2024-02-27 01:34:37 -05:00
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/* LibTomCrypt, modular cryptographic library -- Tom St Denis */
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/* SPDX-License-Identifier: Unlicense */
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/* test CFB/OFB/CBC modes */
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#include <tomcrypt_test.h>
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2025-02-20 05:32:33 -05:00
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#ifdef LTC_CFB_MODE
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static const struct {
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int width;
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const char *key, *iv, *pt, *ct;
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} cfb_testvectors[] = {
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{
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1,
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"2b7e151628aed2a6abf7158809cf4f3c",
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"000102030405060708090a0b0c0d0e0f",
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"6bc1",
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"68b3",
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},
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{
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8,
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"2b7e151628aed2a6abf7158809cf4f3c",
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"000102030405060708090a0b0c0d0e0f",
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"6bc1b3e22e409f96e93d7e117393172aae2d",
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"3b79424c9c0dd436bace9e0ed4586a4f32b9",
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},
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};
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#endif
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2024-02-27 01:34:37 -05:00
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int modes_test(void)
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{
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int ret = CRYPT_NOP;
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#ifdef LTC_CBC_MODE
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symmetric_CBC cbc;
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#endif
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#ifdef LTC_OFB_MODE
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symmetric_OFB ofb;
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#endif
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2025-02-20 05:32:33 -05:00
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#ifdef LTC_CFB_MODE
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symmetric_CFB cfb;
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unsigned char tmp2[64];
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unsigned long n;
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#endif
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2024-02-27 01:34:37 -05:00
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#if defined(LTC_CBC_MODE) || defined(LTC_CFB_MODE) || defined(LTC_OFB_MODE)
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unsigned char pt[64], ct[64], tmp[64], key[16], iv[16], iv2[16];
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int cipher_idx;
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unsigned long l;
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/* make a random pt, key and iv */
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ENSURE(yarrow_read(pt, 64, &yarrow_prng) == 64);
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ENSURE(yarrow_read(key, 16, &yarrow_prng) == 16);
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ENSURE(yarrow_read(iv, 16, &yarrow_prng) == 16);
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/* get idx of AES handy */
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cipher_idx = find_cipher("aes");
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if (cipher_idx == -1) {
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fprintf(stderr, "test requires AES");
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return 1;
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}
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#endif
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#ifdef LTC_F8_MODE
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DO(ret = f8_test_mode());
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#endif
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#ifdef LTC_LRW_MODE
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DO(ret = lrw_test());
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#endif
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#ifdef LTC_CBC_MODE
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/* test CBC mode */
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/* encode the block */
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DO(ret = cbc_start(cipher_idx, iv, key, 16, 0, &cbc));
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l = sizeof(iv2);
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DO(ret = cbc_getiv(iv2, &l, &cbc));
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if (l != 16 || memcmp(iv2, iv, 16)) {
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fprintf(stderr, "cbc_getiv failed");
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return 1;
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}
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DO(ret = cbc_encrypt(pt, ct, 64, &cbc));
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/* decode the block */
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DO(ret = cbc_setiv(iv2, l, &cbc));
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zeromem(tmp, sizeof(tmp));
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DO(ret = cbc_decrypt(ct, tmp, 64, &cbc));
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if (memcmp(tmp, pt, 64) != 0) {
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fprintf(stderr, "CBC failed");
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return 1;
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}
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#endif
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#ifdef LTC_CFB_MODE
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/* test CFB mode */
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/* encode the block */
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DO(ret = cfb_start(cipher_idx, iv, key, 16, 0, &cfb));
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l = sizeof(iv2);
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DO(ret = cfb_getiv(iv2, &l, &cfb));
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/* note we don't memcmp iv2/iv since cfb_start processes the IV for the first block */
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2025-02-20 05:32:33 -05:00
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ENSURE(l == 16);
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2024-02-27 01:34:37 -05:00
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DO(ret = cfb_encrypt(pt, ct, 64, &cfb));
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/* decode the block */
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DO(ret = cfb_setiv(iv, l, &cfb));
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zeromem(tmp, sizeof(tmp));
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DO(ret = cfb_decrypt(ct, tmp, 64, &cfb));
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2025-02-20 05:32:33 -05:00
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COMPARE_TESTVECTOR(tmp, 64, pt, 64, "cfb128-enc-dec", 0);
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cfb_done(&cfb);
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XMEMSET(&cfb, 0, sizeof(cfb));
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#define b16(e, w) do { \
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l = sizeof(w); \
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DO(base16_decode(e . w, XSTRLEN(e . w), w, &l)); \
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} while(0)
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for (n = 0; n < sizeof(cfb_testvectors)/sizeof(cfb_testvectors[0]); ++n) {
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b16(cfb_testvectors[n], key);
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b16(cfb_testvectors[n], iv);
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b16(cfb_testvectors[n], pt);
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b16(cfb_testvectors[n], ct);
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DO(cfb_start_ex(cipher_idx, iv, key, 16, 0, cfb_testvectors[n].width, &cfb));
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l = sizeof(iv2);
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DO(cfb_getiv(iv2, &l, &cfb));
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ENSURE(l == 16);
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DO(ret = cfb_encrypt(pt, tmp, 2, &cfb));
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COMPARE_TESTVECTOR(tmp, 2, ct, 2, "cfb-enc", n);
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DO(cfb_setiv(iv2, l, &cfb));
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DO(ret = cfb_decrypt(tmp, tmp2, 2, &cfb));
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COMPARE_TESTVECTOR(tmp2, 2, pt, 2, "cfb-dec", n);
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2024-02-27 01:34:37 -05:00
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}
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#endif
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#ifdef LTC_OFB_MODE
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/* test OFB mode */
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/* encode the block */
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DO(ret = ofb_start(cipher_idx, iv, key, 16, 0, &ofb));
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l = sizeof(iv2);
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DO(ret = ofb_getiv(iv2, &l, &ofb));
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if (l != 16 || memcmp(iv2, iv, 16)) {
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fprintf(stderr, "ofb_getiv failed");
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return 1;
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}
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DO(ret = ofb_encrypt(pt, ct, 64, &ofb));
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/* decode the block */
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DO(ret = ofb_setiv(iv2, l, &ofb));
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zeromem(tmp, sizeof(tmp));
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DO(ret = ofb_decrypt(ct, tmp, 64, &ofb));
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if (memcmp(tmp, pt, 64) != 0) {
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fprintf(stderr, "OFB failed");
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return 1;
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}
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#endif
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#if defined(LTC_CTR_MODE) && defined(LTC_RIJNDAEL)
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DO(ret = ctr_test());
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#endif
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#ifdef LTC_XTS_MODE
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DO(ret = xts_test());
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#endif
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return 0;
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}
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