/* * Copyright (C) 2021 The Android Open Source Probject * * 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. */ #define LOG_TAG "UsbAidlTest" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define TIMEOUT_PERIOD 10 using ::aidl::android::hardware::usb::AltModeData; using ::aidl::android::hardware::usb::BnUsbCallback; using ::aidl::android::hardware::usb::ComplianceWarning; using ::aidl::android::hardware::usb::DisplayPortAltModePinAssignment; using ::aidl::android::hardware::usb::DisplayPortAltModeStatus; using ::aidl::android::hardware::usb::IUsb; using ::aidl::android::hardware::usb::IUsbCallback; using ::aidl::android::hardware::usb::LinkTrainingStatus; using ::aidl::android::hardware::usb::PlugOrientation; using ::aidl::android::hardware::usb::PortDataRole; using ::aidl::android::hardware::usb::PortMode; using ::aidl::android::hardware::usb::PortPowerRole; using ::aidl::android::hardware::usb::PortRole; using ::aidl::android::hardware::usb::PortStatus; using ::aidl::android::hardware::usb::Status; using ::aidl::android::hardware::usb::UsbDataStatus; using ::ndk::ScopedAStatus; using ::ndk::SpAIBinder; using std::vector; using std::shared_ptr; using std::string; // The main test class for the USB aidl hal class UsbAidlTest : public testing::TestWithParam { public: // Callback class for the USB aidl hal. // Usb Hal will call this object upon role switch or port query. class UsbCallback : public BnUsbCallback { UsbAidlTest& parent_; int cookie; public: UsbCallback(UsbAidlTest& parent, int cookie) : parent_(parent), cookie(cookie){}; virtual ~UsbCallback() = default; // Callback method for the port status. ScopedAStatus notifyPortStatusChange(const vector& currentPortStatus, Status retval) override { if (retval == Status::SUCCESS && currentPortStatus.size() > 0) { parent_.usb_last_port_status.portName = currentPortStatus[0].portName.c_str(); parent_.usb_last_port_status.currentDataRole = currentPortStatus[0].currentDataRole; parent_.usb_last_port_status.currentPowerRole = currentPortStatus[0].currentPowerRole; parent_.usb_last_port_status.currentMode = currentPortStatus[0].currentMode; } parent_.usb_last_cookie = cookie; return ScopedAStatus::ok(); } // Callback method for the status of role switch operation. ScopedAStatus notifyRoleSwitchStatus(const string& /*portName*/, const PortRole& newRole, Status retval, int64_t transactionId) override { parent_.usb_last_status = retval; parent_.usb_last_cookie = cookie; parent_.usb_last_port_role = newRole; parent_.usb_role_switch_done = true; parent_.last_transactionId = transactionId; parent_.notify(); return ScopedAStatus::ok(); } // Callback method for the status of enableUsbData operation ScopedAStatus notifyEnableUsbDataStatus(const string& /*portName*/, bool /*enable*/, Status /*retval*/, int64_t transactionId) override { parent_.last_transactionId = transactionId; parent_.usb_last_cookie = cookie; parent_.enable_usb_data_done = true; parent_.notify(); return ScopedAStatus::ok(); } // Callback method for the status of enableUsbData operation ScopedAStatus notifyEnableUsbDataWhileDockedStatus(const string& /*portName*/, Status /*retval*/, int64_t transactionId) override { parent_.last_transactionId = transactionId; parent_.usb_last_cookie = cookie; parent_.enable_usb_data_while_docked_done = true; parent_.notify(); return ScopedAStatus::ok(); } // Callback method for the status of enableContaminantPresenceDetection ScopedAStatus notifyContaminantEnabledStatus(const string& /*portName*/, bool /*enable*/, Status /*retval*/, int64_t transactionId) override { parent_.last_transactionId = transactionId; parent_.usb_last_cookie = cookie; parent_.enable_contaminant_done = true; parent_.notify(); return ScopedAStatus::ok(); } // Callback method for the status of queryPortStatus operation ScopedAStatus notifyQueryPortStatus(const string& /*portName*/, Status /*retval*/, int64_t transactionId) override { parent_.last_transactionId = transactionId; parent_.notify(); return ScopedAStatus::ok(); } // Callback method for the status of limitPowerTransfer operation ScopedAStatus notifyLimitPowerTransferStatus(const string& /*portName*/, bool /*limit*/, Status /*retval*/, int64_t transactionId) override { parent_.last_transactionId = transactionId; parent_.usb_last_cookie = cookie; parent_.limit_power_transfer_done = true; parent_.notify(); return ScopedAStatus::ok(); } // Callback method for the status of resetUsbPortStatus operation ScopedAStatus notifyResetUsbPortStatus(const string& /*portName*/, Status /*retval*/, int64_t transactionId) override { ALOGI("enter notifyResetUsbPortStatus"); parent_.last_transactionId = transactionId; parent_.usb_last_cookie = cookie; parent_.reset_usb_port_done = true; parent_.notify(); return ScopedAStatus::ok(); } }; virtual void SetUp() override { ALOGI("Setup"); usb = IUsb::fromBinder( SpAIBinder(AServiceManager_waitForService(GetParam().c_str()))); ASSERT_NE(usb, nullptr); usb_cb_2 = ::ndk::SharedRefBase::make(*this, 2); ASSERT_NE(usb_cb_2, nullptr); const auto& ret = usb->setCallback(usb_cb_2); ASSERT_TRUE(ret.isOk()); } virtual void TearDown() override { ALOGI("Teardown"); } // Used as a mechanism to inform the test about data/event callback. inline void notify() { std::unique_lock lock(usb_mtx); usb_count++; usb_cv.notify_one(); } // Test code calls this function to wait for data/event callback. inline std::cv_status wait() { std::unique_lock lock(usb_mtx); std::cv_status status = std::cv_status::no_timeout; auto now = std::chrono::system_clock::now(); while (usb_count == 0) { status = usb_cv.wait_until(lock, now + std::chrono::seconds(TIMEOUT_PERIOD)); if (status == std::cv_status::timeout) { ALOGI("timeout"); return status; } } usb_count--; return status; } // USB aidl hal Proxy shared_ptr usb; // Callback objects for usb aidl // Methods of these objects are called to notify port status updates. shared_ptr usb_cb_1, usb_cb_2; // The last conveyed status of the USB ports. // Stores information of currentt_data_role, power_role for all the USB ports PortStatus usb_last_port_status; // Status of the last role switch operation. Status usb_last_status; // Port role information of the last role switch operation. PortRole usb_last_port_role; // Flag to indicate the invocation of role switch callback. bool usb_role_switch_done; // Flag to indicate the invocation of notifyContaminantEnabledStatus callback. bool enable_contaminant_done; // Flag to indicate the invocation of notifyEnableUsbDataStatus callback. bool enable_usb_data_done; // Flag to indicate the invocation of notifyEnableUsbDataWhileDockedStatus callback. bool enable_usb_data_while_docked_done; // Flag to indicate the invocation of notifyLimitPowerTransferStatus callback. bool limit_power_transfer_done; // Flag to indicate the invocation of notifyResetUsbPort callback. bool reset_usb_port_done; // Stores the cookie of the last invoked usb callback object. int usb_last_cookie; // Last transaction ID that was recorded. int64_t last_transactionId; // synchronization primitives to coordinate between main test thread // and the callback thread. std::mutex usb_mtx; std::condition_variable usb_cv; int usb_count = 0; // Stores usb version int32_t usb_version; }; /* * Test to see if setCallback succeeds. * Callback object is created and registered. */ TEST_P(UsbAidlTest, setCallback) { ALOGI("UsbAidlTest setCallback start"); usb_cb_1 = ::ndk::SharedRefBase::make(*this, 1); ASSERT_NE(usb_cb_1, nullptr); const auto& ret = usb->setCallback(usb_cb_1); ASSERT_TRUE(ret.isOk()); ALOGI("UsbAidlTest setCallback end"); } /* * Check to see if querying type-c * port status succeeds. * The callback parameters are checked to see if the transaction id * matches. */ TEST_P(UsbAidlTest, queryPortStatus) { ALOGI("UsbAidlTest queryPortStatus start"); int64_t transactionId = rand() % 10000; const auto& ret = usb->queryPortStatus(transactionId); ASSERT_TRUE(ret.isOk()); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); ALOGI("UsbAidlTest queryPortStatus end: %s", usb_last_port_status.portName.c_str()); } /* * Query port status to Check to see whether only one of DISABLED_DOCK, * DISABLED_DOCK_DEVICE_MODE, DISABLED_DOCK_HOST_MODE is set at the most. * The callback parameters are checked to see if the transaction id * matches. */ TEST_P(UsbAidlTest, DisabledDataStatusCheck) { int disabledCount = 0; ALOGI("UsbAidlTest DataStatusCheck start"); auto retVersion = usb->getInterfaceVersion(&usb_version); ASSERT_TRUE(retVersion.isOk()) << retVersion; if (usb_version < 2) { ALOGI("UsbAidlTest skipping DataStatusCheck on older interface versions"); GTEST_SKIP(); } int64_t transactionId = rand() % 10000; const auto& ret = usb->queryPortStatus(transactionId); ASSERT_TRUE(ret.isOk()); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); ALOGI("UsbAidlTest DataStatusCheck portName: %s", usb_last_port_status.portName.c_str()); if (usb_last_port_status.usbDataStatus.size() > 1) { for (UsbDataStatus dataStatus : usb_last_port_status.usbDataStatus) { if (dataStatus == UsbDataStatus::DISABLED_DOCK || dataStatus == UsbDataStatus::DISABLED_DOCK_DEVICE_MODE || dataStatus == UsbDataStatus::DISABLED_DOCK_HOST_MODE) { disabledCount++; } } } EXPECT_GE(1, disabledCount); ALOGI("UsbAidlTest DataStatusCheck end"); } /* * Trying to switch a non-existent port should fail. * This test case tried to switch the port with empty * name which is expected to fail. * The callback parameters are checked to see if the transaction id * matches. */ TEST_P(UsbAidlTest, switchEmptyPort) { ALOGI("UsbAidlTest switchEmptyPort start"); PortRole role; role.set(PortPowerRole::SOURCE); int64_t transactionId = rand() % 10000; const auto& ret = usb->switchRole("", role, transactionId); ASSERT_TRUE(ret.isOk()); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(Status::ERROR, usb_last_status); EXPECT_EQ(transactionId, last_transactionId); EXPECT_EQ(2, usb_last_cookie); ALOGI("UsbAidlTest switchEmptyPort end"); } /* * Test switching the power role of usb port. * Test case queries the usb ports present in device. * If there is at least one usb port, a power role switch * to SOURCE is attempted for the port. * The callback parameters are checked to see if the transaction id * matches. */ TEST_P(UsbAidlTest, switchPowerRole) { ALOGI("UsbAidlTest switchPowerRole start"); PortRole role; role.set(PortPowerRole::SOURCE); int64_t transactionId = rand() % 10000; const auto& ret = usb->queryPortStatus(transactionId); ASSERT_TRUE(ret.isOk()); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); if (!usb_last_port_status.portName.empty()) { string portBeingSwitched = usb_last_port_status.portName; ALOGI("switchPower role portname:%s", portBeingSwitched.c_str()); usb_role_switch_done = false; transactionId = rand() % 10000; const auto& ret = usb->switchRole(portBeingSwitched, role, transactionId); ASSERT_TRUE(ret.isOk()); std::cv_status waitStatus = wait(); while (waitStatus == std::cv_status::no_timeout && usb_role_switch_done == false) waitStatus = wait(); EXPECT_EQ(std::cv_status::no_timeout, waitStatus); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); } ALOGI("UsbAidlTest switchPowerRole end"); } /* * Test switching the data role of usb port. * Test case queries the usb ports present in device. * If there is at least one usb port, a data role switch * to device is attempted for the port. * The callback parameters are checked to see if transaction id * matches. */ TEST_P(UsbAidlTest, switchDataRole) { ALOGI("UsbAidlTest switchDataRole start"); PortRole role; role.set(PortDataRole::DEVICE); int64_t transactionId = rand() % 10000; const auto& ret = usb->queryPortStatus(transactionId); ASSERT_TRUE(ret.isOk()); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); if (!usb_last_port_status.portName.empty()) { string portBeingSwitched = usb_last_port_status.portName; ALOGI("portname:%s", portBeingSwitched.c_str()); usb_role_switch_done = false; transactionId = rand() % 10000; const auto& ret = usb->switchRole(portBeingSwitched, role, transactionId); ASSERT_TRUE(ret.isOk()); std::cv_status waitStatus = wait(); while (waitStatus == std::cv_status::no_timeout && usb_role_switch_done == false) waitStatus = wait(); EXPECT_EQ(std::cv_status::no_timeout, waitStatus); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); } ALOGI("UsbAidlTest switchDataRole end"); } /* * Test enabling contaminant presence detection of the port. * Test case queries the usb ports present in device. * If there is at least one usb port, enabling contaminant detection * is attempted for the port. * The callback parameters are checked to see if transaction id * matches. */ TEST_P(UsbAidlTest, enableContaminantPresenceDetection) { ALOGI("UsbAidlTest enableContaminantPresenceDetection start"); int64_t transactionId = rand() % 10000; const auto& ret = usb->queryPortStatus(transactionId); ASSERT_TRUE(ret.isOk()); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); if (!usb_last_port_status.portName.empty()) { ALOGI("portname:%s", usb_last_port_status.portName.c_str()); enable_contaminant_done = false; transactionId = rand() % 10000; const auto& ret = usb->enableContaminantPresenceDetection(usb_last_port_status.portName, true, transactionId); ASSERT_TRUE(ret.isOk()); std::cv_status waitStatus = wait(); while (waitStatus == std::cv_status::no_timeout && enable_contaminant_done == false) waitStatus = wait(); EXPECT_EQ(std::cv_status::no_timeout, waitStatus); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); } ALOGI("UsbAidlTest enableContaminantPresenceDetection end"); } /* * Test enabling Usb data of the port. * Test case queries the usb ports present in device. * If there is at least one usb port, enabling Usb data is attempted * for the port. * The callback parameters are checked to see if transaction id * matches. */ TEST_P(UsbAidlTest, enableUsbData) { ALOGI("UsbAidlTest enableUsbData start"); int64_t transactionId = rand() % 10000; const auto& ret = usb->queryPortStatus(transactionId); ASSERT_TRUE(ret.isOk()); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); if (!usb_last_port_status.portName.empty()) { ALOGI("portname:%s", usb_last_port_status.portName.c_str()); enable_usb_data_done = false; transactionId = rand() % 10000; const auto& ret = usb->enableUsbData(usb_last_port_status.portName, true, transactionId); ASSERT_TRUE(ret.isOk()); std::cv_status waitStatus = wait(); while (waitStatus == std::cv_status::no_timeout && enable_usb_data_done == false) waitStatus = wait(); EXPECT_EQ(std::cv_status::no_timeout, waitStatus); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); } ALOGI("UsbAidlTest enableUsbData end"); } /* * Test enabling Usb data while being docked. * Test case queries the usb ports present in device. * If there is at least one usb port, enabling Usb data while docked * is attempted for the port. * The callback parameters are checked to see if transaction id * matches. */ TEST_P(UsbAidlTest, enableUsbDataWhileDocked) { ALOGI("UsbAidlTest enableUsbDataWhileDocked start"); int64_t transactionId = rand() % 10000; const auto& ret = usb->queryPortStatus(transactionId); ASSERT_TRUE(ret.isOk()); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); if (!usb_last_port_status.portName.empty()) { ALOGI("portname:%s", usb_last_port_status.portName.c_str()); enable_usb_data_while_docked_done = false; transactionId = rand() % 10000; const auto& ret = usb->enableUsbDataWhileDocked(usb_last_port_status.portName, transactionId); ASSERT_TRUE(ret.isOk()); std::cv_status waitStatus = wait(); while (waitStatus == std::cv_status::no_timeout && enable_usb_data_while_docked_done == false) waitStatus = wait(); EXPECT_EQ(std::cv_status::no_timeout, waitStatus); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); } ALOGI("UsbAidlTest enableUsbDataWhileDocked end"); } /* * Test enabling Usb data of the port. * Test case queries the usb ports present in device. * If there is at least one usb port, relaxing limit power transfer * is attempted for the port. * The callback parameters are checked to see if transaction id * matches. */ TEST_P(UsbAidlTest, limitPowerTransfer) { ALOGI("UsbAidlTest limitPowerTransfer start"); int64_t transactionId = rand() % 10000; const auto& ret = usb->queryPortStatus(transactionId); ASSERT_TRUE(ret.isOk()); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); if (!usb_last_port_status.portName.empty()) { ALOGI("portname:%s", usb_last_port_status.portName.c_str()); limit_power_transfer_done = false; transactionId = rand() % 10000; const auto& ret = usb->limitPowerTransfer(usb_last_port_status.portName, false, transactionId); ASSERT_TRUE(ret.isOk()); std::cv_status waitStatus = wait(); while (waitStatus == std::cv_status::no_timeout && limit_power_transfer_done == false) waitStatus = wait(); EXPECT_EQ(std::cv_status::no_timeout, waitStatus); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); } ALOGI("UsbAidlTest limitPowerTransfer end"); } /* * Test reset Usb data of the port. * Test case queries the usb ports present in device. * If there is at least one usb port, reset Usb data for the port. * The callback parameters are checked to see if transaction id * matches. */ TEST_P(UsbAidlTest, DISABLED_resetUsbPort) { ALOGI("UsbAidlTest resetUsbPort start"); int64_t transactionId = rand() % 10000; const auto& ret = usb->queryPortStatus(transactionId); ASSERT_TRUE(ret.isOk()); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); if (!usb_last_port_status.portName.empty()) { ALOGI("portname:%s", usb_last_port_status.portName.c_str()); reset_usb_port_done = false; transactionId = rand() % 10000; const auto& ret = usb->resetUsbPort(usb_last_port_status.portName, transactionId); ASSERT_TRUE(ret.isOk()); ALOGI("UsbAidlTest resetUsbPort ret.isOk"); std::cv_status waitStatus = wait(); while (waitStatus == std::cv_status::no_timeout && reset_usb_port_done == false) waitStatus = wait(); ALOGI("UsbAidlTest resetUsbPort wait()"); EXPECT_EQ(std::cv_status::no_timeout, waitStatus); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); } ALOGI("UsbAidlTest resetUsbPort end"); } /* * Test charger compliance warning * The test asserts that complianceWarnings is * empty when the feature is not supported. i.e. * supportsComplianceWarning is false. */ TEST_P(UsbAidlTest, nonCompliantChargerStatus) { ALOGI("UsbAidlTest nonCompliantChargerStatus start"); auto retVersion = usb->getInterfaceVersion(&usb_version); ASSERT_TRUE(retVersion.isOk()) << retVersion; if (usb_version < 2) { ALOGI("UsbAidlTest skipping nonCompliantChargerStatus on older interface versions"); GTEST_SKIP(); } int64_t transactionId = rand() % 10000; const auto& ret = usb->queryPortStatus(transactionId); ASSERT_TRUE(ret.isOk()); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); if (!usb_last_port_status.supportsComplianceWarnings) { EXPECT_TRUE(usb_last_port_status.complianceWarnings.empty()); } ALOGI("UsbAidlTest nonCompliantChargerStatus end"); } /* * Test charger compliance warning values * The test asserts that complianceWarning values * are valid. */ TEST_P(UsbAidlTest, nonCompliantChargerValues) { ALOGI("UsbAidlTest nonCompliantChargerValues start"); auto retVersion = usb->getInterfaceVersion(&usb_version); ASSERT_TRUE(retVersion.isOk()) << retVersion; if (usb_version < 2) { ALOGI("UsbAidlTest skipping nonCompliantChargerValues on older interface versions"); GTEST_SKIP(); } int64_t transactionId = rand() % 10000; const auto& ret = usb->queryPortStatus(transactionId); ASSERT_TRUE(ret.isOk()); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); if (usb_last_port_status.supportsComplianceWarnings) { for (auto warning : usb_last_port_status.complianceWarnings) { EXPECT_TRUE((int)warning >= (int)ComplianceWarning::OTHER); /* * Version 2 compliance values range from [1, 4] * Version 3 compliance values range from [1, 9] */ if (usb_version < 3) { EXPECT_TRUE((int)warning <= (int)ComplianceWarning::MISSING_RP); } else { EXPECT_TRUE((int)warning <= (int)ComplianceWarning::UNRELIABLE_IO); } } } ALOGI("UsbAidlTest nonCompliantChargerValues end"); } /* * Test PlugOrientation Values are within range in PortStatus */ TEST_P(UsbAidlTest, plugOrientationValues) { ALOGI("UsbAidlTest plugOrientationValues start"); auto retVersion = usb->getInterfaceVersion(&usb_version); ASSERT_TRUE(retVersion.isOk()) << retVersion; if (usb_version < 2) { ALOGI("UsbAidlTest skipping plugOrientationValues on older interface versions"); GTEST_SKIP(); } int64_t transactionId = rand() % 10000; const auto& ret = usb->queryPortStatus(transactionId); ASSERT_TRUE(ret.isOk()); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); EXPECT_TRUE((int)usb_last_port_status.plugOrientation >= (int)PlugOrientation::UNKNOWN); EXPECT_TRUE((int)usb_last_port_status.plugOrientation <= (int)PlugOrientation::PLUGGED_FLIPPED); } /* * Test DisplayPortAltMode Values when DisplayPort Alt Mode * is active. */ TEST_P(UsbAidlTest, dpAltModeValues) { ALOGI("UsbAidlTest dpAltModeValues start"); auto retVersion = usb->getInterfaceVersion(&usb_version); ASSERT_TRUE(retVersion.isOk()) << retVersion; if (usb_version < 2) { ALOGI("UsbAidlTest skipping dpAltModeValues on older interface versions"); GTEST_SKIP(); } int64_t transactionId = rand() % 10000; const auto& ret = usb->queryPortStatus(transactionId); ASSERT_TRUE(ret.isOk()); EXPECT_EQ(std::cv_status::no_timeout, wait()); EXPECT_EQ(2, usb_last_cookie); EXPECT_EQ(transactionId, last_transactionId); // Discover DisplayPort Alt Mode for (AltModeData altMode : usb_last_port_status.supportedAltModes) { if (altMode.getTag() == AltModeData::displayPortAltModeData) { AltModeData::DisplayPortAltModeData displayPortAltModeData = altMode.get(); EXPECT_TRUE((int)displayPortAltModeData.partnerSinkStatus >= (int)DisplayPortAltModeStatus::UNKNOWN); EXPECT_TRUE((int)displayPortAltModeData.partnerSinkStatus <= (int)DisplayPortAltModeStatus::ENABLED); EXPECT_TRUE((int)displayPortAltModeData.cableStatus >= (int)DisplayPortAltModeStatus::UNKNOWN); EXPECT_TRUE((int)displayPortAltModeData.cableStatus <= (int)DisplayPortAltModeStatus::ENABLED); EXPECT_TRUE((int)displayPortAltModeData.pinAssignment >= (int)DisplayPortAltModePinAssignment::NONE); EXPECT_TRUE((int)displayPortAltModeData.pinAssignment <= (int)DisplayPortAltModePinAssignment::F); EXPECT_TRUE((int)displayPortAltModeData.linkTrainingStatus >= (int)LinkTrainingStatus::UNKNOWN); EXPECT_TRUE((int)displayPortAltModeData.pinAssignment <= (int)LinkTrainingStatus::FAILURE); } } ALOGI("UsbAidlTest dpAltModeValues end"); } GTEST_ALLOW_UNINSTANTIATED_PARAMETERIZED_TEST(UsbAidlTest); INSTANTIATE_TEST_SUITE_P( PerInstance, UsbAidlTest, testing::ValuesIn(::android::getAidlHalInstanceNames(IUsb::descriptor)), ::android::PrintInstanceNameToString); int main(int argc, char** argv) { ::testing::InitGoogleTest(&argc, argv); ABinderProcess_setThreadPoolMaxThreadCount(1); ABinderProcess_startThreadPool(); return RUN_ALL_TESTS(); }