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gerrit.omnirom.org / android_frameworks_native / 25b04bb37d55840ac7da53e686bd175bf336be79 / . / services / inputflinger / tests / InputClassifier_test.cpp
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/*
* Copyright (C) 2019 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 "../InputClassifier.h"
#include <gtest/gtest.h>
#include "TestInputListener.h"
#include <android/hardware/input/classifier/1.0/IInputClassifier.h>
using namespace android::hardware::input;
using android::hardware::Return;
using android::hardware::Void;
using android::hardware::input::common::V1_0::Classification;
namespace android {
// --- InputClassifierTest ---
static NotifyMotionArgs generateBasicMotionArgs() {
// Create a basic motion event for testing
PointerProperties properties;
properties.id = 0;
properties.toolType = AMOTION_EVENT_TOOL_TYPE_FINGER;
PointerCoords coords;
coords.clear();
coords.setAxisValue(AMOTION_EVENT_AXIS_X, 1);
coords.setAxisValue(AMOTION_EVENT_AXIS_Y, 1);
static constexpr nsecs_t downTime = 2;
NotifyMotionArgs motionArgs(1 /*sequenceNum*/, downTime /*eventTime*/, 2 /*readTime*/,
3 /*deviceId*/, AINPUT_SOURCE_ANY, ADISPLAY_ID_DEFAULT,
4 /*policyFlags*/, AMOTION_EVENT_ACTION_DOWN, 0 /*actionButton*/,
0 /*flags*/, AMETA_NONE, 0 /*buttonState*/,
MotionClassification::NONE, AMOTION_EVENT_EDGE_FLAG_NONE,
1 /*pointerCount*/, &properties, &coords, 0 /*xPrecision*/,
0 /*yPrecision*/, AMOTION_EVENT_INVALID_CURSOR_POSITION,
AMOTION_EVENT_INVALID_CURSOR_POSITION, downTime,
{} /*videoFrames*/);
return motionArgs;
}
class InputClassifierTest : public testing::Test {
protected:
sp<InputClassifierInterface> mClassifier;
sp<TestInputListener> mTestListener;
virtual void SetUp() override {
mTestListener = new TestInputListener();
mClassifier = new InputClassifier(mTestListener);
}
virtual void TearDown() override {
mClassifier.clear();
mTestListener.clear();
}
};
/**
* Create a basic configuration change and send it to input classifier.
* Expect that the event is received by the next input stage, unmodified.
*/
TEST_F(InputClassifierTest, SendToNextStage_NotifyConfigurationChangedArgs) {
// Create a basic configuration change and send to classifier
NotifyConfigurationChangedArgs args(1/*sequenceNum*/, 2/*eventTime*/);
mClassifier->notifyConfigurationChanged(&args);
NotifyConfigurationChangedArgs outArgs;
ASSERT_NO_FATAL_FAILURE(mTestListener->assertNotifyConfigurationChangedWasCalled(&outArgs));
ASSERT_EQ(args, outArgs);
}
TEST_F(InputClassifierTest, SendToNextStage_NotifyKeyArgs) {
// Create a basic key event and send to classifier
NotifyKeyArgs args(1 /*sequenceNum*/, 2 /*eventTime*/, 21 /*readTime*/, 3 /*deviceId*/,
AINPUT_SOURCE_KEYBOARD, ADISPLAY_ID_DEFAULT, 0 /*policyFlags*/,
AKEY_EVENT_ACTION_DOWN, 4 /*flags*/, AKEYCODE_HOME, 5 /*scanCode*/,
AMETA_NONE, 6 /*downTime*/);
mClassifier->notifyKey(&args);
NotifyKeyArgs outArgs;
ASSERT_NO_FATAL_FAILURE(mTestListener->assertNotifyKeyWasCalled(&outArgs));
ASSERT_EQ(args, outArgs);
}
/**
* Create a basic motion event and send it to input classifier.
* Expect that the event is received by the next input stage, unmodified.
*/
TEST_F(InputClassifierTest, SendToNextStage_NotifyMotionArgs) {
NotifyMotionArgs motionArgs = generateBasicMotionArgs();
mClassifier->notifyMotion(&motionArgs);
NotifyMotionArgs args;
ASSERT_NO_FATAL_FAILURE(mTestListener->assertNotifyMotionWasCalled(&args));
ASSERT_EQ(motionArgs, args);
}
/**
* Create a basic switch event and send it to input classifier.
* Expect that the event is received by the next input stage, unmodified.
*/
TEST_F(InputClassifierTest, SendToNextStage_NotifySwitchArgs) {
NotifySwitchArgs args(1/*sequenceNum*/, 2/*eventTime*/, 3/*policyFlags*/, 4/*switchValues*/,
5/*switchMask*/);
mClassifier->notifySwitch(&args);
NotifySwitchArgs outArgs;
ASSERT_NO_FATAL_FAILURE(mTestListener->assertNotifySwitchWasCalled(&outArgs));
ASSERT_EQ(args, outArgs);
}
/**
* Create a basic device reset event and send it to input classifier.
* Expect that the event is received by the next input stage, unmodified.
*/
TEST_F(InputClassifierTest, SendToNextStage_NotifyDeviceResetArgs) {
NotifyDeviceResetArgs args(1/*sequenceNum*/, 2/*eventTime*/, 3/*deviceId*/);
mClassifier->notifyDeviceReset(&args);
NotifyDeviceResetArgs outArgs;
ASSERT_NO_FATAL_FAILURE(mTestListener->assertNotifyDeviceResetWasCalled(&outArgs));
ASSERT_EQ(args, outArgs);
}
TEST_F(InputClassifierTest, SetMotionClassifier_Enabled) {
mClassifier->setMotionClassifierEnabled(true);
}
TEST_F(InputClassifierTest, SetMotionClassifier_Disabled) {
mClassifier->setMotionClassifierEnabled(false);
}
/**
* Try to break it by calling setMotionClassifierEnabled multiple times.
*/
TEST_F(InputClassifierTest, SetMotionClassifier_Multiple) {
mClassifier->setMotionClassifierEnabled(true);
mClassifier->setMotionClassifierEnabled(true);
mClassifier->setMotionClassifierEnabled(true);
mClassifier->setMotionClassifierEnabled(false);
mClassifier->setMotionClassifierEnabled(false);
mClassifier->setMotionClassifierEnabled(true);
mClassifier->setMotionClassifierEnabled(true);
mClassifier->setMotionClassifierEnabled(true);
}
/**
* A minimal implementation of IInputClassifier.
*/
struct TestHal : public android::hardware::input::classifier::V1_0::IInputClassifier {
Return<Classification> classify(
const android::hardware::input::common::V1_0::MotionEvent& event) override {
return Classification::NONE;
};
Return<void> reset() override { return Void(); };
Return<void> resetDevice(int32_t deviceId) override { return Void(); };
};
/**
* An entity that will be subscribed to the HAL death.
*/
class TestDeathRecipient : public android::hardware::hidl_death_recipient {
public:
virtual void serviceDied(uint64_t cookie,
const wp<android::hidl::base::V1_0::IBase>& who) override{};
};
// --- MotionClassifierTest ---
class MotionClassifierTest : public testing::Test {
protected:
std::unique_ptr<MotionClassifierInterface> mMotionClassifier;
virtual void SetUp() override {
mMotionClassifier = MotionClassifier::create(new TestDeathRecipient());
if (mMotionClassifier == nullptr) {
// If the device running this test does not have IInputClassifier service,
// use the test HAL instead.
// Using 'new' to access non-public constructor
mMotionClassifier =
std::unique_ptr<MotionClassifier>(new MotionClassifier(new TestHal()));
}
}
};
/**
* Since MotionClassifier creates a new thread to communicate with HAL,
* it's not really expected to ever exit. However, for testing purposes,
* we need to ensure that it is able to exit cleanly.
* If the thread is not properly cleaned up, it will generate SIGABRT.
* The logic for exiting the thread and cleaning up the resources is inside
* the destructor. Here, we just make sure the destructor does not crash.
*/
TEST_F(MotionClassifierTest, Destructor_DoesNotCrash) {
mMotionClassifier = nullptr;
}
/**
* Make sure MotionClassifier can handle events that don't have any
* video frames.
*/
TEST_F(MotionClassifierTest, Classify_NoVideoFrames) {
NotifyMotionArgs motionArgs = generateBasicMotionArgs();
// We are not checking the return value, because we can't be making assumptions
// about the HAL operation, since it will be highly hardware-dependent
ASSERT_NO_FATAL_FAILURE(mMotionClassifier->classify(motionArgs));
}
/**
* Make sure nothing crashes when a videoFrame is sent.
*/
TEST_F(MotionClassifierTest, Classify_OneVideoFrame) {
NotifyMotionArgs motionArgs = generateBasicMotionArgs();
std::vector<int16_t> videoData = {1, 2, 3, 4};
timeval timestamp = { 1, 1};
TouchVideoFrame frame(2, 2, std::move(videoData), timestamp);
motionArgs.videoFrames = {frame};
// We are not checking the return value, because we can't be making assumptions
// about the HAL operation, since it will be highly hardware-dependent
ASSERT_NO_FATAL_FAILURE(mMotionClassifier->classify(motionArgs));
}
/**
* Make sure nothing crashes when 2 videoFrames are sent.
*/
TEST_F(MotionClassifierTest, Classify_TwoVideoFrames) {
NotifyMotionArgs motionArgs = generateBasicMotionArgs();
std::vector<int16_t> videoData1 = {1, 2, 3, 4};
timeval timestamp1 = { 1, 1};
TouchVideoFrame frame1(2, 2, std::move(videoData1), timestamp1);
std::vector<int16_t> videoData2 = {6, 6, 6, 6};
timeval timestamp2 = { 1, 2};
TouchVideoFrame frame2(2, 2, std::move(videoData2), timestamp2);
motionArgs.videoFrames = {frame1, frame2};
// We are not checking the return value, because we can't be making assumptions
// about the HAL operation, since it will be highly hardware-dependent
ASSERT_NO_FATAL_FAILURE(mMotionClassifier->classify(motionArgs));
}
/**
* Make sure MotionClassifier does not crash when it is reset.
*/
TEST_F(MotionClassifierTest, Reset_DoesNotCrash) {
ASSERT_NO_FATAL_FAILURE(mMotionClassifier->reset());
}
/**
* Make sure MotionClassifier does not crash when a device is reset.
*/
TEST_F(MotionClassifierTest, DeviceReset_DoesNotCrash) {
NotifyDeviceResetArgs args(1/*sequenceNum*/, 2/*eventTime*/, 3/*deviceId*/);
ASSERT_NO_FATAL_FAILURE(mMotionClassifier->reset(args));
}
} // namespace android