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/*
* Copyright 2020 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.
*/
#undef LOG_TAG
#define LOG_TAG "LibSurfaceFlingerUnittests"
#include "DisplayTransactionTestHelpers.h"
#include <gmock/gmock.h>
#include <gtest/gtest.h>
namespace android {
namespace {
// Used when we simulate a display that supports doze.
template <typename Display>
struct DozeIsSupportedVariant {
static constexpr bool DOZE_SUPPORTED = true;
static constexpr IComposerClient::PowerMode ACTUAL_POWER_MODE_FOR_DOZE =
IComposerClient::PowerMode::DOZE;
static constexpr IComposerClient::PowerMode ACTUAL_POWER_MODE_FOR_DOZE_SUSPEND =
IComposerClient::PowerMode::DOZE_SUSPEND;
static void setupComposerCallExpectations(DisplayTransactionTest* test) {
EXPECT_CALL(*test->mComposer, getDisplayCapabilities(Display::HWC_DISPLAY_ID, _))
.WillOnce(DoAll(SetArgPointee<1>(
std::vector<DisplayCapability>({DisplayCapability::DOZE})),
Return(Error::NONE)));
}
};
template <typename Display>
// Used when we simulate a display that does not support doze.
struct DozeNotSupportedVariant {
static constexpr bool DOZE_SUPPORTED = false;
static constexpr IComposerClient::PowerMode ACTUAL_POWER_MODE_FOR_DOZE =
IComposerClient::PowerMode::ON;
static constexpr IComposerClient::PowerMode ACTUAL_POWER_MODE_FOR_DOZE_SUSPEND =
IComposerClient::PowerMode::ON;
static void setupComposerCallExpectations(DisplayTransactionTest* test) {
EXPECT_CALL(*test->mComposer, getDisplayCapabilities(Display::HWC_DISPLAY_ID, _))
.WillOnce(DoAll(SetArgPointee<1>(std::vector<DisplayCapability>({})),
Return(Error::NONE)));
}
};
struct EventThreadBaseSupportedVariant {
static void setupVsyncAndEventThreadNoCallExpectations(DisplayTransactionTest* test) {
// The callback should not be notified to toggle VSYNC.
EXPECT_CALL(test->mSchedulerCallback, setVsyncEnabled(_)).Times(0);
// The event thread should not be notified.
EXPECT_CALL(*test->mEventThread, onScreenReleased()).Times(0);
EXPECT_CALL(*test->mEventThread, onScreenAcquired()).Times(0);
}
};
struct EventThreadNotSupportedVariant : public EventThreadBaseSupportedVariant {
static void setupAcquireAndEnableVsyncCallExpectations(DisplayTransactionTest* test) {
// These calls are only expected for the primary display.
// Instead expect no calls.
setupVsyncAndEventThreadNoCallExpectations(test);
}
static void setupReleaseAndDisableVsyncCallExpectations(DisplayTransactionTest* test) {
// These calls are only expected for the primary display.
// Instead expect no calls.
setupVsyncAndEventThreadNoCallExpectations(test);
}
};
struct EventThreadIsSupportedVariant : public EventThreadBaseSupportedVariant {
static void setupAcquireAndEnableVsyncCallExpectations(DisplayTransactionTest* test) {
// The callback should be notified to enable VSYNC.
EXPECT_CALL(test->mSchedulerCallback, setVsyncEnabled(true)).Times(1);
// The event thread should be notified that the screen was acquired.
EXPECT_CALL(*test->mEventThread, onScreenAcquired()).Times(1);
}
static void setupReleaseAndDisableVsyncCallExpectations(DisplayTransactionTest* test) {
// The callback should be notified to disable VSYNC.
EXPECT_CALL(test->mSchedulerCallback, setVsyncEnabled(false)).Times(1);
// The event thread should not be notified that the screen was released.
EXPECT_CALL(*test->mEventThread, onScreenReleased()).Times(1);
}
};
struct DispSyncIsSupportedVariant {
static void setupResetModelCallExpectations(DisplayTransactionTest* test) {
EXPECT_CALL(*test->mVsyncController, startPeriodTransition(DEFAULT_VSYNC_PERIOD)).Times(1);
EXPECT_CALL(*test->mVSyncTracker, resetModel()).Times(1);
}
};
struct DispSyncNotSupportedVariant {
static void setupResetModelCallExpectations(DisplayTransactionTest* /* test */) {}
};
// --------------------------------------------------------------------
// Note:
//
// There are a large number of transitions we could test, however we only test a
// selected subset which provides complete test coverage of the implementation.
// --------------------------------------------------------------------
template <PowerMode initialPowerMode, PowerMode targetPowerMode>
struct TransitionVariantCommon {
static constexpr auto INITIAL_POWER_MODE = initialPowerMode;
static constexpr auto TARGET_POWER_MODE = targetPowerMode;
static void verifyPostconditions(DisplayTransactionTest*) {}
};
struct TransitionOffToOnVariant : public TransitionVariantCommon<PowerMode::OFF, PowerMode::ON> {
template <typename Case>
static void setupCallExpectations(DisplayTransactionTest* test) {
Case::setupComposerCallExpectations(test, IComposerClient::PowerMode::ON);
Case::EventThread::setupAcquireAndEnableVsyncCallExpectations(test);
Case::DispSync::setupResetModelCallExpectations(test);
Case::setupRepaintEverythingCallExpectations(test);
}
static void verifyPostconditions(DisplayTransactionTest* test) {
EXPECT_TRUE(test->mFlinger.getVisibleRegionsDirty());
EXPECT_TRUE(test->mFlinger.getHasPoweredOff());
}
};
struct TransitionOffToDozeSuspendVariant
: public TransitionVariantCommon<PowerMode::OFF, PowerMode::DOZE_SUSPEND> {
template <typename Case>
static void setupCallExpectations(DisplayTransactionTest* test) {
Case::setupComposerCallExpectations(test, Case::Doze::ACTUAL_POWER_MODE_FOR_DOZE_SUSPEND);
Case::EventThread::setupVsyncAndEventThreadNoCallExpectations(test);
Case::setupRepaintEverythingCallExpectations(test);
}
static void verifyPostconditions(DisplayTransactionTest* test) {
EXPECT_TRUE(test->mFlinger.getVisibleRegionsDirty());
EXPECT_TRUE(test->mFlinger.getHasPoweredOff());
}
};
struct TransitionOnToOffVariant : public TransitionVariantCommon<PowerMode::ON, PowerMode::OFF> {
template <typename Case>
static void setupCallExpectations(DisplayTransactionTest* test) {
Case::EventThread::setupReleaseAndDisableVsyncCallExpectations(test);
Case::setupComposerCallExpectations(test, IComposerClient::PowerMode::OFF);
}
static void verifyPostconditions(DisplayTransactionTest* test) {
EXPECT_TRUE(test->mFlinger.getVisibleRegionsDirty());
}
};
struct TransitionDozeSuspendToOffVariant
: public TransitionVariantCommon<PowerMode::DOZE_SUSPEND, PowerMode::OFF> {
template <typename Case>
static void setupCallExpectations(DisplayTransactionTest* test) {
Case::EventThread::setupVsyncAndEventThreadNoCallExpectations(test);
Case::setupComposerCallExpectations(test, IComposerClient::PowerMode::OFF);
}
static void verifyPostconditions(DisplayTransactionTest* test) {
EXPECT_TRUE(test->mFlinger.getVisibleRegionsDirty());
}
};
struct TransitionOnToDozeVariant : public TransitionVariantCommon<PowerMode::ON, PowerMode::DOZE> {
template <typename Case>
static void setupCallExpectations(DisplayTransactionTest* test) {
Case::EventThread::setupVsyncAndEventThreadNoCallExpectations(test);
Case::setupComposerCallExpectations(test, Case::Doze::ACTUAL_POWER_MODE_FOR_DOZE);
}
};
struct TransitionDozeSuspendToDozeVariant
: public TransitionVariantCommon<PowerMode::DOZE_SUSPEND, PowerMode::DOZE> {
template <typename Case>
static void setupCallExpectations(DisplayTransactionTest* test) {
Case::EventThread::setupAcquireAndEnableVsyncCallExpectations(test);
Case::DispSync::setupResetModelCallExpectations(test);
Case::setupComposerCallExpectations(test, Case::Doze::ACTUAL_POWER_MODE_FOR_DOZE);
}
};
struct TransitionDozeToOnVariant : public TransitionVariantCommon<PowerMode::DOZE, PowerMode::ON> {
template <typename Case>
static void setupCallExpectations(DisplayTransactionTest* test) {
Case::EventThread::setupVsyncAndEventThreadNoCallExpectations(test);
Case::setupComposerCallExpectations(test, IComposerClient::PowerMode::ON);
}
};
struct TransitionDozeSuspendToOnVariant
: public TransitionVariantCommon<PowerMode::DOZE_SUSPEND, PowerMode::ON> {
template <typename Case>
static void setupCallExpectations(DisplayTransactionTest* test) {
Case::EventThread::setupAcquireAndEnableVsyncCallExpectations(test);
Case::DispSync::setupResetModelCallExpectations(test);
Case::setupComposerCallExpectations(test, IComposerClient::PowerMode::ON);
}
};
struct TransitionOnToDozeSuspendVariant
: public TransitionVariantCommon<PowerMode::ON, PowerMode::DOZE_SUSPEND> {
template <typename Case>
static void setupCallExpectations(DisplayTransactionTest* test) {
Case::EventThread::setupReleaseAndDisableVsyncCallExpectations(test);
Case::setupComposerCallExpectations(test, Case::Doze::ACTUAL_POWER_MODE_FOR_DOZE_SUSPEND);
}
};
struct TransitionOnToUnknownVariant
: public TransitionVariantCommon<PowerMode::ON, static_cast<PowerMode>(POWER_MODE_LEET)> {
template <typename Case>
static void setupCallExpectations(DisplayTransactionTest* test) {
Case::EventThread::setupVsyncAndEventThreadNoCallExpectations(test);
Case::setupNoComposerPowerModeCallExpectations(test);
}
};
// --------------------------------------------------------------------
// Note:
//
// Rather than testing the cartesian product of
// DozeIsSupported/DozeNotSupported with all other options, we use one for one
// display type, and the other for another display type.
// --------------------------------------------------------------------
template <typename DisplayVariant, typename DozeVariant, typename EventThreadVariant,
typename DispSyncVariant, typename TransitionVariant>
struct DisplayPowerCase {
using Display = DisplayVariant;
using Doze = DozeVariant;
using EventThread = EventThreadVariant;
using DispSync = DispSyncVariant;
using Transition = TransitionVariant;
static auto injectDisplayWithInitialPowerMode(DisplayTransactionTest* test, PowerMode mode) {
Display::injectHwcDisplayWithNoDefaultCapabilities(test);
auto display = Display::makeFakeExistingDisplayInjector(test);
display.inject();
display.mutableDisplayDevice()->setPowerMode(mode);
return display;
}
static void setInitialPrimaryHWVsyncEnabled(DisplayTransactionTest* test, bool enabled) {
test->mFlinger.scheduler()->mutablePrimaryHWVsyncEnabled() = enabled;
}
static void setupRepaintEverythingCallExpectations(DisplayTransactionTest* test) {
EXPECT_CALL(*test->mMessageQueue, invalidate()).Times(1);
}
static void setupSurfaceInterceptorCallExpectations(DisplayTransactionTest* test,
PowerMode mode) {
EXPECT_CALL(*test->mSurfaceInterceptor, isEnabled()).WillOnce(Return(true));
EXPECT_CALL(*test->mSurfaceInterceptor, savePowerModeUpdate(_, static_cast<int32_t>(mode)))
.Times(1);
}
static void setupComposerCallExpectations(DisplayTransactionTest* test, PowerMode mode) {
// Any calls to get the active config will return a default value.
EXPECT_CALL(*test->mComposer, getActiveConfig(Display::HWC_DISPLAY_ID, _))
.WillRepeatedly(DoAll(SetArgPointee<1>(Display::HWC_ACTIVE_CONFIG_ID),
Return(Error::NONE)));
// Any calls to get whether the display supports dozing will return the value set by the
// policy variant.
EXPECT_CALL(*test->mComposer, getDozeSupport(Display::HWC_DISPLAY_ID, _))
.WillRepeatedly(DoAll(SetArgPointee<1>(Doze::DOZE_SUPPORTED), Return(Error::NONE)));
EXPECT_CALL(*test->mComposer, setPowerMode(Display::HWC_DISPLAY_ID, mode)).Times(1);
}
static void setupNoComposerPowerModeCallExpectations(DisplayTransactionTest* test) {
EXPECT_CALL(*test->mComposer, setPowerMode(Display::HWC_DISPLAY_ID, _)).Times(0);
}
};
// A sample configuration for the primary display.
// In addition to having event thread support, we emulate doze support.
template <typename TransitionVariant>
using PrimaryDisplayPowerCase =
DisplayPowerCase<PrimaryDisplayVariant, DozeIsSupportedVariant<PrimaryDisplayVariant>,
EventThreadIsSupportedVariant, DispSyncIsSupportedVariant,
TransitionVariant>;
// A sample configuration for the external display.
// In addition to not having event thread support, we emulate not having doze
// support.
template <typename TransitionVariant>
using ExternalDisplayPowerCase =
DisplayPowerCase<ExternalDisplayVariant, DozeNotSupportedVariant<ExternalDisplayVariant>,
EventThreadNotSupportedVariant, DispSyncNotSupportedVariant,
TransitionVariant>;
class SetPowerModeInternalTest : public DisplayTransactionTest {
public:
template <typename Case>
void transitionDisplayCommon();
};
template <PowerMode PowerMode>
struct PowerModeInitialVSyncEnabled : public std::false_type {};
template <>
struct PowerModeInitialVSyncEnabled<PowerMode::ON> : public std::true_type {};
template <>
struct PowerModeInitialVSyncEnabled<PowerMode::DOZE> : public std::true_type {};
template <typename Case>
void SetPowerModeInternalTest::transitionDisplayCommon() {
// --------------------------------------------------------------------
// Preconditions
Case::Doze::setupComposerCallExpectations(this);
auto display =
Case::injectDisplayWithInitialPowerMode(this, Case::Transition::INITIAL_POWER_MODE);
Case::setInitialPrimaryHWVsyncEnabled(this,
PowerModeInitialVSyncEnabled<
Case::Transition::INITIAL_POWER_MODE>::value);
// --------------------------------------------------------------------
// Call Expectations
Case::setupSurfaceInterceptorCallExpectations(this, Case::Transition::TARGET_POWER_MODE);
Case::Transition::template setupCallExpectations<Case>(this);
// --------------------------------------------------------------------
// Invocation
mFlinger.setPowerModeInternal(display.mutableDisplayDevice(),
Case::Transition::TARGET_POWER_MODE);
// --------------------------------------------------------------------
// Postconditions
Case::Transition::verifyPostconditions(this);
}
TEST_F(SetPowerModeInternalTest, setPowerModeInternalDoesNothingIfNoChange) {
using Case = SimplePrimaryDisplayCase;
// --------------------------------------------------------------------
// Preconditions
// A primary display device is set up
Case::Display::injectHwcDisplay(this);
auto display = Case::Display::makeFakeExistingDisplayInjector(this);
display.inject();
// The display is already set to PowerMode::ON
display.mutableDisplayDevice()->setPowerMode(PowerMode::ON);
// --------------------------------------------------------------------
// Invocation
mFlinger.setPowerModeInternal(display.mutableDisplayDevice(), PowerMode::ON);
// --------------------------------------------------------------------
// Postconditions
EXPECT_EQ(PowerMode::ON, display.mutableDisplayDevice()->getPowerMode());
}
TEST_F(SetPowerModeInternalTest, setPowerModeInternalDoesNothingIfVirtualDisplay) {
using Case = HwcVirtualDisplayCase;
// --------------------------------------------------------------------
// Preconditions
// Insert display data so that the HWC thinks it created the virtual display.
const auto displayId = Case::Display::DISPLAY_ID::get();
ASSERT_TRUE(HalVirtualDisplayId::tryCast(displayId));
mFlinger.mutableHwcDisplayData().try_emplace(displayId);
// A virtual display device is set up
Case::Display::injectHwcDisplay(this);
auto display = Case::Display::makeFakeExistingDisplayInjector(this);
display.inject();
// The display is set to PowerMode::ON
getDisplayDevice(display.token())->setPowerMode(PowerMode::ON);
// --------------------------------------------------------------------
// Invocation
mFlinger.setPowerModeInternal(display.mutableDisplayDevice(), PowerMode::OFF);
// --------------------------------------------------------------------
// Postconditions
EXPECT_EQ(PowerMode::ON, display.mutableDisplayDevice()->getPowerMode());
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromOffToOnPrimaryDisplay) {
transitionDisplayCommon<PrimaryDisplayPowerCase<TransitionOffToOnVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromOffToDozeSuspendPrimaryDisplay) {
transitionDisplayCommon<PrimaryDisplayPowerCase<TransitionOffToDozeSuspendVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromOnToOffPrimaryDisplay) {
transitionDisplayCommon<PrimaryDisplayPowerCase<TransitionOnToOffVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromDozeSuspendToOffPrimaryDisplay) {
transitionDisplayCommon<PrimaryDisplayPowerCase<TransitionDozeSuspendToOffVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromOnToDozePrimaryDisplay) {
transitionDisplayCommon<PrimaryDisplayPowerCase<TransitionOnToDozeVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromDozeSuspendToDozePrimaryDisplay) {
transitionDisplayCommon<PrimaryDisplayPowerCase<TransitionDozeSuspendToDozeVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromDozeToOnPrimaryDisplay) {
transitionDisplayCommon<PrimaryDisplayPowerCase<TransitionDozeToOnVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromDozeSuspendToOnPrimaryDisplay) {
transitionDisplayCommon<PrimaryDisplayPowerCase<TransitionDozeSuspendToOnVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromOnToDozeSuspendPrimaryDisplay) {
transitionDisplayCommon<PrimaryDisplayPowerCase<TransitionOnToDozeSuspendVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromOnToUnknownPrimaryDisplay) {
transitionDisplayCommon<PrimaryDisplayPowerCase<TransitionOnToUnknownVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromOffToOnExternalDisplay) {
transitionDisplayCommon<ExternalDisplayPowerCase<TransitionOffToOnVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromOffToDozeSuspendExternalDisplay) {
transitionDisplayCommon<ExternalDisplayPowerCase<TransitionOffToDozeSuspendVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromOnToOffExternalDisplay) {
transitionDisplayCommon<ExternalDisplayPowerCase<TransitionOnToOffVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromDozeSuspendToOffExternalDisplay) {
transitionDisplayCommon<ExternalDisplayPowerCase<TransitionDozeSuspendToOffVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromOnToDozeExternalDisplay) {
transitionDisplayCommon<ExternalDisplayPowerCase<TransitionOnToDozeVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromDozeSuspendToDozeExternalDisplay) {
transitionDisplayCommon<ExternalDisplayPowerCase<TransitionDozeSuspendToDozeVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromDozeToOnExternalDisplay) {
transitionDisplayCommon<ExternalDisplayPowerCase<TransitionDozeToOnVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromDozeSuspendToOnExternalDisplay) {
transitionDisplayCommon<ExternalDisplayPowerCase<TransitionDozeSuspendToOnVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromOnToDozeSuspendExternalDisplay) {
transitionDisplayCommon<ExternalDisplayPowerCase<TransitionOnToDozeSuspendVariant>>();
}
TEST_F(SetPowerModeInternalTest, transitionsDisplayFromOnToUnknownExternalDisplay) {
transitionDisplayCommon<ExternalDisplayPowerCase<TransitionOnToUnknownVariant>>();
}
} // namespace
} // namespace android
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