forked from TrueCloudLab/rfc6979
128 lines
2.8 KiB
Go
128 lines
2.8 KiB
Go
/*
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Paraphrasing RFC6979:
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This package implements a deterministic digital signature generation
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procedure. Such signatures are compatible with standard Digital
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Signature Algorithm (DSA) and Elliptic Curve Digital Signature
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Algorithm (ECDSA) digital signatures and can be processed with
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unmodified verifiers, which need not be aware of the procedure
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described therein. Deterministic signatures retain the cryptographic
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security features associated with digital signatures but can be more
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easily implemented in various environments, since they do not need
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access to a source of high-quality randomness.
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Provides functions similar to crypto/dsa and crypto/ecdsa.
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*/
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package rfc6979
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import (
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"bytes"
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"crypto/hmac"
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"hash"
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"math/big"
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)
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// A function which provides a fresh Hash (e.g., sha256.New).
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type HashAlgorithm func() hash.Hash
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func (alg HashAlgorithm) digest(m []byte) []byte {
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h := alg()
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h.Write(m)
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return h.Sum(nil)
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}
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func (alg HashAlgorithm) mac(k []byte, m []byte) []byte {
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h := hmac.New(alg, k)
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h.Write(m)
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return h.Sum(nil)
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}
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// https://tools.ietf.org/html/rfc6979#section-2.3.2
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func bits2int(in []byte, qlen int) *big.Int {
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vlen := len(in) * 8
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v := new(big.Int).SetBytes(in)
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if vlen > qlen {
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v = new(big.Int).Rsh(v, uint(vlen-qlen))
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}
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return v
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}
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// https://tools.ietf.org/html/rfc6979#section-2.3.3
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func int2octets(v *big.Int, rolen int) []byte {
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out := v.Bytes()
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// pad with zeros if it's too short
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if len(out) < rolen {
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out2 := make([]byte, rolen)
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copy(out2[rolen-len(out):], out)
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return out2
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}
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// drop most significant bytes if it's too long
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if len(out) > rolen {
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out2 := make([]byte, rolen)
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copy(out2, out[len(out)-rolen:])
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return out2
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}
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return out
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}
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// https://tools.ietf.org/html/rfc6979#section-2.3.4
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func bits2octets(in []byte, q *big.Int, qlen, rolen int) []byte {
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z1 := bits2int(in, qlen)
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z2 := new(big.Int).Sub(z1, q)
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if z2.Sign() < 0 {
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return int2octets(z1, rolen)
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}
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return int2octets(z2, rolen)
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}
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// https://tools.ietf.org/html/rfc6979#section-3.2
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func generateSecret(q, x *big.Int, alg HashAlgorithm, hash []byte, test func(*big.Int) bool) {
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// Step A
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qlen := q.BitLen()
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holen := alg().Size()
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rolen := (qlen + 7) >> 3
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// Step B
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v := bytes.Repeat([]byte{0x01}, holen)
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// Step C
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k := bytes.Repeat([]byte{0x00}, holen)
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// Step D
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b := int2octets(x, rolen)
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bh := bits2octets(hash, q, qlen, rolen)
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bx := append(b, bh...)
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k = alg.mac(k, append(append(v, 0x00), bx...))
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// Step E
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v = alg.mac(k, v)
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// Step F
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k = alg.mac(k, append(append(v, 0x01), bx...))
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// Step G
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v = alg.mac(k, v)
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for {
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// Step H1
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t := make([]byte, 0)
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// Step H2
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for len(t) < qlen/8 {
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v = alg.mac(k, v)
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t = append(t, v...)
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}
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secret := bits2int(t, qlen)
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if secret.Cmp(big.NewInt(1)) >= 0 && secret.Cmp(q) < 0 && test(secret) {
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return
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}
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k = alg.mac(k, append(v, 0x00))
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v = alg.mac(k, v)
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}
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}
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