupVersions.PackageName) groupPkgName := strings.Split(string(groupVersions.Group), ".")[0] return &generator.DefaultPackage{ PackageName: groupPkgName, PackagePath: packagePath, HeaderText: boilerplate, GeneratorFunc: func(c *generator.Context) (generators []generator.Generator) { generators = append(generators, &groupInterfaceGenerator{ DefaultGen: generator.DefaultGen{ OptionalName: "interface", }, outputPackage: packagePath, groupVersions: groupVersions, imports: generator.NewImportTracker(), internalInterfacesPackage: packageForInternalInterfaces(basePackage), }) return generators }, FilterFunc: func(c *generator.Context, t *types.Type) bool { tags := util.MustParseClientGenTags(append(t.SecondClosestCommentLines, t.CommentLines...)) return tags.GenerateClient && tags.HasVerb("list") && tags.HasVerb("watch") }, } } func versionPackage(basePackage string, groupPkgName string, gv clientgentypes.GroupVersion, groupGoName string, boilerplate []byte, typesToGenerate []*types.Type, clientSetPackage, listersPackage string) generator.Package { packagePath := filepath.Join(basePackage, groupPkgName, strings.ToLower(gv.Version.NonEmpty())) return &generator.DefaultPackage{ PackageName: strings.ToLower(gv.Version.NonEmpty()), PackagePath: packagePath, HeaderText: boilerplate, GeneratorFunc: func(c *generator.Context) (generators []generator.Generator) { generators = append(generators, &versionInterfaceGenerator{ DefaultGen: generator.DefaultGen{ OptionalName: "interface", }, outputPackage: packagePath, imports: generator.NewImportTracker(), types: typesToGenerate, internalInterfacesPackage: packageForInternalInterfaces(basePackage), }) for _, t := range typesToGenerate { generators = append(generators, &informerGenerator{ DefaultGen: generator.DefaultGen{ OptionalName: strings.ToLower(t.Name.Name), }, outputPackage: packagePath, groupPkgName: groupPkgName, groupVersion: gv, groupGoName: groupGoName, typeToGenerate: t, imports: generator.NewImportTracker(), clientSetPackage: clientSetPackage, listersPackage: listersPackage, internalInterfacesPackage: packageForInternalInterfaces(basePackage), }) } return generators }, FilterFunc: func(c *generator.Context, t *types.Type) bool { tags := util.MustParseClientGenTags(append(t.SecondClosestCommentLines, t.CommentLines...)) return tags.GenerateClient && tags.HasVerb("list") && tags.HasVerb("watch") }, } }