sodium-javascript/crypto_sign_ed25519.js

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const { sodium_memzero } = require('./')
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const { randombytes_buf } = require('./randombytes')
const ec = require('./fe25519_25')
const {
crypto_hash_sha512, crypto_hash_sha512_update,
crypto_hash_sha512_state, crypto_hash_sha512_final
} = require('./crypto_hash.js')
const { crypto_verify_32 } = require('./crypto_verify')
var crypto_sign_ed25519_BYTES = 64
var crypto_sign_ed25519_SEEDBYTES = 32
var crypto_sign_ed25519_PUBLICKEYBYTES = 32
var crypto_sign_ed25519_SECRETKEYBYTES = 64
var crypto_sign_ed25519_MESSAGEBYTES_MAX = Number.MAX_SAFE_INTEGER
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const crypto_sign_BYTES = crypto_sign_ed25519_BYTES
const crypto_sign_PUBLICKEYBYTES = crypto_sign_ed25519_PUBLICKEYBYTES
const crypto_sign_SECRETKEYBYTES = crypto_sign_ed25519_SECRETKEYBYTES
const crypto_sign_SEEDBYTES = crypto_sign_ed25519_SEEDBYTES
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function crypto_sign_seed_keypair (pk, sk, seed) {
const A = ec.ge25519_p3()
crypto_hash_sha512(sk, seed, 32)
sk[0] &= 248
sk[31] &= 127
sk[31] |= 64
ec.ge25519_scalarmult_base(A, sk)
ec.ge25519_p3_tobytes(pk, A)
sk.set(seed, 32)
sk.set(pk, 32)
}
function crypto_sign_keypair (pk, sk) {
const seed = Buffer.alloc(32)
randombytes_buf(seed)
crypto_sign_seed_keypair(pk, sk, seed)
sodium_memzero(seed)
}
function crypto_sign_ed25519_pk_to_curve25519 (curve25519_pk, ed25519_pk)
{
const A = ec.ge25519_p3()
const x = ec.fe25519()
const one_minus_y = ec.fe25519()
if (ec.ge25519_has_small_order(ed25519_pk) != 0 ||
ec.ge25519_frombytes_negate_vartime(A, ed25519_pk) != 0 ||
ec.ge25519_is_on_main_subgroup(A) == 0) {
throw new Error('Invalid public key')
}
fe25519_1(one_minus_y)
fe25519_sub(one_minus_y, one_minus_y, A[1])
fe25519_1(x)
fe25519_add(x, x, A[1])
fe25519_invert(one_minus_y, one_minus_y)
fe25519_mul(x, x, one_minus_y)
fe25519_tobytes(curve25519_pk, x)
}
function crypto_sign_ed25519_sk_to_curve25519 (curve25519_sk, ed25519_sk)
{
const h = Buffer.alloc(crypto_hash_sha512_BYTES)
crypto_hash_sha512(h, ed25519_sk, 32)
h[0] &= 248
h[31] &= 127
h[31] |= 64
curve25519_sk.set(h.subarray(0, crypto_scalarmult_curve25519_BYTES))
sodium_memzero(h)
}
function _crypto_sign_ed25519_ref10_hinit (hs, prehashed) {
const DOM2PREFIX = Buffer.from('SigEd25519 no Ed25519 collisions ')
DOM2PREFIX[30] = 1
DOM2PREFIX[31] = 0
if (prehashed) {
crypto_hash_sha512_update(hs, DOM2PREFIX, DOM2PREFIX.byteLength)
}
}
function _crypto_sign_ed25519_clamp (k) {
k[0] &= 248
k[31] &= 127
k[31] |= 64
}
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function _crypto_sign_ed25519_detached (sig, m, sk, prehashed) {
var state = crypto_hash_sha512_state()
var az = Buffer.alloc(64)
var nonce = Buffer.alloc(64)
var hram = Buffer.alloc(64)
var R = ec.ge3()
_crypto_sign_ed25519_ref10_hinit(state, prehashed)
crypto_hash_sha512(az, sk, 32)
crypto_hash_sha512_update(state, az.subarray(32), 32)
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crypto_hash_sha512_update(state, m)
crypto_hash_sha512_final(state, nonce)
sig.set(sk.subarray(32, 64), 32)
ec.sc25519_reduce(nonce)
ec.ge25519_scalarmult_base(R, nonce)
ec.ge25519_p3_tobytes(sig, R)
state = crypto_hash_sha512_state()
_crypto_sign_ed25519_ref10_hinit(state, prehashed)
crypto_hash_sha512_update(state, sig, 64)
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crypto_hash_sha512_update(state, m)
crypto_hash_sha512_final(state, hram)
ec.sc25519_reduce(hram)
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console.log('h s', hram.toString('hex'))
_crypto_sign_ed25519_clamp(az)
ec.sc25519_muladd(sig.subarray(32), hram, az, nonce)
sodium_memzero(az)
sodium_memzero(nonce)
return 0
}
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function crypto_sign_ed25519_detached (sig, m, sk) {
return _crypto_sign_ed25519_detached(sig, m, sk, 0)
}
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function crypto_sign_detached (sig, m, sk) {
return _crypto_sign_ed25519_detached(sig, m, sk, 0)
}
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function crypto_sign_ed25519 (sm, m, sk) {
sm.set(m, crypto_sign_ed25519_BYTES)
/* LCOV_EXCL_START */
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if (crypto_sign_ed25519_detached(sm, sm.subarray(crypto_sign_ed25519_BYTES), sk) !== 0) {
sm.fill(0, m.byteLength + crypto_sign_ed25519_BYTES)
return -1
}
/* LCOV_EXCL_STOP */
return m.byteLength + 64
}
function crypto_sign (sm, m, sk) {
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return crypto_sign_ed25519(sm, m, sk)
}
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function _crypto_sign_ed25519_verify_detached(sig, m, pk, prehashed) {
var hs = crypto_hash_sha512_state()
var h = Buffer.alloc(64)
var rcheck = Buffer.alloc(32)
var A = ec.ge3()
var R = ec.ge2()
// #ifdef ED25519_COMPAT
if (sig[63] & 224) {
return -1
}
// #else
// if ((sig[63] & 240) &&
// sc25519_is_canonical(sig + 32) == 0) {
// return -1;
// }
// if (ge25519_has_small_order(sig) != 0) {
// return -1;
// }
// if (ge25519_is_canonical(pk) == 0 ||
// ge25519_has_small_order(pk) != 0) {
// return -1;
// }
// #endif
if (ec.ge25519_frombytes_negate_vartime(A, pk) !== 0) {
return -1
}
ec.ge25519_tobytes(rcheck, A)
_crypto_sign_ed25519_ref10_hinit(hs, prehashed)
crypto_hash_sha512_update(hs, sig, 32)
crypto_hash_sha512_update(hs, pk, 32)
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crypto_hash_sha512_update(hs, m)
crypto_hash_sha512_final(hs, h)
ec.sc25519_reduce(h)
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console.log('h v', h.toString('hex'))
ec.ge25519_double_scalarmult_vartime(R, h, A, sig.subarray(32))
ec.ge25519_tobytes(rcheck, R)
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return crypto_verify_32(rcheck, 0, sig, 0)// | sodium_memcmp(sig.subarray(0, 32), rcheck.subarray(0, 32))
}
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function crypto_sign_ed25519_verify_detached (sig, m, pk) {
return _crypto_sign_ed25519_verify_detached(sig, m, pk, 0);
}
function crypto_sign_ed25519_open (m, sm, pk) {
if (sm.byteLength < 64 || sm.byteLength - 64 > crypto_sign_ed25519_MESSAGEBYTES_MAX) {
throw new Error('Bad signature.')
}
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if (crypto_sign_ed25519_verify_detached(sm, sm.subarray(64), pk) !== 0) {
if (m.byteLength) m.fill(0)
throw new Error('Bad signature.')
}
if (m.byteLength) {
m.set(sm.subarray(64))
}
return true
}
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function crypto_sign_ed25519_sk_to_pk (pk, sk) {
pk.set(sk.subarray(crypto_sign_ed25519_SEEDBYTES))
}
function crypto_sign_open (m, sm, pk) {
return crypto_sign_ed25519_open(m, sm, pk)
}
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function crypto_sign_verify_detached (m, sm, pk) {
return crypto_sign_ed25519_verify_detached(m, sm, pk)
}
function _crypto_sign_ristretto25519_detached (sig, m, sk, prehashed) {
var state = crypto_hash_sha512_state()
var az = Buffer.alloc(64)
var nonce = Buffer.alloc(64)
var hram = Buffer.alloc(64)
var R = ec.ge3()
_crypto_sign_ed25519_ref10_hinit(state, prehashed)
crypto_hash_sha512(az, sk, 32)
crypto_hash_sha512_update(state, az.subarray(32), 32)
crypto_hash_sha512_update(state, m)
crypto_hash_sha512_final(state, nonce)
sig.set(sk.subarray(32, 64), 32)
ec.sc25519_reduce(nonce)
ec.ge25519_scalarmult_base(R, nonce)
ec.ristretto255_p3_tobytes(sig, R)
state = crypto_hash_sha512_state()
_crypto_sign_ed25519_ref10_hinit(state, prehashed)
crypto_hash_sha512_update(state, sig, 64)
crypto_hash_sha512_update(state, m)
crypto_hash_sha512_final(state, hram)
ec.sc25519_reduce(hram)
az[31] &= 127
// az[0] &= 248
// az[0] |= 1
// console.log(az[31] & 128)
// console.log(nonce[31] & 128)
// console.log(hram[31] & 128)
ec.sc25519_muladd(sig.subarray(32), hram, az, nonce)
sodium_memzero(az)
sodium_memzero(nonce)
return 0
var rcheck = Buffer.alloc(32)
var A = ec.ge3()
var _A = ec.ge3()
var h = Buffer.alloc(64)
var hs = crypto_hash_sha512_state()
var pk = sk.subarray(32).slice()
// pk[31] &= 127
ec.ristretto255_frombytes(A, pk, true)
ec.ge25519_scalarmult_base(_A, az)
ec.ge25519_p3_add(_A, _A, A)
ec.ge25519_p3_tobytes(rcheck, _A)
// console.log(rcheck.toString('hex'))
_crypto_sign_ed25519_ref10_hinit(hs, prehashed)
crypto_hash_sha512_update(hs, sig, 32)
crypto_hash_sha512_update(hs, pk, 32)
crypto_hash_sha512_update(hs, m)
crypto_hash_sha512_final(hs, h)
ec.sc25519_reduce(h)
ec.ge25519_double_scalarmult_vartime(R, h, A, sig.subarray(32))
ec.ristretto255_p3_tobytes(rcheck, R)
}
function _crypto_sign_ristretto25519_verify_detached(sig, m, pk, prehashed) {
var hs = crypto_hash_sha512_state()
var h = Buffer.alloc(64)
var rcheck = Buffer.alloc(32)
var A = ec.ge3()
var R = ec.ge3()
// #ifdef ED25519_COMPAT
if (sig[63] & 224) {
console.log('here')
return -1
}
// #else
// if ((sig[63] & 240) &&
// sc25519_is_canonical(sig + 32) == 0) {
// return -1;
// }
// if (ge25519_has_small_order(sig) != 0) {
// return -1;
// }
// if (ge25519_is_canonical(pk) == 0 ||
// ge25519_has_small_order(pk) != 0) {
// return -1;
// }
// #endif
if (ec.ristretto255_frombytes(A, pk, true) !== 0) {
console.log('there')
return -1
}
_crypto_sign_ed25519_ref10_hinit(hs, prehashed)
crypto_hash_sha512_update(hs, sig, 32)
crypto_hash_sha512_update(hs, pk, 32)
crypto_hash_sha512_update(hs, m)
crypto_hash_sha512_final(hs, h)
ec.sc25519_reduce(h)
ec.ge25519_double_scalarmult_vartime(R, h, A, sig.subarray(32))
ec.ristretto255_p3_tobytes(rcheck, R)
return crypto_verify_32(rcheck, 0, sig, 0)// | sodium_memcmp(sig.subarray(0, 32), rcheck.subarray(0, 32))
}
function crypto_sign_ristretto25519_detached (sig, m, sk) {
return _crypto_sign_ristretto25519_detached(sig, m, sk)
}
function crypto_sign_ristretto25519_verify_detached (sig, m, pk) {
return _crypto_sign_ristretto25519_verify_detached(sig, m, pk, 0)
}
function crypto_sign_ristretto25519 (sm, m, sk) {
var siglen
sm.set(m.subarray(0, mlen), crypto_sign_ristretto25519_BYTES)
/* LCOV_EXCL_START */
if (crypto_sign_ristretto25519_detached(sm, sm.subarray(crypto_sign_ristretto25519_BYTES), mlen, sk) !== 0) {
sm.fill(0, mlen + crypto_sign_ristretto25519_BYTES)
return -1
}
/* LCOV_EXCL_STOP */
return m.byteLength + 64
}
module.exports = {
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crypto_sign_keypair,
crypto_sign_seed_keypair,
crypto_sign_ed25519_sk_to_pk,
crypto_sign,
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crypto_sign_open,
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crypto_sign_ed25519_detached,
crypto_sign_detached,
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crypto_sign_ristretto25519_detached,
crypto_sign_ristretto25519_verify_detached,
crypto_sign_verify_detached,
crypto_sign_BYTES,
crypto_sign_PUBLICKEYBYTES,
crypto_sign_SECRETKEYBYTES,
crypto_sign_SEEDBYTES
}