wolfssl/ctaocrypt/test/test.c

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/* test.c
*
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* Copyright (C) 2006-2013 wolfSSL Inc.
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*
* This file is part of CyaSSL.
*
* CyaSSL is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* CyaSSL is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA
*/
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#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#ifdef CYASSL_TEST_CERT
#include <cyassl/ctaocrypt/asn.h>
#else
#include <cyassl/ctaocrypt/asn_public.h>
#endif
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#include <cyassl/ctaocrypt/md2.h>
#include <cyassl/ctaocrypt/md5.h>
#include <cyassl/ctaocrypt/md4.h>
#include <cyassl/ctaocrypt/sha.h>
#include <cyassl/ctaocrypt/sha256.h>
#include <cyassl/ctaocrypt/sha512.h>
#include <cyassl/ctaocrypt/arc4.h>
#include <cyassl/ctaocrypt/random.h>
#include <cyassl/ctaocrypt/coding.h>
#include <cyassl/ctaocrypt/rsa.h>
#include <cyassl/ctaocrypt/des3.h>
#include <cyassl/ctaocrypt/aes.h>
#include <cyassl/ctaocrypt/camellia.h>
#include <cyassl/ctaocrypt/hmac.h>
#include <cyassl/ctaocrypt/dh.h>
#include <cyassl/ctaocrypt/dsa.h>
#include <cyassl/ctaocrypt/hc128.h>
#include <cyassl/ctaocrypt/rabbit.h>
#include <cyassl/ctaocrypt/pwdbased.h>
#include <cyassl/ctaocrypt/ripemd.h>
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#ifdef HAVE_ECC
#include <cyassl/ctaocrypt/ecc.h>
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#endif
#ifdef _MSC_VER
/* 4996 warning to use MS extensions e.g., strcpy_s instead of strncpy */
#pragma warning(disable: 4996)
#endif
#ifdef OPENSSL_EXTRA
#include <cyassl/openssl/evp.h>
#include <cyassl/openssl/rand.h>
#include <cyassl/openssl/hmac.h>
#include <cyassl/openssl/des.h>
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#endif
#if defined(USE_CERT_BUFFERS_1024) || defined(USE_CERT_BUFFERS_2048)
/* include test cert and key buffers for use with NO_FILESYSTEM */
#include <cyassl/certs_test.h>
#endif
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#ifdef HAVE_NTRU
#include "crypto_ntru.h"
#endif
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#ifdef HAVE_CAVIUM
#include "cavium_sysdep.h"
#include "cavium_common.h"
#include "cavium_ioctl.h"
#endif
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#include <string.h>
#ifdef FREESCALE_MQX
#include <mqx.h>
#include <fio.h>
#else
#include <stdio.h>
#endif
#include <stdlib.h>
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#ifdef THREADX
/* since just testing, use THREADX log printf instead */
int dc_log_printf(char*, ...);
#undef printf
#define printf dc_log_printf
#endif
#include "ctaocrypt/test/test.h"
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typedef struct testVector {
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const char* input;
const char* output;
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size_t inLen;
size_t outLen;
} testVector;
int md2_test(void);
int md5_test(void);
int md4_test(void);
int sha_test(void);
int sha256_test(void);
int sha512_test(void);
int sha384_test(void);
int hmac_md5_test(void);
int hmac_sha_test(void);
int hmac_sha256_test(void);
int hmac_sha384_test(void);
int arc4_test(void);
int hc128_test(void);
int rabbit_test(void);
int des_test(void);
int des3_test(void);
int aes_test(void);
int aesgcm_test(void);
int aesccm_test(void);
int camellia_test(void);
int rsa_test(void);
int dh_test(void);
int dsa_test(void);
int random_test(void);
int pwdbased_test(void);
int ripemd_test(void);
int openssl_test(void); /* test mini api */
int pbkdf1_test(void);
int pkcs12_test(void);
int pbkdf2_test(void);
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#ifdef HAVE_ECC
int ecc_test(void);
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#endif
static void err_sys(const char* msg, int es)
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{
printf("%s error = %d\n", msg, es);
#ifndef THREADX
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if (msg)
exit(es);
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#endif
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return;
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}
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/* func_args from test.h, so don't have to pull in other junk */
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typedef struct func_args {
int argc;
char** argv;
int return_code;
} func_args;
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void ctaocrypt_test(void* args)
{
int ret = 0;
((func_args*)args)->return_code = -1; /* error state */
#if !defined(CYASSL_LEANPSK)
if (CheckCtcSettings() != 1)
err_sys("Build vs runtime math mismatch\n", -1234);
#ifdef USE_FAST_MATH
if (CheckFastMathSettings() != 1)
err_sys("Build vs runtime fastmath FP_MAX_BITS mismatch\n", -1235);
#endif /* USE_FAST_MATH */
#endif /* !CYASSL_LEANPSK */
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#ifndef NO_MD5
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if ( (ret = md5_test()) )
err_sys("MD5 test failed!\n", ret);
else
printf( "MD5 test passed!\n");
#endif
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#ifdef CYASSL_MD2
if ( (ret = md2_test()) )
err_sys("MD2 test failed!\n", ret);
else
printf( "MD2 test passed!\n");
#endif
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#ifndef NO_MD4
if ( (ret = md4_test()) )
err_sys("MD4 test failed!\n", ret);
else
printf( "MD4 test passed!\n");
#endif
if ( (ret = sha_test()) )
err_sys("SHA test failed!\n", ret);
else
printf( "SHA test passed!\n");
#ifndef NO_SHA256
if ( (ret = sha256_test()) )
err_sys("SHA-256 test failed!\n", ret);
else
printf( "SHA-256 test passed!\n");
#endif
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#ifdef CYASSL_SHA384
if ( (ret = sha384_test()) )
err_sys("SHA-384 test failed!\n", ret);
else
printf( "SHA-384 test passed!\n");
#endif
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#ifdef CYASSL_SHA512
if ( (ret = sha512_test()) )
err_sys("SHA-512 test failed!\n", ret);
else
printf( "SHA-512 test passed!\n");
#endif
#ifdef CYASSL_RIPEMD
if ( (ret = ripemd_test()) )
err_sys("RIPEMD test failed!\n", ret);
else
printf( "RIPEMD test passed!\n");
#endif
#ifndef NO_HMAC
#ifndef NO_MD5
if ( (ret = hmac_md5_test()) )
err_sys("HMAC-MD5 test failed!\n", ret);
else
printf( "HMAC-MD5 test passed!\n");
#endif
if ( (ret = hmac_sha_test()) )
err_sys("HMAC-SHA test failed!\n", ret);
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else
printf( "HMAC-SHA test passed!\n");
#ifndef NO_SHA256
if ( (ret = hmac_sha256_test()) )
err_sys("HMAC-SHA256 test failed!\n", ret);
else
printf( "HMAC-SHA256 test passed!\n");
#endif
#ifdef CYASSL_SHA384
if ( (ret = hmac_sha384_test()) )
err_sys("HMAC-SHA384 test failed!\n", ret);
else
printf( "HMAC-SHA384 test passed!\n");
#endif
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#endif
#ifndef NO_RC4
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if ( (ret = arc4_test()) )
err_sys("ARC4 test failed!\n", ret);
else
printf( "ARC4 test passed!\n");
#endif
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#ifndef NO_HC128
if ( (ret = hc128_test()) )
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err_sys("HC-128 test failed!\n", ret);
else
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printf( "HC-128 test passed!\n");
#endif
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#ifndef NO_RABBIT
if ( (ret = rabbit_test()) )
err_sys("Rabbit test failed!\n", ret);
else
printf( "Rabbit test passed!\n");
#endif
#ifndef NO_DES3
if ( (ret = des_test()) )
err_sys("DES test failed!\n", ret);
else
printf( "DES test passed!\n");
#endif
#ifndef NO_DES3
if ( (ret = des3_test()) )
err_sys("DES3 test failed!\n", ret);
else
printf( "DES3 test passed!\n");
#endif
#ifndef NO_AES
if ( (ret = aes_test()) )
err_sys("AES test failed!\n", ret);
else
printf( "AES test passed!\n");
#ifdef HAVE_AESGCM
if ( (ret = aesgcm_test()) )
err_sys("AES-GCM test failed!\n", ret);
else
printf( "AES-GCM test passed!\n");
#endif
#ifdef HAVE_AESCCM
if ( (ret = aesccm_test()) )
err_sys("AES-CCM test failed!\n", ret);
else
printf( "AES-CCM test passed!\n");
#endif
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#endif
#ifdef HAVE_CAMELLIA
if ( (ret = camellia_test()) )
err_sys("CAMELLIA test failed!\n", ret);
else
printf( "CAMELLIA test passed!\n");
#endif
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if ( (ret = random_test()) )
err_sys("RANDOM test failed!\n", ret);
else
printf( "RANDOM test passed!\n");
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#ifndef NO_RSA
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if ( (ret = rsa_test()) )
err_sys("RSA test failed!\n", ret);
else
printf( "RSA test passed!\n");
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#endif
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#ifndef NO_DH
if ( (ret = dh_test()) )
err_sys("DH test failed!\n", ret);
else
printf( "DH test passed!\n");
#endif
#ifndef NO_DSA
if ( (ret = dsa_test()) )
err_sys("DSA test failed!\n", ret);
else
printf( "DSA test passed!\n");
#endif
#ifndef NO_PWDBASED
if ( (ret = pwdbased_test()) )
err_sys("PWDBASED test failed!\n", ret);
else
printf( "PWDBASED test passed!\n");
#endif
#ifdef OPENSSL_EXTRA
if ( (ret = openssl_test()) )
err_sys("OPENSSL test failed!\n", ret);
else
printf( "OPENSSL test passed!\n");
#endif
#ifdef HAVE_ECC
if ( (ret = ecc_test()) )
err_sys("ECC test failed!\n", ret);
else
printf( "ECC test passed!\n");
#endif
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((func_args*)args)->return_code = ret;
}
#ifndef NO_MAIN_DRIVER
#ifdef HAVE_CAVIUM
static int OpenNitroxDevice(int dma_mode,int dev_id)
{
Csp1CoreAssignment core_assign;
Uint32 device;
if (CspInitialize(CAVIUM_DIRECT,CAVIUM_DEV_ID))
return -1;
if (Csp1GetDevType(&device))
return -1;
if (device != NPX_DEVICE) {
if (ioctl(gpkpdev_hdlr[CAVIUM_DEV_ID], IOCTL_CSP1_GET_CORE_ASSIGNMENT,
(Uint32 *)&core_assign)!= 0)
return -1;
}
CspShutdown(CAVIUM_DEV_ID);
return CspInitialize(dma_mode, dev_id);
}
#endif /* HAVE_CAVIUM */
/* so overall tests can pull in test function */
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int main(int argc, char** argv)
{
func_args args;
#ifdef HAVE_CAVIUM
int ret = OpenNitroxDevice(CAVIUM_DIRECT, CAVIUM_DEV_ID);
if (ret != 0)
err_sys("Cavium OpenNitroxDevice failed", -1236);
#endif /* HAVE_CAVIUM */
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args.argc = argc;
args.argv = argv;
ctaocrypt_test(&args);
#ifdef HAVE_CAVIUM
CspShutdown(CAVIUM_DEV_ID);
#endif
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return args.return_code;
}
#endif /* NO_MAIN_DRIVER */
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#ifdef CYASSL_MD2
int md2_test()
{
Md2 md2;
byte hash[MD2_DIGEST_SIZE];
testVector a, b, c, d, e, f, g;
testVector test_md2[7];
int times = sizeof(test_md2) / sizeof(testVector), i;
a.input = "";
a.output = "\x83\x50\xe5\xa3\xe2\x4c\x15\x3d\xf2\x27\x5c\x9f\x80\x69"
"\x27\x73";
a.inLen = strlen(a.input);
a.outLen = MD2_DIGEST_SIZE;
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b.input = "a";
b.output = "\x32\xec\x01\xec\x4a\x6d\xac\x72\xc0\xab\x96\xfb\x34\xc0"
"\xb5\xd1";
b.inLen = strlen(b.input);
b.outLen = MD2_DIGEST_SIZE;
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c.input = "abc";
c.output = "\xda\x85\x3b\x0d\x3f\x88\xd9\x9b\x30\x28\x3a\x69\xe6\xde"
"\xd6\xbb";
c.inLen = strlen(c.input);
c.outLen = MD2_DIGEST_SIZE;
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d.input = "message digest";
d.output = "\xab\x4f\x49\x6b\xfb\x2a\x53\x0b\x21\x9f\xf3\x30\x31\xfe"
"\x06\xb0";
d.inLen = strlen(d.input);
d.outLen = MD2_DIGEST_SIZE;
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e.input = "abcdefghijklmnopqrstuvwxyz";
e.output = "\x4e\x8d\xdf\xf3\x65\x02\x92\xab\x5a\x41\x08\xc3\xaa\x47"
"\x94\x0b";
e.inLen = strlen(e.input);
e.outLen = MD2_DIGEST_SIZE;
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f.input = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz012345"
"6789";
f.output = "\xda\x33\xde\xf2\xa4\x2d\xf1\x39\x75\x35\x28\x46\xc3\x03"
"\x38\xcd";
f.inLen = strlen(f.input);
f.outLen = MD2_DIGEST_SIZE;
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g.input = "1234567890123456789012345678901234567890123456789012345678"
"9012345678901234567890";
g.output = "\xd5\x97\x6f\x79\xd8\x3d\x3a\x0d\xc9\x80\x6c\x3c\x66\xf3"
"\xef\xd8";
g.inLen = strlen(g.input);
g.outLen = MD2_DIGEST_SIZE;
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test_md2[0] = a;
test_md2[1] = b;
test_md2[2] = c;
test_md2[3] = d;
test_md2[4] = e;
test_md2[5] = f;
test_md2[6] = g;
InitMd2(&md2);
for (i = 0; i < times; ++i) {
Md2Update(&md2, (byte*)test_md2[i].input, (word32)test_md2[i].inLen);
Md2Final(&md2, hash);
if (memcmp(hash, test_md2[i].output, MD2_DIGEST_SIZE) != 0)
return -155 - i;
}
return 0;
}
#endif
#ifndef NO_MD5
int md5_test(void)
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{
Md5 md5;
byte hash[MD5_DIGEST_SIZE];
testVector a, b, c, d, e;
testVector test_md5[5];
int times = sizeof(test_md5) / sizeof(testVector), i;
a.input = "abc";
a.output = "\x90\x01\x50\x98\x3c\xd2\x4f\xb0\xd6\x96\x3f\x7d\x28\xe1\x7f"
"\x72";
a.inLen = strlen(a.input);
a.outLen = MD5_DIGEST_SIZE;
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b.input = "message digest";
b.output = "\xf9\x6b\x69\x7d\x7c\xb7\x93\x8d\x52\x5a\x2f\x31\xaa\xf1\x61"
"\xd0";
b.inLen = strlen(b.input);
b.outLen = MD5_DIGEST_SIZE;
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c.input = "abcdefghijklmnopqrstuvwxyz";
c.output = "\xc3\xfc\xd3\xd7\x61\x92\xe4\x00\x7d\xfb\x49\x6c\xca\x67\xe1"
"\x3b";
c.inLen = strlen(c.input);
c.outLen = MD5_DIGEST_SIZE;
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d.input = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz012345"
"6789";
d.output = "\xd1\x74\xab\x98\xd2\x77\xd9\xf5\xa5\x61\x1c\x2c\x9f\x41\x9d"
"\x9f";
d.inLen = strlen(d.input);
d.outLen = MD5_DIGEST_SIZE;
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e.input = "1234567890123456789012345678901234567890123456789012345678"
"9012345678901234567890";
e.output = "\x57\xed\xf4\xa2\x2b\xe3\xc9\x55\xac\x49\xda\x2e\x21\x07\xb6"
"\x7a";
e.inLen = strlen(e.input);
e.outLen = MD5_DIGEST_SIZE;
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test_md5[0] = a;
test_md5[1] = b;
test_md5[2] = c;
test_md5[3] = d;
test_md5[4] = e;
InitMd5(&md5);
for (i = 0; i < times; ++i) {
Md5Update(&md5, (byte*)test_md5[i].input, (word32)test_md5[i].inLen);
Md5Final(&md5, hash);
if (memcmp(hash, test_md5[i].output, MD5_DIGEST_SIZE) != 0)
return -5 - i;
}
return 0;
}
#endif /* NO_MD5 */
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#ifndef NO_MD4
int md4_test(void)
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{
Md4 md4;
byte hash[MD4_DIGEST_SIZE];
testVector a, b, c, d, e, f, g;
testVector test_md4[7];
int times = sizeof(test_md4) / sizeof(testVector), i;
a.input = "";
a.output = "\x31\xd6\xcf\xe0\xd1\x6a\xe9\x31\xb7\x3c\x59\xd7\xe0\xc0\x89"
"\xc0";
a.inLen = strlen(a.input);
a.outLen = MD4_DIGEST_SIZE;
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b.input = "a";
b.output = "\xbd\xe5\x2c\xb3\x1d\xe3\x3e\x46\x24\x5e\x05\xfb\xdb\xd6\xfb"
"\x24";
b.inLen = strlen(b.input);
b.outLen = MD4_DIGEST_SIZE;
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c.input = "abc";
c.output = "\xa4\x48\x01\x7a\xaf\x21\xd8\x52\x5f\xc1\x0a\xe8\x7a\xa6\x72"
"\x9d";
c.inLen = strlen(c.input);
c.outLen = MD4_DIGEST_SIZE;
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d.input = "message digest";
d.output = "\xd9\x13\x0a\x81\x64\x54\x9f\xe8\x18\x87\x48\x06\xe1\xc7\x01"
"\x4b";
d.inLen = strlen(d.input);
d.outLen = MD4_DIGEST_SIZE;
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e.input = "abcdefghijklmnopqrstuvwxyz";
e.output = "\xd7\x9e\x1c\x30\x8a\xa5\xbb\xcd\xee\xa8\xed\x63\xdf\x41\x2d"
"\xa9";
e.inLen = strlen(e.input);
e.outLen = MD4_DIGEST_SIZE;
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f.input = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz012345"
"6789";
f.output = "\x04\x3f\x85\x82\xf2\x41\xdb\x35\x1c\xe6\x27\xe1\x53\xe7\xf0"
"\xe4";
f.inLen = strlen(f.input);
f.outLen = MD4_DIGEST_SIZE;
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g.input = "1234567890123456789012345678901234567890123456789012345678"
"9012345678901234567890";
g.output = "\xe3\x3b\x4d\xdc\x9c\x38\xf2\x19\x9c\x3e\x7b\x16\x4f\xcc\x05"
"\x36";
g.inLen = strlen(g.input);
g.outLen = MD4_DIGEST_SIZE;
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test_md4[0] = a;
test_md4[1] = b;
test_md4[2] = c;
test_md4[3] = d;
test_md4[4] = e;
test_md4[5] = f;
test_md4[6] = g;
InitMd4(&md4);
for (i = 0; i < times; ++i) {
Md4Update(&md4, (byte*)test_md4[i].input, (word32)test_md4[i].inLen);
Md4Final(&md4, hash);
if (memcmp(hash, test_md4[i].output, MD4_DIGEST_SIZE) != 0)
return -205 - i;
}
return 0;
}
#endif /* NO_MD4 */
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int sha_test(void)
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{
Sha sha;
byte hash[SHA_DIGEST_SIZE];
testVector a, b, c, d;
testVector test_sha[4];
int times = sizeof(test_sha) / sizeof(struct testVector), i;
a.input = "abc";
a.output = "\xA9\x99\x3E\x36\x47\x06\x81\x6A\xBA\x3E\x25\x71\x78\x50\xC2"
"\x6C\x9C\xD0\xD8\x9D";
a.inLen = strlen(a.input);
a.outLen = SHA_DIGEST_SIZE;
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b.input = "abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq";
b.output = "\x84\x98\x3E\x44\x1C\x3B\xD2\x6E\xBA\xAE\x4A\xA1\xF9\x51\x29"
"\xE5\xE5\x46\x70\xF1";
b.inLen = strlen(b.input);
b.outLen = SHA_DIGEST_SIZE;
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c.input = "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"
"aaaaaa";
c.output = "\x00\x98\xBA\x82\x4B\x5C\x16\x42\x7B\xD7\xA1\x12\x2A\x5A\x44"
"\x2A\x25\xEC\x64\x4D";
c.inLen = strlen(c.input);
c.outLen = SHA_DIGEST_SIZE;
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d.input = "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"
"aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"
"aaaaaaaaaa";
d.output = "\xAD\x5B\x3F\xDB\xCB\x52\x67\x78\xC2\x83\x9D\x2F\x15\x1E\xA7"
"\x53\x99\x5E\x26\xA0";
d.inLen = strlen(d.input);
d.outLen = SHA_DIGEST_SIZE;
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test_sha[0] = a;
test_sha[1] = b;
test_sha[2] = c;
test_sha[3] = d;
InitSha(&sha);
for (i = 0; i < times; ++i) {
ShaUpdate(&sha, (byte*)test_sha[i].input, (word32)test_sha[i].inLen);
ShaFinal(&sha, hash);
if (memcmp(hash, test_sha[i].output, SHA_DIGEST_SIZE) != 0)
return -10 - i;
}
return 0;
}
#ifdef CYASSL_RIPEMD
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int ripemd_test(void)
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{
RipeMd ripemd;
byte hash[RIPEMD_DIGEST_SIZE];
testVector a, b, c, d;
testVector test_ripemd[4];
int times = sizeof(test_ripemd) / sizeof(struct testVector), i;
a.input = "abc";
a.output = "\x8e\xb2\x08\xf7\xe0\x5d\x98\x7a\x9b\x04\x4a\x8e\x98\xc6"
"\xb0\x87\xf1\x5a\x0b\xfc";
a.inLen = strlen(a.input);
a.outLen = RIPEMD_DIGEST_SIZE;
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b.input = "message digest";
b.output = "\x5d\x06\x89\xef\x49\xd2\xfa\xe5\x72\xb8\x81\xb1\x23\xa8"
"\x5f\xfa\x21\x59\x5f\x36";
b.inLen = strlen(b.input);
b.outLen = RIPEMD_DIGEST_SIZE;
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c.input = "abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq";
c.output = "\x12\xa0\x53\x38\x4a\x9c\x0c\x88\xe4\x05\xa0\x6c\x27\xdc"
"\xf4\x9a\xda\x62\xeb\x2b";
c.inLen = strlen(c.input);
c.outLen = RIPEMD_DIGEST_SIZE;
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d.input = "12345678901234567890123456789012345678901234567890123456"
"789012345678901234567890";
d.output = "\x9b\x75\x2e\x45\x57\x3d\x4b\x39\xf4\xdb\xd3\x32\x3c\xab"
"\x82\xbf\x63\x32\x6b\xfb";
d.inLen = strlen(d.input);
d.outLen = RIPEMD_DIGEST_SIZE;
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test_ripemd[0] = a;
test_ripemd[1] = b;
test_ripemd[2] = c;
test_ripemd[3] = d;
InitRipeMd(&ripemd);
for (i = 0; i < times; ++i) {
RipeMdUpdate(&ripemd, (byte*)test_ripemd[i].input,
(word32)test_ripemd[i].inLen);
RipeMdFinal(&ripemd, hash);
if (memcmp(hash, test_ripemd[i].output, RIPEMD_DIGEST_SIZE) != 0)
return -10 - i;
}
return 0;
}
#endif /* CYASSL_RIPEMD */
#ifndef NO_SHA256
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int sha256_test(void)
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{
Sha256 sha;
byte hash[SHA256_DIGEST_SIZE];
testVector a, b;
testVector test_sha[2];
int times = sizeof(test_sha) / sizeof(struct testVector), i;
a.input = "abc";
a.output = "\xBA\x78\x16\xBF\x8F\x01\xCF\xEA\x41\x41\x40\xDE\x5D\xAE\x22"
"\x23\xB0\x03\x61\xA3\x96\x17\x7A\x9C\xB4\x10\xFF\x61\xF2\x00"
"\x15\xAD";
a.inLen = strlen(a.input);
a.outLen = SHA256_DIGEST_SIZE;
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b.input = "abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq";
b.output = "\x24\x8D\x6A\x61\xD2\x06\x38\xB8\xE5\xC0\x26\x93\x0C\x3E\x60"
"\x39\xA3\x3C\xE4\x59\x64\xFF\x21\x67\xF6\xEC\xED\xD4\x19\xDB"
"\x06\xC1";
b.inLen = strlen(b.input);
b.outLen = SHA256_DIGEST_SIZE;
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test_sha[0] = a;
test_sha[1] = b;
InitSha256(&sha);
for (i = 0; i < times; ++i) {
Sha256Update(&sha, (byte*)test_sha[i].input,(word32)test_sha[i].inLen);
Sha256Final(&sha, hash);
if (memcmp(hash, test_sha[i].output, SHA256_DIGEST_SIZE) != 0)
return -10 - i;
}
return 0;
}
#endif
#ifdef CYASSL_SHA512
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int sha512_test(void)
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{
Sha512 sha;
byte hash[SHA512_DIGEST_SIZE];
testVector a, b;
testVector test_sha[2];
int times = sizeof(test_sha) / sizeof(struct testVector), i;
a.input = "abc";
a.output = "\xdd\xaf\x35\xa1\x93\x61\x7a\xba\xcc\x41\x73\x49\xae\x20\x41"
"\x31\x12\xe6\xfa\x4e\x89\xa9\x7e\xa2\x0a\x9e\xee\xe6\x4b\x55"
"\xd3\x9a\x21\x92\x99\x2a\x27\x4f\xc1\xa8\x36\xba\x3c\x23\xa3"
"\xfe\xeb\xbd\x45\x4d\x44\x23\x64\x3c\xe8\x0e\x2a\x9a\xc9\x4f"
"\xa5\x4c\xa4\x9f";
a.inLen = strlen(a.input);
a.outLen = SHA512_DIGEST_SIZE;
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b.input = "abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmnhi"
"jklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu";
b.output = "\x8e\x95\x9b\x75\xda\xe3\x13\xda\x8c\xf4\xf7\x28\x14\xfc\x14"
"\x3f\x8f\x77\x79\xc6\xeb\x9f\x7f\xa1\x72\x99\xae\xad\xb6\x88"
"\x90\x18\x50\x1d\x28\x9e\x49\x00\xf7\xe4\x33\x1b\x99\xde\xc4"
"\xb5\x43\x3a\xc7\xd3\x29\xee\xb6\xdd\x26\x54\x5e\x96\xe5\x5b"
"\x87\x4b\xe9\x09";
b.inLen = strlen(b.input);
b.outLen = SHA512_DIGEST_SIZE;
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test_sha[0] = a;
test_sha[1] = b;
InitSha512(&sha);
for (i = 0; i < times; ++i) {
Sha512Update(&sha, (byte*)test_sha[i].input,(word32)test_sha[i].inLen);
Sha512Final(&sha, hash);
if (memcmp(hash, test_sha[i].output, SHA512_DIGEST_SIZE) != 0)
return -10 - i;
}
return 0;
}
#endif
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#ifdef CYASSL_SHA384
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int sha384_test(void)
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{
Sha384 sha;
byte hash[SHA384_DIGEST_SIZE];
testVector a, b;
testVector test_sha[2];
int times = sizeof(test_sha) / sizeof(struct testVector), i;
a.input = "abc";
a.output = "\xcb\x00\x75\x3f\x45\xa3\x5e\x8b\xb5\xa0\x3d\x69\x9a\xc6\x50"
"\x07\x27\x2c\x32\xab\x0e\xde\xd1\x63\x1a\x8b\x60\x5a\x43\xff"
"\x5b\xed\x80\x86\x07\x2b\xa1\xe7\xcc\x23\x58\xba\xec\xa1\x34"
"\xc8\x25\xa7";
a.inLen = strlen(a.input);
a.outLen = SHA384_DIGEST_SIZE;
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b.input = "abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmnhi"
"jklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu";
b.output = "\x09\x33\x0c\x33\xf7\x11\x47\xe8\x3d\x19\x2f\xc7\x82\xcd\x1b"
"\x47\x53\x11\x1b\x17\x3b\x3b\x05\xd2\x2f\xa0\x80\x86\xe3\xb0"
"\xf7\x12\xfc\xc7\xc7\x1a\x55\x7e\x2d\xb9\x66\xc3\xe9\xfa\x91"
"\x74\x60\x39";
b.inLen = strlen(b.input);
b.outLen = SHA384_DIGEST_SIZE;
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test_sha[0] = a;
test_sha[1] = b;
InitSha384(&sha);
for (i = 0; i < times; ++i) {
Sha384Update(&sha, (byte*)test_sha[i].input,(word32)test_sha[i].inLen);
Sha384Final(&sha, hash);
if (memcmp(hash, test_sha[i].output, SHA384_DIGEST_SIZE) != 0)
return -10 - i;
}
return 0;
}
#endif /* CYASSL_SHA384 */
#if !defined(NO_HMAC) && !defined(NO_MD5)
int hmac_md5_test(void)
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{
Hmac hmac;
byte hash[MD5_DIGEST_SIZE];
const char* keys[]=
{
"\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b",
"Jefe",
"\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA"
};
testVector a, b, c;
testVector test_hmac[3];
int times = sizeof(test_hmac) / sizeof(testVector), i;
a.input = "Hi There";
a.output = "\x92\x94\x72\x7a\x36\x38\xbb\x1c\x13\xf4\x8e\xf8\x15\x8b\xfc"
"\x9d";
a.inLen = strlen(a.input);
a.outLen = MD5_DIGEST_SIZE;
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b.input = "what do ya want for nothing?";
b.output = "\x75\x0c\x78\x3e\x6a\xb0\xb5\x03\xea\xa8\x6e\x31\x0a\x5d\xb7"
"\x38";
b.inLen = strlen(b.input);
b.outLen = MD5_DIGEST_SIZE;
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c.input = "\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD"
"\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD"
"\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD"
"\xDD\xDD\xDD\xDD\xDD\xDD";
c.output = "\x56\xbe\x34\x52\x1d\x14\x4c\x88\xdb\xb8\xc7\x33\xf0\xe8\xb3"
"\xf6";
c.inLen = strlen(c.input);
c.outLen = MD5_DIGEST_SIZE;
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test_hmac[0] = a;
test_hmac[1] = b;
test_hmac[2] = c;
for (i = 0; i < times; ++i) {
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#ifdef HAVE_CAVIUM
if (i == 1)
continue; /* driver can't handle keys <= bytes */
if (HmacInitCavium(&hmac, CAVIUM_DEV_ID) != 0)
return -20009;
#endif
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HmacSetKey(&hmac, MD5, (byte*)keys[i], (word32)strlen(keys[i]));
HmacUpdate(&hmac, (byte*)test_hmac[i].input,
(word32)test_hmac[i].inLen);
HmacFinal(&hmac, hash);
if (memcmp(hash, test_hmac[i].output, MD5_DIGEST_SIZE) != 0)
return -20 - i;
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#ifdef HAVE_CAVIUM
HmacFreeCavium(&hmac);
#endif
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}
return 0;
}
#endif /* NO_HMAC && NO_MD5 */
#ifndef NO_HMAC
int hmac_sha_test(void)
{
Hmac hmac;
byte hash[SHA_DIGEST_SIZE];
const char* keys[]=
{
"\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b"
"\x0b\x0b\x0b",
"Jefe",
"\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA"
"\xAA\xAA\xAA"
};
testVector a, b, c;
testVector test_hmac[3];
int times = sizeof(test_hmac) / sizeof(testVector), i;
a.input = "Hi There";
a.output = "\xb6\x17\x31\x86\x55\x05\x72\x64\xe2\x8b\xc0\xb6\xfb\x37\x8c"
"\x8e\xf1\x46\xbe\x00";
a.inLen = strlen(a.input);
a.outLen = SHA_DIGEST_SIZE;
b.input = "what do ya want for nothing?";
b.output = "\xef\xfc\xdf\x6a\xe5\xeb\x2f\xa2\xd2\x74\x16\xd5\xf1\x84\xdf"
"\x9c\x25\x9a\x7c\x79";
b.inLen = strlen(b.input);
b.outLen = SHA_DIGEST_SIZE;
c.input = "\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD"
"\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD"
"\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD"
"\xDD\xDD\xDD\xDD\xDD\xDD";
c.output = "\x12\x5d\x73\x42\xb9\xac\x11\xcd\x91\xa3\x9a\xf4\x8a\xa1\x7b"
"\x4f\x63\xf1\x75\xd3";
c.inLen = strlen(c.input);
c.outLen = SHA_DIGEST_SIZE;
test_hmac[0] = a;
test_hmac[1] = b;
test_hmac[2] = c;
for (i = 0; i < times; ++i) {
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#ifdef HAVE_CAVIUM
if (i == 1)
continue; /* driver can't handle keys <= bytes */
if (HmacInitCavium(&hmac, CAVIUM_DEV_ID) != 0)
return -20010;
#endif
HmacSetKey(&hmac, SHA, (byte*)keys[i], (word32)strlen(keys[i]));
HmacUpdate(&hmac, (byte*)test_hmac[i].input,
(word32)test_hmac[i].inLen);
HmacFinal(&hmac, hash);
if (memcmp(hash, test_hmac[i].output, SHA_DIGEST_SIZE) != 0)
return -20 - i;
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#ifdef HAVE_CAVIUM
HmacFreeCavium(&hmac);
#endif
}
return 0;
}
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#endif
#if !defined(NO_HMAC) && !defined(NO_SHA256)
int hmac_sha256_test(void)
{
Hmac hmac;
byte hash[SHA256_DIGEST_SIZE];
const char* keys[]=
{
"\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b"
"\x0b\x0b\x0b",
"Jefe",
"\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA"
"\xAA\xAA\xAA"
};
testVector a, b, c;
testVector test_hmac[3];
int times = sizeof(test_hmac) / sizeof(testVector), i;
a.input = "Hi There";
a.output = "\xb0\x34\x4c\x61\xd8\xdb\x38\x53\x5c\xa8\xaf\xce\xaf\x0b\xf1"
"\x2b\x88\x1d\xc2\x00\xc9\x83\x3d\xa7\x26\xe9\x37\x6c\x2e\x32"
"\xcf\xf7";
a.inLen = strlen(a.input);
a.outLen = SHA256_DIGEST_SIZE;
b.input = "what do ya want for nothing?";
b.output = "\x5b\xdc\xc1\x46\xbf\x60\x75\x4e\x6a\x04\x24\x26\x08\x95\x75"
"\xc7\x5a\x00\x3f\x08\x9d\x27\x39\x83\x9d\xec\x58\xb9\x64\xec"
"\x38\x43";
b.inLen = strlen(b.input);
b.outLen = SHA256_DIGEST_SIZE;
c.input = "\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD"
"\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD"
"\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD"
"\xDD\xDD\xDD\xDD\xDD\xDD";
c.output = "\x77\x3e\xa9\x1e\x36\x80\x0e\x46\x85\x4d\xb8\xeb\xd0\x91\x81"
"\xa7\x29\x59\x09\x8b\x3e\xf8\xc1\x22\xd9\x63\x55\x14\xce\xd5"
"\x65\xfe";
c.inLen = strlen(c.input);
c.outLen = SHA256_DIGEST_SIZE;
test_hmac[0] = a;
test_hmac[1] = b;
test_hmac[2] = c;
for (i = 0; i < times; ++i) {
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#ifdef HAVE_CAVIUM
if (i == 1)
continue; /* driver can't handle keys <= bytes */
if (HmacInitCavium(&hmac, CAVIUM_DEV_ID) != 0)
return -20011;
#endif
HmacSetKey(&hmac, SHA256, (byte*)keys[i], (word32)strlen(keys[i]));
HmacUpdate(&hmac, (byte*)test_hmac[i].input,
(word32)test_hmac[i].inLen);
HmacFinal(&hmac, hash);
if (memcmp(hash, test_hmac[i].output, SHA256_DIGEST_SIZE) != 0)
return -20 - i;
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#ifdef HAVE_CAVIUM
HmacFreeCavium(&hmac);
#endif
}
return 0;
}
#endif
#if !defined(NO_HMAC) && defined(CYASSL_SHA384)
int hmac_sha384_test(void)
{
Hmac hmac;
byte hash[SHA384_DIGEST_SIZE];
const char* keys[]=
{
"\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b\x0b"
"\x0b\x0b\x0b",
"Jefe",
"\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA\xAA"
"\xAA\xAA\xAA"
};
testVector a, b, c;
testVector test_hmac[3];
int times = sizeof(test_hmac) / sizeof(testVector), i;
a.input = "Hi There";
a.output = "\xaf\xd0\x39\x44\xd8\x48\x95\x62\x6b\x08\x25\xf4\xab\x46\x90"
"\x7f\x15\xf9\xda\xdb\xe4\x10\x1e\xc6\x82\xaa\x03\x4c\x7c\xeb"
"\xc5\x9c\xfa\xea\x9e\xa9\x07\x6e\xde\x7f\x4a\xf1\x52\xe8\xb2"
"\xfa\x9c\xb6";
a.inLen = strlen(a.input);
a.outLen = SHA384_DIGEST_SIZE;
b.input = "what do ya want for nothing?";
b.output = "\xaf\x45\xd2\xe3\x76\x48\x40\x31\x61\x7f\x78\xd2\xb5\x8a\x6b"
"\x1b\x9c\x7e\xf4\x64\xf5\xa0\x1b\x47\xe4\x2e\xc3\x73\x63\x22"
"\x44\x5e\x8e\x22\x40\xca\x5e\x69\xe2\xc7\x8b\x32\x39\xec\xfa"
"\xb2\x16\x49";
b.inLen = strlen(b.input);
b.outLen = SHA384_DIGEST_SIZE;
c.input = "\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD"
"\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD"
"\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD\xDD"
"\xDD\xDD\xDD\xDD\xDD\xDD";
c.output = "\x88\x06\x26\x08\xd3\xe6\xad\x8a\x0a\xa2\xac\xe0\x14\xc8\xa8"
"\x6f\x0a\xa6\x35\xd9\x47\xac\x9f\xeb\xe8\x3e\xf4\xe5\x59\x66"
"\x14\x4b\x2a\x5a\xb3\x9d\xc1\x38\x14\xb9\x4e\x3a\xb6\xe1\x01"
"\xa3\x4f\x27";
c.inLen = strlen(c.input);
c.outLen = SHA384_DIGEST_SIZE;
test_hmac[0] = a;
test_hmac[1] = b;
test_hmac[2] = c;
for (i = 0; i < times; ++i) {
HmacSetKey(&hmac, SHA384, (byte*)keys[i], (word32)strlen(keys[i]));
HmacUpdate(&hmac, (byte*)test_hmac[i].input,
(word32)test_hmac[i].inLen);
HmacFinal(&hmac, hash);
if (memcmp(hash, test_hmac[i].output, SHA384_DIGEST_SIZE) != 0)
return -20 - i;
}
return 0;
}
#endif
#ifndef NO_RC4
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int arc4_test(void)
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{
byte cipher[16];
byte plain[16];
const char* keys[] =
{
"\x01\x23\x45\x67\x89\xab\xcd\xef",
"\x01\x23\x45\x67\x89\xab\xcd\xef",
"\x00\x00\x00\x00\x00\x00\x00\x00",
"\xef\x01\x23\x45"
};
testVector a, b, c, d;
testVector test_arc4[4];
int times = sizeof(test_arc4) / sizeof(testVector), i;
a.input = "\x01\x23\x45\x67\x89\xab\xcd\xef";
a.output = "\x75\xb7\x87\x80\x99\xe0\xc5\x96";
a.inLen = 8;
a.outLen = 8;
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b.input = "\x00\x00\x00\x00\x00\x00\x00\x00";
b.output = "\x74\x94\xc2\xe7\x10\x4b\x08\x79";
b.inLen = 8;
b.outLen = 8;
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c.input = "\x00\x00\x00\x00\x00\x00\x00\x00";
c.output = "\xde\x18\x89\x41\xa3\x37\x5d\x3a";
c.inLen = 8;
c.outLen = 8;
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d.input = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00";
d.output = "\xd6\xa1\x41\xa7\xec\x3c\x38\xdf\xbd\x61";
d.inLen = 10;
d.outLen = 10;
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test_arc4[0] = a;
test_arc4[1] = b;
test_arc4[2] = c;
test_arc4[3] = d;
for (i = 0; i < times; ++i) {
Arc4 enc;
Arc4 dec;
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int keylen = 8; /* strlen with key 0x00 not good */
if (i == 3)
keylen = 4;
#ifdef HAVE_CAVIUM
if (Arc4InitCavium(&enc, CAVIUM_DEV_ID) != 0)
return -20001;
if (Arc4InitCavium(&dec, CAVIUM_DEV_ID) != 0)
return -20002;
#endif
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Arc4SetKey(&enc, (byte*)keys[i], keylen);
Arc4SetKey(&dec, (byte*)keys[i], keylen);
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Arc4Process(&enc, cipher, (byte*)test_arc4[i].input,
(word32)test_arc4[i].outLen);
Arc4Process(&dec, plain, cipher, (word32)test_arc4[i].outLen);
if (memcmp(plain, test_arc4[i].input, test_arc4[i].outLen))
return -20 - i;
if (memcmp(cipher, test_arc4[i].output, test_arc4[i].outLen))
return -20 - 5 - i;
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#ifdef HAVE_CAVIUM
Arc4FreeCavium(&enc);
Arc4FreeCavium(&dec);
#endif
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}
return 0;
}
#endif
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int hc128_test(void)
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{
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#ifdef HAVE_HC128
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byte cipher[16];
byte plain[16];
const char* keys[] =
{
"\x80\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00",
"\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00",
"\x00\x53\xA6\xF9\x4C\x9F\xF2\x45\x98\xEB\x3E\x91\xE4\x37\x8A\xDD",
"\x0F\x62\xB5\x08\x5B\xAE\x01\x54\xA7\xFA\x4D\xA0\xF3\x46\x99\xEC"
};
const char* ivs[] =
{
"\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00",
"\x80\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00",
"\x0D\x74\xDB\x42\xA9\x10\x77\xDE\x45\xAC\x13\x7A\xE1\x48\xAF\x16",
"\x28\x8F\xF6\x5D\xC4\x2B\x92\xF9\x60\xC7\x2E\x95\xFC\x63\xCA\x31"
};
testVector a, b, c, d;
testVector test_hc128[4];
int times = sizeof(test_hc128) / sizeof(testVector), i;
a.input = "\x00\x00\x00\x00\x00\x00\x00\x00";
a.output = "\x37\x86\x02\xB9\x8F\x32\xA7\x48";
a.inLen = 8;
a.outLen = 8;
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b.input = "\x00\x00\x00\x00\x00\x00\x00\x00";
b.output = "\x33\x7F\x86\x11\xC6\xED\x61\x5F";
b.inLen = 8;
b.outLen = 8;
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c.input = "\x00\x00\x00\x00\x00\x00\x00\x00";
c.output = "\x2E\x1E\xD1\x2A\x85\x51\xC0\x5A";
c.inLen = 8;
c.outLen = 8;
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d.input = "\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00";
d.output = "\x1C\xD8\xAE\xDD\xFE\x52\xE2\x17\xE8\x35\xD0\xB7\xE8\x4E\x29";
d.inLen = 15;
d.outLen = 15;
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test_hc128[0] = a;
test_hc128[1] = b;
test_hc128[2] = c;
test_hc128[3] = d;
for (i = 0; i < times; ++i) {
HC128 enc;
HC128 dec;
/* align keys/ivs in plain/cipher buffers */
memcpy(plain, keys[i], 16);
memcpy(cipher, ivs[i], 16);
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Hc128_SetKey(&enc, plain, cipher);
Hc128_SetKey(&dec, plain, cipher);
/* align input */
memcpy(plain, test_hc128[i].input, test_hc128[i].outLen);
Hc128_Process(&enc, cipher, plain, (word32)test_hc128[i].outLen);
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Hc128_Process(&dec, plain, cipher, (word32)test_hc128[i].outLen);
if (memcmp(plain, test_hc128[i].input, test_hc128[i].outLen))
return -120 - i;
if (memcmp(cipher, test_hc128[i].output, test_hc128[i].outLen))
return -120 - 5 - i;
}
#endif /* HAVE_HC128 */
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return 0;
}
#ifndef NO_RABBIT
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int rabbit_test(void)
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{
byte cipher[16];
byte plain[16];
const char* keys[] =
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{
"\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00",
"\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00",
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"\xAC\xC3\x51\xDC\xF1\x62\xFC\x3B\xFE\x36\x3D\x2E\x29\x13\x28\x91"
};
const char* ivs[] =
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{
"\x00\x00\x00\x00\x00\x00\x00\x00",
"\x59\x7E\x26\xC1\x75\xF5\x73\xC3",
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0
};
testVector a, b, c;
testVector test_rabbit[3];
int times = sizeof(test_rabbit) / sizeof(testVector), i;
a.input = "\x00\x00\x00\x00\x00\x00\x00\x00";
a.output = "\xED\xB7\x05\x67\x37\x5D\xCD\x7C";
a.inLen = 8;
a.outLen = 8;
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b.input = "\x00\x00\x00\x00\x00\x00\x00\x00";
b.output = "\x6D\x7D\x01\x22\x92\xCC\xDC\xE0";
b.inLen = 8;
b.outLen = 8;
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c.input = "\x00\x00\x00\x00\x00\x00\x00\x00";
c.output = "\x9C\x51\xE2\x87\x84\xC3\x7F\xE9";
c.inLen = 8;
c.outLen = 8;
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test_rabbit[0] = a;
test_rabbit[1] = b;
test_rabbit[2] = c;
for (i = 0; i < times; ++i) {
Rabbit enc;
Rabbit dec;
byte* iv;
/* align keys/ivs in plain/cipher buffers */
memcpy(plain, keys[i], 16);
if (ivs[i]) {
memcpy(cipher, ivs[i], 8);
iv = cipher;
} else
iv = NULL;
RabbitSetKey(&enc, plain, iv);
RabbitSetKey(&dec, plain, iv);
/* align input */
memcpy(plain, test_rabbit[i].input, test_rabbit[i].outLen);
RabbitProcess(&enc, cipher, plain, (word32)test_rabbit[i].outLen);
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RabbitProcess(&dec, plain, cipher, (word32)test_rabbit[i].outLen);
if (memcmp(plain, test_rabbit[i].input, test_rabbit[i].outLen))
return -130 - i;
if (memcmp(cipher, test_rabbit[i].output, test_rabbit[i].outLen))
return -130 - 5 - i;
}
return 0;
}
#endif /* NO_RABBIT */
#ifndef NO_DES3
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int des_test(void)
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{
const byte vector[] = { /* "now is the time for all " w/o trailing 0 */
0x6e,0x6f,0x77,0x20,0x69,0x73,0x20,0x74,
0x68,0x65,0x20,0x74,0x69,0x6d,0x65,0x20,
0x66,0x6f,0x72,0x20,0x61,0x6c,0x6c,0x20
};
byte plain[24];
byte cipher[24];
Des enc;
Des dec;
const byte key[] =
{
0x01,0x23,0x45,0x67,0x89,0xab,0xcd,0xef
};
const byte iv[] =
{
0x12,0x34,0x56,0x78,0x90,0xab,0xcd,0xef
};
const byte verify[] =
{
0x8b,0x7c,0x52,0xb0,0x01,0x2b,0x6c,0xb8,
0x4f,0x0f,0xeb,0xf3,0xfb,0x5f,0x86,0x73,
0x15,0x85,0xb3,0x22,0x4b,0x86,0x2b,0x4b
};
Des_SetKey(&enc, key, iv, DES_ENCRYPTION);
Des_CbcEncrypt(&enc, cipher, vector, sizeof(vector));
Des_SetKey(&dec, key, iv, DES_DECRYPTION);
Des_CbcDecrypt(&dec, plain, cipher, sizeof(cipher));
if (memcmp(plain, vector, sizeof(plain)))
return -31;
if (memcmp(cipher, verify, sizeof(cipher)))
return -32;
return 0;
}
#endif /* NO_DES3 */
#ifndef NO_DES3
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int des3_test(void)
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{
const byte vector[] = { /* "Now is the time for all " w/o trailing 0 */
0x4e,0x6f,0x77,0x20,0x69,0x73,0x20,0x74,
0x68,0x65,0x20,0x74,0x69,0x6d,0x65,0x20,
0x66,0x6f,0x72,0x20,0x61,0x6c,0x6c,0x20
};
byte plain[24];
byte cipher[24];
Des3 enc;
Des3 dec;
const byte key3[] =
{
0x01,0x23,0x45,0x67,0x89,0xab,0xcd,0xef,
0xfe,0xde,0xba,0x98,0x76,0x54,0x32,0x10,
0x89,0xab,0xcd,0xef,0x01,0x23,0x45,0x67
};
const byte iv3[] =
{
0x12,0x34,0x56,0x78,0x90,0xab,0xcd,0xef,
0x01,0x01,0x01,0x01,0x01,0x01,0x01,0x01,
0x11,0x21,0x31,0x41,0x51,0x61,0x71,0x81
};
const byte verify3[] =
{
0x43,0xa0,0x29,0x7e,0xd1,0x84,0xf8,0x0e,
0x89,0x64,0x84,0x32,0x12,0xd5,0x08,0x98,
0x18,0x94,0x15,0x74,0x87,0x12,0x7d,0xb0
};
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#ifdef HAVE_CAVIUM
if (Des3_InitCavium(&enc, CAVIUM_DEV_ID) != 0)
return -20005;
if (Des3_InitCavium(&dec, CAVIUM_DEV_ID) != 0)
return -20006;
#endif
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Des3_SetKey(&enc, key3, iv3, DES_ENCRYPTION);
Des3_SetKey(&dec, key3, iv3, DES_DECRYPTION);
Des3_CbcEncrypt(&enc, cipher, vector, sizeof(vector));
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Des3_CbcDecrypt(&dec, plain, cipher, sizeof(cipher));
if (memcmp(plain, vector, sizeof(plain)))
return -33;
if (memcmp(cipher, verify3, sizeof(cipher)))
return -34;
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#ifdef HAVE_CAVIUM
Des3_FreeCavium(&enc);
Des3_FreeCavium(&dec);
#endif
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return 0;
}
#endif /* NO_DES */
#ifndef NO_AES
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int aes_test(void)
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{
Aes enc;
Aes dec;
const byte msg[] = { /* "Now is the time for all " w/o trailing 0 */
0x6e,0x6f,0x77,0x20,0x69,0x73,0x20,0x74,
0x68,0x65,0x20,0x74,0x69,0x6d,0x65,0x20,
0x66,0x6f,0x72,0x20,0x61,0x6c,0x6c,0x20
};
const byte verify[] =
{
0x95,0x94,0x92,0x57,0x5f,0x42,0x81,0x53,
0x2c,0xcc,0x9d,0x46,0x77,0xa2,0x33,0xcb
};
byte key[] = "0123456789abcdef "; /* align */
byte iv[] = "1234567890abcdef "; /* align */
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byte cipher[AES_BLOCK_SIZE * 4];
byte plain [AES_BLOCK_SIZE * 4];
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#ifdef HAVE_CAVIUM
if (AesInitCavium(&enc, CAVIUM_DEV_ID) != 0)
return -20003;
if (AesInitCavium(&dec, CAVIUM_DEV_ID) != 0)
return -20004;
#endif
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AesSetKey(&enc, key, AES_BLOCK_SIZE, iv, AES_ENCRYPTION);
AesSetKey(&dec, key, AES_BLOCK_SIZE, iv, AES_DECRYPTION);
AesCbcEncrypt(&enc, cipher, msg, AES_BLOCK_SIZE);
AesCbcDecrypt(&dec, plain, cipher, AES_BLOCK_SIZE);
if (memcmp(plain, msg, AES_BLOCK_SIZE))
return -60;
if (memcmp(cipher, verify, AES_BLOCK_SIZE))
return -61;
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#ifdef HAVE_CAVIUM
AesFreeCavium(&enc);
AesFreeCavium(&dec);
#endif
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#ifdef CYASSL_AES_COUNTER
{
const byte ctrKey[] =
{
0x2b,0x7e,0x15,0x16,0x28,0xae,0xd2,0xa6,
0xab,0xf7,0x15,0x88,0x09,0xcf,0x4f,0x3c
};
const byte ctrIv[] =
{
0xf0,0xf1,0xf2,0xf3,0xf4,0xf5,0xf6,0xf7,
0xf8,0xf9,0xfa,0xfb,0xfc,0xfd,0xfe,0xff
};
const byte ctrPlain[] =
{
0x6b,0xc1,0xbe,0xe2,0x2e,0x40,0x9f,0x96,
0xe9,0x3d,0x7e,0x11,0x73,0x93,0x17,0x2a,
0xae,0x2d,0x8a,0x57,0x1e,0x03,0xac,0x9c,
0x9e,0xb7,0x6f,0xac,0x45,0xaf,0x8e,0x51,
0x30,0xc8,0x1c,0x46,0xa3,0x5c,0xe4,0x11,
0xe5,0xfb,0xc1,0x19,0x1a,0x0a,0x52,0xef,
0xf6,0x9f,0x24,0x45,0xdf,0x4f,0x9b,0x17,
0xad,0x2b,0x41,0x7b,0xe6,0x6c,0x37,0x10
};
const byte ctrCipher[] =
{
0x87,0x4d,0x61,0x91,0xb6,0x20,0xe3,0x26,
0x1b,0xef,0x68,0x64,0x99,0x0d,0xb6,0xce,
0x98,0x06,0xf6,0x6b,0x79,0x70,0xfd,0xff,
0x86,0x17,0x18,0x7b,0xb9,0xff,0xfd,0xff,
0x5a,0xe4,0xdf,0x3e,0xdb,0xd5,0xd3,0x5e,
0x5b,0x4f,0x09,0x02,0x0d,0xb0,0x3e,0xab,
0x1e,0x03,0x1d,0xda,0x2f,0xbe,0x03,0xd1,
0x79,0x21,0x70,0xa0,0xf3,0x00,0x9c,0xee
};
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AesSetKeyDirect(&enc, ctrKey, AES_BLOCK_SIZE, ctrIv, AES_ENCRYPTION);
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/* Ctr only uses encrypt, even on key setup */
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AesSetKeyDirect(&dec, ctrKey, AES_BLOCK_SIZE, ctrIv, AES_ENCRYPTION);
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AesCtrEncrypt(&enc, cipher, ctrPlain, AES_BLOCK_SIZE*4);
AesCtrEncrypt(&dec, plain, cipher, AES_BLOCK_SIZE*4);
if (memcmp(plain, ctrPlain, AES_BLOCK_SIZE*4))
return -66;
if (memcmp(cipher, ctrCipher, AES_BLOCK_SIZE*4))
return -67;
}
#endif /* CYASSL_AES_COUNTER */
return 0;
}
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#ifdef HAVE_AESGCM
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int aesgcm_test(void)
{
Aes enc;
/*
* This is Test Case 16 from the document Galois/
* Counter Mode of Operation (GCM) by McGrew and
* Viega.
*/
const byte k[] =
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{
0xfe, 0xff, 0xe9, 0x92, 0x86, 0x65, 0x73, 0x1c,
0x6d, 0x6a, 0x8f, 0x94, 0x67, 0x30, 0x83, 0x08,
0xfe, 0xff, 0xe9, 0x92, 0x86, 0x65, 0x73, 0x1c,
0x6d, 0x6a, 0x8f, 0x94, 0x67, 0x30, 0x83, 0x08
};
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const byte iv[] =
{
0xca, 0xfe, 0xba, 0xbe, 0xfa, 0xce, 0xdb, 0xad,
0xde, 0xca, 0xf8, 0x88
};
const byte p[] =
{
0xd9, 0x31, 0x32, 0x25, 0xf8, 0x84, 0x06, 0xe5,
0xa5, 0x59, 0x09, 0xc5, 0xaf, 0xf5, 0x26, 0x9a,
0x86, 0xa7, 0xa9, 0x53, 0x15, 0x34, 0xf7, 0xda,
0x2e, 0x4c, 0x30, 0x3d, 0x8a, 0x31, 0x8a, 0x72,
0x1c, 0x3c, 0x0c, 0x95, 0x95, 0x68, 0x09, 0x53,
0x2f, 0xcf, 0x0e, 0x24, 0x49, 0xa6, 0xb5, 0x25,
0xb1, 0x6a, 0xed, 0xf5, 0xaa, 0x0d, 0xe6, 0x57,
0xba, 0x63, 0x7b, 0x39
};
const byte a[] =
{
0xfe, 0xed, 0xfa, 0xce, 0xde, 0xad, 0xbe, 0xef,
0xfe, 0xed, 0xfa, 0xce, 0xde, 0xad, 0xbe, 0xef,
0xab, 0xad, 0xda, 0xd2
};
const byte c[] =
{
0x52, 0x2d, 0xc1, 0xf0, 0x99, 0x56, 0x7d, 0x07,
0xf4, 0x7f, 0x37, 0xa3, 0x2a, 0x84, 0x42, 0x7d,
0x64, 0x3a, 0x8c, 0xdc, 0xbf, 0xe5, 0xc0, 0xc9,
0x75, 0x98, 0xa2, 0xbd, 0x25, 0x55, 0xd1, 0xaa,
0x8c, 0xb0, 0x8e, 0x48, 0x59, 0x0d, 0xbb, 0x3d,
0xa7, 0xb0, 0x8b, 0x10, 0x56, 0x82, 0x88, 0x38,
0xc5, 0xf6, 0x1e, 0x63, 0x93, 0xba, 0x7a, 0x0a,
0xbc, 0xc9, 0xf6, 0x62
};
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const byte t[] =
{
0x76, 0xfc, 0x6e, 0xce, 0x0f, 0x4e, 0x17, 0x68,
0xcd, 0xdf, 0x88, 0x53, 0xbb, 0x2d, 0x55, 0x1b
};
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byte t2[sizeof(t)];
byte p2[sizeof(c)];
byte c2[sizeof(p)];
int result;
memset(t2, 0, sizeof(t2));
memset(c2, 0, sizeof(c2));
memset(p2, 0, sizeof(p2));
AesGcmSetKey(&enc, k, sizeof(k));
/* AES-GCM encrypt and decrypt both use AES encrypt internally */
AesGcmEncrypt(&enc, c2, p, sizeof(c2), iv, sizeof(iv),
t2, sizeof(t2), a, sizeof(a));
if (memcmp(c, c2, sizeof(c2)))
return -68;
if (memcmp(t, t2, sizeof(t2)))
return -69;
result = AesGcmDecrypt(&enc, p2, c2, sizeof(p2), iv, sizeof(iv),
t2, sizeof(t2), a, sizeof(a));
if (result != 0)
return -70;
if (memcmp(p, p2, sizeof(p2)))
return -71;
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return 0;
}
#endif /* HAVE_AESGCM */
#ifdef HAVE_AESCCM
int aesccm_test(void)
{
Aes enc;
/* key */
const byte k[] =
{
0xc0, 0xc1, 0xc2, 0xc3, 0xc4, 0xc5, 0xc6, 0xc7,
0xc8, 0xc9, 0xca, 0xcb, 0xcc, 0xcd, 0xce, 0xcf
};
/* nonce */
const byte iv[] =
{
0x00, 0x00, 0x00, 0x03, 0x02, 0x01, 0x00, 0xa0,
0xa1, 0xa2, 0xa3, 0xa4, 0xa5
};
/* plaintext */
const byte p[] =
{
0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f,
0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17,
0x18, 0x19, 0x1a, 0x1b, 0x1c, 0x1d, 0x1e
};
const byte a[] =
{
0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07
};
const byte c[] =
{
0x58, 0x8c, 0x97, 0x9a, 0x61, 0xc6, 0x63, 0xd2,
0xf0, 0x66, 0xd0, 0xc2, 0xc0, 0xf9, 0x89, 0x80,
0x6d, 0x5f, 0x6b, 0x61, 0xda, 0xc3, 0x84
};
const byte t[] =
{
0x17, 0xe8, 0xd1, 0x2c, 0xfd, 0xf9, 0x26, 0xe0
};
byte t2[sizeof(t)];
byte p2[sizeof(p)];
byte c2[sizeof(c)];
int result;
memset(t2, 0, sizeof(t2));
memset(c2, 0, sizeof(c2));
memset(p2, 0, sizeof(p2));
AesCcmSetKey(&enc, k, sizeof(k));
/* AES-CCM encrypt and decrypt both use AES encrypt internally */
AesCcmEncrypt(&enc, c2, p, sizeof(c2), iv, sizeof(iv),
t2, sizeof(t2), a, sizeof(a));
if (memcmp(c, c2, sizeof(c2)))
return -107;
if (memcmp(t, t2, sizeof(t2)))
return -108;
result = AesCcmDecrypt(&enc, p2, c2, sizeof(p2), iv, sizeof(iv),
t2, sizeof(t2), a, sizeof(a));
if (result != 0)
return -109;
if (memcmp(p, p2, sizeof(p2)))
return -110;
/* Test the authentication failure */
t2[0]++; /* Corrupt the authentication tag. */
result = AesCcmDecrypt(&enc, p2, c, sizeof(p2), iv, sizeof(iv),
t2, sizeof(t2), a, sizeof(a));
if (result == 0)
return -111;
/* Clear c2 to compare against p2. p2 should be set to zero in case of
* authentication fail. */
memset(c2, 0, sizeof(c2));
if (memcmp(p2, c2, sizeof(p2)))
return -112;
return 0;
}
#endif /* HAVE_AESCCM */
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#endif /* NO_AES */
#ifdef HAVE_CAMELLIA
enum {
CAM_ECB_ENC, CAM_ECB_DEC, CAM_CBC_ENC, CAM_CBC_DEC
};
typedef struct {
int type;
const byte* plaintext;
const byte* iv;
const byte* ciphertext;
const byte* key;
word32 keySz;
int errorCode;
} test_vector_t;
int camellia_test(void)
{
/* Camellia ECB Test Plaintext */
const byte pte[] =
{
0x01, 0x23, 0x45, 0x67, 0x89, 0xab, 0xcd, 0xef,
0xfe, 0xdc, 0xba, 0x98, 0x76, 0x54, 0x32, 0x10
};
/* Camellia ECB Test Initialization Vector */
const byte ive[] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
/* Test 1: Camellia ECB 128-bit key */
const byte k1[] =
{
0x01, 0x23, 0x45, 0x67, 0x89, 0xab, 0xcd, 0xef,
0xfe, 0xdc, 0xba, 0x98, 0x76, 0x54, 0x32, 0x10
};
const byte c1[] =
{
0x67, 0x67, 0x31, 0x38, 0x54, 0x96, 0x69, 0x73,
0x08, 0x57, 0x06, 0x56, 0x48, 0xea, 0xbe, 0x43
};
/* Test 2: Camellia ECB 192-bit key */
const byte k2[] =
{
0x01, 0x23, 0x45, 0x67, 0x89, 0xab, 0xcd, 0xef,
0xfe, 0xdc, 0xba, 0x98, 0x76, 0x54, 0x32, 0x10,
0x00, 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77
};
const byte c2[] =
{
0xb4, 0x99, 0x34, 0x01, 0xb3, 0xe9, 0x96, 0xf8,
0x4e, 0xe5, 0xce, 0xe7, 0xd7, 0x9b, 0x09, 0xb9
};
/* Test 3: Camellia ECB 256-bit key */
const byte k3[] =
{
0x01, 0x23, 0x45, 0x67, 0x89, 0xab, 0xcd, 0xef,
0xfe, 0xdc, 0xba, 0x98, 0x76, 0x54, 0x32, 0x10,
0x00, 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77,
0x88, 0x99, 0xaa, 0xbb, 0xcc, 0xdd, 0xee, 0xff
};
const byte c3[] =
{
0x9a, 0xcc, 0x23, 0x7d, 0xff, 0x16, 0xd7, 0x6c,
0x20, 0xef, 0x7c, 0x91, 0x9e, 0x3a, 0x75, 0x09
};
/* Camellia CBC Test Plaintext */
const byte ptc[] =
{
0x6B, 0xC1, 0xBE, 0xE2, 0x2E, 0x40, 0x9F, 0x96,
0xE9, 0x3D, 0x7E, 0x11, 0x73, 0x93, 0x17, 0x2A
};
/* Camellia CBC Test Initialization Vector */
const byte ivc[] =
{
0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07,
0x08, 0x09, 0x0A, 0x0B, 0x0C, 0x0D, 0x0E, 0x0F
};
/* Test 4: Camellia-CBC 128-bit key */
const byte k4[] =
{
0x2B, 0x7E, 0x15, 0x16, 0x28, 0xAE, 0xD2, 0xA6,
0xAB, 0xF7, 0x15, 0x88, 0x09, 0xCF, 0x4F, 0x3C
};
const byte c4[] =
{
0x16, 0x07, 0xCF, 0x49, 0x4B, 0x36, 0xBB, 0xF0,
0x0D, 0xAE, 0xB0, 0xB5, 0x03, 0xC8, 0x31, 0xAB
};
/* Test 5: Camellia-CBC 192-bit key */
const byte k5[] =
{
0x8E, 0x73, 0xB0, 0xF7, 0xDA, 0x0E, 0x64, 0x52,
0xC8, 0x10, 0xF3, 0x2B, 0x80, 0x90, 0x79, 0xE5,
0x62, 0xF8, 0xEA, 0xD2, 0x52, 0x2C, 0x6B, 0x7B
};
const byte c5[] =
{
0x2A, 0x48, 0x30, 0xAB, 0x5A, 0xC4, 0xA1, 0xA2,
0x40, 0x59, 0x55, 0xFD, 0x21, 0x95, 0xCF, 0x93
};
/* Test 6: CBC 256-bit key */
const byte k6[] =
{
0x60, 0x3D, 0xEB, 0x10, 0x15, 0xCA, 0x71, 0xBE,
0x2B, 0x73, 0xAE, 0xF0, 0x85, 0x7D, 0x77, 0x81,
0x1F, 0x35, 0x2C, 0x07, 0x3B, 0x61, 0x08, 0xD7,
0x2D, 0x98, 0x10, 0xA3, 0x09, 0x14, 0xDF, 0xF4
};
const byte c6[] =
{
0xE6, 0xCF, 0xA3, 0x5F, 0xC0, 0x2B, 0x13, 0x4A,
0x4D, 0x2C, 0x0B, 0x67, 0x37, 0xAC, 0x3E, 0xDA
};
byte out[CAMELLIA_BLOCK_SIZE];
Camellia cam;
int i, testsSz;
const test_vector_t testVectors[] =
{
{CAM_ECB_ENC, pte, ive, c1, k1, sizeof(k1), -114},
{CAM_ECB_ENC, pte, ive, c2, k2, sizeof(k2), -115},
{CAM_ECB_ENC, pte, ive, c3, k3, sizeof(k3), -116},
{CAM_ECB_DEC, pte, ive, c1, k1, sizeof(k1), -117},
{CAM_ECB_DEC, pte, ive, c2, k2, sizeof(k2), -118},
{CAM_ECB_DEC, pte, ive, c3, k3, sizeof(k3), -119},
{CAM_CBC_ENC, ptc, ivc, c4, k4, sizeof(k4), -120},
{CAM_CBC_ENC, ptc, ivc, c5, k5, sizeof(k5), -121},
{CAM_CBC_ENC, ptc, ivc, c6, k6, sizeof(k6), -122},
{CAM_CBC_DEC, ptc, ivc, c4, k4, sizeof(k4), -123},
{CAM_CBC_DEC, ptc, ivc, c5, k5, sizeof(k5), -124},
{CAM_CBC_DEC, ptc, ivc, c6, k6, sizeof(k6), -125}
};
if ((sizeof(pte) != CAMELLIA_BLOCK_SIZE) ||
(sizeof(ptc) != CAMELLIA_BLOCK_SIZE))
return -113;
testsSz = sizeof(testVectors)/sizeof(test_vector_t);
for (i = 0; i < testsSz; i++) {
CamelliaSetKey(&cam, testVectors[i].key, testVectors[i].keySz,
testVectors[i].iv);
switch (testVectors[i].type) {
case CAM_ECB_ENC:
CamelliaEncryptDirect(&cam, out, testVectors[i].plaintext);
if (memcmp(out, testVectors[i].ciphertext, CAMELLIA_BLOCK_SIZE))
return testVectors[i].errorCode;
break;
case CAM_ECB_DEC:
CamelliaDecryptDirect(&cam, out, testVectors[i].ciphertext);
if (memcmp(out, testVectors[i].plaintext, CAMELLIA_BLOCK_SIZE))
return testVectors[i].errorCode;
break;
case CAM_CBC_ENC:
CamelliaCbcEncrypt(&cam, out, testVectors[i].plaintext,
CAMELLIA_BLOCK_SIZE);
if (memcmp(out, testVectors[i].ciphertext, CAMELLIA_BLOCK_SIZE))
return testVectors[i].errorCode;
break;
case CAM_CBC_DEC:
CamelliaCbcDecrypt(&cam, out, testVectors[i].ciphertext,
CAMELLIA_BLOCK_SIZE);
if (memcmp(out, testVectors[i].plaintext, CAMELLIA_BLOCK_SIZE))
return testVectors[i].errorCode;
break;
default:
break;
}
}
/* Setting the IV and checking it was actually set. */
CamelliaSetIV(&cam, ivc);
if (XMEMCMP(cam.reg, ivc, CAMELLIA_BLOCK_SIZE))
return -1;
/* Setting the IV to NULL should leave the IV unchanged */
if (CamelliaSetIV(&cam, NULL) != 0 ||
XMEMCMP(cam.reg, ivc, CAMELLIA_BLOCK_SIZE))
return -1;
/* First parameter should never be null */
if (CamelliaSetIV(NULL, NULL) == 0)
return -1;
/* First parameter should never be null, check it fails */
if (CamelliaSetKey(NULL, k1, sizeof(k1), NULL) == 0)
return -1;
/* Key should have a size of 16, 24, or 32 */
if (CamelliaSetKey(&cam, k1, 0, NULL) == 0)
return -1;
return 0;
}
#endif /* HAVE_CAMELLIA */
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int random_test(void)
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{
RNG rng;
byte block[32];
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int ret;
#ifdef HAVE_CAVIUM
ret = InitRngCavium(&rng, CAVIUM_DEV_ID);
if (ret != 0) return -2007;
#endif
ret = InitRng(&rng);
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if (ret != 0) return -39;
RNG_GenerateBlock(&rng, block, sizeof(block));
return 0;
}
#ifdef HAVE_NTRU
byte GetEntropy(ENTROPY_CMD cmd, byte* out);
byte GetEntropy(ENTROPY_CMD cmd, byte* out)
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{
static RNG rng;
if (cmd == INIT) {
int ret = InitRng(&rng);
if (ret == 0)
return 1;
else
return 0;
}
if (out == NULL)
return 0;
if (cmd == GET_BYTE_OF_ENTROPY) {
RNG_GenerateBlock(&rng, out, 1);
return 1;
}
if (cmd == GET_NUM_BYTES_PER_BYTE_OF_ENTROPY) {
*out = 1;
return 1;
}
return 0;
}
#endif /* HAVE_NTRU */
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#ifndef NO_RSA
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#ifdef FREESCALE_MQX
static const char* clientKey = "a:\certs\\client-key.der";
static const char* clientCert = "a:\certs\\client-cert.der";
#ifdef CYASSL_CERT_GEN
static const char* caKeyFile = "a:\certs\\ca-key.der";
static const char* caCertFile = "a:\certs\\ca-cert.pem";
#endif
#elif !defined(USE_CERT_BUFFERS_1024) && !defined(USE_CERT_BUFFERS_2048)
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static const char* clientKey = "./certs/client-key.der";
static const char* clientCert = "./certs/client-cert.der";
#ifdef CYASSL_CERT_GEN
static const char* caKeyFile = "./certs/ca-key.der";
static const char* caCertFile = "./certs/ca-cert.pem";
#endif
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#endif
#define FOURK_BUF 4096
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int rsa_test(void)
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{
byte* tmp;
size_t bytes;
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RsaKey key;
RNG rng;
word32 idx = 0;
int ret;
byte in[] = "Everyone gets Friday off.";
word32 inLen = (word32)strlen((char*)in);
byte out[256];
byte plain[256];
#if !defined(USE_CERT_BUFFERS_1024) && !defined(USE_CERT_BUFFERS_2048)
FILE* file, * file2;
#endif
#ifdef CYASSL_TEST_CERT
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DecodedCert cert;
#endif
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tmp = (byte*)malloc(FOURK_BUF);
if (tmp == NULL)
return -40;
#ifdef USE_CERT_BUFFERS_1024
XMEMCPY(tmp, client_key_der_1024, sizeof(client_key_der_1024));
bytes = sizeof(client_key_der_1024);
#elif defined(USE_CERT_BUFFERS_2048)
XMEMCPY(tmp, client_key_der_2048, sizeof(client_key_der_2048));
bytes = sizeof(client_key_der_2048);
#else
file = fopen(clientKey, "rb");
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if (!file)
err_sys("can't open ./certs/client-key.der, "
"Please run from CyaSSL home dir", -40);
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bytes = fread(tmp, 1, FOURK_BUF, file);
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fclose(file);
#endif /* USE_CERT_BUFFERS */
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#ifdef HAVE_CAVIUM
RsaInitCavium(&key, CAVIUM_DEV_ID);
#endif
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InitRsaKey(&key, 0);
ret = RsaPrivateKeyDecode(tmp, &idx, &key, (word32)bytes);
if (ret != 0) return -41;
ret = InitRng(&rng);
if (ret != 0) return -42;
ret = RsaPublicEncrypt(in, inLen, out, sizeof(out), &key, &rng);
if (ret < 0) return -43;
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ret = RsaPrivateDecrypt(out, ret, plain, sizeof(plain), &key);
if (ret < 0) return -44;
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if (memcmp(plain, in, inLen)) return -45;
ret = RsaSSL_Sign(in, inLen, out, sizeof(out), &key, &rng);
if (ret < 0) return -46;
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memset(plain, 0, sizeof(plain));
ret = RsaSSL_Verify(out, ret, plain, sizeof(plain), &key);
if (ret < 0) return -47;
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if (memcmp(plain, in, ret)) return -48;
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#ifdef USE_CERT_BUFFERS_1024
XMEMCPY(tmp, client_cert_der_1024, sizeof(client_cert_der_1024));
bytes = sizeof(client_cert_der_1024);
#elif defined(USE_CERT_BUFFERS_2048)
XMEMCPY(tmp, client_cert_der_2048, sizeof(client_cert_der_2048));
bytes = sizeof(client_cert_der_2048);
#else
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file2 = fopen(clientCert, "rb");
if (!file2)
return -49;
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bytes = fread(tmp, 1, FOURK_BUF, file2);
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fclose(file2);
#endif
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#ifdef CYASSL_TEST_CERT
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InitDecodedCert(&cert, tmp, (word32)bytes, 0);
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ret = ParseCert(&cert, CERT_TYPE, NO_VERIFY, 0);
if (ret != 0) return -491;
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FreeDecodedCert(&cert);
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#else
(void)bytes;
#endif
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#ifdef CYASSL_KEY_GEN
{
byte* der;
byte* pem;
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int derSz = 0;
int pemSz = 0;
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RsaKey derIn;
RsaKey genKey;
FILE* keyFile;
FILE* pemFile;
InitRsaKey(&genKey, 0);
ret = MakeRsaKey(&genKey, 1024, 65537, &rng);
if (ret != 0)
return -301;
der = (byte*)malloc(FOURK_BUF);
if (der == NULL)
return -307;
pem = (byte*)malloc(FOURK_BUF);
if (pem == NULL)
return -308;
derSz = RsaKeyToDer(&genKey, der, FOURK_BUF);
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if (derSz < 0)
return -302;
keyFile = fopen("./key.der", "wb");
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if (!keyFile)
return -303;
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ret = (int)fwrite(der, derSz, 1, keyFile);
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fclose(keyFile);
pemSz = DerToPem(der, derSz, pem, FOURK_BUF, PRIVATEKEY_TYPE);
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if (pemSz < 0)
return -304;
pemFile = fopen("./key.pem", "wb");
if (!pemFile)
return -305;
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ret = (int)fwrite(pem, pemSz, 1, pemFile);
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fclose(pemFile);
InitRsaKey(&derIn, 0);
idx = 0;
ret = RsaPrivateKeyDecode(der, &idx, &derIn, derSz);
if (ret != 0)
return -306;
FreeRsaKey(&derIn);
FreeRsaKey(&genKey);
free(pem);
free(der);
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}
#endif /* CYASSL_KEY_GEN */
#ifdef CYASSL_CERT_GEN
/* self signed */
{
Cert myCert;
byte* derCert;
byte* pem;
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FILE* derFile;
FILE* pemFile;
int certSz;
int pemSz;
#ifdef CYASSL_TEST_CERT
DecodedCert decode;
#endif
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derCert = (byte*)malloc(FOURK_BUF);
if (derCert == NULL)
return -309;
pem = (byte*)malloc(FOURK_BUF);
if (pem == NULL)
return -310;
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InitCert(&myCert);
strncpy(myCert.subject.country, "US", CTC_NAME_SIZE);
strncpy(myCert.subject.state, "OR", CTC_NAME_SIZE);
strncpy(myCert.subject.locality, "Portland", CTC_NAME_SIZE);
strncpy(myCert.subject.org, "yaSSL", CTC_NAME_SIZE);
strncpy(myCert.subject.unit, "Development", CTC_NAME_SIZE);
strncpy(myCert.subject.commonName, "www.yassl.com", CTC_NAME_SIZE);
strncpy(myCert.subject.email, "info@yassl.com", CTC_NAME_SIZE);
myCert.isCA = 1;
myCert.sigType = CTC_SHA256wRSA;
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certSz = MakeSelfCert(&myCert, derCert, FOURK_BUF, &key, &rng);
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if (certSz < 0)
return -401;
#ifdef CYASSL_TEST_CERT
InitDecodedCert(&decode, derCert, certSz, 0);
ret = ParseCert(&decode, CERT_TYPE, NO_VERIFY, 0);
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if (ret != 0)
return -402;
FreeDecodedCert(&decode);
#endif
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derFile = fopen("./cert.der", "wb");
if (!derFile)
return -403;
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ret = (int)fwrite(derCert, certSz, 1, derFile);
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fclose(derFile);
pemSz = DerToPem(derCert, certSz, pem, FOURK_BUF, CERT_TYPE);
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if (pemSz < 0)
return -404;
pemFile = fopen("./cert.pem", "wb");
if (!pemFile)
return -405;
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ret = (int)fwrite(pem, pemSz, 1, pemFile);
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fclose(pemFile);
free(pem);
free(derCert);
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}
/* CA style */
{
RsaKey caKey;
Cert myCert;
byte* derCert;
byte* pem;
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FILE* derFile;
FILE* pemFile;
int certSz;
int pemSz;
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size_t bytes3;
word32 idx3 = 0;
#ifdef CYASSL_TEST_CERT
DecodedCert decode;
#endif
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derCert = (byte*)malloc(FOURK_BUF);
if (derCert == NULL)
return -311;
pem = (byte*)malloc(FOURK_BUF);
if (pem == NULL)
return -312;
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FILE* file3 = fopen(caKeyFile, "rb");
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if (!file3)
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return -412;
bytes3 = fread(tmp, 1, FOURK_BUF, file3);
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fclose(file3);
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InitRsaKey(&caKey, 0);
ret = RsaPrivateKeyDecode(tmp, &idx3, &caKey, (word32)bytes3);
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if (ret != 0) return -413;
InitCert(&myCert);
strncpy(myCert.subject.country, "US", CTC_NAME_SIZE);
strncpy(myCert.subject.state, "OR", CTC_NAME_SIZE);
strncpy(myCert.subject.locality, "Portland", CTC_NAME_SIZE);
strncpy(myCert.subject.org, "yaSSL", CTC_NAME_SIZE);
strncpy(myCert.subject.unit, "Development", CTC_NAME_SIZE);
strncpy(myCert.subject.commonName, "www.yassl.com", CTC_NAME_SIZE);
strncpy(myCert.subject.email, "info@yassl.com", CTC_NAME_SIZE);
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ret = SetIssuer(&myCert, caCertFile);
if (ret < 0)
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return -405;
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certSz = MakeCert(&myCert, derCert, FOURK_BUF, &key, &rng);
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if (certSz < 0)
return -407;
certSz = SignCert(&myCert, derCert, FOURK_BUF, &caKey, &rng);
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if (certSz < 0)
return -408;
#ifdef CYASSL_TEST_CERT
InitDecodedCert(&decode, derCert, certSz, 0);
ret = ParseCert(&decode, CERT_TYPE, NO_VERIFY, 0);
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if (ret != 0)
return -409;
FreeDecodedCert(&decode);
#endif
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derFile = fopen("./othercert.der", "wb");
if (!derFile)
return -410;
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ret = (int)fwrite(derCert, certSz, 1, derFile);
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fclose(derFile);
pemSz = DerToPem(derCert, certSz, pem, FOURK_BUF, CERT_TYPE);
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if (pemSz < 0)
return -411;
pemFile = fopen("./othercert.pem", "wb");
if (!pemFile)
return -412;
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ret = (int)fwrite(pem, pemSz, 1, pemFile);
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fclose(pemFile);
free(pem);
free(derCert);
FreeRsaKey(&caKey);
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}
#ifdef HAVE_NTRU
{
RsaKey caKey;
Cert myCert;
byte* derCert;
byte* pem;
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FILE* derFile;
FILE* pemFile;
FILE* caFile;
FILE* ntruPrivFile;
int certSz;
int pemSz;
size_t bytes;
word32 idx = 0;
#ifdef CYASSL_TEST_CERT
DecodedCert decode;
#endif
derCert = (byte*)malloc(FOURK_BUF);
if (derCert == NULL)
return -311;
pem = (byte*)malloc(FOURK_BUF);
if (pem == NULL)
return -312;
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byte public_key[557]; /* sized for EES401EP2 */
word16 public_key_len; /* no. of octets in public key */
byte private_key[607]; /* sized for EES401EP2 */
word16 private_key_len; /* no. of octets in private key */
DRBG_HANDLE drbg;
static uint8_t const pers_str[] = {
'C', 'y', 'a', 'S', 'S', 'L', ' ', 't', 'e', 's', 't'
};
word32 rc = crypto_drbg_instantiate(112, pers_str, sizeof(pers_str),
GetEntropy, &drbg);
if (rc != DRBG_OK)
return -450;
rc = crypto_ntru_encrypt_keygen(drbg, NTRU_EES401EP2, &public_key_len,
NULL, &private_key_len, NULL);
if (rc != NTRU_OK)
return -451;
rc = crypto_ntru_encrypt_keygen(drbg, NTRU_EES401EP2, &public_key_len,
public_key, &private_key_len, private_key);
crypto_drbg_uninstantiate(drbg);
if (rc != NTRU_OK)
return -452;
caFile = fopen(caKeyFile, "rb");
if (!caFile)
return -453;
bytes = fread(tmp, 1, FOURK_BUF, caFile);
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fclose(caFile);
InitRsaKey(&caKey, 0);
ret = RsaPrivateKeyDecode(tmp, &idx, &caKey, (word32)bytes);
if (ret != 0) return -454;
InitCert(&myCert);
strncpy(myCert.subject.country, "US", CTC_NAME_SIZE);
strncpy(myCert.subject.state, "OR", CTC_NAME_SIZE);
strncpy(myCert.subject.locality, "Portland", CTC_NAME_SIZE);
strncpy(myCert.subject.org, "yaSSL", CTC_NAME_SIZE);
strncpy(myCert.subject.unit, "Development", CTC_NAME_SIZE);
strncpy(myCert.subject.commonName, "www.yassl.com", CTC_NAME_SIZE);
strncpy(myCert.subject.email, "info@yassl.com", CTC_NAME_SIZE);
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ret = SetIssuer(&myCert, caCertFile);
if (ret < 0)
return -455;
certSz = MakeNtruCert(&myCert, derCert, FOURK_BUF, public_key,
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public_key_len, &rng);
if (certSz < 0)
return -456;
certSz = SignCert(&myCert, derCert, FOURK_BUF, &caKey, &rng);
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if (certSz < 0)
return -457;
#ifdef CYASSL_TEST_CERT
InitDecodedCert(&decode, derCert, certSz, 0);
ret = ParseCert(&decode, CERT_TYPE, NO_VERIFY, 0);
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if (ret != 0)
return -458;
FreeDecodedCert(&decode);
#endif
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derFile = fopen("./ntru-cert.der", "wb");
if (!derFile)
return -459;
ret = fwrite(derCert, certSz, 1, derFile);
fclose(derFile);
pemSz = DerToPem(derCert, certSz, pem, FOURK_BUF, CERT_TYPE);
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if (pemSz < 0)
return -460;
pemFile = fopen("./ntru-cert.pem", "wb");
if (!pemFile)
return -461;
ret = fwrite(pem, pemSz, 1, pemFile);
fclose(pemFile);
ntruPrivFile = fopen("./ntru-key.raw", "wb");
if (!ntruPrivFile)
return -462;
ret = fwrite(private_key, private_key_len, 1, ntruPrivFile);
fclose(ntruPrivFile);
free(pem);
free(derCert);
FreeRsaKey(&caKey);
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}
#endif /* HAVE_NTRU */
#endif /* CYASSL_CERT_GEN */
FreeRsaKey(&key);
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#ifdef HAVE_CAVIUM
RsaFreeCavium(&key);
#endif
free(tmp);
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return 0;
}
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#endif
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#ifndef NO_DH
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#ifdef FREESCALE_MQX
static const char* dhKey = "a:\certs\\dh2048.der";
#elif !defined(USE_CERT_BUFFERS_1024) && !defined(USE_CERT_BUFFERS_2048)
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static const char* dhKey = "./certs/dh2048.der";
#endif
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int dh_test(void)
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{
int ret;
word32 bytes;
word32 idx = 0, privSz, pubSz, privSz2, pubSz2, agreeSz, agreeSz2;
byte tmp[1024];
byte priv[256];
byte pub[256];
byte priv2[256];
byte pub2[256];
byte agree[256];
byte agree2[256];
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DhKey key;
DhKey key2;
RNG rng;
#ifdef USE_CERT_BUFFERS_1024
XMEMCPY(tmp, dh_key_der_1024, sizeof(dh_key_der_1024));
bytes = sizeof(dh_key_der_1024);
#elif defined(USE_CERT_BUFFERS_2048)
XMEMCPY(tmp, dh_key_der_2048, sizeof(dh_key_der_2048));
bytes = sizeof(dh_key_der_2048);
#else
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FILE* file = fopen(dhKey, "rb");
if (!file)
return -50;
bytes = (word32) fread(tmp, 1, sizeof(tmp), file);
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fclose(file);
#endif /* USE_CERT_BUFFERS */
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InitDhKey(&key);
InitDhKey(&key2);
ret = DhKeyDecode(tmp, &idx, &key, bytes);
if (ret != 0)
return -51;
idx = 0;
ret = DhKeyDecode(tmp, &idx, &key2, bytes);
if (ret != 0)
return -52;
ret = InitRng(&rng);
if (ret != 0)
return -53;
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ret = DhGenerateKeyPair(&key, &rng, priv, &privSz, pub, &pubSz);
ret += DhGenerateKeyPair(&key2, &rng, priv2, &privSz2, pub2, &pubSz2);
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if (ret != 0)
return -54;
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ret = DhAgree(&key, agree, &agreeSz, priv, privSz, pub2, pubSz2);
ret += DhAgree(&key2, agree2, &agreeSz2, priv2, privSz2, pub, pubSz);
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if (ret != 0)
return -55;
if (memcmp(agree, agree2, agreeSz))
return -56;
FreeDhKey(&key);
FreeDhKey(&key2);
return 0;
}
#endif /* NO_DH */
#ifndef NO_DSA
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#ifdef FREESCALE_MQX
static const char* dsaKey = "a:\certs\\dsa2048.der";
#elif !defined(USE_CERT_BUFFERS_1024) && !defined(USE_CERT_BUFFERS_2048)
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static const char* dsaKey = "./certs/dsa2048.der";
#endif
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int dsa_test(void)
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{
int ret, answer;
word32 bytes;
word32 idx = 0;
byte tmp[1024];
DsaKey key;
RNG rng;
Sha sha;
byte hash[SHA_DIGEST_SIZE];
byte signature[40];
#ifdef USE_CERT_BUFFERS_1024
XMEMCPY(tmp, dsa_key_der_1024, sizeof(dsa_key_der_1024));
bytes = sizeof(dsa_key_der_1024);
#elif defined(USE_CERT_BUFFERS_2048)
XMEMCPY(tmp, dsa_key_der_2048, sizeof(dsa_key_der_2048));
bytes = sizeof(dsa_key_der_2048);
#else
FILE* file = fopen(dsaKey, "rb");
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if (!file)
return -60;
bytes = (word32) fread(tmp, 1, sizeof(tmp), file);
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fclose(file);
#endif /* USE_CERT_BUFFERS */
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InitSha(&sha);
ShaUpdate(&sha, tmp, bytes);
ShaFinal(&sha, hash);
InitDsaKey(&key);
ret = DsaPrivateKeyDecode(tmp, &idx, &key, bytes);
if (ret != 0) return -61;
ret = InitRng(&rng);
if (ret != 0) return -62;
ret = DsaSign(hash, signature, &key, &rng);
if (ret != 0) return -63;
ret = DsaVerify(hash, signature, &key, &answer);
if (ret != 0) return -64;
if (answer != 1) return -65;
FreeDsaKey(&key);
return 0;
}
#endif /* NO_DSA */
#ifdef OPENSSL_EXTRA
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int openssl_test(void)
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{
EVP_MD_CTX md_ctx;
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testVector a, b, c, d, e, f;
byte hash[SHA_DIGEST_SIZE*4]; /* max size */
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(void)e;
(void)f;
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a.input = "1234567890123456789012345678901234567890123456789012345678"
"9012345678901234567890";
a.output = "\x57\xed\xf4\xa2\x2b\xe3\xc9\x55\xac\x49\xda\x2e\x21\x07\xb6"
"\x7a";
a.inLen = strlen(a.input);
a.outLen = MD5_DIGEST_SIZE;
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EVP_MD_CTX_init(&md_ctx);
EVP_DigestInit(&md_ctx, EVP_md5());
EVP_DigestUpdate(&md_ctx, a.input, a.inLen);
EVP_DigestFinal(&md_ctx, hash, 0);
if (memcmp(hash, a.output, MD5_DIGEST_SIZE) != 0)
return -71;
b.input = "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"
"aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"
"aaaaaaaaaa";
b.output = "\xAD\x5B\x3F\xDB\xCB\x52\x67\x78\xC2\x83\x9D\x2F\x15\x1E\xA7"
"\x53\x99\x5E\x26\xA0";
b.inLen = strlen(b.input);
b.outLen = SHA_DIGEST_SIZE;
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EVP_MD_CTX_init(&md_ctx);
EVP_DigestInit(&md_ctx, EVP_sha1());
EVP_DigestUpdate(&md_ctx, b.input, b.inLen);
EVP_DigestFinal(&md_ctx, hash, 0);
if (memcmp(hash, b.output, SHA_DIGEST_SIZE) != 0)
return -72;
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d.input = "abcdbcdecdefdefgefghfghighijhijkijkljklmklmnlmnomnopnopq";
d.output = "\x24\x8D\x6A\x61\xD2\x06\x38\xB8\xE5\xC0\x26\x93\x0C\x3E\x60"
"\x39\xA3\x3C\xE4\x59\x64\xFF\x21\x67\xF6\xEC\xED\xD4\x19\xDB"
"\x06\xC1";
d.inLen = strlen(d.input);
d.outLen = SHA256_DIGEST_SIZE;
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EVP_MD_CTX_init(&md_ctx);
EVP_DigestInit(&md_ctx, EVP_sha256());
EVP_DigestUpdate(&md_ctx, d.input, d.inLen);
EVP_DigestFinal(&md_ctx, hash, 0);
if (memcmp(hash, d.output, SHA256_DIGEST_SIZE) != 0)
return -78;
#ifdef CYASSL_SHA384
e.input = "abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmnhi"
"jklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu";
e.output = "\x09\x33\x0c\x33\xf7\x11\x47\xe8\x3d\x19\x2f\xc7\x82\xcd\x1b"
"\x47\x53\x11\x1b\x17\x3b\x3b\x05\xd2\x2f\xa0\x80\x86\xe3\xb0"
"\xf7\x12\xfc\xc7\xc7\x1a\x55\x7e\x2d\xb9\x66\xc3\xe9\xfa\x91"
"\x74\x60\x39";
e.inLen = strlen(e.input);
e.outLen = SHA384_DIGEST_SIZE;
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EVP_MD_CTX_init(&md_ctx);
EVP_DigestInit(&md_ctx, EVP_sha384());
EVP_DigestUpdate(&md_ctx, e.input, e.inLen);
EVP_DigestFinal(&md_ctx, hash, 0);
if (memcmp(hash, e.output, SHA384_DIGEST_SIZE) != 0)
return -79;
#endif /* CYASSL_SHA384 */
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#ifdef CYASSL_SHA512
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f.input = "abcdefghbcdefghicdefghijdefghijkefghijklfghijklmghijklmnhi"
"jklmnoijklmnopjklmnopqklmnopqrlmnopqrsmnopqrstnopqrstu";
f.output = "\x8e\x95\x9b\x75\xda\xe3\x13\xda\x8c\xf4\xf7\x28\x14\xfc\x14"
"\x3f\x8f\x77\x79\xc6\xeb\x9f\x7f\xa1\x72\x99\xae\xad\xb6\x88"
"\x90\x18\x50\x1d\x28\x9e\x49\x00\xf7\xe4\x33\x1b\x99\xde\xc4"
"\xb5\x43\x3a\xc7\xd3\x29\xee\xb6\xdd\x26\x54\x5e\x96\xe5\x5b"
"\x87\x4b\xe9\x09";
f.inLen = strlen(f.input);
f.outLen = SHA512_DIGEST_SIZE;
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EVP_MD_CTX_init(&md_ctx);
EVP_DigestInit(&md_ctx, EVP_sha512());
EVP_DigestUpdate(&md_ctx, f.input, f.inLen);
EVP_DigestFinal(&md_ctx, hash, 0);
if (memcmp(hash, f.output, SHA512_DIGEST_SIZE) != 0)
return -80;
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#endif /* CYASSL_SHA512 */
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if (RAND_bytes(hash, sizeof(hash)) != 1)
return -73;
c.input = "what do ya want for nothing?";
c.output = "\x75\x0c\x78\x3e\x6a\xb0\xb5\x03\xea\xa8\x6e\x31\x0a\x5d\xb7"
"\x38";
c.inLen = strlen(c.input);
c.outLen = MD5_DIGEST_SIZE;
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HMAC(EVP_md5(), "Jefe", 4, (byte*)c.input, (int)c.inLen, hash, 0);
if (memcmp(hash, c.output, MD5_DIGEST_SIZE) != 0)
return -74;
{ /* des test */
const byte vector[] = { /* "now is the time for all " w/o trailing 0 */
0x6e,0x6f,0x77,0x20,0x69,0x73,0x20,0x74,
0x68,0x65,0x20,0x74,0x69,0x6d,0x65,0x20,
0x66,0x6f,0x72,0x20,0x61,0x6c,0x6c,0x20
};
byte plain[24];
byte cipher[24];
const_DES_cblock key =
{
0x01,0x23,0x45,0x67,0x89,0xab,0xcd,0xef
};
DES_cblock iv =
{
0x12,0x34,0x56,0x78,0x90,0xab,0xcd,0xef
};
DES_key_schedule sched;
const byte verify[] =
{
0x8b,0x7c,0x52,0xb0,0x01,0x2b,0x6c,0xb8,
0x4f,0x0f,0xeb,0xf3,0xfb,0x5f,0x86,0x73,
0x15,0x85,0xb3,0x22,0x4b,0x86,0x2b,0x4b
};
DES_key_sched(&key, &sched);
DES_cbc_encrypt(vector, cipher, sizeof(vector), &sched, &iv, DES_ENCRYPT);
DES_cbc_encrypt(cipher, plain, sizeof(vector), &sched, &iv, DES_DECRYPT);
if (memcmp(plain, vector, sizeof(vector)) != 0)
return -75;
if (memcmp(cipher, verify, sizeof(verify)) != 0)
return -76;
/* test changing iv */
DES_ncbc_encrypt(vector, cipher, 8, &sched, &iv, DES_ENCRYPT);
DES_ncbc_encrypt(vector + 8, cipher + 8, 16, &sched, &iv, DES_ENCRYPT);
if (memcmp(cipher, verify, sizeof(verify)) != 0)
return -77;
} /* end des test */
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{ /* evp_cipher test */
EVP_CIPHER_CTX ctx;
const byte msg[] = { /* "Now is the time for all " w/o trailing 0 */
0x6e,0x6f,0x77,0x20,0x69,0x73,0x20,0x74,
0x68,0x65,0x20,0x74,0x69,0x6d,0x65,0x20,
0x66,0x6f,0x72,0x20,0x61,0x6c,0x6c,0x20
};
const byte verify[] =
{
0x95,0x94,0x92,0x57,0x5f,0x42,0x81,0x53,
0x2c,0xcc,0x9d,0x46,0x77,0xa2,0x33,0xcb
};
byte key[] = "0123456789abcdef "; /* align */
byte iv[] = "1234567890abcdef "; /* align */
byte cipher[AES_BLOCK_SIZE * 4];
byte plain [AES_BLOCK_SIZE * 4];
EVP_CIPHER_CTX_init(&ctx);
if (EVP_CipherInit(&ctx, EVP_aes_128_cbc(), key, iv, 1) == 0)
return -81;
if (EVP_Cipher(&ctx, cipher, (byte*)msg, 16) == 0)
return -82;
if (memcmp(cipher, verify, AES_BLOCK_SIZE))
return -83;
EVP_CIPHER_CTX_init(&ctx);
if (EVP_CipherInit(&ctx, EVP_aes_128_cbc(), key, iv, 0) == 0)
return -84;
if (EVP_Cipher(&ctx, plain, cipher, 16) == 0)
return -85;
if (memcmp(plain, msg, AES_BLOCK_SIZE))
return -86;
} /* end evp_cipher test */
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return 0;
}
#endif /* OPENSSL_EXTRA */
#ifndef NO_PWDBASED
int pkcs12_test(void)
{
const byte passwd[] = { 0x00, 0x73, 0x00, 0x6d, 0x00, 0x65, 0x00, 0x67,
0x00, 0x00 };
const byte salt[] = { 0x0a, 0x58, 0xCF, 0x64, 0x53, 0x0d, 0x82, 0x3f };
const byte passwd2[] = { 0x00, 0x71, 0x00, 0x75, 0x00, 0x65, 0x00, 0x65,
0x00, 0x67, 0x00, 0x00 };
const byte salt2[] = { 0x16, 0x82, 0xC0, 0xfC, 0x5b, 0x3f, 0x7e, 0xc5 };
byte derived[64];
const byte verify[] = {
0x8A, 0xAA, 0xE6, 0x29, 0x7B, 0x6C, 0xB0, 0x46,
0x42, 0xAB, 0x5B, 0x07, 0x78, 0x51, 0x28, 0x4E,
0xB7, 0x12, 0x8F, 0x1A, 0x2A, 0x7F, 0xBC, 0xA3
};
const byte verify2[] = {
0x48, 0x3D, 0xD6, 0xE9, 0x19, 0xD7, 0xDE, 0x2E,
0x8E, 0x64, 0x8B, 0xA8, 0xF8, 0x62, 0xF3, 0xFB,
0xFB, 0xDC, 0x2B, 0xCB, 0x2C, 0x02, 0x95, 0x7F
};
int id = 1;
int kLen = 24;
int iterations = 1;
int ret = PKCS12_PBKDF(derived, passwd, sizeof(passwd), salt, 8, iterations,
kLen, SHA, id);
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if (ret < 0)
return -103;
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if ( (ret = memcmp(derived, verify, kLen)) != 0)
return -104;
iterations = 1000;
ret = PKCS12_PBKDF(derived, passwd2, sizeof(passwd2), salt2, 8, iterations,
kLen, SHA, id);
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if (ret < 0)
return -105;
if ( (ret = memcmp(derived, verify2, 24)) != 0)
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return -106;
return 0;
}
int pbkdf2_test(void)
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{
char passwd[] = "password";
const byte salt[] = { 0x78, 0x57, 0x8E, 0x5a, 0x5d, 0x63, 0xcb, 0x06 };
int iterations = 2048;
int kLen = 24;
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byte derived[64];
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const byte verify[] = {
0xBF, 0xDE, 0x6B, 0xE9, 0x4D, 0xF7, 0xE1, 0x1D, 0xD4, 0x09, 0xBC, 0xE2,
0x0A, 0x02, 0x55, 0xEC, 0x32, 0x7C, 0xB9, 0x36, 0xFF, 0xE9, 0x36, 0x43
};
PBKDF2(derived, (byte*)passwd, (int)strlen(passwd), salt, 8, iterations,
kLen, SHA);
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if (memcmp(derived, verify, sizeof(verify)) != 0)
return -102;
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return 0;
}
int pbkdf1_test(void)
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{
char passwd[] = "password";
const byte salt[] = { 0x78, 0x57, 0x8E, 0x5a, 0x5d, 0x63, 0xcb, 0x06 };
int iterations = 1000;
int kLen = 16;
byte derived[16];
const byte verify[] = {
0xDC, 0x19, 0x84, 0x7E, 0x05, 0xC6, 0x4D, 0x2F, 0xAF, 0x10, 0xEB, 0xFB,
0x4A, 0x3D, 0x2A, 0x20
};
PBKDF1(derived, (byte*)passwd, (int)strlen(passwd), salt, 8, iterations,
kLen, SHA);
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if (memcmp(derived, verify, sizeof(verify)) != 0)
return -101;
return 0;
}
int pwdbased_test(void)
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{
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int ret = pbkdf1_test();
ret += pbkdf2_test();
return ret + pkcs12_test();
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}
#endif /* NO_PWDBASED */
#ifdef HAVE_ECC
int ecc_test(void)
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{
RNG rng;
byte sharedA[1024];
byte sharedB[1024];
byte sig[1024];
byte digest[20];
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byte exportBuf[1024];
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word32 x, y;
int i, verify, ret;
ecc_key userA, userB, pubKey;
ret = InitRng(&rng);
if (ret != 0)
return -1001;
ecc_init(&userA);
ecc_init(&userB);
ecc_init(&pubKey);
ret = ecc_make_key(&rng, 32, &userA);
ret = ecc_make_key(&rng, 32, &userB);
if (ret != 0)
return -1002;
x = sizeof(sharedA);
ret = ecc_shared_secret(&userA, &userB, sharedA, &x);
y = sizeof(sharedB);
ret = ecc_shared_secret(&userB, &userA, sharedB, &y);
if (ret != 0)
return -1003;
if (y != x)
return -1004;
if (memcmp(sharedA, sharedB, x))
return -1005;
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x = sizeof(exportBuf);
ret = ecc_export_x963(&userA, exportBuf, &x);
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if (ret != 0)
return -1006;
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ret = ecc_import_x963(exportBuf, x, &pubKey);
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if (ret != 0)
return -1007;
y = sizeof(sharedB);
ret = ecc_shared_secret(&userB, &pubKey, sharedB, &y);
if (ret != 0)
return -1008;
if (memcmp(sharedA, sharedB, y))
return -1010;
/* test DSA sign hash */
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for (i = 0; i < (int)sizeof(digest); i++)
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digest[i] = i;
x = sizeof(sig);
ret = ecc_sign_hash(digest, sizeof(digest), sig, &x, &rng, &userA);
verify = 0;
ret = ecc_verify_hash(sig, x, digest, sizeof(digest), &verify, &userA);
if (ret != 0)
return -1011;
if (verify != 1)
return -1012;
ecc_free(&pubKey);
ecc_free(&userB);
ecc_free(&userA);
return 0;
}
#endif /* HAVE_ECC */