/* * Copyright (C) 2015 Martin Landsmann * * This file is subject to the terms and conditions of the GNU Lesser * General Public License v2.1. See the file LICENSE in the top level * directory for more details. */ #define TEST_BASE64_SHOW_OUTPUT (0) /**< set if encoded/decoded string is displayed */ #if (TEST_BASE64_SHOW_OUTPUT == 1) #include #endif #include #include "embUnit.h" #include "tests-base64.h" #include "base64.h" static void test_base64_01_encode_string(void) { unsigned char data_in[] = "Hello RIOT this is a base64 test!\n" "This should work as intended."; unsigned char expected_encoding[] = "SGVsbG8gUklPVCB0aGlzIGlzIGEgYmFzZTY0IHR" "lc3QhClRoaXMgc2hvdWxkIHdvcmsgYXMgaW50ZW5kZWQu"; size_t data_in_size = strlen((char *)data_in); size_t base64_out_size = 0; unsigned char base64_out[ strlen((char *)expected_encoding) ]; /* * @Note: * The first encoding attempt fails, but reveals the required out size. * * This size is a lower bound estimation, * thus it can require few more bytes then the actual used size for the output. */ int ret = base64_encode(data_in, data_in_size, NULL, &base64_out_size); TEST_ASSERT_EQUAL_INT(BASE64_ERROR_BUFFER_OUT_SIZE, ret); ret = base64_encode(data_in, data_in_size, base64_out, &base64_out_size); TEST_ASSERT_EQUAL_INT(BASE64_SUCCESS, ret); for (int i = 0; i < (int)base64_out_size; ++i) { TEST_ASSERT_MESSAGE(base64_out[i] == expected_encoding[i], \ "encoding failed!(produced unexpected output)"); } #if (TEST_BASE64_SHOW_OUTPUT == 1) puts("Test 01 Encoded:"); for (int i = 0; i < (int)base64_out_size; ++i) { printf("%c", base64_out[i]); } printf("\nFrom:\n%s\n", (char *)data_in); #endif } static void test_base64_02_decode_base64(void) { unsigned char encoded_base64[] = "SGVsbG8gUklPVCB0aGlzIGlzIGEgYmFzZTY0IHRlc3Q" "hClRoaXMgc2hvdWxkIHdvcmsgYXMgaW50ZW5kZWQu"; unsigned char expected_string[] = "Hello RIOT this is a base64 test!\n" "This should work as intended."; size_t base64_size = strlen((char *)encoded_base64); size_t data_out_size = 0; unsigned char data_out[ strlen((char *)expected_string) ]; int ret = base64_decode(encoded_base64, base64_size, NULL, &data_out_size); TEST_ASSERT_EQUAL_INT(BASE64_ERROR_BUFFER_OUT_SIZE, ret); ret = base64_decode(encoded_base64, base64_size, NULL, &data_out_size); TEST_ASSERT_EQUAL_INT(BASE64_ERROR_BUFFER_OUT, ret); ret = base64_decode(encoded_base64, base64_size, data_out, &data_out_size); TEST_ASSERT_EQUAL_INT(BASE64_SUCCESS, ret); for (int i = 0; i < (int)data_out_size; ++i) { TEST_ASSERT_MESSAGE(data_out[i] == expected_string[i], \ "decoding failed!(produced unexpected output)"); } #if (TEST_BASE64_SHOW_OUTPUT == 1) puts("Test 02 Decoded:"); for (int i = 0; i < (int)data_out_size; ++i) { printf("%c", data_out[i]); } printf("\nFrom:\n%s\n", (char *)encoded_base64); #endif } static void test_base64_03_single_character(void) { size_t element_size = 1; unsigned char element[] = "1"; size_t elementDecodeSize = 3; unsigned char elementDecode[3]; size_t element_base64_out_size = 10; unsigned char element_base64_out[10]; int ret = base64_encode(element, element_size, \ element_base64_out, &element_base64_out_size); TEST_ASSERT_EQUAL_INT(BASE64_SUCCESS, ret); ret = base64_decode(element_base64_out, element_base64_out_size, \ elementDecode, &elementDecodeSize); TEST_ASSERT_EQUAL_INT(BASE64_SUCCESS, ret); for (int i = 0; i < (int)elementDecodeSize; ++i) { TEST_ASSERT_MESSAGE(element[i] == elementDecode[i], \ "decoding failed!(produced unexpected output)"); } } 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)"); } } static void test_base64_05_decode_larger(void) { unsigned char decodeit[] = "SG93IG11Y2ggd29vZCB3b3VsZCBhIHdvb2RjaHVjayBjaHVj" "awppZiBhIHdvb2RjaHVjayBjb3VsZCBjaHVjayB3b29kPwpI" "ZSB3b3VsZCBjaHVjaywgaGUgd291bGQsIGFzIG11Y2ggYXMg" "aGUgY291bGQsCmFuZCBjaHVjayBhcyBtdWNoIHdvb2QgYXMg" "YSB3b29kY2h1Y2sgd291bGQKaWYgYSB3b29kY2h1Y2sgY291" "bGQgY2h1Y2sgd29vZC4=="; size_t data_size = 199; unsigned char data[data_size]; size_t decodeit_size = strlen((char *)decodeit); int ret = base64_decode(decodeit, decodeit_size, data, &data_size); TEST_ASSERT_EQUAL_INT(BASE64_SUCCESS, ret); #if (TEST_BASE64_SHOW_OUTPUT == 1) puts("Test 05 Decoded:"); for (int i = 0; i < (int)data_size; ++i) { printf("%c", data[i]); } printf("\nFrom:\n%s\n", (char *)decodeit); #endif } static void test_base64_06_stream_encode(void) { /* * @Note: * In this test we divide the `stream_encode[]` input for the encoding * into several portions (chunks). * * Every chunk is encoded and appended to the base64 `encode_result[]`. * To enable appending further, the chunks MUST be dividable by 3. * Only the final chunk MAY be prime to 3. (it is in this test) * */ unsigned char stream_encode[] = "Peter Piper picked a peck of pickled peppers." "\nA peck of pickled peppers Peter Piper picked." "\nIf Peter Piper picked a peck of pickled peppers," "\nWhere's the peck of pickled peppers Peter Piper picked?"; /* required output size +2 extra bytes */ size_t encoded_size = 264 + 2; /* cppcheck-suppress unassignedVariable */ unsigned char encode_result[encoded_size]; /* the above array is used/assigned in base64_encode() using its pointer. */ int remain = strlen((char *)stream_encode); int out_iter = 0; int ret = BASE64_SUCCESS; for (int i = 3; i < remain; (i += 3)) { size_t size_used = encoded_size - out_iter; ret = base64_encode(stream_encode + (strlen((char *)stream_encode) - remain), \ i, encode_result + out_iter, &size_used); TEST_ASSERT_EQUAL_INT(BASE64_SUCCESS, ret); out_iter += size_used; remain -= i; } /* this final chunk we want to encode and append is prime to 3 */ size_t finish = encoded_size - out_iter; ret = base64_encode(stream_encode + (strlen((char *)stream_encode) - remain), \ remain, encode_result + out_iter, &finish); TEST_ASSERT_EQUAL_INT(BASE64_SUCCESS, ret); #if (TEST_BASE64_SHOW_OUTPUT == 1) out_iter += finish; puts("Test 06 Encoded:"); for (int i = 0; i < (int)out_iter; ++i) { printf("%c", encode_result[i]); } printf("\nFrom:\n%s\n", (char *)stream_encode); #endif } static void test_base64_07_stream_decode(void) { /* @Note: * Here we decode the base64 string `encoded[]` * * Every base64 chunk is decoded and appended to `stream_decoded[]`. * The chunks passed to decode MUST be dividable by 4. */ unsigned char encoded[] = "UGV0ZXIgUGlwZXIgcGlja2VkIGEgcGVjayBvZiBwaWNrbGVkIH" "BlcHBlcnMuCkEgcGVjayBvZiBwaWNrbGVkIHBlcHBlcnMgUGV0" "ZXIgUGlwZXIgcGlja2VkLgpJZiBQZXRlciBQaXBlciBwaWNrZW" "QgYSBwZWNrIG9mIHBpY2tsZWQgcGVwcGVycywKV2hlcmUncyB0" "aGUgcGVjayBvZiBwaWNrbGVkIHBlcHBlcnMgUGV0ZXIgUGlwZX" "IgcGlja2VkPw=="; /* required output size +2 extra bytes */ size_t decoded_size = 196 + 2; /* cppcheck-suppress unassignedVariable */ unsigned char stream_decoded[decoded_size]; /* the above array is used/assigned in base64_decode() using its pointer. */ size_t encoded_size = strlen((char *)encoded); int remain = encoded_size; int out_iter = 0; int ret = BASE64_SUCCESS; for (int i = 4; i < remain; (i += 4)) { size_t size_used = decoded_size - out_iter; ret = base64_decode(encoded + (encoded_size - remain), \ i, stream_decoded + out_iter, &size_used); TEST_ASSERT_EQUAL_INT(BASE64_SUCCESS, ret); out_iter += size_used; remain -= i; } size_t finish = decoded_size - out_iter; ret = base64_decode(encoded + (encoded_size - remain), \ remain, stream_decoded + out_iter, &finish); TEST_ASSERT_EQUAL_INT(BASE64_SUCCESS, ret); #if (TEST_BASE64_SHOW_OUTPUT == 1) out_iter += finish; puts("Test 07 Decoded:"); for (int i = 0; i < (int)out_iter; ++i) { printf("%c", stream_decoded[i]); } printf("\nFrom:\n%s\n", (char *)encoded); #endif } Test *tests_base64_tests(void) { EMB_UNIT_TESTFIXTURES(fixtures) { new_TestFixture(test_base64_01_encode_string), new_TestFixture(test_base64_02_decode_base64), new_TestFixture(test_base64_03_single_character), new_TestFixture(test_base64_04_free_conversion), new_TestFixture(test_base64_05_decode_larger), new_TestFixture(test_base64_06_stream_encode), new_TestFixture(test_base64_07_stream_decode), }; EMB_UNIT_TESTCALLER(base64_tests, NULL, NULL, fixtures); return (Test *)&base64_tests; } void tests_base64(void) { TESTS_RUN(tests_base64_tests()); }