ceph-csi/vendor/github.com/fxamacker/cbor/v2/cache.go

// Copyright (c) Faye Amacker. All rights reserved.
// Licensed under the MIT License. See LICENSE in the project root for license information.

package cbor

import (
	"bytes"
	"errors"
	"fmt"
	"reflect"
	"sort"
	"strconv"
	"strings"
	"sync"
)

type encodeFuncs struct {
	ef  encodeFunc
	ief isEmptyFunc
}

var (
	decodingStructTypeCache sync.Map // map[reflect.Type]*decodingStructType
	encodingStructTypeCache sync.Map // map[reflect.Type]*encodingStructType
	encodeFuncCache         sync.Map // map[reflect.Type]encodeFuncs
	typeInfoCache           sync.Map // map[reflect.Type]*typeInfo
)

type specialType int

const (
	specialTypeNone specialType = iota
	specialTypeUnmarshalerIface
	specialTypeEmptyIface
	specialTypeIface
	specialTypeTag
	specialTypeTime
)

type typeInfo struct {
	elemTypeInfo *typeInfo
	keyTypeInfo  *typeInfo
	typ          reflect.Type
	kind         reflect.Kind
	nonPtrType   reflect.Type
	nonPtrKind   reflect.Kind
	spclType     specialType
}

func newTypeInfo(t reflect.Type) *typeInfo {
	tInfo := typeInfo{typ: t, kind: t.Kind()}

	for t.Kind() == reflect.Ptr {
		t = t.Elem()
	}

	k := t.Kind()

	tInfo.nonPtrType = t
	tInfo.nonPtrKind = k

	if k == reflect.Interface {
		if t.NumMethod() == 0 {
			tInfo.spclType = specialTypeEmptyIface
		} else {
			tInfo.spclType = specialTypeIface
		}
	} else if t == typeTag {
		tInfo.spclType = specialTypeTag
	} else if t == typeTime {
		tInfo.spclType = specialTypeTime
	} else if reflect.PtrTo(t).Implements(typeUnmarshaler) {
		tInfo.spclType = specialTypeUnmarshalerIface
	}

	switch k {
	case reflect.Array, reflect.Slice:
		tInfo.elemTypeInfo = getTypeInfo(t.Elem())
	case reflect.Map:
		tInfo.keyTypeInfo = getTypeInfo(t.Key())
		tInfo.elemTypeInfo = getTypeInfo(t.Elem())
	}

	return &tInfo
}

type decodingStructType struct {
	fields             fields
	fieldIndicesByName map[string]int
	err                error
	toArray            bool
}

// The stdlib errors.Join was introduced in Go 1.20, and we still support Go 1.17, so instead,
// here's a very basic implementation of an aggregated error.
type multierror []error

func (m multierror) Error() string {
	var sb strings.Builder
	for i, err := range m {
		sb.WriteString(err.Error())
		if i < len(m)-1 {
			sb.WriteString(", ")
		}
	}
	return sb.String()
}

func getDecodingStructType(t reflect.Type) *decodingStructType {
	if v, _ := decodingStructTypeCache.Load(t); v != nil {
		return v.(*decodingStructType)
	}

	flds, structOptions := getFields(t)

	toArray := hasToArrayOption(structOptions)

	var errs []error
	for i := 0; i < len(flds); i++ {
		if flds[i].keyAsInt {
			nameAsInt, numErr := strconv.Atoi(flds[i].name)
			if numErr != nil {
				errs = append(errs, errors.New("cbor: failed to parse field name \""+flds[i].name+"\" to int ("+numErr.Error()+")"))
				break
			}
			flds[i].nameAsInt = int64(nameAsInt)
		}

		flds[i].typInfo = getTypeInfo(flds[i].typ)
	}

	fieldIndicesByName := make(map[string]int, len(flds))
	for i, fld := range flds {
		if _, ok := fieldIndicesByName[fld.name]; ok {
			errs = append(errs, fmt.Errorf("cbor: two or more fields of %v have the same name %q", t, fld.name))
			continue
		}
		fieldIndicesByName[fld.name] = i
	}

	var err error
	{
		var multi multierror
		for _, each := range errs {
			if each != nil {
				multi = append(multi, each)
			}
		}
		if len(multi) == 1 {
			err = multi[0]
		} else if len(multi) > 1 {
			err = multi
		}
	}

	structType := &decodingStructType{
		fields:             flds,
		fieldIndicesByName: fieldIndicesByName,
		err:                err,
		toArray:            toArray,
	}
	decodingStructTypeCache.Store(t, structType)
	return structType
}

type encodingStructType struct {
	fields             fields
	bytewiseFields     fields
	lengthFirstFields  fields
	omitEmptyFieldsIdx []int
	err                error
	toArray            bool
}

func (st *encodingStructType) getFields(em *encMode) fields {
	switch em.sort {
	case SortNone, SortFastShuffle:
		return st.fields
	case SortLengthFirst:
		return st.lengthFirstFields
	default:
		return st.bytewiseFields
	}
}

type bytewiseFieldSorter struct {
	fields fields
}

func (x *bytewiseFieldSorter) Len() int {
	return len(x.fields)
}

func (x *bytewiseFieldSorter) Swap(i, j int) {
	x.fields[i], x.fields[j] = x.fields[j], x.fields[i]
}

func (x *bytewiseFieldSorter) Less(i, j int) bool {
	return bytes.Compare(x.fields[i].cborName, x.fields[j].cborName) <= 0
}

type lengthFirstFieldSorter struct {
	fields fields
}

func (x *lengthFirstFieldSorter) Len() int {
	return len(x.fields)
}

func (x *lengthFirstFieldSorter) Swap(i, j int) {
	x.fields[i], x.fields[j] = x.fields[j], x.fields[i]
}

func (x *lengthFirstFieldSorter) Less(i, j int) bool {
	if len(x.fields[i].cborName) != len(x.fields[j].cborName) {
		return len(x.fields[i].cborName) < len(x.fields[j].cborName)
	}
	return bytes.Compare(x.fields[i].cborName, x.fields[j].cborName) <= 0
}

func getEncodingStructType(t reflect.Type) (*encodingStructType, error) {
	if v, _ := encodingStructTypeCache.Load(t); v != nil {
		structType := v.(*encodingStructType)
		return structType, structType.err
	}

	flds, structOptions := getFields(t)

	if hasToArrayOption(structOptions) {
		return getEncodingStructToArrayType(t, flds)
	}

	var err error
	var hasKeyAsInt bool
	var hasKeyAsStr bool
	var omitEmptyIdx []int
	e := getEncodeBuffer()
	for i := 0; i < len(flds); i++ {
		// Get field's encodeFunc
		flds[i].ef, flds[i].ief = getEncodeFunc(flds[i].typ)
		if flds[i].ef == nil {
			err = &UnsupportedTypeError{t}
			break
		}

		// Encode field name
		if flds[i].keyAsInt {
			nameAsInt, numErr := strconv.Atoi(flds[i].name)
			if numErr != nil {
				err = errors.New("cbor: failed to parse field name \"" + flds[i].name + "\" to int (" + numErr.Error() + ")")
				break
			}
			flds[i].nameAsInt = int64(nameAsInt)
			if nameAsInt >= 0 {
				encodeHead(e, byte(cborTypePositiveInt), uint64(nameAsInt))
			} else {
				n := nameAsInt*(-1) - 1
				encodeHead(e, byte(cborTypeNegativeInt), uint64(n))
			}
			flds[i].cborName = make([]byte, e.Len())
			copy(flds[i].cborName, e.Bytes())
			e.Reset()

			hasKeyAsInt = true
		} else {
			encodeHead(e, byte(cborTypeTextString), uint64(len(flds[i].name)))
			flds[i].cborName = make([]byte, e.Len()+len(flds[i].name))
			n := copy(flds[i].cborName, e.Bytes())
			copy(flds[i].cborName[n:], flds[i].name)
			e.Reset()

			// If cborName contains a text string, then cborNameByteString contains a
			// string that has the byte string major type but is otherwise identical to
			// cborName.
			flds[i].cborNameByteString = make([]byte, len(flds[i].cborName))
			copy(flds[i].cborNameByteString, flds[i].cborName)
			// Reset encoded CBOR type to byte string, preserving the "additional
			// information" bits:
			flds[i].cborNameByteString[0] = byte(cborTypeByteString) |
				getAdditionalInformation(flds[i].cborNameByteString[0])

			hasKeyAsStr = true
		}

		// Check if field can be omitted when empty
		if flds[i].omitEmpty {
			omitEmptyIdx = append(omitEmptyIdx, i)
		}
	}
	putEncodeBuffer(e)

	if err != nil {
		structType := &encodingStructType{err: err}
		encodingStructTypeCache.Store(t, structType)
		return structType, structType.err
	}

	// Sort fields by canonical order
	bytewiseFields := make(fields, len(flds))
	copy(bytewiseFields, flds)
	sort.Sort(&bytewiseFieldSorter{bytewiseFields})

	lengthFirstFields := bytewiseFields
	if hasKeyAsInt && hasKeyAsStr {
		lengthFirstFields = make(fields, len(flds))
		copy(lengthFirstFields, flds)
		sort.Sort(&lengthFirstFieldSorter{lengthFirstFields})
	}

	structType := &encodingStructType{
		fields:             flds,
		bytewiseFields:     bytewiseFields,
		lengthFirstFields:  lengthFirstFields,
		omitEmptyFieldsIdx: omitEmptyIdx,
	}

	encodingStructTypeCache.Store(t, structType)
	return structType, structType.err
}

func getEncodingStructToArrayType(t reflect.Type, flds fields) (*encodingStructType, error) {
	for i := 0; i < len(flds); i++ {
		// Get field's encodeFunc
		flds[i].ef, flds[i].ief = getEncodeFunc(flds[i].typ)
		if flds[i].ef == nil {
			structType := &encodingStructType{err: &UnsupportedTypeError{t}}
			encodingStructTypeCache.Store(t, structType)
			return structType, structType.err
		}
	}

	structType := &encodingStructType{
		fields:  flds,
		toArray: true,
	}
	encodingStructTypeCache.Store(t, structType)
	return structType, structType.err
}

func getEncodeFunc(t reflect.Type) (encodeFunc, isEmptyFunc) {
	if v, _ := encodeFuncCache.Load(t); v != nil {
		fs := v.(encodeFuncs)
		return fs.ef, fs.ief
	}
	ef, ief := getEncodeFuncInternal(t)
	encodeFuncCache.Store(t, encodeFuncs{ef, ief})
	return ef, ief
}

func getTypeInfo(t reflect.Type) *typeInfo {
	if v, _ := typeInfoCache.Load(t); v != nil {
		return v.(*typeInfo)
	}
	tInfo := newTypeInfo(t)
	typeInfoCache.Store(t, tInfo)
	return tInfo
}

func hasToArrayOption(tag string) bool {
	s := ",toarray"
	idx := strings.Index(tag, s)
	return idx >= 0 && (len(tag) == idx+len(s) || tag[idx+len(s)] == ',')
}
rebase: update kubernetes to latest updating the kubernetes release to the latest in main go.mod Signed-off-by: Madhu Rajanna <madhupr007@gmail.com> 2024-08-19 08:01:33 +00:00			`// Copyright (c) Faye Amacker. All rights reserved.`
			`// Licensed under the MIT License. See LICENSE in the project root for license information.`

			`package cbor`

			`import (`
			`"bytes"`
			`"errors"`
			`"fmt"`
			`"reflect"`
			`"sort"`
			`"strconv"`
			`"strings"`
			`"sync"`
			`)`

			`type encodeFuncs struct {`
			`ef encodeFunc`
			`ief isEmptyFunc`
			`}`

			`var (`
			`decodingStructTypeCache sync.Map // map[reflect.Type]*decodingStructType`
			`encodingStructTypeCache sync.Map // map[reflect.Type]*encodingStructType`
			`encodeFuncCache sync.Map // map[reflect.Type]encodeFuncs`
			`typeInfoCache sync.Map // map[reflect.Type]*typeInfo`
			`)`

			`type specialType int`

			`const (`
			`specialTypeNone specialType = iota`
			`specialTypeUnmarshalerIface`
			`specialTypeEmptyIface`
			`specialTypeIface`
			`specialTypeTag`
			`specialTypeTime`
			`)`

			`type typeInfo struct {`
			`elemTypeInfo *typeInfo`
			`keyTypeInfo *typeInfo`
			`typ reflect.Type`
			`kind reflect.Kind`
			`nonPtrType reflect.Type`
			`nonPtrKind reflect.Kind`
			`spclType specialType`
			`}`

			`func newTypeInfo(t reflect.Type) *typeInfo {`
			`tInfo := typeInfo{typ: t, kind: t.Kind()}`

			`for t.Kind() == reflect.Ptr {`
			`t = t.Elem()`
			`}`

			`k := t.Kind()`

			`tInfo.nonPtrType = t`
			`tInfo.nonPtrKind = k`

			`if k == reflect.Interface {`
			`if t.NumMethod() == 0 {`
			`tInfo.spclType = specialTypeEmptyIface`
			`} else {`
			`tInfo.spclType = specialTypeIface`
			`}`
			`} else if t == typeTag {`
			`tInfo.spclType = specialTypeTag`
			`} else if t == typeTime {`
			`tInfo.spclType = specialTypeTime`
			`} else if reflect.PtrTo(t).Implements(typeUnmarshaler) {`
			`tInfo.spclType = specialTypeUnmarshalerIface`
			`}`

			`switch k {`
			`case reflect.Array, reflect.Slice:`
			`tInfo.elemTypeInfo = getTypeInfo(t.Elem())`
			`case reflect.Map:`
			`tInfo.keyTypeInfo = getTypeInfo(t.Key())`
			`tInfo.elemTypeInfo = getTypeInfo(t.Elem())`
			`}`

			`return &tInfo`
			`}`

			`type decodingStructType struct {`
			`fields fields`
			`fieldIndicesByName map[string]int`
			`err error`
			`toArray bool`
			`}`

			`// The stdlib errors.Join was introduced in Go 1.20, and we still support Go 1.17, so instead,`
			`// here's a very basic implementation of an aggregated error.`
			`type multierror []error`

			`func (m multierror) Error() string {`
			`var sb strings.Builder`
			`for i, err := range m {`
			`sb.WriteString(err.Error())`
			`if i < len(m)-1 {`
			`sb.WriteString(", ")`
			`}`
			`}`
			`return sb.String()`
			`}`

			`func getDecodingStructType(t reflect.Type) *decodingStructType {`
			`if v, _ := decodingStructTypeCache.Load(t); v != nil {`
			`return v.(*decodingStructType)`
			`}`

			`flds, structOptions := getFields(t)`

			`toArray := hasToArrayOption(structOptions)`

			`var errs []error`
			`for i := 0; i < len(flds); i++ {`
			`if flds[i].keyAsInt {`
			`nameAsInt, numErr := strconv.Atoi(flds[i].name)`
			`if numErr != nil {`
			`errs = append(errs, errors.New("cbor: failed to parse field name \""+flds[i].name+"\" to int ("+numErr.Error()+")"))`
			`break`
			`}`
			`flds[i].nameAsInt = int64(nameAsInt)`
			`}`

			`flds[i].typInfo = getTypeInfo(flds[i].typ)`
			`}`

			`fieldIndicesByName := make(map[string]int, len(flds))`
			`for i, fld := range flds {`
			`if _, ok := fieldIndicesByName[fld.name]; ok {`
			`errs = append(errs, fmt.Errorf("cbor: two or more fields of %v have the same name %q", t, fld.name))`
			`continue`
			`}`
			`fieldIndicesByName[fld.name] = i`
			`}`

			`var err error`
			`{`
			`var multi multierror`
			`for _, each := range errs {`
			`if each != nil {`
			`multi = append(multi, each)`
			`}`
			`}`
			`if len(multi) == 1 {`
			`err = multi[0]`
			`} else if len(multi) > 1 {`
			`err = multi`
			`}`
			`}`

			`structType := &decodingStructType{`
			`fields: flds,`
			`fieldIndicesByName: fieldIndicesByName,`
			`err: err,`
			`toArray: toArray,`
			`}`
			`decodingStructTypeCache.Store(t, structType)`
			`return structType`
			`}`

			`type encodingStructType struct {`
			`fields fields`
			`bytewiseFields fields`
			`lengthFirstFields fields`
			`omitEmptyFieldsIdx []int`
			`err error`
			`toArray bool`
			`}`

			`func (st encodingStructType) getFields(em encMode) fields {`
			`switch em.sort {`
			`case SortNone, SortFastShuffle:`
			`return st.fields`
			`case SortLengthFirst:`
			`return st.lengthFirstFields`
			`default:`
			`return st.bytewiseFields`
			`}`
			`}`

			`type bytewiseFieldSorter struct {`
			`fields fields`
			`}`

			`func (x *bytewiseFieldSorter) Len() int {`
			`return len(x.fields)`
			`}`

			`func (x *bytewiseFieldSorter) Swap(i, j int) {`
			`x.fields[i], x.fields[j] = x.fields[j], x.fields[i]`
			`}`

			`func (x *bytewiseFieldSorter) Less(i, j int) bool {`
			`return bytes.Compare(x.fields[i].cborName, x.fields[j].cborName) <= 0`
			`}`

			`type lengthFirstFieldSorter struct {`
			`fields fields`
			`}`

			`func (x *lengthFirstFieldSorter) Len() int {`
			`return len(x.fields)`
			`}`

			`func (x *lengthFirstFieldSorter) Swap(i, j int) {`
			`x.fields[i], x.fields[j] = x.fields[j], x.fields[i]`
			`}`

			`func (x *lengthFirstFieldSorter) Less(i, j int) bool {`
			`if len(x.fields[i].cborName) != len(x.fields[j].cborName) {`
			`return len(x.fields[i].cborName) < len(x.fields[j].cborName)`
			`}`
			`return bytes.Compare(x.fields[i].cborName, x.fields[j].cborName) <= 0`
			`}`

			`func getEncodingStructType(t reflect.Type) (*encodingStructType, error) {`
			`if v, _ := encodingStructTypeCache.Load(t); v != nil {`
			`structType := v.(*encodingStructType)`
			`return structType, structType.err`
			`}`

			`flds, structOptions := getFields(t)`

			`if hasToArrayOption(structOptions) {`
			`return getEncodingStructToArrayType(t, flds)`
			`}`

			`var err error`
			`var hasKeyAsInt bool`
			`var hasKeyAsStr bool`
			`var omitEmptyIdx []int`
			`e := getEncodeBuffer()`
			`for i := 0; i < len(flds); i++ {`
			`// Get field's encodeFunc`
			`flds[i].ef, flds[i].ief = getEncodeFunc(flds[i].typ)`
			`if flds[i].ef == nil {`
			`err = &UnsupportedTypeError{t}`
			`break`
			`}`

			`// Encode field name`
			`if flds[i].keyAsInt {`
			`nameAsInt, numErr := strconv.Atoi(flds[i].name)`
			`if numErr != nil {`
			`err = errors.New("cbor: failed to parse field name \"" + flds[i].name + "\" to int (" + numErr.Error() + ")")`
			`break`
			`}`
			`flds[i].nameAsInt = int64(nameAsInt)`
			`if nameAsInt >= 0 {`
			`encodeHead(e, byte(cborTypePositiveInt), uint64(nameAsInt))`
			`} else {`
			`n := nameAsInt*(-1) - 1`
			`encodeHead(e, byte(cborTypeNegativeInt), uint64(n))`
			`}`
			`flds[i].cborName = make([]byte, e.Len())`
			`copy(flds[i].cborName, e.Bytes())`
			`e.Reset()`

			`hasKeyAsInt = true`
			`} else {`
			`encodeHead(e, byte(cborTypeTextString), uint64(len(flds[i].name)))`
			`flds[i].cborName = make([]byte, e.Len()+len(flds[i].name))`
			`n := copy(flds[i].cborName, e.Bytes())`
			`copy(flds[i].cborName[n:], flds[i].name)`
			`e.Reset()`

			`// If cborName contains a text string, then cborNameByteString contains a`
			`// string that has the byte string major type but is otherwise identical to`
			`// cborName.`
			`flds[i].cborNameByteString = make([]byte, len(flds[i].cborName))`
			`copy(flds[i].cborNameByteString, flds[i].cborName)`
			`// Reset encoded CBOR type to byte string, preserving the "additional`
			`// information" bits:`
			`flds[i].cborNameByteString[0] = byte(cborTypeByteString) \|`
			`getAdditionalInformation(flds[i].cborNameByteString[0])`

			`hasKeyAsStr = true`
			`}`

			`// Check if field can be omitted when empty`
			`if flds[i].omitEmpty {`
			`omitEmptyIdx = append(omitEmptyIdx, i)`
			`}`
			`}`
			`putEncodeBuffer(e)`

			`if err != nil {`
			`structType := &encodingStructType{err: err}`
			`encodingStructTypeCache.Store(t, structType)`
			`return structType, structType.err`
			`}`

			`// Sort fields by canonical order`
			`bytewiseFields := make(fields, len(flds))`
			`copy(bytewiseFields, flds)`
			`sort.Sort(&bytewiseFieldSorter{bytewiseFields})`

			`lengthFirstFields := bytewiseFields`
			`if hasKeyAsInt && hasKeyAsStr {`
			`lengthFirstFields = make(fields, len(flds))`
			`copy(lengthFirstFields, flds)`
			`sort.Sort(&lengthFirstFieldSorter{lengthFirstFields})`
			`}`

			`structType := &encodingStructType{`
			`fields: flds,`
			`bytewiseFields: bytewiseFields,`
			`lengthFirstFields: lengthFirstFields,`
			`omitEmptyFieldsIdx: omitEmptyIdx,`
			`}`

			`encodingStructTypeCache.Store(t, structType)`
			`return structType, structType.err`
			`}`

			`func getEncodingStructToArrayType(t reflect.Type, flds fields) (*encodingStructType, error) {`
			`for i := 0; i < len(flds); i++ {`
			`// Get field's encodeFunc`
			`flds[i].ef, flds[i].ief = getEncodeFunc(flds[i].typ)`
			`if flds[i].ef == nil {`
			`structType := &encodingStructType{err: &UnsupportedTypeError{t}}`
			`encodingStructTypeCache.Store(t, structType)`
			`return structType, structType.err`
			`}`
			`}`

			`structType := &encodingStructType{`
			`fields: flds,`
			`toArray: true,`
			`}`
			`encodingStructTypeCache.Store(t, structType)`
			`return structType, structType.err`
			`}`

			`func getEncodeFunc(t reflect.Type) (encodeFunc, isEmptyFunc) {`
			`if v, _ := encodeFuncCache.Load(t); v != nil {`
			`fs := v.(encodeFuncs)`
			`return fs.ef, fs.ief`
			`}`
			`ef, ief := getEncodeFuncInternal(t)`
			`encodeFuncCache.Store(t, encodeFuncs{ef, ief})`
			`return ef, ief`
			`}`

			`func getTypeInfo(t reflect.Type) *typeInfo {`
			`if v, _ := typeInfoCache.Load(t); v != nil {`
			`return v.(*typeInfo)`
			`}`
			`tInfo := newTypeInfo(t)`
			`typeInfoCache.Store(t, tInfo)`
			`return tInfo`
			`}`

			`func hasToArrayOption(tag string) bool {`
			`s := ",toarray"`
			`idx := strings.Index(tag, s)`
			`return idx >= 0 && (len(tag) == idx+len(s) \|\| tag[idx+len(s)] == ',')`
			`}`