Пример #1
0
void test_board_init_start_sets_pieces()
{
  int rank, file;
  board_t *board = board_init_start();
  /* Check for white's pieces (ranks: 0-1) */
  for (rank = 0; rank <= 1; rank++) {
    for (file = 0; file < BOARD_SIZE; file++) {
      TEST_ASSERT_MESSAGE(
        board->spaces[rank][file] != NULL,
        "Expected square_t* to be non-NULL but found NULL"
      );
      TEST_ASSERT_MESSAGE(
        board->spaces[rank][file]->piece != NULL,
        "Expected valid piece_t*, but found NULL"
      );
    }
  }

  /* Check for black's pieces (ranks: 6-7) */
  for (rank = 6; rank < BOARD_SIZE; rank++) {
    for (file = 0; file < BOARD_SIZE; file++) {
      TEST_ASSERT_MESSAGE(
        board->spaces[rank][file] != NULL,
        "Expected square_t* to be non-NULL, but found NULL"
      );
      TEST_ASSERT_MESSAGE(
        board->spaces[rank][file]->piece != NULL,
        "Expected valid black piece_t* found NULL"
      );
    }
  }

  board_destroy(board);
}
Пример #2
0
static void test_encrypt_op(const uint8_t* key, uint8_t key_len,
                            const uint8_t* adata, size_t adata_len,
                            const uint8_t* nonce, uint8_t nonce_len,
                            const uint8_t* plain, size_t plain_len,
                            const uint8_t* output_expected,
                            size_t output_expected_len,
                            uint8_t mac_length)
{
    cipher_t cipher;
    int len, err, cmp;
    size_t len_encoding = nonce_and_len_encoding_size - nonce_len;

    TEST_ASSERT_MESSAGE(sizeof(data) >= output_expected_len,
                        "Output buffer too small");

    err = cipher_init(&cipher, CIPHER_AES_128, key, key_len);
    TEST_ASSERT_EQUAL_INT(1, err);

    len = cipher_encrypt_ccm(&cipher, adata, adata_len,
                             mac_length, len_encoding,
                             nonce, nonce_len, plain, plain_len, data);
    TEST_ASSERT_MESSAGE(len > 0, "Encryption failed");

    TEST_ASSERT_EQUAL_INT(output_expected_len, len);
    cmp = compare(output_expected, data, len);
    TEST_ASSERT_MESSAGE(1 == cmp , "wrong ciphertext");

}
Пример #3
0
void test_board_save_to_file_saved_board_matches_original_when_loaded()
{
  const char *filename = "test_board.chs";
  board_t *to_save = board_init_start();
  bool overwrite = true;
  int result;

  /* Save the file */
  result = board_save_to_file(filename, to_save, overwrite);
  TEST_ASSERT_MESSAGE(
    result == 0,
    "Expected overwriting save of valid board to succeed"
  );

  /* Reload the file into a new board_t* */
  board_t *loaded_board;
  loaded_board = board_load_from_file(filename);
  TEST_ASSERT_MESSAGE(
    loaded_board != NULL,
    "Expected board load from valid file to succeed"
  );

  /* Check that the old and new board match */
  bool boards_match;
  boards_match = board_equal(to_save, loaded_board);
  TEST_ASSERT_MESSAGE(
    boards_match,
    "Expected the loaded board to match the saved one"
  );

  board_destroy(loaded_board);
  board_destroy(to_save);
}
Пример #4
0
void test_ThatWeCanAskForAllSortsOfSizes(void)
{
  unsigned int  i;
  CMOCK_MEM_INDEX_TYPE first = CMOCK_GUTS_NONE;
  CMOCK_MEM_INDEX_TYPE next;
  unsigned int  sizes[10]          = {3,  1,  80,  5,  8,  31, 7,  911, 2,  80};
  unsigned int  sizes_buffered[10] = {16, 16, 88,  16, 16, 40, 16, 920, 16, 88}; //includes counter
  unsigned int  sum = 0;
  unsigned int  cap;

  for (i = 0; i < 10; i++)
  {
    next = CMock_Guts_MemNew(sizes[i]);
    TEST_ASSERT_MESSAGE(next != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");

    first = CMock_Guts_MemChain(first, next);
    TEST_ASSERT_MESSAGE(first != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");

    sum += sizes_buffered[i];
    cap = (StartingSize > (sum + CMOCK_MEM_SIZE)) ? StartingSize : (sum + CMOCK_MEM_SIZE);
    TEST_ASSERT_EQUAL(sum, CMock_Guts_MemBytesUsed());
    TEST_ASSERT(cap >= CMock_Guts_MemBytesFree());
  }

  //verify we can still walk through the elements allocated
  next = first;
  for (i = 0; i < 10; i++)
  {
    TEST_ASSERT_MESSAGE(next != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");
    next = CMock_Guts_MemNext(next);
  }

  //there aren't any after that
  TEST_ASSERT_EQUAL_HEX( CMOCK_GUTS_NONE, next);
}
Пример #5
0
void test_ThatWeCanAskForAllSortsOfSizes(void)
{
  unsigned int  i;
  CMOCK_MEM_INDEX_TYPE first = CMOCK_GUTS_NONE;
  CMOCK_MEM_INDEX_TYPE next;
  unsigned int  sizes[5] = {3, 1, 80, 5, 4};
  unsigned int  sizes_buffered[5] = {4, 4, 80, 8, 4};
  unsigned int  sum = 0;

  for (i = 0; i < 5; i++)
  {
    next = CMock_Guts_MemNew(sizes[i]);
    TEST_ASSERT_MESSAGE(next != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");

    first = CMock_Guts_MemChain(first, next);
    TEST_ASSERT_MESSAGE(first != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");

    sum += sizes_buffered[i] + 4;
    TEST_ASSERT_EQUAL(sum, CMock_Guts_MemBytesUsed());
    TEST_ASSERT_EQUAL(CMOCK_MEM_SIZE - sum, CMock_Guts_MemBytesFree());
  }

  //show that we can't ask for too much memory
  TEST_ASSERT_EQUAL_HEX(CMOCK_GUTS_NONE, CMock_Guts_MemNew(12));
  TEST_ASSERT_EQUAL_HEX(CMOCK_GUTS_NONE, CMock_Guts_MemNew(5));

  //but we CAN ask for something that will still fit
  next = CMock_Guts_MemNew(4);
  TEST_ASSERT_MESSAGE(next != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");

  first = CMock_Guts_MemChain(first, next);
  TEST_ASSERT_MESSAGE(first != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");

  //verify we're used up now
  TEST_ASSERT_EQUAL(CMOCK_MEM_SIZE, CMock_Guts_MemBytesUsed());
  TEST_ASSERT_EQUAL(0, CMock_Guts_MemBytesFree());

  //verify we can still walk through the elements allocated
  next = first;
  for (i = 0; i < 6; i++)
  {
    TEST_ASSERT_MESSAGE(next != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");
    next = CMock_Guts_MemNext(next);
  }

  //there aren't any after that
  TEST_ASSERT_EQUAL_HEX(CMOCK_GUTS_NONE, next);
}
Пример #6
0
void test_op(void) {
    struct _OP* op_test = op("add", ADD);
    TEST_ASSERT_MESSAGE(op_test != NULL, "op() returned a null pointer!");
    TEST_ASSERT_EQUAL_STRING("add", op_test->str);
    TEST_ASSERT_EQUAL_INT(ADD, op_test->type);
    free(op_test);
}
Пример #7
0
/* Check that pieces are in the same place on original and copy boards */
void test_board_copy_deep_piece_values_match()
{
  board_t *original = board_init_start();
  board_t *copy = board_copy_deep(original);
  int rank, file;

  for (rank = 0; rank < BOARD_SIZE; rank++) {
    for (file = 0; file < BOARD_SIZE; file++) {
      /* Check that all original pieces can be found on the new board */
      piece_t *original_piece = original->spaces[rank][file]->piece;
      if (original_piece) {
        /* Check that the copied piece matches the original */
        piece_t *copied_piece = copy->spaces[rank][file]->piece;
        bool equal = piece_equal(original_piece, copied_piece);
        TEST_ASSERT_MESSAGE(
          equal,
          "Original and copied pieces dont match"
        );
      }
    }
  }

  board_destroy(original);
  board_destroy(copy);
}
Пример #8
0
static void test_base64_04_free_conversion(void)
{
    size_t elements = 255;
    unsigned char elm[elements];

    size_t elem_base64_out_size = 0;
    unsigned char elm_base64_out[((elements / 3) * 4) + (elements / 10)];

    size_t elem_base64_out_decoded_size = 0;
    unsigned char elem_base64_out_decoded[ elements + 10 ];

    /* fill some values */
    for (int i = 0; i < (int)elements; ++i) {
        elm[i] = i;
    }

    int ret = base64_encode(elm, elements, NULL, &elem_base64_out_size);
    TEST_ASSERT_EQUAL_INT(BASE64_ERROR_BUFFER_OUT_SIZE, ret);

    ret = base64_encode(elm, elements, elm_base64_out, &elem_base64_out_size);
    TEST_ASSERT_EQUAL_INT(BASE64_SUCCESS, ret);

    ret = base64_decode(elm_base64_out, elem_base64_out_size, \
                        NULL, &elem_base64_out_decoded_size);
    TEST_ASSERT_EQUAL_INT(BASE64_ERROR_BUFFER_OUT_SIZE, ret);

    ret = base64_decode(elm_base64_out, elem_base64_out_size, \
                        elem_base64_out_decoded, &elem_base64_out_decoded_size);
    TEST_ASSERT_EQUAL_INT(BASE64_SUCCESS, ret);

    for (int i = 0; i < (int)elements; ++i) {
        TEST_ASSERT_MESSAGE(elem_base64_out_decoded[i] == elm[i], \
                            "decoding failed!(produced unexpected output)");
    }
}
Пример #9
0
void test_ThatCMockStopsReturningMoreDataWhenAskForMoreThanItHasLeftEvenIfNotAtExactEnd(void)
{
  unsigned int  i;
  CMOCK_MEM_INDEX_TYPE first = CMOCK_GUTS_NONE;
  CMOCK_MEM_INDEX_TYPE next;

  //we're asking for 12 bytes each time now (4 for index, 8 for data).
  //10 requests will give us 120 bytes used, which isn't enough for another 12 bytes if total memory is 128
  for (i = 0; i < 10; i++)
  {
    TEST_ASSERT_EQUAL(i*12, CMock_Guts_MemBytesUsed());
    TEST_ASSERT_EQUAL(CMOCK_MEM_SIZE - i*12, CMock_Guts_MemBytesFree());

    next = CMock_Guts_MemNew(8);
    TEST_ASSERT_MESSAGE(next != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");

    first = CMock_Guts_MemChain(first, next);
    TEST_ASSERT_MESSAGE(first != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");

    //verify writing data won't screw us up
    *((unsigned int*)CMock_Guts_GetAddressFor(next)) = i;
  }

  //verify we're at top of memory
  TEST_ASSERT_EQUAL(CMOCK_MEM_SIZE - 8, CMock_Guts_MemBytesUsed());
  TEST_ASSERT_EQUAL(8, CMock_Guts_MemBytesFree());

  //The very next call will return a NONE, and any after that
  TEST_ASSERT_EQUAL_HEX(CMOCK_GUTS_NONE, CMock_Guts_MemNew(8));
  TEST_ASSERT_EQUAL_HEX(CMOCK_GUTS_NONE, CMock_Guts_MemNew(5));

  //verify nothing has changed
  TEST_ASSERT_EQUAL(CMOCK_MEM_SIZE - 8, CMock_Guts_MemBytesUsed());
  TEST_ASSERT_EQUAL(8, CMock_Guts_MemBytesFree());

  //verify we can still walk through the elements allocated
  next = first;
  for (i = 0; i < 10; i++)
  {
    TEST_ASSERT_MESSAGE(next != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");
    TEST_ASSERT_EQUAL(i, *((unsigned int*)CMock_Guts_GetAddressFor(next)));
    next = CMock_Guts_MemNext(next);
  }

  //there aren't any after that
  TEST_ASSERT_EQUAL_HEX(CMOCK_GUTS_NONE, next);
}
Пример #10
0
void test_board_copy_deep_with_bad_args_returns_null()
{
  board_t *copy = board_copy_deep(NULL);
  TEST_ASSERT_MESSAGE(
    copy == NULL,
    "Expected copy to return NULL when given NULL argument"
  );
}
Пример #11
0
void
test_NtpToTime(void)
{
#   if SIZEOF_TIME_T <= 4
	
	TEST_IGNORE_MESSAGE("test only useful for sizeof(time_t) > 4, skipped");
	
#   else
	
	static const uint32_t ntp_vals[6] = {
		UINT32_C(0x00000000),
		UINT32_C(0x00000001),
		UINT32_C(0x7FFFFFFF),
		UINT32_C(0x80000000),
		UINT32_C(0x80000001),
		UINT32_C(0xFFFFFFFF)
	};

	static char	lbuf[128];
	vint64		hold;
	time_t		pivot, texp, diff;
	uint32_t	back;
	int		loops, iloop;
	
	pivot = 0;
	for (loops = 0; loops < 16; ++loops) {
		for (iloop = 0; iloop < 6; ++iloop) {
			hold = ntpcal_ntp_to_time(
				ntp_vals[iloop], &pivot);
			texp = vint64_to_time(&hold);

			/* constraint 1: texp must be in the
			 * (right-open) intervall [p-(2^31), p+(2^31)[
			 */
			diff = texp - pivot;
			snprintf(lbuf, sizeof(lbuf),
				 "bounds check: piv=%lld exp=%lld dif=%lld",
				 (long long)pivot,
				 (long long)texp,
				 (long long)diff);
			TEST_ASSERT_MESSAGE((diff >= INT32_MIN) && (diff <= INT32_MAX),
					    lbuf);

			/* constraint 2: conversion from full time back
			 * to truncated NTP time must yield same result
			 * as input.
			*/
			back = (uint32_t)texp + JAN_1970;
			snprintf(lbuf, sizeof(lbuf),
				 "modulo check: ntp(in)=$%08lu ntp(out)=$%08lu",
				 (unsigned long)ntp_vals[iloop],
				 (unsigned long)back);
			TEST_ASSERT_EQUAL_MESSAGE(ntp_vals[iloop], back, lbuf);
		}
		pivot += 0x20000000;
	}
#   endif
}
Пример #12
0
void test_ThatCMockStopsReturningMoreDataWhenItRunsOutOfMemory(void)
{
  unsigned int  i;
  CMOCK_MEM_INDEX_TYPE first = CMOCK_GUTS_NONE;
  CMOCK_MEM_INDEX_TYPE next;

  //even though we are asking for one byte, we've told it to align to closest 4 bytes, therefore it will waste a byte each time
  //so each call will use 8 bytes (4 for the index, 1 for the data, and 3 wasted).
  //therefore we can safely allocated total/8 times.
  for (i = 0; i < (CMOCK_MEM_SIZE / 8); i++)
  {
    TEST_ASSERT_EQUAL(i*8, CMock_Guts_MemBytesUsed());
    TEST_ASSERT_EQUAL(CMOCK_MEM_SIZE - i*8, CMock_Guts_MemBytesFree());

    next = CMock_Guts_MemNew(1);
    TEST_ASSERT_MESSAGE(next != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");

    first = CMock_Guts_MemChain(first, next);
    TEST_ASSERT_MESSAGE(first != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");
  }

  //verify we're at top of memory
  TEST_ASSERT_EQUAL(CMOCK_MEM_SIZE, CMock_Guts_MemBytesUsed());
  TEST_ASSERT_EQUAL(0, CMock_Guts_MemBytesFree());

  //The very next call will return a NULL, and any after that
  TEST_ASSERT_EQUAL_HEX(CMOCK_GUTS_NONE, CMock_Guts_MemNew(1));
  TEST_ASSERT_EQUAL_HEX(CMOCK_GUTS_NONE, CMock_Guts_MemNew(1));
  TEST_ASSERT_EQUAL_HEX(CMOCK_GUTS_NONE, CMock_Guts_MemNew(1));

  //verify nothing has changed
  TEST_ASSERT_EQUAL(CMOCK_MEM_SIZE, CMock_Guts_MemBytesUsed());
  TEST_ASSERT_EQUAL(0, CMock_Guts_MemBytesFree());

  //verify we can still walk through the elements allocated
  next = first;
  for (i = 0; i < (CMOCK_MEM_SIZE / 8); i++)
  {
    TEST_ASSERT_MESSAGE(next != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");
    next = CMock_Guts_MemNext(next);
  }

  //there aren't any after that
  TEST_ASSERT_EQUAL_HEX(CMOCK_GUTS_NONE, next);
}
Пример #13
0
void
test_NtpToNtp(void)
{
#   if SIZEOF_TIME_T <= 4
	
	TEST_IGNORE_MESSAGE("test only useful for sizeof(time_t) > 4, skipped");

#   else
	
	static const uint32_t ntp_vals[6] = {
		UINT32_C(0x00000000),
		UINT32_C(0x00000001),
		UINT32_C(0x7FFFFFFF),
		UINT32_C(0x80000000),
		UINT32_C(0x80000001),
		UINT32_C(0xFFFFFFFF)
	};

	static char	lbuf[128];
	vint64		hold;
	time_t		pivot, texp, diff;
	int		loops, iloop;
	
	pivot = 0;
	for (loops = 0; loops < 16; ++loops) {
		for (iloop = 0; iloop < 6; ++iloop) {
			hold = ntpcal_ntp_to_ntp(
				ntp_vals[iloop], &pivot);
			texp = vint64_to_time(&hold);

			/* constraint 1: texp must be in the
			 * (right-open) intervall [p-(2^31), p+(2^31)[,
			 * but the pivot 'p' must be taken in full NTP
			 * time scale!
			 */
			diff = texp - (pivot + JAN_1970);
			snprintf(lbuf, sizeof(lbuf),
				 "bounds check: piv=%lld exp=%lld dif=%lld",
				 (long long)pivot,
				 (long long)texp,
				 (long long)diff);
			TEST_ASSERT_MESSAGE((diff >= INT32_MIN) && (diff <= INT32_MAX),
					    lbuf);

			/* constraint 2: low word must be equal to
			 * input
			 */
			snprintf(lbuf, sizeof(lbuf),
				 "low check: ntp(in)=$%08lu ntp(out[0:31])=$%08lu",
				 (unsigned long)ntp_vals[iloop],
				 (unsigned long)hold.D_s.lo);
			TEST_ASSERT_EQUAL_MESSAGE(ntp_vals[iloop], hold.D_s.lo, lbuf);
		}
		pivot += 0x20000000;
	}
#   endif
}
Пример #14
0
void test_MemNewWillNowSupportSizesGreaterThanTheDefinesCMockSize(void)
{
    TEST_ASSERT_EQUAL(0, CMock_Guts_MemBytesFree());
	
    TEST_ASSERT_MESSAGE(CMock_Guts_MemNew(CMOCK_MEM_SIZE - TEST_MEM_INDEX_SIZE + 1) != CMOCK_GUTS_NONE, "Should Not Have Returned CMOCK_GUTS_NONE");

    TEST_ASSERT_EQUAL(CMOCK_MEM_SIZE + TEST_MEM_INDEX_PAD, CMock_Guts_MemBytesUsed());
    TEST_ASSERT_EQUAL(CMOCK_MEM_SIZE, CMock_Guts_MemBytesFree());
}
Пример #15
0
void test_board_init_start_makes_square_array()
{
  board_t *board = board_init_start();
  TEST_ASSERT_MESSAGE(
    board != NULL,
    "Expected board_init_start to set square array, found NULL pointer"
  );
  board_destroy(board);
}
Пример #16
0
void test_board_init_start_moves_white_first()
{
  board_t *board = board_init_start();
  TEST_ASSERT_MESSAGE(
    board->moves_next == WHITE,
    "Expected board_init to let WHITE move first, but found BLACK"
  );
  board_destroy(board);
}
Пример #17
0
void test_board_load_from_file_returns_null_if_filename_doesnt_exist()
{
  const char *filename = "bad_board_filename.chs";
  board_t *loaded_board = board_load_from_file(filename);
  TEST_ASSERT_MESSAGE(
    loaded_board == NULL,
    "Expected board_load_from_file to return NULL when given non-existent file"
  );
}
Пример #18
0
void test_board_init_start_returns_non_null()
{
  board_t *board = board_init_start();
  TEST_ASSERT_MESSAGE(
    board != NULL,
    "Expected board_init_start to return board_t, but found NULL"
  );
  board_destroy(board);
}
Пример #19
0
void test_board_init_makes_square_array()
{
  board_t *board = board_init();
  TEST_ASSERT_MESSAGE(
    board->spaces != NULL,
    "Expected board_init to create initialize an array of squares, but found NULL"
  );
  board_destroy(board);
}
Пример #20
0
void test_board_load_from_file_returns_null_for_invalid_args()
{
  board_t *loaded_board;
  loaded_board = board_load_from_file(NULL);
  TEST_ASSERT_MESSAGE(
    loaded_board == NULL,
    "Expected board_load_from_file to return NULL when given NULL filename"
  );
}
Пример #21
0
void test_board_copy_deep_returns_board_at_new_address()
{
  board_t *original = board_init_start();
  board_t *copy = board_copy_deep(original);
  TEST_ASSERT_MESSAGE(
    original != copy,
    "Expected original and copy board_t* to point to different places"
  );

  board_destroy(original);
  board_destroy(copy);
}
Пример #22
0
void test_board_copy_deep_moves_next_is_preserved()
{
  board_t *original = board_init_start();
  board_t *copy = board_copy_deep(original);
  TEST_ASSERT_MESSAGE(
    original->moves_next == copy->moves_next,
    "Expected original and copy boards to have same 'next-movers'"
  );

  board_destroy(original);
  board_destroy(copy);
}
Пример #23
0
void testNotEqualInts(void)
{
    int failed;

    EXPECT_ABORT_BEGIN
    TEST_ASSERT_EQUAL_INT(3982, 3983);
    EXPECT_ABORT_END

    failed = Unity.CurrentTestFailed;
    Unity.CurrentTestFailed = 0;

    TEST_ASSERT_MESSAGE(1U == failed, "This is expected");
}
Пример #24
0
void testNotEqualBits(void)
{
    int failed;

    EXPECT_ABORT_BEGIN
    TEST_ASSERT_BITS(0xFF00, 0x5555, 0x5A55);
    EXPECT_ABORT_END

    failed = Unity.CurrentTestFailed;
    Unity.CurrentTestFailed = 0;

    TEST_ASSERT_MESSAGE(1U == failed, "This is expected");
}
Пример #25
0
/* Test length checking in ccm functions. */
static void test_crypto_modes_ccm_check_len(void)
{
    int ret;
    /* Just 1 to big to fit */
    ret = _test_ccm_len(cipher_encrypt_ccm, 2, NULL, 1 << 16, 0);
    TEST_ASSERT_EQUAL_INT(CCM_ERR_INVALID_LENGTH_ENCODING, ret);
    ret = _test_ccm_len(cipher_decrypt_ccm, 2, NULL, 1 << 16, 0);
    TEST_ASSERT_EQUAL_INT(CCM_ERR_INVALID_LENGTH_ENCODING, ret);

    /* adata_len should not change the result (was wrong in previous implem) */
    ret = _test_ccm_len(cipher_encrypt_ccm, 2, NULL, 1 << 16, 65535);
    TEST_ASSERT_EQUAL_INT(CCM_ERR_INVALID_LENGTH_ENCODING, ret);
    ret = _test_ccm_len(cipher_decrypt_ccm, 2, NULL, 1 << 16, 65535);
    TEST_ASSERT_EQUAL_INT(CCM_ERR_INVALID_LENGTH_ENCODING, ret);

    /* Valid length that were wrongly checked */
    /* Check should work with len_encoding >= 4, test with 8 */
    uint8_t input[8];
    ret = _test_ccm_len(cipher_encrypt_ccm, 8, input, 8, 0);
    TEST_ASSERT_MESSAGE(ret > 0, "Encryption : failed with valid input_len");

    /* einput is encrypted value for
     * - 8 * 0 input
     * - All 0 nonce and key
     * - adata_len == 0
     * - mac_len == 8 and len_encoding = 8
     */
    uint8_t einput[16] = {
        0xa2, 0x46, 0x75, 0xfc, 0x5f, 0x1b, 0x01, 0x37,
        0x8a, 0x85, 0xd7, 0xf8, 0x42, 0x82, 0x6a, 0x63,
    };

    ret = _test_ccm_len(cipher_decrypt_ccm, 8, einput, 16, 0);
    TEST_ASSERT_MESSAGE(ret > 0, "Decryption : failed with valid input_len");

    /* ccm library does not support auth_data_len > 0xFEFF */
    ret = _test_ccm_len(cipher_encrypt_ccm, 2, NULL, 0, 0xFEFF + 1);
    TEST_ASSERT_EQUAL_INT(-1, ret);
}
Пример #26
0
void test_board_init_sets_no_pieces()
{
  board_t *board = board_init();
  int rank, file;
  for (rank = 0; rank < BOARD_SIZE; rank++) {
    for (file = 0; file < BOARD_SIZE; file++) {
      TEST_ASSERT_MESSAGE(
        board->spaces[rank][file]->piece == NULL,
        "Expected all squares to be empty, found non-null piece_t*"
      );
    }
  }
  board_destroy(board);
}
Пример #27
0
void test_board_init_creates_each_square()
{
  board_t *board = board_init();
  int rank, file;
  for (rank = 0; rank < BOARD_SIZE; rank++) {
    for (file = 0; file < BOARD_SIZE; file++) {
      TEST_ASSERT_MESSAGE(
        board->spaces[rank][file] != NULL,
        "Expected square to be square_t, but found NULL"
      );
    }
  }
  board_destroy(board);
}
Пример #28
0
void test_board_save_to_file_returns_neg_one_for_invalid_args()
{
  const char *filename = "saved1.chs";
  board_t *to_save = board_init_start();
  bool overwrite = true;
  int result;

  /* Return error code when given bad filename */
  result = board_save_to_file(NULL, to_save, overwrite);
  TEST_ASSERT_MESSAGE(
    result == -1,
    "Expected to return -1 when given bad filename"
  );

  /* Return error code when given bad board */
  result = board_save_to_file(filename, NULL, overwrite);
  TEST_ASSERT_MESSAGE(
    result == -1,
    "Expected to return -1 when given bad board_t"
  );

  board_destroy(to_save);
}
Пример #29
0
void test_board_save_to_file_returns_neg_two_if_file_exists()
{
  const char *filename = "existing_board.chs";
  board_t *to_save = board_init_start();
  bool overwrite = false;
  int result;

  /* Return error code if the file exists and we dont want to overwrite */
  result = board_save_to_file(filename, to_save, overwrite);
  TEST_ASSERT_MESSAGE(
    result == -2,
    "Expected to return error when not overwriting existing file"
  );

  board_destroy(to_save);
}
Пример #30
0
void test_board_copy_deep_squares_pointers_are_different()
{
  board_t *original = board_init_start();
  board_t *copy = board_copy_deep(original);
  int rank, file;
  for (rank = 0; rank < BOARD_SIZE; rank++) {
    for (file = 0; file < BOARD_SIZE; file++) {
      TEST_ASSERT_MESSAGE(
        original->spaces[rank][file] != copy->spaces[rank][file],
        "Expected square_t ptrs to be different after deep copy"
      );
    }
  }

  board_destroy(original);
  board_destroy(copy);
}