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cloudkeys-go/vendor/golang.org/x/crypto/otr/smp.go
Knut Ahlers a1df72edc5
Squashed commit of the following:
commit f0db1ff1f8
Author: Knut Ahlers <knut@ahlers.me>
Date:   Sun Dec 24 12:19:56 2017 +0100

    Mark option as deprecated

    Signed-off-by: Knut Ahlers <knut@ahlers.me>

commit 9891df2a16
Author: Knut Ahlers <knut@ahlers.me>
Date:   Sun Dec 24 12:11:56 2017 +0100

    Fix: Typo

    Signed-off-by: Knut Ahlers <knut@ahlers.me>

commit 836006de64
Author: Knut Ahlers <knut@ahlers.me>
Date:   Sun Dec 24 12:04:20 2017 +0100

    Add new dependencies

    Signed-off-by: Knut Ahlers <knut@ahlers.me>

commit d64fee60c8
Author: Knut Ahlers <knut@ahlers.me>
Date:   Sun Dec 24 11:55:52 2017 +0100

    Replace insecure password hashing

    Prior this commit passwords were hashed with a static salt and using the
    SHA1 hashing function. This could lead to passwords being attackable in
    case someone gets access to the raw data stored inside the database.
    This commit introduces password hashing using bcrypt hashing function
    which addresses this issue.

    Old passwords are not automatically re-hashed as they are unknown.
    Replacing the old password scheme is not that easy and needs #10 to be
    solved. Therefore the old hashing scheme is kept for compatibility
    reason.

    Signed-off-by: Knut Ahlers <knut@ahlers.me>

Signed-off-by: Knut Ahlers <knut@ahlers.me>

closes #14
closes #15
2017-12-24 19:44:24 +01:00

572 lines
12 KiB
Go

// Copyright 2012 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// This file implements the Socialist Millionaires Protocol as described in
// http://www.cypherpunks.ca/otr/Protocol-v2-3.1.0.html. The protocol
// specification is required in order to understand this code and, where
// possible, the variable names in the code match up with the spec.
package otr
import (
"bytes"
"crypto/sha256"
"errors"
"hash"
"math/big"
)
type smpFailure string
func (s smpFailure) Error() string {
return string(s)
}
var smpFailureError = smpFailure("otr: SMP protocol failed")
var smpSecretMissingError = smpFailure("otr: mutual secret needed")
const smpVersion = 1
const (
smpState1 = iota
smpState2
smpState3
smpState4
)
type smpState struct {
state int
a2, a3, b2, b3, pb, qb *big.Int
g2a, g3a *big.Int
g2, g3 *big.Int
g3b, papb, qaqb, ra *big.Int
saved *tlv
secret *big.Int
question string
}
func (c *Conversation) startSMP(question string) (tlvs []tlv) {
if c.smp.state != smpState1 {
tlvs = append(tlvs, c.generateSMPAbort())
}
tlvs = append(tlvs, c.generateSMP1(question))
c.smp.question = ""
c.smp.state = smpState2
return
}
func (c *Conversation) resetSMP() {
c.smp.state = smpState1
c.smp.secret = nil
c.smp.question = ""
}
func (c *Conversation) processSMP(in tlv) (out tlv, complete bool, err error) {
data := in.data
switch in.typ {
case tlvTypeSMPAbort:
if c.smp.state != smpState1 {
err = smpFailureError
}
c.resetSMP()
return
case tlvTypeSMP1WithQuestion:
// We preprocess this into a SMP1 message.
nulPos := bytes.IndexByte(data, 0)
if nulPos == -1 {
err = errors.New("otr: SMP message with question didn't contain a NUL byte")
return
}
c.smp.question = string(data[:nulPos])
data = data[nulPos+1:]
}
numMPIs, data, ok := getU32(data)
if !ok || numMPIs > 20 {
err = errors.New("otr: corrupt SMP message")
return
}
mpis := make([]*big.Int, numMPIs)
for i := range mpis {
var ok bool
mpis[i], data, ok = getMPI(data)
if !ok {
err = errors.New("otr: corrupt SMP message")
return
}
}
switch in.typ {
case tlvTypeSMP1, tlvTypeSMP1WithQuestion:
if c.smp.state != smpState1 {
c.resetSMP()
out = c.generateSMPAbort()
return
}
if c.smp.secret == nil {
err = smpSecretMissingError
return
}
if err = c.processSMP1(mpis); err != nil {
return
}
c.smp.state = smpState3
out = c.generateSMP2()
case tlvTypeSMP2:
if c.smp.state != smpState2 {
c.resetSMP()
out = c.generateSMPAbort()
return
}
if out, err = c.processSMP2(mpis); err != nil {
out = c.generateSMPAbort()
return
}
c.smp.state = smpState4
case tlvTypeSMP3:
if c.smp.state != smpState3 {
c.resetSMP()
out = c.generateSMPAbort()
return
}
if out, err = c.processSMP3(mpis); err != nil {
return
}
c.smp.state = smpState1
c.smp.secret = nil
complete = true
case tlvTypeSMP4:
if c.smp.state != smpState4 {
c.resetSMP()
out = c.generateSMPAbort()
return
}
if err = c.processSMP4(mpis); err != nil {
out = c.generateSMPAbort()
return
}
c.smp.state = smpState1
c.smp.secret = nil
complete = true
default:
panic("unknown SMP message")
}
return
}
func (c *Conversation) calcSMPSecret(mutualSecret []byte, weStarted bool) {
h := sha256.New()
h.Write([]byte{smpVersion})
if weStarted {
h.Write(c.PrivateKey.PublicKey.Fingerprint())
h.Write(c.TheirPublicKey.Fingerprint())
} else {
h.Write(c.TheirPublicKey.Fingerprint())
h.Write(c.PrivateKey.PublicKey.Fingerprint())
}
h.Write(c.SSID[:])
h.Write(mutualSecret)
c.smp.secret = new(big.Int).SetBytes(h.Sum(nil))
}
func (c *Conversation) generateSMP1(question string) tlv {
var randBuf [16]byte
c.smp.a2 = c.randMPI(randBuf[:])
c.smp.a3 = c.randMPI(randBuf[:])
g2a := new(big.Int).Exp(g, c.smp.a2, p)
g3a := new(big.Int).Exp(g, c.smp.a3, p)
h := sha256.New()
r2 := c.randMPI(randBuf[:])
r := new(big.Int).Exp(g, r2, p)
c2 := new(big.Int).SetBytes(hashMPIs(h, 1, r))
d2 := new(big.Int).Mul(c.smp.a2, c2)
d2.Sub(r2, d2)
d2.Mod(d2, q)
if d2.Sign() < 0 {
d2.Add(d2, q)
}
r3 := c.randMPI(randBuf[:])
r.Exp(g, r3, p)
c3 := new(big.Int).SetBytes(hashMPIs(h, 2, r))
d3 := new(big.Int).Mul(c.smp.a3, c3)
d3.Sub(r3, d3)
d3.Mod(d3, q)
if d3.Sign() < 0 {
d3.Add(d3, q)
}
var ret tlv
if len(question) > 0 {
ret.typ = tlvTypeSMP1WithQuestion
ret.data = append(ret.data, question...)
ret.data = append(ret.data, 0)
} else {
ret.typ = tlvTypeSMP1
}
ret.data = appendU32(ret.data, 6)
ret.data = appendMPIs(ret.data, g2a, c2, d2, g3a, c3, d3)
return ret
}
func (c *Conversation) processSMP1(mpis []*big.Int) error {
if len(mpis) != 6 {
return errors.New("otr: incorrect number of arguments in SMP1 message")
}
g2a := mpis[0]
c2 := mpis[1]
d2 := mpis[2]
g3a := mpis[3]
c3 := mpis[4]
d3 := mpis[5]
h := sha256.New()
r := new(big.Int).Exp(g, d2, p)
s := new(big.Int).Exp(g2a, c2, p)
r.Mul(r, s)
r.Mod(r, p)
t := new(big.Int).SetBytes(hashMPIs(h, 1, r))
if c2.Cmp(t) != 0 {
return errors.New("otr: ZKP c2 incorrect in SMP1 message")
}
r.Exp(g, d3, p)
s.Exp(g3a, c3, p)
r.Mul(r, s)
r.Mod(r, p)
t.SetBytes(hashMPIs(h, 2, r))
if c3.Cmp(t) != 0 {
return errors.New("otr: ZKP c3 incorrect in SMP1 message")
}
c.smp.g2a = g2a
c.smp.g3a = g3a
return nil
}
func (c *Conversation) generateSMP2() tlv {
var randBuf [16]byte
b2 := c.randMPI(randBuf[:])
c.smp.b3 = c.randMPI(randBuf[:])
r2 := c.randMPI(randBuf[:])
r3 := c.randMPI(randBuf[:])
r4 := c.randMPI(randBuf[:])
r5 := c.randMPI(randBuf[:])
r6 := c.randMPI(randBuf[:])
g2b := new(big.Int).Exp(g, b2, p)
g3b := new(big.Int).Exp(g, c.smp.b3, p)
r := new(big.Int).Exp(g, r2, p)
h := sha256.New()
c2 := new(big.Int).SetBytes(hashMPIs(h, 3, r))
d2 := new(big.Int).Mul(b2, c2)
d2.Sub(r2, d2)
d2.Mod(d2, q)
if d2.Sign() < 0 {
d2.Add(d2, q)
}
r.Exp(g, r3, p)
c3 := new(big.Int).SetBytes(hashMPIs(h, 4, r))
d3 := new(big.Int).Mul(c.smp.b3, c3)
d3.Sub(r3, d3)
d3.Mod(d3, q)
if d3.Sign() < 0 {
d3.Add(d3, q)
}
c.smp.g2 = new(big.Int).Exp(c.smp.g2a, b2, p)
c.smp.g3 = new(big.Int).Exp(c.smp.g3a, c.smp.b3, p)
c.smp.pb = new(big.Int).Exp(c.smp.g3, r4, p)
c.smp.qb = new(big.Int).Exp(g, r4, p)
r.Exp(c.smp.g2, c.smp.secret, p)
c.smp.qb.Mul(c.smp.qb, r)
c.smp.qb.Mod(c.smp.qb, p)
s := new(big.Int)
s.Exp(c.smp.g2, r6, p)
r.Exp(g, r5, p)
s.Mul(r, s)
s.Mod(s, p)
r.Exp(c.smp.g3, r5, p)
cp := new(big.Int).SetBytes(hashMPIs(h, 5, r, s))
// D5 = r5 - r4 cP mod q and D6 = r6 - y cP mod q
s.Mul(r4, cp)
r.Sub(r5, s)
d5 := new(big.Int).Mod(r, q)
if d5.Sign() < 0 {
d5.Add(d5, q)
}
s.Mul(c.smp.secret, cp)
r.Sub(r6, s)
d6 := new(big.Int).Mod(r, q)
if d6.Sign() < 0 {
d6.Add(d6, q)
}
var ret tlv
ret.typ = tlvTypeSMP2
ret.data = appendU32(ret.data, 11)
ret.data = appendMPIs(ret.data, g2b, c2, d2, g3b, c3, d3, c.smp.pb, c.smp.qb, cp, d5, d6)
return ret
}
func (c *Conversation) processSMP2(mpis []*big.Int) (out tlv, err error) {
if len(mpis) != 11 {
err = errors.New("otr: incorrect number of arguments in SMP2 message")
return
}
g2b := mpis[0]
c2 := mpis[1]
d2 := mpis[2]
g3b := mpis[3]
c3 := mpis[4]
d3 := mpis[5]
pb := mpis[6]
qb := mpis[7]
cp := mpis[8]
d5 := mpis[9]
d6 := mpis[10]
h := sha256.New()
r := new(big.Int).Exp(g, d2, p)
s := new(big.Int).Exp(g2b, c2, p)
r.Mul(r, s)
r.Mod(r, p)
s.SetBytes(hashMPIs(h, 3, r))
if c2.Cmp(s) != 0 {
err = errors.New("otr: ZKP c2 failed in SMP2 message")
return
}
r.Exp(g, d3, p)
s.Exp(g3b, c3, p)
r.Mul(r, s)
r.Mod(r, p)
s.SetBytes(hashMPIs(h, 4, r))
if c3.Cmp(s) != 0 {
err = errors.New("otr: ZKP c3 failed in SMP2 message")
return
}
c.smp.g2 = new(big.Int).Exp(g2b, c.smp.a2, p)
c.smp.g3 = new(big.Int).Exp(g3b, c.smp.a3, p)
r.Exp(g, d5, p)
s.Exp(c.smp.g2, d6, p)
r.Mul(r, s)
s.Exp(qb, cp, p)
r.Mul(r, s)
r.Mod(r, p)
s.Exp(c.smp.g3, d5, p)
t := new(big.Int).Exp(pb, cp, p)
s.Mul(s, t)
s.Mod(s, p)
t.SetBytes(hashMPIs(h, 5, s, r))
if cp.Cmp(t) != 0 {
err = errors.New("otr: ZKP cP failed in SMP2 message")
return
}
var randBuf [16]byte
r4 := c.randMPI(randBuf[:])
r5 := c.randMPI(randBuf[:])
r6 := c.randMPI(randBuf[:])
r7 := c.randMPI(randBuf[:])
pa := new(big.Int).Exp(c.smp.g3, r4, p)
r.Exp(c.smp.g2, c.smp.secret, p)
qa := new(big.Int).Exp(g, r4, p)
qa.Mul(qa, r)
qa.Mod(qa, p)
r.Exp(g, r5, p)
s.Exp(c.smp.g2, r6, p)
r.Mul(r, s)
r.Mod(r, p)
s.Exp(c.smp.g3, r5, p)
cp.SetBytes(hashMPIs(h, 6, s, r))
r.Mul(r4, cp)
d5 = new(big.Int).Sub(r5, r)
d5.Mod(d5, q)
if d5.Sign() < 0 {
d5.Add(d5, q)
}
r.Mul(c.smp.secret, cp)
d6 = new(big.Int).Sub(r6, r)
d6.Mod(d6, q)
if d6.Sign() < 0 {
d6.Add(d6, q)
}
r.ModInverse(qb, p)
qaqb := new(big.Int).Mul(qa, r)
qaqb.Mod(qaqb, p)
ra := new(big.Int).Exp(qaqb, c.smp.a3, p)
r.Exp(qaqb, r7, p)
s.Exp(g, r7, p)
cr := new(big.Int).SetBytes(hashMPIs(h, 7, s, r))
r.Mul(c.smp.a3, cr)
d7 := new(big.Int).Sub(r7, r)
d7.Mod(d7, q)
if d7.Sign() < 0 {
d7.Add(d7, q)
}
c.smp.g3b = g3b
c.smp.qaqb = qaqb
r.ModInverse(pb, p)
c.smp.papb = new(big.Int).Mul(pa, r)
c.smp.papb.Mod(c.smp.papb, p)
c.smp.ra = ra
out.typ = tlvTypeSMP3
out.data = appendU32(out.data, 8)
out.data = appendMPIs(out.data, pa, qa, cp, d5, d6, ra, cr, d7)
return
}
func (c *Conversation) processSMP3(mpis []*big.Int) (out tlv, err error) {
if len(mpis) != 8 {
err = errors.New("otr: incorrect number of arguments in SMP3 message")
return
}
pa := mpis[0]
qa := mpis[1]
cp := mpis[2]
d5 := mpis[3]
d6 := mpis[4]
ra := mpis[5]
cr := mpis[6]
d7 := mpis[7]
h := sha256.New()
r := new(big.Int).Exp(g, d5, p)
s := new(big.Int).Exp(c.smp.g2, d6, p)
r.Mul(r, s)
s.Exp(qa, cp, p)
r.Mul(r, s)
r.Mod(r, p)
s.Exp(c.smp.g3, d5, p)
t := new(big.Int).Exp(pa, cp, p)
s.Mul(s, t)
s.Mod(s, p)
t.SetBytes(hashMPIs(h, 6, s, r))
if t.Cmp(cp) != 0 {
err = errors.New("otr: ZKP cP failed in SMP3 message")
return
}
r.ModInverse(c.smp.qb, p)
qaqb := new(big.Int).Mul(qa, r)
qaqb.Mod(qaqb, p)
r.Exp(qaqb, d7, p)
s.Exp(ra, cr, p)
r.Mul(r, s)
r.Mod(r, p)
s.Exp(g, d7, p)
t.Exp(c.smp.g3a, cr, p)
s.Mul(s, t)
s.Mod(s, p)
t.SetBytes(hashMPIs(h, 7, s, r))
if t.Cmp(cr) != 0 {
err = errors.New("otr: ZKP cR failed in SMP3 message")
return
}
var randBuf [16]byte
r7 := c.randMPI(randBuf[:])
rb := new(big.Int).Exp(qaqb, c.smp.b3, p)
r.Exp(qaqb, r7, p)
s.Exp(g, r7, p)
cr = new(big.Int).SetBytes(hashMPIs(h, 8, s, r))
r.Mul(c.smp.b3, cr)
d7 = new(big.Int).Sub(r7, r)
d7.Mod(d7, q)
if d7.Sign() < 0 {
d7.Add(d7, q)
}
out.typ = tlvTypeSMP4
out.data = appendU32(out.data, 3)
out.data = appendMPIs(out.data, rb, cr, d7)
r.ModInverse(c.smp.pb, p)
r.Mul(pa, r)
r.Mod(r, p)
s.Exp(ra, c.smp.b3, p)
if r.Cmp(s) != 0 {
err = smpFailureError
}
return
}
func (c *Conversation) processSMP4(mpis []*big.Int) error {
if len(mpis) != 3 {
return errors.New("otr: incorrect number of arguments in SMP4 message")
}
rb := mpis[0]
cr := mpis[1]
d7 := mpis[2]
h := sha256.New()
r := new(big.Int).Exp(c.smp.qaqb, d7, p)
s := new(big.Int).Exp(rb, cr, p)
r.Mul(r, s)
r.Mod(r, p)
s.Exp(g, d7, p)
t := new(big.Int).Exp(c.smp.g3b, cr, p)
s.Mul(s, t)
s.Mod(s, p)
t.SetBytes(hashMPIs(h, 8, s, r))
if t.Cmp(cr) != 0 {
return errors.New("otr: ZKP cR failed in SMP4 message")
}
r.Exp(rb, c.smp.a3, p)
if r.Cmp(c.smp.papb) != 0 {
return smpFailureError
}
return nil
}
func (c *Conversation) generateSMPAbort() tlv {
return tlv{typ: tlvTypeSMPAbort}
}
func hashMPIs(h hash.Hash, magic byte, mpis ...*big.Int) []byte {
if h != nil {
h.Reset()
} else {
h = sha256.New()
}
h.Write([]byte{magic})
for _, mpi := range mpis {
h.Write(appendMPI(nil, mpi))
}
return h.Sum(nil)
}