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author | obscuren <geffobscura@gmail.com> | 2014-12-10 07:00:52 +0800 |
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committer | obscuren <geffobscura@gmail.com> | 2014-12-10 07:00:52 +0800 |
commit | 6cf6981ed076d43514e86fa7e7a56c6bad1da583 (patch) | |
tree | ed59f2db942a5b454298a47ec34d70d8459ffe52 /asn1.go | |
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init
Diffstat (limited to 'asn1.go')
-rw-r--r-- | asn1.go | 556 |
1 files changed, 556 insertions, 0 deletions
diff --git a/asn1.go b/asn1.go new file mode 100644 index 000000000..3ef194ea0 --- /dev/null +++ b/asn1.go @@ -0,0 +1,556 @@ +package ecies + +import ( + "bytes" + "crypto" + "crypto/elliptic" + "crypto/sha1" + "crypto/sha256" + "crypto/sha512" + "encoding/asn1" + "encoding/pem" + "fmt" + "hash" + "math/big" +) + +var ( + secgScheme = []int{1, 3, 132, 1} + shaScheme = []int{2, 16, 840, 1, 101, 3, 4, 2} + ansiX962Scheme = []int{1, 2, 840, 10045} + x963Scheme = []int{1, 2, 840, 63, 0} +) + +var ErrInvalidPrivateKey = fmt.Errorf("ecies: invalid private key") + +func doScheme(base, v []int) asn1.ObjectIdentifier { + var oidInts asn1.ObjectIdentifier + oidInts = append(oidInts, base...) + return append(oidInts, v...) +} + +// curve OID code taken from crypto/x509, including +// - oidNameCurve* +// - namedCurveFromOID +// - oidFromNamedCurve +// RFC 5480, 2.1.1.1. Named Curve +// +// secp224r1 OBJECT IDENTIFIER ::= { +// iso(1) identified-organization(3) certicom(132) curve(0) 33 } +// +// secp256r1 OBJECT IDENTIFIER ::= { +// iso(1) member-body(2) us(840) ansi-X9-62(10045) curves(3) +// prime(1) 7 } +// +// secp384r1 OBJECT IDENTIFIER ::= { +// iso(1) identified-organization(3) certicom(132) curve(0) 34 } +// +// secp521r1 OBJECT IDENTIFIER ::= { +// iso(1) identified-organization(3) certicom(132) curve(0) 35 } +// +// NB: secp256r1 is equivalent to prime256v1 +type secgNamedCurve asn1.ObjectIdentifier + +var ( + secgNamedCurveP224 = secgNamedCurve{1, 3, 132, 0, 33} + secgNamedCurveP256 = secgNamedCurve{1, 2, 840, 10045, 3, 1, 7} + secgNamedCurveP384 = secgNamedCurve{1, 3, 132, 0, 34} + secgNamedCurveP521 = secgNamedCurve{1, 3, 132, 0, 35} + rawCurveP224 = []byte{6, 5, 4, 3, 1, 2, 9, 4, 0, 3, 3} + rawCurveP256 = []byte{6, 8, 4, 2, 1, 3, 4, 7, 2, 2, 0, 6, 6, 1, 3, 1, 7} + rawCurveP384 = []byte{6, 5, 4, 3, 1, 2, 9, 4, 0, 3, 4} + rawCurveP521 = []byte{6, 5, 4, 3, 1, 2, 9, 4, 0, 3, 5} +) + +func rawCurve(curve elliptic.Curve) []byte { + switch curve { + case elliptic.P224(): + return rawCurveP224 + case elliptic.P256(): + return rawCurveP256 + case elliptic.P384(): + return rawCurveP384 + case elliptic.P521(): + return rawCurveP521 + default: + return nil + } +} + +func (curve secgNamedCurve) Equal(curve2 secgNamedCurve) bool { + if len(curve) != len(curve2) { + return false + } + for i, _ := range curve { + if curve[i] != curve2[i] { + return false + } + } + return true +} + +func namedCurveFromOID(curve secgNamedCurve) elliptic.Curve { + switch { + case curve.Equal(secgNamedCurveP224): + return elliptic.P224() + case curve.Equal(secgNamedCurveP256): + return elliptic.P256() + case curve.Equal(secgNamedCurveP384): + return elliptic.P384() + case curve.Equal(secgNamedCurveP521): + return elliptic.P521() + } + return nil +} + +func oidFromNamedCurve(curve elliptic.Curve) (secgNamedCurve, bool) { + switch curve { + case elliptic.P224(): + return secgNamedCurveP224, true + case elliptic.P256(): + return secgNamedCurveP256, true + case elliptic.P384(): + return secgNamedCurveP384, true + case elliptic.P521(): + return secgNamedCurveP521, true + } + + return nil, false +} + +// asnAlgorithmIdentifier represents the ASN.1 structure of the same name. See RFC +// 5280, section 4.1.1.2. +type asnAlgorithmIdentifier struct { + Algorithm asn1.ObjectIdentifier + Parameters asn1.RawValue `asn1:"optional"` +} + +func (a asnAlgorithmIdentifier) Cmp(b asnAlgorithmIdentifier) bool { + if len(a.Algorithm) != len(b.Algorithm) { + return false + } + for i, _ := range a.Algorithm { + if a.Algorithm[i] != b.Algorithm[i] { + return false + } + } + return true +} + +type asnHashFunction asnAlgorithmIdentifier + +var ( + oidSHA1 = asn1.ObjectIdentifier{1, 3, 14, 3, 2, 26} + oidSHA224 = doScheme(shaScheme, []int{4}) + oidSHA256 = doScheme(shaScheme, []int{1}) + oidSHA384 = doScheme(shaScheme, []int{2}) + oidSHA512 = doScheme(shaScheme, []int{3}) +) + +func hashFromOID(oid asn1.ObjectIdentifier) func() hash.Hash { + switch { + case oid.Equal(oidSHA1): + return sha1.New + case oid.Equal(oidSHA224): + return sha256.New224 + case oid.Equal(oidSHA256): + return sha256.New + case oid.Equal(oidSHA384): + return sha512.New384 + case oid.Equal(oidSHA512): + return sha512.New + } + return nil +} + +func oidFromHash(hash crypto.Hash) (asn1.ObjectIdentifier, bool) { + switch hash { + case crypto.SHA1: + return oidSHA1, true + case crypto.SHA224: + return oidSHA224, true + case crypto.SHA256: + return oidSHA256, true + case crypto.SHA384: + return oidSHA384, true + case crypto.SHA512: + return oidSHA512, true + default: + return nil, false + } +} + +var ( + asnAlgoSHA1 = asnHashFunction{ + Algorithm: oidSHA1, + } + asnAlgoSHA224 = asnHashFunction{ + Algorithm: oidSHA224, + } + asnAlgoSHA256 = asnHashFunction{ + Algorithm: oidSHA256, + } + asnAlgoSHA384 = asnHashFunction{ + Algorithm: oidSHA384, + } + asnAlgoSHA512 = asnHashFunction{ + Algorithm: oidSHA512, + } +) + +// type ASNasnSubjectPublicKeyInfo struct { +// +// } +// + +type asnSubjectPublicKeyInfo struct { + Algorithm asn1.ObjectIdentifier + PublicKey asn1.BitString + Supplements ecpksSupplements `asn1:"optional"` +} + +type asnECPKAlgorithms struct { + Type asn1.ObjectIdentifier +} + +var idPublicKeyType = doScheme(ansiX962Scheme, []int{2}) +var idEcPublicKey = doScheme(idPublicKeyType, []int{1}) +var idEcPublicKeySupplemented = doScheme(idPublicKeyType, []int{0}) + +func curveToRaw(curve elliptic.Curve) (rv asn1.RawValue, ok bool) { + switch curve { + case elliptic.P224(), elliptic.P256(), elliptic.P384(), elliptic.P521(): + raw := rawCurve(curve) + return asn1.RawValue{ + Tag: 30, + Bytes: raw[2:], + FullBytes: raw, + }, true + default: + return rv, false + } +} + +func asnECPublicKeyType(curve elliptic.Curve) (algo asnAlgorithmIdentifier, ok bool) { + raw, ok := curveToRaw(curve) + if !ok { + return + } else { + return asnAlgorithmIdentifier{Algorithm: idEcPublicKey, + Parameters: raw}, true + } +} + +type asnECPrivKeyVer int + +var asnECPrivKeyVer1 asnECPrivKeyVer = 1 + +type asnPrivateKey struct { + Version asnECPrivKeyVer + Private []byte + Curve secgNamedCurve `asn1:"optional"` + Public asn1.BitString +} + +var asnECDH = doScheme(secgScheme, []int{12}) + +type asnECDHAlgorithm asnAlgorithmIdentifier + +var ( + dhSinglePass_stdDH_sha1kdf = asnECDHAlgorithm{ + Algorithm: doScheme(x963Scheme, []int{2}), + } + dhSinglePass_stdDH_sha256kdf = asnECDHAlgorithm{ + Algorithm: doScheme(secgScheme, []int{11, 1}), + } + dhSinglePass_stdDH_sha384kdf = asnECDHAlgorithm{ + Algorithm: doScheme(secgScheme, []int{11, 2}), + } + dhSinglePass_stdDH_sha224kdf = asnECDHAlgorithm{ + Algorithm: doScheme(secgScheme, []int{11, 0}), + } + dhSinglePass_stdDH_sha512kdf = asnECDHAlgorithm{ + Algorithm: doScheme(secgScheme, []int{11, 3}), + } +) + +func (a asnECDHAlgorithm) Cmp(b asnECDHAlgorithm) bool { + if len(a.Algorithm) != len(b.Algorithm) { + return false + } + for i, _ := range a.Algorithm { + if a.Algorithm[i] != b.Algorithm[i] { + return false + } + } + return true +} + +// asnNISTConcatenation is the only supported KDF at this time. +type asnKeyDerivationFunction asnAlgorithmIdentifier + +var asnNISTConcatenationKDF = asnKeyDerivationFunction{ + Algorithm: doScheme(secgScheme, []int{17, 1}), +} + +func (a asnKeyDerivationFunction) Cmp(b asnKeyDerivationFunction) bool { + if len(a.Algorithm) != len(b.Algorithm) { + return false + } + for i, _ := range a.Algorithm { + if a.Algorithm[i] != b.Algorithm[i] { + return false + } + } + return true +} + +var eciesRecommendedParameters = doScheme(secgScheme, []int{7}) +var eciesSpecifiedParameters = doScheme(secgScheme, []int{8}) + +type asnECIESParameters struct { + KDF asnKeyDerivationFunction `asn1:"optional"` + Sym asnSymmetricEncryption `asn1:"optional"` + MAC asnMessageAuthenticationCode `asn1:"optional"` +} + +type asnSymmetricEncryption asnAlgorithmIdentifier + +var ( + aes128CTRinECIES = asnSymmetricEncryption{ + Algorithm: doScheme(secgScheme, []int{21, 0}), + } + aes192CTRinECIES = asnSymmetricEncryption{ + Algorithm: doScheme(secgScheme, []int{21, 1}), + } + aes256CTRinECIES = asnSymmetricEncryption{ + Algorithm: doScheme(secgScheme, []int{21, 2}), + } +) + +func (a asnSymmetricEncryption) Cmp(b asnSymmetricEncryption) bool { + if len(a.Algorithm) != len(b.Algorithm) { + return false + } + for i, _ := range a.Algorithm { + if a.Algorithm[i] != b.Algorithm[i] { + return false + } + } + return true +} + +type asnMessageAuthenticationCode asnAlgorithmIdentifier + +var ( + hmacFull = asnMessageAuthenticationCode{ + Algorithm: doScheme(secgScheme, []int{22}), + } +) + +func (a asnMessageAuthenticationCode) Cmp(b asnMessageAuthenticationCode) bool { + if len(a.Algorithm) != len(b.Algorithm) { + return false + } + for i, _ := range a.Algorithm { + if a.Algorithm[i] != b.Algorithm[i] { + return false + } + } + return true +} + +type ecpksSupplements struct { + ECDomain secgNamedCurve + ECCAlgorithms eccAlgorithmSet +} + +type eccAlgorithmSet struct { + ECDH asnECDHAlgorithm `asn1:"optional"` + ECIES asnECIESParameters `asn1:"optional"` +} + +func marshalSubjectPublicKeyInfo(pub *PublicKey) (subj asnSubjectPublicKeyInfo, err error) { + subj.Algorithm = idEcPublicKeySupplemented + curve, ok := oidFromNamedCurve(pub.Curve) + if !ok { + err = ErrInvalidPublicKey + return + } + subj.Supplements.ECDomain = curve + if pub.Params != nil { + subj.Supplements.ECCAlgorithms.ECDH = paramsToASNECDH(pub.Params) + subj.Supplements.ECCAlgorithms.ECIES = paramsToASNECIES(pub.Params) + } + pubkey := elliptic.Marshal(pub.Curve, pub.X, pub.Y) + subj.PublicKey = asn1.BitString{ + BitLength: len(pubkey) * 8, + Bytes: pubkey, + } + return +} + +// Encode a public key to DER format. +func MarshalPublic(pub *PublicKey) ([]byte, error) { + subj, err := marshalSubjectPublicKeyInfo(pub) + if err != nil { + return nil, err + } + return asn1.Marshal(subj) +} + +// Decode a DER-encoded public key. +func UnmarshalPublic(in []byte) (pub *PublicKey, err error) { + var subj asnSubjectPublicKeyInfo + + if _, err = asn1.Unmarshal(in, &subj); err != nil { + return + } + if !subj.Algorithm.Equal(idEcPublicKeySupplemented) { + err = ErrInvalidPublicKey + return + } + pub = new(PublicKey) + pub.Curve = namedCurveFromOID(subj.Supplements.ECDomain) + x, y := elliptic.Unmarshal(pub.Curve, subj.PublicKey.Bytes) + if x == nil { + err = ErrInvalidPublicKey + return + } + pub.X = x + pub.Y = y + pub.Params = new(ECIESParams) + asnECIEStoParams(subj.Supplements.ECCAlgorithms.ECIES, pub.Params) + asnECDHtoParams(subj.Supplements.ECCAlgorithms.ECDH, pub.Params) + if pub.Params == nil { + if pub.Params = ParamsFromCurve(pub.Curve); pub.Params == nil { + err = ErrInvalidPublicKey + } + } + return +} + +func marshalPrivateKey(prv *PrivateKey) (ecprv asnPrivateKey, err error) { + ecprv.Version = asnECPrivKeyVer1 + ecprv.Private = prv.D.Bytes() + + var ok bool + ecprv.Curve, ok = oidFromNamedCurve(prv.PublicKey.Curve) + if !ok { + err = ErrInvalidPrivateKey + return + } + + var pub []byte + if pub, err = MarshalPublic(&prv.PublicKey); err != nil { + return + } else { + ecprv.Public = asn1.BitString{ + BitLength: len(pub) * 8, + Bytes: pub, + } + } + return +} + +// Encode a private key to DER format. +func MarshalPrivate(prv *PrivateKey) ([]byte, error) { + ecprv, err := marshalPrivateKey(prv) + if err != nil { + return nil, err + } + return asn1.Marshal(ecprv) +} + +// Decode a private key from a DER-encoded format. +func UnmarshalPrivate(in []byte) (prv *PrivateKey, err error) { + var ecprv asnPrivateKey + + if _, err = asn1.Unmarshal(in, &ecprv); err != nil { + return + } else if ecprv.Version != asnECPrivKeyVer1 { + err = ErrInvalidPrivateKey + return + } + + privateCurve := namedCurveFromOID(ecprv.Curve) + if privateCurve == nil { + err = ErrInvalidPrivateKey + return + } + + prv = new(PrivateKey) + prv.D = new(big.Int).SetBytes(ecprv.Private) + + if pub, err := UnmarshalPublic(ecprv.Public.Bytes); err != nil { + return nil, err + } else { + prv.PublicKey = *pub + } + + return +} + +// Export a public key to PEM format. +func ExportPublicPEM(pub *PublicKey) (out []byte, err error) { + der, err := MarshalPublic(pub) + if err != nil { + return + } + + var block pem.Block + block.Type = "ELLIPTIC CURVE PUBLIC KEY" + block.Bytes = der + + buf := new(bytes.Buffer) + err = pem.Encode(buf, &block) + if err != nil { + return + } else { + out = buf.Bytes() + } + return +} + +// Export a private key to PEM format. +func ExportPrivatePEM(prv *PrivateKey) (out []byte, err error) { + der, err := MarshalPrivate(prv) + if err != nil { + return + } + + var block pem.Block + block.Type = "ELLIPTIC CURVE PRIVATE KEY" + block.Bytes = der + + buf := new(bytes.Buffer) + err = pem.Encode(buf, &block) + if err != nil { + return + } else { + out = buf.Bytes() + } + return +} + +// Import a PEM-encoded public key. +func ImportPublicPEM(in []byte) (pub *PublicKey, err error) { + p, _ := pem.Decode(in) + if p == nil || p.Type != "ELLIPTIC CURVE PUBLIC KEY" { + return nil, ErrInvalidPublicKey + } + + pub, err = UnmarshalPublic(p.Bytes) + return +} + +// Import a PEM-encoded private key. +func ImportPrivatePEM(in []byte) (prv *PrivateKey, err error) { + p, _ := pem.Decode(in) + if p == nil || p.Type != "ELLIPTIC CURVE PRIVATE KEY" { + return nil, ErrInvalidPrivateKey + } + + prv, err = UnmarshalPrivate(p.Bytes) + return +} |