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encode.go
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encode.go
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// 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"
"encoding"
"encoding/binary"
"errors"
"fmt"
"io"
"math"
"math/big"
"math/rand"
"reflect"
"sort"
"strconv"
"sync"
"time"
"github.com/x448/float16"
)
// Marshal returns the CBOR encoding of v using default encoding options.
// See EncOptions for encoding options.
//
// Marshal uses the following encoding rules:
//
// If value implements the Marshaler interface, Marshal calls its
// MarshalCBOR method.
//
// If value implements encoding.BinaryMarshaler, Marhsal calls its
// MarshalBinary method and encode it as CBOR byte string.
//
// Boolean values encode as CBOR booleans (type 7).
//
// Positive integer values encode as CBOR positive integers (type 0).
//
// Negative integer values encode as CBOR negative integers (type 1).
//
// Floating point values encode as CBOR floating points (type 7).
//
// String values encode as CBOR text strings (type 3).
//
// []byte values encode as CBOR byte strings (type 2).
//
// Array and slice values encode as CBOR arrays (type 4).
//
// Map values encode as CBOR maps (type 5).
//
// Struct values encode as CBOR maps (type 5). Each exported struct field
// becomes a pair with field name encoded as CBOR text string (type 3) and
// field value encoded based on its type. See struct tag option "keyasint"
// to encode field name as CBOR integer (type 0 and 1). Also see struct
// tag option "toarray" for special field "_" to encode struct values as
// CBOR array (type 4).
//
// Marshal supports format string stored under the "cbor" key in the struct
// field's tag. CBOR format string can specify the name of the field,
// "omitempty" and "keyasint" options, and special case "-" for field omission.
// If "cbor" key is absent, Marshal uses "json" key.
//
// Struct field name is treated as integer if it has "keyasint" option in
// its format string. The format string must specify an integer as its
// field name.
//
// Special struct field "_" is used to specify struct level options, such as
// "toarray". "toarray" option enables Go struct to be encoded as CBOR array.
// "omitempty" is disabled by "toarray" to ensure that the same number
// of elements are encoded every time.
//
// Anonymous struct fields are marshaled as if their exported fields
// were fields in the outer struct. Marshal follows the same struct fields
// visibility rules used by JSON encoding package.
//
// time.Time values encode as text strings specified in RFC3339 or numerical
// representation of seconds since January 1, 1970 UTC depending on
// EncOptions.Time setting. Also See EncOptions.TimeTag to encode
// time.Time as CBOR tag with tag number 0 or 1.
//
// big.Int values encode as CBOR integers (type 0 and 1) if values fit.
// Otherwise, big.Int values encode as CBOR bignums (tag 2 and 3). See
// EncOptions.BigIntConvert to always encode big.Int values as CBOR
// bignums.
//
// Pointer values encode as the value pointed to.
//
// Interface values encode as the value stored in the interface.
//
// Nil slice/map/pointer/interface values encode as CBOR nulls (type 7).
//
// Values of other types cannot be encoded in CBOR. Attempting
// to encode such a value causes Marshal to return an UnsupportedTypeError.
func Marshal(v interface{}) ([]byte, error) {
return defaultEncMode.Marshal(v)
}
// MarshalToBuffer encodes v into provided buffer (instead of using built-in buffer pool)
// and uses default encoding options.
//
// NOTE: Unlike Marshal, the buffer provided to MarshalToBuffer can contain
// partially encoded data if error is returned.
//
// See Marshal for more details.
func MarshalToBuffer(v interface{}, buf *bytes.Buffer) error {
return defaultEncMode.MarshalToBuffer(v, buf)
}
// Marshaler is the interface implemented by types that can marshal themselves
// into valid CBOR.
type Marshaler interface {
MarshalCBOR() ([]byte, error)
}
// MarshalerError represents error from checking encoded CBOR data item
// returned from MarshalCBOR for well-formedness and some very limited tag validation.
type MarshalerError struct {
typ reflect.Type
err error
}
func (e *MarshalerError) Error() string {
return "cbor: error calling MarshalCBOR for type " +
e.typ.String() +
": " + e.err.Error()
}
func (e *MarshalerError) Unwrap() error {
return e.err
}
// UnsupportedTypeError is returned by Marshal when attempting to encode value
// of an unsupported type.
type UnsupportedTypeError struct {
Type reflect.Type
}
func (e *UnsupportedTypeError) Error() string {
return "cbor: unsupported type: " + e.Type.String()
}
// UnsupportedValueError is returned by Marshal when attempting to encode an
// unsupported value.
type UnsupportedValueError struct {
msg string
}
func (e *UnsupportedValueError) Error() string {
return "cbor: unsupported value: " + e.msg
}
// SortMode identifies supported sorting order.
type SortMode int
const (
// SortNone encodes map pairs and struct fields in an arbitrary order.
SortNone SortMode = 0
// SortLengthFirst causes map keys or struct fields to be sorted such that:
// - If two keys have different lengths, the shorter one sorts earlier;
// - If two keys have the same length, the one with the lower value in
// (byte-wise) lexical order sorts earlier.
// It is used in "Canonical CBOR" encoding in RFC 7049 3.9.
SortLengthFirst SortMode = 1
// SortBytewiseLexical causes map keys or struct fields to be sorted in the
// bytewise lexicographic order of their deterministic CBOR encodings.
// It is used in "CTAP2 Canonical CBOR" and "Core Deterministic Encoding"
// in RFC 7049bis.
SortBytewiseLexical SortMode = 2
// SortShuffle encodes map pairs and struct fields in a shuffled
// order. This mode does not guarantee an unbiased permutation, but it
// does guarantee that the runtime of the shuffle algorithm used will be
// constant.
SortFastShuffle SortMode = 3
// SortCanonical is used in "Canonical CBOR" encoding in RFC 7049 3.9.
SortCanonical SortMode = SortLengthFirst
// SortCTAP2 is used in "CTAP2 Canonical CBOR".
SortCTAP2 SortMode = SortBytewiseLexical
// SortCoreDeterministic is used in "Core Deterministic Encoding" in RFC 7049bis.
SortCoreDeterministic SortMode = SortBytewiseLexical
maxSortMode SortMode = 4
)
func (sm SortMode) valid() bool {
return sm >= 0 && sm < maxSortMode
}
// StringMode specifies how to encode Go string values.
type StringMode int
const (
// StringToTextString encodes Go string to CBOR text string (major type 3).
StringToTextString StringMode = iota
// StringToByteString encodes Go string to CBOR byte string (major type 2).
StringToByteString
)
func (st StringMode) cborType() (cborType, error) {
switch st {
case StringToTextString:
return cborTypeTextString, nil
case StringToByteString:
return cborTypeByteString, nil
}
return 0, errors.New("cbor: invalid StringType " + strconv.Itoa(int(st)))
}
// ShortestFloatMode specifies which floating-point format should
// be used as the shortest possible format for CBOR encoding.
// It is not used for encoding Infinity and NaN values.
type ShortestFloatMode int
const (
// ShortestFloatNone makes float values encode without any conversion.
// This is the default for ShortestFloatMode in v1.
// E.g. a float32 in Go will encode to CBOR float32. And
// a float64 in Go will encode to CBOR float64.
ShortestFloatNone ShortestFloatMode = iota
// ShortestFloat16 specifies float16 as the shortest form that preserves value.
// E.g. if float64 can convert to float32 while preserving value, then
// encoding will also try to convert float32 to float16. So a float64 might
// encode as CBOR float64, float32 or float16 depending on the value.
ShortestFloat16
maxShortestFloat
)
func (sfm ShortestFloatMode) valid() bool {
return sfm >= 0 && sfm < maxShortestFloat
}
// NaNConvertMode specifies how to encode NaN and overrides ShortestFloatMode.
// ShortestFloatMode is not used for encoding Infinity and NaN values.
type NaNConvertMode int
const (
// NaNConvert7e00 always encodes NaN to 0xf97e00 (CBOR float16 = 0x7e00).
NaNConvert7e00 NaNConvertMode = iota
// NaNConvertNone never modifies or converts NaN to other representations
// (float64 NaN stays float64, etc. even if it can use float16 without losing
// any bits).
NaNConvertNone
// NaNConvertPreserveSignal converts NaN to the smallest form that preserves
// value (quiet bit + payload) as described in RFC 7049bis Draft 12.
NaNConvertPreserveSignal
// NaNConvertQuiet always forces quiet bit = 1 and shortest form that preserves
// NaN payload.
NaNConvertQuiet
// NaNConvertReject returns UnsupportedValueError on attempts to encode a NaN value.
NaNConvertReject
maxNaNConvert
)
func (ncm NaNConvertMode) valid() bool {
return ncm >= 0 && ncm < maxNaNConvert
}
// InfConvertMode specifies how to encode Infinity and overrides ShortestFloatMode.
// ShortestFloatMode is not used for encoding Infinity and NaN values.
type InfConvertMode int
const (
// InfConvertFloat16 always converts Inf to lossless IEEE binary16 (float16).
InfConvertFloat16 InfConvertMode = iota
// InfConvertNone never converts (used by CTAP2 Canonical CBOR).
InfConvertNone
// InfConvertReject returns UnsupportedValueError on attempts to encode an infinite value.
InfConvertReject
maxInfConvert
)
func (icm InfConvertMode) valid() bool {
return icm >= 0 && icm < maxInfConvert
}
// TimeMode specifies how to encode time.Time values.
type TimeMode int
const (
// TimeUnix causes time.Time to be encoded as epoch time in integer with second precision.
TimeUnix TimeMode = iota
// TimeUnixMicro causes time.Time to be encoded as epoch time in float-point rounded to microsecond precision.
TimeUnixMicro
// TimeUnixDynamic causes time.Time to be encoded as integer if time.Time doesn't have fractional seconds,
// otherwise float-point rounded to microsecond precision.
TimeUnixDynamic
// TimeRFC3339 causes time.Time to be encoded as RFC3339 formatted string with second precision.
TimeRFC3339
// TimeRFC3339Nano causes time.Time to be encoded as RFC3339 formatted string with nanosecond precision.
TimeRFC3339Nano
maxTimeMode
)
func (tm TimeMode) valid() bool {
return tm >= 0 && tm < maxTimeMode
}
// BigIntConvertMode specifies how to encode big.Int values.
type BigIntConvertMode int
const (
// BigIntConvertShortest makes big.Int encode to CBOR integer if value fits.
// E.g. if big.Int value can be converted to CBOR integer while preserving
// value, encoder will encode it to CBOR integer (major type 0 or 1).
BigIntConvertShortest BigIntConvertMode = iota
// BigIntConvertNone makes big.Int encode to CBOR bignum (tag 2 or 3) without
// converting it to another CBOR type.
BigIntConvertNone
// BigIntConvertReject returns an UnsupportedTypeError instead of marshaling a big.Int.
BigIntConvertReject
maxBigIntConvert
)
func (bim BigIntConvertMode) valid() bool {
return bim >= 0 && bim < maxBigIntConvert
}
// NilContainersMode specifies how to encode nil slices and maps.
type NilContainersMode int
const (
// NilContainerAsNull encodes nil slices and maps as CBOR null.
// This is the default.
NilContainerAsNull NilContainersMode = iota
// NilContainerAsEmpty encodes nil slices and maps as
// empty container (CBOR bytestring, array, or map).
NilContainerAsEmpty
maxNilContainersMode
)
func (m NilContainersMode) valid() bool {
return m >= 0 && m < maxNilContainersMode
}
// OmitEmptyMode specifies how to encode struct fields with omitempty tag.
// The default behavior omits if field value would encode as empty CBOR value.
type OmitEmptyMode int
const (
// OmitEmptyCBORValue specifies that struct fields tagged with "omitempty"
// should be omitted from encoding if the field would be encoded as an empty
// CBOR value, such as CBOR false, 0, 0.0, nil, empty byte, empty string,
// empty array, or empty map.
OmitEmptyCBORValue OmitEmptyMode = iota
// OmitEmptyGoValue specifies that struct fields tagged with "omitempty"
// should be omitted from encoding if the field has an empty Go value,
// defined as false, 0, 0.0, a nil pointer, a nil interface value, and
// any empty array, slice, map, or string.
// This behavior is the same as the current (aka v1) encoding/json package
// included in Go.
OmitEmptyGoValue
maxOmitEmptyMode
)
func (om OmitEmptyMode) valid() bool {
return om >= 0 && om < maxOmitEmptyMode
}
// FieldNameMode specifies the CBOR type to use when encoding struct field names.
type FieldNameMode int
const (
// FieldNameToTextString encodes struct fields to CBOR text string (major type 3).
FieldNameToTextString FieldNameMode = iota
// FieldNameToTextString encodes struct fields to CBOR byte string (major type 2).
FieldNameToByteString
maxFieldNameMode
)
func (fnm FieldNameMode) valid() bool {
return fnm >= 0 && fnm < maxFieldNameMode
}
// ByteSliceLaterFormatMode specifies which later format conversion hint (CBOR tag 21-23)
// to include (if any) when encoding Go byte slice to CBOR byte string. The encoder will
// always encode unmodified bytes from the byte slice and just wrap it within
// CBOR tag 21, 22, or 23 if specified.
// See "Expected Later Encoding for CBOR-to-JSON Converters" in RFC 8949 Section 3.4.5.2.
type ByteSliceLaterFormatMode int
const (
// ByteSliceLaterFormatNone encodes unmodified bytes from Go byte slice to CBOR byte string (major type 2)
// without adding CBOR tag 21, 22, or 23.
ByteSliceLaterFormatNone ByteSliceLaterFormatMode = iota
// ByteSliceLaterFormatBase64URL encodes unmodified bytes from Go byte slice to CBOR byte string (major type 2)
// inside CBOR tag 21 (expected later conversion to base64url encoding, see RFC 8949 Section 3.4.5.2).
ByteSliceLaterFormatBase64URL
// ByteSliceLaterFormatBase64 encodes unmodified bytes from Go byte slice to CBOR byte string (major type 2)
// inside CBOR tag 22 (expected later conversion to base64 encoding, see RFC 8949 Section 3.4.5.2).
ByteSliceLaterFormatBase64
// ByteSliceLaterFormatBase16 encodes unmodified bytes from Go byte slice to CBOR byte string (major type 2)
// inside CBOR tag 23 (expected later conversion to base16 encoding, see RFC 8949 Section 3.4.5.2).
ByteSliceLaterFormatBase16
)
func (bsefm ByteSliceLaterFormatMode) encodingTag() (uint64, error) {
switch bsefm {
case ByteSliceLaterFormatNone:
return 0, nil
case ByteSliceLaterFormatBase64URL:
return tagNumExpectedLaterEncodingBase64URL, nil
case ByteSliceLaterFormatBase64:
return tagNumExpectedLaterEncodingBase64, nil
case ByteSliceLaterFormatBase16:
return tagNumExpectedLaterEncodingBase16, nil
}
return 0, errors.New("cbor: invalid ByteSliceLaterFormat " + strconv.Itoa(int(bsefm)))
}
// ByteArrayMode specifies how to encode byte arrays.
type ByteArrayMode int
const (
// ByteArrayToByteSlice encodes byte arrays the same way that a byte slice with identical
// length and contents is encoded.
ByteArrayToByteSlice ByteArrayMode = iota
// ByteArrayToArray encodes byte arrays to the CBOR array type with one unsigned integer
// item for each byte in the array.
ByteArrayToArray
maxByteArrayMode
)
func (bam ByteArrayMode) valid() bool {
return bam >= 0 && bam < maxByteArrayMode
}
// BinaryMarshalerMode specifies how to encode types that implement encoding.BinaryMarshaler.
type BinaryMarshalerMode int
const (
// BinaryMarshalerByteString encodes the output of MarshalBinary to a CBOR byte string.
BinaryMarshalerByteString BinaryMarshalerMode = iota
// BinaryMarshalerNone does not recognize BinaryMarshaler implementations during encode.
BinaryMarshalerNone
maxBinaryMarshalerMode
)
func (bmm BinaryMarshalerMode) valid() bool {
return bmm >= 0 && bmm < maxBinaryMarshalerMode
}
// EncOptions specifies encoding options.
type EncOptions struct {
// Sort specifies sorting order.
Sort SortMode
// ShortestFloat specifies the shortest floating-point encoding that preserves
// the value being encoded.
ShortestFloat ShortestFloatMode
// NaNConvert specifies how to encode NaN and it overrides ShortestFloatMode.
NaNConvert NaNConvertMode
// InfConvert specifies how to encode Inf and it overrides ShortestFloatMode.
InfConvert InfConvertMode
// BigIntConvert specifies how to encode big.Int values.
BigIntConvert BigIntConvertMode
// Time specifies how to encode time.Time.
Time TimeMode
// TimeTag allows time.Time to be encoded with a tag number.
// RFC3339 format gets tag number 0, and numeric epoch time tag number 1.
TimeTag EncTagMode
// IndefLength specifies whether to allow indefinite length CBOR items.
IndefLength IndefLengthMode
// NilContainers specifies how to encode nil slices and maps.
NilContainers NilContainersMode
// TagsMd specifies whether to allow CBOR tags (major type 6).
TagsMd TagsMode
// OmitEmptyMode specifies how to encode struct fields with omitempty tag.
OmitEmpty OmitEmptyMode
// String specifies which CBOR type to use when encoding Go strings.
// - CBOR text string (major type 3) is default
// - CBOR byte string (major type 2)
String StringMode
// FieldName specifies the CBOR type to use when encoding struct field names.
FieldName FieldNameMode
// ByteSliceLaterFormat specifies which later format conversion hint (CBOR tag 21-23)
// to include (if any) when encoding Go byte slice to CBOR byte string. The encoder will
// always encode unmodified bytes from the byte slice and just wrap it within
// CBOR tag 21, 22, or 23 if specified.
// See "Expected Later Encoding for CBOR-to-JSON Converters" in RFC 8949 Section 3.4.5.2.
ByteSliceLaterFormat ByteSliceLaterFormatMode
// ByteArray specifies how to encode byte arrays.
ByteArray ByteArrayMode
// BinaryMarshaler specifies how to encode types that implement encoding.BinaryMarshaler.
BinaryMarshaler BinaryMarshalerMode
}
// CanonicalEncOptions returns EncOptions for "Canonical CBOR" encoding,
// defined in RFC 7049 Section 3.9 with the following rules:
//
// 1. "Integers must be as small as possible."
// 2. "The expression of lengths in major types 2 through 5 must be as short as possible."
// 3. The keys in every map must be sorted in length-first sorting order.
// See SortLengthFirst for details.
// 4. "Indefinite-length items must be made into definite-length items."
// 5. "If a protocol allows for IEEE floats, then additional canonicalization rules might
// need to be added. One example rule might be to have all floats start as a 64-bit
// float, then do a test conversion to a 32-bit float; if the result is the same numeric
// value, use the shorter value and repeat the process with a test conversion to a
// 16-bit float. (This rule selects 16-bit float for positive and negative Infinity
// as well.) Also, there are many representations for NaN. If NaN is an allowed value,
// it must always be represented as 0xf97e00."
func CanonicalEncOptions() EncOptions {
return EncOptions{
Sort: SortCanonical,
ShortestFloat: ShortestFloat16,
NaNConvert: NaNConvert7e00,
InfConvert: InfConvertFloat16,
IndefLength: IndefLengthForbidden,
}
}
// CTAP2EncOptions returns EncOptions for "CTAP2 Canonical CBOR" encoding,
// defined in CTAP specification, with the following rules:
//
// 1. "Integers must be encoded as small as possible."
// 2. "The representations of any floating-point values are not changed."
// 3. "The expression of lengths in major types 2 through 5 must be as short as possible."
// 4. "Indefinite-length items must be made into definite-length items.""
// 5. The keys in every map must be sorted in bytewise lexicographic order.
// See SortBytewiseLexical for details.
// 6. "Tags as defined in Section 2.4 in [RFC7049] MUST NOT be present."
func CTAP2EncOptions() EncOptions {
return EncOptions{
Sort: SortCTAP2,
ShortestFloat: ShortestFloatNone,
NaNConvert: NaNConvertNone,
InfConvert: InfConvertNone,
IndefLength: IndefLengthForbidden,
TagsMd: TagsForbidden,
}
}
// CoreDetEncOptions returns EncOptions for "Core Deterministic" encoding,
// defined in RFC 7049bis with the following rules:
//
// 1. "Preferred serialization MUST be used. In particular, this means that arguments
// (see Section 3) for integers, lengths in major types 2 through 5, and tags MUST
// be as short as possible"
// "Floating point values also MUST use the shortest form that preserves the value"
// 2. "Indefinite-length items MUST NOT appear."
// 3. "The keys in every map MUST be sorted in the bytewise lexicographic order of
// their deterministic encodings."
func CoreDetEncOptions() EncOptions {
return EncOptions{
Sort: SortCoreDeterministic,
ShortestFloat: ShortestFloat16,
NaNConvert: NaNConvert7e00,
InfConvert: InfConvertFloat16,
IndefLength: IndefLengthForbidden,
}
}
// PreferredUnsortedEncOptions returns EncOptions for "Preferred Serialization" encoding,
// defined in RFC 7049bis with the following rules:
//
// 1. "The preferred serialization always uses the shortest form of representing the argument
// (Section 3);"
// 2. "it also uses the shortest floating-point encoding that preserves the value being
// encoded (see Section 5.5)."
// "The preferred encoding for a floating-point value is the shortest floating-point encoding
// that preserves its value, e.g., 0xf94580 for the number 5.5, and 0xfa45ad9c00 for the
// number 5555.5, unless the CBOR-based protocol specifically excludes the use of the shorter
// floating-point encodings. For NaN values, a shorter encoding is preferred if zero-padding
// the shorter significand towards the right reconstitutes the original NaN value (for many
// applications, the single NaN encoding 0xf97e00 will suffice)."
// 3. "Definite length encoding is preferred whenever the length is known at the time the
// serialization of the item starts."
func PreferredUnsortedEncOptions() EncOptions {
return EncOptions{
Sort: SortNone,
ShortestFloat: ShortestFloat16,
NaNConvert: NaNConvert7e00,
InfConvert: InfConvertFloat16,
}
}
// EncMode returns EncMode with immutable options and no tags (safe for concurrency).
func (opts EncOptions) EncMode() (EncMode, error) { //nolint:gocritic // ignore hugeParam
return opts.encMode()
}
// UserBufferEncMode returns UserBufferEncMode with immutable options and no tags (safe for concurrency).
func (opts EncOptions) UserBufferEncMode() (UserBufferEncMode, error) { //nolint:gocritic // ignore hugeParam
return opts.encMode()
}
// EncModeWithTags returns EncMode with options and tags that are both immutable (safe for concurrency).
func (opts EncOptions) EncModeWithTags(tags TagSet) (EncMode, error) { //nolint:gocritic // ignore hugeParam
return opts.UserBufferEncModeWithTags(tags)
}
// UserBufferEncModeWithTags returns UserBufferEncMode with options and tags that are both immutable (safe for concurrency).
func (opts EncOptions) UserBufferEncModeWithTags(tags TagSet) (UserBufferEncMode, error) { //nolint:gocritic // ignore hugeParam
if opts.TagsMd == TagsForbidden {
return nil, errors.New("cbor: cannot create EncMode with TagSet when TagsMd is TagsForbidden")
}
if tags == nil {
return nil, errors.New("cbor: cannot create EncMode with nil value as TagSet")
}
em, err := opts.encMode()
if err != nil {
return nil, err
}
// Copy tags
ts := tagSet(make(map[reflect.Type]*tagItem))
syncTags := tags.(*syncTagSet)
syncTags.RLock()
for contentType, tag := range syncTags.t {
if tag.opts.EncTag != EncTagNone {
ts[contentType] = tag
}
}
syncTags.RUnlock()
if len(ts) > 0 {
em.tags = ts
}
return em, nil
}
// EncModeWithSharedTags returns EncMode with immutable options and mutable shared tags (safe for concurrency).
func (opts EncOptions) EncModeWithSharedTags(tags TagSet) (EncMode, error) { //nolint:gocritic // ignore hugeParam
return opts.UserBufferEncModeWithSharedTags(tags)
}
// UserBufferEncModeWithSharedTags returns UserBufferEncMode with immutable options and mutable shared tags (safe for concurrency).
func (opts EncOptions) UserBufferEncModeWithSharedTags(tags TagSet) (UserBufferEncMode, error) { //nolint:gocritic // ignore hugeParam
if opts.TagsMd == TagsForbidden {
return nil, errors.New("cbor: cannot create EncMode with TagSet when TagsMd is TagsForbidden")
}
if tags == nil {
return nil, errors.New("cbor: cannot create EncMode with nil value as TagSet")
}
em, err := opts.encMode()
if err != nil {
return nil, err
}
em.tags = tags
return em, nil
}
func (opts EncOptions) encMode() (*encMode, error) { //nolint:gocritic // ignore hugeParam
if !opts.Sort.valid() {
return nil, errors.New("cbor: invalid SortMode " + strconv.Itoa(int(opts.Sort)))
}
if !opts.ShortestFloat.valid() {
return nil, errors.New("cbor: invalid ShortestFloatMode " + strconv.Itoa(int(opts.ShortestFloat)))
}
if !opts.NaNConvert.valid() {
return nil, errors.New("cbor: invalid NaNConvertMode " + strconv.Itoa(int(opts.NaNConvert)))
}
if !opts.InfConvert.valid() {
return nil, errors.New("cbor: invalid InfConvertMode " + strconv.Itoa(int(opts.InfConvert)))
}
if !opts.BigIntConvert.valid() {
return nil, errors.New("cbor: invalid BigIntConvertMode " + strconv.Itoa(int(opts.BigIntConvert)))
}
if !opts.Time.valid() {
return nil, errors.New("cbor: invalid TimeMode " + strconv.Itoa(int(opts.Time)))
}
if !opts.TimeTag.valid() {
return nil, errors.New("cbor: invalid TimeTag " + strconv.Itoa(int(opts.TimeTag)))
}
if !opts.IndefLength.valid() {
return nil, errors.New("cbor: invalid IndefLength " + strconv.Itoa(int(opts.IndefLength)))
}
if !opts.NilContainers.valid() {
return nil, errors.New("cbor: invalid NilContainers " + strconv.Itoa(int(opts.NilContainers)))
}
if !opts.TagsMd.valid() {
return nil, errors.New("cbor: invalid TagsMd " + strconv.Itoa(int(opts.TagsMd)))
}
if opts.TagsMd == TagsForbidden && opts.TimeTag == EncTagRequired {
return nil, errors.New("cbor: cannot set TagsMd to TagsForbidden when TimeTag is EncTagRequired")
}
if !opts.OmitEmpty.valid() {
return nil, errors.New("cbor: invalid OmitEmpty " + strconv.Itoa(int(opts.OmitEmpty)))
}
stringMajorType, err := opts.String.cborType()
if err != nil {
return nil, err
}
if !opts.FieldName.valid() {
return nil, errors.New("cbor: invalid FieldName " + strconv.Itoa(int(opts.FieldName)))
}
byteSliceLaterEncodingTag, err := opts.ByteSliceLaterFormat.encodingTag()
if err != nil {
return nil, err
}
if !opts.ByteArray.valid() {
return nil, errors.New("cbor: invalid ByteArray " + strconv.Itoa(int(opts.ByteArray)))
}
if !opts.BinaryMarshaler.valid() {
return nil, errors.New("cbor: invalid BinaryMarshaler " + strconv.Itoa(int(opts.BinaryMarshaler)))
}
em := encMode{
sort: opts.Sort,
shortestFloat: opts.ShortestFloat,
nanConvert: opts.NaNConvert,
infConvert: opts.InfConvert,
bigIntConvert: opts.BigIntConvert,
time: opts.Time,
timeTag: opts.TimeTag,
indefLength: opts.IndefLength,
nilContainers: opts.NilContainers,
tagsMd: opts.TagsMd,
omitEmpty: opts.OmitEmpty,
stringType: opts.String,
stringMajorType: stringMajorType,
fieldName: opts.FieldName,
byteSliceLaterFormat: opts.ByteSliceLaterFormat,
byteSliceLaterEncodingTag: byteSliceLaterEncodingTag,
byteArray: opts.ByteArray,
binaryMarshaler: opts.BinaryMarshaler,
}
return &em, nil
}
// EncMode is the main interface for CBOR encoding.
type EncMode interface {
Marshal(v interface{}) ([]byte, error)
NewEncoder(w io.Writer) *Encoder
EncOptions() EncOptions
}
// UserBufferEncMode is an interface for CBOR encoding, which extends EncMode by
// adding MarshalToBuffer to support user specified buffer rather than encoding
// into the built-in buffer pool.
type UserBufferEncMode interface {
EncMode
MarshalToBuffer(v interface{}, buf *bytes.Buffer) error
// This private method is to prevent users implementing
// this interface and so future additions to it will
// not be breaking changes.
// See https://go.dev/blog/module-compatibility
unexport()
}
type encMode struct {
tags tagProvider
sort SortMode
shortestFloat ShortestFloatMode
nanConvert NaNConvertMode
infConvert InfConvertMode
bigIntConvert BigIntConvertMode
time TimeMode
timeTag EncTagMode
indefLength IndefLengthMode
nilContainers NilContainersMode
tagsMd TagsMode
omitEmpty OmitEmptyMode
stringType StringMode
stringMajorType cborType
fieldName FieldNameMode
byteSliceLaterFormat ByteSliceLaterFormatMode
byteSliceLaterEncodingTag uint64
byteArray ByteArrayMode
binaryMarshaler BinaryMarshalerMode
}
var defaultEncMode, _ = EncOptions{}.encMode()
// These four decoding modes are used by getMarshalerDecMode.
// maxNestedLevels, maxArrayElements, and maxMapPairs are
// set to max allowed limits to avoid rejecting Marshaler
// output that would have been the allowable output of a
// non-Marshaler object that exceeds default limits.
var (
marshalerForbidIndefLengthForbidTagsDecMode = decMode{
maxNestedLevels: maxMaxNestedLevels,
maxArrayElements: maxMaxArrayElements,
maxMapPairs: maxMaxMapPairs,
indefLength: IndefLengthForbidden,
tagsMd: TagsForbidden,
}
marshalerAllowIndefLengthForbidTagsDecMode = decMode{
maxNestedLevels: maxMaxNestedLevels,
maxArrayElements: maxMaxArrayElements,
maxMapPairs: maxMaxMapPairs,
indefLength: IndefLengthAllowed,
tagsMd: TagsForbidden,
}
marshalerForbidIndefLengthAllowTagsDecMode = decMode{
maxNestedLevels: maxMaxNestedLevels,
maxArrayElements: maxMaxArrayElements,
maxMapPairs: maxMaxMapPairs,
indefLength: IndefLengthForbidden,
tagsMd: TagsAllowed,
}
marshalerAllowIndefLengthAllowTagsDecMode = decMode{
maxNestedLevels: maxMaxNestedLevels,
maxArrayElements: maxMaxArrayElements,
maxMapPairs: maxMaxMapPairs,
indefLength: IndefLengthAllowed,
tagsMd: TagsAllowed,
}
)
// getMarshalerDecMode returns one of four existing decoding modes
// which can be reused (safe for parallel use) for the purpose of
// checking if data returned by Marshaler is well-formed.
func getMarshalerDecMode(indefLength IndefLengthMode, tagsMd TagsMode) *decMode {
switch {
case indefLength == IndefLengthAllowed && tagsMd == TagsAllowed:
return &marshalerAllowIndefLengthAllowTagsDecMode
case indefLength == IndefLengthAllowed && tagsMd == TagsForbidden:
return &marshalerAllowIndefLengthForbidTagsDecMode
case indefLength == IndefLengthForbidden && tagsMd == TagsAllowed:
return &marshalerForbidIndefLengthAllowTagsDecMode
case indefLength == IndefLengthForbidden && tagsMd == TagsForbidden:
return &marshalerForbidIndefLengthForbidTagsDecMode
default:
// This should never happen, unless we add new options to
// IndefLengthMode or TagsMode without updating this function.
return &decMode{
maxNestedLevels: maxMaxNestedLevels,
maxArrayElements: maxMaxArrayElements,
maxMapPairs: maxMaxMapPairs,
indefLength: indefLength,
tagsMd: tagsMd,
}
}
}
// EncOptions returns user specified options used to create this EncMode.
func (em *encMode) EncOptions() EncOptions {
return EncOptions{
Sort: em.sort,
ShortestFloat: em.shortestFloat,
NaNConvert: em.nanConvert,
InfConvert: em.infConvert,
BigIntConvert: em.bigIntConvert,
Time: em.time,
TimeTag: em.timeTag,
IndefLength: em.indefLength,
NilContainers: em.nilContainers,
TagsMd: em.tagsMd,
OmitEmpty: em.omitEmpty,
String: em.stringType,
FieldName: em.fieldName,
ByteSliceLaterFormat: em.byteSliceLaterFormat,
ByteArray: em.byteArray,
BinaryMarshaler: em.binaryMarshaler,
}
}
func (em *encMode) unexport() {}
func (em *encMode) encTagBytes(t reflect.Type) []byte {
if em.tags != nil {
if tagItem := em.tags.getTagItemFromType(t); tagItem != nil {
return tagItem.cborTagNum
}
}
return nil
}
// Marshal returns the CBOR encoding of v using em encoding mode.
//
// See the documentation for Marshal for details.
func (em *encMode) Marshal(v interface{}) ([]byte, error) {
e := getEncodeBuffer()
if err := encode(e, em, reflect.ValueOf(v)); err != nil {
putEncodeBuffer(e)
return nil, err
}
buf := make([]byte, e.Len())
copy(buf, e.Bytes())
putEncodeBuffer(e)
return buf, nil
}
// MarshalToBuffer encodes v into provided buffer (instead of using built-in buffer pool)
// and uses em encoding mode.
//
// NOTE: Unlike Marshal, the buffer provided to MarshalToBuffer can contain
// partially encoded data if error is returned.
//
// See Marshal for more details.
func (em *encMode) MarshalToBuffer(v interface{}, buf *bytes.Buffer) error {
if buf == nil {
return fmt.Errorf("cbor: encoding buffer provided by user is nil")
}
return encode(buf, em, reflect.ValueOf(v))
}
// NewEncoder returns a new encoder that writes to w using em EncMode.
func (em *encMode) NewEncoder(w io.Writer) *Encoder {
return &Encoder{w: w, em: em}
}
// encodeBufferPool caches unused bytes.Buffer objects for later reuse.
var encodeBufferPool = sync.Pool{
New: func() interface{} {
e := new(bytes.Buffer)
e.Grow(32) // TODO: make this configurable
return e
},
}
func getEncodeBuffer() *bytes.Buffer {
return encodeBufferPool.Get().(*bytes.Buffer)
}
func putEncodeBuffer(e *bytes.Buffer) {
e.Reset()
encodeBufferPool.Put(e)
}
type encodeFunc func(e *bytes.Buffer, em *encMode, v reflect.Value) error
type isEmptyFunc func(em *encMode, v reflect.Value) (empty bool, err error)
func encode(e *bytes.Buffer, em *encMode, v reflect.Value) error {
if !v.IsValid() {
// v is zero value
e.Write(cborNil)
return nil
}
vt := v.Type()
f, _ := getEncodeFunc(vt)
if f == nil {
return &UnsupportedTypeError{vt}
}
return f(e, em, v)
}
func encodeBool(e *bytes.Buffer, em *encMode, v reflect.Value) error {
if b := em.encTagBytes(v.Type()); b != nil {
e.Write(b)
}
b := cborFalse
if v.Bool() {
b = cborTrue