/* * Copyright 2022 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 "InputMapperTest.h" #include #include #include namespace android { using testing::Return; void InputMapperUnitTest::SetUp() { mFakePointerController = std::make_shared(); mFakePointerController->setBounds(0, 0, 800 - 1, 480 - 1); mFakePointerController->setPosition(400, 240); EXPECT_CALL(mMockInputReaderContext, getPointerController(DEVICE_ID)) .WillRepeatedly(Return(mFakePointerController)); EXPECT_CALL(mMockInputReaderContext, getEventHub()).WillRepeatedly(Return(&mMockEventHub)); InputDeviceIdentifier identifier; identifier.name = "device"; identifier.location = "USB1"; identifier.bus = 0; EXPECT_CALL(mMockEventHub, getDeviceIdentifier(EVENTHUB_ID)).WillRepeatedly(Return(identifier)); mDevice = std::make_unique(&mMockInputReaderContext, DEVICE_ID, /*generation=*/2, identifier); mDeviceContext = std::make_unique(*mDevice, EVENTHUB_ID); } void InputMapperUnitTest::setupAxis(int axis, bool valid, int32_t min, int32_t max, int32_t resolution) { EXPECT_CALL(mMockEventHub, getAbsoluteAxisInfo(EVENTHUB_ID, axis, testing::_)) .WillRepeatedly([=](int32_t, int32_t, RawAbsoluteAxisInfo* outAxisInfo) { outAxisInfo->valid = valid; outAxisInfo->minValue = min; outAxisInfo->maxValue = max; outAxisInfo->flat = 0; outAxisInfo->fuzz = 0; outAxisInfo->resolution = resolution; return valid ? OK : -1; }); } void InputMapperUnitTest::expectScanCodes(bool present, std::set scanCodes) { for (const auto& scanCode : scanCodes) { EXPECT_CALL(mMockEventHub, hasScanCode(EVENTHUB_ID, scanCode)) .WillRepeatedly(testing::Return(present)); } } void InputMapperUnitTest::setScanCodeState(KeyState state, std::set scanCodes) { for (const auto& scanCode : scanCodes) { EXPECT_CALL(mMockEventHub, getScanCodeState(EVENTHUB_ID, scanCode)) .WillRepeatedly(testing::Return(static_cast(state))); } } void InputMapperUnitTest::setKeyCodeState(KeyState state, std::set keyCodes) { for (const auto& keyCode : keyCodes) { EXPECT_CALL(mMockEventHub, getKeyCodeState(EVENTHUB_ID, keyCode)) .WillRepeatedly(testing::Return(static_cast(state))); } } std::list InputMapperUnitTest::process(int32_t type, int32_t code, int32_t value) { RawEvent event; event.when = systemTime(SYSTEM_TIME_MONOTONIC); event.readTime = event.when; event.deviceId = mMapper->getDeviceContext().getEventHubId(); event.type = type; event.code = code; event.value = value; return mMapper->process(&event); } const char* InputMapperTest::DEVICE_NAME = "device"; const char* InputMapperTest::DEVICE_LOCATION = "USB1"; const ftl::Flags InputMapperTest::DEVICE_CLASSES = ftl::Flags(0); // not needed for current tests void InputMapperTest::SetUp(ftl::Flags classes, int bus) { mFakeEventHub = std::make_unique(); mFakePolicy = sp::make(); mFakeListener = std::make_unique(); mReader = std::make_unique(mFakeEventHub, mFakePolicy, *mFakeListener); mDevice = newDevice(DEVICE_ID, DEVICE_NAME, DEVICE_LOCATION, EVENTHUB_ID, classes, bus); // Consume the device reset notification generated when adding a new device. mFakeListener->assertNotifyDeviceResetWasCalled(); } void InputMapperTest::SetUp() { SetUp(DEVICE_CLASSES); } void InputMapperTest::TearDown() { mFakeListener.reset(); mFakePolicy.clear(); } void InputMapperTest::addConfigurationProperty(const char* key, const char* value) { mFakeEventHub->addConfigurationProperty(EVENTHUB_ID, key, value); } std::list InputMapperTest::configureDevice(ConfigurationChanges changes) { using namespace ftl::flag_operators; if (!changes.any() || (changes.any(InputReaderConfiguration::Change::DISPLAY_INFO | InputReaderConfiguration::Change::POINTER_CAPTURE | InputReaderConfiguration::Change::DEVICE_TYPE))) { mReader->requestRefreshConfiguration(changes); mReader->loopOnce(); } std::list out = mDevice->configure(ARBITRARY_TIME, mFakePolicy->getReaderConfiguration(), changes); // Loop the reader to flush the input listener queue. for (const NotifyArgs& args : out) { mFakeListener->notify(args); } mReader->loopOnce(); return out; } std::shared_ptr InputMapperTest::newDevice(int32_t deviceId, const std::string& name, const std::string& location, int32_t eventHubId, ftl::Flags classes, int bus) { InputDeviceIdentifier identifier; identifier.name = name; identifier.location = location; identifier.bus = bus; std::shared_ptr device = std::make_shared(mReader->getContext(), deviceId, DEVICE_GENERATION, identifier); mReader->pushNextDevice(device); mFakeEventHub->addDevice(eventHubId, name, classes, bus); mReader->loopOnce(); return device; } void InputMapperTest::setDisplayInfoAndReconfigure(int32_t displayId, int32_t width, int32_t height, ui::Rotation orientation, const std::string& uniqueId, std::optional physicalPort, ViewportType viewportType) { mFakePolicy->addDisplayViewport(displayId, width, height, orientation, /* isActive= */ true, uniqueId, physicalPort, viewportType); configureDevice(InputReaderConfiguration::Change::DISPLAY_INFO); } void InputMapperTest::clearViewports() { mFakePolicy->clearViewports(); } std::list InputMapperTest::process(InputMapper& mapper, nsecs_t when, nsecs_t readTime, int32_t type, int32_t code, int32_t value) { RawEvent event; event.when = when; event.readTime = readTime; event.deviceId = mapper.getDeviceContext().getEventHubId(); event.type = type; event.code = code; event.value = value; std::list processArgList = mapper.process(&event); for (const NotifyArgs& args : processArgList) { mFakeListener->notify(args); } // Loop the reader to flush the input listener queue. mReader->loopOnce(); return processArgList; } void InputMapperTest::resetMapper(InputMapper& mapper, nsecs_t when) { const auto resetArgs = mapper.reset(when); for (const auto args : resetArgs) { mFakeListener->notify(args); } // Loop the reader to flush the input listener queue. mReader->loopOnce(); } std::list InputMapperTest::handleTimeout(InputMapper& mapper, nsecs_t when) { std::list generatedArgs = mapper.timeoutExpired(when); for (const NotifyArgs& args : generatedArgs) { mFakeListener->notify(args); } // Loop the reader to flush the input listener queue. mReader->loopOnce(); return generatedArgs; } void InputMapperTest::assertMotionRange(const InputDeviceInfo& info, int32_t axis, uint32_t source, float min, float max, float flat, float fuzz) { const InputDeviceInfo::MotionRange* range = info.getMotionRange(axis, source); ASSERT_TRUE(range != nullptr) << "Axis: " << axis << " Source: " << source; ASSERT_EQ(axis, range->axis) << "Axis: " << axis << " Source: " << source; ASSERT_EQ(source, range->source) << "Axis: " << axis << " Source: " << source; ASSERT_NEAR(min, range->min, EPSILON) << "Axis: " << axis << " Source: " << source; ASSERT_NEAR(max, range->max, EPSILON) << "Axis: " << axis << " Source: " << source; ASSERT_NEAR(flat, range->flat, EPSILON) << "Axis: " << axis << " Source: " << source; ASSERT_NEAR(fuzz, range->fuzz, EPSILON) << "Axis: " << axis << " Source: " << source; } void InputMapperTest::assertPointerCoords(const PointerCoords& coords, float x, float y, float pressure, float size, float touchMajor, float touchMinor, float toolMajor, float toolMinor, float orientation, float distance, float scaledAxisEpsilon) { ASSERT_NEAR(x, coords.getAxisValue(AMOTION_EVENT_AXIS_X), scaledAxisEpsilon); ASSERT_NEAR(y, coords.getAxisValue(AMOTION_EVENT_AXIS_Y), scaledAxisEpsilon); ASSERT_NEAR(pressure, coords.getAxisValue(AMOTION_EVENT_AXIS_PRESSURE), EPSILON); ASSERT_NEAR(size, coords.getAxisValue(AMOTION_EVENT_AXIS_SIZE), EPSILON); ASSERT_NEAR(touchMajor, coords.getAxisValue(AMOTION_EVENT_AXIS_TOUCH_MAJOR), scaledAxisEpsilon); ASSERT_NEAR(touchMinor, coords.getAxisValue(AMOTION_EVENT_AXIS_TOUCH_MINOR), scaledAxisEpsilon); ASSERT_NEAR(toolMajor, coords.getAxisValue(AMOTION_EVENT_AXIS_TOOL_MAJOR), scaledAxisEpsilon); ASSERT_NEAR(toolMinor, coords.getAxisValue(AMOTION_EVENT_AXIS_TOOL_MINOR), scaledAxisEpsilon); ASSERT_NEAR(orientation, coords.getAxisValue(AMOTION_EVENT_AXIS_ORIENTATION), EPSILON); ASSERT_NEAR(distance, coords.getAxisValue(AMOTION_EVENT_AXIS_DISTANCE), EPSILON); } } // namespace android