mirror of
https://github.com/rocky-linux/peridot.git
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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.
496 lines
18 KiB
Go
496 lines
18 KiB
Go
/*
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Copyright 2015 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 protobuf
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import (
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"bytes"
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"fmt"
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"io"
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"net/http"
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"reflect"
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"github.com/gogo/protobuf/proto"
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metav1 "k8s.io/apimachinery/pkg/apis/meta/v1"
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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/apimachinery/pkg/runtime/serializer/recognizer"
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"k8s.io/apimachinery/pkg/util/framer"
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"k8s.io/klog/v2"
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)
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var (
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// protoEncodingPrefix serves as a magic number for an encoded protobuf message on this serializer. All
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// proto messages serialized by this schema will be preceded by the bytes 0x6b 0x38 0x73, with the fourth
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// byte being reserved for the encoding style. The only encoding style defined is 0x00, which means that
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// the rest of the byte stream is a message of type k8s.io.kubernetes.pkg.runtime.Unknown (proto2).
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//
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// See k8s.io/apimachinery/pkg/runtime/generated.proto for details of the runtime.Unknown message.
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//
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// This encoding scheme is experimental, and is subject to change at any time.
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protoEncodingPrefix = []byte{0x6b, 0x38, 0x73, 0x00}
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)
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type errNotMarshalable struct {
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t reflect.Type
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}
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func (e errNotMarshalable) Error() string {
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return fmt.Sprintf("object %v does not implement the protobuf marshalling interface and cannot be encoded to a protobuf message", e.t)
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}
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func (e errNotMarshalable) Status() metav1.Status {
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return metav1.Status{
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Status: metav1.StatusFailure,
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Code: http.StatusNotAcceptable,
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Reason: metav1.StatusReason("NotAcceptable"),
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Message: e.Error(),
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}
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}
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// IsNotMarshalable checks the type of error, returns a boolean true if error is not nil and not marshalable false otherwise
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func IsNotMarshalable(err error) bool {
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_, ok := err.(errNotMarshalable)
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return err != nil && ok
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}
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// NewSerializer creates a Protobuf serializer that handles encoding versioned objects into the proper wire form. If a typer
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// is passed, the encoded object will have group, version, and kind fields set. If typer is nil, the objects will be written
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// as-is (any type info passed with the object will be used).
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func NewSerializer(creater runtime.ObjectCreater, typer runtime.ObjectTyper) *Serializer {
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return &Serializer{
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prefix: protoEncodingPrefix,
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creater: creater,
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typer: typer,
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}
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}
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// Serializer handles encoding versioned objects into the proper wire form
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type Serializer struct {
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prefix []byte
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creater runtime.ObjectCreater
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typer runtime.ObjectTyper
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}
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var _ runtime.Serializer = &Serializer{}
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var _ runtime.EncoderWithAllocator = &Serializer{}
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var _ recognizer.RecognizingDecoder = &Serializer{}
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const serializerIdentifier runtime.Identifier = "protobuf"
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// Decode attempts to convert the provided data into a protobuf message, extract the stored schema kind, apply the provided default
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// gvk, and then load that data into an object matching the desired schema kind or the provided into. If into is *runtime.Unknown,
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// the raw data will be extracted and no decoding will be performed. If into is not registered with the typer, then the object will
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// be straight decoded using normal protobuf unmarshalling (the MarshalTo interface). If into is provided and the original data is
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// not fully qualified with kind/version/group, the type of the into will be used to alter the returned gvk. On success or most
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// errors, the method will return the calculated schema kind.
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func (s *Serializer) Decode(originalData []byte, gvk *schema.GroupVersionKind, into runtime.Object) (runtime.Object, *schema.GroupVersionKind, error) {
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prefixLen := len(s.prefix)
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switch {
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case len(originalData) == 0:
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// TODO: treat like decoding {} from JSON with defaulting
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return nil, nil, fmt.Errorf("empty data")
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case len(originalData) < prefixLen || !bytes.Equal(s.prefix, originalData[:prefixLen]):
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return nil, nil, fmt.Errorf("provided data does not appear to be a protobuf message, expected prefix %v", s.prefix)
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case len(originalData) == prefixLen:
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// TODO: treat like decoding {} from JSON with defaulting
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return nil, nil, fmt.Errorf("empty body")
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}
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data := originalData[prefixLen:]
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unk := runtime.Unknown{}
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if err := unk.Unmarshal(data); err != nil {
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return nil, nil, err
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}
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actual := unk.GroupVersionKind()
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copyKindDefaults(&actual, gvk)
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if intoUnknown, ok := into.(*runtime.Unknown); ok && intoUnknown != nil {
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*intoUnknown = unk
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if ok, _, _ := s.RecognizesData(unk.Raw); ok {
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intoUnknown.ContentType = runtime.ContentTypeProtobuf
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}
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return intoUnknown, &actual, nil
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}
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if into != nil {
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types, _, err := s.typer.ObjectKinds(into)
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switch {
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case runtime.IsNotRegisteredError(err):
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pb, ok := into.(proto.Message)
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if !ok {
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return nil, &actual, errNotMarshalable{reflect.TypeOf(into)}
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}
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if err := proto.Unmarshal(unk.Raw, pb); err != nil {
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return nil, &actual, err
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}
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return into, &actual, nil
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case err != nil:
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return nil, &actual, err
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default:
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copyKindDefaults(&actual, &types[0])
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// if the result of defaulting did not set a version or group, ensure that at least group is set
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// (copyKindDefaults will not assign Group if version is already set). This guarantees that the group
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// of into is set if there is no better information from the caller or object.
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if len(actual.Version) == 0 && len(actual.Group) == 0 {
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actual.Group = types[0].Group
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}
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}
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}
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if len(actual.Kind) == 0 {
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return nil, &actual, runtime.NewMissingKindErr(fmt.Sprintf("%#v", unk.TypeMeta))
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}
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if len(actual.Version) == 0 {
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return nil, &actual, runtime.NewMissingVersionErr(fmt.Sprintf("%#v", unk.TypeMeta))
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}
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return unmarshalToObject(s.typer, s.creater, &actual, into, unk.Raw)
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}
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// EncodeWithAllocator writes an object to the provided writer.
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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 (s *Serializer) EncodeWithAllocator(obj runtime.Object, w io.Writer, memAlloc runtime.MemoryAllocator) error {
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return s.encode(obj, w, memAlloc)
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}
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// Encode serializes the provided object to the given writer.
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func (s *Serializer) Encode(obj runtime.Object, w io.Writer) error {
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return s.encode(obj, w, &runtime.SimpleAllocator{})
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}
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func (s *Serializer) 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(s.Identifier(), func(obj runtime.Object, w io.Writer) error { return s.doEncode(obj, w, memAlloc) }, w)
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}
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return s.doEncode(obj, w, memAlloc)
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}
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func (s *Serializer) doEncode(obj runtime.Object, w io.Writer, memAlloc runtime.MemoryAllocator) error {
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if memAlloc == nil {
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klog.Error("a mandatory memory allocator wasn't provided, this might have a negative impact on performance, check invocations of EncodeWithAllocator method, falling back on runtime.SimpleAllocator")
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memAlloc = &runtime.SimpleAllocator{}
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}
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prefixSize := uint64(len(s.prefix))
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var unk runtime.Unknown
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switch t := obj.(type) {
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case *runtime.Unknown:
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estimatedSize := prefixSize + uint64(t.Size())
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data := memAlloc.Allocate(estimatedSize)
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i, err := t.MarshalTo(data[prefixSize:])
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if err != nil {
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return err
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}
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copy(data, s.prefix)
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_, err = w.Write(data[:prefixSize+uint64(i)])
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return err
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default:
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kind := obj.GetObjectKind().GroupVersionKind()
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unk = runtime.Unknown{
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TypeMeta: runtime.TypeMeta{
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Kind: kind.Kind,
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APIVersion: kind.GroupVersion().String(),
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},
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}
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}
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switch t := obj.(type) {
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case bufferedMarshaller:
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// this path performs a single allocation during write only when the Allocator wasn't provided
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// it also requires the caller to implement the more efficient Size and MarshalToSizedBuffer methods
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encodedSize := uint64(t.Size())
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estimatedSize := prefixSize + estimateUnknownSize(&unk, encodedSize)
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data := memAlloc.Allocate(estimatedSize)
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i, err := unk.NestedMarshalTo(data[prefixSize:], t, encodedSize)
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if err != nil {
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return err
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}
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copy(data, s.prefix)
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_, err = w.Write(data[:prefixSize+uint64(i)])
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return err
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case proto.Marshaler:
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// this path performs extra allocations
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data, err := t.Marshal()
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if err != nil {
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return err
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}
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unk.Raw = data
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estimatedSize := prefixSize + uint64(unk.Size())
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data = memAlloc.Allocate(estimatedSize)
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i, err := unk.MarshalTo(data[prefixSize:])
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if err != nil {
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return err
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}
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copy(data, s.prefix)
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_, err = w.Write(data[:prefixSize+uint64(i)])
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return err
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default:
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// TODO: marshal with a different content type and serializer (JSON for third party objects)
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return errNotMarshalable{reflect.TypeOf(obj)}
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}
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}
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// Identifier implements runtime.Encoder interface.
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func (s *Serializer) Identifier() runtime.Identifier {
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return serializerIdentifier
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}
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// RecognizesData implements the RecognizingDecoder interface.
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func (s *Serializer) RecognizesData(data []byte) (bool, bool, error) {
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return bytes.HasPrefix(data, s.prefix), false, nil
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}
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// copyKindDefaults defaults dst to the value in src if dst does not have a value set.
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func copyKindDefaults(dst, src *schema.GroupVersionKind) {
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if src == nil {
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return
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}
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// apply kind and version defaulting from provided default
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if len(dst.Kind) == 0 {
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dst.Kind = src.Kind
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}
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if len(dst.Version) == 0 && len(src.Version) > 0 {
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dst.Group = src.Group
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dst.Version = src.Version
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}
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}
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// bufferedMarshaller describes a more efficient marshalling interface that can avoid allocating multiple
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// byte buffers by pre-calculating the size of the final buffer needed.
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type bufferedMarshaller interface {
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proto.Sizer
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runtime.ProtobufMarshaller
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}
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// Like bufferedMarshaller, but is able to marshal backwards, which is more efficient since it doesn't call Size() as frequently.
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type bufferedReverseMarshaller interface {
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proto.Sizer
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runtime.ProtobufReverseMarshaller
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}
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// estimateUnknownSize returns the expected bytes consumed by a given runtime.Unknown
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// object with a nil RawJSON struct and the expected size of the provided buffer. The
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// returned size will not be correct if RawJSOn is set on unk.
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func estimateUnknownSize(unk *runtime.Unknown, byteSize uint64) uint64 {
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size := uint64(unk.Size())
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// protobuf uses 1 byte for the tag, a varint for the length of the array (at most 8 bytes - uint64 - here),
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// and the size of the array.
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size += 1 + 8 + byteSize
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return size
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}
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// NewRawSerializer creates a Protobuf serializer that handles encoding versioned objects into the proper wire form. If typer
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// is not nil, the object has the group, version, and kind fields set. This serializer does not provide type information for the
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// encoded object, and thus is not self describing (callers must know what type is being described in order to decode).
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//
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// This encoding scheme is experimental, and is subject to change at any time.
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func NewRawSerializer(creater runtime.ObjectCreater, typer runtime.ObjectTyper) *RawSerializer {
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return &RawSerializer{
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creater: creater,
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typer: typer,
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}
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}
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// RawSerializer encodes and decodes objects without adding a runtime.Unknown wrapper (objects are encoded without identifying
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// type).
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type RawSerializer struct {
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creater runtime.ObjectCreater
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typer runtime.ObjectTyper
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}
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var _ runtime.Serializer = &RawSerializer{}
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const rawSerializerIdentifier runtime.Identifier = "raw-protobuf"
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// Decode attempts to convert the provided data into a protobuf message, extract the stored schema kind, apply the provided default
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// gvk, and then load that data into an object matching the desired schema kind or the provided into. If into is *runtime.Unknown,
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// the raw data will be extracted and no decoding will be performed. If into is not registered with the typer, then the object will
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// be straight decoded using normal protobuf unmarshalling (the MarshalTo interface). If into is provided and the original data is
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// not fully qualified with kind/version/group, the type of the into will be used to alter the returned gvk. On success or most
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// errors, the method will return the calculated schema kind.
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func (s *RawSerializer) Decode(originalData []byte, gvk *schema.GroupVersionKind, into runtime.Object) (runtime.Object, *schema.GroupVersionKind, error) {
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if into == nil {
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return nil, nil, fmt.Errorf("this serializer requires an object to decode into: %#v", s)
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}
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if len(originalData) == 0 {
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// TODO: treat like decoding {} from JSON with defaulting
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return nil, nil, fmt.Errorf("empty data")
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}
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data := originalData
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actual := &schema.GroupVersionKind{}
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copyKindDefaults(actual, gvk)
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if intoUnknown, ok := into.(*runtime.Unknown); ok && intoUnknown != nil {
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intoUnknown.Raw = data
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intoUnknown.ContentEncoding = ""
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intoUnknown.ContentType = runtime.ContentTypeProtobuf
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intoUnknown.SetGroupVersionKind(*actual)
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return intoUnknown, actual, nil
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}
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types, _, err := s.typer.ObjectKinds(into)
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switch {
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case runtime.IsNotRegisteredError(err):
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pb, ok := into.(proto.Message)
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if !ok {
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return nil, actual, errNotMarshalable{reflect.TypeOf(into)}
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}
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if err := proto.Unmarshal(data, pb); err != nil {
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return nil, actual, err
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}
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return into, actual, nil
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case err != nil:
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return nil, actual, err
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default:
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copyKindDefaults(actual, &types[0])
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// if the result of defaulting did not set a version or group, ensure that at least group is set
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// (copyKindDefaults will not assign Group if version is already set). This guarantees that the group
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// of into is set if there is no better information from the caller or object.
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if len(actual.Version) == 0 && len(actual.Group) == 0 {
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actual.Group = types[0].Group
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}
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}
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if len(actual.Kind) == 0 {
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return nil, actual, runtime.NewMissingKindErr("<protobuf encoded body - must provide default type>")
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}
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if len(actual.Version) == 0 {
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return nil, actual, runtime.NewMissingVersionErr("<protobuf encoded body - must provide default type>")
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}
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return unmarshalToObject(s.typer, s.creater, actual, into, data)
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}
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// unmarshalToObject is the common code between decode in the raw and normal serializer.
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func unmarshalToObject(typer runtime.ObjectTyper, creater runtime.ObjectCreater, actual *schema.GroupVersionKind, into runtime.Object, data []byte) (runtime.Object, *schema.GroupVersionKind, error) {
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// use the target if necessary
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obj, err := runtime.UseOrCreateObject(typer, creater, *actual, into)
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if err != nil {
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return nil, actual, err
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}
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pb, ok := obj.(proto.Message)
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if !ok {
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return nil, actual, errNotMarshalable{reflect.TypeOf(obj)}
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}
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if err := proto.Unmarshal(data, pb); err != nil {
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return nil, actual, err
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}
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if actual != nil {
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obj.GetObjectKind().SetGroupVersionKind(*actual)
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}
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return obj, actual, nil
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}
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// Encode serializes the provided object to the given writer. Overrides is ignored.
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func (s *RawSerializer) Encode(obj runtime.Object, w io.Writer) error {
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return s.encode(obj, w, &runtime.SimpleAllocator{})
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}
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// EncodeWithAllocator writes an object to the provided writer.
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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 (s *RawSerializer) EncodeWithAllocator(obj runtime.Object, w io.Writer, memAlloc runtime.MemoryAllocator) error {
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return s.encode(obj, w, memAlloc)
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}
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func (s *RawSerializer) 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(s.Identifier(), func(obj runtime.Object, w io.Writer) error { return s.doEncode(obj, w, memAlloc) }, w)
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}
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return s.doEncode(obj, w, memAlloc)
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}
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func (s *RawSerializer) doEncode(obj runtime.Object, w io.Writer, memAlloc runtime.MemoryAllocator) error {
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if memAlloc == nil {
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klog.Error("a mandatory memory allocator wasn't provided, this might have a negative impact on performance, check invocations of EncodeWithAllocator method, falling back on runtime.SimpleAllocator")
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memAlloc = &runtime.SimpleAllocator{}
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}
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switch t := obj.(type) {
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case bufferedReverseMarshaller:
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// this path performs a single allocation during write only when the Allocator wasn't provided
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// it also requires the caller to implement the more efficient Size and MarshalToSizedBuffer methods
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encodedSize := uint64(t.Size())
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data := memAlloc.Allocate(encodedSize)
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n, err := t.MarshalToSizedBuffer(data)
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if err != nil {
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return err
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}
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_, err = w.Write(data[:n])
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return err
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case bufferedMarshaller:
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// this path performs a single allocation during write only when the Allocator wasn't provided
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// it also requires the caller to implement the more efficient Size and MarshalTo methods
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encodedSize := uint64(t.Size())
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data := memAlloc.Allocate(encodedSize)
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n, err := t.MarshalTo(data)
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if err != nil {
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return err
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}
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_, err = w.Write(data[:n])
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return err
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case proto.Marshaler:
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// this path performs extra allocations
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data, err := t.Marshal()
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if err != nil {
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return err
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}
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_, err = w.Write(data)
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return err
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default:
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return errNotMarshalable{reflect.TypeOf(obj)}
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}
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}
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// Identifier implements runtime.Encoder interface.
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func (s *RawSerializer) Identifier() runtime.Identifier {
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return rawSerializerIdentifier
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}
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// LengthDelimitedFramer is exported variable of type lengthDelimitedFramer
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var LengthDelimitedFramer = lengthDelimitedFramer{}
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|
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// Provides length delimited frame reader and writer methods
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type lengthDelimitedFramer struct{}
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// NewFrameWriter implements stream framing for this serializer
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func (lengthDelimitedFramer) NewFrameWriter(w io.Writer) io.Writer {
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|
return framer.NewLengthDelimitedFrameWriter(w)
|
|
}
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// NewFrameReader implements stream framing for this serializer
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|
func (lengthDelimitedFramer) NewFrameReader(r io.ReadCloser) io.ReadCloser {
|
|
return framer.NewLengthDelimitedFrameReader(r)
|
|
}
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