mirror of
https://github.com/k3s-io/k3s.git
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431 lines
11 KiB
Go
431 lines
11 KiB
Go
/*
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Copyright 2017 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 schemaconv
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import (
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"errors"
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"fmt"
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"path"
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"sort"
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"strings"
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"k8s.io/kube-openapi/pkg/util/proto"
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"sigs.k8s.io/structured-merge-diff/schema"
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)
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// ToSchema converts openapi definitions into a schema suitable for structured
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// merge (i.e. kubectl apply v2).
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func ToSchema(models proto.Models) (*schema.Schema, error) {
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return ToSchemaWithPreserveUnknownFields(models, false)
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}
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// ToSchemaWithPreserveUnknownFields converts openapi definitions into a schema suitable for structured
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// merge (i.e. kubectl apply v2), it will preserve unknown fields if specified.
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func ToSchemaWithPreserveUnknownFields(models proto.Models, preserveUnknownFields bool) (*schema.Schema, error) {
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c := convert{
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input: models,
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preserveUnknownFields: preserveUnknownFields,
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output: &schema.Schema{},
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}
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if err := c.convertAll(); err != nil {
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return nil, err
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}
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c.addCommonTypes()
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return c.output, nil
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}
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type convert struct {
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input proto.Models
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preserveUnknownFields bool
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output *schema.Schema
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currentName string
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current *schema.Atom
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errorMessages []string
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}
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func (c *convert) push(name string, a *schema.Atom) *convert {
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return &convert{
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input: c.input,
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preserveUnknownFields: c.preserveUnknownFields,
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output: c.output,
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currentName: name,
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current: a,
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}
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}
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func (c *convert) top() *schema.Atom { return c.current }
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func (c *convert) pop(c2 *convert) {
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c.errorMessages = append(c.errorMessages, c2.errorMessages...)
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}
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func (c *convert) convertAll() error {
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for _, name := range c.input.ListModels() {
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model := c.input.LookupModel(name)
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c.insertTypeDef(name, model)
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}
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if len(c.errorMessages) > 0 {
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return errors.New(strings.Join(c.errorMessages, "\n"))
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}
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return nil
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}
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func (c *convert) reportError(format string, args ...interface{}) {
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c.errorMessages = append(c.errorMessages,
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c.currentName+": "+fmt.Sprintf(format, args...),
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)
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}
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func (c *convert) insertTypeDef(name string, model proto.Schema) {
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def := schema.TypeDef{
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Name: name,
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}
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c2 := c.push(name, &def.Atom)
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model.Accept(c2)
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c.pop(c2)
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if def.Atom == (schema.Atom{}) {
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// This could happen if there were a top-level reference.
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return
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}
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c.output.Types = append(c.output.Types, def)
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}
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func (c *convert) addCommonTypes() {
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c.output.Types = append(c.output.Types, untypedDef)
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c.output.Types = append(c.output.Types, deducedDef)
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}
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var untypedName string = "__untyped_atomic_"
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var untypedDef schema.TypeDef = schema.TypeDef{
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Name: untypedName,
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Atom: schema.Atom{
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Scalar: ptr(schema.Scalar("untyped")),
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List: &schema.List{
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ElementType: schema.TypeRef{
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NamedType: &untypedName,
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},
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ElementRelationship: schema.Atomic,
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},
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Map: &schema.Map{
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ElementType: schema.TypeRef{
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NamedType: &untypedName,
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},
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ElementRelationship: schema.Atomic,
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},
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},
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}
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var deducedName string = "__untyped_deduced_"
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var deducedDef schema.TypeDef = schema.TypeDef{
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Name: deducedName,
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Atom: schema.Atom{
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Scalar: ptr(schema.Scalar("untyped")),
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List: &schema.List{
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ElementType: schema.TypeRef{
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NamedType: &untypedName,
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},
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ElementRelationship: schema.Atomic,
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},
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Map: &schema.Map{
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ElementType: schema.TypeRef{
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NamedType: &deducedName,
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},
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ElementRelationship: schema.Separable,
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},
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},
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}
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func (c *convert) makeRef(model proto.Schema, preserveUnknownFields bool) schema.TypeRef {
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var tr schema.TypeRef
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if r, ok := model.(*proto.Ref); ok {
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if r.Reference() == "io.k8s.apimachinery.pkg.runtime.RawExtension" {
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return schema.TypeRef{
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NamedType: &untypedName,
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}
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}
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// reference a named type
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_, n := path.Split(r.Reference())
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tr.NamedType = &n
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} else {
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// compute the type inline
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c2 := c.push("inlined in "+c.currentName, &tr.Inlined)
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c2.preserveUnknownFields = preserveUnknownFields
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model.Accept(c2)
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c.pop(c2)
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if tr == (schema.TypeRef{}) {
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// emit warning?
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tr.NamedType = &untypedName
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}
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}
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return tr
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}
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func makeUnions(extensions map[string]interface{}) ([]schema.Union, error) {
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schemaUnions := []schema.Union{}
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if iunions, ok := extensions["x-kubernetes-unions"]; ok {
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unions, ok := iunions.([]interface{})
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if !ok {
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return nil, fmt.Errorf(`"x-kubernetes-unions" should be a list, got %#v`, unions)
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}
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for _, iunion := range unions {
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union, ok := iunion.(map[interface{}]interface{})
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if !ok {
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return nil, fmt.Errorf(`"x-kubernetes-unions" items should be a map of string to unions, got %#v`, iunion)
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}
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unionMap := map[string]interface{}{}
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for k, v := range union {
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key, ok := k.(string)
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if !ok {
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return nil, fmt.Errorf(`"x-kubernetes-unions" has non-string key: %#v`, k)
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}
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unionMap[key] = v
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}
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schemaUnion, err := makeUnion(unionMap)
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if err != nil {
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return nil, err
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}
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schemaUnions = append(schemaUnions, schemaUnion)
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}
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}
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// Make sure we have no overlap between unions
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fs := map[string]struct{}{}
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for _, u := range schemaUnions {
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if u.Discriminator != nil {
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if _, ok := fs[*u.Discriminator]; ok {
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return nil, fmt.Errorf("%v field appears multiple times in unions", *u.Discriminator)
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}
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fs[*u.Discriminator] = struct{}{}
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}
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for _, f := range u.Fields {
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if _, ok := fs[f.FieldName]; ok {
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return nil, fmt.Errorf("%v field appears multiple times in unions", f.FieldName)
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}
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fs[f.FieldName] = struct{}{}
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}
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}
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return schemaUnions, nil
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}
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func makeUnion(extensions map[string]interface{}) (schema.Union, error) {
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union := schema.Union{
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Fields: []schema.UnionField{},
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}
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if idiscriminator, ok := extensions["discriminator"]; ok {
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discriminator, ok := idiscriminator.(string)
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if !ok {
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return schema.Union{}, fmt.Errorf(`"discriminator" must be a string, got: %#v`, idiscriminator)
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}
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union.Discriminator = &discriminator
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}
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if ifields, ok := extensions["fields-to-discriminateBy"]; ok {
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fields, ok := ifields.(map[interface{}]interface{})
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if !ok {
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return schema.Union{}, fmt.Errorf(`"fields-to-discriminateBy" must be a map[string]string, got: %#v`, ifields)
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}
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// Needs sorted keys by field.
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keys := []string{}
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for ifield := range fields {
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field, ok := ifield.(string)
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if !ok {
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return schema.Union{}, fmt.Errorf(`"fields-to-discriminateBy": field must be a string, got: %#v`, ifield)
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}
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keys = append(keys, field)
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}
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sort.Strings(keys)
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reverseMap := map[string]struct{}{}
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for _, field := range keys {
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value := fields[field]
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discriminated, ok := value.(string)
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if !ok {
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return schema.Union{}, fmt.Errorf(`"fields-to-discriminateBy"/%v: value must be a string, got: %#v`, field, value)
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}
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union.Fields = append(union.Fields, schema.UnionField{
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FieldName: field,
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DiscriminatorValue: discriminated,
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})
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// Check that we don't have the same discriminateBy multiple times.
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if _, ok := reverseMap[discriminated]; ok {
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return schema.Union{}, fmt.Errorf("Multiple fields have the same discriminated name: %v", discriminated)
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}
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reverseMap[discriminated] = struct{}{}
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}
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}
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if union.Discriminator != nil && len(union.Fields) == 0 {
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return schema.Union{}, fmt.Errorf("discriminator set to %v, but no fields in union", *union.Discriminator)
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}
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return union, nil
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}
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func (c *convert) VisitKind(k *proto.Kind) {
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preserveUnknownFields := c.preserveUnknownFields
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if p, ok := k.GetExtensions()["x-kubernetes-preserve-unknown-fields"]; ok && p == true {
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preserveUnknownFields = true
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}
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a := c.top()
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a.Map = &schema.Map{}
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for _, name := range k.FieldOrder {
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member := k.Fields[name]
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tr := c.makeRef(member, preserveUnknownFields)
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a.Map.Fields = append(a.Map.Fields, schema.StructField{
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Name: name,
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Type: tr,
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})
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}
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unions, err := makeUnions(k.GetExtensions())
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if err != nil {
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c.reportError(err.Error())
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return
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}
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// TODO: We should check that the fields and discriminator
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// specified in the union are actual fields in the struct.
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a.Map.Unions = unions
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if preserveUnknownFields {
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a.Map.ElementType = schema.TypeRef{
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NamedType: &deducedName,
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}
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}
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}
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func toStringSlice(o interface{}) (out []string, ok bool) {
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switch t := o.(type) {
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case []interface{}:
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for _, v := range t {
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switch vt := v.(type) {
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case string:
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out = append(out, vt)
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}
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}
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return out, true
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}
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return nil, false
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}
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func (c *convert) VisitArray(a *proto.Array) {
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atom := c.top()
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atom.List = &schema.List{
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ElementRelationship: schema.Atomic,
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}
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l := atom.List
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l.ElementType = c.makeRef(a.SubType, c.preserveUnknownFields)
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ext := a.GetExtensions()
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if val, ok := ext["x-kubernetes-list-type"]; ok {
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if val == "atomic" {
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l.ElementRelationship = schema.Atomic
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} else if val == "set" {
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l.ElementRelationship = schema.Associative
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} else if val == "map" {
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l.ElementRelationship = schema.Associative
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if keys, ok := ext["x-kubernetes-list-map-keys"]; ok {
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if keyNames, ok := toStringSlice(keys); ok {
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l.Keys = keyNames
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} else {
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c.reportError("uninterpreted map keys: %#v", keys)
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}
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} else {
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c.reportError("missing map keys")
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}
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} else {
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c.reportError("unknown list type %v", val)
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l.ElementRelationship = schema.Atomic
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}
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} else if val, ok := ext["x-kubernetes-patch-strategy"]; ok {
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if val == "merge" || val == "merge,retainKeys" {
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l.ElementRelationship = schema.Associative
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if key, ok := ext["x-kubernetes-patch-merge-key"]; ok {
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if keyName, ok := key.(string); ok {
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l.Keys = []string{keyName}
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} else {
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c.reportError("uninterpreted merge key: %#v", key)
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}
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} else {
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// It's not an error for this to be absent, it
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// means it's a set.
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}
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} else if val == "retainKeys" {
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} else {
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c.reportError("unknown patch strategy %v", val)
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l.ElementRelationship = schema.Atomic
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}
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}
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}
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func (c *convert) VisitMap(m *proto.Map) {
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a := c.top()
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a.Map = &schema.Map{}
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a.Map.ElementType = c.makeRef(m.SubType, c.preserveUnknownFields)
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// TODO: Get element relationship when we start putting it into the
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// spec.
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}
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func ptr(s schema.Scalar) *schema.Scalar { return &s }
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func (c *convert) VisitPrimitive(p *proto.Primitive) {
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a := c.top()
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switch p.Type {
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case proto.Integer:
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a.Scalar = ptr(schema.Numeric)
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case proto.Number:
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a.Scalar = ptr(schema.Numeric)
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case proto.String:
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switch p.Format {
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case "":
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a.Scalar = ptr(schema.String)
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case "byte":
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// byte really means []byte and is encoded as a string.
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a.Scalar = ptr(schema.String)
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case "int-or-string":
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a.Scalar = ptr(schema.Scalar("untyped"))
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case "date-time":
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a.Scalar = ptr(schema.Scalar("untyped"))
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default:
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a.Scalar = ptr(schema.Scalar("untyped"))
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}
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case proto.Boolean:
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a.Scalar = ptr(schema.Boolean)
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default:
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a.Scalar = ptr(schema.Scalar("untyped"))
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}
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}
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func (c *convert) VisitArbitrary(a *proto.Arbitrary) {
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*c.top() = untypedDef.Atom
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if c.preserveUnknownFields {
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*c.top() = deducedDef.Atom
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}
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}
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func (c *convert) VisitReference(proto.Reference) {
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// Do nothing, we handle references specially
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}
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