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/*
* Copyright 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 <gtest/gtest.h>
#include <stdlib.h>
#include <unistd.h>
#include <sys/time.h>
#include <sys/types.h>
#include <stdio.h>
#include <poll.h>
#include <memory>
#include <android/keycodes.h>
#include <android/native_window.h>
#include <binder/Binder.h>
#include <binder/IServiceManager.h>
#include <binder/Parcel.h>
#include <binder/ProcessState.h>
#include <gui/ISurfaceComposer.h>
#include <gui/Surface.h>
#include <gui/SurfaceComposerClient.h>
#include <gui/SurfaceControl.h>
#include <android/os/IInputFlinger.h>
#include <gui/WindowInfo.h>
#include <input/Input.h>
#include <input/InputTransport.h>
#include <ui/DisplayMode.h>
#include <ui/Rect.h>
#include <ui/Region.h>
#include <private/android_filesystem_config.h>
using android::os::IInputFlinger;
using android::hardware::graphics::common::V1_1::BufferUsage;
using android::gui::FocusRequest;
using android::gui::InputApplicationInfo;
using android::gui::TouchOcclusionMode;
using android::gui::WindowInfo;
namespace android::test {
using Transaction = SurfaceComposerClient::Transaction;
sp<IInputFlinger> getInputFlinger() {
sp<IBinder> input(defaultServiceManager()->getService(
String16("inputflinger")));
if (input == nullptr) {
ALOGE("Failed to link to input service");
} else { ALOGE("Linked to input"); }
return interface_cast<IInputFlinger>(input);
}
// We use the top 10 layers as a way to haphazardly place ourselves above anything else.
static const int LAYER_BASE = INT32_MAX - 10;
static constexpr std::chrono::nanoseconds DISPATCHING_TIMEOUT = 5s;
class InputSurface {
public:
InputSurface(const sp<SurfaceControl> &sc, int width, int height, bool noInputChannel = false) {
mSurfaceControl = sc;
mInputFlinger = getInputFlinger();
if (noInputChannel) {
mInputInfo.setInputConfig(WindowInfo::InputConfig::NO_INPUT_CHANNEL, true);
} else {
mClientChannel = std::make_shared<InputChannel>();
mInputFlinger->createInputChannel("testchannels", mClientChannel.get());
mInputInfo.token = mClientChannel->getConnectionToken();
mInputConsumer = new InputConsumer(mClientChannel);
}
mInputInfo.name = "Test info";
mInputInfo.dispatchingTimeout = 5s;
mInputInfo.globalScaleFactor = 1.0;
mInputInfo.touchableRegion.orSelf(Rect(0, 0, width, height));
InputApplicationInfo aInfo;
aInfo.token = new BBinder();
aInfo.name = "Test app info";
aInfo.dispatchingTimeoutMillis =
std::chrono::duration_cast<std::chrono::milliseconds>(DISPATCHING_TIMEOUT).count();
mInputInfo.applicationInfo = aInfo;
}
static std::unique_ptr<InputSurface> makeColorInputSurface(const sp<SurfaceComposerClient> &scc,
int width, int height) {
sp<SurfaceControl> surfaceControl =
scc->createSurface(String8("Test Surface"), 0 /* bufHeight */, 0 /* bufWidth */,
PIXEL_FORMAT_RGBA_8888,
ISurfaceComposerClient::eFXSurfaceEffect);
return std::make_unique<InputSurface>(surfaceControl, width, height);
}
static std::unique_ptr<InputSurface> makeBufferInputSurface(
const sp<SurfaceComposerClient> &scc, int width, int height) {
sp<SurfaceControl> surfaceControl =
scc->createSurface(String8("Test Buffer Surface"), width, height,
PIXEL_FORMAT_RGBA_8888, 0 /* flags */);
return std::make_unique<InputSurface>(surfaceControl, width, height);
}
static std::unique_ptr<InputSurface> makeContainerInputSurface(
const sp<SurfaceComposerClient> &scc, int width, int height) {
sp<SurfaceControl> surfaceControl =
scc->createSurface(String8("Test Container Surface"), 0 /* bufHeight */,
0 /* bufWidth */, PIXEL_FORMAT_RGBA_8888,
ISurfaceComposerClient::eFXSurfaceContainer);
return std::make_unique<InputSurface>(surfaceControl, width, height);
}
static std::unique_ptr<InputSurface> makeContainerInputSurfaceNoInputChannel(
const sp<SurfaceComposerClient> &scc, int width, int height) {
sp<SurfaceControl> surfaceControl =
scc->createSurface(String8("Test Container Surface"), 100 /* height */,
100 /* width */, PIXEL_FORMAT_RGBA_8888,
ISurfaceComposerClient::eFXSurfaceContainer);
return std::make_unique<InputSurface>(surfaceControl, width, height,
true /* noInputChannel */);
}
static std::unique_ptr<InputSurface> makeCursorInputSurface(
const sp<SurfaceComposerClient> &scc, int width, int height) {
sp<SurfaceControl> surfaceControl =
scc->createSurface(String8("Test Cursor Surface"), 0 /* bufHeight */,
0 /* bufWidth */, PIXEL_FORMAT_RGBA_8888,
ISurfaceComposerClient::eCursorWindow);
return std::make_unique<InputSurface>(surfaceControl, width, height);
}
InputEvent *consumeEvent(int timeoutMs = 3000) {
waitForEventAvailable(timeoutMs);
InputEvent *ev;
uint32_t seqId;
status_t consumed = mInputConsumer->consume(&mInputEventFactory, true, -1, &seqId, &ev);
if (consumed != OK) {
return nullptr;
}
status_t status = mInputConsumer->sendFinishedSignal(seqId, true);
EXPECT_EQ(OK, status) << "Could not send finished signal";
return ev;
}
void assertFocusChange(bool hasFocus) {
InputEvent *ev = consumeEvent();
ASSERT_NE(ev, nullptr);
ASSERT_EQ(AINPUT_EVENT_TYPE_FOCUS, ev->getType());
FocusEvent *focusEvent = static_cast<FocusEvent *>(ev);
EXPECT_EQ(hasFocus, focusEvent->getHasFocus());
}
void expectTap(int x, int y) {
InputEvent* ev = consumeEvent();
ASSERT_NE(ev, nullptr);
ASSERT_EQ(AINPUT_EVENT_TYPE_MOTION, ev->getType());
MotionEvent* mev = static_cast<MotionEvent*>(ev);
EXPECT_EQ(AMOTION_EVENT_ACTION_DOWN, mev->getAction());
EXPECT_EQ(x, mev->getX(0));
EXPECT_EQ(y, mev->getY(0));
EXPECT_EQ(0, mev->getFlags() & VERIFIED_MOTION_EVENT_FLAGS);
ev = consumeEvent();
ASSERT_NE(ev, nullptr);
ASSERT_EQ(AINPUT_EVENT_TYPE_MOTION, ev->getType());
mev = static_cast<MotionEvent*>(ev);
EXPECT_EQ(AMOTION_EVENT_ACTION_UP, mev->getAction());
EXPECT_EQ(0, mev->getFlags() & VERIFIED_MOTION_EVENT_FLAGS);
}
void expectTapWithFlag(int x, int y, int32_t flags) {
InputEvent *ev = consumeEvent();
ASSERT_NE(ev, nullptr);
ASSERT_EQ(AINPUT_EVENT_TYPE_MOTION, ev->getType());
MotionEvent *mev = static_cast<MotionEvent *>(ev);
EXPECT_EQ(AMOTION_EVENT_ACTION_DOWN, mev->getAction());
EXPECT_EQ(x, mev->getX(0));
EXPECT_EQ(y, mev->getY(0));
EXPECT_EQ(flags, mev->getFlags() & flags);
ev = consumeEvent();
ASSERT_NE(ev, nullptr);
ASSERT_EQ(AINPUT_EVENT_TYPE_MOTION, ev->getType());
mev = static_cast<MotionEvent *>(ev);
EXPECT_EQ(AMOTION_EVENT_ACTION_UP, mev->getAction());
EXPECT_EQ(flags, mev->getFlags() & flags);
}
void expectTapInDisplayCoordinates(int displayX, int displayY) {
InputEvent *ev = consumeEvent();
ASSERT_NE(ev, nullptr);
ASSERT_EQ(AINPUT_EVENT_TYPE_MOTION, ev->getType());
MotionEvent *mev = static_cast<MotionEvent *>(ev);
EXPECT_EQ(AMOTION_EVENT_ACTION_DOWN, mev->getAction());
const PointerCoords &coords = *mev->getRawPointerCoords(0 /*pointerIndex*/);
EXPECT_EQ(displayX, coords.getX());
EXPECT_EQ(displayY, coords.getY());
EXPECT_EQ(0, mev->getFlags() & VERIFIED_MOTION_EVENT_FLAGS);
ev = consumeEvent();
ASSERT_NE(ev, nullptr);
ASSERT_EQ(AINPUT_EVENT_TYPE_MOTION, ev->getType());
mev = static_cast<MotionEvent *>(ev);
EXPECT_EQ(AMOTION_EVENT_ACTION_UP, mev->getAction());
EXPECT_EQ(0, mev->getFlags() & VERIFIED_MOTION_EVENT_FLAGS);
}
void expectKey(uint32_t keycode) {
InputEvent *ev = consumeEvent();
ASSERT_NE(ev, nullptr);
ASSERT_EQ(AINPUT_EVENT_TYPE_KEY, ev->getType());
KeyEvent *keyEvent = static_cast<KeyEvent *>(ev);
EXPECT_EQ(AMOTION_EVENT_ACTION_DOWN, keyEvent->getAction());
EXPECT_EQ(keycode, keyEvent->getKeyCode());
EXPECT_EQ(0, keyEvent->getFlags() & VERIFIED_KEY_EVENT_FLAGS);
ev = consumeEvent();
ASSERT_NE(ev, nullptr);
ASSERT_EQ(AINPUT_EVENT_TYPE_KEY, ev->getType());
keyEvent = static_cast<KeyEvent *>(ev);
EXPECT_EQ(AMOTION_EVENT_ACTION_UP, keyEvent->getAction());
EXPECT_EQ(keycode, keyEvent->getKeyCode());
EXPECT_EQ(0, keyEvent->getFlags() & VERIFIED_KEY_EVENT_FLAGS);
}
virtual ~InputSurface() {
if (mClientChannel) {
mInputFlinger->removeInputChannel(mClientChannel->getConnectionToken());
}
}
virtual void doTransaction(
std::function<void(SurfaceComposerClient::Transaction &, const sp<SurfaceControl> &)>
transactionBody) {
SurfaceComposerClient::Transaction t;
transactionBody(t, mSurfaceControl);
t.apply(true);
}
virtual void showAt(int x, int y, Rect crop = Rect(0, 0, 100, 100)) {
SurfaceComposerClient::Transaction t;
t.show(mSurfaceControl);
t.setInputWindowInfo(mSurfaceControl, mInputInfo);
t.setLayer(mSurfaceControl, LAYER_BASE);
t.setPosition(mSurfaceControl, x, y);
t.setCrop(mSurfaceControl, crop);
t.setAlpha(mSurfaceControl, 1);
t.apply(true);
}
void requestFocus(int displayId = ADISPLAY_ID_DEFAULT) {
SurfaceComposerClient::Transaction t;
FocusRequest request;
request.token = mInputInfo.token;
request.windowName = mInputInfo.name;
request.focusedToken = nullptr;
request.focusedWindowName = "";
request.timestamp = systemTime(SYSTEM_TIME_MONOTONIC);
request.displayId = displayId;
t.setFocusedWindow(request);
t.apply(true);
}
private:
void waitForEventAvailable(int timeoutMs) {
struct pollfd fd;
fd.fd = mClientChannel->getFd();
fd.events = POLLIN;
poll(&fd, 1, timeoutMs);
}
public:
sp<SurfaceControl> mSurfaceControl;
std::shared_ptr<InputChannel> mClientChannel;
sp<IInputFlinger> mInputFlinger;
WindowInfo mInputInfo;
PreallocatedInputEventFactory mInputEventFactory;
InputConsumer* mInputConsumer;
};
class BlastInputSurface : public InputSurface {
public:
BlastInputSurface(const sp<SurfaceControl> &sc, const sp<SurfaceControl> &parentSc, int width,
int height)
: InputSurface(sc, width, height) {
mParentSurfaceControl = parentSc;
}
~BlastInputSurface() = default;
static std::unique_ptr<BlastInputSurface> makeBlastInputSurface(
const sp<SurfaceComposerClient> &scc, int width, int height) {
sp<SurfaceControl> parentSc =
scc->createSurface(String8("Test Parent Surface"), 0 /* bufHeight */,
0 /* bufWidth */, PIXEL_FORMAT_RGBA_8888,
ISurfaceComposerClient::eFXSurfaceContainer);
sp<SurfaceControl> surfaceControl =
scc->createSurface(String8("Test Buffer Surface"), width, height,
PIXEL_FORMAT_RGBA_8888,
ISurfaceComposerClient::eFXSurfaceBufferState,
parentSc->getHandle());
return std::make_unique<BlastInputSurface>(surfaceControl, parentSc, width, height);
}
void doTransaction(
std::function<void(SurfaceComposerClient::Transaction &, const sp<SurfaceControl> &)>
transactionBody) override {
SurfaceComposerClient::Transaction t;
transactionBody(t, mParentSurfaceControl);
t.apply(true);
}
void showAt(int x, int y, Rect crop = Rect(0, 0, 100, 100)) override {
SurfaceComposerClient::Transaction t;
t.show(mParentSurfaceControl);
t.setLayer(mParentSurfaceControl, LAYER_BASE);
t.setPosition(mParentSurfaceControl, x, y);
t.setCrop(mParentSurfaceControl, crop);
t.show(mSurfaceControl);
t.setInputWindowInfo(mSurfaceControl, mInputInfo);
t.setCrop(mSurfaceControl, crop);
t.setAlpha(mSurfaceControl, 1);
t.apply(true);
}
private:
sp<SurfaceControl> mParentSurfaceControl;
};
class InputSurfacesTest : public ::testing::Test {
public:
InputSurfacesTest() {
ProcessState::self()->startThreadPool();
}
void SetUp() {
mComposerClient = new SurfaceComposerClient;
ASSERT_EQ(NO_ERROR, mComposerClient->initCheck());
const auto display = mComposerClient->getInternalDisplayToken();
ASSERT_NE(display, nullptr);
ui::DisplayMode mode;
ASSERT_EQ(NO_ERROR, mComposerClient->getActiveDisplayMode(display, &mode));
// After a new buffer is queued, SurfaceFlinger is notified and will
// latch the new buffer on next vsync. Let's heuristically wait for 3
// vsyncs.
mBufferPostDelay = static_cast<int32_t>(1e6 / mode.refreshRate) * 3;
}
void TearDown() {
mComposerClient->dispose();
}
std::unique_ptr<InputSurface> makeSurface(int width, int height) {
return InputSurface::makeColorInputSurface(mComposerClient, width, height);
}
void postBuffer(const sp<SurfaceControl> &layer, int32_t w, int32_t h) {
int64_t usageFlags = BufferUsage::CPU_READ_OFTEN | BufferUsage::CPU_WRITE_OFTEN |
BufferUsage::COMPOSER_OVERLAY | BufferUsage::GPU_TEXTURE;
sp<GraphicBuffer> buffer =
new GraphicBuffer(w, h, PIXEL_FORMAT_RGBA_8888, 1, usageFlags, "test");
Transaction().setBuffer(layer, buffer).apply(true);
usleep(mBufferPostDelay);
}
sp<SurfaceComposerClient> mComposerClient;
int32_t mBufferPostDelay;
};
void injectTapOnDisplay(int x, int y, int displayId) {
char *buf1, *buf2, *bufDisplayId;
asprintf(&buf1, "%d", x);
asprintf(&buf2, "%d", y);
asprintf(&bufDisplayId, "%d", displayId);
if (fork() == 0) {
execlp("input", "input", "-d", bufDisplayId, "tap", buf1, buf2, NULL);
}
}
void injectTap(int x, int y) {
injectTapOnDisplay(x, y, ADISPLAY_ID_DEFAULT);
}
void injectKeyOnDisplay(uint32_t keycode, int displayId) {
char *buf1, *bufDisplayId;
asprintf(&buf1, "%d", keycode);
asprintf(&bufDisplayId, "%d", displayId);
if (fork() == 0) {
execlp("input", "input", "-d", bufDisplayId, "keyevent", buf1, NULL);
}
}
void injectKey(uint32_t keycode) {
injectKeyOnDisplay(keycode, ADISPLAY_ID_NONE);
}
TEST_F(InputSurfacesTest, can_receive_input) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->showAt(100, 100);
injectTap(101, 101);
EXPECT_NE(surface->consumeEvent(), nullptr);
}
/**
* Set up two surfaces side-by-side. Tap each surface.
* Next, swap the positions of the two surfaces. Inject tap into the two
* original locations. Ensure that the tap is received by the surfaces in the
* reverse order.
*/
TEST_F(InputSurfacesTest, input_respects_positioning) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->showAt(100, 100);
std::unique_ptr<InputSurface> surface2 = makeSurface(100, 100);
surface2->showAt(200, 200);
injectTap(201, 201);
surface2->expectTap(1, 1);
injectTap(101, 101);
surface->expectTap(1, 1);
surface2->doTransaction([](auto &t, auto &sc) {
t.setPosition(sc, 100, 100);
});
surface->doTransaction([](auto &t, auto &sc) {
t.setPosition(sc, 200, 200);
});
injectTap(101, 101);
surface2->expectTap(1, 1);
injectTap(201, 201);
surface->expectTap(1, 1);
}
TEST_F(InputSurfacesTest, input_respects_layering) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
std::unique_ptr<InputSurface> surface2 = makeSurface(100, 100);
surface->showAt(10, 10);
surface2->showAt(10, 10);
surface->doTransaction([](auto &t, auto &sc) {
t.setLayer(sc, LAYER_BASE + 1);
});
injectTap(11, 11);
surface->expectTap(1, 1);
surface2->doTransaction([](auto &t, auto &sc) {
t.setLayer(sc, LAYER_BASE + 1);
});
injectTap(11, 11);
surface2->expectTap(1, 1);
surface2->doTransaction([](auto &t, auto &sc) {
t.hide(sc);
});
injectTap(11, 11);
surface->expectTap(1, 1);
}
// Surface Insets are set to offset the client content and draw a border around the client surface
// (such as shadows in dialogs). Inputs sent to the client are offset such that 0,0 is the start
// of the client content.
TEST_F(InputSurfacesTest, input_respects_surface_insets) {
std::unique_ptr<InputSurface> bgSurface = makeSurface(100, 100);
std::unique_ptr<InputSurface> fgSurface = makeSurface(100, 100);
bgSurface->showAt(100, 100);
fgSurface->mInputInfo.surfaceInset = 5;
fgSurface->showAt(100, 100);
injectTap(106, 106);
fgSurface->expectTap(1, 1);
injectTap(101, 101);
bgSurface->expectTap(1, 1);
}
// Ensure a surface whose insets are cropped, handles the touch offset correctly. ref:b/120413463
TEST_F(InputSurfacesTest, input_respects_cropped_surface_insets) {
std::unique_ptr<InputSurface> parentSurface = makeSurface(100, 100);
std::unique_ptr<InputSurface> childSurface = makeSurface(100, 100);
parentSurface->showAt(100, 100);
childSurface->mInputInfo.surfaceInset = 10;
childSurface->showAt(100, 100);
childSurface->doTransaction([&](auto &t, auto &sc) {
t.setPosition(sc, -5, -5);
t.reparent(sc, parentSurface->mSurfaceControl);
});
injectTap(106, 106);
childSurface->expectTap(1, 1);
injectTap(101, 101);
parentSurface->expectTap(1, 1);
}
// Ensure a surface whose insets are scaled, handles the touch offset correctly.
TEST_F(InputSurfacesTest, input_respects_scaled_surface_insets) {
std::unique_ptr<InputSurface> bgSurface = makeSurface(100, 100);
std::unique_ptr<InputSurface> fgSurface = makeSurface(100, 100);
bgSurface->showAt(100, 100);
fgSurface->mInputInfo.surfaceInset = 5;
fgSurface->showAt(100, 100);
fgSurface->doTransaction([&](auto &t, auto &sc) { t.setMatrix(sc, 2.0, 0, 0, 4.0); });
// expect = touch / scale - inset
injectTap(112, 124);
fgSurface->expectTap(1, 1);
injectTap(101, 101);
bgSurface->expectTap(1, 1);
}
TEST_F(InputSurfacesTest, input_respects_scaled_surface_insets_overflow) {
std::unique_ptr<InputSurface> bgSurface = makeSurface(100, 100);
std::unique_ptr<InputSurface> fgSurface = makeSurface(100, 100);
bgSurface->showAt(100, 100);
// In case we pass the very big inset without any checking.
fgSurface->mInputInfo.surfaceInset = INT32_MAX;
fgSurface->showAt(100, 100);
fgSurface->doTransaction([&](auto &t, auto &sc) { t.setMatrix(sc, 2.0, 0, 0, 2.0); });
// expect no crash for overflow, and inset size to be clamped to surface size
injectTap(112, 124);
bgSurface->expectTap(12, 24);
}
TEST_F(InputSurfacesTest, touchable_region) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->mInputInfo.touchableRegion.set(Rect{19, 29, 21, 31});
surface->showAt(11, 22);
// A tap within the surface but outside the touchable region should not be sent to the surface.
injectTap(20, 30);
EXPECT_EQ(surface->consumeEvent(200 /*timeoutMs*/), nullptr);
injectTap(31, 52);
surface->expectTap(20, 30);
}
TEST_F(InputSurfacesTest, input_respects_touchable_region_offset_overflow) {
std::unique_ptr<InputSurface> bgSurface = makeSurface(100, 100);
std::unique_ptr<InputSurface> fgSurface = makeSurface(100, 100);
bgSurface->showAt(100, 100);
// Set the touchable region to the values at the limit of its corresponding type.
// Since the surface is offset from the origin, the touchable region will be transformed into
// display space, which would trigger an overflow or an underflow. Ensure that we are protected
// against such a situation.
fgSurface->mInputInfo.touchableRegion.orSelf(Rect{INT32_MIN, INT32_MIN, INT32_MAX, INT32_MAX});
fgSurface->showAt(100, 100);
// Expect no crash for overflow. The overflowed touchable region is ignored, so the background
// surface receives touch.
injectTap(112, 124);
bgSurface->expectTap(12, 24);
}
TEST_F(InputSurfacesTest, input_respects_scaled_touchable_region_overflow) {
std::unique_ptr<InputSurface> bgSurface = makeSurface(100, 100);
std::unique_ptr<InputSurface> fgSurface = makeSurface(100, 100);
bgSurface->showAt(0, 0);
fgSurface->mInputInfo.touchableRegion.orSelf(Rect{INT32_MIN, INT32_MIN, INT32_MAX, INT32_MAX});
fgSurface->showAt(0, 0);
fgSurface->doTransaction([&](auto &t, auto &sc) { t.setMatrix(sc, 2.0, 0, 0, 2.0); });
// Expect no crash for overflow.
injectTap(12, 24);
fgSurface->expectTap(6, 12);
}
// Ensure we ignore transparent region when getting screen bounds when positioning input frame.
TEST_F(InputSurfacesTest, input_ignores_transparent_region) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->doTransaction([](auto &t, auto &sc) {
Region transparentRegion(Rect(0, 0, 10, 10));
t.setTransparentRegionHint(sc, transparentRegion);
});
surface->showAt(100, 100);
injectTap(101, 101);
surface->expectTap(1, 1);
}
// TODO(b/139494112) update tests once we define expected behavior
// Ensure we still send input to the surface regardless of surface visibility changes due to the
// first buffer being submitted or alpha changes.
// Original bug ref: b/120839715
TEST_F(InputSurfacesTest, input_ignores_buffer_layer_buffer) {
std::unique_ptr<InputSurface> bgSurface = makeSurface(100, 100);
std::unique_ptr<BlastInputSurface> bufferSurface =
BlastInputSurface::makeBlastInputSurface(mComposerClient, 100, 100);
bgSurface->showAt(10, 10);
bufferSurface->showAt(10, 10);
injectTap(11, 11);
bufferSurface->expectTap(1, 1);
postBuffer(bufferSurface->mSurfaceControl, 100, 100);
injectTap(11, 11);
bufferSurface->expectTap(1, 1);
}
TEST_F(InputSurfacesTest, input_respects_buffer_layer_alpha) {
std::unique_ptr<InputSurface> bgSurface = makeSurface(100, 100);
std::unique_ptr<BlastInputSurface> bufferSurface =
BlastInputSurface::makeBlastInputSurface(mComposerClient, 100, 100);
postBuffer(bufferSurface->mSurfaceControl, 100, 100);
bgSurface->showAt(10, 10);
bufferSurface->showAt(10, 10);
injectTap(11, 11);
bufferSurface->expectTap(1, 1);
bufferSurface->doTransaction([](auto &t, auto &sc) { t.setAlpha(sc, 0.0); });
injectTap(11, 11);
bgSurface->expectTap(1, 1);
}
TEST_F(InputSurfacesTest, input_ignores_color_layer_alpha) {
std::unique_ptr<InputSurface> bgSurface = makeSurface(100, 100);
std::unique_ptr<InputSurface> fgSurface = makeSurface(100, 100);
bgSurface->showAt(10, 10);
fgSurface->showAt(10, 10);
injectTap(11, 11);
fgSurface->expectTap(1, 1);
fgSurface->doTransaction([](auto &t, auto &sc) { t.setAlpha(sc, 0.0); });
injectTap(11, 11);
fgSurface->expectTap(1, 1);
}
TEST_F(InputSurfacesTest, input_respects_container_layer_visiblity) {
std::unique_ptr<InputSurface> bgSurface = makeSurface(100, 100);
std::unique_ptr<InputSurface> containerSurface =
InputSurface::makeContainerInputSurface(mComposerClient, 100, 100);
bgSurface->showAt(10, 10);
containerSurface->showAt(10, 10);
injectTap(11, 11);
containerSurface->expectTap(1, 1);
containerSurface->doTransaction([](auto &t, auto &sc) { t.hide(sc); });
injectTap(11, 11);
bgSurface->expectTap(1, 1);
}
TEST_F(InputSurfacesTest, input_respects_outscreen) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->showAt(-1, -1);
injectTap(0, 0);
surface->expectTap(1, 1);
}
TEST_F(InputSurfacesTest, input_ignores_cursor_layer) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
std::unique_ptr<InputSurface> cursorSurface =
InputSurface::makeCursorInputSurface(mComposerClient, 10, 10);
surface->showAt(10, 10);
cursorSurface->showAt(10, 10);
injectTap(11, 11);
surface->expectTap(1, 1);
}
TEST_F(InputSurfacesTest, can_be_focused) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->showAt(100, 100);
surface->requestFocus();
surface->assertFocusChange(true);
injectKey(AKEYCODE_V);
surface->expectKey(AKEYCODE_V);
}
TEST_F(InputSurfacesTest, rotate_surface) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->showAt(10, 10);
surface->doTransaction([](auto &t, auto &sc) {
t.setMatrix(sc, 0, 1, -1, 0); // 90 degrees
});
injectTap(8, 11);
surface->expectTap(1, 2);
surface->doTransaction([](auto &t, auto &sc) {
t.setMatrix(sc, -1, 0, 0, -1); // 180 degrees
});
injectTap(9, 8);
surface->expectTap(1, 2);
surface->doTransaction([](auto &t, auto &sc) {
t.setMatrix(sc, 0, -1, 1, 0); // 270 degrees
});
injectTap(12, 9);
surface->expectTap(1, 2);
}
TEST_F(InputSurfacesTest, rotate_surface_with_scale) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->showAt(10, 10);
surface->doTransaction([](auto &t, auto &sc) {
t.setMatrix(sc, 0, 2, -4, 0); // 90 degrees
});
injectTap(2, 12);
surface->expectTap(1, 2);
surface->doTransaction([](auto &t, auto &sc) {
t.setMatrix(sc, -2, 0, 0, -4); // 180 degrees
});
injectTap(8, 2);
surface->expectTap(1, 2);
surface->doTransaction([](auto &t, auto &sc) {
t.setMatrix(sc, 0, -2, 4, 0); // 270 degrees
});
injectTap(18, 8);
surface->expectTap(1, 2);
}
TEST_F(InputSurfacesTest, rotate_surface_with_scale_and_insets) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->mInputInfo.surfaceInset = 5;
surface->showAt(100, 100);
surface->doTransaction([](auto &t, auto &sc) {
t.setMatrix(sc, 0, 2, -4, 0); // 90 degrees
});
injectTap(40, 120);
surface->expectTap(5, 10);
surface->doTransaction([](auto &t, auto &sc) {
t.setMatrix(sc, -2, 0, 0, -4); // 180 degrees
});
injectTap(80, 40);
surface->expectTap(5, 10);
surface->doTransaction([](auto &t, auto &sc) {
t.setMatrix(sc, 0, -2, 4, 0); // 270 degrees
});
injectTap(160, 80);
surface->expectTap(5, 10);
}
TEST_F(InputSurfacesTest, touch_flag_obscured) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->showAt(100, 100);
// Add non touchable window to fully cover touchable window. Window behind gets touch, but
// with flag AMOTION_EVENT_FLAG_WINDOW_IS_OBSCURED
std::unique_ptr<InputSurface> nonTouchableSurface = makeSurface(100, 100);
nonTouchableSurface->mInputInfo.setInputConfig(WindowInfo::InputConfig::NOT_TOUCHABLE, true);
nonTouchableSurface->mInputInfo.ownerUid = 22222;
// Overriding occlusion mode otherwise the touch would be discarded at InputDispatcher by
// the default obscured/untrusted touch filter introduced in S.
nonTouchableSurface->mInputInfo.touchOcclusionMode = TouchOcclusionMode::ALLOW;
nonTouchableSurface->showAt(100, 100);
injectTap(190, 199);
surface->expectTapWithFlag(90, 99, AMOTION_EVENT_FLAG_WINDOW_IS_OBSCURED);
}
TEST_F(InputSurfacesTest, touch_flag_partially_obscured_with_crop) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->showAt(100, 100);
// Add non touchable window to cover touchable window, but parent is cropped to not cover area
// that will be tapped. Window behind gets touch, but with flag
// AMOTION_EVENT_FLAG_WINDOW_IS_PARTIALLY_OBSCURED
std::unique_ptr<InputSurface> parentSurface = makeSurface(100, 100);
std::unique_ptr<InputSurface> nonTouchableSurface = makeSurface(100, 100);
nonTouchableSurface->mInputInfo.setInputConfig(WindowInfo::InputConfig::NOT_TOUCHABLE, true);
parentSurface->mInputInfo.setInputConfig(WindowInfo::InputConfig::NOT_TOUCHABLE, true);
nonTouchableSurface->mInputInfo.ownerUid = 22222;
parentSurface->mInputInfo.ownerUid = 22222;
nonTouchableSurface->showAt(0, 0);
parentSurface->showAt(100, 100);
nonTouchableSurface->doTransaction([&](auto &t, auto &sc) {
t.setCrop(parentSurface->mSurfaceControl, Rect(0, 0, 50, 50));
t.reparent(sc, parentSurface->mSurfaceControl);
});
injectTap(190, 199);
surface->expectTapWithFlag(90, 99, AMOTION_EVENT_FLAG_WINDOW_IS_PARTIALLY_OBSCURED);
}
TEST_F(InputSurfacesTest, touch_not_obscured_with_crop) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->showAt(100, 100);
// Add non touchable window to cover touchable window, but parent is cropped to avoid covering
// the touchable window. Window behind gets touch with no obscured flags.
std::unique_ptr<InputSurface> parentSurface = makeSurface(100, 100);
std::unique_ptr<InputSurface> nonTouchableSurface = makeSurface(100, 100);
nonTouchableSurface->mInputInfo.setInputConfig(WindowInfo::InputConfig::NOT_TOUCHABLE, true);
parentSurface->mInputInfo.setInputConfig(WindowInfo::InputConfig::NOT_TOUCHABLE, true);
nonTouchableSurface->mInputInfo.ownerUid = 22222;
parentSurface->mInputInfo.ownerUid = 22222;
nonTouchableSurface->showAt(0, 0);
parentSurface->showAt(50, 50);
nonTouchableSurface->doTransaction([&](auto &t, auto &sc) {
t.setCrop(parentSurface->mSurfaceControl, Rect(0, 0, 50, 50));
t.reparent(sc, parentSurface->mSurfaceControl);
});
injectTap(101, 110);
surface->expectTap(1, 10);
}
TEST_F(InputSurfacesTest, touch_not_obscured_with_zero_sized_bql) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
std::unique_ptr<InputSurface> bufferSurface =
InputSurface::makeBufferInputSurface(mComposerClient, 0, 0);
bufferSurface->mInputInfo.setInputConfig(WindowInfo::InputConfig::NOT_TOUCHABLE, true);
bufferSurface->mInputInfo.ownerUid = 22222;
surface->showAt(10, 10);
bufferSurface->showAt(50, 50, Rect::EMPTY_RECT);
injectTap(11, 11);
surface->expectTap(1, 1);
}
TEST_F(InputSurfacesTest, touch_not_obscured_with_zero_sized_blast) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
std::unique_ptr<BlastInputSurface> bufferSurface =
BlastInputSurface::makeBlastInputSurface(mComposerClient, 0, 0);
bufferSurface->mInputInfo.setInputConfig(WindowInfo::InputConfig::NOT_TOUCHABLE, true);
bufferSurface->mInputInfo.ownerUid = 22222;
surface->showAt(10, 10);
bufferSurface->showAt(50, 50, Rect::EMPTY_RECT);
injectTap(11, 11);
surface->expectTap(1, 1);
}
TEST_F(InputSurfacesTest, strict_unobscured_input_unobscured_window) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->doTransaction(
[&](auto &t, auto &sc) { t.setDropInputMode(sc, gui::DropInputMode::OBSCURED); });
surface->showAt(100, 100);
injectTap(101, 101);
EXPECT_NE(surface->consumeEvent(), nullptr);
EXPECT_NE(surface->consumeEvent(), nullptr);
surface->requestFocus();
surface->assertFocusChange(true);
injectKey(AKEYCODE_V);
surface->expectKey(AKEYCODE_V);
}
TEST_F(InputSurfacesTest, strict_unobscured_input_scaled_without_crop_window) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->doTransaction([&](auto &t, auto &sc) {
t.setDropInputMode(sc, gui::DropInputMode::OBSCURED);
t.setMatrix(sc, 2.0, 0, 0, 2.0);
});
surface->showAt(100, 100);
injectTap(101, 101);
EXPECT_NE(surface->consumeEvent(), nullptr);
EXPECT_NE(surface->consumeEvent(), nullptr);
surface->requestFocus();
surface->assertFocusChange(true);
injectKey(AKEYCODE_V);
surface->expectKey(AKEYCODE_V);
}
TEST_F(InputSurfacesTest, strict_unobscured_input_obscured_window) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->mInputInfo.ownerUid = 11111;
surface->doTransaction(
[&](auto &t, auto &sc) { t.setDropInputMode(sc, gui::DropInputMode::OBSCURED); });
surface->showAt(100, 100);
std::unique_ptr<InputSurface> obscuringSurface = makeSurface(100, 100);
obscuringSurface->mInputInfo.setInputConfig(WindowInfo::InputConfig::NOT_TOUCHABLE, true);
obscuringSurface->mInputInfo.ownerUid = 22222;
obscuringSurface->showAt(100, 100);
injectTap(101, 101);
EXPECT_EQ(surface->consumeEvent(100), nullptr);
surface->requestFocus();
surface->assertFocusChange(true);
injectKey(AKEYCODE_V);
EXPECT_EQ(surface->consumeEvent(100), nullptr);
}
TEST_F(InputSurfacesTest, strict_unobscured_input_partially_obscured_window) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->mInputInfo.ownerUid = 11111;
surface->doTransaction(
[&](auto &t, auto &sc) { t.setDropInputMode(sc, gui::DropInputMode::OBSCURED); });
surface->showAt(100, 100);
std::unique_ptr<InputSurface> obscuringSurface = makeSurface(100, 100);
obscuringSurface->mInputInfo.setInputConfig(WindowInfo::InputConfig::NOT_TOUCHABLE, true);
obscuringSurface->mInputInfo.ownerUid = 22222;
obscuringSurface->showAt(190, 190);
injectTap(101, 101);
EXPECT_EQ(surface->consumeEvent(100), nullptr);
surface->requestFocus();
surface->assertFocusChange(true);
injectKey(AKEYCODE_V);
EXPECT_EQ(surface->consumeEvent(100), nullptr);
}
TEST_F(InputSurfacesTest, strict_unobscured_input_alpha_window) {
std::unique_ptr<InputSurface> parentSurface = makeSurface(300, 300);
parentSurface->showAt(0, 0, Rect(0, 0, 300, 300));
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->showAt(100, 100);
surface->doTransaction([&](auto &t, auto &sc) {
t.setDropInputMode(sc, gui::DropInputMode::OBSCURED);
t.reparent(sc, parentSurface->mSurfaceControl);
t.setAlpha(parentSurface->mSurfaceControl, 0.9f);
});
injectTap(101, 101);
EXPECT_EQ(surface->consumeEvent(100), nullptr);
surface->requestFocus();
surface->assertFocusChange(true);
injectKey(AKEYCODE_V);
EXPECT_EQ(surface->consumeEvent(100), nullptr);
}
TEST_F(InputSurfacesTest, strict_unobscured_input_cropped_window) {
std::unique_ptr<InputSurface> parentSurface = makeSurface(300, 300);
parentSurface->showAt(0, 0, Rect(0, 0, 300, 300));
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->doTransaction([&](auto &t, auto &sc) {
t.setDropInputMode(sc, gui::DropInputMode::OBSCURED);
t.reparent(sc, parentSurface->mSurfaceControl);
t.setCrop(parentSurface->mSurfaceControl, Rect(10, 10, 100, 100));
});
surface->showAt(100, 100);
injectTap(111, 111);
EXPECT_EQ(surface->consumeEvent(100), nullptr);
surface->requestFocus();
surface->assertFocusChange(true);
injectKey(AKEYCODE_V);
EXPECT_EQ(surface->consumeEvent(100), nullptr);
}
TEST_F(InputSurfacesTest, ignore_touch_region_with_zero_sized_blast) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
std::unique_ptr<BlastInputSurface> bufferSurface =
BlastInputSurface::makeBlastInputSurface(mComposerClient, 0, 0);
surface->showAt(100, 100);
bufferSurface->mInputInfo.touchableRegion.orSelf(Rect(0, 0, 200, 200));
bufferSurface->showAt(100, 100, Rect::EMPTY_RECT);
injectTap(101, 101);
surface->expectTap(1, 1);
}
TEST_F(InputSurfacesTest, drop_input_policy) {
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->doTransaction(
[&](auto &t, auto &sc) { t.setDropInputMode(sc, gui::DropInputMode::ALL); });
surface->showAt(100, 100);
injectTap(101, 101);
EXPECT_EQ(surface->consumeEvent(100), nullptr);
surface->requestFocus();
surface->assertFocusChange(true);
injectKey(AKEYCODE_V);
EXPECT_EQ(surface->consumeEvent(100), nullptr);
}
TEST_F(InputSurfacesTest, layer_with_valid_crop_can_be_focused) {
std::unique_ptr<InputSurface> bufferSurface =
InputSurface::makeBufferInputSurface(mComposerClient, 100, 100);
bufferSurface->showAt(50, 50, Rect{0, 0, 100, 100});
bufferSurface->requestFocus();
bufferSurface->assertFocusChange(true);
}
/**
* If a cropped layer's touchable region is replaced with a null crop, it should receive input in
* its own crop.
*/
TEST_F(InputSurfacesTest, cropped_container_replaces_touchable_region_with_null_crop) {
std::unique_ptr<InputSurface> parentContainer =
InputSurface::makeContainerInputSurface(mComposerClient, 0, 0);
std::unique_ptr<InputSurface> containerSurface =
InputSurface::makeContainerInputSurface(mComposerClient, 100, 100);
containerSurface->doTransaction(
[&](auto &t, auto &sc) { t.reparent(sc, parentContainer->mSurfaceControl); });
containerSurface->mInputInfo.replaceTouchableRegionWithCrop = true;
containerSurface->mInputInfo.touchableRegionCropHandle = nullptr;
parentContainer->showAt(10, 10, Rect(0, 0, 20, 20));
containerSurface->showAt(10, 10, Rect(0, 0, 5, 5));
// Receives events inside its own crop
injectTap(21, 21);
containerSurface->expectTap(1, 1); // Event is in layer space
// Does not receive events outside its crop
injectTap(26, 26);
EXPECT_EQ(containerSurface->consumeEvent(100), nullptr);
}
/**
* If an un-cropped layer's touchable region is replaced with a null crop, it should receive input
* in its parent's touchable region. The input events should be in the layer's coordinate space.
*/
TEST_F(InputSurfacesTest, uncropped_container_replaces_touchable_region_with_null_crop) {
std::unique_ptr<InputSurface> parentContainer =
InputSurface::makeContainerInputSurface(mComposerClient, 0, 0);
std::unique_ptr<InputSurface> containerSurface =
InputSurface::makeContainerInputSurface(mComposerClient, 100, 100);
containerSurface->doTransaction(
[&](auto &t, auto &sc) { t.reparent(sc, parentContainer->mSurfaceControl); });
containerSurface->mInputInfo.replaceTouchableRegionWithCrop = true;
containerSurface->mInputInfo.touchableRegionCropHandle = nullptr;
parentContainer->showAt(10, 10, Rect(0, 0, 20, 20));
containerSurface->showAt(10, 10, Rect::INVALID_RECT);
// Receives events inside parent bounds
injectTap(21, 21);
containerSurface->expectTap(1, 1); // Event is in layer space
// Does not receive events outside parent bounds
injectTap(31, 31);
EXPECT_EQ(containerSurface->consumeEvent(100), nullptr);
}
/**
* If a layer's touchable region is replaced with a layer crop, it should receive input in the crop
* layer's bounds. The input events should be in the layer's coordinate space.
*/
TEST_F(InputSurfacesTest, replace_touchable_region_with_crop) {
std::unique_ptr<InputSurface> cropLayer =
InputSurface::makeContainerInputSurface(mComposerClient, 0, 0);
cropLayer->showAt(50, 50, Rect(0, 0, 20, 20));
std::unique_ptr<InputSurface> containerSurface =
InputSurface::makeContainerInputSurface(mComposerClient, 100, 100);
containerSurface->mInputInfo.replaceTouchableRegionWithCrop = true;
containerSurface->mInputInfo.touchableRegionCropHandle =
cropLayer->mSurfaceControl->getHandle();
containerSurface->showAt(10, 10, Rect::INVALID_RECT);
// Receives events inside crop layer bounds
injectTap(51, 51);
containerSurface->expectTap(41, 41); // Event is in layer space
// Does not receive events outside crop layer bounds
injectTap(21, 21);
injectTap(71, 71);
EXPECT_EQ(containerSurface->consumeEvent(100), nullptr);
}
TEST_F(InputSurfacesTest, child_container_with_no_input_channel_blocks_parent) {
std::unique_ptr<InputSurface> parent = makeSurface(100, 100);
parent->showAt(100, 100);
injectTap(101, 101);
parent->expectTap(1, 1);
std::unique_ptr<InputSurface> childContainerSurface =
InputSurface::makeContainerInputSurfaceNoInputChannel(mComposerClient, 100, 100);
childContainerSurface->showAt(0, 0);
childContainerSurface->doTransaction(
[&](auto &t, auto &sc) { t.reparent(sc, parent->mSurfaceControl); });
injectTap(101, 101);
EXPECT_EQ(parent->consumeEvent(100), nullptr);
}
class MultiDisplayTests : public InputSurfacesTest {
public:
MultiDisplayTests() : InputSurfacesTest() { ProcessState::self()->startThreadPool(); }
void TearDown() override {
for (auto &token : mVirtualDisplays) {
SurfaceComposerClient::destroyDisplay(token);
}
InputSurfacesTest::TearDown();
}
void createDisplay(int32_t width, int32_t height, bool isSecure, ui::LayerStack layerStack,
bool receivesInput = true, int32_t offsetX = 0, int32_t offsetY = 0) {
sp<IGraphicBufferConsumer> consumer;
sp<IGraphicBufferProducer> producer;
BufferQueue::createBufferQueue(&producer, &consumer);
consumer->setConsumerName(String8("Virtual disp consumer"));
consumer->setDefaultBufferSize(width, height);
mProducers.push_back(producer);
std::string name = "VirtualDisplay";
name += std::to_string(mVirtualDisplays.size());
sp<IBinder> token = SurfaceComposerClient::createDisplay(String8(name.c_str()), isSecure);
SurfaceComposerClient::Transaction t;
t.setDisplaySurface(token, producer);
t.setDisplayFlags(token, receivesInput ? 0x01 /* DisplayDevice::eReceivesInput */ : 0);
t.setDisplayLayerStack(token, layerStack);
t.setDisplayProjection(token, ui::ROTATION_0, {0, 0, width, height},
{offsetX, offsetY, offsetX + width, offsetY + height});
t.apply(true);
mVirtualDisplays.push_back(token);
}
std::vector<sp<IBinder>> mVirtualDisplays;
std::vector<sp<IGraphicBufferProducer>> mProducers;
};
TEST_F(MultiDisplayTests, drop_touch_if_layer_on_invalid_display) {
ui::LayerStack layerStack = ui::LayerStack::fromValue(42);
// Do not create a display associated with the LayerStack.
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->doTransaction([&](auto &t, auto &sc) { t.setLayerStack(sc, layerStack); });
surface->showAt(100, 100);
// Touches should be dropped if the layer is on an invalid display.
injectTapOnDisplay(101, 101, layerStack.id);
EXPECT_EQ(surface->consumeEvent(100), nullptr);
// However, we still let the window be focused and receive keys.
surface->requestFocus(layerStack.id);
surface->assertFocusChange(true);
injectKeyOnDisplay(AKEYCODE_V, layerStack.id);
surface->expectKey(AKEYCODE_V);
}
TEST_F(MultiDisplayTests, virtual_display_receives_input) {
ui::LayerStack layerStack = ui::LayerStack::fromValue(42);
createDisplay(1000, 1000, false /*isSecure*/, layerStack);
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->doTransaction([&](auto &t, auto &sc) { t.setLayerStack(sc, layerStack); });
surface->showAt(100, 100);
injectTapOnDisplay(101, 101, layerStack.id);
surface->expectTap(1, 1);
surface->requestFocus(layerStack.id);
surface->assertFocusChange(true);
injectKeyOnDisplay(AKEYCODE_V, layerStack.id);
surface->expectKey(AKEYCODE_V);
}
/**
* When multiple DisplayDevices are mapped to the same layerStack, use the configuration for the
* display that can receive input.
*/
TEST_F(MultiDisplayTests, many_to_one_display_mapping) {
ui::LayerStack layerStack = ui::LayerStack::fromValue(42);
createDisplay(1000, 1000, false /*isSecure*/, layerStack, false /*receivesInput*/,
100 /*offsetX*/, 100 /*offsetY*/);
createDisplay(1000, 1000, false /*isSecure*/, layerStack, true /*receivesInput*/,
200 /*offsetX*/, 200 /*offsetY*/);
createDisplay(1000, 1000, false /*isSecure*/, layerStack, false /*receivesInput*/,
300 /*offsetX*/, 300 /*offsetY*/);
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->doTransaction([&](auto &t, auto &sc) { t.setLayerStack(sc, layerStack); });
surface->showAt(10, 10);
// Input injection happens in logical display coordinates.
injectTapOnDisplay(11, 11, layerStack.id);
// Expect that the display transform for the display that receives input was used.
surface->expectTapInDisplayCoordinates(211, 211);
surface->requestFocus(layerStack.id);
surface->assertFocusChange(true);
injectKeyOnDisplay(AKEYCODE_V, layerStack.id);
}
TEST_F(MultiDisplayTests, drop_input_for_secure_layer_on_nonsecure_display) {
ui::LayerStack layerStack = ui::LayerStack::fromValue(42);
createDisplay(1000, 1000, false /*isSecure*/, layerStack);
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->doTransaction([&](auto &t, auto &sc) {
t.setFlags(sc, layer_state_t::eLayerSecure, layer_state_t::eLayerSecure);
t.setLayerStack(sc, layerStack);
});
surface->showAt(100, 100);
injectTapOnDisplay(101, 101, layerStack.id);
EXPECT_EQ(surface->consumeEvent(100), nullptr);
surface->requestFocus(layerStack.id);
surface->assertFocusChange(true);
injectKeyOnDisplay(AKEYCODE_V, layerStack.id);
EXPECT_EQ(surface->consumeEvent(100), nullptr);
}
TEST_F(MultiDisplayTests, dont_drop_input_for_secure_layer_on_secure_display) {
ui::LayerStack layerStack = ui::LayerStack::fromValue(42);
// Create the secure display as system, because only certain users can create secure displays.
seteuid(AID_SYSTEM);
createDisplay(1000, 1000, true /*isSecure*/, layerStack);
// Change the uid back to root.
seteuid(AID_ROOT);
std::unique_ptr<InputSurface> surface = makeSurface(100, 100);
surface->doTransaction([&](auto &t, auto &sc) {
t.setFlags(sc, layer_state_t::eLayerSecure, layer_state_t::eLayerSecure);
t.setLayerStack(sc, layerStack);
});
surface->showAt(100, 100);
injectTapOnDisplay(101, 101, layerStack.id);
EXPECT_NE(surface->consumeEvent(), nullptr);
EXPECT_NE(surface->consumeEvent(), nullptr);
surface->requestFocus(layerStack.id);
surface->assertFocusChange(true);
injectKeyOnDisplay(AKEYCODE_V, layerStack.id);
surface->expectKey(AKEYCODE_V);
}
} // namespace android::test