2023-09-18 14:23:13 +02:00
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/* BEGIN_HEADER */
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/* Testing of mbedtls_ssl_decrypt_buf() specifically, focusing on negative
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* testing (using malformed inputs). */
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#include <mbedtls/ssl.h>
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#include <ssl_misc.h>
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#include <test/ssl_helpers.h>
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/* END_HEADER */
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/* BEGIN_DEPENDENCIES
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* depends_on:MBEDTLS_SSL_TLS_C
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* END_DEPENDENCIES
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*/
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2023-09-18 14:05:55 +02:00
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/* BEGIN_CASE depends_on:MBEDTLS_SSL_PROTO_TLS1_2:MBEDTLS_CIPHER_NULL_CIPHER */
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void ssl_decrypt_null(int hash_id)
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{
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mbedtls_ssl_transform transform_in, transform_out;
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mbedtls_ssl_transform_init(&transform_in);
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mbedtls_ssl_transform_init(&transform_out);
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const mbedtls_ssl_protocol_version version = MBEDTLS_SSL_VERSION_TLS1_2;
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const mbedtls_cipher_type_t cipher_type = MBEDTLS_CIPHER_NULL;
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mbedtls_record rec_good = {
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.ctr = { 0 },
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.type = MBEDTLS_SSL_MSG_APPLICATION_DATA,
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.ver = { 0, 0 }, /* Will be set by a function call below */
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.buf = NULL,
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.buf_len = 0,
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.data_offset = 0,
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.data_len = 0,
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#if defined(MBEDTLS_SSL_DTLS_CONNECTION_ID)
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.cid_len = 0,
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.cid = { 0 },
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#endif /* MBEDTLS_SSL_DTLS_CONNECTION_ID */
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};
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mbedtls_ssl_write_version(rec_good.ver,
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MBEDTLS_SSL_TRANSPORT_STREAM,
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version);
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const char sample_plaintext[3] = "ABC";
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mbedtls_ssl_context ssl;
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mbedtls_ssl_init(&ssl);
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uint8_t *buf = NULL;
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MD_OR_USE_PSA_INIT();
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TEST_EQUAL(mbedtls_test_ssl_build_transforms(&transform_in, &transform_out,
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cipher_type, hash_id, 0, 0,
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version,
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0, 0), 0);
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const size_t plaintext_length = sizeof(sample_plaintext);
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rec_good.buf_len = plaintext_length + transform_in.maclen;
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rec_good.data_len = plaintext_length;
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TEST_CALLOC(rec_good.buf, rec_good.buf_len);
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memcpy(rec_good.buf, sample_plaintext, plaintext_length);
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TEST_EQUAL(mbedtls_test_ssl_prepare_record_mac(&rec_good,
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&transform_out), 0);
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/* Good case */
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mbedtls_record rec = rec_good;
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TEST_EQUAL(mbedtls_ssl_decrypt_buf(&ssl, &transform_in, &rec), 0);
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/* Change any one byte of the plaintext or MAC. The MAC will be wrong. */
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TEST_CALLOC(buf, rec.buf_len);
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for (size_t i = 0; i < rec.buf_len; i++) {
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mbedtls_test_set_step(i);
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rec = rec_good;
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rec.buf = buf;
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memcpy(buf, rec_good.buf, rec.buf_len);
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buf[i] ^= 1;
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TEST_EQUAL(mbedtls_ssl_decrypt_buf(&ssl, &transform_in, &rec),
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MBEDTLS_ERR_SSL_INVALID_MAC);
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}
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mbedtls_free(buf);
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buf = NULL;
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/* Shorter input buffer. Either the MAC will be wrong, or there isn't
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* enough room for a MAC. */
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for (size_t n = 1; n < rec.buf_len; n++) {
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mbedtls_test_set_step(n);
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rec = rec_good;
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TEST_CALLOC(buf, n);
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rec.buf = buf;
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rec.buf_len = n;
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rec.data_len = n;
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memcpy(buf, rec_good.buf, n);
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TEST_EQUAL(mbedtls_ssl_decrypt_buf(&ssl, &transform_in, &rec),
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MBEDTLS_ERR_SSL_INVALID_MAC);
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mbedtls_free(buf);
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buf = NULL;
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}
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/* For robustness, check a 0-length buffer (non-null, then null).
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* This should not reach mbedtls_ssl_decrypt_buf() as used in the library,
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* so the exact error doesn't matter, but we don't want a crash. */
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{
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const uint8_t buf1[1] = { 'a' };
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rec = rec_good;
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/* We won't write to buf1[0] since it's out of range, so we can cast
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* the const away. */
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rec.buf = (uint8_t *) buf1;
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rec.buf_len = 0;
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TEST_EQUAL(mbedtls_ssl_decrypt_buf(&ssl, &transform_in, &rec),
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MBEDTLS_ERR_SSL_INTERNAL_ERROR);
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}
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rec = rec_good;
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rec.buf = NULL;
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rec.buf_len = 0;
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TEST_EQUAL(mbedtls_ssl_decrypt_buf(&ssl, &transform_in, &rec),
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MBEDTLS_ERR_SSL_INTERNAL_ERROR);
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exit:
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mbedtls_ssl_transform_free(&transform_in);
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mbedtls_ssl_transform_free(&transform_out);
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mbedtls_free(rec_good.buf);
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mbedtls_ssl_free(&ssl);
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mbedtls_free(buf);
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MD_OR_USE_PSA_DONE();
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}
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/* END_CASE */
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2023-11-08 05:16:29 +01:00
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/* BEGIN_CASE depends_on:MBEDTLS_SSL_HAVE_CBC:MBEDTLS_SSL_HAVE_AES:MBEDTLS_SSL_PROTO_TLS1_2 */
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2023-09-18 14:23:13 +02:00
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void ssl_decrypt_non_etm_cbc(int cipher_type, int hash_id, int trunc_hmac,
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int length_selector)
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{
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/*
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* Test record decryption for CBC without EtM, focused on the verification
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* of padding and MAC.
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*
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* Actually depends on TLS 1.2 and either AES, ARIA or Camellia, but since
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* the test framework doesn't support alternation in dependency statements,
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* just depend on AES.
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*
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* The length_selector argument is interpreted as follows:
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* - if it's -1, the plaintext length is 0 and minimal padding is applied
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* - if it's -2, the plaintext length is 0 and maximal padding is applied
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* - otherwise it must be in [0, 255] and is padding_length from RFC 5246:
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* it's the length of the rest of the padding, that is, excluding the
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* byte that encodes the length. The minimal non-zero plaintext length
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* that gives this padding_length is automatically selected.
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*/
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mbedtls_ssl_context ssl; /* ONLY for debugging */
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mbedtls_ssl_transform t0, t1;
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mbedtls_record rec, rec_save;
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unsigned char *buf = NULL, *buf_save = NULL;
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size_t buflen, olen = 0;
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size_t plaintext_len, block_size, i;
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unsigned char padlen; /* excluding the padding_length byte */
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int exp_ret;
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int ret;
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const unsigned char pad_max_len = 255; /* Per the standard */
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mbedtls_ssl_init(&ssl);
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mbedtls_ssl_transform_init(&t0);
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mbedtls_ssl_transform_init(&t1);
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MD_OR_USE_PSA_INIT();
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/* Set up transforms with dummy keys */
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ret = mbedtls_test_ssl_build_transforms(&t0, &t1, cipher_type, hash_id,
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0, trunc_hmac,
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MBEDTLS_SSL_VERSION_TLS1_2,
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0, 0);
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TEST_ASSERT(ret == 0);
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/* Determine padding/plaintext length */
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TEST_ASSERT(length_selector >= -2 && length_selector <= 255);
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block_size = t0.ivlen;
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if (length_selector < 0) {
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plaintext_len = 0;
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/* Minimal padding
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* The +1 is for the padding_length byte, not counted in padlen. */
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padlen = block_size - (t0.maclen + 1) % block_size;
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/* Maximal padding? */
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if (length_selector == -2) {
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padlen += block_size * ((pad_max_len - padlen) / block_size);
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}
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} else {
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padlen = length_selector;
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/* Minimal non-zero plaintext_length giving desired padding.
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* The +1 is for the padding_length byte, not counted in padlen. */
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plaintext_len = block_size - (padlen + t0.maclen + 1) % block_size;
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}
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/* Prepare a buffer for record data */
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buflen = block_size
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+ plaintext_len
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+ t0.maclen
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+ padlen + 1;
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TEST_CALLOC(buf, buflen);
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TEST_CALLOC(buf_save, buflen);
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/* Prepare a dummy record header */
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memset(rec.ctr, 0, sizeof(rec.ctr));
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rec.type = MBEDTLS_SSL_MSG_APPLICATION_DATA;
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mbedtls_ssl_write_version(rec.ver, MBEDTLS_SSL_TRANSPORT_STREAM,
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MBEDTLS_SSL_VERSION_TLS1_2);
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#if defined(MBEDTLS_SSL_DTLS_CONNECTION_ID)
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rec.cid_len = 0;
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#endif /* MBEDTLS_SSL_DTLS_CONNECTION_ID */
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/* Prepare dummy record content */
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rec.buf = buf;
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rec.buf_len = buflen;
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rec.data_offset = block_size;
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rec.data_len = plaintext_len;
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memset(rec.buf + rec.data_offset, 42, rec.data_len);
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/* Set dummy IV */
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memset(t0.iv_enc, 0x55, t0.ivlen);
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memcpy(rec.buf, t0.iv_enc, t0.ivlen);
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/*
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* Prepare a pre-encryption record (with MAC and padding), and save it.
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*/
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2023-09-18 13:11:50 +02:00
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TEST_EQUAL(0, mbedtls_test_ssl_prepare_record_mac(&rec, &t0));
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2023-09-18 14:23:13 +02:00
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/* Pad */
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memset(rec.buf + rec.data_offset + rec.data_len, padlen, padlen + 1);
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rec.data_len += padlen + 1;
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/* Save correct pre-encryption record */
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rec_save = rec;
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rec_save.buf = buf_save;
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memcpy(buf_save, buf, buflen);
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/*
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* Encrypt and decrypt the correct record, expecting success
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*/
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TEST_EQUAL(0, mbedtls_test_psa_cipher_encrypt_helper(
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&t0, t0.iv_enc, t0.ivlen, rec.buf + rec.data_offset,
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rec.data_len, rec.buf + rec.data_offset, &olen));
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rec.data_offset -= t0.ivlen;
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rec.data_len += t0.ivlen;
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TEST_EQUAL(0, mbedtls_ssl_decrypt_buf(&ssl, &t1, &rec));
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/*
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* Modify each byte of the pre-encryption record before encrypting and
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* decrypting it, expecting failure every time.
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*/
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for (i = block_size; i < buflen; i++) {
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mbedtls_test_set_step(i);
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/* Restore correct pre-encryption record */
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rec = rec_save;
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rec.buf = buf;
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memcpy(buf, buf_save, buflen);
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/* Corrupt one byte of the data (could be plaintext, MAC or padding) */
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rec.buf[i] ^= 0x01;
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/* Encrypt */
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TEST_EQUAL(0, mbedtls_test_psa_cipher_encrypt_helper(
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&t0, t0.iv_enc, t0.ivlen, rec.buf + rec.data_offset,
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rec.data_len, rec.buf + rec.data_offset, &olen));
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rec.data_offset -= t0.ivlen;
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rec.data_len += t0.ivlen;
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/* Decrypt and expect failure */
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TEST_EQUAL(MBEDTLS_ERR_SSL_INVALID_MAC,
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mbedtls_ssl_decrypt_buf(&ssl, &t1, &rec));
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}
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/*
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* Use larger values of the padding bytes - with small buffers, this tests
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* the case where the announced padlen would be larger than the buffer
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* (and before that, than the buffer minus the size of the MAC), to make
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* sure our padding checking code does not perform any out-of-bounds reads
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* in this case. (With larger buffers, ie when the plaintext is long or
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* maximal length padding is used, this is less relevant but still doesn't
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* hurt to test.)
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*
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* (Start the loop with correct padding, just to double-check that record
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* saving did work, and that we're overwriting the correct bytes.)
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*/
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for (i = padlen; i <= pad_max_len; i++) {
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mbedtls_test_set_step(i);
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/* Restore correct pre-encryption record */
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rec = rec_save;
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rec.buf = buf;
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memcpy(buf, buf_save, buflen);
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/* Set padding bytes to new value */
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memset(buf + buflen - padlen - 1, i, padlen + 1);
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/* Encrypt */
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TEST_EQUAL(0, mbedtls_test_psa_cipher_encrypt_helper(
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&t0, t0.iv_enc, t0.ivlen, rec.buf + rec.data_offset,
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rec.data_len, rec.buf + rec.data_offset, &olen));
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rec.data_offset -= t0.ivlen;
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rec.data_len += t0.ivlen;
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/* Decrypt and expect failure except the first time */
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exp_ret = (i == padlen) ? 0 : MBEDTLS_ERR_SSL_INVALID_MAC;
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TEST_EQUAL(exp_ret, mbedtls_ssl_decrypt_buf(&ssl, &t1, &rec));
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}
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exit:
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mbedtls_ssl_free(&ssl);
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mbedtls_ssl_transform_free(&t0);
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mbedtls_ssl_transform_free(&t1);
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mbedtls_free(buf);
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mbedtls_free(buf_save);
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MD_OR_USE_PSA_DONE();
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}
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/* END_CASE */
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