/* * 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 #include #include #include #include "Hardware.h" namespace aidl { namespace android { namespace hardware { namespace vibrator { using ::android::base::SetProperty; using ::android::base::WaitForProperty; using ::testing::Test; class HwCalTest : public Test { protected: static constexpr char PROPERTY_PREFIX[] = "test.vibrator.hal."; static constexpr uint32_t DEFAULT_LRA_PERIOD = 262; static constexpr uint32_t DEFAULT_FREQUENCY_SHIFT = 10; static constexpr uint32_t DEFAULT_VOLTAGE_MAX = 107; static constexpr uint32_t DEFAULT_CLICK_DURATION_MS = 6; static constexpr uint32_t DEFAULT_TICK_DURATION_MS = 2; static constexpr uint32_t DEFAULT_DOUBLE_CLICK_DURATION_MS = 135; static constexpr uint32_t DEFAULT_HEAVY_CLICK_DURATION_MS = 8; public: void SetUp() override { setenv("PROPERTY_PREFIX", PROPERTY_PREFIX, true); setenv("CALIBRATION_FILEPATH", mCalFile.path, true); } private: template static void pack(std::ostream &stream, const T &value, std::string lpad, std::string rpad) { stream << lpad << value << rpad; } protected: void createHwCal() { mHwCal = std::make_unique(); } template void write(const std::string key, const T &value, std::string lpad = " ", std::string rpad = "") { std::ofstream calfile{mCalFile.path, std::ios_base::app}; calfile << key << ":"; pack(calfile, value, lpad, rpad); calfile << std::endl; } void unlink() { ::unlink(mCalFile.path); } protected: std::unique_ptr mHwCal; TemporaryFile mCalFile; }; TEST_F(HwCalTest, closeloop_present) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = std::rand(); uint32_t actual = ~expect; EXPECT_TRUE(SetProperty(prefix + "closeloop.threshold", std::to_string(expect))); createHwCal(); EXPECT_TRUE(mHwCal->getCloseLoopThreshold(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, closeloop_missing) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = UINT32_MAX; uint32_t actual = ~expect; EXPECT_TRUE(SetProperty(prefix + "closeloop.threshold", std::string())); createHwCal(); EXPECT_TRUE(mHwCal->getCloseLoopThreshold(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, dynamicconfig_presentFalse) { std::string prefix{PROPERTY_PREFIX}; bool expect = false; bool actual = !expect; EXPECT_TRUE(SetProperty(prefix + "config.dynamic", "0")); createHwCal(); EXPECT_TRUE(mHwCal->getDynamicConfig(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, dynamicconfig_presentTrue) { std::string prefix{PROPERTY_PREFIX}; bool expect = true; bool actual = !expect; EXPECT_TRUE(SetProperty(prefix + "config.dynamic", "1")); createHwCal(); EXPECT_TRUE(mHwCal->getDynamicConfig(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, dynamicconfig_missing) { std::string prefix{PROPERTY_PREFIX}; bool expect = false; bool actual = !expect; EXPECT_TRUE(SetProperty(prefix + "config.dynamic", std::string())); createHwCal(); EXPECT_TRUE(mHwCal->getDynamicConfig(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, freqshift_present) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = std::rand(); uint32_t actual = ~expect; EXPECT_TRUE(SetProperty(prefix + "long.frequency.shift", std::to_string(expect))); createHwCal(); EXPECT_TRUE(mHwCal->getLongFrequencyShift(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, freqshift_missing) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = DEFAULT_FREQUENCY_SHIFT; uint32_t actual = ~expect; EXPECT_TRUE(SetProperty(prefix + "long.frequency.shift", std::string())); createHwCal(); EXPECT_TRUE(mHwCal->getLongFrequencyShift(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, shortvolt_present) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = std::rand(); uint32_t actual = ~expect; EXPECT_TRUE(SetProperty(prefix + "short.voltage", std::to_string(expect))); createHwCal(); EXPECT_TRUE(mHwCal->getShortVoltageMax(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, shortvolt_missing) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = DEFAULT_VOLTAGE_MAX; uint32_t actual = ~expect; EXPECT_TRUE(SetProperty(prefix + "short.voltage", std::string())); createHwCal(); EXPECT_TRUE(mHwCal->getShortVoltageMax(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, longvolt_present) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = std::rand(); uint32_t actual = ~expect; EXPECT_TRUE(SetProperty(prefix + "long.voltage", std::to_string(expect))); createHwCal(); EXPECT_TRUE(mHwCal->getLongVoltageMax(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, longvolt_missing) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = DEFAULT_VOLTAGE_MAX; uint32_t actual = ~expect; EXPECT_TRUE(SetProperty(prefix + "long.voltage", std::string())); createHwCal(); EXPECT_TRUE(mHwCal->getLongVoltageMax(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, click_present) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = std::rand(); uint32_t actual = ~expect; EXPECT_TRUE(SetProperty(prefix + "click.duration", std::to_string(expect))); createHwCal(); EXPECT_TRUE(mHwCal->getClickDuration(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, click_missing) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = DEFAULT_CLICK_DURATION_MS; uint32_t actual = ~expect; EXPECT_TRUE(SetProperty(prefix + "click.duration", std::string())); createHwCal(); EXPECT_TRUE(mHwCal->getClickDuration(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, tick_present) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = std::rand(); uint32_t actual = ~expect; EXPECT_TRUE(SetProperty(prefix + "tick.duration", std::to_string(expect))); createHwCal(); EXPECT_TRUE(mHwCal->getTickDuration(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, tick_missing) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = DEFAULT_TICK_DURATION_MS; uint32_t actual = ~expect; EXPECT_TRUE(SetProperty(prefix + "tick.duration", std::string())); createHwCal(); EXPECT_TRUE(mHwCal->getTickDuration(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, doubleclick) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = DEFAULT_DOUBLE_CLICK_DURATION_MS; uint32_t actual = ~expect; createHwCal(); EXPECT_TRUE(mHwCal->getDoubleClickDuration(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, heavyclick_present) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = std::rand(); uint32_t actual = ~expect; EXPECT_TRUE(SetProperty(prefix + "heavyclick.duration", std::to_string(expect))); createHwCal(); EXPECT_TRUE(mHwCal->getHeavyClickDuration(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, heavyclick_missing) { std::string prefix{PROPERTY_PREFIX}; uint32_t expect = DEFAULT_HEAVY_CLICK_DURATION_MS; uint32_t actual = ~expect; EXPECT_TRUE(SetProperty(prefix + "heavyclick.duration", std::string())); createHwCal(); EXPECT_TRUE(mHwCal->getHeavyClickDuration(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, autocal_present) { std::string expect = std::to_string(std::rand()) + " " + std::to_string(std::rand()) + " " + std::to_string(std::rand()); std::string actual = ""; write("autocal", expect); createHwCal(); EXPECT_TRUE(mHwCal->getAutocal(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, autocal_missing) { std::string actual; createHwCal(); EXPECT_FALSE(mHwCal->getAutocal(&actual)); } TEST_F(HwCalTest, lra_period_present) { uint32_t expect = std::rand(); uint32_t actual = ~expect; write("lra_period", expect); createHwCal(); EXPECT_TRUE(mHwCal->getLraPeriod(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, lra_period_missing) { uint32_t expect = DEFAULT_LRA_PERIOD; uint32_t actual = ~expect; createHwCal(); EXPECT_TRUE(mHwCal->getLraPeriod(&actual)); EXPECT_EQ(expect, actual); } TEST_F(HwCalTest, multiple) { std::string autocalExpect = std::to_string(std::rand()) + " " + std::to_string(std::rand()) + " " + std::to_string(std::rand()); std::string autocalActual = ""; uint32_t lraPeriodExpect = std::rand(); uint32_t lraPeriodActual = ~lraPeriodExpect; write("autocal", autocalExpect); write("lra_period", lraPeriodExpect); createHwCal(); EXPECT_TRUE(mHwCal->getAutocal(&autocalActual)); EXPECT_EQ(autocalExpect, autocalActual); EXPECT_TRUE(mHwCal->getLraPeriod(&lraPeriodActual)); EXPECT_EQ(lraPeriodExpect, lraPeriodActual); } TEST_F(HwCalTest, trimming) { std::string autocalExpect = std::to_string(std::rand()) + " " + std::to_string(std::rand()) + " " + std::to_string(std::rand()); std::string autocalActual = ""; uint32_t lraPeriodExpect = std::rand(); uint32_t lraPeriodActual = ~lraPeriodExpect; write("autocal", autocalExpect, " \t", "\t "); write("lra_period", lraPeriodExpect, " \t", "\t "); createHwCal(); EXPECT_TRUE(mHwCal->getAutocal(&autocalActual)); EXPECT_EQ(autocalExpect, autocalActual); EXPECT_TRUE(mHwCal->getLraPeriod(&lraPeriodActual)); EXPECT_EQ(lraPeriodExpect, lraPeriodActual); } } // namespace vibrator } // namespace hardware } // namespace android } // namespace aidl