tomcrypt/demos/tv_gen.c

528 lines
16 KiB
C
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#include <mycrypt.h>
void reg_algs(void)
{
#ifdef RIJNDAEL
register_cipher (&aes_desc);
#endif
#ifdef BLOWFISH
register_cipher (&blowfish_desc);
#endif
#ifdef XTEA
register_cipher (&xtea_desc);
#endif
#ifdef RC5
register_cipher (&rc5_desc);
#endif
#ifdef RC6
register_cipher (&rc6_desc);
#endif
#ifdef SAFERP
register_cipher (&saferp_desc);
#endif
#ifdef TWOFISH
register_cipher (&twofish_desc);
#endif
#ifdef SAFER
register_cipher (&safer_k64_desc);
register_cipher (&safer_sk64_desc);
register_cipher (&safer_k128_desc);
register_cipher (&safer_sk128_desc);
#endif
#ifdef RC2
register_cipher (&rc2_desc);
#endif
#ifdef DES
register_cipher (&des_desc);
register_cipher (&des3_desc);
#endif
#ifdef CAST5
register_cipher (&cast5_desc);
#endif
#ifdef NOEKEON
register_cipher (&noekeon_desc);
#endif
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#ifdef SKIPJACK
register_cipher (&skipjack_desc);
#endif
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#ifdef TIGER
register_hash (&tiger_desc);
#endif
#ifdef MD2
register_hash (&md2_desc);
#endif
#ifdef MD4
register_hash (&md4_desc);
#endif
#ifdef MD5
register_hash (&md5_desc);
#endif
#ifdef SHA1
register_hash (&sha1_desc);
#endif
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#ifdef SHA224
register_hash (&sha224_desc);
#endif
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#ifdef SHA256
register_hash (&sha256_desc);
#endif
#ifdef SHA384
register_hash (&sha384_desc);
#endif
#ifdef SHA512
register_hash (&sha512_desc);
#endif
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#ifdef RIPEMD128
register_hash (&rmd128_desc);
#endif
#ifdef RIPEMD160
register_hash (&rmd160_desc);
#endif
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#ifdef WHIRLPOOL
register_hash (&whirlpool_desc);
#endif
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}
void hash_gen(void)
{
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unsigned char md[MAXBLOCKSIZE], *buf;
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unsigned long outlen, x, y, z;
FILE *out;
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int err;
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out = fopen("hash_tv.txt", "w");
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if (out == NULL) {
perror("can't open hash_tv");
}
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fprintf(out, "Hash Test Vectors:\n\nThese are the hashes of nn bytes '00 01 02 03 .. (nn-1)'\n\n");
for (x = 0; hash_descriptor[x].name != NULL; x++) {
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buf = XMALLOC(2 * hash_descriptor[x].blocksize);
if (buf == NULL) {
perror("can't alloc mem");
exit(EXIT_FAILURE);
}
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fprintf(out, "Hash: %s\n", hash_descriptor[x].name);
for (y = 0; y <= (hash_descriptor[x].blocksize * 2); y++) {
for (z = 0; z < y; z++) {
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buf[z] = (unsigned char)(z & 255);
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}
outlen = sizeof(md);
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if ((err = hash_memory(x, buf, y, md, &outlen)) != CRYPT_OK) {
printf("hash_memory error: %s\n", error_to_string(err));
exit(EXIT_FAILURE);
}
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fprintf(out, "%3lu: ", y);
for (z = 0; z < outlen; z++) {
fprintf(out, "%02X", md[z]);
}
fprintf(out, "\n");
}
fprintf(out, "\n");
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XFREE(buf);
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}
fclose(out);
}
void cipher_gen(void)
{
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unsigned char *key, pt[MAXBLOCKSIZE];
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unsigned long x, y, z, w;
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int err, kl, lastkl;
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FILE *out;
symmetric_key skey;
out = fopen("cipher_tv.txt", "w");
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fprintf(out,
"Cipher Test Vectors\n\nThese are test encryptions with key of nn bytes '00 01 02 03 .. (nn-1)' and original PT of the same style.\n"
"The output of step N is used as the key and plaintext for step N+1 (key bytes repeated as required to fill the key)\n\n");
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for (x = 0; cipher_descriptor[x].name != NULL; x++) {
fprintf(out, "Cipher: %s\n", cipher_descriptor[x].name);
/* three modes, smallest, medium, large keys */
lastkl = 10000;
for (y = 0; y < 3; y++) {
switch (y) {
case 0: kl = cipher_descriptor[x].min_key_length; break;
case 1: kl = (cipher_descriptor[x].min_key_length + cipher_descriptor[x].max_key_length)/2; break;
case 2: kl = cipher_descriptor[x].max_key_length; break;
}
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if ((err = cipher_descriptor[x].keysize(&kl)) != CRYPT_OK) {
printf("keysize error: %s\n", error_to_string(err));
exit(EXIT_FAILURE);
}
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if (kl == lastkl) break;
lastkl = kl;
fprintf(out, "Key Size: %d bytes\n", kl);
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key = XMALLOC(kl);
if (key == NULL) {
perror("can't malloc memory");
exit(EXIT_FAILURE);
}
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for (z = 0; (int)z < kl; z++) {
key[z] = (unsigned char)z;
}
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if ((err = cipher_descriptor[x].setup(key, kl, 0, &skey)) != CRYPT_OK) {
printf("setup error: %s\n", error_to_string(err));
exit(EXIT_FAILURE);
}
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for (z = 0; (int)z < cipher_descriptor[x].block_length; z++) {
pt[z] = (unsigned char)z;
}
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for (w = 0; w < 50; w++) {
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cipher_descriptor[x].ecb_encrypt(pt, pt, &skey);
fprintf(out, "%2lu: ", w);
for (z = 0; (int)z < cipher_descriptor[x].block_length; z++) {
fprintf(out, "%02X", pt[z]);
}
fprintf(out, "\n");
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/* reschedule a new key */
for (z = 0; z < (unsigned long)kl; z++) {
key[z] = pt[z % cipher_descriptor[x].block_length];
}
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if ((err = cipher_descriptor[x].setup(key, kl, 0, &skey)) != CRYPT_OK) {
printf("cipher setup2 error: %s\n", error_to_string(err));
exit(EXIT_FAILURE);
}
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}
fprintf(out, "\n");
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XFREE(key);
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}
fprintf(out, "\n");
}
fclose(out);
}
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void hmac_gen(void)
{
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unsigned char key[MAXBLOCKSIZE], output[MAXBLOCKSIZE], *input;
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int x, y, z, kl, err;
FILE *out;
unsigned long len;
out = fopen("hmac_tv.txt", "w");
fprintf(out,
"HMAC Tests. In these tests messages of N bytes long (00,01,02,...,NN-1) are HMACed. The initial key is\n"
"of the same format (the same length as the HASH output size). The HMAC key in step N+1 is the HMAC output of\n"
"step N.\n\n");
for (x = 0; hash_descriptor[x].name != NULL; x++) {
fprintf(out, "HMAC-%s\n", hash_descriptor[x].name);
/* initial key */
for (y = 0; y < (int)hash_descriptor[x].hashsize; y++) {
key[y] = (y&255);
}
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input = XMALLOC(hash_descriptor[x].blocksize * 2);
if (input == NULL) {
perror("Can't malloc memory");
exit(EXIT_FAILURE);
}
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for (y = 0; y <= (int)(hash_descriptor[x].blocksize * 2); y++) {
for (z = 0; z < y; z++) {
input[z] = (unsigned char)(z & 255);
}
len = sizeof(output);
if ((err = hmac_memory(x, key, hash_descriptor[x].hashsize, input, y, output, &len)) != CRYPT_OK) {
printf("Error hmacing: %s\n", error_to_string(err));
exit(EXIT_FAILURE);
}
fprintf(out, "%3d: ", y);
for (z = 0; z <(int) len; z++) {
fprintf(out, "%02X", output[z]);
}
fprintf(out, "\n");
/* forward the key */
memcpy(key, output, hash_descriptor[x].hashsize);
}
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XFREE(input);
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fprintf(out, "\n");
}
fclose(out);
}
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void omac_gen(void)
{
unsigned char key[MAXBLOCKSIZE], output[MAXBLOCKSIZE], input[MAXBLOCKSIZE*2+2];
int err, x, y, z, kl;
FILE *out;
unsigned long len;
out = fopen("omac_tv.txt", "w");
fprintf(out,
"OMAC Tests. In these tests messages of N bytes long (00,01,02,...,NN-1) are OMAC'ed. The initial key is\n"
"of the same format (length specified per cipher). The OMAC key in step N+1 is the OMAC output of\n"
"step N (repeated as required to fill the array).\n\n");
for (x = 0; cipher_descriptor[x].name != NULL; x++) {
kl = cipher_descriptor[x].block_length;
/* skip ciphers which do not have 64 or 128 bit block sizes */
if (kl != 8 && kl != 16) continue;
if (cipher_descriptor[x].keysize(&kl) != CRYPT_OK) {
kl = cipher_descriptor[x].max_key_length;
}
fprintf(out, "OMAC-%s (%d byte key)\n", cipher_descriptor[x].name, kl);
/* initial key/block */
for (y = 0; y < kl; y++) {
key[y] = (y & 255);
}
for (y = 0; y <= (int)(cipher_descriptor[x].block_length*2); y++) {
for (z = 0; z < y; z++) {
input[z] = (unsigned char)(z & 255);
}
len = sizeof(output);
if ((err = omac_memory(x, key, kl, input, y, output, &len)) != CRYPT_OK) {
printf("Error omacing: %s\n", error_to_string(err));
exit(EXIT_FAILURE);
}
fprintf(out, "%3d: ", y);
for (z = 0; z <(int)len; z++) {
fprintf(out, "%02X", output[z]);
}
fprintf(out, "\n");
/* forward the key */
for (z = 0; z < kl; z++) {
key[z] = output[z % len];
}
}
fprintf(out, "\n");
}
fclose(out);
}
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void pmac_gen(void)
{
unsigned char key[MAXBLOCKSIZE], output[MAXBLOCKSIZE], input[MAXBLOCKSIZE*2+2];
int err, x, y, z, kl;
FILE *out;
unsigned long len;
out = fopen("pmac_tv.txt", "w");
fprintf(out,
"PMAC Tests. In these tests messages of N bytes long (00,01,02,...,NN-1) are OMAC'ed. The initial key is\n"
"of the same format (length specified per cipher). The OMAC key in step N+1 is the OMAC output of\n"
"step N (repeated as required to fill the array).\n\n");
for (x = 0; cipher_descriptor[x].name != NULL; x++) {
kl = cipher_descriptor[x].block_length;
/* skip ciphers which do not have 64 or 128 bit block sizes */
if (kl != 8 && kl != 16) continue;
if (cipher_descriptor[x].keysize(&kl) != CRYPT_OK) {
kl = cipher_descriptor[x].max_key_length;
}
fprintf(out, "PMAC-%s (%d byte key)\n", cipher_descriptor[x].name, kl);
/* initial key/block */
for (y = 0; y < kl; y++) {
key[y] = (y & 255);
}
for (y = 0; y <= (int)(cipher_descriptor[x].block_length*2); y++) {
for (z = 0; z < y; z++) {
input[z] = (unsigned char)(z & 255);
}
len = sizeof(output);
if ((err = pmac_memory(x, key, kl, input, y, output, &len)) != CRYPT_OK) {
printf("Error omacing: %s\n", error_to_string(err));
exit(EXIT_FAILURE);
}
fprintf(out, "%3d: ", y);
for (z = 0; z <(int)len; z++) {
fprintf(out, "%02X", output[z]);
}
fprintf(out, "\n");
/* forward the key */
for (z = 0; z < kl; z++) {
key[z] = output[z % len];
}
}
fprintf(out, "\n");
}
fclose(out);
}
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void eax_gen(void)
{
int err, kl, x, y1, z;
FILE *out;
unsigned char key[MAXBLOCKSIZE], nonce[MAXBLOCKSIZE*2], header[MAXBLOCKSIZE*2],
plaintext[MAXBLOCKSIZE*2], tag[MAXBLOCKSIZE];
unsigned long len;
out = fopen("eax_tv.txt", "w");
fprintf(out, "EAX Test Vectors. Uses the 00010203...NN-1 pattern for header/nonce/plaintext/key. The outputs\n"
"are of the form ciphertext,tag for a given NN. The key for step N>1 is the tag of the previous\n"
"step repeated sufficiently.\n\n");
for (x = 0; cipher_descriptor[x].name != NULL; x++) {
kl = cipher_descriptor[x].block_length;
/* skip ciphers which do not have 64 or 128 bit block sizes */
if (kl != 8 && kl != 16) continue;
if (cipher_descriptor[x].keysize(&kl) != CRYPT_OK) {
kl = cipher_descriptor[x].max_key_length;
}
fprintf(out, "EAX-%s (%d byte key)\n", cipher_descriptor[x].name, kl);
/* the key */
for (z = 0; z < kl; z++) {
key[z] = (z & 255);
}
for (y1 = 0; y1 <= (int)(cipher_descriptor[x].block_length*2); y1++){
for (z = 0; z < y1; z++) {
plaintext[z] = (unsigned char)(z & 255);
nonce[z] = (unsigned char)(z & 255);
header[z] = (unsigned char)(z & 255);
}
len = sizeof(tag);
if ((err = eax_encrypt_authenticate_memory(x, key, kl, nonce, y1, header, y1, plaintext, y1, plaintext, tag, &len)) != CRYPT_OK) {
printf("Error EAX'ing: %s\n", error_to_string(err));
exit(EXIT_FAILURE);
}
fprintf(out, "%3d: ", y1);
for (z = 0; z < y1; z++) {
fprintf(out, "%02X", plaintext[z]);
}
fprintf(out, ", ");
for (z = 0; z <(int)len; z++) {
fprintf(out, "%02X", tag[z]);
}
fprintf(out, "\n");
/* forward the key */
for (z = 0; z < kl; z++) {
key[z] = tag[z % len];
}
}
fprintf(out, "\n");
}
fclose(out);
}
void ocb_gen(void)
{
int err, kl, x, y1, z;
FILE *out;
unsigned char key[MAXBLOCKSIZE], nonce[MAXBLOCKSIZE*2],
plaintext[MAXBLOCKSIZE*2], tag[MAXBLOCKSIZE];
unsigned long len;
out = fopen("ocb_tv.txt", "w");
fprintf(out, "OCB Test Vectors. Uses the 00010203...NN-1 pattern for nonce/plaintext/key. The outputs\n"
"are of the form ciphertext,tag for a given NN. The key for step N>1 is the tag of the previous\n"
"step repeated sufficiently. The nonce is fixed throughout.\n\n");
for (x = 0; cipher_descriptor[x].name != NULL; x++) {
kl = cipher_descriptor[x].block_length;
/* skip ciphers which do not have 64 or 128 bit block sizes */
if (kl != 8 && kl != 16) continue;
if (cipher_descriptor[x].keysize(&kl) != CRYPT_OK) {
kl = cipher_descriptor[x].max_key_length;
}
fprintf(out, "OCB-%s (%d byte key)\n", cipher_descriptor[x].name, kl);
/* the key */
for (z = 0; z < kl; z++) {
key[z] = (z & 255);
}
/* fixed nonce */
for (z = 0; z < cipher_descriptor[x].block_length; z++) {
nonce[z] = z;
}
for (y1 = 0; y1 <= (int)(cipher_descriptor[x].block_length*2); y1++){
for (z = 0; z < y1; z++) {
plaintext[z] = (unsigned char)(z & 255);
}
len = sizeof(tag);
if ((err = ocb_encrypt_authenticate_memory(x, key, kl, nonce, plaintext, y1, plaintext, tag, &len)) != CRYPT_OK) {
printf("Error OCB'ing: %s\n", error_to_string(err));
exit(EXIT_FAILURE);
}
fprintf(out, "%3d: ", y1);
for (z = 0; z < y1; z++) {
fprintf(out, "%02X", plaintext[z]);
}
fprintf(out, ", ");
for (z = 0; z <(int)len; z++) {
fprintf(out, "%02X", tag[z]);
}
fprintf(out, "\n");
/* forward the key */
for (z = 0; z < kl; z++) {
key[z] = tag[z % len];
}
}
fprintf(out, "\n");
}
fclose(out);
}
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void base64_gen(void)
{
FILE *out;
unsigned char dst[256], src[32];
unsigned long x, y, len;
out = fopen("base64_tv.txt", "w");
fprintf(out, "Base64 vectors. These are the base64 encodings of the strings 00,01,02...NN-1\n\n");
for (x = 0; x <= 32; x++) {
for (y = 0; y < x; y++) {
src[y] = y;
}
len = sizeof(dst);
base64_encode(src, x, dst, &len);
fprintf(out, "%2lu: %s\n", x, dst);
}
fclose(out);
}
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int main(void)
{
reg_algs();
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printf("Generating hash vectors..."); fflush(stdout); hash_gen(); printf("done\n");
printf("Generating cipher vectors..."); fflush(stdout); cipher_gen(); printf("done\n");
printf("Generating HMAC vectors..."); fflush(stdout); hmac_gen(); printf("done\n");
printf("Generating OMAC vectors..."); fflush(stdout); omac_gen(); printf("done\n");
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printf("Generating PMAC vectors..."); fflush(stdout); pmac_gen(); printf("done\n");
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printf("Generating EAX vectors..."); fflush(stdout); eax_gen(); printf("done\n");
printf("Generating OCB vectors..."); fflush(stdout); ocb_gen(); printf("done\n");
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printf("Generating BASE64 vectors..."); fflush(stdout); base64_gen(); printf("done\n");
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return 0;
}