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android / platform / hardware / interfaces / 2658c0da40fabf8fff9a765ebd5c5b293c4b57e8 / . / thermal / 2.0 / vts / functional / VtsHalThermalV2_0TargetTest.cpp
blob: 75536a6057503a8b4b59fed6b72997d9db1804c5 [file] [log] [blame]
/*
* Copyright (C) 2018 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 <android/hardware/thermal/2.0/IThermal.h>
#include <android/hardware/thermal/2.0/IThermalChangedCallback.h>
#include <android/hardware/thermal/2.0/types.h>
#include <gtest/gtest.h>
#include <hidl/GtestPrinter.h>
#include <hidl/ServiceManagement.h>
#include <VtsHalHidlTargetCallbackBase.h>
using ::android::sp;
using ::android::hardware::hidl_enum_range;
using ::android::hardware::hidl_vec;
using ::android::hardware::Return;
using ::android::hardware::Void;
using ::android::hardware::thermal::V1_0::ThermalStatus;
using ::android::hardware::thermal::V1_0::ThermalStatusCode;
using ::android::hardware::thermal::V2_0::CoolingDevice;
using ::android::hardware::thermal::V2_0::CoolingType;
using ::android::hardware::thermal::V2_0::IThermal;
using ::android::hardware::thermal::V2_0::IThermalChangedCallback;
using ::android::hardware::thermal::V2_0::Temperature;
using ::android::hardware::thermal::V2_0::TemperatureThreshold;
using ::android::hardware::thermal::V2_0::TemperatureType;
using ::android::hardware::thermal::V2_0::ThrottlingSeverity;
constexpr char kCallbackNameNotifyThrottling[] = "notifyThrottling";
static const Temperature kThrottleTemp = {
.type = TemperatureType::SKIN,
.name = "test temperature sensor",
.value = 98.6,
.throttlingStatus = ThrottlingSeverity::CRITICAL,
};
class ThermalCallbackArgs {
public:
Temperature temperature;
};
// Callback class for receiving thermal event notifications from main class
class ThermalCallback : public ::testing::VtsHalHidlTargetCallbackBase<ThermalCallbackArgs>,
public IThermalChangedCallback {
public:
Return<void> notifyThrottling(const Temperature& temperature) override {
ThermalCallbackArgs args;
args.temperature = temperature;
NotifyFromCallback(kCallbackNameNotifyThrottling, args);
return Void();
}
};
// The main test class for THERMAL HIDL HAL 2.0.
class ThermalHidlTest : public testing::TestWithParam<std::string> {
public:
virtual void SetUp() override {
mThermal = IThermal::getService(GetParam());
ASSERT_NE(mThermal, nullptr);
mThermalCallback = new (std::nothrow) ThermalCallback();
ASSERT_NE(mThermalCallback, nullptr);
auto ret = mThermal->registerThermalChangedCallback(
mThermalCallback, false, TemperatureType::SKIN,
[](ThermalStatus status) { EXPECT_EQ(ThermalStatusCode::SUCCESS, status.code); });
ASSERT_TRUE(ret.isOk());
// Expect to fail if register again
ret = mThermal->registerThermalChangedCallback(
mThermalCallback, false, TemperatureType::SKIN,
[](ThermalStatus status) { EXPECT_NE(ThermalStatusCode::SUCCESS, status.code); });
ASSERT_TRUE(ret.isOk());
}
virtual void TearDown() override {
auto ret = mThermal->unregisterThermalChangedCallback(
mThermalCallback,
[](ThermalStatus status) { EXPECT_EQ(ThermalStatusCode::SUCCESS, status.code); });
ASSERT_TRUE(ret.isOk());
// Expect to fail if unregister again
ret = mThermal->unregisterThermalChangedCallback(
mThermalCallback,
[](ThermalStatus status) { EXPECT_NE(ThermalStatusCode::SUCCESS, status.code); });
ASSERT_TRUE(ret.isOk());
}
protected:
sp<IThermal> mThermal;
sp<ThermalCallback> mThermalCallback;
}; // class ThermalHidlTest
// Test ThermalChangedCallback::notifyThrottling().
// This just calls into and back from our local ThermalChangedCallback impl.
// Note: a real thermal throttling event from the Thermal HAL could be
// inadvertently received here.
TEST_P(ThermalHidlTest, NotifyThrottlingTest) {
auto ret = mThermalCallback->notifyThrottling(kThrottleTemp);
ASSERT_TRUE(ret.isOk());
auto res = mThermalCallback->WaitForCallback(kCallbackNameNotifyThrottling);
EXPECT_TRUE(res.no_timeout);
ASSERT_TRUE(res.args);
EXPECT_EQ(kThrottleTemp, res.args->temperature);
}
// Test Thermal->registerThermalChangedCallback.
TEST_P(ThermalHidlTest, RegisterThermalChangedCallbackTest) {
// Expect to fail with same callback
auto ret = mThermal->registerThermalChangedCallback(
mThermalCallback, false, TemperatureType::SKIN,
[](ThermalStatus status) { EXPECT_EQ(ThermalStatusCode::FAILURE, status.code); });
ASSERT_TRUE(ret.isOk());
// Expect to fail with null callback
ret = mThermal->registerThermalChangedCallback(
nullptr, false, TemperatureType::SKIN,
[](ThermalStatus status) { EXPECT_EQ(ThermalStatusCode::FAILURE, status.code); });
ASSERT_TRUE(ret.isOk());
sp<ThermalCallback> localThermalCallback = new (std::nothrow) ThermalCallback();
// Expect to succeed with different callback
ret = mThermal->registerThermalChangedCallback(
localThermalCallback, false, TemperatureType::SKIN,
[](ThermalStatus status) { EXPECT_EQ(ThermalStatusCode::SUCCESS, status.code); });
ASSERT_TRUE(ret.isOk());
// Remove the local callback
ret = mThermal->unregisterThermalChangedCallback(
localThermalCallback,
[](ThermalStatus status) { EXPECT_EQ(ThermalStatusCode::SUCCESS, status.code); });
ASSERT_TRUE(ret.isOk());
// Expect to fail with null callback
ret = mThermal->unregisterThermalChangedCallback(nullptr, [](ThermalStatus status) {
EXPECT_EQ(ThermalStatusCode::FAILURE, status.code);
});
ASSERT_TRUE(ret.isOk());
}
// Test Thermal->unregisterThermalChangedCallback.
TEST_P(ThermalHidlTest, UnregisterThermalChangedCallbackTest) {
sp<ThermalCallback> localThermalCallback = new (std::nothrow) ThermalCallback();
// Expect to fail as the callback was not registered before
auto ret = mThermal->unregisterThermalChangedCallback(
localThermalCallback,
[](ThermalStatus status) { EXPECT_NE(ThermalStatusCode::SUCCESS, status.code); });
ASSERT_TRUE(ret.isOk());
// Register a local callback
ret = mThermal->registerThermalChangedCallback(
localThermalCallback, false, TemperatureType::SKIN,
[](ThermalStatus status) { EXPECT_EQ(ThermalStatusCode::SUCCESS, status.code); });
ASSERT_TRUE(ret.isOk());
// Expect to succeed with callback removed
ret = mThermal->unregisterThermalChangedCallback(
localThermalCallback,
[](ThermalStatus status) { EXPECT_EQ(ThermalStatusCode::SUCCESS, status.code); });
ASSERT_TRUE(ret.isOk());
// Expect to fail as the callback has been unregistered already
ret = mThermal->unregisterThermalChangedCallback(
localThermalCallback,
[](ThermalStatus status) { EXPECT_NE(ThermalStatusCode::SUCCESS, status.code); });
ASSERT_TRUE(ret.isOk());
}
// Sanity test for Thermal::getCurrentTemperatures().
TEST_P(ThermalHidlTest, TemperatureTest) {
mThermal->getCurrentTemperatures(false, TemperatureType::SKIN,
[](ThermalStatus status, hidl_vec<Temperature> temperatures) {
if (temperatures.size()) {
EXPECT_EQ(ThermalStatusCode::SUCCESS, status.code);
} else {
EXPECT_NE(ThermalStatusCode::SUCCESS, status.code);
}
for (int i = 0; i < temperatures.size(); ++i) {
EXPECT_LT(0u, temperatures[i].name.size());
}
});
auto types = hidl_enum_range<TemperatureType>();
for (const auto& type : types) {
mThermal->getCurrentTemperatures(
true, type, [&type](ThermalStatus status, hidl_vec<Temperature> temperatures) {
if (temperatures.size()) {
EXPECT_EQ(ThermalStatusCode::SUCCESS, status.code);
} else {
EXPECT_NE(ThermalStatusCode::SUCCESS, status.code);
}
for (int i = 0; i < temperatures.size(); ++i) {
EXPECT_EQ(type, temperatures[i].type);
EXPECT_LT(0u, temperatures[i].name.size());
}
});
}
}
// Sanity test for Thermal::getTemperatureThresholds().
TEST_P(ThermalHidlTest, TemperatureThresholdTest) {
mThermal->getTemperatureThresholds(
false, TemperatureType::SKIN,
[](ThermalStatus status, hidl_vec<TemperatureThreshold> temperatures) {
if (temperatures.size()) {
EXPECT_EQ(ThermalStatusCode::SUCCESS, status.code);
} else {
EXPECT_NE(ThermalStatusCode::SUCCESS, status.code);
}
});
for (int i = static_cast<int>(TemperatureType::UNKNOWN);
i <= static_cast<int>(TemperatureType::POWER_AMPLIFIER); ++i) {
auto type = static_cast<TemperatureType>(i);
mThermal->getTemperatureThresholds(
true, type, [&type](ThermalStatus status, hidl_vec<TemperatureThreshold> temperatures) {
if (temperatures.size()) {
EXPECT_EQ(ThermalStatusCode::SUCCESS, status.code);
} else {
EXPECT_NE(ThermalStatusCode::SUCCESS, status.code);
}
for (int i = 0; i < temperatures.size(); ++i) {
EXPECT_EQ(type, temperatures[i].type);
}
});
}
}
// Sanity test for Thermal::getCurrentCoolingDevices().
TEST_P(ThermalHidlTest, CoolingDeviceTest) {
mThermal->getCurrentCoolingDevices(
false, CoolingType::CPU, [](ThermalStatus status, hidl_vec<CoolingDevice> cooling_devices) {
if (cooling_devices.size()) {
EXPECT_EQ(ThermalStatusCode::SUCCESS, status.code);
} else {
EXPECT_NE(ThermalStatusCode::SUCCESS, status.code);
}
for (int i = 0; i < cooling_devices.size(); ++i) {
EXPECT_LT(0u, cooling_devices[i].name.size());
}
});
for (int i = 0; i <= static_cast<int>(CoolingType::COMPONENT); ++i) {
auto type = static_cast<CoolingType>(i);
mThermal->getCurrentCoolingDevices(
true, type, [&type](ThermalStatus status, hidl_vec<CoolingDevice> cooling_devices) {
if (cooling_devices.size()) {
EXPECT_EQ(ThermalStatusCode::SUCCESS, status.code);
} else {
EXPECT_NE(ThermalStatusCode::SUCCESS, status.code);
}
for (int i = 0; i < cooling_devices.size(); ++i) {
EXPECT_EQ(type, cooling_devices[i].type);
EXPECT_LT(0u, cooling_devices[i].name.size());
}
});
}
}
INSTANTIATE_TEST_SUITE_P(
PerInstance, ThermalHidlTest,
testing::ValuesIn(android::hardware::getAllHalInstanceNames(IThermal::descriptor)),
android::hardware::PrintInstanceNameToString);