/* * Copyright (c) 2021-2023 Huawei Device Co., Ltd. * 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 "usbd_device_status_test.h" #include #include #include "UsbSubscriberTest.h" #include "hdf_log.h" #include "usbd_type.h" #include "v1_2/iusb_interface.h" const int SLEEP_TIME = 3; const uint8_t BUS_NUM_INVALID = 255; const uint8_t DEV_ADDR_INVALID = 255; const uint8_t INTERFACEID_OK = 1; const uint8_t INTERFACEID_OK_NEW = 0; const uint8_t INTERFACEID_INVALID = 255; const uint8_t POINTID_DIR_IN = USB_ENDPOINT_DIR_IN | 2; using namespace testing::ext; using namespace OHOS; using namespace OHOS::USB; using namespace std; using namespace OHOS::HDI::Usb::V1_2; namespace OHOS { namespace USB { UsbDev UsbdDeviceStatusTest::dev_ = {0, 0}; sptr UsbdDeviceStatusTest::subscriber_ = nullptr; sptr g_usbInterface = nullptr; int32_t SwitchErrCode(int32_t ret) { return ret == HDF_ERR_NOT_SUPPORT ? HDF_SUCCESS : ret; } void UsbdDeviceStatusTest::SetUpTestCase(void) { g_usbInterface = OHOS::HDI::Usb::V1_2::IUsbInterface::Get(); if (g_usbInterface == nullptr) { HDF_LOGE("%{public}s:IUsbInterface::Get() failed.", __func__); exit(0); } auto ret = g_usbInterface->SetPortRole(1, 1, 1); sleep(SLEEP_TIME); HDF_LOGI("UsbdDeviceStatusTest::[Device] %{public}d SetPortRole=%{public}d", __LINE__, ret); ret = SwitchErrCode(ret); ASSERT_EQ(0, ret); if (ret != 0) { exit(0); } subscriber_ = new UsbSubscriberTest(); if (g_usbInterface->BindUsbdSubscriber(subscriber_) != HDF_SUCCESS) { HDF_LOGE("%{public}s: bind usbd subscriber_ failed", __func__); exit(0); } std::cout << "please connect device, press enter to continue" << std::endl; int c; while ((c = getchar()) != '\n' && c != EOF) {} dev_ = {subscriber_->busNum_, subscriber_->devAddr_}; ret = g_usbInterface->OpenDevice(dev_); HDF_LOGI("UsbdDeviceStatusTest::%{public}d OpenDevice=%{public}d", __LINE__, ret); ASSERT_EQ(0, ret); } void UsbdDeviceStatusTest::TearDownTestCase(void) { g_usbInterface->UnbindUsbdSubscriber(subscriber_); dev_ = {subscriber_->busNum_, subscriber_->devAddr_}; auto ret = g_usbInterface->CloseDevice(dev_); HDF_LOGI("UsbdDeviceStatusTest::%{public}d Close=%{public}d", __LINE__, ret); ASSERT_EQ(0, ret); } void UsbdDeviceStatusTest::SetUp(void) {} void UsbdDeviceStatusTest::TearDown(void) {} /** * @tc.name: UsbdGetDeviceSpeed001 * @tc.desc: Test functions to GetDeviceSpeed * @tc.desc: int32_t GetDeviceSpeed(const UsbDev &dev, uint8_t interfaceId, uint8_t speed); * @tc.desc: Positive test: parameters correctly * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdGetDeviceSpeed001, TestSize.Level1) { struct UsbDev dev = dev_; int32_t ret = -1; uint8_t speed = 0; ret = g_usbInterface->GetDeviceSpeed(dev, speed); HDF_LOGI("UsbdGetDeviceSpeed001 %{public}d GetDeviceSpeed=%{public}d, speed=%{public}d", __LINE__, ret, speed); EXPECT_EQ(0, ret); } /** * @tc.name: UsbdGetDeviceSpeed002 * @tc.desc: Test functions to GetDeviceSpeed * @tc.desc: int32_t GetDeviceSpeed(const UsbDev &dev, uint8_t interfaceId, uint8_t speed); * @tc.desc: Negative test: parameters exception, busNum error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdGetDeviceSpeed002, TestSize.Level1) { struct UsbDev dev = dev_; dev.busNum = BUS_NUM_INVALID; uint8_t speed = 0; auto ret = g_usbInterface->GetDeviceSpeed(dev, speed); HDF_LOGI("UsbdGetDeviceSpeed002 %{public}d ret=%{public}d, speed=%{public}d", __LINE__, ret, speed); EXPECT_NE(ret, 0); } /** * @tc.name: UsbdGetDeviceSpeed003 * @tc.desc: Test functions to GetDeviceSpeed * @tc.desc: int32_t GetDeviceSpeed(const UsbDev &dev, uint8_t interfaceId, uint8_t speed); * @tc.desc: Negative test: parameters exception, devAddr error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdGetDeviceSpeed003, TestSize.Level1) { struct UsbDev dev = {dev_.busNum, DEV_ADDR_INVALID}; uint8_t speed = 0; auto ret = g_usbInterface->GetDeviceSpeed(dev, speed); HDF_LOGI("UsbdGetDeviceSpeed003 %{public}d, ret=%{public}d, speed=%{public}d", __LINE__, ret, speed); EXPECT_NE(ret, 0); } /** * @tc.name: UsbdGetDeviceSpeed004 * @tc.desc: Test functions to GetDeviceSpeed * @tc.desc: int32_t GetDeviceSpeed(const UsbDev &dev, uint8_t interfaceId, uint8_t speed); * @tc.desc: Negative test: parameters exception, busNum && devAddr error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdGetDeviceSpeed004, TestSize.Level1) { uint8_t speed = 0; struct UsbDev dev = {BUS_NUM_INVALID, DEV_ADDR_INVALID}; auto ret = g_usbInterface->GetDeviceSpeed(dev, speed); HDF_LOGI("UsbdGetDeviceSpeed004 %{public}d, ret=%{public}d, speed=%{public}d", __LINE__, ret, speed); EXPECT_NE(ret, 0); } /** * @tc.name: UsbdGetInterfaceActiveStatus001 * @tc.desc: Test functions to GetInterfaceActiveStatus * @tc.desc: int32_t GetInterfaceActiveStatus(const UsbDev &dev, uint8_t interfaceId, bool unactived); * @tc.desc: Positive test: parameters correctly * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdGetInterfaceActiveStatus001, TestSize.Level1) { uint8_t interfaceId = INTERFACEID_OK_NEW; struct UsbDev dev = dev_; int32_t ret = -1; bool unactived = 1; ret = g_usbInterface->ClaimInterface(dev, interfaceId, 1); HDF_LOGI("UsbdDeviceStatusTest::UsbdGetInterfaceActiveStatus %{public}d ClaimInterface=%{public}d", __LINE__, ret); ASSERT_EQ(0, ret); for (; interfaceId < INTERFACEID_INVALID; interfaceId++) { ret = g_usbInterface->GetInterfaceActiveStatus(dev, interfaceId, unactived); if (ret == 0) { break; } } HDF_LOGI("UsbdGetInterfaceActiveStatus001 %{public}d GetInterfaceActiveStatus=%{public}d, unactived=%{public}d", __LINE__, ret, unactived); EXPECT_EQ(0, ret); } /** * @tc.name: UsbdGetInterfaceActiveStatus002 * @tc.desc: Test functions to GetInterfaceActiveStatus * @tc.desc: int32_t GetInterfaceActiveStatus(const UsbDev &dev, uint8_t interfaceId, bool unactived); * @tc.desc: Negative test: parameters exception, busNum error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdGetInterfaceActiveStatus002, TestSize.Level1) { uint8_t interfaceId = INTERFACEID_OK; struct UsbDev dev = dev_; dev.busNum = BUS_NUM_INVALID; bool unactived = 1; auto ret = g_usbInterface->GetInterfaceActiveStatus(dev, interfaceId, unactived); HDF_LOGI("UsbdGetInterfaceActiveStatus002 %{public}d ret=%{public}d, unactived=%{public}d", __LINE__, ret, unactived); EXPECT_NE(ret, 0); } /** * @tc.name: UsbdGetInterfaceActiveStatus003 * @tc.desc: Test functions to GetInterfaceActiveStatus * @tc.desc: int32_t GetInterfaceActiveStatus(const UsbDev &dev, uint8_t interfaceId, bool unactived); * @tc.desc: Negative test: parameters exception, devAddr error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdGetInterfaceActiveStatus003, TestSize.Level1) { uint8_t interfaceId = INTERFACEID_OK; struct UsbDev dev = {dev_.busNum, DEV_ADDR_INVALID}; bool unactived = 1; auto ret = g_usbInterface->GetInterfaceActiveStatus(dev, interfaceId, unactived); HDF_LOGI("UsbdGetInterfaceActiveStatus003 %{public}d, ret=%{public}d, unactived=%{public}d", __LINE__, ret, unactived); EXPECT_NE(ret, 0); } /** * @tc.name: UsbdGetInterfaceActiveStatus004 * @tc.desc: Test functions to GetInterfaceActiveStatus * @tc.desc: int32_t GetInterfaceActiveStatus(const UsbDev &dev, uint8_t interfaceId, bool unactived); * @tc.desc: Negative test: parameters exception, interfaceid error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdGetInterfaceActiveStatus004, TestSize.Level1) { uint8_t interfaceId = INTERFACEID_OK; struct UsbDev dev = dev_; interfaceId = INTERFACEID_INVALID; bool unactived = 1; auto ret = g_usbInterface->GetInterfaceActiveStatus(dev, interfaceId, unactived); HDF_LOGI("UsbdGetInterfaceActiveStatus004 %{public}d, ret=%{public}d, unactived=%{public}d", __LINE__, ret, unactived); EXPECT_NE(ret, 0); } /** * @tc.name: UsbdGetInterfaceActiveStatus005 * @tc.desc: Test functions to GetInterfaceActiveStatus * @tc.desc: int32_t GetInterfaceActiveStatus(const UsbDev &dev, uint8_t interfaceId, bool unactived); * @tc.desc: Negative test: parameters exception, busNum && devAddr error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdGetInterfaceActiveStatus005, TestSize.Level1) { uint8_t interfaceId = INTERFACEID_OK; bool unactived = 1; struct UsbDev dev = {BUS_NUM_INVALID, DEV_ADDR_INVALID}; auto ret = g_usbInterface->GetInterfaceActiveStatus(dev, interfaceId, unactived); HDF_LOGI("UsbdGetInterfaceActiveStatus005 %{public}d, ret=%{public}d, unactived=%{public}d", __LINE__, ret, unactived); EXPECT_NE(ret, 0); } /** * @tc.name: UsbdGetInterfaceActiveStatus006 * @tc.desc: Test functions to GetInterfaceActiveStatus * @tc.desc: int32_t GetInterfaceActiveStatus(const UsbDev &dev, uint8_t interfaceId, bool unactived); * @tc.desc: Negative test: parameters exception, busNum && interfaceid error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdGetInterfaceActiveStatus006, TestSize.Level1) { uint8_t interfaceId = INTERFACEID_INVALID; bool unactived = 1; struct UsbDev dev = {BUS_NUM_INVALID, dev_.devAddr}; auto ret = g_usbInterface->GetInterfaceActiveStatus(dev, interfaceId, unactived); HDF_LOGI("UsbdGetInterfaceActiveStatus006 %{public}d, ret=%{public}d, unactived=%{public}d", __LINE__, ret, unactived); EXPECT_NE(ret, 0); } /** * @tc.name: UsbdGetInterfaceActiveStatus007 * @tc.desc: Test functions to GetInterfaceActiveStatus * @tc.desc: int32_t GetInterfaceActiveStatus(const UsbDev &dev, uint8_t interfaceId, bool unactived); * @tc.desc: Negative test: parameters exception, devAddr && interfaceid error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdGetInterfaceActiveStatus007, TestSize.Level1) { uint8_t interfaceId = INTERFACEID_INVALID; bool unactived = 1; struct UsbDev dev = {dev_.busNum, DEV_ADDR_INVALID}; auto ret = g_usbInterface->GetInterfaceActiveStatus(dev, interfaceId, unactived); HDF_LOGI("UsbdGetInterfaceActiveStatus007 %{public}d, ret=%{public}d, unactived=%{public}d", __LINE__, ret, unactived); EXPECT_NE(ret, 0); } /** * @tc.name: UsbdGetInterfaceActiveStatus008 * @tc.desc: Test functions to GetInterfaceActiveStatus * @tc.desc: int32_t GetInterfaceActiveStatus(const UsbDev &dev, uint8_t interfaceId, bool unactived); * @tc.desc: Negative test: parameters exception, busNum && devAddr && interfaceid error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdGetInterfaceActiveStatus008, TestSize.Level1) { uint8_t interfaceId = INTERFACEID_INVALID; bool unactived = 1; struct UsbDev dev = {BUS_NUM_INVALID, DEV_ADDR_INVALID}; auto ret = g_usbInterface->GetInterfaceActiveStatus(dev, interfaceId, unactived); HDF_LOGI("UsbdGetInterfaceActiveStatus008 %{public}d, ret=%{public}d, unactived=%{public}d", __LINE__, ret, unactived); EXPECT_NE(ret, 0); } /** * @tc.name: UsbdClearHalt001 * @tc.desc: Test functions to ClearHalt * @tc.desc: int32_t ClearHalt(const UsbDev &dev, const UsbPipe &pipe); * @tc.desc: Positive test: parameters correctly * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdClearHalt001, TestSize.Level1) { struct UsbDev dev = dev_; int32_t ret = -1; uint8_t interfaceId = INTERFACEID_OK; uint8_t pointId = POINTID_DIR_IN; ret = g_usbInterface->ClaimInterface(dev, interfaceId, 1); HDF_LOGI("UsbdRequestTest::UsbdClearHalt001 %{public}d ClaimInterface=%{public}d", __LINE__, ret); ASSERT_EQ(0, ret); struct UsbPipe pipe = {interfaceId, pointId}; ret = g_usbInterface->ClearHalt(dev, pipe); HDF_LOGI("UsbdClearHalt001 %{public}d ClearHalt=%{public}d", __LINE__, ret); EXPECT_TRUE(ret == 0); } /** * @tc.name: UsbdClearHalt002 * @tc.desc: Test functions to ClearHalt * @tc.desc: int32_t ClearHalt(const UsbDev &dev, const UsbPipe &pipe); * @tc.desc: Negative test: parameters exception, busNum error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdClearHalt002, TestSize.Level1) { struct UsbDev dev = dev_; int32_t ret = -1; uint8_t interfaceId = INTERFACEID_OK; uint8_t pointId = POINTID_DIR_IN; ret = g_usbInterface->ClaimInterface(dev, interfaceId, 1); HDF_LOGI("UsbdRequestTest::UsbdClearHalt002 %{public}d ClaimInterface=%{public}d", __LINE__, ret); ASSERT_EQ(0, ret); struct UsbPipe pipe = {interfaceId, pointId}; dev.busNum = BUS_NUM_INVALID; ret = g_usbInterface->ClearHalt(dev, pipe); HDF_LOGI("UsbdClearHalt002 %{public}d ClearHalt=%{public}d", __LINE__, ret); EXPECT_NE(0, ret); } /** * @tc.name: UsbdClearHalt003 * @tc.desc: Test functions to GetInterfaceActiveStatus * @tc.desc: int32_t ClearHalt(const UsbDev &dev, const UsbPipe &pipe); * @tc.desc: Negative test: parameters exception, devAddr error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdClearHalt003, TestSize.Level1) { struct UsbDev dev = dev_; int32_t ret = -1; uint8_t interfaceId = INTERFACEID_OK; uint8_t pointId = POINTID_DIR_IN; ret = g_usbInterface->ClaimInterface(dev, interfaceId, 1); HDF_LOGI("UsbdRequestTest::UsbdClearHalt003 %{public}d ClaimInterface=%{public}d", __LINE__, ret); ASSERT_EQ(0, ret); struct UsbPipe pipe = {interfaceId, pointId}; dev.devAddr = DEV_ADDR_INVALID; ret = g_usbInterface->ClearHalt(dev, pipe); HDF_LOGI("UsbdClearHalt003 %{public}d ClearHalt=%{public}d", __LINE__, ret); EXPECT_NE(0, ret); } /** * @tc.name: UsbdClearHalt004 * @tc.desc: Test functions to ClearHalt * @tc.desc: int32_t ClearHalt(const UsbDev &dev, const UsbPipe &pipe); * @tc.desc: Negative test: parameters exception, interfaceid error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdClearHalt004, TestSize.Level1) { struct UsbDev dev = dev_; int32_t ret = -1; uint8_t interfaceId = INTERFACEID_INVALID; uint8_t pointId = POINTID_DIR_IN; ret = g_usbInterface->ClaimInterface(dev, interfaceId, 1); HDF_LOGI("UsbdRequestTest::UsbdClearHalt004 %{public}d ClaimInterface=%{public}d", __LINE__, ret); ASSERT_NE(0, ret); struct UsbPipe pipe = {interfaceId, pointId}; ret = g_usbInterface->ClearHalt(dev, pipe); HDF_LOGI("UsbdClearHalt004 %{public}d ClearHalt=%{public}d", __LINE__, ret); EXPECT_NE(0, ret); } /** * @tc.name: UsbdClearHalt005 * @tc.desc: Test functions to ClearHalt * @tc.desc: int32_t ClearHalt(const UsbDev &dev, const UsbPipe &pipe); * @tc.desc: Negative test: parameters exception, busNum && devAddr error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdClearHalt005, TestSize.Level1) { struct UsbDev dev = dev_; int32_t ret = -1; uint8_t interfaceId = INTERFACEID_OK; uint8_t pointId = POINTID_DIR_IN; ret = g_usbInterface->ClaimInterface(dev, interfaceId, 1); HDF_LOGI("UsbdRequestTest::UsbdClearHalt005 %{public}d ClaimInterface=%{public}d", __LINE__, ret); ASSERT_EQ(0, ret); struct UsbPipe pipe = {interfaceId, pointId}; dev.busNum = BUS_NUM_INVALID; dev.devAddr = DEV_ADDR_INVALID; ret = g_usbInterface->ClearHalt(dev, pipe); HDF_LOGI("UsbdClearHalt005 %{public}d ClearHalt=%{public}d", __LINE__, ret); EXPECT_NE(0, ret); } /** * @tc.name: UsbdClearHalt006 * @tc.desc: Test functions to ClearHalt * @tc.desc: int32_t ClearHalt(const UsbDev &dev, const UsbPipe &pipe); * @tc.desc: Negative test: parameters exception, busNum && interfaceid error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdClearHalt006, TestSize.Level1) { struct UsbDev dev = dev_; int32_t ret = -1; uint8_t interfaceId = INTERFACEID_INVALID; uint8_t pointId = POINTID_DIR_IN; ret = g_usbInterface->ClaimInterface(dev, interfaceId, 1); HDF_LOGI("UsbdRequestTest::UsbdClearHalt006 %{public}d ClaimInterface=%{public}d", __LINE__, ret); ASSERT_NE(0, ret); struct UsbPipe pipe = {interfaceId, pointId}; dev.busNum = BUS_NUM_INVALID; ret = g_usbInterface->ClearHalt(dev, pipe); HDF_LOGI("UsbdClearHalt006 %{public}d ClearHalt=%{public}d", __LINE__, ret); EXPECT_NE(0, ret); } /** * @tc.name: UsbdClearHalt007 * @tc.desc: Test functions to ClearHalt * @tc.desc: int32_t ClearHalt(const UsbDev &dev, const UsbPipe &pipe); * @tc.desc: Negative test: parameters exception, devAddr && interfaceid error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdClearHalt007, TestSize.Level1) { struct UsbDev dev = dev_; int32_t ret = -1; uint8_t interfaceId = INTERFACEID_INVALID; uint8_t pointId = POINTID_DIR_IN; ret = g_usbInterface->ClaimInterface(dev, interfaceId, 1); HDF_LOGI("UsbdRequestTest::UsbdClearHalt007 %{public}d ClaimInterface=%{public}d", __LINE__, ret); ASSERT_NE(0, ret); struct UsbPipe pipe = {interfaceId, pointId}; dev.devAddr = DEV_ADDR_INVALID; ret = g_usbInterface->ClearHalt(dev, pipe); HDF_LOGI("UsbdClearHalt005 %{public}d ClearHalt=%{public}d", __LINE__, ret); EXPECT_NE(0, ret); } /** * @tc.name: UsbdClearHalt008 * @tc.desc: Test functions to ClearHalt * @tc.desc: int32_t ClearHalt(const UsbDev &dev, const UsbPipe &pipe); * @tc.desc: Negative test: parameters exception, busNum && devAddr && interfaceid error * @tc.type: FUNC */ HWTEST_F(UsbdDeviceStatusTest, UsbdClearHalt008, TestSize.Level1) { struct UsbDev dev = dev_; int32_t ret = -1; uint8_t interfaceId = INTERFACEID_INVALID; uint8_t pointId = POINTID_DIR_IN; ret = g_usbInterface->ClaimInterface(dev, interfaceId, 1); HDF_LOGI("UsbdRequestTest::UsbdClearHalt008 %{public}d ClaimInterface=%{public}d", __LINE__, ret); ASSERT_NE(0, ret); struct UsbPipe pipe = {interfaceId, pointId}; dev.busNum = BUS_NUM_INVALID; dev.devAddr = DEV_ADDR_INVALID; ret = g_usbInterface->ClearHalt(dev, pipe); HDF_LOGI("UsbdClearHalt008 %{public}d ClearHalt=%{public}d", __LINE__, ret); EXPECT_NE(0, ret); } } // USB } // OHOS