ceph-csi/vendor/k8s.io/apimachinery/pkg/runtime/converter.go

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/*
Copyright 2017 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 runtime
import (
encodingjson "encoding/json"
"fmt"
"math"
"os"
"reflect"
"sort"
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"strconv"
"strings"
"sync"
"sync/atomic"
"time"
"k8s.io/apimachinery/pkg/conversion"
"k8s.io/apimachinery/pkg/util/json"
utilruntime "k8s.io/apimachinery/pkg/util/runtime"
"sigs.k8s.io/structured-merge-diff/v4/value"
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"k8s.io/klog/v2"
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)
// UnstructuredConverter is an interface for converting between interface{}
// and map[string]interface representation.
type UnstructuredConverter interface {
ToUnstructured(obj interface{}) (map[string]interface{}, error)
FromUnstructured(u map[string]interface{}, obj interface{}) error
}
type structField struct {
structType reflect.Type
field int
}
type fieldInfo struct {
name string
nameValue reflect.Value
omitempty bool
}
type fieldsCacheMap map[structField]*fieldInfo
type fieldsCache struct {
sync.Mutex
value atomic.Value
}
func newFieldsCache() *fieldsCache {
cache := &fieldsCache{}
cache.value.Store(make(fieldsCacheMap))
return cache
}
var (
mapStringInterfaceType = reflect.TypeOf(map[string]interface{}{})
stringType = reflect.TypeOf(string(""))
fieldCache = newFieldsCache()
// DefaultUnstructuredConverter performs unstructured to Go typed object conversions.
DefaultUnstructuredConverter = &unstructuredConverter{
mismatchDetection: parseBool(os.Getenv("KUBE_PATCH_CONVERSION_DETECTOR")),
comparison: conversion.EqualitiesOrDie(
func(a, b time.Time) bool {
return a.UTC() == b.UTC()
},
),
}
)
func parseBool(key string) bool {
if len(key) == 0 {
return false
}
value, err := strconv.ParseBool(key)
if err != nil {
utilruntime.HandleError(fmt.Errorf("couldn't parse '%s' as bool for unstructured mismatch detection", key))
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}
return value
}
// unstructuredConverter knows how to convert between interface{} and
// Unstructured in both ways.
type unstructuredConverter struct {
// If true, we will be additionally running conversion via json
// to ensure that the result is true.
// This is supposed to be set only in tests.
mismatchDetection bool
// comparison is the default test logic used to compare
comparison conversion.Equalities
}
// NewTestUnstructuredConverter creates an UnstructuredConverter that accepts JSON typed maps and translates them
// to Go types via reflection. It performs mismatch detection automatically and is intended for use by external
// test tools. Use DefaultUnstructuredConverter if you do not explicitly need mismatch detection.
func NewTestUnstructuredConverter(comparison conversion.Equalities) UnstructuredConverter {
return NewTestUnstructuredConverterWithValidation(comparison)
}
// NewTestUnstrucutredConverterWithValidation allows for access to
// FromUnstructuredWithValidation from within tests.
func NewTestUnstructuredConverterWithValidation(comparison conversion.Equalities) *unstructuredConverter {
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return &unstructuredConverter{
mismatchDetection: true,
comparison: comparison,
}
}
// fromUnstructuredContext provides options for informing the converter
// the state of its recursive walk through the conversion process.
type fromUnstructuredContext struct {
// isInlined indicates whether the converter is currently in
// an inlined field or not to determine whether it should
// validate the matchedKeys yet or only collect them.
// This should only be set from `structFromUnstructured`
isInlined bool
// matchedKeys is a stack of the set of all fields that exist in the
// concrete go type of the object being converted into.
// This should only be manipulated via `pushMatchedKeyTracker`,
// `recordMatchedKey`, or `popAndVerifyMatchedKeys`
matchedKeys []map[string]struct{}
// parentPath collects the path that the conversion
// takes as it traverses the unstructured json map.
// It is used to report the full path to any unknown
// fields that the converter encounters.
parentPath []string
// returnUnknownFields indicates whether or not
// unknown field errors should be collected and
// returned to the caller
returnUnknownFields bool
// unknownFieldErrors are the collection of
// the full path to each unknown field in the
// object.
unknownFieldErrors []error
}
// pushMatchedKeyTracker adds a placeholder set for tracking
// matched keys for the given level. This should only be
// called from `structFromUnstructured`.
func (c *fromUnstructuredContext) pushMatchedKeyTracker() {
if !c.returnUnknownFields {
return
}
c.matchedKeys = append(c.matchedKeys, nil)
}
// recordMatchedKey initializes the last element of matchedKeys
// (if needed) and sets 'key'. This should only be called from
// `structFromUnstructured`.
func (c *fromUnstructuredContext) recordMatchedKey(key string) {
if !c.returnUnknownFields {
return
}
last := len(c.matchedKeys) - 1
if c.matchedKeys[last] == nil {
c.matchedKeys[last] = map[string]struct{}{}
}
c.matchedKeys[last][key] = struct{}{}
}
// popAndVerifyMatchedKeys pops the last element of matchedKeys,
// checks the matched keys against the data, and adds unknown
// field errors for any matched keys.
// `mapValue` is the value of sv containing all of the keys that exist at this level
// (ie. sv.MapKeys) in the source data.
// `matchedKeys` are all the keys found for that level in the destination object.
// This should only be called from `structFromUnstructured`.
func (c *fromUnstructuredContext) popAndVerifyMatchedKeys(mapValue reflect.Value) {
if !c.returnUnknownFields {
return
}
last := len(c.matchedKeys) - 1
curMatchedKeys := c.matchedKeys[last]
c.matchedKeys[last] = nil
c.matchedKeys = c.matchedKeys[:last]
for _, key := range mapValue.MapKeys() {
if _, ok := curMatchedKeys[key.String()]; !ok {
c.recordUnknownField(key.String())
}
}
}
func (c *fromUnstructuredContext) recordUnknownField(field string) {
if !c.returnUnknownFields {
return
}
pathLen := len(c.parentPath)
c.pushKey(field)
errPath := strings.Join(c.parentPath, "")
c.parentPath = c.parentPath[:pathLen]
c.unknownFieldErrors = append(c.unknownFieldErrors, fmt.Errorf(`unknown field "%s"`, errPath))
}
func (c *fromUnstructuredContext) pushIndex(index int) {
if !c.returnUnknownFields {
return
}
c.parentPath = append(c.parentPath, "[", strconv.Itoa(index), "]")
}
func (c *fromUnstructuredContext) pushKey(key string) {
if !c.returnUnknownFields {
return
}
if len(c.parentPath) > 0 {
c.parentPath = append(c.parentPath, ".")
}
c.parentPath = append(c.parentPath, key)
}
// FromUnstructuredWIthValidation converts an object from map[string]interface{} representation into a concrete type.
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// It uses encoding/json/Unmarshaler if object implements it or reflection if not.
// It takes a validationDirective that indicates how to behave when it encounters unknown fields.
func (c *unstructuredConverter) FromUnstructuredWithValidation(u map[string]interface{}, obj interface{}, returnUnknownFields bool) error {
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t := reflect.TypeOf(obj)
value := reflect.ValueOf(obj)
if t.Kind() != reflect.Pointer || value.IsNil() {
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return fmt.Errorf("FromUnstructured requires a non-nil pointer to an object, got %v", t)
}
fromUnstructuredContext := &fromUnstructuredContext{
returnUnknownFields: returnUnknownFields,
}
err := fromUnstructured(reflect.ValueOf(u), value.Elem(), fromUnstructuredContext)
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if c.mismatchDetection {
newObj := reflect.New(t.Elem()).Interface()
newErr := fromUnstructuredViaJSON(u, newObj)
if (err != nil) != (newErr != nil) {
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klog.Fatalf("FromUnstructured unexpected error for %v: error: %v", u, err)
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}
if err == nil && !c.comparison.DeepEqual(obj, newObj) {
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klog.Fatalf("FromUnstructured mismatch\nobj1: %#v\nobj2: %#v", obj, newObj)
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}
}
if err != nil {
return err
}
if returnUnknownFields && len(fromUnstructuredContext.unknownFieldErrors) > 0 {
sort.Slice(fromUnstructuredContext.unknownFieldErrors, func(i, j int) bool {
return fromUnstructuredContext.unknownFieldErrors[i].Error() <
fromUnstructuredContext.unknownFieldErrors[j].Error()
})
return NewStrictDecodingError(fromUnstructuredContext.unknownFieldErrors)
}
return nil
}
// FromUnstructured converts an object from map[string]interface{} representation into a concrete type.
// It uses encoding/json/Unmarshaler if object implements it or reflection if not.
func (c *unstructuredConverter) FromUnstructured(u map[string]interface{}, obj interface{}) error {
return c.FromUnstructuredWithValidation(u, obj, false)
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}
func fromUnstructuredViaJSON(u map[string]interface{}, obj interface{}) error {
data, err := json.Marshal(u)
if err != nil {
return err
}
return json.Unmarshal(data, obj)
}
func fromUnstructured(sv, dv reflect.Value, ctx *fromUnstructuredContext) error {
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sv = unwrapInterface(sv)
if !sv.IsValid() {
dv.Set(reflect.Zero(dv.Type()))
return nil
}
st, dt := sv.Type(), dv.Type()
switch dt.Kind() {
case reflect.Map, reflect.Slice, reflect.Pointer, reflect.Struct, reflect.Interface:
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// Those require non-trivial conversion.
default:
// This should handle all simple types.
if st.AssignableTo(dt) {
dv.Set(sv)
return nil
}
// We cannot simply use "ConvertibleTo", as JSON doesn't support conversions
// between those four groups: bools, integers, floats and string. We need to
// do the same.
if st.ConvertibleTo(dt) {
switch st.Kind() {
case reflect.String:
switch dt.Kind() {
case reflect.String:
dv.Set(sv.Convert(dt))
return nil
}
case reflect.Bool:
switch dt.Kind() {
case reflect.Bool:
dv.Set(sv.Convert(dt))
return nil
}
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64,
reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
switch dt.Kind() {
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64,
reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
dv.Set(sv.Convert(dt))
return nil
case reflect.Float32, reflect.Float64:
dv.Set(sv.Convert(dt))
return nil
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}
case reflect.Float32, reflect.Float64:
switch dt.Kind() {
case reflect.Float32, reflect.Float64:
dv.Set(sv.Convert(dt))
return nil
}
if sv.Float() == math.Trunc(sv.Float()) {
dv.Set(sv.Convert(dt))
return nil
}
}
return fmt.Errorf("cannot convert %s to %s", st.String(), dt.String())
}
}
// Check if the object has a custom JSON marshaller/unmarshaller.
entry := value.TypeReflectEntryOf(dv.Type())
if entry.CanConvertFromUnstructured() {
return entry.FromUnstructured(sv, dv)
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}
switch dt.Kind() {
case reflect.Map:
return mapFromUnstructured(sv, dv, ctx)
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case reflect.Slice:
return sliceFromUnstructured(sv, dv, ctx)
case reflect.Pointer:
return pointerFromUnstructured(sv, dv, ctx)
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case reflect.Struct:
return structFromUnstructured(sv, dv, ctx)
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case reflect.Interface:
return interfaceFromUnstructured(sv, dv)
default:
return fmt.Errorf("unrecognized type: %v", dt.Kind())
}
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}
func fieldInfoFromField(structType reflect.Type, field int) *fieldInfo {
fieldCacheMap := fieldCache.value.Load().(fieldsCacheMap)
if info, ok := fieldCacheMap[structField{structType, field}]; ok {
return info
}
// Cache miss - we need to compute the field name.
info := &fieldInfo{}
typeField := structType.Field(field)
jsonTag := typeField.Tag.Get("json")
if len(jsonTag) == 0 {
// Make the first character lowercase.
if typeField.Name == "" {
info.name = typeField.Name
} else {
info.name = strings.ToLower(typeField.Name[:1]) + typeField.Name[1:]
}
} else {
items := strings.Split(jsonTag, ",")
info.name = items[0]
for i := range items {
if items[i] == "omitempty" {
info.omitempty = true
break
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}
}
}
info.nameValue = reflect.ValueOf(info.name)
fieldCache.Lock()
defer fieldCache.Unlock()
fieldCacheMap = fieldCache.value.Load().(fieldsCacheMap)
newFieldCacheMap := make(fieldsCacheMap)
for k, v := range fieldCacheMap {
newFieldCacheMap[k] = v
}
newFieldCacheMap[structField{structType, field}] = info
fieldCache.value.Store(newFieldCacheMap)
return info
}
func unwrapInterface(v reflect.Value) reflect.Value {
for v.Kind() == reflect.Interface {
v = v.Elem()
}
return v
}
func mapFromUnstructured(sv, dv reflect.Value, ctx *fromUnstructuredContext) error {
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st, dt := sv.Type(), dv.Type()
if st.Kind() != reflect.Map {
return fmt.Errorf("cannot restore map from %v", st.Kind())
}
if !st.Key().AssignableTo(dt.Key()) && !st.Key().ConvertibleTo(dt.Key()) {
return fmt.Errorf("cannot copy map with non-assignable keys: %v %v", st.Key(), dt.Key())
}
if sv.IsNil() {
dv.Set(reflect.Zero(dt))
return nil
}
dv.Set(reflect.MakeMap(dt))
for _, key := range sv.MapKeys() {
value := reflect.New(dt.Elem()).Elem()
if val := unwrapInterface(sv.MapIndex(key)); val.IsValid() {
if err := fromUnstructured(val, value, ctx); err != nil {
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return err
}
} else {
value.Set(reflect.Zero(dt.Elem()))
}
if st.Key().AssignableTo(dt.Key()) {
dv.SetMapIndex(key, value)
} else {
dv.SetMapIndex(key.Convert(dt.Key()), value)
}
}
return nil
}
func sliceFromUnstructured(sv, dv reflect.Value, ctx *fromUnstructuredContext) error {
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st, dt := sv.Type(), dv.Type()
if st.Kind() == reflect.String && dt.Elem().Kind() == reflect.Uint8 {
// We store original []byte representation as string.
// This conversion is allowed, but we need to be careful about
// marshaling data appropriately.
if len(sv.Interface().(string)) > 0 {
marshalled, err := json.Marshal(sv.Interface())
if err != nil {
return fmt.Errorf("error encoding %s to json: %v", st, err)
}
// TODO: Is this Unmarshal needed?
var data []byte
err = json.Unmarshal(marshalled, &data)
if err != nil {
return fmt.Errorf("error decoding from json: %v", err)
}
dv.SetBytes(data)
} else {
dv.Set(reflect.Zero(dt))
}
return nil
}
if st.Kind() != reflect.Slice {
return fmt.Errorf("cannot restore slice from %v", st.Kind())
}
if sv.IsNil() {
dv.Set(reflect.Zero(dt))
return nil
}
dv.Set(reflect.MakeSlice(dt, sv.Len(), sv.Cap()))
pathLen := len(ctx.parentPath)
defer func() {
ctx.parentPath = ctx.parentPath[:pathLen]
}()
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for i := 0; i < sv.Len(); i++ {
ctx.pushIndex(i)
if err := fromUnstructured(sv.Index(i), dv.Index(i), ctx); err != nil {
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return err
}
ctx.parentPath = ctx.parentPath[:pathLen]
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}
return nil
}
func pointerFromUnstructured(sv, dv reflect.Value, ctx *fromUnstructuredContext) error {
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st, dt := sv.Type(), dv.Type()
if st.Kind() == reflect.Pointer && sv.IsNil() {
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dv.Set(reflect.Zero(dt))
return nil
}
dv.Set(reflect.New(dt.Elem()))
switch st.Kind() {
case reflect.Pointer, reflect.Interface:
return fromUnstructured(sv.Elem(), dv.Elem(), ctx)
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default:
return fromUnstructured(sv, dv.Elem(), ctx)
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}
}
func structFromUnstructured(sv, dv reflect.Value, ctx *fromUnstructuredContext) error {
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st, dt := sv.Type(), dv.Type()
if st.Kind() != reflect.Map {
return fmt.Errorf("cannot restore struct from: %v", st.Kind())
}
pathLen := len(ctx.parentPath)
svInlined := ctx.isInlined
defer func() {
ctx.parentPath = ctx.parentPath[:pathLen]
ctx.isInlined = svInlined
}()
if !svInlined {
ctx.pushMatchedKeyTracker()
}
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for i := 0; i < dt.NumField(); i++ {
fieldInfo := fieldInfoFromField(dt, i)
fv := dv.Field(i)
if len(fieldInfo.name) == 0 {
// This field is inlined, recurse into fromUnstructured again
// with the same set of matched keys.
ctx.isInlined = true
if err := fromUnstructured(sv, fv, ctx); err != nil {
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return err
}
ctx.isInlined = svInlined
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} else {
// This field is not inlined so we recurse into
// child field of sv corresponding to field i of
// dv, with a new set of matchedKeys and updating
// the parentPath to indicate that we are one level
// deeper.
ctx.recordMatchedKey(fieldInfo.name)
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value := unwrapInterface(sv.MapIndex(fieldInfo.nameValue))
if value.IsValid() {
ctx.isInlined = false
ctx.pushKey(fieldInfo.name)
if err := fromUnstructured(value, fv, ctx); err != nil {
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return err
}
ctx.parentPath = ctx.parentPath[:pathLen]
ctx.isInlined = svInlined
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} else {
fv.Set(reflect.Zero(fv.Type()))
}
}
}
if !svInlined {
ctx.popAndVerifyMatchedKeys(sv)
}
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return nil
}
func interfaceFromUnstructured(sv, dv reflect.Value) error {
// TODO: Is this conversion safe?
dv.Set(sv)
return nil
}
// ToUnstructured converts an object into map[string]interface{} representation.
// It uses encoding/json/Marshaler if object implements it or reflection if not.
func (c *unstructuredConverter) ToUnstructured(obj interface{}) (map[string]interface{}, error) {
var u map[string]interface{}
var err error
if unstr, ok := obj.(Unstructured); ok {
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u = unstr.UnstructuredContent()
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} else {
t := reflect.TypeOf(obj)
value := reflect.ValueOf(obj)
if t.Kind() != reflect.Pointer || value.IsNil() {
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return nil, fmt.Errorf("ToUnstructured requires a non-nil pointer to an object, got %v", t)
}
u = map[string]interface{}{}
err = toUnstructured(value.Elem(), reflect.ValueOf(&u).Elem())
}
if c.mismatchDetection {
newUnstr := map[string]interface{}{}
newErr := toUnstructuredViaJSON(obj, &newUnstr)
if (err != nil) != (newErr != nil) {
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klog.Fatalf("ToUnstructured unexpected error for %v: error: %v; newErr: %v", obj, err, newErr)
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}
if err == nil && !c.comparison.DeepEqual(u, newUnstr) {
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klog.Fatalf("ToUnstructured mismatch\nobj1: %#v\nobj2: %#v", u, newUnstr)
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}
}
if err != nil {
return nil, err
}
return u, nil
}
// DeepCopyJSON deep copies the passed value, assuming it is a valid JSON representation i.e. only contains
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// types produced by json.Unmarshal() and also int64.
// bool, int64, float64, string, []interface{}, map[string]interface{}, json.Number and nil
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func DeepCopyJSON(x map[string]interface{}) map[string]interface{} {
return DeepCopyJSONValue(x).(map[string]interface{})
}
// DeepCopyJSONValue deep copies the passed value, assuming it is a valid JSON representation i.e. only contains
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// types produced by json.Unmarshal() and also int64.
// bool, int64, float64, string, []interface{}, map[string]interface{}, json.Number and nil
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func DeepCopyJSONValue(x interface{}) interface{} {
switch x := x.(type) {
case map[string]interface{}:
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if x == nil {
// Typed nil - an interface{} that contains a type map[string]interface{} with a value of nil
return x
}
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clone := make(map[string]interface{}, len(x))
for k, v := range x {
clone[k] = DeepCopyJSONValue(v)
}
return clone
case []interface{}:
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if x == nil {
// Typed nil - an interface{} that contains a type []interface{} with a value of nil
return x
}
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clone := make([]interface{}, len(x))
for i, v := range x {
clone[i] = DeepCopyJSONValue(v)
}
return clone
case string, int64, bool, float64, nil, encodingjson.Number:
return x
default:
panic(fmt.Errorf("cannot deep copy %T", x))
}
}
func toUnstructuredViaJSON(obj interface{}, u *map[string]interface{}) error {
data, err := json.Marshal(obj)
if err != nil {
return err
}
return json.Unmarshal(data, u)
}
func toUnstructured(sv, dv reflect.Value) error {
// Check if the object has a custom string converter.
entry := value.TypeReflectEntryOf(sv.Type())
if entry.CanConvertToUnstructured() {
v, err := entry.ToUnstructured(sv)
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if err != nil {
return err
}
if v != nil {
dv.Set(reflect.ValueOf(v))
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}
return nil
}
st := sv.Type()
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switch st.Kind() {
case reflect.String:
dv.Set(reflect.ValueOf(sv.String()))
return nil
case reflect.Bool:
dv.Set(reflect.ValueOf(sv.Bool()))
return nil
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
dv.Set(reflect.ValueOf(sv.Int()))
return nil
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
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uVal := sv.Uint()
if uVal > math.MaxInt64 {
return fmt.Errorf("unsigned value %d does not fit into int64 (overflow)", uVal)
}
dv.Set(reflect.ValueOf(int64(uVal)))
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return nil
case reflect.Float32, reflect.Float64:
dv.Set(reflect.ValueOf(sv.Float()))
return nil
case reflect.Map:
return mapToUnstructured(sv, dv)
case reflect.Slice:
return sliceToUnstructured(sv, dv)
case reflect.Pointer:
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return pointerToUnstructured(sv, dv)
case reflect.Struct:
return structToUnstructured(sv, dv)
case reflect.Interface:
return interfaceToUnstructured(sv, dv)
default:
return fmt.Errorf("unrecognized type: %v", st.Kind())
}
}
func mapToUnstructured(sv, dv reflect.Value) error {
st, dt := sv.Type(), dv.Type()
if sv.IsNil() {
dv.Set(reflect.Zero(dt))
return nil
}
if dt.Kind() == reflect.Interface && dv.NumMethod() == 0 {
if st.Key().Kind() == reflect.String {
dv.Set(reflect.MakeMap(mapStringInterfaceType))
dv = dv.Elem()
dt = dv.Type()
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}
}
if dt.Kind() != reflect.Map {
return fmt.Errorf("cannot convert map to: %v", dt.Kind())
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}
if !st.Key().AssignableTo(dt.Key()) && !st.Key().ConvertibleTo(dt.Key()) {
return fmt.Errorf("cannot copy map with non-assignable keys: %v %v", st.Key(), dt.Key())
}
for _, key := range sv.MapKeys() {
value := reflect.New(dt.Elem()).Elem()
if err := toUnstructured(sv.MapIndex(key), value); err != nil {
return err
}
if st.Key().AssignableTo(dt.Key()) {
dv.SetMapIndex(key, value)
} else {
dv.SetMapIndex(key.Convert(dt.Key()), value)
}
}
return nil
}
func sliceToUnstructured(sv, dv reflect.Value) error {
st, dt := sv.Type(), dv.Type()
if sv.IsNil() {
dv.Set(reflect.Zero(dt))
return nil
}
if st.Elem().Kind() == reflect.Uint8 {
dv.Set(reflect.New(stringType))
data, err := json.Marshal(sv.Bytes())
if err != nil {
return err
}
var result string
if err = json.Unmarshal(data, &result); err != nil {
return err
}
dv.Set(reflect.ValueOf(result))
return nil
}
if dt.Kind() == reflect.Interface && dv.NumMethod() == 0 {
dv.Set(reflect.MakeSlice(reflect.SliceOf(dt), sv.Len(), sv.Cap()))
dv = dv.Elem()
dt = dv.Type()
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}
if dt.Kind() != reflect.Slice {
return fmt.Errorf("cannot convert slice to: %v", dt.Kind())
}
for i := 0; i < sv.Len(); i++ {
if err := toUnstructured(sv.Index(i), dv.Index(i)); err != nil {
return err
}
}
return nil
}
func pointerToUnstructured(sv, dv reflect.Value) error {
if sv.IsNil() {
// We're done - we don't need to store anything.
return nil
}
return toUnstructured(sv.Elem(), dv)
}
func isZero(v reflect.Value) bool {
switch v.Kind() {
case reflect.Array, reflect.String:
return v.Len() == 0
case reflect.Bool:
return !v.Bool()
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
return v.Int() == 0
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
return v.Uint() == 0
case reflect.Float32, reflect.Float64:
return v.Float() == 0
case reflect.Map, reflect.Slice:
// TODO: It seems that 0-len maps are ignored in it.
return v.IsNil() || v.Len() == 0
case reflect.Pointer, reflect.Interface:
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return v.IsNil()
}
return false
}
func structToUnstructured(sv, dv reflect.Value) error {
st, dt := sv.Type(), dv.Type()
if dt.Kind() == reflect.Interface && dv.NumMethod() == 0 {
dv.Set(reflect.MakeMapWithSize(mapStringInterfaceType, st.NumField()))
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dv = dv.Elem()
dt = dv.Type()
}
if dt.Kind() != reflect.Map {
return fmt.Errorf("cannot convert struct to: %v", dt.Kind())
}
realMap := dv.Interface().(map[string]interface{})
for i := 0; i < st.NumField(); i++ {
fieldInfo := fieldInfoFromField(st, i)
fv := sv.Field(i)
if fieldInfo.name == "-" {
// This field should be skipped.
continue
}
if fieldInfo.omitempty && isZero(fv) {
// omitempty fields should be ignored.
continue
}
if len(fieldInfo.name) == 0 {
// This field is inlined.
if err := toUnstructured(fv, dv); err != nil {
return err
}
continue
}
switch fv.Type().Kind() {
case reflect.String:
realMap[fieldInfo.name] = fv.String()
case reflect.Bool:
realMap[fieldInfo.name] = fv.Bool()
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
realMap[fieldInfo.name] = fv.Int()
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64:
realMap[fieldInfo.name] = fv.Uint()
case reflect.Float32, reflect.Float64:
realMap[fieldInfo.name] = fv.Float()
default:
subv := reflect.New(dt.Elem()).Elem()
if err := toUnstructured(fv, subv); err != nil {
return err
}
dv.SetMapIndex(fieldInfo.nameValue, subv)
}
}
return nil
}
func interfaceToUnstructured(sv, dv reflect.Value) error {
if !sv.IsValid() || sv.IsNil() {
dv.Set(reflect.Zero(dv.Type()))
return nil
}
return toUnstructured(sv.Elem(), dv)
}