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044a89ef55b0f91c87ac18f69bd8399694e2e0f7
oemcrypto/util/test/base64_test.cpp
Fred Gylys-Colwell 044a89ef55 Initial v17 Release 
Headers and Unit tests have been updated to match the v17 spec.

Documentation can be found here:
https://developers.devsite.corp.google.com/widevine/drm/client/oemcrypto/v17
2021-12-04 01:13:15 +00:00

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// Copyright 2018 Google LLC. All Rights Reserved. This file and proprietary
// source code may only be used and distributed under the Widevine License
// Agreement.
#include <gtest/gtest.h>
#include <utility>
#include "log.h"
#include "string_conversions.h"
namespace wvutil {
namespace {
// Test vectors as suggested by http://tools.ietf.org/html/rfc4648#section-10
const std::string kNullString("");
const std::string kf("f");
const std::string kfo("fo");
const std::string kfoo("foo");
const std::string kfoob("foob");
const std::string kfooba("fooba");
const std::string kfoobar("foobar");
const std::string kfB64("Zg==");
const std::string kfoB64("Zm8=");
const std::string kfooB64("Zm9v");
const std::string kfoobB64("Zm9vYg==");
const std::string kfoobaB64("Zm9vYmE=");
const std::string kfoobarB64("Zm9vYmFy");
// Arbitrary clear test vectors
const std::string kMultipleOf24BitsData("Good day!");
const std::string kOneByteOverData("Hello Friend!");
const std::string kTwoBytesOverData("Hello Friend!!");
const std::string kTestData =
"\030\361\\\366\267> \331\210\360\\-\311:\324\256\376"
"\261\234\241\326d\326\177\346\346\223\333Y\305\214\330";
// Arbitrary encoded test vectors
const std::string kMultipleOf24BitsB64Data("R29vZCBkYXkh");
const std::string kOneByteOverB64Data("SGVsbG8gRnJpZW5kIQ==");
const std::string kTwoBytesOverB64Data("SGVsbG8gRnJpZW5kISE=");
const std::string kB64TestData = "GPFc9rc+INmI8FwtyTrUrv6xnKHWZNZ/5uaT21nFjNg=";
const std::pair<const std::string*, const std::string*> kBase64TestVectors[] = {
make_pair(&kNullString, &kNullString),
make_pair(&kf, &kfB64),
make_pair(&kfo, &kfoB64),
make_pair(&kfoo, &kfooB64),
make_pair(&kfoob, &kfoobB64),
make_pair(&kfooba, &kfoobaB64),
make_pair(&kfoobar, &kfoobarB64),
make_pair(&kMultipleOf24BitsData, &kMultipleOf24BitsB64Data),
make_pair(&kOneByteOverData, &kOneByteOverB64Data),
make_pair(&kTwoBytesOverData, &kTwoBytesOverB64Data),
make_pair(&kTestData, &kB64TestData)};
// Arbitrary invalid base64 test vectors
const std::string kBase64ErrorVectors[] = {"Foo$sa",
"Foo\x99\x23\xfa\02",
"Foo==Foo",
"FooBa",
"SGVsbG8sIFdvcmxkI===",
"SGVsbG8sIFdvcmxkI======",
"SGVsbG8sIFdvcmxkIQp=="};
std::string ConvertToBase64WebSafe(const std::string& std_base64_string) {
std::string str(std_base64_string);
for (size_t i = 0; i < str.size(); ++i) {
if (str[i] == '+')
str[i] = '-';
else if (str[i] == '/')
str[i] = '_';
}
return str;
}
} // namespace
class Base64EncodeDecodeTest
: public ::testing::TestWithParam<
std::pair<const std::string*, const std::string*> > {};
TEST_P(Base64EncodeDecodeTest, EncodeDecodeTest) {
std::pair<const std::string*, const std::string*> values = GetParam();
const std::string& plain_text_string = *(values.first);
const std::string& expected_encoded = *(values.second);
// Encode from string.
const std::string b64_string_encoded = Base64Encode(plain_text_string);
EXPECT_EQ(b64_string_encoded, expected_encoded);
// Encode from vector.
const std::vector<uint8_t> plain_text_vector(plain_text_string.begin(),
plain_text_string.end());
const std::string b64_vector_encoded = Base64Encode(plain_text_vector);
EXPECT_EQ(b64_vector_encoded, expected_encoded);
// Decode from string.
const std::vector<uint8_t> decoded_vector = Base64Decode(expected_encoded);
EXPECT_EQ(decoded_vector, plain_text_vector);
}
TEST_P(Base64EncodeDecodeTest, WebSafeEncodeDecodeTest) {
std::pair<const std::string*, const std::string*> values = GetParam();
const std::string& plain_text_string = *(values.first);
const std::string& expected_encoded =
ConvertToBase64WebSafe(*(values.second));
// Encode from string.
const std::string b64_string_encoded = Base64SafeEncode(plain_text_string);
EXPECT_EQ(b64_string_encoded, expected_encoded);
// Encode from vector.
const std::vector<uint8_t> plain_text_vector(plain_text_string.begin(),
plain_text_string.end());
const std::string b64_vector_encoded = Base64SafeEncode(plain_text_vector);
EXPECT_EQ(b64_vector_encoded, expected_encoded);
// Decode from string.
const std::vector<uint8_t> decoded_vector =
Base64SafeDecode(expected_encoded);
EXPECT_EQ(decoded_vector, plain_text_vector);
}
TEST_P(Base64EncodeDecodeTest, WebSafeEncodeNoPad) {
std::pair<const std::string*, const std::string*> values = GetParam();
const std::string& plain_text_string = *(values.first);
const std::string& padded_encoded = ConvertToBase64WebSafe(*(values.second));
// Encode from string.
const std::string b64_string_encoded =
Base64SafeEncodeNoPad(plain_text_string);
// If input is empty, output will be empty.
if (plain_text_string.empty()) {
EXPECT_TRUE(b64_string_encoded.empty());
return;
}
if (padded_encoded.back() == '=') {
// If padding is present in the regular encoding, then it should be
// striped from the result.
EXPECT_NE(b64_string_encoded.back(), '=');
const std::string expected_encoded =
padded_encoded.substr(0, b64_string_encoded.size());
EXPECT_EQ(b64_string_encoded, expected_encoded);
} else {
// If no padding is present, then results should be equal.
EXPECT_EQ(b64_string_encoded, padded_encoded);
}
// Encode from vector.
const std::vector<uint8_t> plain_text_vector(plain_text_string.begin(),
plain_text_string.end());
const std::string b64_vector_encoded =
Base64SafeEncodeNoPad(plain_text_vector);
// Assuming the above has passed, the results should be the same as
// a result encoded from a string.
EXPECT_EQ(b64_vector_encoded, b64_string_encoded);
}
class Base64ErrorDecodeTest : public ::testing::TestWithParam<std::string> {};
TEST_P(Base64ErrorDecodeTest, EncoderErrors) {
const std::vector<uint8_t> standard_result = Base64Decode(GetParam());
EXPECT_TRUE(standard_result.empty());
const std::vector<uint8_t> safe_result = Base64SafeDecode(GetParam());
EXPECT_TRUE(safe_result.empty());
}
INSTANTIATE_TEST_SUITE_P(ExecutesBase64Test, Base64EncodeDecodeTest,
::testing::ValuesIn(kBase64TestVectors));
INSTANTIATE_TEST_SUITE_P(ExecutesBase64Test, Base64ErrorDecodeTest,
::testing::ValuesIn(kBase64ErrorVectors));
class HtoNLL64Test : public ::testing::Test {};
TEST_F(HtoNLL64Test, PositiveNumber) {
uint8_t data[8] = {1, 2, 3, 4, 5, 6, 7, 8};
int64_t* network_byte_order = reinterpret_cast<int64_t*>(data);
int64_t host_byte_order = htonll64(*network_byte_order);
EXPECT_EQ(0x0102030405060708, host_byte_order);
}
TEST_F(HtoNLL64Test, NegativeNumber) {
uint8_t data[8] = {0xfe, 2, 3, 4, 5, 6, 7, 8};
int64_t* network_byte_order = reinterpret_cast<int64_t*>(data);
int64_t host_byte_order = htonll64(*network_byte_order);
EXPECT_EQ(-0x01FdFcFbFaF9F8F8, host_byte_order);
}
} // namespace wvutil
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