jwt/rsa.go

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package jwt
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import (
"crypto"
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"crypto/rand"
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"crypto/rsa"
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"crypto/x509"
"encoding/pem"
"errors"
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)
type SigningMethodRSA struct {
Name string
Hash crypto.Hash
}
var (
SigningMethodRS256 *SigningMethodRSA
SigningMethodRS384 *SigningMethodRSA
SigningMethodRS512 *SigningMethodRSA
)
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func init() {
// RS256
SigningMethodRS256 = &SigningMethodRSA{"RS256", crypto.SHA256}
RegisterSigningMethod(SigningMethodRS256.Alg(), func() SigningMethod {
return SigningMethodRS256
})
// RS384
SigningMethodRS384 = &SigningMethodRSA{"RS384", crypto.SHA384}
RegisterSigningMethod(SigningMethodRS384.Alg(), func() SigningMethod {
return SigningMethodRS384
})
// RS512
SigningMethodRS512 = &SigningMethodRSA{"RS512", crypto.SHA512}
RegisterSigningMethod(SigningMethodRS512.Alg(), func() SigningMethod {
return SigningMethodRS512
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})
}
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func (m *SigningMethodRSA) Alg() string {
return m.Name
}
// Implements the Verify method from SigningMethod
// For this signing method, must be either a PEM encoded PKCS1 or PKCS8 RSA private key as
// []byte, or an rsa.PrivateKey structure.
func (m *SigningMethodRSA) Verify(signingString, signature string, key interface{}) error {
var err error
// Decode the signature
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var sig []byte
if sig, err = DecodeSegment(signature); err != nil {
return err
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}
var rsaKey *rsa.PublicKey
switch k := key.(type) {
case []byte:
if rsaKey, err = m.parsePublicKey(k); err != nil {
return err
}
case *rsa.PublicKey:
rsaKey = k
default:
return ErrInvalidKey
}
// Create hasher
hasher := m.Hash.New()
hasher.Write([]byte(signingString))
// Verify the signature
return rsa.VerifyPKCS1v15(rsaKey, m.Hash, hasher.Sum(nil), sig)
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}
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// Implements the Sign method from SigningMethod
// For this signing method, must be either a PEM encoded PKCS1 or PKCS8 RSA private key as
// []byte, or an rsa.PrivateKey structure.
func (m *SigningMethodRSA) Sign(signingString string, key interface{}) (string, error) {
var err error
var rsaKey *rsa.PrivateKey
switch k := key.(type) {
case []byte:
if rsaKey, err = m.parsePrivateKey(k); err != nil {
return "", err
}
case *rsa.PrivateKey:
rsaKey = k
default:
return "", ErrInvalidKey
}
// Create the hasher
hasher := m.Hash.New()
hasher.Write([]byte(signingString))
// Sign the string and return the encoded bytes
if sigBytes, err := rsa.SignPKCS1v15(rand.Reader, rsaKey, m.Hash, hasher.Sum(nil)); err == nil {
return EncodeSegment(sigBytes), nil
} else {
return "", err
}
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}
// Parse PEM encoded PKCS1 or PKCS8 public key
func (m *SigningMethodRSA) parsePublicKey(key []byte) (*rsa.PublicKey, error) {
var err error
// Parse PEM block
var block *pem.Block
if block, _ = pem.Decode(key); block == nil {
return nil, errors.New("Invalid Key: Key must be PEM encoded PKCS1 or PKCS8 private key")
}
// Parse the key
var parsedKey interface{}
if parsedKey, err = x509.ParsePKIXPublicKey(block.Bytes); err != nil {
if cert, err := x509.ParseCertificate(block.Bytes); err == nil {
parsedKey = cert.PublicKey
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} else {
return nil, err
}
}
var pkey *rsa.PublicKey
var ok bool
if pkey, ok = parsedKey.(*rsa.PublicKey); !ok {
return nil, errors.New("Key is not a valid RSA public key")
}
return pkey, nil
}
// Parse PEM encoded PKCS1 or PKCS8 private key
func (m *SigningMethodRSA) parsePrivateKey(key []byte) (*rsa.PrivateKey, error) {
var err error
// Parse PEM block
var block *pem.Block
if block, _ = pem.Decode(key); block == nil {
return nil, errors.New("Invalid Key: Key must be PEM encoded PKCS1 or PKCS8 private key")
}
var parsedKey interface{}
if parsedKey, err = x509.ParsePKCS1PrivateKey(block.Bytes); err != nil {
if parsedKey, err = x509.ParsePKCS8PrivateKey(block.Bytes); err != nil {
return nil, err
}
}
var pkey *rsa.PrivateKey
var ok bool
if pkey, ok = parsedKey.(*rsa.PrivateKey); !ok {
return nil, errors.New("Key is not a valid RSA private key")
}
return pkey, nil
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}