| // |
| // Copyright (C) 2014 The Android Open Source Project |
| // |
| // 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 <base/stl_util.h> |
| #include <base/strings/string_number_conversions.h> |
| #include <crypto/sha2.h> |
| #include <gmock/gmock.h> |
| #include <gtest/gtest.h> |
| #include <openssl/aes.h> |
| |
| #include "trunks/error_codes.h" |
| #include "trunks/hmac_authorization_delegate.h" |
| #include "trunks/mock_authorization_delegate.h" |
| #include "trunks/mock_blob_parser.h" |
| #include "trunks/mock_command_transceiver.h" |
| #include "trunks/mock_hmac_session.h" |
| #include "trunks/mock_policy_session.h" |
| #include "trunks/mock_tpm.h" |
| #include "trunks/mock_tpm_state.h" |
| #include "trunks/tpm_constants.h" |
| #include "trunks/tpm_utility_impl.h" |
| #include "trunks/trunks_factory_for_test.h" |
| |
| using testing::_; |
| using testing::DoAll; |
| using testing::NiceMock; |
| using testing::Return; |
| using testing::SaveArg; |
| using testing::SetArgPointee; |
| |
| namespace { |
| |
| // Cr50 Vendor ID ("CROS"). |
| const uint32_t kVendorIdCr50 = 0x43524f53; |
| |
| } // namespace |
| |
| namespace trunks { |
| |
| // A test fixture for TpmUtility tests. |
| class TpmUtilityTest : public testing::Test { |
| public: |
| TpmUtilityTest() : mock_tpm_(&mock_transceiver_), utility_(factory_) {} |
| ~TpmUtilityTest() override {} |
| void SetUp() override { |
| factory_.set_blob_parser(&mock_blob_parser_); |
| factory_.set_tpm_state(&mock_tpm_state_); |
| factory_.set_tpm(&mock_tpm_); |
| factory_.set_hmac_session(&mock_hmac_session_); |
| factory_.set_trial_session(&mock_trial_session_); |
| } |
| |
| TPM_RC ComputeKeyName(const TPMT_PUBLIC& public_area, |
| std::string* object_name) { |
| return utility_.ComputeKeyName(public_area, object_name); |
| } |
| |
| void SetNVRAMMap(uint32_t index, const TPMS_NV_PUBLIC& public_area) { |
| utility_.nvram_public_area_map_[index] = public_area; |
| } |
| |
| TPM_RC GetNVRAMMap(uint32_t index, TPMS_NV_PUBLIC* public_area) { |
| auto it = utility_.nvram_public_area_map_.find(index); |
| if (it == utility_.nvram_public_area_map_.end()) { |
| return TPM_RC_FAILURE; |
| } |
| *public_area = it->second; |
| return TPM_RC_SUCCESS; |
| } |
| |
| TPM_RC SetKnownOwnerPassword(const std::string& owner_password) { |
| return utility_.SetKnownOwnerPassword(owner_password); |
| } |
| |
| TPM_RC CreateStorageRootKeys(const std::string& owner_password) { |
| return utility_.CreateStorageRootKeys(owner_password); |
| } |
| |
| TPM_RC CreateSaltingKey(const std::string& owner_password) { |
| return utility_.CreateSaltingKey(owner_password); |
| } |
| |
| void SetExistingKeyHandleExpectation(TPM_HANDLE handle) { |
| TPMS_CAPABILITY_DATA capability_data = {}; |
| TPML_HANDLE& handles = capability_data.data.handles; |
| handles.count = 1; |
| handles.handle[0] = handle; |
| EXPECT_CALL(mock_tpm_, |
| GetCapabilitySync(TPM_CAP_HANDLES, handle, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<4>(capability_data), Return(TPM_RC_SUCCESS))); |
| } |
| |
| void PopulatePCRSelection(bool has_sha1_pcrs, |
| bool make_sha1_bank_empty, |
| bool has_sha256_pcrs, |
| TPML_PCR_SELECTION* pcrs) { |
| memset(pcrs, 0, sizeof(TPML_PCR_SELECTION)); |
| // By convention fill SHA-256 first. This is a bit brittle because order is |
| // not important but it simplifies comparison to memcmp. |
| if (has_sha256_pcrs) { |
| pcrs->pcr_selections[pcrs->count].hash = TPM_ALG_SHA256; |
| pcrs->pcr_selections[pcrs->count].sizeof_select = PCR_SELECT_MIN; |
| for (int i = 0; i < PCR_SELECT_MIN; ++i) { |
| pcrs->pcr_selections[pcrs->count].pcr_select[i] = 0xff; |
| } |
| ++pcrs->count; |
| } |
| if (has_sha1_pcrs) { |
| pcrs->pcr_selections[pcrs->count].hash = TPM_ALG_SHA1; |
| if (make_sha1_bank_empty) { |
| pcrs->pcr_selections[pcrs->count].sizeof_select = PCR_SELECT_MAX; |
| } else { |
| pcrs->pcr_selections[pcrs->count].sizeof_select = PCR_SELECT_MIN; |
| for (int i = 0; i < PCR_SELECT_MIN; ++i) { |
| pcrs->pcr_selections[pcrs->count].pcr_select[i] = 0xff; |
| } |
| } |
| ++pcrs->count; |
| } |
| } |
| |
| void SetExistingPCRSExpectation(bool has_sha1_pcrs, bool has_sha256_pcrs) { |
| TPMS_CAPABILITY_DATA capability_data = {}; |
| TPML_PCR_SELECTION& pcrs = capability_data.data.assigned_pcr; |
| PopulatePCRSelection(has_sha1_pcrs, false, has_sha256_pcrs, &pcrs); |
| EXPECT_CALL(mock_tpm_, GetCapabilitySync(TPM_CAP_PCRS, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<4>(capability_data), Return(TPM_RC_SUCCESS))); |
| } |
| |
| void SetCr50(bool is_cr50) { |
| EXPECT_CALL(mock_tpm_state_, Initialize()) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| uint32_t vendor_id = is_cr50 ? kVendorIdCr50 : 1; |
| EXPECT_CALL(mock_tpm_state_, GetTpmProperty(TPM_PT_MANUFACTURER, _)) |
| .WillOnce(DoAll(SetArgPointee<1>(vendor_id), Return(true))); |
| } |
| |
| protected: |
| TrunksFactoryForTest factory_; |
| NiceMock<MockCommandTransceiver> mock_transceiver_; |
| NiceMock<MockBlobParser> mock_blob_parser_; |
| NiceMock<MockTpmState> mock_tpm_state_; |
| NiceMock<MockTpm> mock_tpm_; |
| NiceMock<MockAuthorizationDelegate> mock_authorization_delegate_; |
| NiceMock<MockHmacSession> mock_hmac_session_; |
| NiceMock<MockPolicySession> mock_trial_session_; |
| TpmUtilityImpl utility_; |
| }; |
| |
| TEST_F(TpmUtilityTest, StartupSuccess) { |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.Startup()); |
| } |
| |
| TEST_F(TpmUtilityTest, StartupAlreadyStarted) { |
| EXPECT_CALL(mock_tpm_, StartupSync(_, _)) |
| .WillRepeatedly(Return(TPM_RC_INITIALIZE)); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.Startup()); |
| } |
| |
| TEST_F(TpmUtilityTest, StartupFailure) { |
| EXPECT_CALL(mock_tpm_, StartupSync(_, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.Startup()); |
| } |
| |
| TEST_F(TpmUtilityTest, StartupSelfTestFailure) { |
| EXPECT_CALL(mock_tpm_, SelfTestSync(_, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.Startup()); |
| } |
| |
| TEST_F(TpmUtilityTest, ClearSuccess) { |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.Clear()); |
| } |
| |
| TEST_F(TpmUtilityTest, ClearAfterBadInit) { |
| EXPECT_CALL(mock_tpm_, ClearSync(_, _, _)) |
| .WillOnce(Return(TPM_RC_AUTH_MISSING)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.Clear()); |
| } |
| |
| TEST_F(TpmUtilityTest, ClearFail) { |
| EXPECT_CALL(mock_tpm_, ClearSync(_, _, _)).WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.Clear()); |
| } |
| |
| TEST_F(TpmUtilityTest, ShutdownTest) { |
| EXPECT_CALL(mock_tpm_, ShutdownSync(TPM_SU_CLEAR, _)); |
| utility_.Shutdown(); |
| } |
| |
| TEST_F(TpmUtilityTest, InitializeTpmAlreadyInit) { |
| SetExistingPCRSExpectation(false, true); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.InitializeTpm()); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.InitializeTpm()); |
| } |
| |
| TEST_F(TpmUtilityTest, InitializeTpmSuccess) { |
| SetExistingPCRSExpectation(false, true); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.InitializeTpm()); |
| } |
| |
| TEST_F(TpmUtilityTest, InitializeTpmBadAuth) { |
| SetExistingPCRSExpectation(false, true); |
| // Reject attempts to set platform auth. |
| EXPECT_CALL(mock_tpm_, HierarchyChangeAuthSync(TPM_RH_PLATFORM, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.InitializeTpm()); |
| } |
| |
| TEST_F(TpmUtilityTest, InitializeTpmDisablePHFails) { |
| SetExistingPCRSExpectation(false, true); |
| // Reject attempts to disable the platform hierarchy. |
| EXPECT_CALL(mock_tpm_, HierarchyControlSync(_, _, TPM_RH_PLATFORM, _, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.InitializeTpm()); |
| } |
| |
| TEST_F(TpmUtilityTest, AllocatePCRFromNone) { |
| SetExistingPCRSExpectation(false, false); |
| TPML_PCR_SELECTION new_pcr_allocation; |
| EXPECT_CALL(mock_tpm_, PCR_AllocateSync(TPM_RH_PLATFORM, _, _, _, _, _, _, _)) |
| .WillOnce(DoAll(SaveArg<2>(&new_pcr_allocation), SetArgPointee<3>(YES), |
| Return(TPM_RC_SUCCESS))); |
| ASSERT_EQ(TPM_RC_SUCCESS, utility_.AllocatePCR("")); |
| ASSERT_EQ(1u, new_pcr_allocation.count); |
| TPML_PCR_SELECTION expected_pcr_allocation; |
| PopulatePCRSelection(false, false, true, &expected_pcr_allocation); |
| ASSERT_EQ(0, memcmp(&expected_pcr_allocation, &new_pcr_allocation, |
| sizeof(TPML_PCR_SELECTION))); |
| } |
| |
| TEST_F(TpmUtilityTest, AllocatePCRFromSHA1Only) { |
| SetExistingPCRSExpectation(true, false); |
| TPML_PCR_SELECTION new_pcr_allocation; |
| EXPECT_CALL(mock_tpm_, PCR_AllocateSync(TPM_RH_PLATFORM, _, _, _, _, _, _, _)) |
| .WillOnce(DoAll(SaveArg<2>(&new_pcr_allocation), SetArgPointee<3>(YES), |
| Return(TPM_RC_SUCCESS))); |
| ASSERT_EQ(TPM_RC_SUCCESS, utility_.AllocatePCR("")); |
| ASSERT_EQ(2u, new_pcr_allocation.count); |
| TPML_PCR_SELECTION expected_pcr_allocation; |
| PopulatePCRSelection(true, true, true, &expected_pcr_allocation); |
| ASSERT_EQ(0, memcmp(&expected_pcr_allocation, &new_pcr_allocation, |
| sizeof(TPML_PCR_SELECTION))); |
| } |
| |
| TEST_F(TpmUtilityTest, AllocatePCRFromSHA1AndSHA256) { |
| SetExistingPCRSExpectation(true, true); |
| TPML_PCR_SELECTION new_pcr_allocation; |
| EXPECT_CALL(mock_tpm_, PCR_AllocateSync(TPM_RH_PLATFORM, _, _, _, _, _, _, _)) |
| .WillOnce(DoAll(SaveArg<2>(&new_pcr_allocation), SetArgPointee<3>(YES), |
| Return(TPM_RC_SUCCESS))); |
| ASSERT_EQ(TPM_RC_SUCCESS, utility_.AllocatePCR("")); |
| ASSERT_EQ(1u, new_pcr_allocation.count); |
| TPML_PCR_SELECTION expected_pcr_allocation; |
| PopulatePCRSelection(true, true, false, &expected_pcr_allocation); |
| ASSERT_EQ(0, memcmp(&expected_pcr_allocation, &new_pcr_allocation, |
| sizeof(TPML_PCR_SELECTION))); |
| } |
| |
| TEST_F(TpmUtilityTest, AllocatePCRFromSHA256Only) { |
| SetExistingPCRSExpectation(false, true); |
| EXPECT_CALL(mock_tpm_, PCR_AllocateSync(TPM_RH_PLATFORM, _, _, _, _, _, _, _)) |
| .Times(0); |
| ASSERT_EQ(TPM_RC_SUCCESS, utility_.AllocatePCR("")); |
| } |
| |
| TEST_F(TpmUtilityTest, AllocatePCRCommandFailure) { |
| SetExistingPCRSExpectation(false, false); |
| EXPECT_CALL(mock_tpm_, PCR_AllocateSync(_, _, _, _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.AllocatePCR("")); |
| } |
| |
| TEST_F(TpmUtilityTest, AllocatePCRTpmFailure) { |
| SetExistingPCRSExpectation(false, false); |
| EXPECT_CALL(mock_tpm_, PCR_AllocateSync(_, _, _, _, _, _, _, _)) |
| .WillOnce(DoAll(SetArgPointee<3>(NO), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.AllocatePCR("")); |
| } |
| |
| TEST_F(TpmUtilityTest, PrepareForOwnershipSuccess) { |
| EXPECT_CALL(mock_tpm_state_, IsOwnerPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(mock_tpm_, HierarchyChangeAuthSync(TPM_RH_OWNER, _, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.PrepareForOwnership()); |
| } |
| |
| TEST_F(TpmUtilityTest, PrepareForOwnershipFailure) { |
| EXPECT_CALL(mock_tpm_state_, IsOwnerPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(mock_tpm_, HierarchyChangeAuthSync(TPM_RH_OWNER, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.PrepareForOwnership()); |
| } |
| |
| TEST_F(TpmUtilityTest, PrepareForOwnershipAlreadyOwned) { |
| EXPECT_CALL(mock_tpm_state_, IsOwnerPasswordSet()) |
| .WillOnce(Return(true)); |
| EXPECT_CALL(mock_tpm_, HierarchyChangeAuthSync(_, _, _, _)) |
| .Times(0); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.PrepareForOwnership()); |
| } |
| |
| TEST_F(TpmUtilityTest, TakeOwnershipSuccess) { |
| EXPECT_CALL(mock_tpm_state_, IsOwnerPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(mock_tpm_state_, IsEndorsementPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(mock_tpm_state_, IsLockoutPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.TakeOwnership("owner", "endorsement", "lockout")); |
| } |
| |
| TEST_F(TpmUtilityTest, TakeOwnershipOwnershipDone) { |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.TakeOwnership("owner", "endorsement", "lockout")); |
| } |
| |
| TEST_F(TpmUtilityTest, TakeOwnershipBadSession) { |
| EXPECT_CALL(mock_hmac_session_, StartUnboundSession(true)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.TakeOwnership("owner", "endorsement", "lockout")); |
| } |
| |
| TEST_F(TpmUtilityTest, TakeOwnershipFailure) { |
| EXPECT_CALL(mock_tpm_, HierarchyChangeAuthSync(TPM_RH_OWNER, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.TakeOwnership("owner", "endorsement", "lockout")); |
| } |
| |
| TEST_F(TpmUtilityTest, ChangeOwnerPasswordEndorsementDone) { |
| EXPECT_CALL(mock_tpm_state_, IsOwnerPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(mock_tpm_state_, IsLockoutPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.TakeOwnership("owner", "endorsement", "lockout")); |
| } |
| |
| TEST_F(TpmUtilityTest, ChangeOwnerPasswordLockoutDone) { |
| EXPECT_CALL(mock_tpm_state_, IsOwnerPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(mock_tpm_state_, IsEndorsementPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.TakeOwnership("owner", "endorsement", "lockout")); |
| } |
| |
| TEST_F(TpmUtilityTest, ChangeOwnerPasswordEndorsementLockoutDone) { |
| EXPECT_CALL(mock_tpm_state_, IsOwnerPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.TakeOwnership("owner", "endorsement", "lockout")); |
| } |
| |
| TEST_F(TpmUtilityTest, ChangeOwnerPasswordEndorsementFail) { |
| EXPECT_CALL(mock_tpm_state_, IsOwnerPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(mock_tpm_state_, IsEndorsementPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(mock_tpm_, HierarchyChangeAuthSync(_, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_SUCCESS)); |
| EXPECT_CALL(mock_tpm_, HierarchyChangeAuthSync(TPM_RH_ENDORSEMENT, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.TakeOwnership("owner", "endorsement", "lockout")); |
| } |
| |
| TEST_F(TpmUtilityTest, ChangeOwnerPasswordLockoutFailure) { |
| EXPECT_CALL(mock_tpm_state_, IsOwnerPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(mock_tpm_state_, IsEndorsementPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(mock_tpm_state_, IsLockoutPasswordSet()) |
| .WillRepeatedly(Return(false)); |
| EXPECT_CALL(mock_tpm_, HierarchyChangeAuthSync(_, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_SUCCESS)); |
| EXPECT_CALL(mock_tpm_, HierarchyChangeAuthSync(TPM_RH_LOCKOUT, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.TakeOwnership("owner", "endorsement", "lockout")); |
| } |
| |
| TEST_F(TpmUtilityTest, StirRandomSuccess) { |
| std::string entropy_data("large test data", 100); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.StirRandom(entropy_data, &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, StirRandomFails) { |
| std::string entropy_data("test data"); |
| EXPECT_CALL(mock_tpm_, StirRandomSync(_, nullptr)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.StirRandom(entropy_data, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, GenerateRandomSuccess) { |
| // This number is larger than the max bytes the GetRandom call can return. |
| // Therefore we expect software to make multiple calls to fill this many |
| // bytes. |
| size_t num_bytes = 72; |
| std::string random_data; |
| TPM2B_DIGEST large_random; |
| large_random.size = 32; |
| TPM2B_DIGEST small_random; |
| small_random.size = 8; |
| EXPECT_CALL(mock_tpm_, GetRandomSync(_, _, &mock_authorization_delegate_)) |
| .Times(2) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<1>(large_random), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, GetRandomSync(8, _, &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SetArgPointee<1>(small_random), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.GenerateRandom(num_bytes, &mock_authorization_delegate_, |
| &random_data)); |
| EXPECT_EQ(num_bytes, random_data.size()); |
| } |
| |
| TEST_F(TpmUtilityTest, GenerateRandomFails) { |
| size_t num_bytes = 5; |
| std::string random_data; |
| EXPECT_CALL(mock_tpm_, GetRandomSync(_, _, nullptr)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.GenerateRandom(num_bytes, nullptr, &random_data)); |
| } |
| |
| TEST_F(TpmUtilityTest, ExtendPCRSuccess) { |
| TPM_HANDLE pcr_handle = HR_PCR + 1; |
| TPML_DIGEST_VALUES digests; |
| EXPECT_CALL(mock_tpm_, |
| PCR_ExtendSync(pcr_handle, _, _, &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SaveArg<2>(&digests), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.ExtendPCR(1, "test digest", |
| &mock_authorization_delegate_)); |
| EXPECT_EQ(1u, digests.count); |
| EXPECT_EQ(TPM_ALG_SHA256, digests.digests[0].hash_alg); |
| std::string hash_string = crypto::SHA256HashString("test digest"); |
| EXPECT_EQ(0, memcmp(hash_string.data(), digests.digests[0].digest.sha256, |
| crypto::kSHA256Length)); |
| } |
| |
| TEST_F(TpmUtilityTest, ExtendPCRFail) { |
| int pcr_index = 0; |
| TPM_HANDLE pcr_handle = HR_PCR + pcr_index; |
| EXPECT_CALL(mock_tpm_, PCR_ExtendSync(pcr_handle, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.ExtendPCR(pcr_index, "test digest", nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, ExtendPCRBadParam) { |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.ExtendPCR(-1, "test digest", nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, ReadPCRSuccess) { |
| // The |pcr_index| is chosen to match the structure for |pcr_select|. |
| // If you change |pcr_index|, remember to change |pcr_select|. |
| int pcr_index = 1; |
| std::string pcr_value; |
| TPML_PCR_SELECTION pcr_select; |
| pcr_select.count = 1; |
| pcr_select.pcr_selections[0].hash = TPM_ALG_SHA256; |
| pcr_select.pcr_selections[0].sizeof_select = 1; |
| pcr_select.pcr_selections[0].pcr_select[0] = 2; |
| TPML_DIGEST pcr_values; |
| pcr_values.count = 1; |
| pcr_values.digests[0].size = 5; |
| EXPECT_CALL(mock_tpm_, PCR_ReadSync(_, _, _, _, _)) |
| .WillOnce(DoAll(SetArgPointee<2>(pcr_select), |
| SetArgPointee<3>(pcr_values), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.ReadPCR(pcr_index, &pcr_value)); |
| } |
| |
| TEST_F(TpmUtilityTest, ReadPCRFail) { |
| std::string pcr_value; |
| EXPECT_CALL(mock_tpm_, PCR_ReadSync(_, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.ReadPCR(1, &pcr_value)); |
| } |
| |
| TEST_F(TpmUtilityTest, ReadPCRBadReturn) { |
| std::string pcr_value; |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.ReadPCR(1, &pcr_value)); |
| } |
| |
| TEST_F(TpmUtilityTest, AsymmetricEncryptSuccess) { |
| TPM_HANDLE key_handle; |
| std::string plaintext; |
| std::string output_ciphertext("ciphertext"); |
| std::string ciphertext; |
| TPM2B_PUBLIC_KEY_RSA out_message = |
| Make_TPM2B_PUBLIC_KEY_RSA(output_ciphertext); |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kDecrypt; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, RSA_EncryptSync(key_handle, _, _, _, _, _, |
| &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SetArgPointee<5>(out_message), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.AsymmetricEncrypt(key_handle, TPM_ALG_NULL, TPM_ALG_NULL, |
| plaintext, &mock_authorization_delegate_, |
| &ciphertext)); |
| EXPECT_EQ(0, ciphertext.compare(output_ciphertext)); |
| } |
| |
| TEST_F(TpmUtilityTest, AsymmetricEncryptFail) { |
| TPM_HANDLE key_handle; |
| std::string plaintext; |
| std::string ciphertext; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kDecrypt; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, RSA_EncryptSync(key_handle, _, _, _, _, _, nullptr)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.AsymmetricEncrypt(key_handle, TPM_ALG_NULL, TPM_ALG_NULL, |
| plaintext, nullptr, &ciphertext)); |
| } |
| |
| TEST_F(TpmUtilityTest, AsymmetricEncryptBadParams) { |
| TPM_HANDLE key_handle = TPM_RH_FIRST; |
| std::string plaintext; |
| std::string ciphertext; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kDecrypt | kRestricted; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, nullptr)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.AsymmetricEncrypt(key_handle, TPM_ALG_RSAES, TPM_ALG_NULL, |
| plaintext, nullptr, &ciphertext)); |
| } |
| |
| TEST_F(TpmUtilityTest, AsymmetricEncryptNullSchemeForward) { |
| TPM_HANDLE key_handle; |
| std::string plaintext; |
| std::string output_ciphertext("ciphertext"); |
| std::string ciphertext; |
| TPM2B_PUBLIC_KEY_RSA out_message = |
| Make_TPM2B_PUBLIC_KEY_RSA(output_ciphertext); |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kDecrypt; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| TPMT_RSA_DECRYPT scheme; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, RSA_EncryptSync(key_handle, _, _, _, _, _, nullptr)) |
| .WillOnce(DoAll(SetArgPointee<5>(out_message), SaveArg<3>(&scheme), |
| Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.AsymmetricEncrypt(key_handle, TPM_ALG_NULL, TPM_ALG_NULL, |
| plaintext, nullptr, &ciphertext)); |
| EXPECT_EQ(scheme.scheme, TPM_ALG_OAEP); |
| EXPECT_EQ(scheme.details.oaep.hash_alg, TPM_ALG_SHA256); |
| } |
| |
| TEST_F(TpmUtilityTest, AsymmetricEncryptSchemeForward) { |
| TPM_HANDLE key_handle; |
| std::string plaintext; |
| std::string output_ciphertext("ciphertext"); |
| std::string ciphertext; |
| TPM2B_PUBLIC_KEY_RSA out_message = |
| Make_TPM2B_PUBLIC_KEY_RSA(output_ciphertext); |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kDecrypt; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| TPMT_RSA_DECRYPT scheme; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, RSA_EncryptSync(key_handle, _, _, _, _, _, nullptr)) |
| .WillOnce(DoAll(SetArgPointee<5>(out_message), SaveArg<3>(&scheme), |
| Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.AsymmetricEncrypt(key_handle, TPM_ALG_RSAES, TPM_ALG_NULL, |
| plaintext, nullptr, &ciphertext)); |
| EXPECT_EQ(scheme.scheme, TPM_ALG_RSAES); |
| } |
| |
| TEST_F(TpmUtilityTest, AsymmetricDecryptSuccess) { |
| TPM_HANDLE key_handle; |
| std::string plaintext; |
| std::string output_plaintext("plaintext"); |
| std::string ciphertext; |
| std::string password("password"); |
| TPM2B_PUBLIC_KEY_RSA out_message = |
| Make_TPM2B_PUBLIC_KEY_RSA(output_plaintext); |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kDecrypt; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, RSA_DecryptSync(key_handle, _, _, _, _, _, |
| &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SetArgPointee<5>(out_message), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.AsymmetricDecrypt( |
| key_handle, TPM_ALG_NULL, TPM_ALG_NULL, ciphertext, |
| &mock_authorization_delegate_, &plaintext)); |
| EXPECT_EQ(0, plaintext.compare(output_plaintext)); |
| } |
| |
| TEST_F(TpmUtilityTest, AsymmetricDecryptFail) { |
| TPM_HANDLE key_handle; |
| std::string key_name; |
| std::string plaintext; |
| std::string ciphertext; |
| std::string password; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kDecrypt; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, RSA_DecryptSync(key_handle, _, _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.AsymmetricDecrypt( |
| key_handle, TPM_ALG_NULL, TPM_ALG_NULL, ciphertext, |
| &mock_authorization_delegate_, &plaintext)); |
| } |
| |
| TEST_F(TpmUtilityTest, AsymmetricDecryptBadParams) { |
| TPM_HANDLE key_handle = TPM_RH_FIRST; |
| std::string plaintext; |
| std::string ciphertext; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kDecrypt | kRestricted; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.AsymmetricDecrypt( |
| key_handle, TPM_ALG_RSAES, TPM_ALG_NULL, ciphertext, |
| &mock_authorization_delegate_, &plaintext)); |
| } |
| |
| TEST_F(TpmUtilityTest, AsymmetricDecryptBadSession) { |
| TPM_HANDLE key_handle = TPM_RH_FIRST; |
| std::string key_name; |
| std::string plaintext; |
| std::string ciphertext; |
| std::string password; |
| EXPECT_EQ(SAPI_RC_INVALID_SESSIONS, |
| utility_.AsymmetricDecrypt(key_handle, TPM_ALG_RSAES, TPM_ALG_NULL, |
| ciphertext, nullptr, &plaintext)); |
| } |
| |
| TEST_F(TpmUtilityTest, AsymmetricDecryptNullHashAlgorithmForward) { |
| TPM_HANDLE key_handle; |
| std::string plaintext; |
| std::string output_plaintext("plaintext"); |
| std::string ciphertext; |
| std::string password; |
| TPM2B_PUBLIC_KEY_RSA out_message = |
| Make_TPM2B_PUBLIC_KEY_RSA(output_plaintext); |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kDecrypt; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| TPMT_RSA_DECRYPT scheme; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, RSA_DecryptSync(key_handle, _, _, _, _, _, _)) |
| .WillOnce(DoAll(SetArgPointee<5>(out_message), SaveArg<3>(&scheme), |
| Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.AsymmetricDecrypt( |
| key_handle, TPM_ALG_OAEP, TPM_ALG_NULL, ciphertext, |
| &mock_authorization_delegate_, &plaintext)); |
| EXPECT_EQ(scheme.scheme, TPM_ALG_OAEP); |
| EXPECT_EQ(scheme.details.oaep.hash_alg, TPM_ALG_SHA256); |
| } |
| |
| TEST_F(TpmUtilityTest, AsymmetricDecryptSchemeForward) { |
| TPM_HANDLE key_handle; |
| std::string plaintext; |
| std::string output_plaintext("plaintext"); |
| std::string ciphertext; |
| std::string password; |
| TPM2B_PUBLIC_KEY_RSA out_message = |
| Make_TPM2B_PUBLIC_KEY_RSA(output_plaintext); |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kDecrypt; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| TPMT_RSA_DECRYPT scheme; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, RSA_DecryptSync(key_handle, _, _, _, _, _, _)) |
| .WillOnce(DoAll(SetArgPointee<5>(out_message), SaveArg<3>(&scheme), |
| Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.AsymmetricDecrypt( |
| key_handle, TPM_ALG_RSAES, TPM_ALG_NULL, ciphertext, |
| &mock_authorization_delegate_, &plaintext)); |
| EXPECT_EQ(scheme.scheme, TPM_ALG_RSAES); |
| } |
| |
| TEST_F(TpmUtilityTest, SignSuccess) { |
| TPM_HANDLE key_handle; |
| std::string password("password"); |
| std::string digest(32, 'a'); |
| TPMT_SIGNATURE signature_out; |
| signature_out.signature.rsassa.sig.size = 2; |
| signature_out.signature.rsassa.sig.buffer[0] = 'h'; |
| signature_out.signature.rsassa.sig.buffer[1] = 'i'; |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kSign; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, SignSync(key_handle, _, _, _, _, _, |
| &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SetArgPointee<5>(signature_out), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.Sign(key_handle, TPM_ALG_RSASSA, TPM_ALG_SHA256, digest, |
| true /* generate_hash */, |
| &mock_authorization_delegate_, &signature)); |
| EXPECT_EQ(0, signature.compare("hi")); |
| } |
| |
| TEST_F(TpmUtilityTest, SignFail) { |
| TPM_HANDLE key_handle; |
| std::string password; |
| std::string digest(32, 'a'); |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kSign; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, SignSync(key_handle, _, _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.Sign(key_handle, TPM_ALG_RSASSA, TPM_ALG_SHA256, digest, |
| true /* generate_hash */, |
| &mock_authorization_delegate_, &signature)); |
| } |
| |
| TEST_F(TpmUtilityTest, SignBadParams1) { |
| TPM_HANDLE key_handle; |
| std::string password; |
| std::string digest(32, 'a'); |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kSign | kRestricted; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.Sign(key_handle, TPM_ALG_RSAPSS, TPM_ALG_NULL, digest, |
| true /* generate_hash */, |
| &mock_authorization_delegate_, &signature)); |
| } |
| |
| TEST_F(TpmUtilityTest, SignBadAuthorizationSession) { |
| TPM_HANDLE key_handle = TPM_RH_FIRST; |
| std::string password; |
| std::string digest(32, 'a'); |
| std::string signature; |
| EXPECT_EQ(SAPI_RC_INVALID_SESSIONS, |
| utility_.Sign(key_handle, TPM_ALG_RSAPSS, TPM_ALG_NULL, digest, |
| true /* generate_hash */, |
| nullptr, &signature)); |
| } |
| |
| TEST_F(TpmUtilityTest, SignBadParams2) { |
| TPM_HANDLE key_handle; |
| std::string password; |
| std::string digest(32, 'a'); |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kDecrypt; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.Sign(key_handle, TPM_ALG_RSAPSS, TPM_ALG_NULL, digest, |
| true /* generate_hash */, |
| &mock_authorization_delegate_, &signature)); |
| } |
| |
| TEST_F(TpmUtilityTest, SignBadParams3) { |
| TPM_HANDLE key_handle; |
| std::string password; |
| std::string digest(32, 'a'); |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_ECC; |
| public_area.public_area.object_attributes = kSign; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.Sign(key_handle, TPM_ALG_RSAPSS, TPM_ALG_NULL, digest, |
| true /* generate_hash */, |
| &mock_authorization_delegate_, &signature)); |
| } |
| |
| TEST_F(TpmUtilityTest, SignBadParams4) { |
| TPM_HANDLE key_handle; |
| std::string password; |
| std::string digest(32, 'a'); |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kSign; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_FAILURE))); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.Sign(key_handle, TPM_ALG_RSAPSS, TPM_ALG_NULL, digest, |
| true /* generate_hash */, |
| &mock_authorization_delegate_, &signature)); |
| } |
| |
| TEST_F(TpmUtilityTest, SignBadParams5) { |
| TPM_HANDLE key_handle = 0; |
| std::string password; |
| std::string digest(32, 'a'); |
| std::string signature; |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.Sign(key_handle, TPM_ALG_AES, TPM_ALG_NULL, digest, |
| true /* generate_hash */, |
| &mock_authorization_delegate_, &signature)); |
| } |
| |
| TEST_F(TpmUtilityTest, SignNullSchemeForward) { |
| TPM_HANDLE key_handle; |
| std::string password; |
| std::string digest(32, 'a'); |
| TPMT_SIGNATURE signature_out; |
| signature_out.signature.rsassa.sig.size = 0; |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| TPMT_SIG_SCHEME scheme; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kSign; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, SignSync(key_handle, _, _, _, _, _, _)) |
| .WillOnce(DoAll(SetArgPointee<5>(signature_out), SaveArg<3>(&scheme), |
| Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.Sign(key_handle, TPM_ALG_NULL, TPM_ALG_SHA256, digest, |
| true /* generate_hash */, |
| &mock_authorization_delegate_, &signature)); |
| EXPECT_EQ(scheme.scheme, TPM_ALG_RSASSA); |
| EXPECT_EQ(scheme.details.rsassa.hash_alg, TPM_ALG_SHA256); |
| } |
| |
| TEST_F(TpmUtilityTest, SignRSASSAWithNullAlgorithm) { |
| TPM_HANDLE key_handle; |
| std::string password; |
| std::string digest(32, 'a'); |
| TPMT_SIGNATURE signature_out; |
| signature_out.signature.rsassa.sig.size = 0; |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| TPMT_SIG_SCHEME scheme; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kSign; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, SignSync(key_handle, _, _, _, _, _, _)) |
| .WillOnce(DoAll(SetArgPointee<5>(signature_out), SaveArg<3>(&scheme), |
| Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.Sign(key_handle, TPM_ALG_NULL, TPM_ALG_NULL, digest, |
| false /* generate_hash */, |
| &mock_authorization_delegate_, &signature)); |
| EXPECT_EQ(scheme.scheme, TPM_ALG_RSASSA); |
| EXPECT_EQ(scheme.details.rsassa.hash_alg, TPM_ALG_NULL); |
| } |
| |
| TEST_F(TpmUtilityTest, SignSchemeForward) { |
| TPM_HANDLE key_handle; |
| std::string password; |
| std::string digest(64, 'a'); |
| TPMT_SIGNATURE signature_out; |
| signature_out.signature.rsassa.sig.size = 0; |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| TPMT_SIG_SCHEME scheme; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kSign; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, SignSync(key_handle, _, _, _, _, _, _)) |
| .WillOnce(DoAll(SetArgPointee<5>(signature_out), SaveArg<3>(&scheme), |
| Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.Sign(key_handle, TPM_ALG_RSAPSS, TPM_ALG_SHA1, digest, |
| true /* generate_hash */, |
| &mock_authorization_delegate_, &signature)); |
| EXPECT_EQ(scheme.scheme, TPM_ALG_RSAPSS); |
| EXPECT_EQ(scheme.details.rsapss.hash_alg, TPM_ALG_SHA1); |
| } |
| |
| TEST_F(TpmUtilityTest, VerifySuccess) { |
| TPM_HANDLE key_handle; |
| std::string digest(32, 'a'); |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kSign; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, VerifySignatureSync(key_handle, _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.Verify(key_handle, TPM_ALG_NULL, TPM_ALG_NULL, digest, |
| true /* generate_hash */, signature, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, VerifyFail) { |
| TPM_HANDLE key_handle; |
| std::string digest(32, 'a'); |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kSign; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, VerifySignatureSync(key_handle, _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.Verify(key_handle, TPM_ALG_NULL, TPM_ALG_NULL, digest, |
| true /* generate_hash */, signature, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, VerifyBadParams1) { |
| TPM_HANDLE key_handle; |
| std::string digest(32, 'a'); |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kSign | kRestricted; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.Verify(key_handle, TPM_ALG_NULL, TPM_ALG_NULL, digest, |
| true /* generate_hash */, signature, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, VerifyBadParams2) { |
| TPM_HANDLE key_handle; |
| std::string digest(32, 'a'); |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kDecrypt; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.Verify(key_handle, TPM_ALG_NULL, TPM_ALG_NULL, digest, |
| true /* generate_hash */, signature, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, VerifyBadParams3) { |
| TPM_HANDLE key_handle; |
| std::string digest(32, 'a'); |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_ECC; |
| public_area.public_area.object_attributes = kSign; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.Verify(key_handle, TPM_ALG_NULL, TPM_ALG_NULL, digest, |
| true /* generate_hash */, signature, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, VerifyBadParams4) { |
| TPM_HANDLE key_handle; |
| std::string digest(32, 'a'); |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kSign; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_FAILURE))); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.Verify(key_handle, TPM_ALG_NULL, TPM_ALG_NULL, digest, |
| true /* generate_hash */, signature, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, VerifyBadParams5) { |
| TPM_HANDLE key_handle; |
| std::string digest(32, 'a'); |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kSign; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.Verify(key_handle, TPM_ALG_AES, TPM_ALG_NULL, digest, |
| true /* generate_hash */, signature, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, VerifyNullSchemeForward) { |
| TPM_HANDLE key_handle; |
| std::string digest(32, 'a'); |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| TPMT_SIGNATURE signature_in; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kSign; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, VerifySignatureSync(key_handle, _, _, _, _, _)) |
| .WillOnce(DoAll(SaveArg<3>(&signature_in), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.Verify(key_handle, TPM_ALG_NULL, TPM_ALG_NULL, digest, |
| true /* generate_hash */, signature, nullptr)); |
| EXPECT_EQ(signature_in.sig_alg, TPM_ALG_RSASSA); |
| EXPECT_EQ(signature_in.signature.rsassa.hash, TPM_ALG_SHA256); |
| } |
| |
| TEST_F(TpmUtilityTest, VerifySchemeForward) { |
| TPM_HANDLE key_handle; |
| std::string digest(64, 'a'); |
| std::string signature; |
| TPM2B_PUBLIC public_area; |
| TPMT_SIGNATURE signature_in; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.object_attributes = kSign; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, VerifySignatureSync(key_handle, _, _, _, _, _)) |
| .WillOnce(DoAll(SaveArg<3>(&signature_in), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.Verify(key_handle, TPM_ALG_RSAPSS, TPM_ALG_SHA1, digest, |
| true /* generate_hash */, signature, nullptr)); |
| EXPECT_EQ(signature_in.sig_alg, TPM_ALG_RSAPSS); |
| EXPECT_EQ(signature_in.signature.rsassa.hash, TPM_ALG_SHA1); |
| } |
| |
| TEST_F(TpmUtilityTest, CertifyCreationSuccess) { |
| TPM_HANDLE key_handle = 42; |
| std::string creation_blob; |
| EXPECT_CALL(mock_tpm_, CertifyCreationSyncShort(TPM_RH_NULL, key_handle, _, _, |
| _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.CertifyCreation(key_handle, creation_blob)); |
| } |
| |
| TEST_F(TpmUtilityTest, CertifyCreationParserError) { |
| TPM_HANDLE key_handle = 42; |
| std::string creation_blob; |
| EXPECT_CALL(mock_blob_parser_, ParseCreationBlob(creation_blob, _, _, _)) |
| .WillOnce(Return(false)); |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.CertifyCreation(key_handle, creation_blob)); |
| } |
| |
| TEST_F(TpmUtilityTest, CertifyCreationFailure) { |
| TPM_HANDLE key_handle = 42; |
| std::string creation_blob; |
| EXPECT_CALL(mock_tpm_, CertifyCreationSyncShort(TPM_RH_NULL, key_handle, _, _, |
| _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.CertifyCreation(key_handle, creation_blob)); |
| } |
| |
| TEST_F(TpmUtilityTest, ChangeAuthDataSuccess) { |
| TPM_HANDLE key_handle = 1; |
| std::string new_password; |
| std::string key_blob; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(_, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.ChangeKeyAuthorizationData( |
| key_handle, new_password, |
| &mock_authorization_delegate_, &key_blob)); |
| } |
| |
| TEST_F(TpmUtilityTest, ChangeAuthDataKeyNameFail) { |
| TPM_HANDLE key_handle = 1; |
| std::string old_password; |
| std::string new_password; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(key_handle, _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.ChangeKeyAuthorizationData( |
| key_handle, new_password, |
| &mock_authorization_delegate_, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, ChangeAuthDataFailure) { |
| TPM_HANDLE key_handle = 1; |
| std::string new_password; |
| EXPECT_CALL(mock_tpm_, ObjectChangeAuthSync(key_handle, _, _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.ChangeKeyAuthorizationData( |
| key_handle, new_password, |
| &mock_authorization_delegate_, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, ChangeAuthDataParserFail) { |
| TPM_HANDLE key_handle = 1; |
| std::string new_password; |
| std::string key_blob; |
| TPM2B_PUBLIC public_area; |
| public_area.public_area.type = TPM_ALG_RSA; |
| public_area.public_area.auth_policy.size = 0; |
| public_area.public_area.unique.rsa.size = 0; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(_, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_blob_parser_, SerializeKeyBlob(_, _, &key_blob)) |
| .WillOnce(Return(false)); |
| EXPECT_EQ( |
| SAPI_RC_BAD_TCTI_STRUCTURE, |
| utility_.ChangeKeyAuthorizationData( |
| key_handle, new_password, &mock_authorization_delegate_, &key_blob)); |
| } |
| |
| TEST_F(TpmUtilityTest, ImportRSAKeySuccess) { |
| uint32_t public_exponent = 0x10001; |
| std::string modulus(256, 'a'); |
| std::string prime_factor(128, 'b'); |
| std::string password("password"); |
| std::string key_blob; |
| TPM2B_DATA encryption_key; |
| TPM2B_PUBLIC public_data; |
| TPM2B_PRIVATE private_data; |
| EXPECT_CALL(mock_tpm_, ImportSync(_, _, _, _, _, _, _, _, _)) |
| .WillOnce(DoAll(SaveArg<2>(&encryption_key), SaveArg<3>(&public_data), |
| SaveArg<4>(&private_data), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ( |
| TPM_RC_SUCCESS, |
| utility_.ImportRSAKey(TpmUtility::AsymmetricKeyUsage::kDecryptKey, |
| modulus, public_exponent, prime_factor, password, |
| &mock_authorization_delegate_, &key_blob)); |
| // Validate that the public area was properly constructed. |
| EXPECT_EQ(public_data.public_area.parameters.rsa_detail.key_bits, |
| modulus.size() * 8); |
| EXPECT_EQ(public_data.public_area.parameters.rsa_detail.exponent, |
| public_exponent); |
| EXPECT_EQ(public_data.public_area.unique.rsa.size, modulus.size()); |
| EXPECT_EQ(0, memcmp(public_data.public_area.unique.rsa.buffer, modulus.data(), |
| modulus.size())); |
| // Validate the private struct construction. |
| EXPECT_EQ(kAesKeySize, encryption_key.size); |
| AES_KEY key; |
| AES_set_encrypt_key(encryption_key.buffer, kAesKeySize * 8, &key); |
| unsigned char iv[MAX_AES_BLOCK_SIZE_BYTES] = {0}; |
| int iv_in = 0; |
| std::string unencrypted_private(private_data.size, 0); |
| AES_cfb128_encrypt( |
| reinterpret_cast<const unsigned char*>(private_data.buffer), |
| reinterpret_cast<unsigned char*>( |
| base::string_as_array(&unencrypted_private)), |
| private_data.size, &key, iv, &iv_in, AES_DECRYPT); |
| TPM2B_DIGEST inner_integrity; |
| EXPECT_EQ(TPM_RC_SUCCESS, Parse_TPM2B_DIGEST(&unencrypted_private, |
| &inner_integrity, nullptr)); |
| std::string object_name; |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| ComputeKeyName(public_data.public_area, &object_name)); |
| std::string integrity_value = |
| crypto::SHA256HashString(unencrypted_private + object_name); |
| EXPECT_EQ(integrity_value.size(), inner_integrity.size); |
| EXPECT_EQ(0, memcmp(inner_integrity.buffer, integrity_value.data(), |
| inner_integrity.size)); |
| TPM2B_SENSITIVE sensitive_data; |
| EXPECT_EQ(TPM_RC_SUCCESS, Parse_TPM2B_SENSITIVE(&unencrypted_private, |
| &sensitive_data, nullptr)); |
| EXPECT_TRUE(unencrypted_private.empty()); |
| EXPECT_EQ(sensitive_data.sensitive_area.auth_value.size, password.size()); |
| EXPECT_EQ(0, memcmp(sensitive_data.sensitive_area.auth_value.buffer, |
| password.data(), password.size())); |
| EXPECT_EQ(sensitive_data.sensitive_area.sensitive.rsa.size, |
| prime_factor.size()); |
| EXPECT_EQ(0, memcmp(sensitive_data.sensitive_area.sensitive.rsa.buffer, |
| prime_factor.data(), prime_factor.size())); |
| } |
| |
| TEST_F(TpmUtilityTest, ImportRSAKeySuccessWithNoBlob) { |
| uint32_t public_exponent = 0x10001; |
| std::string modulus(256, 'a'); |
| std::string prime_factor(128, 'b'); |
| std::string password; |
| EXPECT_EQ( |
| TPM_RC_SUCCESS, |
| utility_.ImportRSAKey(TpmUtility::AsymmetricKeyUsage::kDecryptKey, |
| modulus, public_exponent, prime_factor, password, |
| &mock_authorization_delegate_, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, ImportRSAKeyParentNameFail) { |
| uint32_t public_exponent = 0x10001; |
| std::string modulus(256, 'a'); |
| std::string prime_factor(128, 'b'); |
| std::string password; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(_, _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ( |
| TPM_RC_FAILURE, |
| utility_.ImportRSAKey(TpmUtility::AsymmetricKeyUsage::kDecryptKey, |
| modulus, public_exponent, prime_factor, password, |
| &mock_authorization_delegate_, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, ImportRSAKeyFail) { |
| std::string modulus; |
| std::string prime_factor; |
| std::string password; |
| EXPECT_CALL(mock_tpm_, ImportSync(_, _, _, _, _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.ImportRSAKey(TpmUtility::AsymmetricKeyUsage::kDecryptKey, |
| modulus, 0x10001, prime_factor, password, |
| &mock_authorization_delegate_, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, ImportRSAKeyParserFail) { |
| std::string modulus; |
| std::string prime_factor; |
| std::string password; |
| std::string key_blob; |
| EXPECT_CALL(mock_blob_parser_, SerializeKeyBlob(_, _, &key_blob)) |
| .WillOnce(Return(false)); |
| EXPECT_EQ(SAPI_RC_BAD_TCTI_STRUCTURE, |
| utility_.ImportRSAKey(TpmUtility::AsymmetricKeyUsage::kDecryptKey, |
| modulus, 0x10001, prime_factor, password, |
| &mock_authorization_delegate_, &key_blob)); |
| } |
| |
| TEST_F(TpmUtilityTest, CreateRSAKeyPairSuccess) { |
| TPM2B_PUBLIC public_area; |
| TPML_PCR_SELECTION creation_pcrs; |
| EXPECT_CALL(mock_tpm_, CreateSyncShort(kRSAStorageRootKey, _, _, _, _, _, _, |
| _, _, &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SaveArg<2>(&public_area), SaveArg<3>(&creation_pcrs), |
| Return(TPM_RC_SUCCESS))); |
| std::string key_blob; |
| std::string creation_blob; |
| int creation_pcr = 12; |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.CreateRSAKeyPair( |
| TpmUtility::AsymmetricKeyUsage::kDecryptAndSignKey, 2048, |
| 0x10001, "password", "", false, creation_pcr, |
| &mock_authorization_delegate_, &key_blob, &creation_blob)); |
| EXPECT_EQ(public_area.public_area.object_attributes & kDecrypt, kDecrypt); |
| EXPECT_EQ(public_area.public_area.object_attributes & kSign, kSign); |
| EXPECT_EQ(public_area.public_area.object_attributes & kUserWithAuth, |
| kUserWithAuth); |
| EXPECT_EQ(public_area.public_area.object_attributes & kAdminWithPolicy, 0u); |
| EXPECT_EQ(public_area.public_area.parameters.rsa_detail.scheme.scheme, |
| TPM_ALG_NULL); |
| EXPECT_EQ(1u, creation_pcrs.count); |
| EXPECT_EQ(TPM_ALG_SHA256, creation_pcrs.pcr_selections[0].hash); |
| EXPECT_EQ(PCR_SELECT_MIN, creation_pcrs.pcr_selections[0].sizeof_select); |
| EXPECT_EQ(1u << (creation_pcr % 8), |
| creation_pcrs.pcr_selections[0].pcr_select[creation_pcr / 8]); |
| } |
| |
| TEST_F(TpmUtilityTest, CreateRSAKeyPairDecryptKeySuccess) { |
| TPM2B_PUBLIC public_area; |
| EXPECT_CALL(mock_tpm_, CreateSyncShort(kRSAStorageRootKey, _, _, _, _, _, _, |
| _, _, &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SaveArg<2>(&public_area), Return(TPM_RC_SUCCESS))); |
| std::string key_blob; |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.CreateRSAKeyPair( |
| TpmUtility::AsymmetricKeyUsage::kDecryptKey, 2048, 0x10001, |
| "password", "", false, kNoCreationPCR, |
| &mock_authorization_delegate_, &key_blob, nullptr)); |
| EXPECT_EQ(public_area.public_area.object_attributes & kDecrypt, kDecrypt); |
| EXPECT_EQ(public_area.public_area.object_attributes & kSign, 0u); |
| EXPECT_EQ(public_area.public_area.parameters.rsa_detail.scheme.scheme, |
| TPM_ALG_NULL); |
| } |
| |
| TEST_F(TpmUtilityTest, CreateRSAKeyPairSignKeySuccess) { |
| TPM2B_PUBLIC public_area; |
| TPM2B_SENSITIVE_CREATE sensitive_create; |
| EXPECT_CALL(mock_tpm_state_, Initialize()) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_CALL(mock_tpm_state_, GetTpmProperty(TPM_PT_MANUFACTURER, _)) |
| .WillOnce(DoAll(SetArgPointee<1>(kVendorIdCr50), Return(true))); |
| EXPECT_CALL(mock_tpm_, CreateSyncShort(kRSAStorageRootKey, _, _, _, _, _, _, |
| _, _, &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SaveArg<1>(&sensitive_create), SaveArg<2>(&public_area), |
| Return(TPM_RC_SUCCESS))); |
| std::string key_blob; |
| std::string policy_digest(32, 'a'); |
| std::string key_auth("password"); |
| EXPECT_EQ( |
| TPM_RC_SUCCESS, |
| utility_.CreateRSAKeyPair( |
| TpmUtility::AsymmetricKeyUsage::kSignKey, 2048, 0x10001, key_auth, |
| policy_digest, true /* use_only_policy_authorization */, |
| kNoCreationPCR, &mock_authorization_delegate_, &key_blob, nullptr)); |
| EXPECT_EQ(public_area.public_area.object_attributes & kDecrypt, 0u); |
| EXPECT_EQ(public_area.public_area.object_attributes & kSign, kSign); |
| EXPECT_EQ(public_area.public_area.object_attributes & kUserWithAuth, 0u); |
| EXPECT_EQ(public_area.public_area.object_attributes & kAdminWithPolicy, |
| kAdminWithPolicy); |
| EXPECT_EQ(public_area.public_area.parameters.rsa_detail.scheme.scheme, |
| TPM_ALG_NULL); |
| EXPECT_EQ(public_area.public_area.parameters.rsa_detail.key_bits, 2048); |
| EXPECT_EQ(public_area.public_area.parameters.rsa_detail.exponent, 0x10001u); |
| EXPECT_EQ(public_area.public_area.auth_policy.size, policy_digest.size()); |
| EXPECT_EQ(0, memcmp(public_area.public_area.auth_policy.buffer, |
| policy_digest.data(), policy_digest.size())); |
| EXPECT_EQ(sensitive_create.sensitive.user_auth.size, key_auth.size()); |
| EXPECT_EQ(0, memcmp(sensitive_create.sensitive.user_auth.buffer, |
| key_auth.data(), key_auth.size())); |
| } |
| |
| TEST_F(TpmUtilityTest, CreateRSAKeyPairSignKeySuccessNoPaddingOnlyAlg) { |
| // Unknown vendor - no padding-only alg support expected for TPM. |
| uint32_t vendor_id = 0xaabbccdd; |
| TPM2B_PUBLIC public_area; |
| EXPECT_CALL(mock_tpm_state_, Initialize()) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_CALL(mock_tpm_state_, GetTpmProperty(TPM_PT_MANUFACTURER, _)) |
| .WillOnce(DoAll(SetArgPointee<1>(vendor_id), Return(true))); |
| EXPECT_CALL(mock_tpm_, CreateSyncShort(_, _, _, _, _, _, _, _, _, _)) |
| .WillOnce(DoAll(SaveArg<2>(&public_area), Return(TPM_RC_SUCCESS))); |
| std::string key_blob; |
| std::string policy_digest(32, 'a'); |
| std::string key_auth("password"); |
| EXPECT_EQ( |
| TPM_RC_SUCCESS, |
| utility_.CreateRSAKeyPair( |
| TpmUtility::AsymmetricKeyUsage::kSignKey, 2048, 0x10001, key_auth, |
| policy_digest, true /* use_only_policy_authorization */, |
| kNoCreationPCR, &mock_authorization_delegate_, &key_blob, nullptr)); |
| EXPECT_EQ(public_area.public_area.object_attributes & kDecrypt, kDecrypt); |
| EXPECT_EQ(public_area.public_area.object_attributes & kSign, kSign); |
| } |
| |
| TEST_F(TpmUtilityTest, CreateRSAKeyPairBadDelegate) { |
| std::string key_blob; |
| EXPECT_EQ( |
| SAPI_RC_INVALID_SESSIONS, |
| utility_.CreateRSAKeyPair(TpmUtility::AsymmetricKeyUsage::kDecryptKey, |
| 2048, 0x10001, "password", "", false, |
| kNoCreationPCR, nullptr, &key_blob, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, CreateRSAKeyPairFailure) { |
| EXPECT_CALL(mock_tpm_state_, Initialize()) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_CALL(mock_tpm_state_, GetTpmProperty(TPM_PT_MANUFACTURER, _)) |
| .WillOnce(DoAll(SetArgPointee<1>(kVendorIdCr50), Return(true))); |
| EXPECT_CALL(mock_tpm_, CreateSyncShort(kRSAStorageRootKey, _, _, _, _, _, _, |
| _, _, &mock_authorization_delegate_)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| std::string key_blob; |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.CreateRSAKeyPair( |
| TpmUtility::AsymmetricKeyUsage::kSignKey, 2048, 0x10001, |
| "password", "", false, kNoCreationPCR, |
| &mock_authorization_delegate_, &key_blob, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, CreateRSAKeyPairKeyParserFail) { |
| std::string key_blob; |
| EXPECT_CALL(mock_tpm_state_, Initialize()) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_CALL(mock_tpm_state_, GetTpmProperty(TPM_PT_MANUFACTURER, _)) |
| .WillOnce(DoAll(SetArgPointee<1>(kVendorIdCr50), Return(true))); |
| EXPECT_CALL(mock_blob_parser_, SerializeKeyBlob(_, _, &key_blob)) |
| .WillOnce(Return(false)); |
| EXPECT_EQ(SAPI_RC_BAD_TCTI_STRUCTURE, |
| utility_.CreateRSAKeyPair( |
| TpmUtility::AsymmetricKeyUsage::kSignKey, 2048, 0x10001, |
| "password", "", false, kNoCreationPCR, |
| &mock_authorization_delegate_, &key_blob, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, CreateRSAKeyPairCreationParserFail) { |
| std::string creation_blob; |
| std::string key_blob; |
| EXPECT_CALL(mock_tpm_state_, Initialize()) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_CALL(mock_tpm_state_, GetTpmProperty(TPM_PT_MANUFACTURER, _)) |
| .WillOnce(DoAll(SetArgPointee<1>(kVendorIdCr50), Return(true))); |
| EXPECT_CALL(mock_blob_parser_, SerializeCreationBlob(_, _, _, &creation_blob)) |
| .WillOnce(Return(false)); |
| EXPECT_EQ(SAPI_RC_BAD_TCTI_STRUCTURE, |
| utility_.CreateRSAKeyPair( |
| TpmUtility::AsymmetricKeyUsage::kSignKey, 2048, 0x10001, |
| "password", "", false, kNoCreationPCR, |
| &mock_authorization_delegate_, &key_blob, &creation_blob)); |
| } |
| |
| TEST_F(TpmUtilityTest, LoadKeySuccess) { |
| TPM_HANDLE key_handle = TPM_RH_FIRST; |
| TPM_HANDLE loaded_handle; |
| EXPECT_CALL(mock_tpm_, LoadSync(kRSAStorageRootKey, _, _, _, _, _, |
| &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SetArgPointee<4>(key_handle), Return(TPM_RC_SUCCESS))); |
| std::string key_blob; |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.LoadKey(key_blob, &mock_authorization_delegate_, |
| &loaded_handle)); |
| EXPECT_EQ(loaded_handle, key_handle); |
| } |
| |
| TEST_F(TpmUtilityTest, LoadKeyFailure) { |
| TPM_HANDLE key_handle; |
| EXPECT_CALL(mock_tpm_, LoadSync(_, _, _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| std::string key_blob; |
| EXPECT_EQ( |
| TPM_RC_FAILURE, |
| utility_.LoadKey(key_blob, &mock_authorization_delegate_, &key_handle)); |
| } |
| |
| TEST_F(TpmUtilityTest, LoadKeyBadDelegate) { |
| TPM_HANDLE key_handle; |
| std::string key_blob; |
| EXPECT_EQ(SAPI_RC_INVALID_SESSIONS, |
| utility_.LoadKey(key_blob, nullptr, &key_handle)); |
| } |
| |
| TEST_F(TpmUtilityTest, LoadKeyParserFail) { |
| TPM_HANDLE key_handle; |
| std::string key_blob; |
| EXPECT_CALL(mock_blob_parser_, ParseKeyBlob(key_blob, _, _)) |
| .WillOnce(Return(false)); |
| EXPECT_EQ( |
| SAPI_RC_BAD_TCTI_STRUCTURE, |
| utility_.LoadKey(key_blob, &mock_authorization_delegate_, &key_handle)); |
| } |
| |
| TEST_F(TpmUtilityTest, LoadRSAPublicKey) { |
| const TPM_HANDLE kKeyHandle = TPM_RH_FIRST; |
| const std::string kModulus(128, '\1'); |
| const int kModulusSizeBits = 1024; |
| const uint32_t kPublicExponent = 3; |
| |
| TPM2B_SENSITIVE in_private_arg; |
| memset(&in_private_arg, 0, sizeof(TPM2B_SENSITIVE)); |
| TPM2B_PUBLIC in_public_arg; |
| memset(&in_public_arg, 0, sizeof(TPM2B_PUBLIC)); |
| TPMI_RH_HIERARCHY hierarchy_arg = 0; |
| TPM_HANDLE loaded_handle = 0; |
| |
| // Test a signing RSASSA SHA-256 key. |
| EXPECT_CALL(mock_tpm_, |
| LoadExternalSync(_, _, _, _, _, &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SaveArg<0>(&in_private_arg), SaveArg<1>(&in_public_arg), |
| SaveArg<2>(&hierarchy_arg), SetArgPointee<3>(kKeyHandle), |
| Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.LoadRSAPublicKey( |
| TpmUtility::AsymmetricKeyUsage::kSignKey, TPM_ALG_RSASSA, |
| TPM_ALG_SHA256, kModulus, kPublicExponent, |
| &mock_authorization_delegate_, &loaded_handle)); |
| testing::Mock::VerifyAndClearExpectations(&mock_tpm_); |
| EXPECT_EQ(0, in_private_arg.size); |
| EXPECT_EQ(kSign | kFixedTPM | kFixedParent, |
| in_public_arg.public_area.object_attributes); |
| EXPECT_EQ(TPM_ALG_RSASSA, |
| in_public_arg.public_area.parameters.rsa_detail.scheme.scheme); |
| EXPECT_EQ(TPM_ALG_SHA256, in_public_arg.public_area.parameters.rsa_detail |
| .scheme.details.rsassa.hash_alg); |
| EXPECT_EQ(kModulusSizeBits, |
| in_public_arg.public_area.parameters.rsa_detail.key_bits); |
| EXPECT_EQ(kPublicExponent, |
| in_public_arg.public_area.parameters.rsa_detail.exponent); |
| EXPECT_EQ(kModulus, StringFrom_TPM2B_PUBLIC_KEY_RSA( |
| in_public_arg.public_area.unique.rsa)); |
| EXPECT_EQ(TPM_RH_NULL, hierarchy_arg); |
| EXPECT_EQ(kKeyHandle, loaded_handle); |
| |
| // Test a signing SHA-256 key with the default (RSASSA) scheme. |
| memset(&in_public_arg, 0, sizeof(TPM2B_PUBLIC)); |
| EXPECT_CALL(mock_tpm_, |
| LoadExternalSync(_, _, _, _, _, &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SaveArg<1>(&in_public_arg), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.LoadRSAPublicKey( |
| TpmUtility::AsymmetricKeyUsage::kSignKey, TPM_ALG_NULL, |
| TPM_ALG_SHA256, kModulus, kPublicExponent, |
| &mock_authorization_delegate_, &loaded_handle)); |
| testing::Mock::VerifyAndClearExpectations(&mock_tpm_); |
| EXPECT_EQ(kSign | kFixedTPM | kFixedParent, |
| in_public_arg.public_area.object_attributes); |
| EXPECT_EQ(TPM_ALG_RSASSA, |
| in_public_arg.public_area.parameters.rsa_detail.scheme.scheme); |
| EXPECT_EQ(TPM_ALG_SHA256, in_public_arg.public_area.parameters.rsa_detail |
| .scheme.details.rsassa.hash_alg); |
| |
| // Test a signing RSAPSS SHA-512 key. |
| memset(&in_public_arg, 0, sizeof(TPM2B_PUBLIC)); |
| EXPECT_CALL(mock_tpm_, |
| LoadExternalSync(_, _, _, _, _, &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SaveArg<1>(&in_public_arg), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.LoadRSAPublicKey( |
| TpmUtility::AsymmetricKeyUsage::kSignKey, TPM_ALG_RSAPSS, |
| TPM_ALG_SHA512, kModulus, kPublicExponent, |
| &mock_authorization_delegate_, &loaded_handle)); |
| testing::Mock::VerifyAndClearExpectations(&mock_tpm_); |
| EXPECT_EQ(kSign | kFixedTPM | kFixedParent, |
| in_public_arg.public_area.object_attributes); |
| EXPECT_EQ(TPM_ALG_RSAPSS, |
| in_public_arg.public_area.parameters.rsa_detail.scheme.scheme); |
| EXPECT_EQ(TPM_ALG_SHA512, in_public_arg.public_area.parameters.rsa_detail |
| .scheme.details.rsapss.hash_alg); |
| |
| // Test a decrypting OAEP SHA-256 key. |
| memset(&in_public_arg, 0, sizeof(TPM2B_PUBLIC)); |
| EXPECT_CALL(mock_tpm_, |
| LoadExternalSync(_, _, _, _, _, &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SaveArg<1>(&in_public_arg), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.LoadRSAPublicKey( |
| TpmUtility::AsymmetricKeyUsage::kDecryptKey, TPM_ALG_OAEP, |
| TPM_ALG_SHA256, kModulus, kPublicExponent, |
| &mock_authorization_delegate_, &loaded_handle)); |
| testing::Mock::VerifyAndClearExpectations(&mock_tpm_); |
| EXPECT_EQ(kDecrypt | kFixedTPM | kFixedParent, |
| in_public_arg.public_area.object_attributes); |
| EXPECT_EQ(TPM_ALG_OAEP, |
| in_public_arg.public_area.parameters.rsa_detail.scheme.scheme); |
| EXPECT_EQ(TPM_ALG_SHA256, in_public_arg.public_area.parameters.rsa_detail |
| .scheme.details.oaep.hash_alg); |
| |
| // Test a decrypting SHA-256 key with the default (OAEP) scheme. |
| memset(&in_public_arg, 0, sizeof(TPM2B_PUBLIC)); |
| EXPECT_CALL(mock_tpm_, |
| LoadExternalSync(_, _, _, _, _, &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SaveArg<1>(&in_public_arg), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.LoadRSAPublicKey( |
| TpmUtility::AsymmetricKeyUsage::kDecryptKey, TPM_ALG_NULL, |
| TPM_ALG_SHA256, kModulus, kPublicExponent, |
| &mock_authorization_delegate_, &loaded_handle)); |
| testing::Mock::VerifyAndClearExpectations(&mock_tpm_); |
| EXPECT_EQ(kDecrypt | kFixedTPM | kFixedParent, |
| in_public_arg.public_area.object_attributes); |
| EXPECT_EQ(TPM_ALG_OAEP, |
| in_public_arg.public_area.parameters.rsa_detail.scheme.scheme); |
| EXPECT_EQ(TPM_ALG_SHA256, in_public_arg.public_area.parameters.rsa_detail |
| .scheme.details.oaep.hash_alg); |
| |
| // Test a decrypting RSAES key. |
| memset(&in_public_arg, 0, sizeof(TPM2B_PUBLIC)); |
| EXPECT_CALL(mock_tpm_, |
| LoadExternalSync(_, _, _, _, _, &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SaveArg<1>(&in_public_arg), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.LoadRSAPublicKey( |
| TpmUtility::AsymmetricKeyUsage::kDecryptKey, TPM_ALG_RSAES, |
| TPM_ALG_NULL, kModulus, kPublicExponent, |
| &mock_authorization_delegate_, &loaded_handle)); |
| testing::Mock::VerifyAndClearExpectations(&mock_tpm_); |
| EXPECT_EQ(kDecrypt | kFixedTPM | kFixedParent, |
| in_public_arg.public_area.object_attributes); |
| EXPECT_EQ(TPM_ALG_RSAES, |
| in_public_arg.public_area.parameters.rsa_detail.scheme.scheme); |
| |
| // Test a key that is both for decrypting and signing. |
| memset(&in_public_arg, 0, sizeof(TPM2B_PUBLIC)); |
| EXPECT_CALL(mock_tpm_, |
| LoadExternalSync(_, _, _, _, _, &mock_authorization_delegate_)) |
| .WillOnce(DoAll(SaveArg<1>(&in_public_arg), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.LoadRSAPublicKey( |
| TpmUtility::AsymmetricKeyUsage::kDecryptAndSignKey, |
| TPM_ALG_NULL, TPM_ALG_NULL, kModulus, kPublicExponent, |
| &mock_authorization_delegate_, &loaded_handle)); |
| testing::Mock::VerifyAndClearExpectations(&mock_tpm_); |
| EXPECT_EQ(kDecrypt | kSign | kFixedTPM | kFixedParent, |
| in_public_arg.public_area.object_attributes); |
| EXPECT_EQ(TPM_ALG_NULL, |
| in_public_arg.public_area.parameters.rsa_detail.scheme.scheme); |
| } |
| |
| TEST_F(TpmUtilityTest, SealedDataSuccess) { |
| std::string data_to_seal("seal_data"); |
| std::string sealed_data; |
| TPM2B_SENSITIVE_CREATE sensitive_create; |
| TPM2B_PUBLIC in_public; |
| EXPECT_CALL(mock_tpm_, |
| CreateSyncShort(kRSAStorageRootKey, _, _, _, _, _, _, _, _, _)) |
| .WillOnce(DoAll(SaveArg<1>(&sensitive_create), SaveArg<2>(&in_public), |
| Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.SealData(data_to_seal, "", &mock_authorization_delegate_, |
| &sealed_data)); |
| EXPECT_EQ(sensitive_create.sensitive.data.size, data_to_seal.size()); |
| EXPECT_EQ(0, memcmp(sensitive_create.sensitive.data.buffer, |
| data_to_seal.data(), data_to_seal.size())); |
| EXPECT_EQ(in_public.public_area.type, TPM_ALG_KEYEDHASH); |
| EXPECT_EQ(in_public.public_area.name_alg, TPM_ALG_SHA256); |
| } |
| |
| TEST_F(TpmUtilityTest, SealDataBadDelegate) { |
| std::string data_to_seal("seal_data"); |
| std::string sealed_data; |
| EXPECT_EQ(SAPI_RC_INVALID_SESSIONS, |
| utility_.SealData(data_to_seal, "", nullptr, &sealed_data)); |
| } |
| |
| TEST_F(TpmUtilityTest, SealDataFailure) { |
| std::string data_to_seal("seal_data"); |
| std::string sealed_data; |
| EXPECT_CALL(mock_tpm_, |
| CreateSyncShort(kRSAStorageRootKey, _, _, _, _, _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.SealData(data_to_seal, "", &mock_authorization_delegate_, |
| &sealed_data)); |
| } |
| |
| TEST_F(TpmUtilityTest, SealDataParserFail) { |
| std::string data_to_seal("seal_data"); |
| std::string sealed_data; |
| EXPECT_CALL(mock_blob_parser_, SerializeKeyBlob(_, _, &sealed_data)) |
| .WillOnce(Return(false)); |
| EXPECT_EQ(SAPI_RC_BAD_TCTI_STRUCTURE, |
| utility_.SealData(data_to_seal, "", &mock_authorization_delegate_, |
| &sealed_data)); |
| } |
| |
| TEST_F(TpmUtilityTest, UnsealDataSuccess) { |
| std::string sealed_data; |
| std::string tpm_unsealed_data("password"); |
| std::string unsealed_data; |
| TPM_HANDLE object_handle = 42; |
| TPM2B_PUBLIC public_data; |
| public_data.public_area.auth_policy.size = 0; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(_, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_data), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(object_handle, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<2>(public_data), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, LoadSync(_, _, _, _, _, _, _)) |
| .WillOnce(DoAll(SetArgPointee<4>(object_handle), Return(TPM_RC_SUCCESS))); |
| TPM2B_SENSITIVE_DATA out_data = Make_TPM2B_SENSITIVE_DATA(tpm_unsealed_data); |
| EXPECT_CALL(mock_tpm_, UnsealSync(object_handle, _, _, _)) |
| .WillOnce(DoAll(SetArgPointee<2>(out_data), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.UnsealData(sealed_data, &mock_authorization_delegate_, |
| &unsealed_data)); |
| EXPECT_EQ(unsealed_data, tpm_unsealed_data); |
| } |
| |
| TEST_F(TpmUtilityTest, UnsealDataBadDelegate) { |
| std::string sealed_data; |
| std::string unsealed_data; |
| EXPECT_EQ(SAPI_RC_INVALID_SESSIONS, |
| utility_.UnsealData(sealed_data, nullptr, &unsealed_data)); |
| } |
| |
| TEST_F(TpmUtilityTest, UnsealDataLoadFail) { |
| std::string sealed_data; |
| std::string unsealed_data; |
| EXPECT_CALL(mock_tpm_, LoadSync(_, _, _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.UnsealData(sealed_data, &mock_authorization_delegate_, |
| &unsealed_data)); |
| } |
| |
| TEST_F(TpmUtilityTest, UnsealDataBadKeyName) { |
| std::string sealed_data; |
| std::string unsealed_data; |
| EXPECT_CALL(mock_tpm_, ReadPublicSync(_, _, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.UnsealData(sealed_data, &mock_authorization_delegate_, |
| &unsealed_data)); |
| } |
| |
| TEST_F(TpmUtilityTest, UnsealObjectFailure) { |
| std::string sealed_data; |
| std::string unsealed_data; |
| EXPECT_CALL(mock_tpm_, UnsealSync(_, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.UnsealData(sealed_data, &mock_authorization_delegate_, |
| &unsealed_data)); |
| } |
| |
| TEST_F(TpmUtilityTest, StartSessionSuccess) { |
| EXPECT_CALL(mock_hmac_session_, StartUnboundSession(true)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.StartSession(&mock_hmac_session_)); |
| } |
| |
| TEST_F(TpmUtilityTest, StartSessionFailure) { |
| EXPECT_CALL(mock_hmac_session_, StartUnboundSession(true)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.StartSession(&mock_hmac_session_)); |
| } |
| |
| TEST_F(TpmUtilityTest, GetPolicyDigestForPcrValueSuccess) { |
| int index = 5; |
| std::string pcr_value("pcr_value"); |
| std::string policy_digest; |
| TPML_PCR_SELECTION pcr_select; |
| pcr_select.count = 1; |
| pcr_select.pcr_selections[0].hash = TPM_ALG_SHA256; |
| pcr_select.pcr_selections[0].sizeof_select = 1; |
| pcr_select.pcr_selections[0].pcr_select[index / 8] = 1 << (index % 8); |
| TPML_DIGEST pcr_values; |
| pcr_values.count = 1; |
| pcr_values.digests[0] = Make_TPM2B_DIGEST(pcr_value); |
| EXPECT_CALL(mock_tpm_, PCR_ReadSync(_, _, _, _, _)) |
| .WillOnce(DoAll(SetArgPointee<2>(pcr_select), |
| SetArgPointee<3>(pcr_values), Return(TPM_RC_SUCCESS))); |
| std::string tpm_pcr_value; |
| EXPECT_CALL(mock_trial_session_, PolicyPCR(index, _)) |
| .WillOnce(DoAll(SaveArg<1>(&tpm_pcr_value), Return(TPM_RC_SUCCESS))); |
| std::string tpm_policy_digest("digest"); |
| EXPECT_CALL(mock_trial_session_, GetDigest(_)) |
| .WillOnce( |
| DoAll(SetArgPointee<0>(tpm_policy_digest), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.GetPolicyDigestForPcrValue(index, "", &policy_digest)); |
| EXPECT_EQ(policy_digest, tpm_policy_digest); |
| EXPECT_EQ(pcr_value, tpm_pcr_value); |
| } |
| |
| TEST_F(TpmUtilityTest, GetPolicyDigestForPcrValueSuccessWithPcrValue) { |
| int index = 5; |
| std::string pcr_value("pcr_value"); |
| std::string policy_digest; |
| std::string tpm_pcr_value; |
| EXPECT_CALL(mock_trial_session_, PolicyPCR(index, _)) |
| .WillOnce(DoAll(SaveArg<1>(&tpm_pcr_value), Return(TPM_RC_SUCCESS))); |
| std::string tpm_policy_digest("digest"); |
| EXPECT_CALL(mock_trial_session_, GetDigest(_)) |
| .WillOnce( |
| DoAll(SetArgPointee<0>(tpm_policy_digest), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.GetPolicyDigestForPcrValue( |
| index, pcr_value, &policy_digest)); |
| EXPECT_EQ(policy_digest, tpm_policy_digest); |
| EXPECT_EQ(pcr_value, tpm_pcr_value); |
| } |
| |
| TEST_F(TpmUtilityTest, GetPolicyDigestForPcrValueBadSession) { |
| int index = 5; |
| std::string pcr_value("value"); |
| std::string policy_digest; |
| EXPECT_CALL(mock_trial_session_, StartUnboundSession(false)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.GetPolicyDigestForPcrValue( |
| index, pcr_value, &policy_digest)); |
| } |
| |
| TEST_F(TpmUtilityTest, GetPolicyDigestForPcrValuePcrReadFail) { |
| int index = 5; |
| std::string policy_digest; |
| EXPECT_CALL(mock_tpm_, PCR_ReadSync(_, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.GetPolicyDigestForPcrValue(index, "", &policy_digest)); |
| } |
| |
| TEST_F(TpmUtilityTest, GetPolicyDigestForPcrValueBadPcr) { |
| int index = 5; |
| std::string pcr_value("value"); |
| std::string policy_digest; |
| EXPECT_CALL(mock_trial_session_, PolicyPCR(index, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.GetPolicyDigestForPcrValue( |
| index, pcr_value, &policy_digest)); |
| } |
| |
| TEST_F(TpmUtilityTest, GetPolicyDigestForPcrValueBadDigest) { |
| int index = 5; |
| std::string pcr_value("value"); |
| std::string policy_digest; |
| EXPECT_CALL(mock_trial_session_, GetDigest(&policy_digest)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.GetPolicyDigestForPcrValue( |
| index, pcr_value, &policy_digest)); |
| } |
| |
| TEST_F(TpmUtilityTest, DefineNVSpaceSuccess) { |
| uint32_t index = 59; |
| uint32_t nvram_index = NV_INDEX_FIRST + index; |
| size_t length = 256; |
| TPMA_NV attributes = TPMA_NV_WRITEDEFINE; |
| TPM2B_NV_PUBLIC public_data; |
| EXPECT_CALL(mock_tpm_, NV_DefineSpaceSync(TPM_RH_OWNER, _, _, _, _)) |
| .WillOnce(DoAll(SaveArg<3>(&public_data), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.DefineNVSpace(index, length, attributes, "", "", |
| &mock_authorization_delegate_)); |
| EXPECT_EQ(public_data.nv_public.nv_index, nvram_index); |
| EXPECT_EQ(public_data.nv_public.name_alg, TPM_ALG_SHA256); |
| EXPECT_EQ(public_data.nv_public.attributes, attributes); |
| EXPECT_EQ(public_data.nv_public.data_size, length); |
| } |
| |
| TEST_F(TpmUtilityTest, DefineNVSpaceBadLength) { |
| size_t bad_length = 3000; |
| EXPECT_EQ(SAPI_RC_BAD_SIZE, |
| utility_.DefineNVSpace(0, bad_length, 0, "", "", |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, DefineNVSpaceBadIndex) { |
| uint32_t bad_index = 1 << 29; |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.DefineNVSpace(bad_index, 2, 0, "", "", |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, DefineNVSpaceBadSession) { |
| EXPECT_EQ(SAPI_RC_INVALID_SESSIONS, |
| utility_.DefineNVSpace(0, 2, 0, "", "", nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, DefineNVSpaceFail) { |
| uint32_t index = 59; |
| size_t length = 256; |
| EXPECT_CALL(mock_tpm_, NV_DefineSpaceSync(TPM_RH_OWNER, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.DefineNVSpace(index, length, 0, "", "", |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, DestroyNVSpaceSuccess) { |
| uint32_t index = 53; |
| uint32_t nvram_index = NV_INDEX_FIRST + index; |
| EXPECT_CALL(mock_tpm_, |
| NV_UndefineSpaceSync(TPM_RH_OWNER, _, nvram_index, _, _)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.DestroyNVSpace(index, &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, DestroyNVSpaceBadIndex) { |
| uint32_t bad_index = 1 << 29; |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.DestroyNVSpace(bad_index, &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, DestroyNVSpaceBadSession) { |
| EXPECT_EQ(SAPI_RC_INVALID_SESSIONS, utility_.DestroyNVSpace(3, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, DestroyNVSpaceFailure) { |
| uint32_t index = 53; |
| uint32_t nvram_index = NV_INDEX_FIRST + index; |
| EXPECT_CALL(mock_tpm_, |
| NV_UndefineSpaceSync(TPM_RH_OWNER, _, nvram_index, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.DestroyNVSpace(index, &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, LockNVSpaceWriteSuccess) { |
| uint32_t index = 53; |
| uint32_t nvram_index = NV_INDEX_FIRST + index; |
| EXPECT_CALL(mock_tpm_, NV_WriteLockSync(TPM_RH_OWNER, _, nvram_index, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_CALL(mock_tpm_, NV_ReadLockSync(TPM_RH_OWNER, _, nvram_index, _, _)) |
| .Times(0); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.LockNVSpace(index, false, true, true, |
| &mock_authorization_delegate_)); |
| TPMS_NV_PUBLIC public_area; |
| EXPECT_EQ(TPM_RC_SUCCESS, GetNVRAMMap(index, &public_area)); |
| EXPECT_EQ(TPMA_NV_WRITELOCKED, public_area.attributes & TPMA_NV_WRITELOCKED); |
| } |
| |
| TEST_F(TpmUtilityTest, LockNVSpaceReadSuccess) { |
| uint32_t index = 53; |
| uint32_t nvram_index = NV_INDEX_FIRST + index; |
| EXPECT_CALL(mock_tpm_, NV_WriteLockSync(TPM_RH_OWNER, _, nvram_index, _, _)) |
| .Times(0); |
| EXPECT_CALL(mock_tpm_, NV_ReadLockSync(TPM_RH_OWNER, _, nvram_index, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.LockNVSpace(index, true, false, true, |
| &mock_authorization_delegate_)); |
| TPMS_NV_PUBLIC public_area; |
| EXPECT_EQ(TPM_RC_SUCCESS, GetNVRAMMap(index, &public_area)); |
| EXPECT_EQ(TPMA_NV_READLOCKED, public_area.attributes & TPMA_NV_READLOCKED); |
| } |
| |
| TEST_F(TpmUtilityTest, LockNVSpaceBothSuccess) { |
| uint32_t index = 53; |
| uint32_t nvram_index = NV_INDEX_FIRST + index; |
| EXPECT_CALL(mock_tpm_, NV_WriteLockSync(TPM_RH_OWNER, _, nvram_index, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_CALL(mock_tpm_, NV_ReadLockSync(TPM_RH_OWNER, _, nvram_index, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.LockNVSpace(index, true, true, true, |
| &mock_authorization_delegate_)); |
| TPMS_NV_PUBLIC public_area; |
| EXPECT_EQ(TPM_RC_SUCCESS, GetNVRAMMap(index, &public_area)); |
| EXPECT_EQ( |
| (TPMA_NV_READLOCKED | TPMA_NV_WRITELOCKED), |
| public_area.attributes & (TPMA_NV_READLOCKED | TPMA_NV_WRITELOCKED)); |
| } |
| |
| TEST_F(TpmUtilityTest, LockNVSpaceBothNotOwner) { |
| uint32_t index = 53; |
| uint32_t nvram_index = NV_INDEX_FIRST + index; |
| EXPECT_CALL(mock_tpm_, NV_WriteLockSync(nvram_index, _, nvram_index, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_CALL(mock_tpm_, NV_ReadLockSync(nvram_index, _, nvram_index, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.LockNVSpace(index, true, true, false, |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, LockNVSpaceBadIndex) { |
| uint32_t bad_index = 1 << 24; |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.LockNVSpace(bad_index, true, true, true, |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, LockNVSpaceFailure) { |
| uint32_t index = 53; |
| uint32_t nvram_index = NV_INDEX_FIRST + index; |
| EXPECT_CALL(mock_tpm_, NV_WriteLockSync(TPM_RH_OWNER, _, nvram_index, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.LockNVSpace(index, true, true, true, |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, WriteNVSpaceSuccess) { |
| uint32_t index = 53; |
| uint32_t offset = 5; |
| uint32_t nvram_index = NV_INDEX_FIRST + index; |
| EXPECT_CALL(mock_tpm_, |
| NV_WriteSync(TPM_RH_OWNER, _, nvram_index, _, _, offset, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.WriteNVSpace(index, offset, "", true, false, |
| &mock_authorization_delegate_)); |
| TPMS_NV_PUBLIC public_area; |
| EXPECT_EQ(TPM_RC_SUCCESS, GetNVRAMMap(index, &public_area)); |
| EXPECT_EQ(public_area.attributes & TPMA_NV_WRITTEN, TPMA_NV_WRITTEN); |
| } |
| |
| TEST_F(TpmUtilityTest, WriteNVSpaceNotOwner) { |
| uint32_t index = 53; |
| uint32_t offset = 5; |
| uint32_t nvram_index = NV_INDEX_FIRST + index; |
| EXPECT_CALL(mock_tpm_, |
| NV_WriteSync(nvram_index, _, nvram_index, _, _, offset, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.WriteNVSpace(index, offset, "", false, false, |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, ExtendNVSpace) { |
| uint32_t index = 53; |
| uint32_t offset = 5; |
| uint32_t nvram_index = NV_INDEX_FIRST + index; |
| EXPECT_CALL(mock_tpm_, NV_ExtendSync(TPM_RH_OWNER, _, nvram_index, _, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.WriteNVSpace(index, offset, "", true, true, |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, WriteNVSpaceBadSize) { |
| uint32_t index = 53; |
| std::string nvram_data(1025, 0); |
| EXPECT_EQ(SAPI_RC_BAD_SIZE, |
| utility_.WriteNVSpace(index, 0, nvram_data, true, false, |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, WriteNVSpaceBadIndex) { |
| uint32_t bad_index = 1 << 24; |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.WriteNVSpace(bad_index, 0, "", true, false, |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, WriteNVSpaceFailure) { |
| uint32_t index = 53; |
| uint32_t offset = 5; |
| uint32_t nvram_index = NV_INDEX_FIRST + index; |
| EXPECT_CALL(mock_tpm_, |
| NV_WriteSync(TPM_RH_OWNER, _, nvram_index, _, _, offset, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.WriteNVSpace(index, offset, "", true, false, |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, ReadNVSpaceSuccess) { |
| uint32_t index = 53; |
| uint32_t offset = 5; |
| uint32_t nv_index = NV_INDEX_FIRST + index; |
| size_t length = 24; |
| std::string nvram_data; |
| EXPECT_CALL(mock_tpm_, |
| NV_ReadSync(nv_index, _, nv_index, _, length, offset, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.ReadNVSpace(index, offset, length, false, &nvram_data, |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, ReadNVSpaceOwner) { |
| uint32_t index = 53; |
| uint32_t offset = 5; |
| uint32_t nv_index = NV_INDEX_FIRST + index; |
| size_t length = 24; |
| std::string nvram_data; |
| EXPECT_CALL(mock_tpm_, |
| NV_ReadSync(TPM_RH_OWNER, _, nv_index, _, length, offset, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.ReadNVSpace(index, offset, length, true, &nvram_data, |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, ReadNVSpaceBadReadLength) { |
| size_t length = 1025; |
| std::string nvram_data; |
| EXPECT_EQ(SAPI_RC_BAD_SIZE, |
| utility_.ReadNVSpace(52, 0, length, true, &nvram_data, |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, ReadNVSpaceBadIndex) { |
| uint32_t bad_index = 1 << 24; |
| std::string nvram_data; |
| EXPECT_EQ(SAPI_RC_BAD_PARAMETER, |
| utility_.ReadNVSpace(bad_index, 0, 5, true, &nvram_data, |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, ReadNVSpaceFailure) { |
| uint32_t index = 53; |
| uint32_t offset = 5; |
| uint32_t nv_index = NV_INDEX_FIRST + index; |
| size_t length = 24; |
| std::string nvram_data; |
| EXPECT_CALL(mock_tpm_, |
| NV_ReadSync(nv_index, _, nv_index, _, length, offset, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.ReadNVSpace(index, offset, length, false, &nvram_data, |
| &mock_authorization_delegate_)); |
| } |
| |
| TEST_F(TpmUtilityTest, GetNVSpaceNameSuccess) { |
| uint32_t index = 53; |
| uint32_t nvram_index = NV_INDEX_FIRST + index; |
| std::string name; |
| EXPECT_CALL(mock_tpm_, NV_ReadPublicSync(nvram_index, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.GetNVSpaceName(index, &name)); |
| } |
| |
| TEST_F(TpmUtilityTest, GetNVSpaceNameFailure) { |
| uint32_t index = 53; |
| std::string name; |
| EXPECT_CALL(mock_tpm_, NV_ReadPublicSync(_, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.GetNVSpaceName(index, &name)); |
| } |
| |
| TEST_F(TpmUtilityTest, GetNVSpacePublicAreaCachedSuccess) { |
| uint32_t index = 53; |
| TPMS_NV_PUBLIC public_area; |
| SetNVRAMMap(index, public_area); |
| EXPECT_CALL(mock_tpm_, NV_ReadPublicSync(_, _, _, _, _)).Times(0); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.GetNVSpacePublicArea(index, &public_area)); |
| } |
| |
| TEST_F(TpmUtilityTest, GetNVSpacePublicAreaSuccess) { |
| uint32_t index = 53; |
| uint32_t nvram_index = NV_INDEX_FIRST + index; |
| TPMS_NV_PUBLIC public_area; |
| EXPECT_CALL(mock_tpm_, NV_ReadPublicSync(nvram_index, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.GetNVSpacePublicArea(index, &public_area)); |
| } |
| |
| TEST_F(TpmUtilityTest, GetNVSpacePublicAreaFailure) { |
| uint32_t index = 53; |
| TPMS_NV_PUBLIC public_area; |
| EXPECT_CALL(mock_tpm_, NV_ReadPublicSync(_, _, _, _, _)) |
| .WillOnce(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.GetNVSpacePublicArea(index, &public_area)); |
| } |
| |
| TEST_F(TpmUtilityTest, SetKnownPasswordSuccess) { |
| EXPECT_CALL(mock_tpm_state_, IsOwnerPasswordSet()).WillOnce(Return(false)); |
| EXPECT_CALL(mock_tpm_, HierarchyChangeAuthSync(TPM_RH_OWNER, _, _, _)) |
| .WillOnce(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, SetKnownOwnerPassword("password")); |
| } |
| |
| TEST_F(TpmUtilityTest, SetKnownPasswordOwnershipDone) { |
| EXPECT_EQ(TPM_RC_SUCCESS, SetKnownOwnerPassword("password")); |
| } |
| |
| TEST_F(TpmUtilityTest, SetKnownPasswordFailure) { |
| EXPECT_CALL(mock_tpm_state_, IsOwnerPasswordSet()).WillOnce(Return(false)); |
| EXPECT_CALL(mock_tpm_, HierarchyChangeAuthSync(TPM_RH_OWNER, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, SetKnownOwnerPassword("password")); |
| } |
| |
| TEST_F(TpmUtilityTest, RootKeysSuccess) { |
| EXPECT_EQ(TPM_RC_SUCCESS, CreateStorageRootKeys("password")); |
| } |
| |
| TEST_F(TpmUtilityTest, RootKeysHandleConsistency) { |
| TPM_HANDLE test_handle = 42; |
| EXPECT_CALL(mock_tpm_, CreatePrimarySyncShort(_, _, _, _, _, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<3>(test_handle), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, EvictControlSync(_, _, test_handle, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, CreateStorageRootKeys("password")); |
| } |
| |
| TEST_F(TpmUtilityTest, RootKeysCreateFailure) { |
| EXPECT_CALL(mock_tpm_, CreatePrimarySyncShort(_, _, _, _, _, _, _, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, CreateStorageRootKeys("password")); |
| } |
| |
| TEST_F(TpmUtilityTest, RootKeysPersistFailure) { |
| EXPECT_CALL(mock_tpm_, EvictControlSync(_, _, _, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, CreateStorageRootKeys("password")); |
| } |
| |
| TEST_F(TpmUtilityTest, RootKeysAlreadyExist) { |
| SetExistingKeyHandleExpectation(kRSAStorageRootKey); |
| SetExistingKeyHandleExpectation(kECCStorageRootKey); |
| EXPECT_EQ(TPM_RC_SUCCESS, CreateStorageRootKeys("password")); |
| } |
| |
| TEST_F(TpmUtilityTest, SaltingKeySuccess) { |
| TPM2B_PUBLIC public_area; |
| EXPECT_CALL(mock_tpm_, CreateSyncShort(_, _, _, _, _, _, _, _, _, _)) |
| .WillOnce(DoAll(SaveArg<2>(&public_area), Return(TPM_RC_SUCCESS))); |
| EXPECT_EQ(TPM_RC_SUCCESS, CreateSaltingKey("password")); |
| EXPECT_EQ(TPM_ALG_SHA256, public_area.public_area.name_alg); |
| } |
| |
| TEST_F(TpmUtilityTest, SaltingKeyConsistency) { |
| TPM_HANDLE test_handle = 42; |
| EXPECT_CALL(mock_tpm_, LoadSync(_, _, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<4>(test_handle), Return(TPM_RC_SUCCESS))); |
| EXPECT_CALL(mock_tpm_, EvictControlSync(_, _, test_handle, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, CreateSaltingKey("password")); |
| } |
| |
| TEST_F(TpmUtilityTest, SaltingKeyCreateFailure) { |
| EXPECT_CALL(mock_tpm_, CreateSyncShort(_, _, _, _, _, _, _, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, CreateSaltingKey("password")); |
| } |
| |
| TEST_F(TpmUtilityTest, SaltingKeyLoadFailure) { |
| EXPECT_CALL(mock_tpm_, LoadSync(_, _, _, _, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, CreateSaltingKey("password")); |
| } |
| |
| TEST_F(TpmUtilityTest, SaltingKeyPersistFailure) { |
| EXPECT_CALL(mock_tpm_, EvictControlSync(_, _, _, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, CreateSaltingKey("password")); |
| } |
| |
| TEST_F(TpmUtilityTest, SaltingKeyAlreadyExists) { |
| SetExistingKeyHandleExpectation(kSaltingKey); |
| EXPECT_EQ(TPM_RC_SUCCESS, CreateSaltingKey("password")); |
| } |
| |
| TEST_F(TpmUtilityTest, SetDictionaryAttackParametersSuccess) { |
| EXPECT_CALL(mock_tpm_, DictionaryAttackParametersSync(TPM_RH_LOCKOUT, _, 1, 2, |
| 3, nullptr)) |
| .WillRepeatedly(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.SetDictionaryAttackParameters(1, 2, 3, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, SetDictionaryAttackParametersFailure) { |
| EXPECT_CALL(mock_tpm_, DictionaryAttackParametersSync(TPM_RH_LOCKOUT, _, 1, 2, |
| 3, nullptr)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.SetDictionaryAttackParameters(1, 2, 3, nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, ResetDictionaryAttackLockSuccess) { |
| EXPECT_CALL(mock_tpm_, |
| DictionaryAttackLockResetSync(TPM_RH_LOCKOUT, _, nullptr)) |
| .WillRepeatedly(Return(TPM_RC_SUCCESS)); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.ResetDictionaryAttackLock(nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, ResetDictionaryAttackLockFailure) { |
| EXPECT_CALL(mock_tpm_, |
| DictionaryAttackLockResetSync(TPM_RH_LOCKOUT, _, nullptr)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.ResetDictionaryAttackLock(nullptr)); |
| } |
| |
| TEST_F(TpmUtilityTest, GetEndorsementKey) { |
| EXPECT_CALL(mock_tpm_, CreatePrimarySyncShort(TPM_RH_ENDORSEMENT, _, _, _, _, |
| _, _, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_SUCCESS)); |
| TPM_HANDLE key_handle; |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.GetEndorsementKey(TPM_ALG_RSA, nullptr, |
| nullptr, &key_handle)); |
| } |
| |
| TEST_F(TpmUtilityTest, GetEndorsementKeyFail) { |
| EXPECT_CALL(mock_tpm_, CreatePrimarySyncShort(TPM_RH_ENDORSEMENT, _, _, _, _, |
| _, _, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| TPM_HANDLE key_handle; |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.GetEndorsementKey(TPM_ALG_RSA, nullptr, |
| nullptr, &key_handle)); |
| } |
| |
| TEST_F(TpmUtilityTest, CreateIdentityKey) { |
| EXPECT_CALL(mock_tpm_, CreateSyncShort(_, _, _, _, _, _, _, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_SUCCESS)); |
| std::string key_blob; |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.CreateIdentityKey(TPM_ALG_RSA, nullptr, &key_blob)); |
| } |
| |
| TEST_F(TpmUtilityTest, CreateIdentityKeyFail) { |
| EXPECT_CALL(mock_tpm_, CreateSyncShort(_, _, _, _, _, _, _, _, _, _)) |
| .WillRepeatedly(Return(TPM_RC_FAILURE)); |
| std::string key_blob; |
| EXPECT_EQ(TPM_RC_FAILURE, |
| utility_.CreateIdentityKey(TPM_ALG_RSA, nullptr, &key_blob)); |
| } |
| |
| TEST_F(TpmUtilityTest, DeclareTpmFirmwareStableNonCr50) { |
| SetCr50(false); |
| EXPECT_CALL(mock_transceiver_, SendCommandAndWait(_)) |
| .Times(0); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.DeclareTpmFirmwareStable()); |
| } |
| |
| TEST_F(TpmUtilityTest, DeclareTpmFirmwareStableCr50Success) { |
| // A hand-coded kCr50SubcmdInvalidateInactiveRW command and response. |
| std::string expected_command( |
| "\x80\x01" // tag=TPM_ST_NO_SESSIONS |
| "\x00\x00\x00\x0C" // size=12 |
| "\x20\x00\x00\x00" // code=kCr50VendorCC |
| "\x00\x14", // subcommand=kCr50SubcmdInvalidateInactiveRW |
| 12); |
| std::string command_response( |
| "\x80\x01" // tag=TPM_ST_NO_SESSIONS |
| "\x00\x00\x00\x0C" // size=12 |
| "\x00\x00\x00\x00" // code=TPM_RC_SUCCESS |
| "\x00\x14", // subcommand=kCr50SubcmdInvalidateInactiveRW |
| 12); |
| SetCr50(true); |
| EXPECT_CALL(mock_transceiver_, SendCommandAndWait(expected_command)) |
| .WillOnce(Return(command_response)); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.DeclareTpmFirmwareStable()); |
| } |
| |
| TEST_F(TpmUtilityTest, DeclareTpmFirmwareStableCr50Failure) { |
| // A hand-coded kCr50SubcmdInvalidateInactiveRW command and response. |
| std::string expected_command( |
| "\x80\x01" // tag=TPM_ST_NO_SESSIONS |
| "\x00\x00\x00\x0C" // size=12 |
| "\x20\x00\x00\x00" // code=kCr50VendorCC |
| "\x00\x14", // subcommand=kCr50SubcmdInvalidateInactiveRW |
| 12); |
| std::string command_response( |
| "\x80\x01" // tag=TPM_ST_NO_SESSIONS |
| "\x00\x00\x00\x0C" // size=10 |
| "\x00\x00\x01\x01" // code=TPM_RC_FAILURE |
| "\x00\x14", // subcommand=kCr50SubcmdInvalidateInactiveRW |
| 12); |
| SetCr50(true); |
| EXPECT_CALL(mock_transceiver_, SendCommandAndWait(expected_command)) |
| .WillOnce(Return(command_response)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.DeclareTpmFirmwareStable()); |
| } |
| |
| TEST_F(TpmUtilityTest, GetPublicRSAEndorsementKeyModulus_NoDataInNvram) { |
| std::string ekm; |
| EXPECT_EQ(SAPI_RC_CORRUPTED_DATA, |
| utility_.GetPublicRSAEndorsementKeyModulus(&ekm)); |
| } |
| |
| TEST_F(TpmUtilityTest, GetPublicRSAEndorsementKeyModulus_EmptyNvram) { |
| uint32_t nv_index = 29360128; |
| TPM2B_MAX_NV_BUFFER nvram_data_buffer; |
| std::vector<unsigned char> cert = {}; |
| nvram_data_buffer.size = cert.size(); |
| memcpy(nvram_data_buffer.buffer, cert.data(), cert.size()); |
| |
| TPM2B_NV_PUBLIC public_area; |
| TPMS_NV_PUBLIC public_data; |
| public_area.nv_public = public_data; |
| public_data.data_size = 0; |
| |
| EXPECT_CALL(mock_tpm_, NV_ReadPublicSync(nv_index, _, _, _, _)) |
| .WillOnce(DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| |
| EXPECT_CALL(mock_tpm_, NV_ReadSync(_, _, _, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<6>(nvram_data_buffer), Return(TPM_RC_SUCCESS))); |
| |
| std::string ekm; |
| EXPECT_EQ(SAPI_RC_CORRUPTED_DATA, |
| utility_.GetPublicRSAEndorsementKeyModulus(&ekm)); |
| } |
| |
| TEST_F(TpmUtilityTest, GetPublicRSAEndorsementKeyModulus_InvalidDataInNvram) { |
| uint32_t nv_index = 29360128; |
| TPM2B_MAX_NV_BUFFER nvram_data_buffer; |
| std::vector<unsigned char> cert = {1, 2, 3, 4}; |
| nvram_data_buffer.size = cert.size(); |
| memcpy(nvram_data_buffer.buffer, cert.data(), cert.size()); |
| |
| TPM2B_NV_PUBLIC public_area; |
| TPMS_NV_PUBLIC public_data; |
| public_area.nv_public = public_data; |
| public_data.data_size = 4; |
| |
| EXPECT_CALL(mock_tpm_, NV_ReadPublicSync(nv_index, _, _, _, _)) |
| .WillOnce(DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| |
| EXPECT_CALL(mock_tpm_, NV_ReadSync(_, _, _, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<6>(nvram_data_buffer), Return(TPM_RC_SUCCESS))); |
| |
| std::string ekm; |
| EXPECT_EQ(SAPI_RC_CORRUPTED_DATA, |
| utility_.GetPublicRSAEndorsementKeyModulus(&ekm)); |
| } |
| |
| TEST_F(TpmUtilityTest, |
| GetPublicRSAEndorsementKeyModulus_ValidCertificateInNvram) { |
| std::string hex_encoded_cert = |
| "308203EB308202D3A00302010202105A12528603AC1ABE3FE8EB925C951823300D06092A" |
| "864886F70D01010B0500308180310B30090603550406130255533113301106035504080C" |
| "0A43616C69666F726E696131143012060355040A0C0B476F6F676C6520496E632E312430" |
| "22060355040B0C1B456E67696E656572696E6720616E6420446576656C6F706D656E7431" |
| "20301E06035504030C1743524F532054504D2050524420454B20524F4F54204341301E17" |
| "0D3137303232313030303030325A170D3237303232313030303030325A30003082012230" |
| "0D06092A864886F70D01010105000382010F003082010A0282010100AC5869BD60F30463" |
| "612BB0C472AA19E5400E524A213290EBFB728D1AAC956F74B7CF6A8D57F17C94D4BE2B3D" |
| "07FD882CF708C30C476DCB1FF32695A8BAC77BDD5C04E89E2AB228D6EDFF2EFAA54BE9C3" |
| "0F9D211E2E42DE7E50CF424EEE6C310D677D8870522E8C953711BE42C9B94579D56D4815" |
| "60926606C60D74EFEEB013869C0424BB7D8585F79159BE7F476625B9BD2701D1C5ABA6D4" |
| "07A4724C2165C176C45CD2188576ADC20303C3368D11603CFEEE4CFD81EB9C9EACF0029C" |
| "4F41B2E4033AB68453884D5BB3E0DD9F680E150CB604428546CFA32B05743B073BAE9796" |
| "4A847756BB79D132EAEFF44EE1B25315C6B45CE74087A777CFD142769B5CF4E502030100" |
| "01A381DF3081DC300E0603551D0F0101FF04040302002030510603551D110101FF044730" |
| "45A443304131163014060567810502010C0B69643A3437344634463437310F300D060567" |
| "810502020C044831423231163014060567810502030C0B69643A3030313330303337300C" |
| "0603551D130101FF0402300030130603551D20040C300A3008060667810C010202301F06" |
| "03551D23041830168014153934FC5919CD2982F1F47FAD85D64469A1A17B30100603551D" |
| "25040930070605678105080130210603551D09041A3018301606056781050210310D300B" |
| "0C03322E30020100020110300D06092A864886F70D01010B05000382010100AE963A2EC0" |
| "72B8DC7C673389B62112CFDEAD6A7C2A1D5142E74D628B9FCA1599C9705A23C2FCB3A529" |
| "6B5CE3C2CB78A82B99D03D3B2E892C779EC46A2476CE70B68BE3FC87F1FC0B15A551F392" |
| "33AAB7A0E0B425C709790C05298F101AC0CF95FE5C2502D4E5D78233041EBB66CFC0AA59" |
| "983E20C915D7A35AE025FBE8ABBC898FD475288512C8BA2B70F4185E00A28A53D241188C" |
| "C9216D6AA8FA0F15DE4BD8EF11A78F55B89C1C330A6C39EC6647954C816FB74BEFA02CAB" |
| "C2B036B3E88DF7AE13F99449A2CADD70F322F64EFC437BA0A74BAE8354EAE44A5B0D5D66" |
| "A3A6F14630157CD7BABDC6B0FD45EC71D208DD7BF1EA014540E46865E34947B87A2668"; |
| std::vector<uint8_t> cert; |
| base::HexStringToBytes(hex_encoded_cert, &cert); |
| |
| ASSERT_TRUE(cert.size() <= MAX_NV_BUFFER_SIZE); |
| |
| uint32_t nv_index = 29360128; |
| TPM2B_MAX_NV_BUFFER nvram_data_buffer; |
| |
| nvram_data_buffer.size = cert.size(); |
| memcpy(nvram_data_buffer.buffer, cert.data(), cert.size()); |
| |
| TPM2B_NV_PUBLIC public_area; |
| TPMS_NV_PUBLIC public_data; |
| public_data.data_size = cert.size(); |
| public_area.nv_public = public_data; |
| |
| EXPECT_CALL(mock_tpm_, NV_ReadPublicSync(nv_index, _, _, _, _)) |
| .WillOnce(DoAll(SetArgPointee<2>(public_area), Return(TPM_RC_SUCCESS))); |
| |
| EXPECT_CALL(mock_tpm_, NV_ReadSync(_, _, _, _, _, _, _, _)) |
| .WillRepeatedly( |
| DoAll(SetArgPointee<6>(nvram_data_buffer), Return(TPM_RC_SUCCESS))); |
| |
| std::string ekm; |
| EXPECT_EQ(TPM_RC_SUCCESS, |
| utility_.GetPublicRSAEndorsementKeyModulus(&ekm)); |
| std::string hex_encoded_ekm = |
| "AC5869BD60F30463612BB0C472AA19E5400E524A213290EBFB728D1AAC956F74B7CF6A8D" |
| "57F17C94D4BE2B3D07FD882CF708C30C476DCB1FF32695A8BAC77BDD5C04E89E2AB228D6" |
| "EDFF2EFAA54BE9C30F9D211E2E42DE7E50CF424EEE6C310D677D8870522E8C953711BE42" |
| "C9B94579D56D481560926606C60D74EFEEB013869C0424BB7D8585F79159BE7F476625B9" |
| "BD2701D1C5ABA6D407A4724C2165C176C45CD2188576ADC20303C3368D11603CFEEE4CFD" |
| "81EB9C9EACF0029C4F41B2E4033AB68453884D5BB3E0DD9F680E150CB604428546CFA32B" |
| "05743B073BAE97964A847756BB79D132EAEFF44EE1B25315C6B45CE74087A777CFD14276" |
| "9B5CF4E5"; |
| EXPECT_EQ(hex_encoded_ekm, |
| base::HexEncode(ekm.data(), ekm.size())); |
| } |
| |
| TEST_F(TpmUtilityTest, ManageCCDPwdNonCr50) { |
| SetCr50(false); |
| EXPECT_CALL(mock_transceiver_, SendCommandAndWait(_)) |
| .Times(0); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.ManageCCDPwd(true)); |
| } |
| |
| TEST_F(TpmUtilityTest, ManageCCDPwdCr50Success) { |
| // A hand-coded kCr50SubcmdManageCCDPwd command (two variants: true and false) |
| // and response. |
| std::string expected_command_true( |
| "\x80\x01" // tag=TPM_ST_NO_SESSIONS |
| "\x00\x00\x00\x0D" // size=13 |
| "\x20\x00\x00\x00" // code=kCr50VendorCC |
| "\x00\x21" // subcommand=kCr50SubcmdManageCCDPwd |
| "\x01", // value=true |
| 13); |
| std::string expected_command_false( |
| "\x80\x01" // tag=TPM_ST_NO_SESSIONS |
| "\x00\x00\x00\x0D" // size=13 |
| "\x20\x00\x00\x00" // code=kCr50VendorCC |
| "\x00\x21" // subcommand=kCr50SubcmdManageCCDPwd |
| "\x00", // value=false |
| 13); |
| std::string command_response( |
| "\x80\x01" // tag=TPM_ST_NO_SESSIONS |
| "\x00\x00\x00\x0C" // size=12 |
| "\x00\x00\x00\x00" // code=TPM_RC_SUCCESS |
| "\x00\x21", // subcommand=kCr50SubcmdManageCCDPwd |
| 12); |
| SetCr50(true); |
| EXPECT_CALL(mock_transceiver_, SendCommandAndWait(expected_command_true)) |
| .WillOnce(Return(command_response)); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.ManageCCDPwd(true)); |
| testing::Mock::VerifyAndClearExpectations(&mock_transceiver_); |
| EXPECT_CALL(mock_transceiver_, SendCommandAndWait(expected_command_false)) |
| .WillOnce(Return(command_response)); |
| EXPECT_EQ(TPM_RC_SUCCESS, utility_.ManageCCDPwd(false)); |
| } |
| |
| TEST_F(TpmUtilityTest, ManageCCDPwdFailure) { |
| // A hand-coded kCr50SubcmdManageCCDPwd command and response. |
| std::string expected_command( |
| "\x80\x01" // tag=TPM_ST_NO_SESSIONS |
| "\x00\x00\x00\x0D" // size=13 |
| "\x20\x00\x00\x00" // code=kCr50VendorCC |
| "\x00\x21" // subcommand=kCr50SubcmdManageCCDPwd |
| "\x01", // value=true |
| 13); |
| std::string command_response( |
| "\x80\x01" // tag=TPM_ST_NO_SESSIONS |
| "\x00\x00\x00\x0C" // size=12 |
| "\x00\x00\x01\x01" // code=TPM_RC_FAILURE |
| "\x00\x21", // subcommand=kCr50SubcmdManageCCDPwd |
| 12); |
| SetCr50(true); |
| EXPECT_CALL(mock_transceiver_, SendCommandAndWait(expected_command)) |
| .WillOnce(Return(command_response)); |
| EXPECT_EQ(TPM_RC_FAILURE, utility_.ManageCCDPwd(true)); |
| } |
| |
| } // namespace trunks |
