// Copyright 2016 Google Inc. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file or at // https://developers.google.com/open-source/licenses/bsd #include #include #include "packager/base/strings/string_number_conversions.h" #include "packager/media/base/aes_pattern_cryptor.h" using ::testing::_; using ::testing::Invoke; using ::testing::Return; namespace { const uint8_t kCryptByteBlock = 2u; const uint8_t kSkipByteBlock = 1u; } // namespace namespace shaka { namespace media { class MockAesCryptor : public AesCryptor { public: MockAesCryptor() : AesCryptor(kDontUseConstantIv) {} MOCK_METHOD2(InitializeWithIv, bool(const std::vector& key, const std::vector& iv)); MOCK_METHOD4(CryptInternal, bool(const uint8_t* text, size_t text_size, uint8_t* crypt_text, size_t* crypt_text_size)); MOCK_METHOD0(SetIvInternal, void()); }; class AesPatternCryptorTest : public ::testing::Test { public: AesPatternCryptorTest() : mock_cryptor_(new MockAesCryptor), pattern_cryptor_(kCryptByteBlock, kSkipByteBlock, AesPatternCryptor::kEncryptIfCryptByteBlockRemaining, AesCryptor::kDontUseConstantIv, std::unique_ptr(mock_cryptor_)) {} protected: MockAesCryptor* mock_cryptor_; AesPatternCryptor pattern_cryptor_; }; TEST_F(AesPatternCryptorTest, InitializeWithIv) { std::vector key(16, 'k'); std::vector iv(8, 'i'); EXPECT_CALL(*mock_cryptor_, InitializeWithIv(key, iv)).WillOnce(Return(true)); EXPECT_TRUE(pattern_cryptor_.InitializeWithIv(key, iv)); EXPECT_EQ(iv, pattern_cryptor_.iv()); } struct PatternTestCase { const char* text_hex; const char* expected_crypt_text_hex; }; class AesPatternCryptorVerificationTest : public AesPatternCryptorTest, public ::testing::WithParamInterface {}; TEST_P(AesPatternCryptorVerificationTest, PatternTest) { std::vector text; std::string text_hex(GetParam().text_hex); if (!text_hex.empty()) { ASSERT_TRUE(base::HexStringToBytes(text_hex, &text)); } std::vector expected_crypt_text; std::string expected_crypt_text_hex(GetParam().expected_crypt_text_hex); if (!expected_crypt_text_hex.empty()) { ASSERT_TRUE( base::HexStringToBytes(expected_crypt_text_hex, &expected_crypt_text)); } ON_CALL(*mock_cryptor_, CryptInternal(_, _, _, _)) .WillByDefault(Invoke([](const uint8_t* text, size_t text_size, uint8_t* crypt_text, size_t* crypt_text_size) { *crypt_text_size = text_size; for (size_t i = 0; i < text_size; ++i) { *crypt_text++ = *text++ + 0x10; } return true; })); std::vector crypt_text; ASSERT_TRUE(pattern_cryptor_.Crypt(text, &crypt_text)); EXPECT_EQ(expected_crypt_text, crypt_text); } namespace { const PatternTestCase kPatternTestCases[] = { // Empty. {"", ""}, // One partial block (not encrypted). {"010203", "010203"}, // One block (not encrypted). {"01020304050607080910111213141516", "01020304050607080910111213141516"}, // One block + partial block (not encrypted). {"010203040506070809101112131415161718", "010203040506070809101112131415161718"}, // Two blocks (encrypted) - the mock encryptor adds every byte by 0x10. {"0102030405060708091011121314151617181920212223242526272829303132", "1112131415161718192021222324252627282930313233343536373839404142"}, // Two blocks + partial block (only the first two blocks are encrypted). {"0102030405060708091011121314151617181920212223242526272829303132" "333435363738", "1112131415161718192021222324252627282930313233343536373839404142" "333435363738"}, // Seven blocks. {// kCryptByteBlock (2) blocks encrypted. "0102030405060708091011121314151617181920212223242526272829303132" // kSkipByteBlock (1) block not encrypted. "33343536373839404142434445464748" // kCryptByteBlock (2) blocks encrypted. "4950515253545556575859606162636465666768697071727374757677787980" // kSkipByteBlock (1) block not encrypted. "81828384858687888990919293949596" // Less than kCryptByteBlock blocks remaining, so not encrypted. "97989900010203040506070809101112", "1112131415161718192021222324252627282930313233343536373839404142" "33343536373839404142434445464748" "5960616263646566676869707172737475767778798081828384858687888990" "81828384858687888990919293949596" "97989900010203040506070809101112"}, }; } // namespace INSTANTIATE_TEST_CASE_P(PatternTestCases, AesPatternCryptorVerificationTest, ::testing::ValuesIn(kPatternTestCases)); TEST(AesPatternCryptorConstIvTest, UseConstantIv) { MockAesCryptor* mock_cryptor = new MockAesCryptor; AesPatternCryptor pattern_cryptor( kCryptByteBlock, kSkipByteBlock, AesPatternCryptor::kEncryptIfCryptByteBlockRemaining, AesPatternCryptor::kUseConstantIv, std::unique_ptr(mock_cryptor)); std::vector iv(8, 'i'); // SetIv will be called twice: // once by AesPatternCryptor::SetIv, // once by AesPatternCryptor::Crypt, to make sure the same iv is used. EXPECT_CALL(*mock_cryptor, SetIvInternal()).Times(2); EXPECT_TRUE(pattern_cryptor.SetIv(iv)); std::string crypt_text; ASSERT_TRUE(pattern_cryptor.Crypt("010203", &crypt_text)); } TEST(AesPatternCryptorConstIvTest, DontUseConstantIv) { MockAesCryptor* mock_cryptor = new MockAesCryptor; AesPatternCryptor pattern_cryptor( kCryptByteBlock, kSkipByteBlock, AesPatternCryptor::kEncryptIfCryptByteBlockRemaining, AesPatternCryptor::kDontUseConstantIv, std::unique_ptr(mock_cryptor)); std::vector iv(8, 'i'); // SetIv will be called only once by AesPatternCryptor::SetIv. EXPECT_CALL(*mock_cryptor, SetIvInternal()); EXPECT_TRUE(pattern_cryptor.SetIv(iv)); std::string crypt_text; ASSERT_TRUE(pattern_cryptor.Crypt("010203", &crypt_text)); } TEST(SampleAesPatternCryptor, 16Bytes) { MockAesCryptor* mock_cryptor = new MockAesCryptor(); EXPECT_CALL(*mock_cryptor, CryptInternal(_, _, _, _)).Times(0); const uint8_t kSampleAesEncryptedBlock = 1; const uint8_t kSampleAesClearBlock = 9; AesPatternCryptor pattern_cryptor( kSampleAesEncryptedBlock, kSampleAesClearBlock, AesPatternCryptor::kSkipIfCryptByteBlockRemaining, AesPatternCryptor::kUseConstantIv, std::unique_ptr(mock_cryptor)); std::vector iv(8, 'i'); // SetIv will be called only once by AesPatternCryptor::SetIv. EXPECT_TRUE(pattern_cryptor.SetIv(iv)); std::string crypt_text; // Exactly 16 bytes, mock's Crypt should not be called. ASSERT_TRUE(pattern_cryptor.Crypt("0123456789abcdef", &crypt_text)); } TEST(SampleAesPatternCryptor, MoreThan16Bytes) { MockAesCryptor* mock_cryptor = new MockAesCryptor(); EXPECT_CALL(*mock_cryptor, CryptInternal(_, 16u, _, _)) .WillOnce(Return(true)); const uint8_t kSampleAesEncryptedBlock = 1; const uint8_t kSampleAesClearBlock = 9; AesPatternCryptor pattern_cryptor( kSampleAesEncryptedBlock, kSampleAesClearBlock, AesPatternCryptor::kSkipIfCryptByteBlockRemaining, AesPatternCryptor::kUseConstantIv, std::unique_ptr(mock_cryptor)); std::vector iv(8, 'i'); // SetIv will be called only once by AesPatternCryptor::SetIv. EXPECT_TRUE(pattern_cryptor.SetIv(iv)); std::string crypt_text; // More than 16 bytes so mock's CryptInternal should be called. ASSERT_TRUE(pattern_cryptor.Crypt("0123456789abcdef012", &crypt_text)); } } // namespace media } // namespace shaka