// Copyright 2014 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 "base/base64.h" #include "base/strings/string_number_conversions.h" #include "base/strings/stringprintf.h" #include "media/base/http_fetcher.h" #include "media/base/request_signer.h" #include "media/base/status_test_util.h" #include "media/base/widevine_key_source.h" namespace { const char kServerUrl[] = "http://www.foo.com/getcontentkey"; const char kContentId[] = "ContentFoo"; const char kPolicy[] = "PolicyFoo"; const char kSignerName[] = "SignerFoo"; const char kMockSignature[] = "MockSignature"; // The license service may return an error indicating a transient error has // just happened in the server, or other types of errors. // WidevineKeySource will perform a number of retries on transient // errors; // WidevineKeySource does not know about other errors and retries are // not performed. const char kLicenseStatusTransientError[] = "INTERNAL_ERROR"; const char kLicenseStatusUnknownError[] = "UNKNOWN_ERROR"; const char kExpectedRequestMessageFormat[] = "{\"content_id\":\"%s\",\"drm_types\":[\"WIDEVINE\"],\"policy\":\"%s\"," "\"tracks\":[{\"type\":\"SD\"},{\"type\":\"HD\"},{\"type\":\"AUDIO\"}]}"; const char kExpectedSignedMessageFormat[] = "{\"request\":\"%s\",\"signature\":\"%s\",\"signer\":\"%s\"}"; const char kTrackFormat[] = "{\"type\":\"%s\",\"key_id\":\"%s\",\"key\":" "\"%s\",\"pssh\":[{\"drm_type\":\"WIDEVINE\",\"data\":\"%s\"}]}"; const char kClassicTrackFormat[] = "{\"type\":\"%s\",\"key\":\"%s\"}"; const char kLicenseResponseFormat[] = "{\"status\":\"%s\",\"tracks\":[%s]}"; const char kHttpResponseFormat[] = "{\"response\":\"%s\"}"; const char kRequestPsshData[] = "PSSH data"; const uint32_t kClassicAssetId = 1234; std::string Base64Encode(const std::string& input) { std::string output; base::Base64Encode(input, &output); return output; } std::string ToString(const std::vector v) { return std::string(v.begin(), v.end()); } std::string GetMockKeyId(const std::string& track_type) { return "MockKeyId" + track_type; } std::string GetMockKey(const std::string& track_type) { return "MockKey" + track_type; } std::string GetMockPsshData(const std::string& track_type) { return "MockPsshData" + track_type; } std::string GenerateMockLicenseResponse() { const std::string kTrackTypes[] = {"SD", "HD", "AUDIO"}; std::string tracks; for (size_t i = 0; i < 3; ++i) { if (!tracks.empty()) tracks += ","; tracks += base::StringPrintf( kTrackFormat, kTrackTypes[i].c_str(), Base64Encode(GetMockKeyId(kTrackTypes[i])).c_str(), Base64Encode(GetMockKey(kTrackTypes[i])).c_str(), Base64Encode(GetMockPsshData(kTrackTypes[i])).c_str()); } return base::StringPrintf(kLicenseResponseFormat, "OK", tracks.c_str()); } std::string GenerateMockClassicLicenseResponse() { const std::string kTrackTypes[] = {"SD", "HD", "AUDIO"}; std::string tracks; for (size_t i = 0; i < 3; ++i) { if (!tracks.empty()) tracks += ","; tracks += base::StringPrintf( kClassicTrackFormat, kTrackTypes[i].c_str(), Base64Encode(GetMockKey(kTrackTypes[i])).c_str()); } return base::StringPrintf(kLicenseResponseFormat, "OK", tracks.c_str()); } std::string GetPsshDataFromPsshBox(const std::string& pssh_box) { const size_t kPsshDataOffset = 32u; DCHECK_LT(kPsshDataOffset, pssh_box.size()); return pssh_box.substr(kPsshDataOffset); } } // namespace using ::testing::_; using ::testing::DoAll; using ::testing::InSequence; using ::testing::Return; using ::testing::SetArgPointee; namespace edash_packager { namespace media { class MockRequestSigner : public RequestSigner { public: explicit MockRequestSigner(const std::string& signer_name) : RequestSigner(signer_name) {} virtual ~MockRequestSigner() {} MOCK_METHOD2(GenerateSignature, bool(const std::string& message, std::string* signature)); private: DISALLOW_COPY_AND_ASSIGN(MockRequestSigner); }; class MockHttpFetcher : public HttpFetcher { public: MockHttpFetcher() : HttpFetcher() {} virtual ~MockHttpFetcher() {} MOCK_METHOD2(Get, Status(const std::string& url, std::string* response)); MOCK_METHOD3(Post, Status(const std::string& url, const std::string& data, std::string* response)); private: DISALLOW_COPY_AND_ASSIGN(MockHttpFetcher); }; class WidevineKeySourceTest : public ::testing::Test { public: WidevineKeySourceTest() : mock_request_signer_(new MockRequestSigner(kSignerName)), mock_http_fetcher_(new MockHttpFetcher()) {} virtual void SetUp() OVERRIDE { content_id_.assign( reinterpret_cast(kContentId), reinterpret_cast(kContentId) + strlen(kContentId)); } protected: void CreateWidevineKeySource() { widevine_key_source_.reset(new WidevineKeySource( kServerUrl, mock_request_signer_.PassAs())); widevine_key_source_->set_http_fetcher( mock_http_fetcher_.PassAs()); } void VerifyKeys(bool classic) { EncryptionKey encryption_key; const std::string kTrackTypes[] = {"SD", "HD", "AUDIO"}; for (size_t i = 0; i < arraysize(kTrackTypes); ++i) { ASSERT_OK(widevine_key_source_->GetKey( KeySource::GetTrackTypeFromString(kTrackTypes[i]), &encryption_key)); EXPECT_EQ(GetMockKey(kTrackTypes[i]), ToString(encryption_key.key)); if (!classic) { EXPECT_EQ(GetMockKeyId(kTrackTypes[i]), ToString(encryption_key.key_id)); EXPECT_EQ(GetMockPsshData(kTrackTypes[i]), GetPsshDataFromPsshBox(ToString(encryption_key.pssh))); } } } scoped_ptr mock_request_signer_; scoped_ptr mock_http_fetcher_; scoped_ptr widevine_key_source_; std::vector content_id_; private: DISALLOW_COPY_AND_ASSIGN(WidevineKeySourceTest); }; TEST_F(WidevineKeySourceTest, GetTrackTypeFromString) { EXPECT_EQ(KeySource::TRACK_TYPE_SD, KeySource::GetTrackTypeFromString("SD")); EXPECT_EQ(KeySource::TRACK_TYPE_HD, KeySource::GetTrackTypeFromString("HD")); EXPECT_EQ(KeySource::TRACK_TYPE_AUDIO, KeySource::GetTrackTypeFromString("AUDIO")); EXPECT_EQ(KeySource::TRACK_TYPE_UNKNOWN, KeySource::GetTrackTypeFromString("FOO")); } TEST_F(WidevineKeySourceTest, GenerateSignatureFailure) { EXPECT_CALL(*mock_request_signer_, GenerateSignature(_, _)) .WillOnce(Return(false)); CreateWidevineKeySource(); ASSERT_EQ(Status(error::INTERNAL_ERROR, "Signature generation failed."), widevine_key_source_->FetchKeys(content_id_, kPolicy)); } // Check whether expected request message and post data was generated and // verify the correct behavior on http failure. TEST_F(WidevineKeySourceTest, HttpPostFailure) { std::string expected_message = base::StringPrintf( kExpectedRequestMessageFormat, Base64Encode(kContentId).c_str(), kPolicy); EXPECT_CALL(*mock_request_signer_, GenerateSignature(expected_message, _)) .WillOnce(DoAll(SetArgPointee<1>(kMockSignature), Return(true))); std::string expected_post_data = base::StringPrintf(kExpectedSignedMessageFormat, Base64Encode(expected_message).c_str(), Base64Encode(kMockSignature).c_str(), kSignerName); const Status kMockStatus = Status::UNKNOWN; EXPECT_CALL(*mock_http_fetcher_, Post(kServerUrl, expected_post_data, _)) .WillOnce(Return(kMockStatus)); CreateWidevineKeySource(); ASSERT_EQ(kMockStatus, widevine_key_source_->FetchKeys(content_id_, kPolicy)); } TEST_F(WidevineKeySourceTest, LicenseStatusCencOK) { EXPECT_CALL(*mock_request_signer_, GenerateSignature(_, _)) .WillOnce(Return(true)); std::string mock_response = base::StringPrintf( kHttpResponseFormat, Base64Encode(GenerateMockLicenseResponse()).c_str()); EXPECT_CALL(*mock_http_fetcher_, Post(_, _, _)) .WillOnce(DoAll(SetArgPointee<2>(mock_response), Return(Status::OK))); CreateWidevineKeySource(); ASSERT_OK(widevine_key_source_->FetchKeys(content_id_, kPolicy)); VerifyKeys(false); } TEST_F(WidevineKeySourceTest, LicenseStatusCencNotOK) { EXPECT_CALL(*mock_request_signer_, GenerateSignature(_, _)) .WillOnce(Return(true)); std::string mock_response = base::StringPrintf( kHttpResponseFormat, Base64Encode( GenerateMockClassicLicenseResponse()).c_str()); EXPECT_CALL(*mock_http_fetcher_, Post(_, _, _)) .WillOnce(DoAll(SetArgPointee<2>(mock_response), Return(Status::OK))); CreateWidevineKeySource(); ASSERT_EQ(error::SERVER_ERROR, widevine_key_source_->FetchKeys(content_id_, kPolicy) .error_code()); } TEST_F(WidevineKeySourceTest, LicenseStatusCencWithPsshDataOK) { EXPECT_CALL(*mock_request_signer_, GenerateSignature(_, _)) .WillOnce(Return(true)); std::string mock_response = base::StringPrintf( kHttpResponseFormat, Base64Encode(GenerateMockLicenseResponse()).c_str()); EXPECT_CALL(*mock_http_fetcher_, Post(_, _, _)) .WillOnce(DoAll(SetArgPointee<2>(mock_response), Return(Status::OK))); CreateWidevineKeySource(); std::vector pssh_data( reinterpret_cast(kRequestPsshData), reinterpret_cast(kRequestPsshData) + strlen(kContentId)); ASSERT_OK(widevine_key_source_->FetchKeys(pssh_data)); VerifyKeys(false); } TEST_F(WidevineKeySourceTest, LicenseStatusClassicOK) { EXPECT_CALL(*mock_request_signer_, GenerateSignature(_, _)) .WillOnce(Return(true)); std::string mock_response = base::StringPrintf( kHttpResponseFormat, Base64Encode( GenerateMockClassicLicenseResponse()).c_str()); EXPECT_CALL(*mock_http_fetcher_, Post(_, _, _)) .WillOnce(DoAll(SetArgPointee<2>(mock_response), Return(Status::OK))); CreateWidevineKeySource(); ASSERT_OK(widevine_key_source_->FetchKeys(kClassicAssetId)); VerifyKeys(true); } TEST_F(WidevineKeySourceTest, RetryOnHttpTimeout) { EXPECT_CALL(*mock_request_signer_, GenerateSignature(_, _)) .WillOnce(Return(true)); std::string mock_response = base::StringPrintf( kHttpResponseFormat, Base64Encode(GenerateMockLicenseResponse()).c_str()); // Retry is expected on HTTP timeout. EXPECT_CALL(*mock_http_fetcher_, Post(_, _, _)) .WillOnce(Return(Status(error::TIME_OUT, ""))) .WillOnce(DoAll(SetArgPointee<2>(mock_response), Return(Status::OK))); CreateWidevineKeySource(); ASSERT_OK(widevine_key_source_->FetchKeys(content_id_, kPolicy)); VerifyKeys(false); } TEST_F(WidevineKeySourceTest, RetryOnTransientError) { EXPECT_CALL(*mock_request_signer_, GenerateSignature(_, _)) .WillOnce(Return(true)); std::string mock_license_status = base::StringPrintf( kLicenseResponseFormat, kLicenseStatusTransientError, ""); std::string mock_response = base::StringPrintf( kHttpResponseFormat, Base64Encode(mock_license_status).c_str()); std::string expected_retried_response = base::StringPrintf( kHttpResponseFormat, Base64Encode(GenerateMockLicenseResponse()).c_str()); // Retry is expected on transient error. EXPECT_CALL(*mock_http_fetcher_, Post(_, _, _)) .WillOnce(DoAll(SetArgPointee<2>(mock_response), Return(Status::OK))) .WillOnce(DoAll(SetArgPointee<2>(expected_retried_response), Return(Status::OK))); CreateWidevineKeySource(); ASSERT_OK(widevine_key_source_->FetchKeys(content_id_, kPolicy)); VerifyKeys(false); } TEST_F(WidevineKeySourceTest, NoRetryOnUnknownError) { EXPECT_CALL(*mock_request_signer_, GenerateSignature(_, _)) .WillOnce(Return(true)); std::string mock_license_status = base::StringPrintf( kLicenseResponseFormat, kLicenseStatusUnknownError, ""); std::string mock_response = base::StringPrintf( kHttpResponseFormat, Base64Encode(mock_license_status).c_str()); EXPECT_CALL(*mock_http_fetcher_, Post(_, _, _)) .WillOnce(DoAll(SetArgPointee<2>(mock_response), Return(Status::OK))); CreateWidevineKeySource(); ASSERT_EQ(error::SERVER_ERROR, widevine_key_source_->FetchKeys(content_id_, kPolicy).error_code()); } namespace { const char kCryptoPeriodRequestMessageFormat[] = "{\"content_id\":\"%s\",\"crypto_period_count\":%u,\"drm_types\":[" "\"WIDEVINE\"],\"first_crypto_period_index\":%u,\"policy\":\"%s\"," "\"tracks\":[{\"type\":\"SD\"},{\"type\":\"HD\"},{\"type\":\"AUDIO\"}]}"; const char kCryptoPeriodTrackFormat[] = "{\"type\":\"%s\",\"key_id\":\"\",\"key\":" "\"%s\",\"pssh\":[{\"drm_type\":\"WIDEVINE\",\"data\":\"\"}], " "\"crypto_period_index\":%u}"; std::string GetMockKey(const std::string& track_type, uint32_t index) { return "MockKey" + track_type + "@" + base::UintToString(index); } std::string GenerateMockKeyRotationLicenseResponse( uint32_t initial_crypto_period_index, uint32_t crypto_period_count) { const std::string kTrackTypes[] = {"SD", "HD", "AUDIO"}; std::string tracks; for (uint32_t index = initial_crypto_period_index; index < initial_crypto_period_index + crypto_period_count; ++index) { for (size_t i = 0; i < 3; ++i) { if (!tracks.empty()) tracks += ","; tracks += base::StringPrintf( kCryptoPeriodTrackFormat, kTrackTypes[i].c_str(), Base64Encode(GetMockKey(kTrackTypes[i], index)).c_str(), index); } } return base::StringPrintf(kLicenseResponseFormat, "OK", tracks.c_str()); } } // namespace TEST_F(WidevineKeySourceTest, KeyRotationTest) { const uint32_t kFirstCryptoPeriodIndex = 8; const uint32_t kCryptoPeriodCount = 10; // Array of indexes to be checked. const uint32_t kCryptoPeriodIndexes[] = { kFirstCryptoPeriodIndex, 17, 37, 38, 36, 39}; // Derived from kCryptoPeriodIndexes: ceiling((39 - 8 ) / 10). const uint32_t kCryptoIterations = 4; // Generate expectations in sequence. InSequence dummy; // Expecting a non-key rotation enabled request on FetchKeys(). EXPECT_CALL(*mock_request_signer_, GenerateSignature(_, _)) .WillOnce(Return(true)); std::string mock_response = base::StringPrintf( kHttpResponseFormat, Base64Encode(GenerateMockLicenseResponse()).c_str()); EXPECT_CALL(*mock_http_fetcher_, Post(_, _, _)) .WillOnce(DoAll(SetArgPointee<2>(mock_response), Return(Status::OK))); for (uint32_t i = 0; i < kCryptoIterations; ++i) { uint32_t first_crypto_period_index = kFirstCryptoPeriodIndex - 1 + i * kCryptoPeriodCount; std::string expected_message = base::StringPrintf(kCryptoPeriodRequestMessageFormat, Base64Encode(kContentId).c_str(), kCryptoPeriodCount, first_crypto_period_index, kPolicy); EXPECT_CALL(*mock_request_signer_, GenerateSignature(expected_message, _)) .WillOnce(DoAll(SetArgPointee<1>(kMockSignature), Return(true))); std::string mock_response = base::StringPrintf( kHttpResponseFormat, Base64Encode(GenerateMockKeyRotationLicenseResponse( first_crypto_period_index, kCryptoPeriodCount)) .c_str()); EXPECT_CALL(*mock_http_fetcher_, Post(_, _, _)) .WillOnce(DoAll(SetArgPointee<2>(mock_response), Return(Status::OK))); } CreateWidevineKeySource(); ASSERT_OK(widevine_key_source_->FetchKeys(content_id_, kPolicy)); EncryptionKey encryption_key; for (size_t i = 0; i < arraysize(kCryptoPeriodIndexes); ++i) { const std::string kTrackTypes[] = {"SD", "HD", "AUDIO"}; for (size_t j = 0; j < 3; ++j) { ASSERT_OK(widevine_key_source_->GetCryptoPeriodKey( kCryptoPeriodIndexes[i], KeySource::GetTrackTypeFromString(kTrackTypes[j]), &encryption_key)); EXPECT_EQ(GetMockKey(kTrackTypes[j], kCryptoPeriodIndexes[i]), ToString(encryption_key.key)); } } // The old crypto period indexes should have been garbage collected. Status status = widevine_key_source_->GetCryptoPeriodKey( kFirstCryptoPeriodIndex, KeySource::TRACK_TYPE_SD, &encryption_key); EXPECT_EQ(error::INVALID_ARGUMENT, status.error_code()); } } // namespace media } // namespace edash_packager