open-consul/vendor/k8s.io/apimachinery/pkg/runtime/serializer/versioning/versioning.go

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/*
Copyright 2014 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 versioning
import (
"io"
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"reflect"
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"k8s.io/apimachinery/pkg/apis/meta/v1/unstructured"
"k8s.io/apimachinery/pkg/runtime"
"k8s.io/apimachinery/pkg/runtime/schema"
)
// NewDefaultingCodecForScheme is a convenience method for callers that are using a scheme.
func NewDefaultingCodecForScheme(
// TODO: I should be a scheme interface?
scheme *runtime.Scheme,
encoder runtime.Encoder,
decoder runtime.Decoder,
encodeVersion runtime.GroupVersioner,
decodeVersion runtime.GroupVersioner,
) runtime.Codec {
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return NewCodec(encoder, decoder, runtime.UnsafeObjectConvertor(scheme), scheme, scheme, scheme, encodeVersion, decodeVersion, scheme.Name())
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}
// NewCodec takes objects in their internal versions and converts them to external versions before
// serializing them. It assumes the serializer provided to it only deals with external versions.
// This class is also a serializer, but is generally used with a specific version.
func NewCodec(
encoder runtime.Encoder,
decoder runtime.Decoder,
convertor runtime.ObjectConvertor,
creater runtime.ObjectCreater,
typer runtime.ObjectTyper,
defaulter runtime.ObjectDefaulter,
encodeVersion runtime.GroupVersioner,
decodeVersion runtime.GroupVersioner,
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originalSchemeName string,
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) runtime.Codec {
internal := &codec{
encoder: encoder,
decoder: decoder,
convertor: convertor,
creater: creater,
typer: typer,
defaulter: defaulter,
encodeVersion: encodeVersion,
decodeVersion: decodeVersion,
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originalSchemeName: originalSchemeName,
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}
return internal
}
type codec struct {
encoder runtime.Encoder
decoder runtime.Decoder
convertor runtime.ObjectConvertor
creater runtime.ObjectCreater
typer runtime.ObjectTyper
defaulter runtime.ObjectDefaulter
encodeVersion runtime.GroupVersioner
decodeVersion runtime.GroupVersioner
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// originalSchemeName is optional, but when filled in it holds the name of the scheme from which this codec originates
originalSchemeName string
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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
// successful, the returned runtime.Object will be the value passed as into. Note that this may bypass conversion if you pass an
// into that matches the serialized version.
func (c *codec) Decode(data []byte, defaultGVK *schema.GroupVersionKind, into runtime.Object) (runtime.Object, *schema.GroupVersionKind, error) {
versioned, isVersioned := into.(*runtime.VersionedObjects)
if isVersioned {
into = versioned.Last()
}
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// If the into object is unstructured and expresses an opinion about its group/version,
// create a new instance of the type so we always exercise the conversion path (skips short-circuiting on `into == obj`)
decodeInto := into
if into != nil {
if _, ok := into.(runtime.Unstructured); ok && !into.GetObjectKind().GroupVersionKind().GroupVersion().Empty() {
decodeInto = reflect.New(reflect.TypeOf(into).Elem()).Interface().(runtime.Object)
}
}
obj, gvk, err := c.decoder.Decode(data, defaultGVK, decodeInto)
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if err != nil {
return nil, gvk, err
}
if d, ok := obj.(runtime.NestedObjectDecoder); ok {
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if err := d.DecodeNestedObjects(runtime.WithoutVersionDecoder{c.decoder}); err != nil {
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return nil, gvk, err
}
}
// if we specify a target, use generic conversion.
if into != nil {
// perform defaulting if requested
if c.defaulter != nil {
// create a copy to ensure defaulting is not applied to the original versioned objects
if isVersioned {
versioned.Objects = []runtime.Object{obj.DeepCopyObject()}
}
c.defaulter.Default(obj)
} else {
if isVersioned {
versioned.Objects = []runtime.Object{obj}
}
}
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// Short-circuit conversion if the into object is same object
if into == obj {
if isVersioned {
return versioned, gvk, nil
}
return into, gvk, nil
}
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if err := c.convertor.Convert(obj, into, c.decodeVersion); err != nil {
return nil, gvk, err
}
if isVersioned {
versioned.Objects = append(versioned.Objects, into)
return versioned, gvk, nil
}
return into, gvk, nil
}
// Convert if needed.
if isVersioned {
// create a copy, because ConvertToVersion does not guarantee non-mutation of objects
versioned.Objects = []runtime.Object{obj.DeepCopyObject()}
}
// perform defaulting if requested
if c.defaulter != nil {
c.defaulter.Default(obj)
}
out, err := c.convertor.ConvertToVersion(obj, c.decodeVersion)
if err != nil {
return nil, gvk, err
}
if isVersioned {
if versioned.Last() != out {
versioned.Objects = append(versioned.Objects, out)
}
return versioned, gvk, nil
}
return out, gvk, nil
}
// Encode ensures the provided object is output in the appropriate group and version, invoking
// conversion if necessary. Unversioned objects (according to the ObjectTyper) are output as is.
func (c *codec) Encode(obj runtime.Object, w io.Writer) error {
switch obj := obj.(type) {
case *runtime.Unknown:
return c.encoder.Encode(obj, w)
case runtime.Unstructured:
// An unstructured list can contain objects of multiple group version kinds. don't short-circuit just
// because the top-level type matches our desired destination type. actually send the object to the converter
// to give it a chance to convert the list items if needed.
if _, ok := obj.(*unstructured.UnstructuredList); !ok {
// 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)
objGVK := obj.GetObjectKind().GroupVersionKind()
if len(objGVK.Version) == 0 {
return c.encoder.Encode(obj, w)
}
targetGVK, ok := c.encodeVersion.KindForGroupVersionKinds([]schema.GroupVersionKind{objGVK})
if !ok {
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return runtime.NewNotRegisteredGVKErrForTarget(c.originalSchemeName, objGVK, c.encodeVersion)
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}
if targetGVK == objGVK {
return c.encoder.Encode(obj, w)
}
}
}
gvks, isUnversioned, err := c.typer.ObjectKinds(obj)
if err != nil {
return err
}
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objectKind := obj.GetObjectKind()
old := objectKind.GroupVersionKind()
// restore the old GVK after encoding
defer objectKind.SetGroupVersionKind(old)
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if c.encodeVersion == nil || isUnversioned {
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
}
}
objectKind.SetGroupVersionKind(gvks[0])
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return c.encoder.Encode(obj, w)
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}
// Perform a conversion if necessary
out, err := c.convertor.ConvertToVersion(obj, c.encodeVersion)
if err != nil {
return err
}
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
}
}
// Conversion is responsible for setting the proper group, version, and kind onto the outgoing object
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return c.encoder.Encode(out, w)
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}