2024-02-18 10:42:21 +00:00
package jwt
import (
"crypto"
"crypto/ed25519"
"crypto/rand"
2024-04-26 19:30:35 +00:00
"errors"
2024-02-18 10:42:21 +00:00
)
var (
ErrEd25519Verification = errors . New ( "ed25519: verification error" )
)
// SigningMethodEd25519 implements the EdDSA family.
// Expects ed25519.PrivateKey for signing and ed25519.PublicKey for verification
type SigningMethodEd25519 struct { }
// Specific instance for EdDSA
var (
SigningMethodEdDSA * SigningMethodEd25519
)
func init ( ) {
SigningMethodEdDSA = & SigningMethodEd25519 { }
RegisterSigningMethod ( SigningMethodEdDSA . Alg ( ) , func ( ) SigningMethod {
return SigningMethodEdDSA
} )
}
func ( m * SigningMethodEd25519 ) Alg ( ) string {
return "EdDSA"
}
// Verify implements token verification for the SigningMethod.
// For this verify method, key must be an ed25519.PublicKey
func ( m * SigningMethodEd25519 ) Verify ( signingString , signature string , key interface { } ) error {
var err error
var ed25519Key ed25519 . PublicKey
var ok bool
if ed25519Key , ok = key . ( ed25519 . PublicKey ) ; ! ok {
return ErrInvalidKeyType
}
if len ( ed25519Key ) != ed25519 . PublicKeySize {
return ErrInvalidKey
}
// Decode the signature
var sig [ ] byte
if sig , err = DecodeSegment ( signature ) ; err != nil {
return err
}
// Verify the signature
if ! ed25519 . Verify ( ed25519Key , [ ] byte ( signingString ) , sig ) {
return ErrEd25519Verification
}
return nil
}
// Sign implements token signing for the SigningMethod.
// For this signing method, key must be an ed25519.PrivateKey
func ( m * SigningMethodEd25519 ) Sign ( signingString string , key interface { } ) ( string , error ) {
var ed25519Key crypto . Signer
var ok bool
if ed25519Key , ok = key . ( crypto . Signer ) ; ! ok {
return "" , ErrInvalidKeyType
}
if _ , ok := ed25519Key . Public ( ) . ( ed25519 . PublicKey ) ; ! ok {
return "" , ErrInvalidKey
}
// Sign the string and return the encoded result
// ed25519 performs a two-pass hash as part of its algorithm. Therefore, we need to pass a non-prehashed message into the Sign function, as indicated by crypto.Hash(0)
sig , err := ed25519Key . Sign ( rand . Reader , [ ] byte ( signingString ) , crypto . Hash ( 0 ) )
if err != nil {
return "" , err
}
return EncodeSegment ( sig ) , nil
}