// Copyright 2020 The Pigweed Authors // // Licensed under the Apache License, Version 2.0 (the "License"); you may not // use this file except in compliance with the License. You may obtain a copy of // the License at // // https://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, WITHOUT // WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the // License for the specific language governing permissions and limitations under // the License. #include "pw_base64/base64.h" #include #include "gtest/gtest.h" namespace pw::base64 { namespace { struct EncodedData { const size_t binary_size; const char* const binary_data; const char* const encoded_data; }; /* The following test data was generated by this Python 3 script. #!/usr/bin/env python3 import base64 import random def b64_encode(raw_data): encoded = base64.b64encode(raw_data).decode() hex_string = ''.join(r'\x{:02x}'.format(b) for b in raw_data) print(' {{{size}, "{raw}", "{encoded}"}},'.format( size=len(raw_data), raw=hex_string, encoded=encoded)) print('constexpr EncodedData kSingleCharTestData[] = {') for i in range(256): b64_encode(bytes([i])) print('};') print() print('constexpr EncodedData kRandomTestData[] = {') for length in range(2, 12): for _ in range(10): b64_encode(bytes(random.randrange(256) for _ in range(length))) print('};') print() */ constexpr EncodedData kSingleCharTestData[] = { {1, "\x00", "AA=="}, {1, "\x01", "AQ=="}, {1, "\x02", "Ag=="}, {1, "\x03", "Aw=="}, {1, "\x04", "BA=="}, {1, "\x05", "BQ=="}, {1, "\x06", "Bg=="}, {1, "\x07", "Bw=="}, {1, "\x08", "CA=="}, {1, "\x09", "CQ=="}, {1, "\x0a", "Cg=="}, {1, "\x0b", "Cw=="}, {1, "\x0c", "DA=="}, {1, "\x0d", "DQ=="}, {1, "\x0e", "Dg=="}, {1, "\x0f", "Dw=="}, {1, "\x10", "EA=="}, {1, "\x11", "EQ=="}, {1, "\x12", "Eg=="}, {1, "\x13", "Ew=="}, {1, "\x14", "FA=="}, {1, "\x15", "FQ=="}, {1, "\x16", "Fg=="}, {1, "\x17", "Fw=="}, {1, "\x18", "GA=="}, {1, "\x19", "GQ=="}, {1, "\x1a", "Gg=="}, {1, "\x1b", "Gw=="}, {1, "\x1c", "HA=="}, {1, "\x1d", "HQ=="}, {1, "\x1e", "Hg=="}, {1, "\x1f", "Hw=="}, {1, "\x20", "IA=="}, {1, "\x21", "IQ=="}, {1, "\x22", "Ig=="}, {1, "\x23", "Iw=="}, {1, "\x24", "JA=="}, {1, "\x25", "JQ=="}, {1, "\x26", "Jg=="}, {1, "\x27", "Jw=="}, {1, "\x28", "KA=="}, {1, "\x29", "KQ=="}, {1, "\x2a", "Kg=="}, {1, "\x2b", "Kw=="}, {1, "\x2c", "LA=="}, {1, "\x2d", "LQ=="}, {1, "\x2e", "Lg=="}, {1, "\x2f", "Lw=="}, {1, "\x30", "MA=="}, {1, "\x31", "MQ=="}, {1, "\x32", "Mg=="}, {1, "\x33", "Mw=="}, {1, "\x34", "NA=="}, {1, "\x35", "NQ=="}, {1, "\x36", "Ng=="}, {1, "\x37", "Nw=="}, {1, "\x38", "OA=="}, {1, "\x39", "OQ=="}, {1, "\x3a", "Og=="}, {1, "\x3b", "Ow=="}, {1, "\x3c", "PA=="}, {1, "\x3d", "PQ=="}, {1, "\x3e", "Pg=="}, {1, "\x3f", "Pw=="}, {1, "\x40", "QA=="}, {1, "\x41", "QQ=="}, {1, "\x42", "Qg=="}, {1, "\x43", "Qw=="}, {1, "\x44", "RA=="}, {1, "\x45", "RQ=="}, {1, "\x46", "Rg=="}, {1, "\x47", "Rw=="}, {1, "\x48", "SA=="}, {1, "\x49", "SQ=="}, {1, "\x4a", "Sg=="}, {1, "\x4b", "Sw=="}, {1, "\x4c", "TA=="}, {1, "\x4d", "TQ=="}, {1, "\x4e", "Tg=="}, {1, "\x4f", "Tw=="}, {1, "\x50", "UA=="}, {1, "\x51", "UQ=="}, {1, "\x52", "Ug=="}, {1, "\x53", "Uw=="}, {1, "\x54", "VA=="}, {1, "\x55", "VQ=="}, {1, "\x56", "Vg=="}, {1, "\x57", "Vw=="}, {1, "\x58", "WA=="}, {1, "\x59", "WQ=="}, {1, "\x5a", "Wg=="}, {1, "\x5b", "Ww=="}, {1, "\x5c", "XA=="}, {1, "\x5d", "XQ=="}, {1, "\x5e", "Xg=="}, {1, "\x5f", "Xw=="}, {1, "\x60", "YA=="}, {1, "\x61", "YQ=="}, {1, "\x62", "Yg=="}, {1, "\x63", "Yw=="}, {1, "\x64", "ZA=="}, {1, "\x65", "ZQ=="}, {1, "\x66", "Zg=="}, {1, "\x67", "Zw=="}, {1, "\x68", "aA=="}, {1, "\x69", "aQ=="}, {1, "\x6a", "ag=="}, {1, "\x6b", "aw=="}, {1, "\x6c", "bA=="}, {1, "\x6d", "bQ=="}, {1, "\x6e", "bg=="}, {1, "\x6f", "bw=="}, {1, "\x70", "cA=="}, {1, "\x71", "cQ=="}, {1, "\x72", "cg=="}, {1, "\x73", "cw=="}, {1, "\x74", "dA=="}, {1, "\x75", "dQ=="}, {1, "\x76", "dg=="}, {1, "\x77", "dw=="}, {1, "\x78", "eA=="}, {1, "\x79", "eQ=="}, {1, "\x7a", "eg=="}, {1, "\x7b", "ew=="}, {1, "\x7c", "fA=="}, {1, "\x7d", "fQ=="}, {1, "\x7e", "fg=="}, {1, "\x7f", "fw=="}, {1, "\x80", "gA=="}, {1, "\x81", "gQ=="}, {1, "\x82", "gg=="}, {1, "\x83", "gw=="}, {1, "\x84", "hA=="}, {1, "\x85", "hQ=="}, {1, "\x86", "hg=="}, {1, "\x87", "hw=="}, {1, "\x88", "iA=="}, {1, "\x89", "iQ=="}, {1, "\x8a", "ig=="}, {1, "\x8b", "iw=="}, {1, "\x8c", "jA=="}, {1, "\x8d", "jQ=="}, {1, "\x8e", "jg=="}, {1, "\x8f", "jw=="}, {1, "\x90", "kA=="}, {1, "\x91", "kQ=="}, {1, "\x92", "kg=="}, {1, "\x93", "kw=="}, {1, "\x94", "lA=="}, {1, "\x95", "lQ=="}, {1, "\x96", "lg=="}, {1, "\x97", "lw=="}, {1, "\x98", "mA=="}, {1, "\x99", "mQ=="}, {1, "\x9a", "mg=="}, {1, "\x9b", "mw=="}, {1, "\x9c", "nA=="}, {1, "\x9d", "nQ=="}, {1, "\x9e", "ng=="}, {1, "\x9f", "nw=="}, {1, "\xa0", "oA=="}, {1, "\xa1", "oQ=="}, {1, "\xa2", "og=="}, {1, "\xa3", "ow=="}, {1, "\xa4", "pA=="}, {1, "\xa5", "pQ=="}, {1, "\xa6", "pg=="}, {1, "\xa7", "pw=="}, {1, "\xa8", "qA=="}, {1, "\xa9", "qQ=="}, {1, "\xaa", "qg=="}, {1, "\xab", "qw=="}, {1, "\xac", "rA=="}, {1, "\xad", "rQ=="}, {1, "\xae", "rg=="}, {1, "\xaf", "rw=="}, {1, "\xb0", "sA=="}, {1, "\xb1", "sQ=="}, {1, "\xb2", "sg=="}, {1, "\xb3", "sw=="}, {1, "\xb4", "tA=="}, {1, "\xb5", "tQ=="}, {1, "\xb6", "tg=="}, {1, "\xb7", "tw=="}, {1, "\xb8", "uA=="}, {1, "\xb9", "uQ=="}, {1, "\xba", "ug=="}, {1, "\xbb", "uw=="}, {1, "\xbc", "vA=="}, {1, "\xbd", "vQ=="}, {1, "\xbe", "vg=="}, {1, "\xbf", "vw=="}, {1, "\xc0", "wA=="}, {1, "\xc1", "wQ=="}, {1, "\xc2", "wg=="}, {1, "\xc3", "ww=="}, {1, "\xc4", "xA=="}, {1, "\xc5", "xQ=="}, {1, "\xc6", "xg=="}, {1, "\xc7", "xw=="}, {1, "\xc8", "yA=="}, {1, "\xc9", "yQ=="}, {1, "\xca", "yg=="}, {1, "\xcb", "yw=="}, {1, "\xcc", "zA=="}, {1, "\xcd", "zQ=="}, {1, "\xce", "zg=="}, {1, "\xcf", "zw=="}, {1, "\xd0", "0A=="}, {1, "\xd1", "0Q=="}, {1, "\xd2", "0g=="}, {1, "\xd3", "0w=="}, {1, "\xd4", "1A=="}, {1, "\xd5", "1Q=="}, {1, "\xd6", "1g=="}, {1, "\xd7", "1w=="}, {1, "\xd8", "2A=="}, {1, "\xd9", "2Q=="}, {1, "\xda", "2g=="}, {1, "\xdb", "2w=="}, {1, "\xdc", "3A=="}, {1, "\xdd", "3Q=="}, {1, "\xde", "3g=="}, {1, "\xdf", "3w=="}, {1, "\xe0", "4A=="}, {1, "\xe1", "4Q=="}, {1, "\xe2", "4g=="}, {1, "\xe3", "4w=="}, {1, "\xe4", "5A=="}, {1, "\xe5", "5Q=="}, {1, "\xe6", "5g=="}, {1, "\xe7", "5w=="}, {1, "\xe8", "6A=="}, {1, "\xe9", "6Q=="}, {1, "\xea", "6g=="}, {1, "\xeb", "6w=="}, {1, "\xec", "7A=="}, {1, "\xed", "7Q=="}, {1, "\xee", "7g=="}, {1, "\xef", "7w=="}, {1, "\xf0", "8A=="}, {1, "\xf1", "8Q=="}, {1, "\xf2", "8g=="}, {1, "\xf3", "8w=="}, {1, "\xf4", "9A=="}, {1, "\xf5", "9Q=="}, {1, "\xf6", "9g=="}, {1, "\xf7", "9w=="}, {1, "\xf8", "+A=="}, {1, "\xf9", "+Q=="}, {1, "\xfa", "+g=="}, {1, "\xfb", "+w=="}, {1, "\xfc", "/A=="}, {1, "\xfd", "/Q=="}, {1, "\xfe", "/g=="}, {1, "\xff", "/w=="}, }; constexpr EncodedData kRandomTestData[] = { {2, "\x74\x6d", "dG0="}, {2, "\x22\x86", "IoY="}, {3, "\xc0\xa2\x1c", "wKIc"}, {3, "\xa9\x67\xfb", "qWf7"}, {4, "\x77\xe1\x63\x51", "d+FjUQ=="}, {4, "\x7d\xa6\x8c\x5e", "faaMXg=="}, {5, "\x68\xaa\x19\x59\xd0", "aKoZWdA="}, {5, "\x46\x73\xd3\x54\x7e", "RnPTVH4="}, {6, "\x3f\xe8\x18\x4c\xe8\xf4", "P+gYTOj0"}, {6, "\x0a\xdd\x39\xbc\x1f\x65", "Ct05vB9l"}, {7, "\xc4\x5e\x4a\x6d\x4a\x04\xb6", "xF5KbUoEtg=="}, {7, "\x12\xe9\xf4\xaa\x2e\x4c\x31", "Eun0qi5MMQ=="}, {8, "\x55\x8c\x60\xcc\xc4\x7d\x99\x1f", "VYxgzMR9mR8="}, {8, "\xee\x21\x88\x2a\x0f\x7e\x76\xd7", "7iGIKg9+dtc="}, {9, "\xba\x40\x1d\x06\x92\xce\xc2\x8a\x28", "ukAdBpLOwooo"}, {9, "\xcc\x89\xf5\xeb\x49\x91\xa6\xa6\x88", "zIn160mRpqaI"}, {10, "\x55\x6b\x11\xe4\xc2\x22\xb0\x40\x14\x53", "VWsR5MIisEAUUw=="}, {10, "\xd3\x1e\xc4\xe5\x06\x60\x37\x51\x10\x48", "0x7E5QZgN1EQSA=="}, {11, "\x98\xae\x09\x8c\x61\x40\xbf\x77\xde\xd9\x0d", "mK4JjGFAv3fe2Q0="}, {11, "\x86\x39\x06\xa1\xc6\xfc\xcf\x30\x21\xba\xdf", "hjkGocb8zzAhut8="}, }; void ExpectEncodeDecodeSizesMatch(const EncodedData& data) { const size_t actual_encoded_size = std::strlen(data.encoded_data); const size_t actual_raw_size = data.binary_size; // Encoded size. ASSERT_EQ(EncodedSize(data.binary_size), actual_encoded_size); ASSERT_EQ(PW_BASE64_ENCODED_SIZE(data.binary_size), actual_encoded_size); // Max decoded size. Do upper & lower bounds. ASSERT_GE(MaxDecodedSize(actual_encoded_size), actual_raw_size); ASSERT_GE(PW_BASE64_MAX_DECODED_SIZE(actual_encoded_size), actual_raw_size); ASSERT_LE(MaxDecodedSize(actual_encoded_size), actual_raw_size + 2); ASSERT_LE(PW_BASE64_MAX_DECODED_SIZE(actual_encoded_size), actual_raw_size + 2); } // Tests both the C++ constexpr variant and the C macro variant. TEST(Base64, EncodedAndDecodedSize) { for (const EncodedData& data : kSingleCharTestData) { ExpectEncodeDecodeSizesMatch(data); } for (const EncodedData& data : kRandomTestData) { ExpectEncodeDecodeSizesMatch(data); } } TEST(Base64, Encode_SingleChar) { char output[32]; for (const EncodedData& data : kSingleCharTestData) { const size_t size = EncodedSize(data.binary_size); ASSERT_EQ(std::strlen(data.encoded_data), size); Encode(std::as_bytes(std::span(data.binary_data, data.binary_size)), output); output[size] = '\0'; EXPECT_STREQ(data.encoded_data, output); } } TEST(Base64, Encode_RandomData) { char output[128]; for (const EncodedData& data : kRandomTestData) { const size_t size = EncodedSize(data.binary_size); ASSERT_EQ(std::strlen(data.encoded_data), size); Encode(std::as_bytes(std::span(data.binary_data, data.binary_size)), output); output[size] = '\0'; EXPECT_STREQ(data.encoded_data, output); } } TEST(Base64, Encode_BoundaryCheck) { constexpr std::byte data[] = {std::byte{'h'}, std::byte{'i'}}; char output[5] = {}; EXPECT_EQ(0u, Encode(data, std::span(output, 3))); EXPECT_STREQ("", output); EXPECT_EQ(4u, Encode(data, std::span(output, 4))); EXPECT_STREQ("aGk=", output); } TEST(Base64, Decode_SingleChar) { char output[32]; for (const EncodedData& data : kSingleCharTestData) { size_t binary_size = Decode(data.encoded_data, output); ASSERT_EQ(binary_size, data.binary_size); EXPECT_EQ(0, std::memcmp(data.binary_data, output, data.binary_size)); } } TEST(Base64, Decode_RandomData) { char output[128]; for (const EncodedData& data : kRandomTestData) { size_t binary_size = Decode(data.encoded_data, output); ASSERT_EQ(binary_size, data.binary_size); EXPECT_EQ(0, std::memcmp(data.binary_data, output, data.binary_size)); } } TEST(Base64, Decode_BoundaryCheck) { constexpr const char encoded_data[] = "aGk="; std::byte output[4] = {}; EXPECT_EQ(0u, Decode(encoded_data, std::span(output, 2))); EXPECT_STREQ("", reinterpret_cast(output)); EXPECT_EQ(2u, Decode(encoded_data, std::span(output, 3))); EXPECT_STREQ("hi", reinterpret_cast(output)); } TEST(Base64, Decode_InPlace) { constexpr const char expected[] = "This is a secret message"; char buf[] = "VGhpcyBpcyBhIHNlY3JldCBtZXNzYWdl"; EXPECT_EQ(sizeof(expected) - 1, Decode(buf, buf)); EXPECT_EQ(0, std::memcmp(expected, buf, sizeof(expected) - 1)); } TEST(Base64, Decode_UrlSafeDecode) { char output[9] = {}; EXPECT_TRUE(IsValid("+f//WW8h")); EXPECT_TRUE(IsValid("-f__WW8h")); EXPECT_EQ(6u, Decode("-f__WW8h", output)); EXPECT_STREQ("\xf9\xff\xffYo!", output); } TEST(Base64, Empty) { char buffer[] = "DO NOT TOUCH"; EXPECT_EQ(0u, EncodedSize(0)); Encode(std::as_bytes(std::span("Something cool!!!", 0)), buffer); EXPECT_STREQ("DO NOT TOUCH", buffer); EXPECT_EQ(0u, MaxDecodedSize(0)); // NOLINTNEXTLINE(bugprone-string-constructor) EXPECT_EQ(0u, Decode(std::string_view("nothing please", 0), buffer)); EXPECT_STREQ("DO NOT TOUCH", buffer); } TEST(Base64, ExampleFromRfc3548Section7) { constexpr uint8_t input[] = {0x14, 0xfb, 0x9c, 0x03, 0xd9, 0x7e}; char output[EncodedSize(sizeof(input)) + 1] = {}; Encode(std::as_bytes(std::span(input)), output); EXPECT_STREQ("FPucA9l+", output); Encode(std::as_bytes(std::span(input, 5)), output); EXPECT_STREQ("FPucA9k=", output); Encode(std::as_bytes(std::span(input, 4)), output); EXPECT_STREQ("FPucAw==", output); EXPECT_EQ(6u, Decode("FPucA9l+", output)); EXPECT_EQ(0, std::memcmp(input, output, 6)); EXPECT_EQ(5u, Decode("FPucA9k=", output)); EXPECT_EQ(0, std::memcmp(input, output, 5)); EXPECT_EQ(4u, Decode("FPucAw==", output)); EXPECT_EQ(0, std::memcmp(input, output, 4)); } TEST(Base64, ExampleFromRfc4648Section9) { char output[EncodedSize(sizeof("foobar")) + 1] = {}; const std::byte* foobar = reinterpret_cast("foobar"); Encode(std::span(foobar, 0), output); EXPECT_STREQ("", output); Encode(std::span(foobar, 1), output); EXPECT_STREQ("Zg==", output); Encode(std::span(foobar, 2), output); EXPECT_STREQ("Zm8=", output); Encode(std::span(foobar, 3), output); EXPECT_STREQ("Zm9v", output); Encode(std::span(foobar, 4), output); EXPECT_STREQ("Zm9vYg==", output); Encode(std::span(foobar, 5), output); EXPECT_STREQ("Zm9vYmE=", output); Encode(std::span(foobar, 6), output); EXPECT_STREQ("Zm9vYmFy", output); std::memset(output, '\0', sizeof(output)); EXPECT_EQ(0u, Decode("", output)); EXPECT_STREQ("", output); EXPECT_EQ(1u, Decode("Zg==", output)); EXPECT_STREQ("f", output); EXPECT_EQ(2u, Decode("Zm8=", output)); EXPECT_STREQ("fo", output); EXPECT_EQ(3u, Decode("Zm9v", output)); EXPECT_STREQ("foo", output); EXPECT_EQ(4u, Decode("Zm9vYg==", output)); EXPECT_STREQ("foob", output); EXPECT_EQ(5u, Decode("Zm9vYmE=", output)); EXPECT_STREQ("fooba", output); EXPECT_EQ(6u, Decode("Zm9vYmFy", output)); EXPECT_STREQ("foobar", output); } // Functions that call the Base64 API from C. These are defined in // base64_test.c; no point in having a separate header. extern "C" { void pw_Base64CallEncode(const void* binary_data, const size_t binary_size_bytes, char* output); size_t pw_Base64CallDecode(const char* base64, size_t base64_size_bytes, void* output); bool pw_Base64CallIsValid(const char* base64_data, size_t base64_size); } // extern "C" constexpr const char kBase64[] = "aaaabbbbcc#%"; // Ensure that the C API works correctly from a C-only context. TEST(Base64, IsValid_Ok) { EXPECT_TRUE(IsValid(std::string_view(kBase64, 4))); EXPECT_TRUE(IsValid(std::string_view(kBase64, 8))); } TEST(Base64, IsValid_IncorrectSize) { EXPECT_FALSE(IsValid(std::string_view(kBase64, 5))); EXPECT_FALSE(IsValid(std::string_view(kBase64, 6))); EXPECT_FALSE(IsValid(std::string_view(kBase64, 7))); EXPECT_FALSE(IsValid(std::string_view(kBase64, 10))); } TEST(Base64, IsValid_InvalidCharacters) { EXPECT_FALSE(IsValid(std::string_view(kBase64, 11))); EXPECT_FALSE(IsValid(std::string_view(kBase64, 12))); } TEST(Base64CLinkage, IsValid_Ok) { EXPECT_TRUE(pw_Base64CallIsValid(kBase64, 4)); EXPECT_TRUE(pw_Base64CallIsValid(kBase64, 8)); } TEST(Base64CLinkage, IsValid_IncorrectSize) { EXPECT_FALSE(pw_Base64CallIsValid(kBase64, 5)); EXPECT_FALSE(pw_Base64CallIsValid(kBase64, 6)); EXPECT_FALSE(pw_Base64CallIsValid(kBase64, 7)); EXPECT_FALSE(pw_Base64CallIsValid(kBase64, 10)); } TEST(Base64CLinkage, IsValid_InvalidCharacters) { EXPECT_FALSE(pw_Base64CallIsValid(kBase64, 11)); EXPECT_FALSE(pw_Base64CallIsValid(kBase64, 12)); } TEST(Base64CLinkage, Encode) { char output[EncodedSize(sizeof("foobar")) + 1] = {}; pw_Base64CallEncode("", 0, output); EXPECT_STREQ("", output); pw_Base64CallEncode("f", 1, output); EXPECT_STREQ("Zg==", output); pw_Base64CallEncode("fo", 2, output); } TEST(Base64CLinkage, Decode) { char output[EncodedSize(sizeof("foobar")) + 1] = {}; EXPECT_EQ(0u, pw_Base64CallDecode("", 0, output)); EXPECT_STREQ("", output); EXPECT_EQ(1u, pw_Base64CallDecode("Zg==", 4, output)); EXPECT_STREQ("f", output); EXPECT_EQ(2u, pw_Base64CallDecode("Zm8=", 4, output)); EXPECT_STREQ("fo", output); } } // namespace } // namespace pw::base64