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144 lines
4.2 KiB
144 lines
4.2 KiB
package dns |
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import ( |
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"crypto" |
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"crypto/dsa" |
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"crypto/ecdsa" |
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"crypto/rand" |
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"crypto/rsa" |
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"math/big" |
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"strconv" |
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) |
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const format = "Private-key-format: v1.3\n" |
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// PrivateKey ... TODO(miek) |
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type PrivateKey interface { |
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Sign([]byte, uint8) ([]byte, error) |
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String(uint8) string |
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} |
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// PrivateKeyString converts a PrivateKey to a string. This string has the same |
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// format as the private-key-file of BIND9 (Private-key-format: v1.3). |
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// It needs some info from the key (the algorithm), so its a method of the |
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// DNSKEY and calls PrivateKey.String(alg). |
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func (r *DNSKEY) PrivateKeyString(p PrivateKey) string { |
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return p.String(r.Algorithm) |
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} |
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type RSAPrivateKey rsa.PrivateKey |
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func (p *RSAPrivateKey) Sign(hashed []byte, alg uint8) ([]byte, error) { |
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var hash crypto.Hash |
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switch alg { |
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case RSASHA1, RSASHA1NSEC3SHA1: |
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hash = crypto.SHA1 |
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case RSASHA256: |
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hash = crypto.SHA256 |
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case RSASHA512: |
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hash = crypto.SHA512 |
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default: |
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return nil, ErrAlg |
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} |
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return rsa.SignPKCS1v15(nil, (*rsa.PrivateKey)(p), hash, hashed) |
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} |
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func (p *RSAPrivateKey) String(alg uint8) string { |
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algorithm := strconv.Itoa(int(alg)) + " (" + AlgorithmToString[alg] + ")" |
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modulus := toBase64(p.PublicKey.N.Bytes()) |
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e := big.NewInt(int64(p.PublicKey.E)) |
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publicExponent := toBase64(e.Bytes()) |
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privateExponent := toBase64(p.D.Bytes()) |
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prime1 := toBase64(p.Primes[0].Bytes()) |
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prime2 := toBase64(p.Primes[1].Bytes()) |
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// Calculate Exponent1/2 and Coefficient as per: http://en.wikipedia.org/wiki/RSA#Using_the_Chinese_remainder_algorithm |
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// and from: http://code.google.com/p/go/issues/detail?id=987 |
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one := big.NewInt(1) |
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p1 := big.NewInt(0).Sub(p.Primes[0], one) |
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q1 := big.NewInt(0).Sub(p.Primes[1], one) |
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exp1 := big.NewInt(0).Mod(p.D, p1) |
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exp2 := big.NewInt(0).Mod(p.D, q1) |
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coeff := big.NewInt(0).ModInverse(p.Primes[1], p.Primes[0]) |
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exponent1 := toBase64(exp1.Bytes()) |
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exponent2 := toBase64(exp2.Bytes()) |
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coefficient := toBase64(coeff.Bytes()) |
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return format + |
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"Algorithm: " + algorithm + "\n" + |
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"Modulus: " + modulus + "\n" + |
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"PublicExponent: " + publicExponent + "\n" + |
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"PrivateExponent: " + privateExponent + "\n" + |
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"Prime1: " + prime1 + "\n" + |
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"Prime2: " + prime2 + "\n" + |
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"Exponent1: " + exponent1 + "\n" + |
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"Exponent2: " + exponent2 + "\n" + |
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"Coefficient: " + coefficient + "\n" |
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} |
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type ECDSAPrivateKey ecdsa.PrivateKey |
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func (p *ECDSAPrivateKey) Sign(hashed []byte, alg uint8) ([]byte, error) { |
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var intlen int |
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switch alg { |
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case ECDSAP256SHA256: |
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intlen = 32 |
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case ECDSAP384SHA384: |
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intlen = 48 |
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default: |
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return nil, ErrAlg |
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} |
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r1, s1, err := ecdsa.Sign(rand.Reader, (*ecdsa.PrivateKey)(p), hashed) |
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if err != nil { |
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return nil, err |
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} |
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signature := intToBytes(r1, intlen) |
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signature = append(signature, intToBytes(s1, intlen)...) |
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return signature, nil |
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} |
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func (p *ECDSAPrivateKey) String(alg uint8) string { |
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algorithm := strconv.Itoa(int(alg)) + " (" + AlgorithmToString[alg] + ")" |
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var intlen int |
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switch alg { |
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case ECDSAP256SHA256: |
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intlen = 32 |
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case ECDSAP384SHA384: |
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intlen = 48 |
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} |
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private := toBase64(intToBytes(p.D, intlen)) |
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return format + |
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"Algorithm: " + algorithm + "\n" + |
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"PrivateKey: " + private + "\n" |
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} |
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type DSAPrivateKey dsa.PrivateKey |
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func (p *DSAPrivateKey) Sign(hashed []byte, alg uint8) ([]byte, error) { |
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r1, s1, err := dsa.Sign(rand.Reader, (*dsa.PrivateKey)(p), hashed) |
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if err != nil { |
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return nil, err |
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} |
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t := divRoundUp(divRoundUp(p.PublicKey.Y.BitLen(), 8)-64, 8) |
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signature := []byte{byte(t)} |
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signature = append(signature, intToBytes(r1, 20)...) |
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signature = append(signature, intToBytes(s1, 20)...) |
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return signature, nil |
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} |
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func (p *DSAPrivateKey) String(alg uint8) string { |
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algorithm := strconv.Itoa(int(alg)) + " (" + AlgorithmToString[alg] + ")" |
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T := divRoundUp(divRoundUp(p.PublicKey.Parameters.G.BitLen(), 8)-64, 8) |
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prime := toBase64(intToBytes(p.PublicKey.Parameters.P, 64+T*8)) |
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subprime := toBase64(intToBytes(p.PublicKey.Parameters.Q, 20)) |
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base := toBase64(intToBytes(p.PublicKey.Parameters.G, 64+T*8)) |
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priv := toBase64(intToBytes(p.X, 20)) |
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pub := toBase64(intToBytes(p.PublicKey.Y, 64+T*8)) |
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return format + |
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"Algorithm: " + algorithm + "\n" + |
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"Prime(p): " + prime + "\n" + |
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"Subprime(q): " + subprime + "\n" + |
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"Base(g): " + base + "\n" + |
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"Private_value(x): " + priv + "\n" + |
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"Public_value(y): " + pub + "\n" |
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}
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