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authorWim <wim@42.be>2020-01-09 21:02:56 +0100
committerGitHub <noreply@github.com>2020-01-09 21:02:56 +0100
commit0f708daf2d14dcca261ef98cc698a1b1f2a6aa74 (patch)
tree022eee21366d6a9a00feaeff918972d9e72632c2 /vendor/golang.org/x/crypto/ssh/keys.go
parentb9354de8fd5e424ac2f246fff1a03b27e8094fd8 (diff)
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Update dependencies (#975)
Diffstat (limited to 'vendor/golang.org/x/crypto/ssh/keys.go')
-rw-r--r--vendor/golang.org/x/crypto/ssh/keys.go280
1 files changed, 254 insertions, 26 deletions
diff --git a/vendor/golang.org/x/crypto/ssh/keys.go b/vendor/golang.org/x/crypto/ssh/keys.go
index 96980479..c148ad4c 100644
--- a/vendor/golang.org/x/crypto/ssh/keys.go
+++ b/vendor/golang.org/x/crypto/ssh/keys.go
@@ -30,12 +30,14 @@ import (
// These constants represent the algorithm names for key types supported by this
// package.
const (
- KeyAlgoRSA = "ssh-rsa"
- KeyAlgoDSA = "ssh-dss"
- KeyAlgoECDSA256 = "ecdsa-sha2-nistp256"
- KeyAlgoECDSA384 = "ecdsa-sha2-nistp384"
- KeyAlgoECDSA521 = "ecdsa-sha2-nistp521"
- KeyAlgoED25519 = "ssh-ed25519"
+ KeyAlgoRSA = "ssh-rsa"
+ KeyAlgoDSA = "ssh-dss"
+ KeyAlgoECDSA256 = "ecdsa-sha2-nistp256"
+ KeyAlgoSKECDSA256 = "sk-ecdsa-sha2-nistp256@openssh.com"
+ KeyAlgoECDSA384 = "ecdsa-sha2-nistp384"
+ KeyAlgoECDSA521 = "ecdsa-sha2-nistp521"
+ KeyAlgoED25519 = "ssh-ed25519"
+ KeyAlgoSKED25519 = "sk-ssh-ed25519@openssh.com"
)
// These constants represent non-default signature algorithms that are supported
@@ -58,9 +60,13 @@ func parsePubKey(in []byte, algo string) (pubKey PublicKey, rest []byte, err err
return parseDSA(in)
case KeyAlgoECDSA256, KeyAlgoECDSA384, KeyAlgoECDSA521:
return parseECDSA(in)
+ case KeyAlgoSKECDSA256:
+ return parseSKECDSA(in)
case KeyAlgoED25519:
return parseED25519(in)
- case CertAlgoRSAv01, CertAlgoDSAv01, CertAlgoECDSA256v01, CertAlgoECDSA384v01, CertAlgoECDSA521v01, CertAlgoED25519v01:
+ case KeyAlgoSKED25519:
+ return parseSKEd25519(in)
+ case CertAlgoRSAv01, CertAlgoDSAv01, CertAlgoECDSA256v01, CertAlgoECDSA384v01, CertAlgoECDSA521v01, CertAlgoSKECDSA256v01, CertAlgoED25519v01, CertAlgoSKED25519v01:
cert, err := parseCert(in, certToPrivAlgo(algo))
if err != nil {
return nil, nil, err
@@ -685,6 +691,218 @@ func (k *ecdsaPublicKey) CryptoPublicKey() crypto.PublicKey {
return (*ecdsa.PublicKey)(k)
}
+// skFields holds the additional fields present in U2F/FIDO2 signatures.
+// See openssh/PROTOCOL.u2f 'SSH U2F Signatures' for details.
+type skFields struct {
+ // Flags contains U2F/FIDO2 flags such as 'user present'
+ Flags byte
+ // Counter is a monotonic signature counter which can be
+ // used to detect concurrent use of a private key, should
+ // it be extracted from hardware.
+ Counter uint32
+}
+
+type skECDSAPublicKey struct {
+ // application is a URL-like string, typically "ssh:" for SSH.
+ // see openssh/PROTOCOL.u2f for details.
+ application string
+ ecdsa.PublicKey
+}
+
+func (k *skECDSAPublicKey) Type() string {
+ return KeyAlgoSKECDSA256
+}
+
+func (k *skECDSAPublicKey) nistID() string {
+ return "nistp256"
+}
+
+func parseSKECDSA(in []byte) (out PublicKey, rest []byte, err error) {
+ var w struct {
+ Curve string
+ KeyBytes []byte
+ Application string
+ Rest []byte `ssh:"rest"`
+ }
+
+ if err := Unmarshal(in, &w); err != nil {
+ return nil, nil, err
+ }
+
+ key := new(skECDSAPublicKey)
+ key.application = w.Application
+
+ if w.Curve != "nistp256" {
+ return nil, nil, errors.New("ssh: unsupported curve")
+ }
+ key.Curve = elliptic.P256()
+
+ key.X, key.Y = elliptic.Unmarshal(key.Curve, w.KeyBytes)
+ if key.X == nil || key.Y == nil {
+ return nil, nil, errors.New("ssh: invalid curve point")
+ }
+
+ return key, w.Rest, nil
+}
+
+func (k *skECDSAPublicKey) Marshal() []byte {
+ // See RFC 5656, section 3.1.
+ keyBytes := elliptic.Marshal(k.Curve, k.X, k.Y)
+ w := struct {
+ Name string
+ ID string
+ Key []byte
+ Application string
+ }{
+ k.Type(),
+ k.nistID(),
+ keyBytes,
+ k.application,
+ }
+
+ return Marshal(&w)
+}
+
+func (k *skECDSAPublicKey) Verify(data []byte, sig *Signature) error {
+ if sig.Format != k.Type() {
+ return fmt.Errorf("ssh: signature type %s for key type %s", sig.Format, k.Type())
+ }
+
+ h := ecHash(k.Curve).New()
+ h.Write([]byte(k.application))
+ appDigest := h.Sum(nil)
+
+ h.Reset()
+ h.Write(data)
+ dataDigest := h.Sum(nil)
+
+ var ecSig struct {
+ R *big.Int
+ S *big.Int
+ }
+ if err := Unmarshal(sig.Blob, &ecSig); err != nil {
+ return err
+ }
+
+ var skf skFields
+ if err := Unmarshal(sig.Rest, &skf); err != nil {
+ return err
+ }
+
+ blob := struct {
+ ApplicationDigest []byte `ssh:"rest"`
+ Flags byte
+ Counter uint32
+ MessageDigest []byte `ssh:"rest"`
+ }{
+ appDigest,
+ skf.Flags,
+ skf.Counter,
+ dataDigest,
+ }
+
+ original := Marshal(blob)
+
+ h.Reset()
+ h.Write(original)
+ digest := h.Sum(nil)
+
+ if ecdsa.Verify((*ecdsa.PublicKey)(&k.PublicKey), digest, ecSig.R, ecSig.S) {
+ return nil
+ }
+ return errors.New("ssh: signature did not verify")
+}
+
+type skEd25519PublicKey struct {
+ // application is a URL-like string, typically "ssh:" for SSH.
+ // see openssh/PROTOCOL.u2f for details.
+ application string
+ ed25519.PublicKey
+}
+
+func (k *skEd25519PublicKey) Type() string {
+ return KeyAlgoSKED25519
+}
+
+func parseSKEd25519(in []byte) (out PublicKey, rest []byte, err error) {
+ var w struct {
+ KeyBytes []byte
+ Application string
+ Rest []byte `ssh:"rest"`
+ }
+
+ if err := Unmarshal(in, &w); err != nil {
+ return nil, nil, err
+ }
+
+ key := new(skEd25519PublicKey)
+ key.application = w.Application
+ key.PublicKey = ed25519.PublicKey(w.KeyBytes)
+
+ return key, w.Rest, nil
+}
+
+func (k *skEd25519PublicKey) Marshal() []byte {
+ w := struct {
+ Name string
+ KeyBytes []byte
+ Application string
+ }{
+ KeyAlgoSKED25519,
+ []byte(k.PublicKey),
+ k.application,
+ }
+ return Marshal(&w)
+}
+
+func (k *skEd25519PublicKey) Verify(data []byte, sig *Signature) error {
+ if sig.Format != k.Type() {
+ return fmt.Errorf("ssh: signature type %s for key type %s", sig.Format, k.Type())
+ }
+
+ h := sha256.New()
+ h.Write([]byte(k.application))
+ appDigest := h.Sum(nil)
+
+ h.Reset()
+ h.Write(data)
+ dataDigest := h.Sum(nil)
+
+ var edSig struct {
+ Signature []byte `ssh:"rest"`
+ }
+
+ if err := Unmarshal(sig.Blob, &edSig); err != nil {
+ return err
+ }
+
+ var skf skFields
+ if err := Unmarshal(sig.Rest, &skf); err != nil {
+ return err
+ }
+
+ blob := struct {
+ ApplicationDigest []byte `ssh:"rest"`
+ Flags byte
+ Counter uint32
+ MessageDigest []byte `ssh:"rest"`
+ }{
+ appDigest,
+ skf.Flags,
+ skf.Counter,
+ dataDigest,
+ }
+
+ original := Marshal(blob)
+
+ edKey := (ed25519.PublicKey)(k.PublicKey)
+ if ok := ed25519.Verify(edKey, original, edSig.Signature); !ok {
+ return errors.New("ssh: signature did not verify")
+ }
+
+ return nil
+}
+
// NewSignerFromKey takes an *rsa.PrivateKey, *dsa.PrivateKey,
// *ecdsa.PrivateKey or any other crypto.Signer and returns a
// corresponding Signer instance. ECDSA keys must use P-256, P-384 or
@@ -837,7 +1055,8 @@ func NewPublicKey(key interface{}) (PublicKey, error) {
}
// ParsePrivateKey returns a Signer from a PEM encoded private key. It supports
-// the same keys as ParseRawPrivateKey.
+// the same keys as ParseRawPrivateKey. If the private key is encrypted, it
+// will return a PassphraseMissingError.
func ParsePrivateKey(pemBytes []byte) (Signer, error) {
key, err := ParseRawPrivateKey(pemBytes)
if err != nil {
@@ -850,8 +1069,8 @@ func ParsePrivateKey(pemBytes []byte) (Signer, error) {
// ParsePrivateKeyWithPassphrase returns a Signer from a PEM encoded private
// key and passphrase. It supports the same keys as
// ParseRawPrivateKeyWithPassphrase.
-func ParsePrivateKeyWithPassphrase(pemBytes, passPhrase []byte) (Signer, error) {
- key, err := ParseRawPrivateKeyWithPassphrase(pemBytes, passPhrase)
+func ParsePrivateKeyWithPassphrase(pemBytes, passphrase []byte) (Signer, error) {
+ key, err := ParseRawPrivateKeyWithPassphrase(pemBytes, passphrase)
if err != nil {
return nil, err
}
@@ -867,8 +1086,21 @@ func encryptedBlock(block *pem.Block) bool {
return strings.Contains(block.Headers["Proc-Type"], "ENCRYPTED")
}
+// A PassphraseMissingError indicates that parsing this private key requires a
+// passphrase. Use ParsePrivateKeyWithPassphrase.
+type PassphraseMissingError struct {
+ // PublicKey will be set if the private key format includes an unencrypted
+ // public key along with the encrypted private key.
+ PublicKey PublicKey
+}
+
+func (*PassphraseMissingError) Error() string {
+ return "ssh: this private key is passphrase protected"
+}
+
// ParseRawPrivateKey returns a private key from a PEM encoded private key. It
-// supports RSA (PKCS#1), PKCS#8, DSA (OpenSSL), and ECDSA private keys.
+// supports RSA (PKCS#1), PKCS#8, DSA (OpenSSL), and ECDSA private keys. If the
+// private key is encrypted, it will return a PassphraseMissingError.
func ParseRawPrivateKey(pemBytes []byte) (interface{}, error) {
block, _ := pem.Decode(pemBytes)
if block == nil {
@@ -876,7 +1108,7 @@ func ParseRawPrivateKey(pemBytes []byte) (interface{}, error) {
}
if encryptedBlock(block) {
- return nil, errors.New("ssh: cannot decode encrypted private keys")
+ return nil, &PassphraseMissingError{}
}
switch block.Type {
@@ -899,24 +1131,22 @@ func ParseRawPrivateKey(pemBytes []byte) (interface{}, error) {
// ParseRawPrivateKeyWithPassphrase returns a private key decrypted with
// passphrase from a PEM encoded private key. If wrong passphrase, return
// x509.IncorrectPasswordError.
-func ParseRawPrivateKeyWithPassphrase(pemBytes, passPhrase []byte) (interface{}, error) {
+func ParseRawPrivateKeyWithPassphrase(pemBytes, passphrase []byte) (interface{}, error) {
block, _ := pem.Decode(pemBytes)
if block == nil {
return nil, errors.New("ssh: no key found")
}
- buf := block.Bytes
- if encryptedBlock(block) {
- if x509.IsEncryptedPEMBlock(block) {
- var err error
- buf, err = x509.DecryptPEMBlock(block, passPhrase)
- if err != nil {
- if err == x509.IncorrectPasswordError {
- return nil, err
- }
- return nil, fmt.Errorf("ssh: cannot decode encrypted private keys: %v", err)
- }
+ if !encryptedBlock(block) || !x509.IsEncryptedPEMBlock(block) {
+ return nil, errors.New("ssh: not an encrypted key")
+ }
+
+ buf, err := x509.DecryptPEMBlock(block, passphrase)
+ if err != nil {
+ if err == x509.IncorrectPasswordError {
+ return nil, err
}
+ return nil, fmt.Errorf("ssh: cannot decode encrypted private keys: %v", err)
}
switch block.Type {
@@ -926,8 +1156,6 @@ func ParseRawPrivateKeyWithPassphrase(pemBytes, passPhrase []byte) (interface{},
return x509.ParseECPrivateKey(buf)
case "DSA PRIVATE KEY":
return ParseDSAPrivateKey(buf)
- case "OPENSSH PRIVATE KEY":
- return parseOpenSSHPrivateKey(buf)
default:
return nil, fmt.Errorf("ssh: unsupported key type %q", block.Type)
}