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cbor.go
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cbor.go
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package cose
import (
"bytes"
"fmt"
"reflect"
"github.com/fxamacker/cbor/v2"
"github.com/pkg/errors"
)
// SignMessageCBORTag is the CBOR tag for a COSE SignMessage
// from https://www.iana.org/assignments/cbor-tags/cbor-tags.xhtml#tags
const SignMessageCBORTag = 98
var signMessagePrefix = []byte{
// 0b110_11000 major type 6 (tag) with additional information
// length 24 bits / 3 bytes (since tags are always uints)
//
// per https://tools.ietf.org/html/rfc7049#section-2.4
'\xd8',
// uint8_t with the tag value
SignMessageCBORTag,
// 0b100_00100 major type 4 (array) with additional
// information 4 for a 4-item array representing a COSE_Sign
// message
'\x84',
}
// IsSignMessage checks whether the prefix is 0xd8 0x62 for a COSE
// SignMessage
func IsSignMessage(data []byte) bool {
return bytes.HasPrefix(data, signMessagePrefix)
}
// Readonly CBOR encoding and decoding modes.
var (
encMode, encModeError = initCBOREncMode()
decMode, decModeError = initCBORDecMode()
)
func initCBOREncMode() (en cbor.EncMode, err error) {
encOpt := cbor.EncOptions{
IndefLength: cbor.IndefLengthForbidden, // no streaming
Sort: cbor.SortCanonical, // sort map keys
}
return encOpt.EncMode()
}
func initCBORDecMode() (dm cbor.DecMode, err error) {
// Create a tag with SignMessage and tag number 98.
// When decoding CBOR data with tag number 98 to interface{}, cbor library returns SignMessage.
tags := cbor.NewTagSet()
err = tags.Add(
cbor.TagOptions{EncTag: cbor.EncTagRequired, DecTag: cbor.DecTagRequired},
reflect.TypeOf(SignMessage{}),
SignMessageCBORTag,
)
if err != nil {
return nil, err
}
decOpt := cbor.DecOptions{
IndefLength: cbor.IndefLengthForbidden, // no streaming
IntDec: cbor.IntDecConvertSigned, // decode CBOR uint/int to Go int64
}
return decOpt.DecModeWithTags(tags)
}
func init() {
if encModeError != nil {
panic(encModeError)
}
if decModeError != nil {
panic(decModeError)
}
}
// Marshal returns the CBOR []byte encoding of param o
func Marshal(o interface{}) (b []byte, err error) {
defer func() {
// Need to recover from panic because Headers.EncodeUnprotected()
// and Headers.EncodeProtected() can panic.
if r := recover(); r != nil {
b = nil
switch x := r.(type) {
case error:
err = fmt.Errorf("cbor: %s", x.Error())
default:
err = fmt.Errorf("cbor: %v", x)
}
}
}()
return encMode.Marshal(o)
}
// Unmarshal returns the CBOR decoding of a []byte into param o
func Unmarshal(b []byte) (o interface{}, err error) {
err = decMode.Unmarshal(b, &o)
return o, err
}
type signature struct {
_ struct{} `cbor:",toarray"`
Protected []byte
Unprotected map[interface{}]interface{}
SignatureBytes []byte
}
type signMessage struct {
_ struct{} `cbor:",toarray"`
Protected []byte
Unprotected map[interface{}]interface{}
Payload []byte
Signatures []signature
}
// MarshalCBOR encodes SignMessage.
func (message *SignMessage) MarshalCBOR() ([]byte, error) {
// Verify SignMessage headers.
if message.Headers == nil {
return nil, errors.New("cbor: SignMessage has nil Headers")
}
dup := FindDuplicateHeader(message.Headers)
if dup != nil {
return nil, fmt.Errorf("cbor: Duplicate header %+v found", dup)
}
// Convert Signature to signature.
sigs := make([]signature, len(message.Signatures))
for i, s := range message.Signatures {
dup := FindDuplicateHeader(s.Headers)
if dup != nil {
return nil, fmt.Errorf("cbor: Duplicate signature header %+v found", dup)
}
sigs[i] = signature{
Protected: s.Headers.EncodeProtected(),
Unprotected: s.Headers.EncodeUnprotected(),
SignatureBytes: s.SignatureBytes,
}
}
// Convert SignMessage to signMessage.
m := signMessage{
Protected: message.Headers.EncodeProtected(),
Unprotected: message.Headers.EncodeUnprotected(),
Payload: message.Payload,
Signatures: sigs,
}
// Marshal signMessage with tag number 98.
return encMode.Marshal(cbor.Tag{Number: SignMessageCBORTag, Content: m})
}
// UnmarshalCBOR decodes data into SignMessage.
//
// Unpacks a SignMessage described by CDDL fragments:
//
// COSE_Sign = [
// Headers,
// payload : bstr / nil,
// signatures : [+ COSE_Signature]
// ]
//
// COSE_Signature = [
// Headers,
// signature : bstr
// ]
//
// Headers = (
// protected : empty_or_serialized_map,
// unprotected : header_map
// )
//
// header_map = {
// Generic_Headers,
// * label => values
// }
//
// empty_or_serialized_map = bstr .cbor header_map / bstr .size 0
//
// Generic_Headers = (
// ? 1 => int / tstr, ; algorithm identifier
// ? 2 => [+label], ; criticality
// ? 3 => tstr / int, ; content type
// ? 4 => bstr, ; key identifier
// ? 5 => bstr, ; IV
// ? 6 => bstr, ; Partial IV
// ? 7 => COSE_Signature / [+COSE_Signature] ; Counter signature
// )
//
func (message *SignMessage) UnmarshalCBOR(data []byte) (err error) {
if message == nil {
return errors.New("cbor: UnmarshalCBOR on nil SignMessage pointer")
}
// Decode to cbor.RawTag to extract tag number and tag content as []byte.
var raw cbor.RawTag
err = decMode.Unmarshal(data, &raw)
if err != nil {
return err
}
// Verify tag number.
if raw.Number != SignMessageCBORTag {
return fmt.Errorf("cbor: wrong tag number %d", raw.Number)
}
// Decode tag content to signMessage.
var m signMessage
err = decMode.Unmarshal(raw.Content, &m)
if err != nil {
return err
}
// Create Headers from signMessage.
msgHeaders := &Headers{}
err = msgHeaders.Decode([]interface{}{m.Protected, m.Unprotected})
if err != nil {
return fmt.Errorf("cbor: %s", err.Error())
}
// Create Signature from signMessage.
var sigs []Signature
for _, s := range m.Signatures {
sh := &Headers{}
err = sh.Decode([]interface{}{s.Protected, s.Unprotected})
if err != nil {
return fmt.Errorf("cbor: %s", err.Error())
}
sigs = append(sigs, Signature{
Headers: sh,
SignatureBytes: s.SignatureBytes,
})
}
*message = SignMessage{
Headers: msgHeaders,
Payload: m.Payload,
Signatures: sigs,
}
return nil
}