mirror of
https://source.quilibrium.com/quilibrium/ceremonyclient.git
synced 2024-11-10 18:25:17 +00:00
203 lines
4.2 KiB
Go
203 lines
4.2 KiB
Go
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/*
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* Copyright (c) 2012-2020 MIRACL UK Ltd.
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*
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* This file is part of MIRACL Core
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* (see https://github.com/miracl/core).
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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/* MPIN 256-bit API Functions */
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package bls48581
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import "source.quilibrium.com/quilibrium/ceremonyclient/ec/bls48581/core"
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//import "fmt"
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const MFS int = int(MODBYTES)
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const MGS int = int(MODBYTES)
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const BAD_PARAMS int = -11
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const INVALID_POINT int = -14
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const WRONG_ORDER int = -18
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const BAD_PIN int = -19
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/* Configure your PIN here */
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const MAXPIN int32 = 10000 /* PIN less than this */
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const PBLEN int32 = 14 /* Number of bits in PIN */
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func MPIN_HASH_ID(sha int, ID []byte) []byte {
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return core.GPhashit(core.MC_SHA2, sha, int(MODBYTES), 0, nil, -1, ID)
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//return mhashit(sha, 0, ID)
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}
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func roundup(a int, b int) int {
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return (((a)-1)/(b) + 1)
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}
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func MPIN_ENCODE_TO_CURVE(DST []byte, ID []byte, HCID []byte) {
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q := NewBIGints(Modulus)
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k := q.Nbits()
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r := NewBIGints(CURVE_Order)
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m := r.Nbits()
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L := roundup(k+roundup(m, 2), 8)
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var fd = make([]byte, L)
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OKM := core.XMD_Expand(core.MC_SHA2, HASH_TYPE, L, DST, ID)
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for j := 0; j < L; j++ {
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fd[j] = OKM[j]
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}
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dx := DBIG_fromBytes(fd)
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u := NewFPbig(dx.Mod(q))
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P := ECP_map2point(u)
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P.Cfp()
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P.Affine()
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P.ToBytes(HCID, false)
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}
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/* create random secret S */
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func MPIN_RANDOM_GENERATE(rng *core.RAND, S []byte) int {
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r := NewBIGints(CURVE_Order)
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s := Randtrunc(r, 16*AESKEY, rng)
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s.ToBytes(S)
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return 0
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}
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func MPIN_EXTRACT_PIN(CID []byte, pin int, TOKEN []byte) int {
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P := ECP_fromBytes(TOKEN)
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if P.Is_infinity() {
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return INVALID_POINT
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}
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R := ECP_fromBytes(CID)
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if R.Is_infinity() {
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return INVALID_POINT
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}
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R = R.pinmul(int32(pin)%MAXPIN, PBLEN)
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P.Sub(R)
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P.ToBytes(TOKEN, false)
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return 0
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}
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/* Implement step 2 on client side of MPin protocol */
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func MPIN_CLIENT_2(X []byte, Y []byte, SEC []byte) int {
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r := NewBIGints(CURVE_Order)
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P := ECP_fromBytes(SEC)
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if P.Is_infinity() {
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return INVALID_POINT
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}
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px := FromBytes(X)
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py := FromBytes(Y)
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px.add(py)
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px.Mod(r)
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P = G1mul(P, px)
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P.Neg()
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P.ToBytes(SEC, false)
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return 0
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}
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func MPIN_GET_CLIENT_SECRET(S []byte, IDHTC []byte, CST []byte) int {
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s := FromBytes(S)
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P := ECP_fromBytes(IDHTC)
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if P.Is_infinity() {
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return INVALID_POINT
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}
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G1mul(P, s).ToBytes(CST, false)
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return 0
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}
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/* Implement step 1 on client side of MPin protocol */
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func MPIN_CLIENT_1(CID []byte, rng *core.RAND, X []byte, pin int, TOKEN []byte, SEC []byte, xID []byte) int {
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r := NewBIGints(CURVE_Order)
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var x *BIG
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if rng != nil {
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x = Randtrunc(r, 16*AESKEY, rng)
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x.ToBytes(X)
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} else {
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x = FromBytes(X)
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}
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P := ECP_fromBytes(CID)
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if P.Is_infinity() {
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return INVALID_POINT
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}
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T := ECP_fromBytes(TOKEN)
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if T.Is_infinity() {
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return INVALID_POINT
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}
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W := P.pinmul(int32(pin)%MAXPIN, PBLEN)
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T.Add(W)
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P = G1mul(P, x)
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P.ToBytes(xID, false)
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T.ToBytes(SEC, false)
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return 0
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}
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/* Extract Server Secret SST=S*Q where Q is fixed generator in G2 and S is master secret */
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func MPIN_GET_SERVER_SECRET(S []byte, SST []byte) int {
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Q := ECP8_generator()
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s := FromBytes(S)
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Q = G2mul(Q, s)
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Q.ToBytes(SST, false)
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return 0
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}
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/* Implement step 2 of MPin protocol on server side */
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func MPIN_SERVER(HID []byte, Y []byte, SST []byte, xID []byte, mSEC []byte) int {
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Q := ECP8_generator()
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sQ := ECP8_fromBytes(SST)
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if sQ.Is_infinity() {
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return INVALID_POINT
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}
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if xID == nil {
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return BAD_PARAMS
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}
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R := ECP_fromBytes(xID)
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if R.Is_infinity() {
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return INVALID_POINT
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}
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y := FromBytes(Y)
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if HID == nil {
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return BAD_PARAMS
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}
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P := ECP_fromBytes(HID)
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if P.Is_infinity() {
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return INVALID_POINT
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}
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P = G1mul(P, y)
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P.Add(R)
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R = ECP_fromBytes(mSEC)
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if R.Is_infinity() {
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return INVALID_POINT
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}
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var g *FP48
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g = Ate2(Q, R, sQ, P)
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g = Fexp(g)
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if !g.Isunity() {
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return BAD_PIN
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}
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return 0
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}
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