mirror of
https://github.com/rn10950/RetroZilla.git
synced 2024-11-14 03:30:17 +01:00
496 lines
14 KiB
C
496 lines
14 KiB
C
/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifdef FREEBL_NO_DEPEND
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#include "stubs.h"
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#endif
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#include "blapi.h"
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#include "secerr.h"
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#include "secitem.h"
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#include "secmpi.h"
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/* Hash an item's length and then its value. Only items smaller than 2^16 bytes
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* are allowed. Lengths are hashed in network byte order. This is designed
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* to match the OpenSSL J-PAKE implementation.
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*/
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static mp_err
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hashSECItem(HASHContext * hash, const SECItem * it)
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{
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unsigned char length[2];
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if (it->len > 0xffff)
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return MP_BADARG;
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length[0] = (unsigned char) (it->len >> 8);
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length[1] = (unsigned char) (it->len);
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hash->hashobj->update(hash->hash_context, length, 2);
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hash->hashobj->update(hash->hash_context, it->data, it->len);
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return MP_OKAY;
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}
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/* Hash all public components of the signature, each prefixed with its
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length, and then convert the hash to an mp_int. */
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static mp_err
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hashPublicParams(HASH_HashType hashType, const SECItem * g,
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const SECItem * gv, const SECItem * gx,
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const SECItem * signerID, mp_int * h)
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{
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mp_err err;
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unsigned char hBuf[HASH_LENGTH_MAX];
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SECItem hItem;
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HASHContext hash;
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hash.hashobj = HASH_GetRawHashObject(hashType);
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if (hash.hashobj == NULL || hash.hashobj->length > sizeof hBuf) {
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return MP_BADARG;
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}
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hash.hash_context = hash.hashobj->create();
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if (hash.hash_context == NULL) {
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return MP_MEM;
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}
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hItem.data = hBuf;
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hItem.len = hash.hashobj->length;
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hash.hashobj->begin(hash.hash_context);
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CHECK_MPI_OK( hashSECItem(&hash, g) );
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CHECK_MPI_OK( hashSECItem(&hash, gv) );
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CHECK_MPI_OK( hashSECItem(&hash, gx) );
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CHECK_MPI_OK( hashSECItem(&hash, signerID) );
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hash.hashobj->end(hash.hash_context, hItem.data, &hItem.len,
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sizeof hBuf);
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SECITEM_TO_MPINT(hItem, h);
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cleanup:
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if (hash.hash_context != NULL) {
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hash.hashobj->destroy(hash.hash_context, PR_TRUE);
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}
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return err;
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}
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/* Generate a Schnorr signature for round 1 or round 2 */
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SECStatus
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JPAKE_Sign(PLArenaPool * arena, const PQGParams * pqg, HASH_HashType hashType,
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const SECItem * signerID, const SECItem * x,
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const SECItem * testRandom, const SECItem * gxIn, SECItem * gxOut,
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SECItem * gv, SECItem * r)
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{
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SECStatus rv = SECSuccess;
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mp_err err;
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mp_int p;
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mp_int q;
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mp_int g;
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mp_int X;
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mp_int GX;
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mp_int V;
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mp_int GV;
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mp_int h;
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mp_int tmp;
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mp_int R;
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SECItem v;
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if (!arena ||
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!pqg || !pqg->prime.data || pqg->prime.len == 0 ||
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!pqg->subPrime.data || pqg->subPrime.len == 0 ||
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!pqg->base.data || pqg->base.len == 0 ||
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!signerID || !signerID->data || signerID->len == 0 ||
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!x || !x->data || x->len == 0 ||
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(testRandom && (!testRandom->data || testRandom->len == 0)) ||
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(gxIn == NULL && (!gxOut || gxOut->data != NULL)) ||
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(gxIn != NULL && (!gxIn->data || gxIn->len == 0 || gxOut != NULL)) ||
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!gv || gv->data != NULL ||
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!r || r->data != NULL) {
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PORT_SetError(SEC_ERROR_INVALID_ARGS);
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return SECFailure;
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}
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MP_DIGITS(&p) = 0;
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MP_DIGITS(&q) = 0;
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MP_DIGITS(&g) = 0;
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MP_DIGITS(&X) = 0;
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MP_DIGITS(&GX) = 0;
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MP_DIGITS(&V) = 0;
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MP_DIGITS(&GV) = 0;
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MP_DIGITS(&h) = 0;
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MP_DIGITS(&tmp) = 0;
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MP_DIGITS(&R) = 0;
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CHECK_MPI_OK( mp_init(&p) );
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CHECK_MPI_OK( mp_init(&q) );
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CHECK_MPI_OK( mp_init(&g) );
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CHECK_MPI_OK( mp_init(&X) );
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CHECK_MPI_OK( mp_init(&GX) );
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CHECK_MPI_OK( mp_init(&V) );
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CHECK_MPI_OK( mp_init(&GV) );
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CHECK_MPI_OK( mp_init(&h) );
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CHECK_MPI_OK( mp_init(&tmp) );
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CHECK_MPI_OK( mp_init(&R) );
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SECITEM_TO_MPINT(pqg->prime, &p);
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SECITEM_TO_MPINT(pqg->subPrime, &q);
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SECITEM_TO_MPINT(pqg->base, &g);
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SECITEM_TO_MPINT(*x, &X);
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/* gx = g^x */
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if (gxIn == NULL) {
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CHECK_MPI_OK( mp_exptmod(&g, &X, &p, &GX) );
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MPINT_TO_SECITEM(&GX, gxOut, arena);
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gxIn = gxOut;
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} else {
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SECITEM_TO_MPINT(*gxIn, &GX);
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}
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/* v is a random value in the q subgroup */
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if (testRandom == NULL) {
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v.data = NULL;
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rv = DSA_NewRandom(arena, &pqg->subPrime, &v);
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if (rv != SECSuccess) {
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goto cleanup;
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}
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} else {
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v.data = testRandom->data;
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v.len = testRandom->len;
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}
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SECITEM_TO_MPINT(v, &V);
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/* gv = g^v (mod q), random v, 1 <= v < q */
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CHECK_MPI_OK( mp_exptmod(&g, &V, &p, &GV) );
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MPINT_TO_SECITEM(&GV, gv, arena);
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/* h = H(g, gv, gx, signerID) */
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CHECK_MPI_OK( hashPublicParams(hashType, &pqg->base, gv, gxIn, signerID,
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&h) );
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/* r = v - x*h (mod q) */
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CHECK_MPI_OK( mp_mulmod(&X, &h, &q, &tmp) );
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CHECK_MPI_OK( mp_submod(&V, &tmp, &q, &R) );
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MPINT_TO_SECITEM(&R, r, arena);
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cleanup:
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mp_clear(&p);
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mp_clear(&q);
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mp_clear(&g);
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mp_clear(&X);
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mp_clear(&GX);
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mp_clear(&V);
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mp_clear(&GV);
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mp_clear(&h);
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mp_clear(&tmp);
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mp_clear(&R);
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if (rv == SECSuccess && err != MP_OKAY) {
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MP_TO_SEC_ERROR(err);
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rv = SECFailure;
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}
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return rv;
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}
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/* Verify a Schnorr signature generated by the peer in round 1 or round 2. */
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SECStatus
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JPAKE_Verify(PLArenaPool * arena, const PQGParams * pqg, HASH_HashType hashType,
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const SECItem * signerID, const SECItem * peerID,
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const SECItem * gx, const SECItem * gv, const SECItem * r)
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{
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SECStatus rv = SECSuccess;
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mp_err err;
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mp_int p;
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mp_int q;
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mp_int g;
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mp_int p_minus_1;
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mp_int GX;
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mp_int h;
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mp_int one;
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mp_int R;
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mp_int gr;
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mp_int gxh;
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mp_int gr_gxh;
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SECItem calculated;
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if (!arena ||
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!pqg || !pqg->prime.data || pqg->prime.len == 0 ||
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!pqg->subPrime.data || pqg->subPrime.len == 0 ||
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!pqg->base.data || pqg->base.len == 0 ||
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!signerID || !signerID->data || signerID->len == 0 ||
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!peerID || !peerID->data || peerID->len == 0 ||
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!gx || !gx->data || gx->len == 0 ||
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!gv || !gv->data || gv->len == 0 ||
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!r || !r->data || r->len == 0 ||
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SECITEM_CompareItem(signerID, peerID) == SECEqual) {
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PORT_SetError(SEC_ERROR_INVALID_ARGS);
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return SECFailure;
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}
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MP_DIGITS(&p) = 0;
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MP_DIGITS(&q) = 0;
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MP_DIGITS(&g) = 0;
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MP_DIGITS(&p_minus_1) = 0;
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MP_DIGITS(&GX) = 0;
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MP_DIGITS(&h) = 0;
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MP_DIGITS(&one) = 0;
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MP_DIGITS(&R) = 0;
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MP_DIGITS(&gr) = 0;
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MP_DIGITS(&gxh) = 0;
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MP_DIGITS(&gr_gxh) = 0;
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calculated.data = NULL;
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CHECK_MPI_OK( mp_init(&p) );
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CHECK_MPI_OK( mp_init(&q) );
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CHECK_MPI_OK( mp_init(&g) );
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CHECK_MPI_OK( mp_init(&p_minus_1) );
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CHECK_MPI_OK( mp_init(&GX) );
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CHECK_MPI_OK( mp_init(&h) );
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CHECK_MPI_OK( mp_init(&one) );
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CHECK_MPI_OK( mp_init(&R) );
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CHECK_MPI_OK( mp_init(&gr) );
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CHECK_MPI_OK( mp_init(&gxh) );
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CHECK_MPI_OK( mp_init(&gr_gxh) );
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SECITEM_TO_MPINT(pqg->prime, &p);
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SECITEM_TO_MPINT(pqg->subPrime, &q);
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SECITEM_TO_MPINT(pqg->base, &g);
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SECITEM_TO_MPINT(*gx, &GX);
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SECITEM_TO_MPINT(*r, &R);
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CHECK_MPI_OK( mp_sub_d(&p, 1, &p_minus_1) );
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CHECK_MPI_OK( mp_exptmod(&GX, &q, &p, &one) );
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/* Check g^x is in [1, p-2], R is in [0, q-1], and (g^x)^q mod p == 1 */
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if (!(mp_cmp_z(&GX) > 0 &&
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mp_cmp(&GX, &p_minus_1) < 0 &&
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mp_cmp(&R, &q) < 0 &&
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mp_cmp_d(&one, 1) == 0)) {
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goto badSig;
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}
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CHECK_MPI_OK( hashPublicParams(hashType, &pqg->base, gv, gx, peerID,
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&h) );
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/* Calculate g^v = g^r * g^x^h */
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CHECK_MPI_OK( mp_exptmod(&g, &R, &p, &gr) );
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CHECK_MPI_OK( mp_exptmod(&GX, &h, &p, &gxh) );
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CHECK_MPI_OK( mp_mulmod(&gr, &gxh, &p, &gr_gxh) );
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/* Compare calculated g^v to given g^v */
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MPINT_TO_SECITEM(&gr_gxh, &calculated, arena);
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if (calculated.len == gv->len &&
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NSS_SecureMemcmp(calculated.data, gv->data, calculated.len) == 0) {
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rv = SECSuccess;
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} else {
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badSig: PORT_SetError(SEC_ERROR_BAD_SIGNATURE);
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rv = SECFailure;
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}
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cleanup:
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mp_clear(&p);
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mp_clear(&q);
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mp_clear(&g);
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mp_clear(&p_minus_1);
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mp_clear(&GX);
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mp_clear(&h);
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mp_clear(&one);
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mp_clear(&R);
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mp_clear(&gr);
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mp_clear(&gxh);
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mp_clear(&gr_gxh);
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if (rv == SECSuccess && err != MP_OKAY) {
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MP_TO_SEC_ERROR(err);
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rv = SECFailure;
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}
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return rv;
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}
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/* Calculate base = gx1*gx3*gx4 (mod p), i.e. g^(x1+x3+x4) (mod p) */
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static mp_err
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jpake_Round2Base(const SECItem * gx1, const SECItem * gx3,
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const SECItem * gx4, const mp_int * p, mp_int * base)
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{
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mp_err err;
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mp_int GX1;
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mp_int GX3;
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mp_int GX4;
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mp_int tmp;
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MP_DIGITS(&GX1) = 0;
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MP_DIGITS(&GX3) = 0;
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MP_DIGITS(&GX4) = 0;
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MP_DIGITS(&tmp) = 0;
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CHECK_MPI_OK( mp_init(&GX1) );
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CHECK_MPI_OK( mp_init(&GX3) );
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CHECK_MPI_OK( mp_init(&GX4) );
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CHECK_MPI_OK( mp_init(&tmp) );
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SECITEM_TO_MPINT(*gx1, &GX1);
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SECITEM_TO_MPINT(*gx3, &GX3);
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SECITEM_TO_MPINT(*gx4, &GX4);
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/* In round 2, the peer/attacker sends us g^x3 and g^x4 and the protocol
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requires that these values are distinct. */
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if (mp_cmp(&GX3, &GX4) == 0) {
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return MP_BADARG;
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}
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CHECK_MPI_OK( mp_mul(&GX1, &GX3, &tmp) );
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CHECK_MPI_OK( mp_mul(&tmp, &GX4, &tmp) );
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CHECK_MPI_OK( mp_mod(&tmp, p, base) );
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cleanup:
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mp_clear(&GX1);
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mp_clear(&GX3);
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mp_clear(&GX4);
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mp_clear(&tmp);
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return err;
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}
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SECStatus
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JPAKE_Round2(PLArenaPool * arena,
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const SECItem * p, const SECItem *q, const SECItem * gx1,
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const SECItem * gx3, const SECItem * gx4, SECItem * base,
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const SECItem * x2, const SECItem * s, SECItem * x2s)
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{
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mp_err err;
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mp_int P;
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mp_int Q;
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mp_int X2;
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mp_int S;
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mp_int result;
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if (!arena ||
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!p || !p->data || p->len == 0 ||
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!q || !q->data || q->len == 0 ||
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!gx1 || !gx1->data || gx1->len == 0 ||
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!gx3 || !gx3->data || gx3->len == 0 ||
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!gx4 || !gx4->data || gx4->len == 0 ||
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!base || base->data != NULL ||
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(x2s != NULL && (x2s->data != NULL ||
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!x2 || !x2->data || x2->len == 0 ||
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!s || !s->data || s->len == 0))) {
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PORT_SetError(SEC_ERROR_INVALID_ARGS);
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return SECFailure;
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}
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MP_DIGITS(&P) = 0;
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MP_DIGITS(&Q) = 0;
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MP_DIGITS(&X2) = 0;
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MP_DIGITS(&S) = 0;
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MP_DIGITS(&result) = 0;
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CHECK_MPI_OK( mp_init(&P) );
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CHECK_MPI_OK( mp_init(&Q) );
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CHECK_MPI_OK( mp_init(&result) );
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if (x2s != NULL) {
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CHECK_MPI_OK( mp_init(&X2) );
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CHECK_MPI_OK( mp_init(&S) );
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SECITEM_TO_MPINT(*q, &Q);
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SECITEM_TO_MPINT(*x2, &X2);
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SECITEM_TO_MPINT(*s, &S);
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/* S must be in [1, Q-1] */
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if (mp_cmp_z(&S) <= 0 || mp_cmp(&S, &Q) >= 0) {
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err = MP_BADARG;
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goto cleanup;
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}
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CHECK_MPI_OK( mp_mulmod(&X2, &S, &Q, &result) );
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MPINT_TO_SECITEM(&result, x2s, arena);
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}
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SECITEM_TO_MPINT(*p, &P);
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CHECK_MPI_OK( jpake_Round2Base(gx1, gx3, gx4, &P, &result) );
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MPINT_TO_SECITEM(&result, base, arena);
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cleanup:
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mp_clear(&P);
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mp_clear(&Q);
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mp_clear(&X2);
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mp_clear(&S);
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mp_clear(&result);
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if (err != MP_OKAY) {
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MP_TO_SEC_ERROR(err);
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return SECFailure;
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}
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return SECSuccess;
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}
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SECStatus
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JPAKE_Final(PLArenaPool * arena, const SECItem * p, const SECItem * q,
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const SECItem * x2, const SECItem * gx4, const SECItem * x2s,
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const SECItem * B, SECItem * K)
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{
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mp_err err;
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mp_int P;
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mp_int Q;
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mp_int tmp;
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mp_int exponent;
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mp_int divisor;
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mp_int base;
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if (!arena ||
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!p || !p->data || p->len == 0 ||
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!q || !q->data || q->len == 0 ||
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!x2 || !x2->data || x2->len == 0 ||
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!gx4 || !gx4->data || gx4->len == 0 ||
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!x2s || !x2s->data || x2s->len == 0 ||
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!B || !B->data || B->len == 0 ||
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!K || K->data != NULL) {
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PORT_SetError(SEC_ERROR_INVALID_ARGS);
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return SECFailure;
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}
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MP_DIGITS(&P) = 0;
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MP_DIGITS(&Q) = 0;
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MP_DIGITS(&tmp) = 0;
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MP_DIGITS(&exponent) = 0;
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MP_DIGITS(&divisor) = 0;
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MP_DIGITS(&base) = 0;
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CHECK_MPI_OK( mp_init(&P) );
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CHECK_MPI_OK( mp_init(&Q) );
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CHECK_MPI_OK( mp_init(&tmp) );
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CHECK_MPI_OK( mp_init(&exponent) );
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CHECK_MPI_OK( mp_init(&divisor) );
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CHECK_MPI_OK( mp_init(&base) );
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/* exponent = -x2s (mod q) */
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SECITEM_TO_MPINT(*q, &Q);
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SECITEM_TO_MPINT(*x2s, &tmp);
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|
/* q == 0 (mod q), so q - x2s == -x2s (mod q) */
|
|
CHECK_MPI_OK( mp_sub(&Q, &tmp, &exponent) );
|
|
|
|
/* divisor = gx4^-x2s = 1/(gx4^x2s) (mod p) */
|
|
SECITEM_TO_MPINT(*p, &P);
|
|
SECITEM_TO_MPINT(*gx4, &tmp);
|
|
CHECK_MPI_OK( mp_exptmod(&tmp, &exponent, &P, &divisor) );
|
|
|
|
/* base = B*divisor = B/(gx4^x2s) (mod p) */
|
|
SECITEM_TO_MPINT(*B, &tmp);
|
|
CHECK_MPI_OK( mp_mulmod(&divisor, &tmp, &P, &base) );
|
|
|
|
/* tmp = base^x2 (mod p) */
|
|
SECITEM_TO_MPINT(*x2, &exponent);
|
|
CHECK_MPI_OK( mp_exptmod(&base, &exponent, &P, &tmp) );
|
|
|
|
MPINT_TO_SECITEM(&tmp, K, arena);
|
|
|
|
cleanup:
|
|
mp_clear(&P);
|
|
mp_clear(&Q);
|
|
mp_clear(&tmp);
|
|
mp_clear(&exponent);
|
|
mp_clear(&divisor);
|
|
mp_clear(&base);
|
|
|
|
if (err != MP_OKAY) {
|
|
MP_TO_SEC_ERROR(err);
|
|
return SECFailure;
|
|
}
|
|
return SECSuccess;
|
|
}
|