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386 lines
12 KiB
C
386 lines
12 KiB
C
/*
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* The contents of this file are subject to the Mozilla Public
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* License Version 1.1 (the "License"); you may not use this file
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* except in compliance with the License. You may obtain a copy of
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* the License at http://www.mozilla.org/MPL/
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*
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* Software distributed under the License is distributed on an "AS
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* IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
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* implied. See the License for the specific language governing
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* rights and limitations under the License.
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*
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* The Original Code is the Netscape security libraries.
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*
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* The Initial Developer of the Original Code is Netscape
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* Communications Corporation. Portions created by Netscape are
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* Copyright (C) 1994-2000 Netscape Communications Corporation. All
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* Rights Reserved.
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*
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* Contributor(s):
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*
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* Alternatively, the contents of this file may be used under the
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* terms of the GNU General Public License Version 2 or later (the
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* "GPL"), in which case the provisions of the GPL are applicable
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* instead of those above. If you wish to allow use of your
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* version of this file only under the terms of the GPL and not to
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* allow others to use your version of this file under the MPL,
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* indicate your decision by deleting the provisions above and
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* replace them with the notice and other provisions required by
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* the GPL. If you do not delete the provisions above, a recipient
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* may use your version of this file under either the MPL or the
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* GPL.
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*/
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/*
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* Diffie-Hellman parameter generation, key generation, and secret derivation.
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* KEA secret generation and verification.
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*
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* $Id: dh.c,v 1.6 2001/09/20 22:14:06 relyea%netscape.com Exp $
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*/
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#include "prerr.h"
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#include "secerr.h"
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#include "blapi.h"
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#include "secitem.h"
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#include "mpi.h"
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#include "mpprime.h"
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#include "secmpi.h"
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#define DH_SECRET_KEY_LEN 20
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#define KEA_DERIVED_SECRET_LEN 128
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SECStatus
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DH_GenParam(int primeLen, DHParams **params)
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{
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PRArenaPool *arena;
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DHParams *dhparams;
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unsigned char *pb = NULL;
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unsigned char *ab = NULL;
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unsigned long counter = 0;
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mp_int p, q, a, h, psub1, test;
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mp_err err = MP_OKAY;
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SECStatus rv = SECSuccess;
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if (!params || primeLen < 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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arena = PORT_NewArena(NSS_FREEBL_DEFAULT_CHUNKSIZE);
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if (!arena) {
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PORT_SetError(SEC_ERROR_NO_MEMORY);
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return SECFailure;
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}
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dhparams = (DHParams *)PORT_ArenaZAlloc(arena, sizeof(DHParams));
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if (!dhparams) {
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PORT_SetError(SEC_ERROR_NO_MEMORY);
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PORT_FreeArena(arena, PR_TRUE);
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return SECFailure;
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}
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dhparams->arena = arena;
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MP_DIGITS(&p) = 0;
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MP_DIGITS(&q) = 0;
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MP_DIGITS(&a) = 0;
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MP_DIGITS(&h) = 0;
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MP_DIGITS(&psub1) = 0;
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MP_DIGITS(&test) = 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(&a) );
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CHECK_MPI_OK( mp_init(&h) );
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CHECK_MPI_OK( mp_init(&psub1) );
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CHECK_MPI_OK( mp_init(&test) );
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/* generate prime with MPI, uses Miller-Rabin to generate strong prime. */
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pb = PORT_Alloc(primeLen);
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CHECK_SEC_OK( RNG_GenerateGlobalRandomBytes(pb, primeLen) );
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pb[0] |= 0x80; /* set high-order bit */
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pb[primeLen-1] |= 0x01; /* set low-order bit */
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CHECK_MPI_OK( mp_read_unsigned_octets(&p, pb, primeLen) );
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CHECK_MPI_OK( mpp_make_prime(&p, primeLen * 8, PR_TRUE, &counter) );
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/* construct Sophie-Germain prime q = (p-1)/2. */
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CHECK_MPI_OK( mp_sub_d(&p, 1, &psub1) );
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CHECK_MPI_OK( mp_div_2(&psub1, &q) );
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/* construct a generator from the prime. */
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ab = PORT_Alloc(primeLen);
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/* generate a candidate number a in p's field */
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CHECK_SEC_OK( RNG_GenerateGlobalRandomBytes(ab, primeLen) );
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CHECK_MPI_OK( mp_read_unsigned_octets(&a, ab, primeLen) );
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/* force a < p (note that quot(a/p) <= 1) */
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if ( mp_cmp(&a, &p) > 0 )
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CHECK_MPI_OK( mp_sub(&a, &p, &a) );
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do {
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/* check that a is in the range [2..p-1] */
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if ( mp_cmp_d(&a, 2) < 0 || mp_cmp(&a, &psub1) >= 0) {
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/* a is outside of the allowed range. Set a=3 and keep going. */
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mp_set(&a, 3);
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}
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/* if a**q mod p != 1 then a is a generator */
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CHECK_MPI_OK( mp_exptmod(&a, &q, &p, &test) );
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if ( mp_cmp_d(&test, 1) != 0 )
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break;
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/* increment the candidate and try again. */
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CHECK_MPI_OK( mp_add_d(&a, 1, &a) );
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} while (PR_TRUE);
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MPINT_TO_SECITEM(&p, &dhparams->prime, arena);
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MPINT_TO_SECITEM(&a, &dhparams->base, arena);
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*params = dhparams;
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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(&a);
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mp_clear(&h);
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mp_clear(&psub1);
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mp_clear(&test);
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if (pb) PORT_ZFree(pb, primeLen);
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if (ab) PORT_ZFree(ab, primeLen);
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if (err) {
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MP_TO_SEC_ERROR(err);
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rv = SECFailure;
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}
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if (rv)
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PORT_FreeArena(arena, PR_TRUE);
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return rv;
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}
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SECStatus
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DH_NewKey(DHParams *params, DHPrivateKey **privKey)
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{
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PRArenaPool *arena;
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DHPrivateKey *key;
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mp_int g, xa, p, Ya;
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mp_err err = MP_OKAY;
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SECStatus rv = SECSuccess;
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if (!params || !privKey) {
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PORT_SetError(SEC_ERROR_INVALID_ARGS);
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return SECFailure;
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}
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arena = PORT_NewArena(NSS_FREEBL_DEFAULT_CHUNKSIZE);
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if (!arena) {
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PORT_SetError(SEC_ERROR_NO_MEMORY);
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return SECFailure;
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}
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key = (DHPrivateKey *)PORT_ArenaZAlloc(arena, sizeof(DHPrivateKey));
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if (!key) {
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PORT_SetError(SEC_ERROR_NO_MEMORY);
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PORT_FreeArena(arena, PR_TRUE);
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return SECFailure;
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}
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key->arena = arena;
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MP_DIGITS(&g) = 0;
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MP_DIGITS(&xa) = 0;
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MP_DIGITS(&p) = 0;
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MP_DIGITS(&Ya) = 0;
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CHECK_MPI_OK( mp_init(&g) );
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CHECK_MPI_OK( mp_init(&xa) );
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CHECK_MPI_OK( mp_init(&p) );
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CHECK_MPI_OK( mp_init(&Ya) );
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/* Set private key's p */
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CHECK_SEC_OK( SECITEM_CopyItem(arena, &key->prime, ¶ms->prime) );
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SECITEM_TO_MPINT(key->prime, &p);
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/* Set private key's g */
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CHECK_SEC_OK( SECITEM_CopyItem(arena, &key->base, ¶ms->base) );
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SECITEM_TO_MPINT(key->base, &g);
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/* Generate private key xa */
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SECITEM_AllocItem(arena, &key->privateValue, DH_SECRET_KEY_LEN);
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RNG_GenerateGlobalRandomBytes(key->privateValue.data,
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key->privateValue.len);
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SECITEM_TO_MPINT( key->privateValue, &xa );
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/* xa < p */
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CHECK_MPI_OK( mp_mod(&xa, &p, &xa) );
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/* Compute public key Ya = g ** xa mod p */
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CHECK_MPI_OK( mp_exptmod(&g, &xa, &p, &Ya) );
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MPINT_TO_SECITEM(&Ya, &key->publicValue, key->arena);
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*privKey = key;
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cleanup:
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mp_clear(&g);
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mp_clear(&xa);
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mp_clear(&p);
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mp_clear(&Ya);
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if (err) {
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MP_TO_SEC_ERROR(err);
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rv = SECFailure;
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}
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if (rv)
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PORT_FreeArena(arena, PR_TRUE);
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return rv;
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}
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SECStatus
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DH_Derive(SECItem *publicValue,
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SECItem *prime,
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SECItem *privateValue,
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SECItem *derivedSecret,
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unsigned int maxOutBytes)
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{
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mp_int p, Xa, Yb, ZZ;
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mp_err err = MP_OKAY;
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unsigned int len = 0, nb;
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unsigned char *secret = NULL;
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if (!publicValue || !prime || !privateValue || !derivedSecret) {
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PORT_SetError(SEC_ERROR_INVALID_ARGS);
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return SECFailure;
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}
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memset(derivedSecret, 0, sizeof *derivedSecret);
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MP_DIGITS(&p) = 0;
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MP_DIGITS(&Xa) = 0;
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MP_DIGITS(&Yb) = 0;
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MP_DIGITS(&ZZ) = 0;
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CHECK_MPI_OK( mp_init(&p) );
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CHECK_MPI_OK( mp_init(&Xa) );
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CHECK_MPI_OK( mp_init(&Yb) );
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CHECK_MPI_OK( mp_init(&ZZ) );
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SECITEM_TO_MPINT(*publicValue, &Yb);
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SECITEM_TO_MPINT(*privateValue, &Xa);
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SECITEM_TO_MPINT(*prime, &p);
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/* ZZ = (Yb)**Xa mod p */
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CHECK_MPI_OK( mp_exptmod(&Yb, &Xa, &p, &ZZ) );
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/* number of bytes in the derived secret */
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len = mp_unsigned_octet_size(&ZZ);
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/* allocate a buffer which can hold the entire derived secret. */
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secret = PORT_Alloc(len);
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/* grab the derived secret */
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err = mp_to_unsigned_octets(&ZZ, secret, len);
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if (err >= 0) err = MP_OKAY;
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/* Take minimum of bytes requested and bytes in derived secret,
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** if maxOutBytes is 0 take all of the bytes from the derived secret.
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*/
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if (maxOutBytes > 0)
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nb = PR_MIN(len, maxOutBytes);
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else
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nb = len;
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SECITEM_AllocItem(NULL, derivedSecret, nb);
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memcpy(derivedSecret->data, secret, nb);
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cleanup:
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mp_clear(&p);
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mp_clear(&Xa);
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mp_clear(&Yb);
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mp_clear(&ZZ);
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if (secret) {
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/* free the buffer allocated for the full secret. */
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PORT_ZFree(secret, len);
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}
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if (err) {
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MP_TO_SEC_ERROR(err);
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if (derivedSecret->data)
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PORT_ZFree(derivedSecret->data, derivedSecret->len);
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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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KEA_Derive(SECItem *prime,
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SECItem *public1,
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SECItem *public2,
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SECItem *private1,
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SECItem *private2,
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SECItem *derivedSecret)
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{
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mp_int p, Y, R, r, x, t, u, w;
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mp_err err;
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unsigned char *secret = NULL;
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unsigned int len = 0, offset;
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if (!prime || !public1 || !public2 || !private1 || !private2 ||
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!derivedSecret) {
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PORT_SetError(SEC_ERROR_INVALID_ARGS);
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return SECFailure;
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}
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memset(derivedSecret, 0, sizeof *derivedSecret);
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MP_DIGITS(&p) = 0;
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MP_DIGITS(&Y) = 0;
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MP_DIGITS(&R) = 0;
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MP_DIGITS(&r) = 0;
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MP_DIGITS(&x) = 0;
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MP_DIGITS(&t) = 0;
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MP_DIGITS(&u) = 0;
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MP_DIGITS(&w) = 0;
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CHECK_MPI_OK( mp_init(&p) );
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CHECK_MPI_OK( mp_init(&Y) );
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CHECK_MPI_OK( mp_init(&R) );
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CHECK_MPI_OK( mp_init(&r) );
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CHECK_MPI_OK( mp_init(&x) );
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CHECK_MPI_OK( mp_init(&t) );
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CHECK_MPI_OK( mp_init(&u) );
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CHECK_MPI_OK( mp_init(&w) );
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SECITEM_TO_MPINT(*prime, &p);
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SECITEM_TO_MPINT(*public1, &Y);
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SECITEM_TO_MPINT(*public2, &R);
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SECITEM_TO_MPINT(*private1, &r);
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SECITEM_TO_MPINT(*private2, &x);
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/* t = DH(Y, r, p) = Y ** r mod p */
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CHECK_MPI_OK( mp_exptmod(&Y, &r, &p, &t) );
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/* u = DH(R, x, p) = R ** x mod p */
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CHECK_MPI_OK( mp_exptmod(&R, &x, &p, &u) );
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/* w = (t + u) mod p */
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CHECK_MPI_OK( mp_addmod(&t, &u, &p, &w) );
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/* allocate a buffer for the full derived secret */
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len = mp_unsigned_octet_size(&w);
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secret = PORT_Alloc(len);
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/* grab the secret */
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err = mp_to_unsigned_octets(&w, secret, len);
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if (err > 0) err = MP_OKAY;
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/* allocate output buffer */
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SECITEM_AllocItem(NULL, derivedSecret, KEA_DERIVED_SECRET_LEN);
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memset(derivedSecret->data, 0, derivedSecret->len);
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/* copy in the 128 lsb of the secret */
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if (len >= KEA_DERIVED_SECRET_LEN) {
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memcpy(derivedSecret->data, secret + (len - KEA_DERIVED_SECRET_LEN),
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KEA_DERIVED_SECRET_LEN);
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} else {
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offset = KEA_DERIVED_SECRET_LEN - len;
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memcpy(derivedSecret->data + offset, secret, len);
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}
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cleanup:
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mp_clear(&p);
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mp_clear(&Y);
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mp_clear(&R);
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mp_clear(&r);
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mp_clear(&x);
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mp_clear(&t);
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mp_clear(&u);
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mp_clear(&w);
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if (secret)
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PORT_ZFree(secret, len);
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if (err) {
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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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PRBool
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KEA_Verify(SECItem *Y, SECItem *prime, SECItem *subPrime)
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{
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mp_int p, q, y, r;
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mp_err err;
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int cmp = 1; /* default is false */
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if (!Y || !prime || !subPrime) {
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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(&y) = 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(&y) );
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CHECK_MPI_OK( mp_init(&r) );
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SECITEM_TO_MPINT(*prime, &p);
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SECITEM_TO_MPINT(*subPrime, &q);
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SECITEM_TO_MPINT(*Y, &y);
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/* compute r = y**q mod p */
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CHECK_MPI_OK( mp_exptmod(&y, &q, &p, &r) );
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/* compare to 1 */
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cmp = mp_cmp_d(&r, 1);
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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(&y);
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mp_clear(&r);
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if (err) {
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MP_TO_SEC_ERROR(err);
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return PR_FALSE;
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}
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return (cmp == 0) ? PR_TRUE : PR_FALSE;
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}
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