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/*
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* Portions Copyright (c) 2009 Nokia Corporation and/or its subsidiary(-ies).
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* All rights reserved.
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* This component and the accompanying materials are made available
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* under the terms of "Eclipse Public License v1.0"
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* which accompanies this distribution, and is available
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* at the URL "http://www.eclipse.org/legal/epl-v10.html".
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*
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* Initial Contributors:
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* Nokia Corporation - initial contribution.
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*
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* Contributors:
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*
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* Description:
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* The original NIST Statistical Test Suite code is placed in public domain.
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* (http://csrc.nist.gov/groups/ST/toolkit/rng/documentation_software.html)
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*
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* This software was developed at the National Institute of Standards and Technology by
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* employees of the Federal Government in the course of their official duties. Pursuant
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* to title 17 Section 105 of the United States Code this software is not subject to
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* copyright protection and is in the public domain. The NIST Statistical Test Suite is
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* an experimental system. NIST assumes no responsibility whatsoever for its use by other
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* parties, and makes no guarantees, expressed or implied, about its quality, reliability,
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* or any other characteristic. We would appreciate acknowledgment if the software is used.
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*/
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#include "openc.h"
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#include "../include/externs.h"
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#include "../include/utilities.h"
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#include "../include/generators.h"
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#include "../include/genutils.h"
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const int KRandomByteCount = 1024;
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double
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lcg_rand(int N, double SEED, double* DUNIF, int NDIM)
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{
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int i;
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double DZ, DOVER, DZ1, DZ2, DOVER1, DOVER2;
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double DTWO31, DMDLS, DA1, DA2;
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DTWO31 = 2147483648.0; /* DTWO31=2**31 */
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DMDLS = 2147483647.0; /* DMDLS=2**31-1 */
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DA1 = 41160.0; /* DA1=950706376 MOD 2**16 */
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DA2 = 950665216.0; /* DA2=950706376-DA1 */
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DZ = SEED;
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if ( N > NDIM )
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N = NDIM;
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for ( i=1; i<=N; i++ ) {
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DZ = floor(DZ);
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DZ1 = DZ*DA1;
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DZ2 = DZ*DA2;
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DOVER1 = floor(DZ1/DTWO31);
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DOVER2 = floor(DZ2/DTWO31);
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DZ1 = DZ1-DOVER1*DTWO31;
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DZ2 = DZ2-DOVER2*DTWO31;
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DZ = DZ1+DZ2+DOVER1+DOVER2;
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DOVER = floor(DZ/DMDLS);
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DZ = DZ-DOVER*DMDLS;
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DUNIF[i-1] = DZ/DMDLS;
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SEED = DZ;
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}
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return SEED;
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}
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void
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lcg()
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{
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double* DUNIF = NULL;
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double SEED;
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int i;
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unsigned bit;
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int num_0s, num_1s, v, bitsRead;
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SEED = 23482349.0;
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if ( ((epsilon = (BitSequence *) calloc(tp.n, sizeof(BitSequence))) == NULL) ||
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((DUNIF = (double*)calloc(tp.n, sizeof(double))) == NULL) ) {
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printf("Insufficient memory available.\n");
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exit(1);
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}
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for ( v=0; v<tp.numOfBitStreams; v++ ) {
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num_0s = 0;
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num_1s = 0;
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bitsRead = 0;
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SEED = lcg_rand(tp.n, SEED, DUNIF, tp.n);
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for ( i=0; i<tp.n; i++ ) {
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if ( DUNIF[i] < 0.5 ) {
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bit = 0;
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num_0s++;
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}
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else {
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bit = 1;
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num_1s++;
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}
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bitsRead++;
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epsilon[i] = (BitSequence)bit;
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}
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fprintf(freqfp, "\t\tBITSREAD = %d 0s = %d 1s = %d\n", bitsRead, num_0s, num_1s);
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nist_test_suite();
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}
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free(DUNIF);
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free(epsilon);
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}
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void
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quadRes1()
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{
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int k, num_0s, num_1s, bitsRead, done;
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BYTE p[64], g[64], x[128];
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if ( ((epsilon = (BitSequence *)calloc(tp.n, sizeof(BitSequence))) == NULL) ) {
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printf("Insufficient memory available.\n");
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exit(1);
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}
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ahtopb("987b6a6bf2c56a97291c445409920032499f9ee7ad128301b5d0254aa1a9633fdbd378d40149f1e23a13849f3d45992f5c4c6b7104099bc301f6005f9d8115e1", p, 64);
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ahtopb("3844506a9456c564b8b8538e0cc15aff46c95e69600f084f0657c2401b3c244734b62ea9bb95be4923b9b7e84eeaf1a224894ef0328d44bc3eb3e983644da3f5", g, 64);
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num_0s = 0;
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num_1s = 0;
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done = 0;
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bitsRead = 0;
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for ( k=0; k<tp.numOfBitStreams; k++ ) {
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num_0s = 0;
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num_1s = 0;
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done = 0;
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bitsRead = 0;
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do {
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memset(x, 0x00, 128);
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ModMult(x, g, 64, g, 64, p,64);
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memcpy(g, x+64, 64);
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done = convertToBits(g, 512, tp.n, &num_0s, &num_1s, &bitsRead);
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} while ( !done );
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fprintf(freqfp, "\t\tBITSREAD = %d 0s = %d 1s = %d\n", bitsRead, num_0s, num_1s);
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nist_test_suite();
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}
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free(epsilon);
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return;
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}
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void
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quadRes2()
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{
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BYTE g[64], x[129], t1[65];
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BYTE One[1], Two, Three[1];
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int k, num_0s, num_1s, bitsRead, done;
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if ( ((epsilon = (BitSequence *)calloc(tp.n, sizeof(BitSequence))) == NULL) ) {
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printf("Insufficient memory available.\n");
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exit(1);
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}
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One[0] = 0x01;
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Two = 0x02;
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Three[0] = 0x03;
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ahtopb("7844506a9456c564b8b8538e0cc15aff46c95e69600f084f0657c2401b3c244734b62ea9bb95be4923b9b7e84eeaf1a224894ef0328d44bc3eb3e983644da3f5", g, 64);
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for( k=0; k<tp.numOfBitStreams; k++ ) {
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num_0s = 0;
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num_1s = 0;
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done = 0;
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bitsRead = 0;
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do {
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memset(t1, 0x00, 65);
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memset(x, 0x00, 129);
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smult(t1, Two, g, 64); /* 2x */
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add(t1, 65, Three, 1); /* 2x+3 */
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Mult(x, t1, 65, g, 64); /* x(2x+3) */
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add(x, 129, One, 1); /* x(2x+3)+1 */
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memcpy(g, x+65, 64);
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done = convertToBits(g, 512, tp.n, &num_0s, &num_1s, &bitsRead);
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} while ( !done) ;
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fprintf(freqfp, "\t\tBITSREAD = %d 0s = %d 1s = %d\n", bitsRead, num_0s, num_1s);
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nist_test_suite();
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}
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free(epsilon);
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return;
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}
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void
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cubicRes()
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{
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BYTE g[64], tmp[128], x[192];
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int k, num_0s, num_1s, bitsRead, done;
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if ( ((epsilon = (BitSequence *)calloc(tp.n, sizeof(BitSequence))) == NULL) ) {
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printf("Insufficient memory available.\n");
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exit(1);
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}
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ahtopb("7844506a9456c564b8b8538e0cc15aff46c95e69600f084f0657c2401b3c244734b62ea9bb95be4923b9b7e84eeaf1a224894ef0328d44bc3eb3e983644da3f5", g, 64);
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for ( k=0; k<tp.numOfBitStreams; k++ ) {
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num_0s = 0;
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num_1s = 0;
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bitsRead = 0;
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done = 0;
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do {
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memset(tmp, 0x00, 128);
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memset(x, 0x00, 192);
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Mult(tmp, g, 64, g, 64);
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Mult(x, tmp, 128, g, 64); // Don't need to mod by 2^512, just take low 64 bytes
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memcpy(g, x+128, 64);
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done = convertToBits(g, 512, tp.n, &num_0s, &num_1s, &bitsRead);
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} while ( !done );
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fprintf(freqfp, "\t\tBITSREAD = %d 0s = %d 1s = %d\n", bitsRead, num_0s, num_1s);
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nist_test_suite();
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}
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free(epsilon);
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return;
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}
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void
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exclusiveOR()
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{
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int i, num_0s, num_1s, bitsRead;
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BYTE bit_sequence[127];
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if ( ((epsilon = (BitSequence *)calloc(tp.n,sizeof(BitSequence))) == NULL) ) {
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printf("Insufficient memory available.\n");
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exit(1);
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}
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memcpy(bit_sequence, "0001011011011001000101111001001010011011101101000100000010101111111010100100001010110110000000000100110000101110011111111100111", 127);
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num_0s = 0;
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num_1s = 0;
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bitsRead = 0;
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for (i=0; i<127; i++ ) {
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if ( bit_sequence[i] ) {
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epsilon[bitsRead] = 1;
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num_1s++;
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}
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else {
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epsilon[bitsRead] = 0;
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num_1s++;
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}
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bitsRead++;
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}
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for ( i=127; i<tp.n*tp.numOfBitStreams; i++ ) {
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if ( bit_sequence[(i-1)%127] != bit_sequence[(i-127)%127] ) {
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bit_sequence[i%127] = 1;
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epsilon[bitsRead] = 1;
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num_1s++;
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}
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else {
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bit_sequence[i%127] = 0;
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epsilon[bitsRead] = 0;
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num_0s++;
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}
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bitsRead++;
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if ( bitsRead == tp.n ) {
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fprintf(freqfp, "\t\tBITSREAD = %d 0s = %d 1s = %d\n", bitsRead, num_0s, num_1s);
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nist_test_suite();
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num_0s = 0;
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num_1s = 0;
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bitsRead = 0;
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}
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}
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free(epsilon);
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return;
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}
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void
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modExp()
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{
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int k, num_0s, num_1s, bitsRead, done;
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BYTE p[64], g[64], x[192], y[20];
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if ( (epsilon = (BitSequence *)calloc(tp.n, sizeof(BitSequence))) == NULL ) {
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printf("Insufficient memory available.\n");
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exit(1);
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}
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ahtopb("7AB36982CE1ADF832019CDFEB2393CABDF0214EC", y, 20);
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ahtopb("987b6a6bf2c56a97291c445409920032499f9ee7ad128301b5d0254aa1a9633fdbd378d40149f1e23a13849f3d45992f5c4c6b7104099bc301f6005f9d8115e1", p, 64);
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282 |
ahtopb("3844506a9456c564b8b8538e0cc15aff46c95e69600f084f0657c2401b3c244734b62ea9bb95be4923b9b7e84eeaf1a224894ef0328d44bc3eb3e983644da3f5", g, 64);
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283 |
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for ( k=0; k<tp.numOfBitStreams; k++ ) {
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num_0s = 0;
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num_1s = 0;
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bitsRead = 0;
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done = 0;
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do {
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memset(x, 0x00, 128);
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ModExp(x, g, 64, y, 20, p, 64); /* NOTE: g must be less than p */
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292 |
done = convertToBits(x, 512, tp.n, &num_0s, &num_1s, &bitsRead);
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293 |
memcpy(y, x+44, 20);
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294 |
} while ( !done );
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295 |
fprintf(freqfp, "\t\tBITSREAD = %d 0s = %d 1s = %d\n", bitsRead, num_0s, num_1s);
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296 |
nist_test_suite();
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297 |
}
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298 |
free(epsilon);
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299 |
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300 |
return;
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301 |
}
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302 |
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303 |
void
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304 |
bbs()
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305 |
{
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306 |
int i, v, bitsRead;
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307 |
BYTE p[64], q[64], n[128], s[64], x[256];
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308 |
int num_0s, num_1s;
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309 |
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310 |
if ( (epsilon = (BitSequence*)calloc(tp.n, sizeof(BitSequence))) == NULL ) {
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311 |
printf("Insufficient memory available.\n");
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312 |
exit(1);
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313 |
}
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314 |
ahtopb("E65097BAEC92E70478CAF4ED0ED94E1C94B154466BFB9EC9BE37B2B0FF8526C222B76E0E915017535AE8B9207250257D0A0C87C0DACEF78E17D1EF9DC44FD91F", p, 64);
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315 |
ahtopb("E029AEFCF8EA2C29D99CB53DD5FA9BC1D0176F5DF8D9110FD16EE21F32E37BA86FF42F00531AD5B8A43073182CC2E15F5C86E8DA059E346777C9A985F7D8A867", q, 64);
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316 |
memset(n, 0x00, 128);
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317 |
Mult(n, p, 64, q, 64);
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318 |
memset(s, 0x00, 64);
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319 |
ahtopb("10d6333cfac8e30e808d2192f7c0439480da79db9bbca1667d73be9a677ed31311f3b830937763837cb7b1b1dc75f14eea417f84d9625628750de99e7ef1e976", s, 64);
|
|
|
320 |
memset(x, 0x00, 256);
|
|
|
321 |
ModSqr(x, s, 64, n, 128);
|
|
|
322 |
|
|
|
323 |
for ( v=0; v<tp.numOfBitStreams; v++ ) {
|
|
|
324 |
num_0s = 0;
|
|
|
325 |
num_1s = 0;
|
|
|
326 |
bitsRead = 0;
|
|
|
327 |
for ( i=0; i<tp.n; i++ ) {
|
|
|
328 |
ModSqr(x, x, 128, n, 128);
|
|
|
329 |
memcpy(x, x+128, 128);
|
|
|
330 |
if ( (x[127] & 0x01) == 0 ) {
|
|
|
331 |
num_0s++;
|
|
|
332 |
epsilon[i] = 0;
|
|
|
333 |
}
|
|
|
334 |
else {
|
|
|
335 |
num_1s++;
|
|
|
336 |
epsilon[i] = 1;
|
|
|
337 |
}
|
|
|
338 |
bitsRead++;
|
|
|
339 |
if ( (i % 50000) == 0 )
|
|
|
340 |
printf("\t\tBITSREAD = %d 0s = %d 1s = %d\n", bitsRead, num_0s, num_1s);
|
|
|
341 |
}
|
|
|
342 |
|
|
|
343 |
fprintf(freqfp, "\t\tBITSREAD = %d 0s = %d 1s = %d\n", bitsRead, num_0s, num_1s);
|
|
|
344 |
nist_test_suite();
|
|
|
345 |
}
|
|
|
346 |
free(epsilon);
|
|
|
347 |
}
|
|
|
348 |
|
|
|
349 |
|
|
|
350 |
// The exponent, e, is set to 11
|
|
|
351 |
// This results in k = 837 and r = 187
|
|
|
352 |
void
|
|
|
353 |
micali_schnorr()
|
|
|
354 |
{
|
|
|
355 |
long i, j;
|
|
|
356 |
int k=837, num_0s, num_1s, bitsRead, done;
|
|
|
357 |
BYTE p[64], q[64], n[128], e[1], X[128], Y[384], Tail[105];
|
|
|
358 |
|
|
|
359 |
if ( (epsilon = (BitSequence *)calloc(tp.n, sizeof(BitSequence))) == NULL ) {
|
|
|
360 |
printf("Insufficient memory available.\n");
|
|
|
361 |
exit(1);
|
|
|
362 |
}
|
|
|
363 |
ahtopb("E65097BAEC92E70478CAF4ED0ED94E1C94B154466BFB9EC9BE37B2B0FF8526C222B76E0E915017535AE8B9207250257D0A0C87C0DACEF78E17D1EF9DC44FD91F", p, 64);
|
|
|
364 |
ahtopb("E029AEFCF8EA2C29D99CB53DD5FA9BC1D0176F5DF8D9110FD16EE21F32E37BA86FF42F00531AD5B8A43073182CC2E15F5C86E8DA059E346777C9A985F7D8A867", q, 64);
|
|
|
365 |
memset(n, 0x00, 128);
|
|
|
366 |
Mult(n, p, 64, q, 64);
|
|
|
367 |
e[0] = 0x0b;
|
|
|
368 |
memset(X, 0x00, 128);
|
|
|
369 |
ahtopb("237c5f791c2cfe47bfb16d2d54a0d60665b20904ec822a6", X+104, 24);
|
|
|
370 |
|
|
|
371 |
for ( i=0; i<tp.numOfBitStreams; i++ ) {
|
|
|
372 |
num_0s = 0;
|
|
|
373 |
num_1s = 0;
|
|
|
374 |
bitsRead = 0;
|
|
|
375 |
do {
|
|
|
376 |
ModExp(Y, X, 128, e, 1, n, 128);
|
|
|
377 |
memcpy(Tail, Y+23, 105);
|
|
|
378 |
for ( j=0; j<3; j++ )
|
|
|
379 |
bshl(Tail, 105);
|
|
|
380 |
done = convertToBits(Tail, k, tp.n, &num_0s, &num_1s, &bitsRead);
|
|
|
381 |
memset(X, 0x00, 128);
|
|
|
382 |
memcpy(X+104, Y, 24);
|
|
|
383 |
for ( j=0; j<5; j++ )
|
|
|
384 |
bshr(X+104, 24);
|
|
|
385 |
} while ( !done );
|
|
|
386 |
|
|
|
387 |
fprintf(freqfp, "\t\tBITSREAD = %d 0s = %d 1s = %d\n", bitsRead, num_0s, num_1s);
|
|
|
388 |
nist_test_suite();
|
|
|
389 |
}
|
|
|
390 |
free(epsilon);
|
|
|
391 |
}
|
|
|
392 |
|
|
|
393 |
// Uses 160 bit Xkey and no XSeed (b=160)
|
|
|
394 |
// This is the generic form of the generator found on the last page of the Change Notice for FIPS 186-2
|
|
|
395 |
void
|
|
|
396 |
SHA1()
|
|
|
397 |
{
|
|
|
398 |
ULONG A, B, C, D, E, temp, Wbuff[16];
|
|
|
399 |
BYTE Xkey[20], G[20], M[64];
|
|
|
400 |
BYTE One[1] = { 0x01 };
|
|
|
401 |
int i, num_0s, num_1s, bitsRead;
|
|
|
402 |
int done;
|
|
|
403 |
ULONG tx[5] = { 0x67452301, 0xEFCDAB89, 0x98BADCFE, 0x10325476, 0xC3D2E1F0 };
|
|
|
404 |
|
|
|
405 |
if ( ((epsilon = (BitSequence *) calloc(tp.n,sizeof(BitSequence))) == NULL) ) {
|
|
|
406 |
printf("Insufficient memory available.\n");
|
|
|
407 |
exit(1);
|
|
|
408 |
}
|
|
|
409 |
|
|
|
410 |
ahtopb("ec822a619d6ed5d9492218a7a4c5b15d57c61601", Xkey, 20);
|
|
|
411 |
|
|
|
412 |
for ( i=0; i<tp.numOfBitStreams; i++ ) {
|
|
|
413 |
num_0s = 0;
|
|
|
414 |
num_1s = 0;
|
|
|
415 |
bitsRead = 0;
|
|
|
416 |
do {
|
|
|
417 |
memcpy(M, Xkey, 20);
|
|
|
418 |
memset(M+20, 0x00, 44);
|
|
|
419 |
|
|
|
420 |
// Start: SHA Steps A-E
|
|
|
421 |
A = tx[0];
|
|
|
422 |
B = tx[1];
|
|
|
423 |
C = tx[2];
|
|
|
424 |
D = tx[3];
|
|
|
425 |
E = tx[4];
|
|
|
426 |
|
|
|
427 |
memcpy((BYTE *)Wbuff, M, 64);
|
|
|
428 |
#ifdef LITTLE_ENDIAN
|
|
|
429 |
byteReverse(Wbuff, 20);
|
|
|
430 |
#endif
|
|
|
431 |
sub1Round1( 0 ); sub1Round1( 1 ); sub1Round1( 2 ); sub1Round1( 3 );
|
|
|
432 |
sub1Round1( 4 ); sub1Round1( 5 ); sub1Round1( 6 ); sub1Round1( 7 );
|
|
|
433 |
sub1Round1( 8 ); sub1Round1( 9 ); sub1Round1( 10 ); sub1Round1( 11 );
|
|
|
434 |
sub1Round1( 12 ); sub1Round1( 13 ); sub1Round1( 14 ); sub1Round1( 15 );
|
|
|
435 |
sub2Round1( 16 ); sub2Round1( 17 ); sub2Round1( 18 ); sub2Round1( 19 );
|
|
|
436 |
Round2( 20 ); Round2( 21 ); Round2( 22 ); Round2( 23 );
|
|
|
437 |
Round2( 24 ); Round2( 25 ); Round2( 26 ); Round2( 27 );
|
|
|
438 |
Round2( 28 ); Round2( 29 ); Round2( 30 ); Round2( 31 );
|
|
|
439 |
Round2( 32 ); Round2( 33 ); Round2( 34 ); Round2( 35 );
|
|
|
440 |
Round2( 36 ); Round2( 37 ); Round2( 38 ); Round2( 39 );
|
|
|
441 |
Round3( 40 ); Round3( 41 ); Round3( 42 ); Round3( 43 );
|
|
|
442 |
Round3( 44 ); Round3( 45 ); Round3( 46 ); Round3( 47 );
|
|
|
443 |
Round3( 48 ); Round3( 49 ); Round3( 50 ); Round3( 51 );
|
|
|
444 |
Round3( 52 ); Round3( 53 ); Round3( 54 ); Round3( 55 );
|
|
|
445 |
Round3( 56 ); Round3( 57 ); Round3( 58 ); Round3( 59 );
|
|
|
446 |
Round4( 60 ); Round4( 61 ); Round4( 62 ); Round4( 63 );
|
|
|
447 |
Round4( 64 ); Round4( 65 ); Round4( 66 ); Round4( 67 );
|
|
|
448 |
Round4( 68 ); Round4( 69 ); Round4( 70 ); Round4( 71 );
|
|
|
449 |
Round4( 72 ); Round4( 73 ); Round4( 74 ); Round4( 75 );
|
|
|
450 |
Round4( 76 ); Round4( 77 ); Round4( 78 ); Round4( 79 );
|
|
|
451 |
|
|
|
452 |
A += tx[0];
|
|
|
453 |
B += tx[1];
|
|
|
454 |
C += tx[2];
|
|
|
455 |
D += tx[3];
|
|
|
456 |
E += tx[4];
|
|
|
457 |
|
|
|
458 |
memcpy(G, (BYTE *)&A, 4);
|
|
|
459 |
memcpy(G+4, (BYTE *)&B, 4);
|
|
|
460 |
memcpy(G+8, (BYTE *)&C, 4);
|
|
|
461 |
memcpy(G+12, (BYTE *)&D, 4);
|
|
|
462 |
memcpy(G+16, (BYTE *)&E, 4);
|
|
|
463 |
#ifdef LITTLE_ENDIAN
|
|
|
464 |
byteReverse((ULONG *)G, 20);
|
|
|
465 |
#endif
|
|
|
466 |
// End: SHA Steps A-E
|
|
|
467 |
|
|
|
468 |
done = convertToBits(G, 160, tp.n, &num_0s, &num_1s, &bitsRead);
|
|
|
469 |
add(Xkey, 20, G, 20);
|
|
|
470 |
add(Xkey, 20, One, 1);
|
|
|
471 |
} while ( !done );
|
|
|
472 |
fprintf(freqfp, "\t\tBITSREAD = %d 0s = %d 1s = %d\n", bitsRead, num_0s, num_1s);
|
|
|
473 |
nist_test_suite();
|
|
|
474 |
}
|
|
|
475 |
free(epsilon);
|
|
|
476 |
}
|
|
|
477 |
|
|
|
478 |
void HASH_DRBG()
|
|
|
479 |
{
|
|
|
480 |
int done = 0;
|
|
|
481 |
int num_0s = 0;
|
|
|
482 |
int num_1s = 0;
|
|
|
483 |
int bitsRead = 0;
|
|
|
484 |
|
|
|
485 |
if ( ((epsilon = (BitSequence *) calloc(tp.n,sizeof(BitSequence))) == NULL) ) {
|
|
|
486 |
printf("Insufficient memory available.\n");
|
|
|
487 |
exit(1);
|
|
|
488 |
}
|
|
|
489 |
|
|
|
490 |
TBuf8<KRandomByteCount> randBuffer(KRandomByteCount);
|
|
|
491 |
|
|
|
492 |
for (int i = 0; i < tp.numOfBitStreams; ++i)
|
|
|
493 |
{
|
|
|
494 |
gConsole->Printf(_L("Starting test %d\n"), i+1);
|
|
|
495 |
num_0s = 0;
|
|
|
496 |
num_1s = 0;
|
|
|
497 |
bitsRead = 0;
|
|
|
498 |
done = 0;
|
|
|
499 |
do
|
|
|
500 |
{
|
|
|
501 |
Math::Random(randBuffer);
|
|
|
502 |
done = convertToBits(randBuffer.Ptr() , KRandomByteCount*8, tp.n, &num_0s, &num_1s, &bitsRead);
|
|
|
503 |
} while ( !done );
|
|
|
504 |
fprintf(freqfp, "\t\tBITSREAD = %d 0s = %d 1s = %d\n", bitsRead, num_0s, num_1s);
|
|
|
505 |
|
|
|
506 |
nist_test_suite();
|
|
|
507 |
}
|
|
|
508 |
free(epsilon);
|
|
|
509 |
}
|
|
|
510 |
|