src/starboard/nplb/cryptography_transform_test.cc - cobalt - Git at Google

 // Copyright 2017 The Cobalt Authors. All Rights Reserved.
 //
 // 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
 //
 //     http://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 "starboard/configuration.h"

 #if SB_API_VERSION < 12

 #include "starboard/cryptography.h"

 #include "starboard/common/log.h"
 #include "starboard/common/scoped_ptr.h"
 #include "starboard/nplb/cryptography_helpers.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace starboard {
 namespace nplb {
 namespace {

 class Aes : public ::testing::TestWithParam<SbCryptographyBlockCipherMode> {
  protected:
   SbCryptographyBlockCipherMode GetMode() { return GetParam(); }

   bool ShouldSetIvAtInitialization() {
     return GetIvMode() == kIvModeSetAtInitialization ||
            GetIvMode() == kIvModeSetAnyTime;
   }

   bool ShouldSetIvAfterInitialization() {
     return GetIvMode() == kIvModeSetAfterInitialization ||
            GetIvMode() == kIvModeSetAnyTime;
   }

   bool ShouldSetAuthenticatedData() {
     switch (GetMode()) {
       case kSbCryptographyBlockCipherModeGcm:
         return true;
       case kSbCryptographyBlockCipherModeEcb:
       case kSbCryptographyBlockCipherModeCtr:
       case kSbCryptographyBlockCipherModeCbc:
       case kSbCryptographyBlockCipherModeCfb:
       case kSbCryptographyBlockCipherModeOfb:
         return false;
       default:
         ADD_FAILURE() << "Unrecognized SbCryptographyBlockCipherMode "
                       << GetMode();
         return false;
     }
   }

   const char* GetExpectedEncryptedValueHex() {
     switch (GetMode()) {
       case kSbCryptographyBlockCipherModeGcm:
         return "6a7b6e871f851db21a29f6aef579cfb77238d34b2f099404f20bb44c6b2d4d2"
                "0a2788f8ffc0a36eba4cd8e69ee95e973b5eb52d1e218ee991ccc0ee1ba2fa7"
                "d1dc83a5d2e3c317e5637b67c2524bd073ec6fe547edf6044111e2e16c239ed"
                "e845d4b7b235f24fbdb2673dbdd1c5d5c46d7b69059ff4b1566b01bec4f4ca6"
                "a4c500";

       case kSbCryptographyBlockCipherModeEcb:
         return "36aa40499dccc9f25bb3c1abcf4b73cf5993dc6127c534e7491a31a54f09bc4"
                "8e9fc157e380ca1457dedac9147e158be1c8eba2ec679d6bdc54cb2878cd2ab"
                "6736aa40499dccc9f25bb3c1abcf4b73cf5993dc6127c534e7491a31a54f09b"
                "c48e9fc157e380ca1457dedac9147e158beae602e043e0572ed2f71acf5438c"
                "e78200";

       case kSbCryptographyBlockCipherModeCtr:
         return "f32f8a813cea30e0f4c6e2efeab52ab92976cc06fa5f69409c3358ef2f3782d"
                "daff201f56acd9b61fea4c3e4739deab176ad764da16d1248d59337962c7ab0"
                "f2cd4c292ed34ae4125d8fb142344b2d2fc4ff533b80f5e8e311cde700ceaed"
                "a613c6f27f72a0602e6e4891e6b4f5a0a64e795998a40544d88363d124d5294"
                "c91700";

       case kSbCryptographyBlockCipherModeCbc:
         return "eaa929d637cde55115d43257e920ff8d39d1dec8240255a5db79a0cf79501a1"
                "4bc62c4d16fc45dd7fa9d15b3346a74301260dfeb96e22259787344d7e47047"
                "3eb4187eeac16a74afd1c5fdc67fb145cc494667ea4b16dccc83cc1cc1b2c36"
                "2f2a03e90d6c3a9adbf53c4cb8e4987719928ef7c47c4403f0cfe5a0ff77325"
                "6eaa00";

       case kSbCryptographyBlockCipherModeCfb:
       case kSbCryptographyBlockCipherModeOfb:
         ADD_FAILURE() << "Unsupported SbCryptographyBlockCipherMode "
                       << GetMode();
         return "";
       default:
         ADD_FAILURE() << "Unrecognized SbCryptographyBlockCipherMode "
                       << GetMode();
         return "";
     }
   }

  private:
   enum IvMode {
     kIvModeNotUsed,
     kIvModeSetAtInitialization,
     kIvModeSetAfterInitialization,
     kIvModeSetAnyTime,
   };

   IvMode GetIvMode() {
     switch (GetMode()) {
       case kSbCryptographyBlockCipherModeEcb:
         return kIvModeNotUsed;
       case kSbCryptographyBlockCipherModeGcm:
         return kIvModeSetAfterInitialization;
       case kSbCryptographyBlockCipherModeCtr:
         return kIvModeSetAnyTime;
       case kSbCryptographyBlockCipherModeCbc:
       case kSbCryptographyBlockCipherModeCfb:
       case kSbCryptographyBlockCipherModeOfb:
         return kIvModeSetAtInitialization;
       default:
         ADD_FAILURE() << "Unrecognized SbCryptographyBlockCipherMode "
                       << GetMode();
         return kIvModeNotUsed;
     }
   }
 };

 const int kBlockSizeBits = 128;
 const int kBlockSizeBytes = kBlockSizeBits / 8;

 const char kClearText[] =
     "This test text is designed to be a multiple of 128 bits, huzzah-"
     "This test text is designed to be a multiple of 128 bits, huzzah!";
 const char kAdditionalDataString[] = "000000000000000000000000";
 const char kInitializationVector[kBlockSizeBytes + 1] = "0123456789ABCDEF";
 const char kKey[kBlockSizeBytes + 1] = "Rijndael";

 TEST_P(Aes, SunnyDayIdentity) {
   SbCryptographyBlockCipherMode mode = GetMode();

   SbCryptographyTransformer encrypter = SbCryptographyCreateTransformer(
       kSbCryptographyAlgorithmAes, kBlockSizeBits,
       kSbCryptographyDirectionEncode, mode,
       ShouldSetIvAtInitialization() ? kInitializationVector : NULL,
       ShouldSetIvAtInitialization() ? kBlockSizeBytes : 0, kKey,
       kBlockSizeBytes);

   if (!SbCryptographyIsTransformerValid(encrypter)) {
     SB_LOG(WARNING) << "Skipping test, as there is no implementation.";
     // Test over if there's no implementation.
     return;
   }

   if (ShouldSetIvAfterInitialization()) {
     SbCryptographySetInitializationVector(encrypter, kInitializationVector,
                                           kBlockSizeBytes);
   }

   if (ShouldSetAuthenticatedData()) {
     scoped_array<uint8_t> aad;
     int aad_len = 0;
     DecodeHex(&aad, &aad_len, kAdditionalDataString, GetMode(), "aad");
     SbCryptographySetAuthenticatedData(encrypter, aad.get(), aad_len);
   }

   const int kInputSize = static_cast<int>(strlen(kClearText));
   const int kBufferSize = static_cast<int>(sizeof(kClearText));
   char* cipher_text = new char[kBufferSize];
   memset(cipher_text, 0, kBufferSize);
   int count =
       SbCryptographyTransform(encrypter, kClearText, kInputSize, cipher_text);
   EXPECT_EQ(kInputSize, count);
   EXPECT_NE(0, strncmp(kClearText, cipher_text, kBufferSize));

   EXPECT_STREQ(GetExpectedEncryptedValueHex(),
                HexDump(cipher_text, kBufferSize).c_str());

   SbCryptographyTransformer decrypter = SbCryptographyCreateTransformer(
       kSbCryptographyAlgorithmAes, kBlockSizeBits,
       kSbCryptographyDirectionDecode, mode,
       ShouldSetIvAtInitialization() ? kInitializationVector : NULL,
       ShouldSetIvAtInitialization() ? kBlockSizeBytes : 0, kKey,
       kBlockSizeBytes);

   ASSERT_TRUE(SbCryptographyIsTransformerValid(decrypter))
       << "Cryptographic support for a set of parameters must be symmetrical.";

   if (ShouldSetIvAfterInitialization()) {
     SbCryptographySetInitializationVector(decrypter, kInitializationVector,
                                           kBlockSizeBytes);
   }

   if (ShouldSetAuthenticatedData()) {
     scoped_array<uint8_t> aad;
     int aad_len = 0;
     DecodeHex(&aad, &aad_len, kAdditionalDataString, GetMode(), "aad");
     SbCryptographySetAuthenticatedData(decrypter, aad.get(), aad_len);
   }

   char* decrypted_text = new char[kBufferSize];
   memset(decrypted_text, 0, kBufferSize);
   count = SbCryptographyTransform(decrypter, cipher_text, kInputSize,
                                   decrypted_text);

   EXPECT_EQ(kInputSize, count);
   EXPECT_EQ(kInputSize, strlen(decrypted_text));
   EXPECT_STREQ(kClearText, decrypted_text);

   delete[] decrypted_text;
   delete[] cipher_text;
   SbCryptographyDestroyTransformer(decrypter);
   SbCryptographyDestroyTransformer(encrypter);
 }

 INSTANTIATE_TEST_CASE_P(SbCryptographyTransform,
                         Aes,
                         ::testing::Values(kSbCryptographyBlockCipherModeCbc,
                                           kSbCryptographyBlockCipherModeCfb,
                                           kSbCryptographyBlockCipherModeCtr,
                                           kSbCryptographyBlockCipherModeEcb,
                                           kSbCryptographyBlockCipherModeOfb,
                                           kSbCryptographyBlockCipherModeGcm));

 }  // namespace
 }  // namespace nplb
 }  // namespace starboard

 #endif  // SB_API_VERSION < 12
	// Copyright 2017 The Cobalt Authors. All Rights Reserved.
	//
	// 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
	//
	// http://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 "starboard/configuration.h"

	#if SB_API_VERSION < 12

	#include "starboard/cryptography.h"

	#include "starboard/common/log.h"
	#include "starboard/common/scoped_ptr.h"
	#include "starboard/nplb/cryptography_helpers.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace starboard {
	namespace nplb {
	namespace {

	class Aes : public ::testing::TestWithParam<SbCryptographyBlockCipherMode> {
	protected:
	SbCryptographyBlockCipherMode GetMode() { return GetParam(); }

	bool ShouldSetIvAtInitialization() {
	return GetIvMode() == kIvModeSetAtInitialization \|\|
	GetIvMode() == kIvModeSetAnyTime;
	}

	bool ShouldSetIvAfterInitialization() {
	return GetIvMode() == kIvModeSetAfterInitialization \|\|
	GetIvMode() == kIvModeSetAnyTime;
	}

	bool ShouldSetAuthenticatedData() {
	switch (GetMode()) {
	case kSbCryptographyBlockCipherModeGcm:
	return true;
	case kSbCryptographyBlockCipherModeEcb:
	case kSbCryptographyBlockCipherModeCtr:
	case kSbCryptographyBlockCipherModeCbc:
	case kSbCryptographyBlockCipherModeCfb:
	case kSbCryptographyBlockCipherModeOfb:
	return false;
	default:
	ADD_FAILURE() << "Unrecognized SbCryptographyBlockCipherMode "
	<< GetMode();
	return false;
	}
	}

	const char* GetExpectedEncryptedValueHex() {
	switch (GetMode()) {
	case kSbCryptographyBlockCipherModeGcm:
	return "6a7b6e871f851db21a29f6aef579cfb77238d34b2f099404f20bb44c6b2d4d2"
	"0a2788f8ffc0a36eba4cd8e69ee95e973b5eb52d1e218ee991ccc0ee1ba2fa7"
	"d1dc83a5d2e3c317e5637b67c2524bd073ec6fe547edf6044111e2e16c239ed"
	"e845d4b7b235f24fbdb2673dbdd1c5d5c46d7b69059ff4b1566b01bec4f4ca6"
	"a4c500";

	case kSbCryptographyBlockCipherModeEcb:
	return "36aa40499dccc9f25bb3c1abcf4b73cf5993dc6127c534e7491a31a54f09bc4"
	"8e9fc157e380ca1457dedac9147e158be1c8eba2ec679d6bdc54cb2878cd2ab"
	"6736aa40499dccc9f25bb3c1abcf4b73cf5993dc6127c534e7491a31a54f09b"
	"c48e9fc157e380ca1457dedac9147e158beae602e043e0572ed2f71acf5438c"
	"e78200";

	case kSbCryptographyBlockCipherModeCtr:
	return "f32f8a813cea30e0f4c6e2efeab52ab92976cc06fa5f69409c3358ef2f3782d"
	"daff201f56acd9b61fea4c3e4739deab176ad764da16d1248d59337962c7ab0"
	"f2cd4c292ed34ae4125d8fb142344b2d2fc4ff533b80f5e8e311cde700ceaed"
	"a613c6f27f72a0602e6e4891e6b4f5a0a64e795998a40544d88363d124d5294"
	"c91700";

	case kSbCryptographyBlockCipherModeCbc:
	return "eaa929d637cde55115d43257e920ff8d39d1dec8240255a5db79a0cf79501a1"
	"4bc62c4d16fc45dd7fa9d15b3346a74301260dfeb96e22259787344d7e47047"
	"3eb4187eeac16a74afd1c5fdc67fb145cc494667ea4b16dccc83cc1cc1b2c36"
	"2f2a03e90d6c3a9adbf53c4cb8e4987719928ef7c47c4403f0cfe5a0ff77325"
	"6eaa00";

	case kSbCryptographyBlockCipherModeCfb:
	case kSbCryptographyBlockCipherModeOfb:
	ADD_FAILURE() << "Unsupported SbCryptographyBlockCipherMode "
	<< GetMode();
	return "";
	default:
	ADD_FAILURE() << "Unrecognized SbCryptographyBlockCipherMode "
	<< GetMode();
	return "";
	}
	}

	private:
	enum IvMode {
	kIvModeNotUsed,
	kIvModeSetAtInitialization,
	kIvModeSetAfterInitialization,
	kIvModeSetAnyTime,
	};

	IvMode GetIvMode() {
	switch (GetMode()) {
	case kSbCryptographyBlockCipherModeEcb:
	return kIvModeNotUsed;
	case kSbCryptographyBlockCipherModeGcm:
	return kIvModeSetAfterInitialization;
	case kSbCryptographyBlockCipherModeCtr:
	return kIvModeSetAnyTime;
	case kSbCryptographyBlockCipherModeCbc:
	case kSbCryptographyBlockCipherModeCfb:
	case kSbCryptographyBlockCipherModeOfb:
	return kIvModeSetAtInitialization;
	default:
	ADD_FAILURE() << "Unrecognized SbCryptographyBlockCipherMode "
	<< GetMode();
	return kIvModeNotUsed;
	}
	}
	};

	const int kBlockSizeBits = 128;
	const int kBlockSizeBytes = kBlockSizeBits / 8;

	const char kClearText[] =
	"This test text is designed to be a multiple of 128 bits, huzzah-"
	"This test text is designed to be a multiple of 128 bits, huzzah!";
	const char kAdditionalDataString[] = "000000000000000000000000";
	const char kInitializationVector[kBlockSizeBytes + 1] = "0123456789ABCDEF";
	const char kKey[kBlockSizeBytes + 1] = "Rijndael";

	TEST_P(Aes, SunnyDayIdentity) {
	SbCryptographyBlockCipherMode mode = GetMode();

	SbCryptographyTransformer encrypter = SbCryptographyCreateTransformer(
	kSbCryptographyAlgorithmAes, kBlockSizeBits,
	kSbCryptographyDirectionEncode, mode,
	ShouldSetIvAtInitialization() ? kInitializationVector : NULL,
	ShouldSetIvAtInitialization() ? kBlockSizeBytes : 0, kKey,
	kBlockSizeBytes);

	if (!SbCryptographyIsTransformerValid(encrypter)) {
	SB_LOG(WARNING) << "Skipping test, as there is no implementation.";
	// Test over if there's no implementation.
	return;
	}

	if (ShouldSetIvAfterInitialization()) {
	SbCryptographySetInitializationVector(encrypter, kInitializationVector,
	kBlockSizeBytes);
	}

	if (ShouldSetAuthenticatedData()) {
	scoped_array<uint8_t> aad;
	int aad_len = 0;
	DecodeHex(&aad, &aad_len, kAdditionalDataString, GetMode(), "aad");
	SbCryptographySetAuthenticatedData(encrypter, aad.get(), aad_len);
	}

	const int kInputSize = static_cast<int>(strlen(kClearText));
	const int kBufferSize = static_cast<int>(sizeof(kClearText));
	char* cipher_text = new char[kBufferSize];
	memset(cipher_text, 0, kBufferSize);
	int count =
	SbCryptographyTransform(encrypter, kClearText, kInputSize, cipher_text);
	EXPECT_EQ(kInputSize, count);
	EXPECT_NE(0, strncmp(kClearText, cipher_text, kBufferSize));

	EXPECT_STREQ(GetExpectedEncryptedValueHex(),
	HexDump(cipher_text, kBufferSize).c_str());

	SbCryptographyTransformer decrypter = SbCryptographyCreateTransformer(
	kSbCryptographyAlgorithmAes, kBlockSizeBits,
	kSbCryptographyDirectionDecode, mode,
	ShouldSetIvAtInitialization() ? kInitializationVector : NULL,
	ShouldSetIvAtInitialization() ? kBlockSizeBytes : 0, kKey,
	kBlockSizeBytes);

	ASSERT_TRUE(SbCryptographyIsTransformerValid(decrypter))
	<< "Cryptographic support for a set of parameters must be symmetrical.";

	if (ShouldSetIvAfterInitialization()) {
	SbCryptographySetInitializationVector(decrypter, kInitializationVector,
	kBlockSizeBytes);
	}

	if (ShouldSetAuthenticatedData()) {
	scoped_array<uint8_t> aad;
	int aad_len = 0;
	DecodeHex(&aad, &aad_len, kAdditionalDataString, GetMode(), "aad");
	SbCryptographySetAuthenticatedData(decrypter, aad.get(), aad_len);
	}

	char* decrypted_text = new char[kBufferSize];
	memset(decrypted_text, 0, kBufferSize);
	count = SbCryptographyTransform(decrypter, cipher_text, kInputSize,
	decrypted_text);

	EXPECT_EQ(kInputSize, count);
	EXPECT_EQ(kInputSize, strlen(decrypted_text));
	EXPECT_STREQ(kClearText, decrypted_text);

	delete[] decrypted_text;
	delete[] cipher_text;
	SbCryptographyDestroyTransformer(decrypter);
	SbCryptographyDestroyTransformer(encrypter);
	}

	INSTANTIATE_TEST_CASE_P(SbCryptographyTransform,
	Aes,
	::testing::Values(kSbCryptographyBlockCipherModeCbc,
	kSbCryptographyBlockCipherModeCfb,
	kSbCryptographyBlockCipherModeCtr,
	kSbCryptographyBlockCipherModeEcb,
	kSbCryptographyBlockCipherModeOfb,
	kSbCryptographyBlockCipherModeGcm));

	} // namespace
	} // namespace nplb
	} // namespace starboard

	#endif // SB_API_VERSION < 12