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chromium / chromium / src / 9d7ff2e8d36006998c5eadbc5f560990de231dcd / . / ash / wm / lock_state_controller_unittest.cc
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// Copyright 2013 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "ash/wm/lock_state_controller.h"
#include <memory>
#include <utility>
#include "ash/common/session/session_state_delegate.h"
#include "ash/shell.h"
#include "ash/test/ash_test_base.h"
#include "ash/test/test_lock_state_controller_delegate.h"
#include "ash/test/test_screenshot_delegate.h"
#include "ash/test/test_session_state_animator.h"
#include "ash/test/test_shell_delegate.h"
#include "ash/wm/maximize_mode/maximize_mode_controller.h"
#include "ash/wm/power_button_controller.h"
#include "ash/wm/session_state_animator.h"
#include "base/memory/scoped_vector.h"
#include "base/time/time.h"
#include "ui/events/test/event_generator.h"
#include "ui/gfx/geometry/size.h"
#if defined(OS_CHROMEOS)
#include "ui/display/chromeos/display_configurator.h"
#include "ui/display/chromeos/test/test_display_snapshot.h"
#include "ui/display/types/display_constants.h"
#endif
namespace ash {
namespace test {
namespace {
bool cursor_visible() {
return ash::Shell::GetInstance()->cursor_manager()->IsCursorVisible();
}
void CheckCalledCallback(bool* flag) {
if (flag)
(*flag) = true;
}
} // namespace
class LockStateControllerTest : public AshTestBase {
public:
LockStateControllerTest()
: power_button_controller_(NULL),
lock_state_controller_(NULL),
lock_state_controller_delegate_(NULL),
test_animator_(NULL) {}
~LockStateControllerTest() override {}
void SetUp() override {
AshTestBase::SetUp();
std::unique_ptr<LockStateControllerDelegate> lock_state_controller_delegate(
lock_state_controller_delegate_ = new TestLockStateControllerDelegate);
test_animator_ = new TestSessionStateAnimator;
lock_state_controller_ = Shell::GetInstance()->lock_state_controller();
lock_state_controller_->SetDelegate(
std::move(lock_state_controller_delegate));
lock_state_controller_->set_animator_for_test(test_animator_);
test_api_.reset(new LockStateController::TestApi(lock_state_controller_));
power_button_controller_ = Shell::GetInstance()->power_button_controller();
session_state_delegate_ = Shell::GetInstance()->session_state_delegate();
shell_delegate_ = reinterpret_cast<TestShellDelegate*>(
ash::Shell::GetInstance()->delegate());
}
protected:
void GenerateMouseMoveEvent() {
ui::test::EventGenerator generator(Shell::GetPrimaryRootWindow());
generator.MoveMouseTo(10, 10);
}
int NumShutdownRequests() {
return lock_state_controller_delegate_->num_shutdown_requests() +
shell_delegate_->num_exit_requests();
}
void Advance(SessionStateAnimator::AnimationSpeed speed) {
test_animator_->Advance(test_animator_->GetDuration(speed));
}
void AdvancePartially(SessionStateAnimator::AnimationSpeed speed,
float factor) {
base::TimeDelta duration = test_animator_->GetDuration(speed);
base::TimeDelta partial_duration =
base::TimeDelta::FromInternalValue(duration.ToInternalValue() * factor);
test_animator_->Advance(partial_duration);
}
void ExpectPreLockAnimationStarted() {
SCOPED_TRACE("Failure in ExpectPreLockAnimationStarted");
EXPECT_LT(0u, test_animator_->GetAnimationCount());
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::NON_LOCK_SCREEN_CONTAINERS,
SessionStateAnimator::ANIMATION_LIFT));
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::LAUNCHER,
SessionStateAnimator::ANIMATION_FADE_OUT));
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::LOCK_SCREEN_CONTAINERS,
SessionStateAnimator::ANIMATION_HIDE_IMMEDIATELY));
EXPECT_TRUE(test_api_->is_animating_lock());
}
void ExpectPreLockAnimationRunning() {
SCOPED_TRACE("Failure in ExpectPreLockAnimationRunning");
EXPECT_LT(0u, test_animator_->GetAnimationCount());
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::NON_LOCK_SCREEN_CONTAINERS,
SessionStateAnimator::ANIMATION_LIFT));
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::LAUNCHER,
SessionStateAnimator::ANIMATION_FADE_OUT));
EXPECT_TRUE(test_api_->is_animating_lock());
}
void ExpectPreLockAnimationCancel() {
SCOPED_TRACE("Failure in ExpectPreLockAnimationCancel");
EXPECT_LT(0u, test_animator_->GetAnimationCount());
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::NON_LOCK_SCREEN_CONTAINERS,
SessionStateAnimator::ANIMATION_UNDO_LIFT));
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::LAUNCHER,
SessionStateAnimator::ANIMATION_FADE_IN));
}
void ExpectPreLockAnimationFinished() {
SCOPED_TRACE("Failure in ExpectPreLockAnimationFinished");
EXPECT_FALSE(test_animator_->AreContainersAnimated(
SessionStateAnimator::NON_LOCK_SCREEN_CONTAINERS,
SessionStateAnimator::ANIMATION_LIFT));
EXPECT_FALSE(test_animator_->AreContainersAnimated(
SessionStateAnimator::LAUNCHER,
SessionStateAnimator::ANIMATION_FADE_OUT));
EXPECT_FALSE(test_animator_->AreContainersAnimated(
SessionStateAnimator::LOCK_SCREEN_CONTAINERS,
SessionStateAnimator::ANIMATION_HIDE_IMMEDIATELY));
}
void ExpectPostLockAnimationStarted() {
SCOPED_TRACE("Failure in ExpectPostLockAnimationStarted");
EXPECT_LT(0u, test_animator_->GetAnimationCount());
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::LOCK_SCREEN_CONTAINERS,
SessionStateAnimator::ANIMATION_RAISE_TO_SCREEN));
}
void ExpectPostLockAnimationFinished() {
SCOPED_TRACE("Failure in ExpectPostLockAnimationFinished");
EXPECT_FALSE(test_animator_->AreContainersAnimated(
SessionStateAnimator::LOCK_SCREEN_CONTAINERS,
SessionStateAnimator::ANIMATION_RAISE_TO_SCREEN));
}
void ExpectUnlockBeforeUIDestroyedAnimationStarted() {
SCOPED_TRACE("Failure in ExpectUnlockBeforeUIDestroyedAnimationStarted");
EXPECT_LT(0u, test_animator_->GetAnimationCount());
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::LOCK_SCREEN_CONTAINERS,
SessionStateAnimator::ANIMATION_LIFT));
}
void ExpectUnlockBeforeUIDestroyedAnimationFinished() {
SCOPED_TRACE("Failure in ExpectUnlockBeforeUIDestroyedAnimationFinished");
EXPECT_FALSE(test_animator_->AreContainersAnimated(
SessionStateAnimator::LOCK_SCREEN_CONTAINERS,
SessionStateAnimator::ANIMATION_LIFT));
}
void ExpectUnlockAfterUIDestroyedAnimationStarted() {
SCOPED_TRACE("Failure in ExpectUnlockAfterUIDestroyedAnimationStarted");
EXPECT_LT(0u, test_animator_->GetAnimationCount());
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::NON_LOCK_SCREEN_CONTAINERS,
SessionStateAnimator::ANIMATION_DROP));
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::LAUNCHER,
SessionStateAnimator::ANIMATION_FADE_IN));
}
void ExpectUnlockAfterUIDestroyedAnimationFinished() {
SCOPED_TRACE("Failure in ExpectUnlockAfterUIDestroyedAnimationFinished");
EXPECT_EQ(0u, test_animator_->GetAnimationCount());
EXPECT_FALSE(test_animator_->AreContainersAnimated(
SessionStateAnimator::NON_LOCK_SCREEN_CONTAINERS,
SessionStateAnimator::ANIMATION_DROP));
EXPECT_FALSE(test_animator_->AreContainersAnimated(
SessionStateAnimator::LAUNCHER,
SessionStateAnimator::ANIMATION_FADE_IN));
}
void ExpectShutdownAnimationStarted() {
SCOPED_TRACE("Failure in ExpectShutdownAnimationStarted");
EXPECT_LT(0u, test_animator_->GetAnimationCount());
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::ROOT_CONTAINER,
SessionStateAnimator::ANIMATION_GRAYSCALE_BRIGHTNESS));
}
void ExpectShutdownAnimationFinished() {
SCOPED_TRACE("Failure in ExpectShutdownAnimationFinished");
EXPECT_EQ(0u, test_animator_->GetAnimationCount());
EXPECT_FALSE(test_animator_->AreContainersAnimated(
SessionStateAnimator::ROOT_CONTAINER,
SessionStateAnimator::ANIMATION_GRAYSCALE_BRIGHTNESS));
}
void ExpectShutdownAnimationCancel() {
SCOPED_TRACE("Failure in ExpectShutdownAnimationCancel");
EXPECT_LT(0u, test_animator_->GetAnimationCount());
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::ROOT_CONTAINER,
SessionStateAnimator::ANIMATION_UNDO_GRAYSCALE_BRIGHTNESS));
}
void ExpectBackgroundIsShowing() {
SCOPED_TRACE("Failure in ExpectBackgroundIsShowing");
EXPECT_LT(0u, test_animator_->GetAnimationCount());
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::DESKTOP_BACKGROUND,
SessionStateAnimator::ANIMATION_FADE_IN));
}
void ExpectBackgroundIsHiding() {
SCOPED_TRACE("Failure in ExpectBackgroundIsHiding");
EXPECT_LT(0u, test_animator_->GetAnimationCount());
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::DESKTOP_BACKGROUND,
SessionStateAnimator::ANIMATION_FADE_OUT));
}
void ExpectRestoringBackgroundVisibility() {
SCOPED_TRACE("Failure in ExpectRestoringBackgroundVisibility");
EXPECT_LT(0u, test_animator_->GetAnimationCount());
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::DESKTOP_BACKGROUND,
SessionStateAnimator::ANIMATION_FADE_IN));
}
void ExpectUnlockedState() {
SCOPED_TRACE("Failure in ExpectUnlockedState");
EXPECT_EQ(0u, test_animator_->GetAnimationCount());
EXPECT_FALSE(session_state_delegate_->IsScreenLocked());
}
void ExpectLockedState() {
SCOPED_TRACE("Failure in ExpectLockedState");
EXPECT_EQ(0u, test_animator_->GetAnimationCount());
EXPECT_TRUE(session_state_delegate_->IsScreenLocked());
}
void HideBackground() { test_animator_->HideBackground(); }
void PressPowerButton() {
power_button_controller_->OnPowerButtonEvent(true, base::TimeTicks::Now());
}
void ReleasePowerButton() {
power_button_controller_->OnPowerButtonEvent(false, base::TimeTicks::Now());
}
void PressLockButton() {
power_button_controller_->OnLockButtonEvent(true, base::TimeTicks::Now());
}
void ReleaseLockButton() {
power_button_controller_->OnLockButtonEvent(false, base::TimeTicks::Now());
}
void PressVolumeDown() {
GetEventGenerator().PressKey(ui::VKEY_VOLUME_DOWN, ui::EF_NONE);
}
void ReleaseVolumeDown() {
GetEventGenerator().ReleaseKey(ui::VKEY_VOLUME_DOWN, ui::EF_NONE);
}
void SystemLocks() {
lock_state_controller_->OnLockStateChanged(true);
session_state_delegate_->LockScreen();
}
void SuccessfulAuthentication(bool* call_flag) {
base::Closure closure = base::Bind(&CheckCalledCallback, call_flag);
lock_state_controller_->OnLockScreenHide(closure);
}
void SystemUnlocks() {
lock_state_controller_->OnLockStateChanged(false);
session_state_delegate_->UnlockScreen();
}
void EnableMaximizeMode(bool enable) {
Shell::GetInstance()
->maximize_mode_controller()
->EnableMaximizeModeWindowManager(enable);
}
void Initialize(bool legacy_button, LoginStatus status) {
power_button_controller_->set_has_legacy_power_button_for_test(
legacy_button);
lock_state_controller_->OnLoginStateChanged(status);
SetUserLoggedIn(status != LoginStatus::NOT_LOGGED_IN);
if (status == LoginStatus::GUEST)
SetCanLockScreen(false);
lock_state_controller_->OnLockStateChanged(false);
}
PowerButtonController* power_button_controller_; // not owned
LockStateController* lock_state_controller_; // not owned
TestLockStateControllerDelegate*
lock_state_controller_delegate_; // not owned
TestSessionStateAnimator* test_animator_; // not owned
SessionStateDelegate* session_state_delegate_; // not owned
std::unique_ptr<LockStateController::TestApi> test_api_;
TestShellDelegate* shell_delegate_; // not owned
private:
DISALLOW_COPY_AND_ASSIGN(LockStateControllerTest);
};
// Test the lock-to-shutdown flow for non-Chrome-OS hardware that doesn't
// correctly report power button releases. We should lock immediately the first
// time the button is pressed and shut down when it's pressed from the locked
// state.
TEST_F(LockStateControllerTest, LegacyLockAndShutDown) {
Initialize(true, LoginStatus::USER);
ExpectUnlockedState();
// We should request that the screen be locked immediately after seeing the
// power button get pressed.
PressPowerButton();
EXPECT_FALSE(test_api_->is_lock_cancellable());
ExpectPreLockAnimationStarted();
test_animator_->CompleteAllAnimations(true);
ExpectPreLockAnimationFinished();
EXPECT_EQ(1, lock_state_controller_delegate_->num_lock_requests());
// Notify that we locked successfully.
lock_state_controller_->OnStartingLock();
EXPECT_EQ(0u, test_animator_->GetAnimationCount());
SystemLocks();
ExpectPostLockAnimationStarted();
test_animator_->CompleteAllAnimations(true);
ExpectPostLockAnimationFinished();
// We shouldn't progress towards the shutdown state, however.
EXPECT_FALSE(test_api_->lock_to_shutdown_timer_is_running());
EXPECT_FALSE(test_api_->shutdown_timer_is_running());
ReleasePowerButton();
// Hold the button again and check that we start shutting down.
PressPowerButton();
ExpectShutdownAnimationStarted();
EXPECT_EQ(0, NumShutdownRequests());
// Make sure a mouse move event won't show the cursor.
GenerateMouseMoveEvent();
EXPECT_FALSE(cursor_visible());
EXPECT_TRUE(test_api_->real_shutdown_timer_is_running());
test_api_->trigger_real_shutdown_timeout();
EXPECT_EQ(1, NumShutdownRequests());
}
// Test that we start shutting down immediately if the power button is pressed
// while we're not logged in on an unofficial system.
TEST_F(LockStateControllerTest, LegacyNotLoggedIn) {
Initialize(true, LoginStatus::NOT_LOGGED_IN);
PressPowerButton();
ExpectShutdownAnimationStarted();
EXPECT_TRUE(test_api_->real_shutdown_timer_is_running());
}
// Test that we start shutting down immediately if the power button is pressed
// while we're logged in as a guest on an unofficial system.
TEST_F(LockStateControllerTest, LegacyGuest) {
Initialize(true, LoginStatus::GUEST);
PressPowerButton();
ExpectShutdownAnimationStarted();
EXPECT_TRUE(test_api_->real_shutdown_timer_is_running());
}
// When we hold the power button while the user isn't logged in, we should shut
// down the machine directly.
TEST_F(LockStateControllerTest, ShutdownWhenNotLoggedIn) {
Initialize(false, LoginStatus::NOT_LOGGED_IN);
// Press the power button and check that we start the shutdown timer.
PressPowerButton();
EXPECT_FALSE(test_api_->is_animating_lock());
EXPECT_TRUE(test_api_->shutdown_timer_is_running());
ExpectShutdownAnimationStarted();
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_SHUTDOWN, 0.5f);
// Release the power button before the shutdown timer fires.
ReleasePowerButton();
EXPECT_FALSE(test_api_->shutdown_timer_is_running());
ExpectShutdownAnimationCancel();
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_REVERT, 0.5f);
// Press the button again and make the shutdown timeout fire this time.
// Check that we start the timer for actually requesting the shutdown.
PressPowerButton();
EXPECT_TRUE(test_api_->shutdown_timer_is_running());
Advance(SessionStateAnimator::ANIMATION_SPEED_SHUTDOWN);
ExpectShutdownAnimationFinished();
test_api_->trigger_shutdown_timeout();
EXPECT_TRUE(test_api_->real_shutdown_timer_is_running());
EXPECT_EQ(0, NumShutdownRequests());
// When the timout fires, we should request a shutdown.
test_api_->trigger_real_shutdown_timeout();
EXPECT_EQ(1, NumShutdownRequests());
}
// Test that we lock the screen and deal with unlocking correctly.
TEST_F(LockStateControllerTest, LockAndUnlock) {
Initialize(false, LoginStatus::USER);
ExpectUnlockedState();
// Press the power button and check that the lock timer is started and that we
// start lifting the non-screen-locker containers.
PressPowerButton();
ExpectPreLockAnimationStarted();
EXPECT_TRUE(test_api_->is_lock_cancellable());
EXPECT_EQ(0, lock_state_controller_delegate_->num_lock_requests());
test_animator_->CompleteAllAnimations(true);
ExpectPreLockAnimationFinished();
EXPECT_EQ(1, lock_state_controller_delegate_->num_lock_requests());
// Notify that we locked successfully.
lock_state_controller_->OnStartingLock();
// We had that animation already.
EXPECT_EQ(0u, test_animator_->GetAnimationCount());
SystemLocks();
ExpectPostLockAnimationStarted();
test_animator_->CompleteAllAnimations(true);
ExpectPostLockAnimationFinished();
// When we release the power button, the lock-to-shutdown timer should be
// stopped.
ExpectLockedState();
EXPECT_TRUE(test_api_->lock_to_shutdown_timer_is_running());
ReleasePowerButton();
ExpectLockedState();
EXPECT_FALSE(test_api_->lock_to_shutdown_timer_is_running());
// Notify that the screen has been unlocked. We should show the
// non-screen-locker windows.
bool called = false;
SuccessfulAuthentication(&called);
ExpectUnlockBeforeUIDestroyedAnimationStarted();
EXPECT_FALSE(called);
test_animator_->CompleteAllAnimations(true);
ExpectUnlockBeforeUIDestroyedAnimationFinished();
EXPECT_TRUE(called);
SystemUnlocks();
ExpectUnlockAfterUIDestroyedAnimationStarted();
test_animator_->CompleteAllAnimations(true);
ExpectUnlockAfterUIDestroyedAnimationFinished();
ExpectUnlockedState();
}
// Test that we deal with cancelling lock correctly.
TEST_F(LockStateControllerTest, LockAndCancel) {
Initialize(false, LoginStatus::USER);
ExpectUnlockedState();
// Press the power button and check that the lock timer is started and that we
// start lifting the non-screen-locker containers.
PressPowerButton();
ExpectPreLockAnimationStarted();
EXPECT_TRUE(test_api_->is_lock_cancellable());
// forward only half way through
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE, 0.5f);
// Release the button before the lock timer fires.
ReleasePowerButton();
ExpectPreLockAnimationCancel();
Advance(SessionStateAnimator::ANIMATION_SPEED_MOVE_WINDOWS);
ExpectUnlockedState();
EXPECT_EQ(0, lock_state_controller_delegate_->num_lock_requests());
}
// Test that we deal with cancelling lock correctly.
TEST_F(LockStateControllerTest, LockAndCancelAndLockAgain) {
Initialize(false, LoginStatus::USER);
ExpectUnlockedState();
// Press the power button and check that the lock timer is started and that we
// start lifting the non-screen-locker containers.
PressPowerButton();
ExpectPreLockAnimationStarted();
EXPECT_TRUE(test_api_->is_lock_cancellable());
// forward only half way through
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE, 0.5f);
// Release the button before the lock timer fires.
ReleasePowerButton();
ExpectPreLockAnimationCancel();
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_UNDO_MOVE_WINDOWS,
0.5f);
PressPowerButton();
ExpectPreLockAnimationStarted();
EXPECT_TRUE(test_api_->is_lock_cancellable());
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE, 0.6f);
EXPECT_EQ(0, lock_state_controller_delegate_->num_lock_requests());
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE, 0.6f);
ExpectPreLockAnimationFinished();
EXPECT_EQ(1, lock_state_controller_delegate_->num_lock_requests());
}
// Hold the power button down from the unlocked state to eventual shutdown.
TEST_F(LockStateControllerTest, LockToShutdown) {
Initialize(false, LoginStatus::USER);
// Hold the power button and lock the screen.
PressPowerButton();
EXPECT_TRUE(test_api_->is_animating_lock());
Advance(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE);
SystemLocks();
Advance(SessionStateAnimator::ANIMATION_SPEED_MOVE_WINDOWS);
// When the lock-to-shutdown timeout fires, we should start the shutdown
// timer.
EXPECT_TRUE(test_api_->lock_to_shutdown_timer_is_running());
test_api_->trigger_lock_to_shutdown_timeout();
ExpectShutdownAnimationStarted();
EXPECT_TRUE(test_api_->shutdown_timer_is_running());
// Fire the shutdown timeout and check that we request shutdown.
Advance(SessionStateAnimator::ANIMATION_SPEED_SHUTDOWN);
ExpectShutdownAnimationFinished();
test_api_->trigger_shutdown_timeout();
EXPECT_TRUE(test_api_->real_shutdown_timer_is_running());
EXPECT_EQ(0, NumShutdownRequests());
test_api_->trigger_real_shutdown_timeout();
EXPECT_EQ(1, NumShutdownRequests());
}
// Hold the power button down from the unlocked state to eventual shutdown,
// then release the button while system does locking.
TEST_F(LockStateControllerTest, CancelLockToShutdown) {
Initialize(false, LoginStatus::USER);
PressPowerButton();
// Hold the power button and lock the screen.
EXPECT_TRUE(test_api_->is_animating_lock());
Advance(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE);
SystemLocks();
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_MOVE_WINDOWS, 0.5f);
// Power button is released while system attempts to lock.
ReleasePowerButton();
Advance(SessionStateAnimator::ANIMATION_SPEED_MOVE_WINDOWS);
EXPECT_FALSE(lock_state_controller_->ShutdownRequested());
EXPECT_FALSE(test_api_->lock_to_shutdown_timer_is_running());
EXPECT_FALSE(test_api_->shutdown_timer_is_running());
}
// TODO(bruthig): Investigate why this hangs on Windows 8 and whether it can be
// safely enabled on OS_WIN.
#ifndef OS_WIN
// Test that we handle the case where lock requests are ignored.
TEST_F(LockStateControllerTest, Lock) {
Initialize(false, LoginStatus::USER);
// Hold the power button and lock the screen.
PressPowerButton();
ExpectPreLockAnimationStarted();
Advance(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE);
EXPECT_EQ(1, lock_state_controller_delegate_->num_lock_requests());
EXPECT_TRUE(test_api_->lock_fail_timer_is_running());
// We shouldn't start the lock-to-shutdown timer until the screen has actually
// been locked and this was animated.
EXPECT_FALSE(test_api_->lock_to_shutdown_timer_is_running());
// Act as if the request timed out.
EXPECT_DEATH(test_api_->trigger_lock_fail_timeout(), "");
}
#endif
// Test the basic operation of the lock button (not logged in).
TEST_F(LockStateControllerTest, LockButtonBasicNotLoggedIn) {
// The lock button shouldn't do anything if we aren't logged in.
Initialize(false, LoginStatus::NOT_LOGGED_IN);
PressLockButton();
EXPECT_FALSE(test_api_->is_animating_lock());
ReleaseLockButton();
EXPECT_EQ(0, lock_state_controller_delegate_->num_lock_requests());
}
// Test the basic operation of the lock button (guest).
TEST_F(LockStateControllerTest, LockButtonBasicGuest) {
// The lock button shouldn't do anything when we're logged in as a guest.
Initialize(false, LoginStatus::GUEST);
PressLockButton();
EXPECT_FALSE(test_api_->is_animating_lock());
ReleaseLockButton();
EXPECT_EQ(0, lock_state_controller_delegate_->num_lock_requests());
}
// Test the basic operation of the lock button.
TEST_F(LockStateControllerTest, LockButtonBasic) {
// If we're logged in as a regular user, we should start the lock timer and
// the pre-lock animation.
Initialize(false, LoginStatus::USER);
PressLockButton();
ExpectPreLockAnimationStarted();
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE, 0.5f);
// If the button is released immediately, we shouldn't lock the screen.
ReleaseLockButton();
ExpectPreLockAnimationCancel();
Advance(SessionStateAnimator::ANIMATION_SPEED_MOVE_WINDOWS);
ExpectUnlockedState();
EXPECT_EQ(0, lock_state_controller_delegate_->num_lock_requests());
// Press the button again and let the lock timeout fire. We should request
// that the screen be locked.
PressLockButton();
ExpectPreLockAnimationStarted();
Advance(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE);
EXPECT_EQ(1, lock_state_controller_delegate_->num_lock_requests());
// Pressing the lock button while we have a pending lock request shouldn't do
// anything.
ReleaseLockButton();
PressLockButton();
ExpectPreLockAnimationFinished();
ReleaseLockButton();
// Pressing the button also shouldn't do anything after the screen is locked.
SystemLocks();
ExpectPostLockAnimationStarted();
PressLockButton();
ReleaseLockButton();
ExpectPostLockAnimationStarted();
Advance(SessionStateAnimator::ANIMATION_SPEED_MOVE_WINDOWS);
ExpectPostLockAnimationFinished();
PressLockButton();
ReleaseLockButton();
ExpectPostLockAnimationFinished();
}
// Test that the power button takes priority over the lock button.
TEST_F(LockStateControllerTest, PowerButtonPreemptsLockButton) {
Initialize(false, LoginStatus::USER);
// While the lock button is down, hold the power button.
PressLockButton();
ExpectPreLockAnimationStarted();
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE, 0.1f);
ExpectPreLockAnimationRunning();
PressPowerButton();
ExpectPreLockAnimationRunning();
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE, 0.1f);
ExpectPreLockAnimationRunning();
// The lock timer shouldn't be stopped when the lock button is released.
ReleaseLockButton();
ExpectPreLockAnimationRunning();
ReleasePowerButton();
ExpectPreLockAnimationCancel();
Advance(SessionStateAnimator::ANIMATION_SPEED_MOVE_WINDOWS);
ExpectUnlockedState();
// Now press the power button first and then the lock button.
PressPowerButton();
ExpectPreLockAnimationStarted();
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE, 0.1f);
PressLockButton();
ExpectPreLockAnimationRunning();
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE, 0.1f);
// Releasing the power button should stop the lock timer.
ReleasePowerButton();
ExpectPreLockAnimationCancel();
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE, 0.1f);
ReleaseLockButton();
ExpectPreLockAnimationCancel();
}
// When the screen is locked without going through the usual power-button
// slow-close path (e.g. via the wrench menu), test that we still show the
// fast-close animation.
TEST_F(LockStateControllerTest, LockWithoutButton) {
Initialize(false, LoginStatus::USER);
lock_state_controller_->OnStartingLock();
ExpectPreLockAnimationStarted();
EXPECT_FALSE(test_api_->is_lock_cancellable());
EXPECT_LT(0u, test_animator_->GetAnimationCount());
test_animator_->CompleteAllAnimations(true);
EXPECT_EQ(0, lock_state_controller_delegate_->num_lock_requests());
}
// When we hear that the process is exiting but we haven't had a chance to
// display an animation, we should just blank the screen.
TEST_F(LockStateControllerTest, ShutdownWithoutButton) {
Initialize(false, LoginStatus::USER);
lock_state_controller_->OnAppTerminating();
EXPECT_TRUE(test_animator_->AreContainersAnimated(
SessionStateAnimator::kAllNonRootContainersMask,
SessionStateAnimator::ANIMATION_HIDE_IMMEDIATELY));
GenerateMouseMoveEvent();
EXPECT_FALSE(cursor_visible());
}
// Test that we display the fast-close animation and shut down when we get an
// outside request to shut down (e.g. from the login or lock screen).
TEST_F(LockStateControllerTest, RequestShutdownFromLoginScreen) {
Initialize(false, LoginStatus::NOT_LOGGED_IN);
lock_state_controller_->RequestShutdown();
ExpectShutdownAnimationStarted();
Advance(SessionStateAnimator::ANIMATION_SPEED_SHUTDOWN);
GenerateMouseMoveEvent();
EXPECT_FALSE(cursor_visible());
EXPECT_EQ(0, NumShutdownRequests());
EXPECT_TRUE(test_api_->real_shutdown_timer_is_running());
test_api_->trigger_real_shutdown_timeout();
EXPECT_EQ(1, NumShutdownRequests());
}
TEST_F(LockStateControllerTest, RequestShutdownFromLockScreen) {
Initialize(false, LoginStatus::USER);
SystemLocks();
Advance(SessionStateAnimator::ANIMATION_SPEED_SHUTDOWN);
ExpectPostLockAnimationFinished();
lock_state_controller_->RequestShutdown();
ExpectShutdownAnimationStarted();
Advance(SessionStateAnimator::ANIMATION_SPEED_SHUTDOWN);
GenerateMouseMoveEvent();
EXPECT_FALSE(cursor_visible());
EXPECT_EQ(0, NumShutdownRequests());
EXPECT_TRUE(test_api_->real_shutdown_timer_is_running());
test_api_->trigger_real_shutdown_timeout();
EXPECT_EQ(1, NumShutdownRequests());
}
TEST_F(LockStateControllerTest, RequestAndCancelShutdownFromLockScreen) {
Initialize(false, LoginStatus::USER);
SystemLocks();
Advance(SessionStateAnimator::ANIMATION_SPEED_SHUTDOWN);
ExpectLockedState();
// Press the power button and check that we start the shutdown timer.
PressPowerButton();
EXPECT_FALSE(test_api_->is_animating_lock());
EXPECT_TRUE(test_api_->shutdown_timer_is_running());
ExpectShutdownAnimationStarted();
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_SHUTDOWN, 0.5f);
// Release the power button before the shutdown timer fires.
ReleasePowerButton();
EXPECT_FALSE(test_api_->shutdown_timer_is_running());
ExpectShutdownAnimationCancel();
Advance(SessionStateAnimator::ANIMATION_SPEED_REVERT_SHUTDOWN);
ExpectLockedState();
}
// Test that we ignore power button presses when the screen is turned off.
TEST_F(LockStateControllerTest, IgnorePowerButtonIfScreenIsOff) {
Initialize(false, LoginStatus::USER);
// When the screen brightness is at 0%, we shouldn't do anything in response
// to power button presses.
power_button_controller_->OnScreenBrightnessChanged(0.0);
PressPowerButton();
EXPECT_FALSE(test_api_->is_animating_lock());
ReleasePowerButton();
// After increasing the brightness to 10%, we should start the timer like
// usual.
power_button_controller_->OnScreenBrightnessChanged(10.0);
PressPowerButton();
EXPECT_TRUE(test_api_->is_animating_lock());
ReleasePowerButton();
}
#if defined(OS_CHROMEOS)
TEST_F(LockStateControllerTest, HonorPowerButtonInDockedMode) {
std::vector<std::unique_ptr<const ui::DisplayMode>> modes;
modes.push_back(
base::WrapUnique(new ui::DisplayMode(gfx::Size(1, 1), false, 60.0f)));
// Create two outputs, the first internal and the second external.
ui::DisplayConfigurator::DisplayStateList outputs;
ui::TestDisplaySnapshot internal_display;
internal_display.set_type(ui::DISPLAY_CONNECTION_TYPE_INTERNAL);
internal_display.set_modes(std::move(modes));
outputs.push_back(&internal_display);
modes.clear();
modes.push_back(
base::WrapUnique(new ui::DisplayMode(gfx::Size(1, 1), false, 60.0f)));
ui::TestDisplaySnapshot external_display;
external_display.set_type(ui::DISPLAY_CONNECTION_TYPE_HDMI);
external_display.set_modes(std::move(modes));
outputs.push_back(&external_display);
// When all of the displays are turned off (e.g. due to user inactivity), the
// power button should be ignored.
power_button_controller_->OnScreenBrightnessChanged(0.0);
internal_display.set_current_mode(nullptr);
external_display.set_current_mode(nullptr);
power_button_controller_->OnDisplayModeChanged(outputs);
PressPowerButton();
EXPECT_FALSE(test_api_->is_animating_lock());
ReleasePowerButton();
// When the screen brightness is 0% but the external display is still turned
// on (indicating either docked mode or the user having manually decreased the
// brightness to 0%), the power button should still be handled.
external_display.set_current_mode(external_display.modes().back().get());
power_button_controller_->OnDisplayModeChanged(outputs);
PressPowerButton();
EXPECT_TRUE(test_api_->is_animating_lock());
ReleasePowerButton();
}
#endif
// Test that hidden background appears and revers correctly on lock/cancel.
TEST_F(LockStateControllerTest, TestHiddenBackgroundLockCancel) {
Initialize(false, LoginStatus::USER);
HideBackground();
ExpectUnlockedState();
PressPowerButton();
ExpectPreLockAnimationStarted();
ExpectBackgroundIsShowing();
// Forward only half way through.
AdvancePartially(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE, 0.5f);
// Release the button before the lock timer fires.
ReleasePowerButton();
ExpectPreLockAnimationCancel();
ExpectBackgroundIsHiding();
Advance(SessionStateAnimator::ANIMATION_SPEED_UNDO_MOVE_WINDOWS);
// When the CancelPrelockAnimation sequence finishes it queues up a
// restore background visibility sequence when the background is hidden.
ExpectRestoringBackgroundVisibility();
Advance(SessionStateAnimator::ANIMATION_SPEED_IMMEDIATE);
ExpectUnlockedState();
}
// Test that hidden background appears and revers correctly on lock/unlock.
TEST_F(LockStateControllerTest, TestHiddenBackgroundLockUnlock) {
Initialize(false, LoginStatus::USER);
HideBackground();
ExpectUnlockedState();
// Press the power button and check that the lock timer is started and that we
// start lifting the non-screen-locker containers.
PressPowerButton();
ExpectPreLockAnimationStarted();
ExpectBackgroundIsShowing();
Advance(SessionStateAnimator::ANIMATION_SPEED_UNDOABLE);
ExpectPreLockAnimationFinished();
SystemLocks();
ReleasePowerButton();
ExpectPostLockAnimationStarted();
Advance(SessionStateAnimator::ANIMATION_SPEED_MOVE_WINDOWS);
ExpectPostLockAnimationFinished();
ExpectLockedState();
SuccessfulAuthentication(NULL);
ExpectUnlockBeforeUIDestroyedAnimationStarted();
Advance(SessionStateAnimator::ANIMATION_SPEED_MOVE_WINDOWS);
ExpectUnlockBeforeUIDestroyedAnimationFinished();
SystemUnlocks();
ExpectUnlockAfterUIDestroyedAnimationStarted();
ExpectBackgroundIsHiding();
Advance(SessionStateAnimator::ANIMATION_SPEED_MOVE_WINDOWS);
// When the StartUnlockAnimationAfterUIDestroyed sequence finishes it queues
// up a restore background visibility sequence when the background is hidden.
ExpectRestoringBackgroundVisibility();
Advance(SessionStateAnimator::ANIMATION_SPEED_IMMEDIATE);
ExpectUnlockAfterUIDestroyedAnimationFinished();
ExpectUnlockedState();
}
TEST_F(LockStateControllerTest, Screenshot) {
test::TestScreenshotDelegate* delegate = GetScreenshotDelegate();
delegate->set_can_take_screenshot(true);
EnableMaximizeMode(false);
// Screenshot handling should not be active when not in maximize mode.
ASSERT_EQ(0, delegate->handle_take_screenshot_count());
PressVolumeDown();
PressPowerButton();
ReleasePowerButton();
ReleaseVolumeDown();
EXPECT_EQ(0, delegate->handle_take_screenshot_count());
EnableMaximizeMode(true);
// Pressing power alone does not take a screenshot.
PressPowerButton();
ReleasePowerButton();
EXPECT_EQ(0, delegate->handle_take_screenshot_count());
// Press & release volume then pressing power does not take a screenshot.
ASSERT_EQ(0, delegate->handle_take_screenshot_count());
PressVolumeDown();
ReleaseVolumeDown();
PressPowerButton();
ReleasePowerButton();
EXPECT_EQ(0, delegate->handle_take_screenshot_count());
// Pressing power and then volume does not take a screenshot.
ASSERT_EQ(0, delegate->handle_take_screenshot_count());
PressPowerButton();
ReleasePowerButton();
PressVolumeDown();
ReleaseVolumeDown();
EXPECT_EQ(0, delegate->handle_take_screenshot_count());
// Holding volume down and pressing power takes a screenshot.
ASSERT_EQ(0, delegate->handle_take_screenshot_count());
PressVolumeDown();
PressPowerButton();
ReleasePowerButton();
ReleaseVolumeDown();
EXPECT_EQ(1, delegate->handle_take_screenshot_count());
}
// Tests that a lock action is cancellable when quick lock is turned on and
// maximize mode is not active.
TEST_F(LockStateControllerTest, QuickLockWhileNotInMaximizeMode) {
Initialize(false, LoginStatus::USER);
power_button_controller_->set_enable_quick_lock_for_test(true);
EnableMaximizeMode(false);
PressPowerButton();
ExpectPreLockAnimationStarted();
EXPECT_TRUE(test_api_->is_animating_lock());
EXPECT_TRUE(lock_state_controller_->CanCancelLockAnimation());
ReleasePowerButton();
EXPECT_EQ(0, lock_state_controller_delegate_->num_lock_requests());
}
// Tests that a lock action is not cancellable when quick lock is turned on and
// maximize mode is active.
TEST_F(LockStateControllerTest, QuickLockWhileInMaximizeMode) {
Initialize(false, LoginStatus::USER);
power_button_controller_->set_enable_quick_lock_for_test(true);
EnableMaximizeMode(true);
PressPowerButton();
ExpectPreLockAnimationStarted();
EXPECT_TRUE(test_api_->is_animating_lock());
EXPECT_FALSE(lock_state_controller_->CanCancelLockAnimation());
ReleasePowerButton();
ExpectPreLockAnimationStarted();
test_animator_->CompleteAllAnimations(true);
EXPECT_EQ(1, lock_state_controller_delegate_->num_lock_requests());
}
} // namespace test
} // namespace ash