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ad0f7a5305
Upgrade to Go 1.20.5, Hydra v2 SDK, rules-go v0.44.2 (with proper resolves), protobuf v25.3 and mass upgrade of Go dependencies.
291 lines
9.8 KiB
Go
291 lines
9.8 KiB
Go
/*
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Copyright 2014 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 versioning
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import (
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"encoding/json"
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"io"
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"reflect"
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"sync"
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"k8s.io/apimachinery/pkg/apis/meta/v1/unstructured"
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"k8s.io/apimachinery/pkg/runtime"
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"k8s.io/apimachinery/pkg/runtime/schema"
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"k8s.io/klog/v2"
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)
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// NewDefaultingCodecForScheme is a convenience method for callers that are using a scheme.
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func NewDefaultingCodecForScheme(
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// TODO: I should be a scheme interface?
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scheme *runtime.Scheme,
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encoder runtime.Encoder,
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decoder runtime.Decoder,
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encodeVersion runtime.GroupVersioner,
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decodeVersion runtime.GroupVersioner,
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) runtime.Codec {
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return NewCodec(encoder, decoder, runtime.UnsafeObjectConvertor(scheme), scheme, scheme, scheme, encodeVersion, decodeVersion, scheme.Name())
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}
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// NewCodec takes objects in their internal versions and converts them to external versions before
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// serializing them. It assumes the serializer provided to it only deals with external versions.
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// This class is also a serializer, but is generally used with a specific version.
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func NewCodec(
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encoder runtime.Encoder,
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decoder runtime.Decoder,
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convertor runtime.ObjectConvertor,
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creater runtime.ObjectCreater,
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typer runtime.ObjectTyper,
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defaulter runtime.ObjectDefaulter,
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encodeVersion runtime.GroupVersioner,
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decodeVersion runtime.GroupVersioner,
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originalSchemeName string,
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) runtime.Codec {
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internal := &codec{
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encoder: encoder,
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decoder: decoder,
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convertor: convertor,
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creater: creater,
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typer: typer,
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defaulter: defaulter,
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encodeVersion: encodeVersion,
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decodeVersion: decodeVersion,
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identifier: identifier(encodeVersion, encoder),
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originalSchemeName: originalSchemeName,
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}
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return internal
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}
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type codec struct {
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encoder runtime.Encoder
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decoder runtime.Decoder
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convertor runtime.ObjectConvertor
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creater runtime.ObjectCreater
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typer runtime.ObjectTyper
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defaulter runtime.ObjectDefaulter
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encodeVersion runtime.GroupVersioner
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decodeVersion runtime.GroupVersioner
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identifier runtime.Identifier
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// originalSchemeName is optional, but when filled in it holds the name of the scheme from which this codec originates
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originalSchemeName string
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}
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var _ runtime.EncoderWithAllocator = &codec{}
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var identifiersMap sync.Map
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type codecIdentifier struct {
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EncodeGV string `json:"encodeGV,omitempty"`
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Encoder string `json:"encoder,omitempty"`
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Name string `json:"name,omitempty"`
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}
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// identifier computes Identifier of Encoder based on codec parameters.
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func identifier(encodeGV runtime.GroupVersioner, encoder runtime.Encoder) runtime.Identifier {
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result := codecIdentifier{
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Name: "versioning",
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}
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if encodeGV != nil {
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result.EncodeGV = encodeGV.Identifier()
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}
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if encoder != nil {
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result.Encoder = string(encoder.Identifier())
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}
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if id, ok := identifiersMap.Load(result); ok {
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return id.(runtime.Identifier)
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}
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identifier, err := json.Marshal(result)
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if err != nil {
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klog.Fatalf("Failed marshaling identifier for codec: %v", err)
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}
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identifiersMap.Store(result, runtime.Identifier(identifier))
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return runtime.Identifier(identifier)
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}
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// Decode attempts a decode of the object, then tries to convert it to the internal version. If into is provided and the decoding is
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// successful, the returned runtime.Object will be the value passed as into. Note that this may bypass conversion if you pass an
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// into that matches the serialized version.
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func (c *codec) Decode(data []byte, defaultGVK *schema.GroupVersionKind, into runtime.Object) (runtime.Object, *schema.GroupVersionKind, error) {
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// If the into object is unstructured and expresses an opinion about its group/version,
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// create a new instance of the type so we always exercise the conversion path (skips short-circuiting on `into == obj`)
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decodeInto := into
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if into != nil {
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if _, ok := into.(runtime.Unstructured); ok && !into.GetObjectKind().GroupVersionKind().GroupVersion().Empty() {
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decodeInto = reflect.New(reflect.TypeOf(into).Elem()).Interface().(runtime.Object)
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}
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}
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var strictDecodingErrs []error
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obj, gvk, err := c.decoder.Decode(data, defaultGVK, decodeInto)
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if err != nil {
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if strictErr, ok := runtime.AsStrictDecodingError(err); obj != nil && ok {
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// save the strictDecodingError and let the caller decide what to do with it
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strictDecodingErrs = append(strictDecodingErrs, strictErr.Errors()...)
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} else {
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return nil, gvk, err
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}
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}
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if d, ok := obj.(runtime.NestedObjectDecoder); ok {
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if err := d.DecodeNestedObjects(runtime.WithoutVersionDecoder{Decoder: c.decoder}); err != nil {
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if strictErr, ok := runtime.AsStrictDecodingError(err); ok {
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// save the strictDecodingError let and the caller decide what to do with it
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strictDecodingErrs = append(strictDecodingErrs, strictErr.Errors()...)
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} else {
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return nil, gvk, err
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}
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}
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}
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// aggregate the strict decoding errors into one
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var strictDecodingErr error
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if len(strictDecodingErrs) > 0 {
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strictDecodingErr = runtime.NewStrictDecodingError(strictDecodingErrs)
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}
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// if we specify a target, use generic conversion.
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if into != nil {
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// perform defaulting if requested
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if c.defaulter != nil {
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c.defaulter.Default(obj)
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}
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// Short-circuit conversion if the into object is same object
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if into == obj {
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return into, gvk, strictDecodingErr
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}
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if err := c.convertor.Convert(obj, into, c.decodeVersion); err != nil {
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return nil, gvk, err
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}
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return into, gvk, strictDecodingErr
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}
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// perform defaulting if requested
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if c.defaulter != nil {
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c.defaulter.Default(obj)
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}
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out, err := c.convertor.ConvertToVersion(obj, c.decodeVersion)
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if err != nil {
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return nil, gvk, err
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}
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return out, gvk, strictDecodingErr
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}
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// EncodeWithAllocator ensures the provided object is output in the appropriate group and version, invoking
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// conversion if necessary. Unversioned objects (according to the ObjectTyper) are output as is.
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// In addition, it allows for providing a memory allocator for efficient memory usage during object serialization.
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func (c *codec) EncodeWithAllocator(obj runtime.Object, w io.Writer, memAlloc runtime.MemoryAllocator) error {
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return c.encode(obj, w, memAlloc)
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}
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// Encode ensures the provided object is output in the appropriate group and version, invoking
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// conversion if necessary. Unversioned objects (according to the ObjectTyper) are output as is.
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func (c *codec) Encode(obj runtime.Object, w io.Writer) error {
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return c.encode(obj, w, nil)
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}
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func (c *codec) encode(obj runtime.Object, w io.Writer, memAlloc runtime.MemoryAllocator) error {
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if co, ok := obj.(runtime.CacheableObject); ok {
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return co.CacheEncode(c.Identifier(), func(obj runtime.Object, w io.Writer) error { return c.doEncode(obj, w, memAlloc) }, w)
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}
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return c.doEncode(obj, w, memAlloc)
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}
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func (c *codec) doEncode(obj runtime.Object, w io.Writer, memAlloc runtime.MemoryAllocator) error {
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encodeFn := c.encoder.Encode
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if memAlloc != nil {
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if encoder, supportsAllocator := c.encoder.(runtime.EncoderWithAllocator); supportsAllocator {
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encodeFn = func(obj runtime.Object, w io.Writer) error {
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return encoder.EncodeWithAllocator(obj, w, memAlloc)
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}
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} else {
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klog.V(6).Infof("a memory allocator was provided but the encoder %s doesn't implement the runtime.EncoderWithAllocator, using regular encoder.Encode method", c.encoder.Identifier())
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}
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}
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switch obj := obj.(type) {
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case *runtime.Unknown:
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return encodeFn(obj, w)
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case runtime.Unstructured:
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// An unstructured list can contain objects of multiple group version kinds. don't short-circuit just
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// because the top-level type matches our desired destination type. actually send the object to the converter
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// to give it a chance to convert the list items if needed.
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if _, ok := obj.(*unstructured.UnstructuredList); !ok {
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// avoid conversion roundtrip if GVK is the right one already or is empty (yes, this is a hack, but the old behaviour we rely on in kubectl)
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objGVK := obj.GetObjectKind().GroupVersionKind()
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if len(objGVK.Version) == 0 {
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return encodeFn(obj, w)
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}
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targetGVK, ok := c.encodeVersion.KindForGroupVersionKinds([]schema.GroupVersionKind{objGVK})
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if !ok {
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return runtime.NewNotRegisteredGVKErrForTarget(c.originalSchemeName, objGVK, c.encodeVersion)
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}
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if targetGVK == objGVK {
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return encodeFn(obj, w)
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}
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}
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}
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gvks, isUnversioned, err := c.typer.ObjectKinds(obj)
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if err != nil {
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return err
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}
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objectKind := obj.GetObjectKind()
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old := objectKind.GroupVersionKind()
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// restore the old GVK after encoding
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defer objectKind.SetGroupVersionKind(old)
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if c.encodeVersion == nil || isUnversioned {
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if e, ok := obj.(runtime.NestedObjectEncoder); ok {
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if err := e.EncodeNestedObjects(runtime.WithVersionEncoder{Encoder: c.encoder, ObjectTyper: c.typer}); err != nil {
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return err
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}
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}
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objectKind.SetGroupVersionKind(gvks[0])
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return encodeFn(obj, w)
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}
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// Perform a conversion if necessary
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out, err := c.convertor.ConvertToVersion(obj, c.encodeVersion)
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if err != nil {
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return err
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}
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if e, ok := out.(runtime.NestedObjectEncoder); ok {
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if err := e.EncodeNestedObjects(runtime.WithVersionEncoder{Version: c.encodeVersion, Encoder: c.encoder, ObjectTyper: c.typer}); err != nil {
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return err
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}
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}
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// Conversion is responsible for setting the proper group, version, and kind onto the outgoing object
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return encodeFn(out, w)
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}
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// Identifier implements runtime.Encoder interface.
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func (c *codec) Identifier() runtime.Identifier {
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return c.identifier
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}
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