36643b77b4
- upgrade from apiextension v1beta1 to v1 - generate yaml manifest for crd intead of applying it at runtime - users will have to apply the manifest with kubectl - kg and kgctl log an error if the crd is not present - now validation should actually work Signed-off-by: leonnicolas <leonloechner@gmx.de>
193 lines
6.1 KiB
Go
193 lines
6.1 KiB
Go
/*
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Copyright 2019 The Kubernetes Authors.
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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package genall
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import (
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"fmt"
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"strings"
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"sigs.k8s.io/controller-tools/pkg/markers"
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)
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var (
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InputPathsMarker = markers.Must(markers.MakeDefinition("paths", markers.DescribesPackage, InputPaths(nil)))
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)
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// +controllertools:marker:generateHelp:category=""
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// InputPaths represents paths and go-style path patterns to use as package roots.
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type InputPaths []string
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// RegisterOptionsMarkers registers "mandatory" options markers for FromOptions into the given registry.
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// At this point, that's just InputPaths.
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func RegisterOptionsMarkers(into *markers.Registry) error {
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if err := into.Register(InputPathsMarker); err != nil {
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return err
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}
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// NB(directxman12): we make this optional so we don't have a bootstrap problem with helpgen
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if helpGiver, hasHelp := ((interface{})(InputPaths(nil))).(HasHelp); hasHelp {
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into.AddHelp(InputPathsMarker, helpGiver.Help())
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}
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return nil
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}
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// RegistryFromOptions produces just the marker registry that would be used by FromOptions, without
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// attempting to produce a full Runtime. This can be useful if you want to display help without
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// trying to load roots.
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func RegistryFromOptions(optionsRegistry *markers.Registry, options []string) (*markers.Registry, error) {
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protoRt, err := protoFromOptions(optionsRegistry, options)
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if err != nil {
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return nil, err
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}
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reg := &markers.Registry{}
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if err := protoRt.Generators.RegisterMarkers(reg); err != nil {
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return nil, err
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}
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return reg, nil
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}
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// FromOptions parses the options from markers stored in the given registry out into a runtime.
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// The markers in the registry must be either
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//
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// a) Generators
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// b) OutputRules
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// c) InputPaths
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//
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// The paths specified in InputPaths are loaded as package roots, and the combined with
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// the generators and the specified output rules to produce a runtime that can be run or
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// further modified. Not default generators are used if none are specified -- you can check
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// the output and rerun for that.
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func FromOptions(optionsRegistry *markers.Registry, options []string) (*Runtime, error) {
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protoRt, err := protoFromOptions(optionsRegistry, options)
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if err != nil {
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return nil, err
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}
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// make the runtime
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genRuntime, err := protoRt.Generators.ForRoots(protoRt.Paths...)
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if err != nil {
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return nil, err
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}
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// attempt to figure out what the user wants without a lot of verbose specificity:
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// if the user specifies a default rule, assume that they probably want to fall back
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// to that. Otherwise, assume that they just wanted to customize one option from the
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// set, and leave the rest in the standard configuration.
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if protoRt.OutputRules.Default != nil {
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genRuntime.OutputRules = protoRt.OutputRules
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return genRuntime, nil
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}
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outRules := DirectoryPerGenerator("config", protoRt.GeneratorsByName)
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for gen, rule := range protoRt.OutputRules.ByGenerator {
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outRules.ByGenerator[gen] = rule
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}
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genRuntime.OutputRules = outRules
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return genRuntime, nil
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}
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// protoFromOptions returns a proto-Runtime from the given options registry and
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// options set. This can then be used to construct an actual Runtime. See the
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// FromOptions function for more details about how the options work.
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func protoFromOptions(optionsRegistry *markers.Registry, options []string) (protoRuntime, error) {
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var gens Generators
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rules := OutputRules{
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ByGenerator: make(map[*Generator]OutputRule),
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}
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var paths []string
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// collect the generators first, so that we can key the output on the actual
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// generator, which matters if there's settings in the gen object and it's not a pointer.
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outputByGen := make(map[string]OutputRule)
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gensByName := make(map[string]*Generator)
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for _, rawOpt := range options {
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if rawOpt[0] != '+' {
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rawOpt = "+" + rawOpt // add a `+` to make it acceptable for usage with the registry
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}
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defn := optionsRegistry.Lookup(rawOpt, markers.DescribesPackage)
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if defn == nil {
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return protoRuntime{}, fmt.Errorf("unknown option %q", rawOpt[1:])
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}
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val, err := defn.Parse(rawOpt)
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if err != nil {
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return protoRuntime{}, fmt.Errorf("unable to parse option %q: %w", rawOpt[1:], err)
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}
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switch val := val.(type) {
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case Generator:
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gens = append(gens, &val)
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gensByName[defn.Name] = &val
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case OutputRule:
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_, genName := splitOutputRuleOption(defn.Name)
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if genName == "" {
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// it's a default rule
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rules.Default = val
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continue
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}
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outputByGen[genName] = val
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continue
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case InputPaths:
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paths = append(paths, val...)
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default:
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return protoRuntime{}, fmt.Errorf("unknown option marker %q", defn.Name)
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}
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}
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// actually associate the rules now that we know the generators
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for genName, outputRule := range outputByGen {
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gen, knownGen := gensByName[genName]
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if !knownGen {
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return protoRuntime{}, fmt.Errorf("non-invoked generator %q", genName)
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}
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rules.ByGenerator[gen] = outputRule
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}
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return protoRuntime{
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Paths: paths,
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Generators: Generators(gens),
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OutputRules: rules,
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GeneratorsByName: gensByName,
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}, nil
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}
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// protoRuntime represents the raw pieces needed to compose a runtime, as
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// parsed from some options.
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type protoRuntime struct {
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Paths []string
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Generators Generators
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OutputRules OutputRules
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GeneratorsByName map[string]*Generator
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}
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// splitOutputRuleOption splits a marker name of "output:rule:gen" or "output:rule"
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// into its compontent rule and generator name.
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func splitOutputRuleOption(name string) (ruleName string, genName string) {
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parts := strings.SplitN(name, ":", 3)
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if len(parts) == 3 {
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// output:<generator>:<rule>
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return parts[2], parts[1]
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}
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// output:<rule>
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return parts[1], ""
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}
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