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fuchsia / third_party / android / platform / frameworks / native / refs/tags/android-8.0.0_r40 / . / services / surfaceflinger / tests / Transaction_test.cpp
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/*
* Copyright (C) 2011 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 <android/native_window.h>
#include <gui/ISurfaceComposer.h>
#include <gui/Surface.h>
#include <gui/SurfaceComposerClient.h>
#include <private/gui/ComposerService.h>
#include <private/gui/LayerState.h>
#include <utils/String8.h>
#include <ui/DisplayInfo.h>
#include <math.h>
namespace android {
// Fill an RGBA_8888 formatted surface with a single color.
static void fillSurfaceRGBA8(const sp<SurfaceControl>& sc,
uint8_t r, uint8_t g, uint8_t b, bool unlock=true) {
ANativeWindow_Buffer outBuffer;
sp<Surface> s = sc->getSurface();
ASSERT_TRUE(s != NULL);
ASSERT_EQ(NO_ERROR, s->lock(&outBuffer, NULL));
uint8_t* img = reinterpret_cast<uint8_t*>(outBuffer.bits);
for (int y = 0; y < outBuffer.height; y++) {
for (int x = 0; x < outBuffer.width; x++) {
uint8_t* pixel = img + (4 * (y*outBuffer.stride + x));
pixel[0] = r;
pixel[1] = g;
pixel[2] = b;
pixel[3] = 255;
}
}
if (unlock) {
ASSERT_EQ(NO_ERROR, s->unlockAndPost());
}
}
// A ScreenCapture is a screenshot from SurfaceFlinger that can be used to check
// individual pixel values for testing purposes.
class ScreenCapture : public RefBase {
public:
static void captureScreen(sp<ScreenCapture>* sc) {
sp<IGraphicBufferProducer> producer;
sp<IGraphicBufferConsumer> consumer;
BufferQueue::createBufferQueue(&producer, &consumer);
sp<CpuConsumer> cpuConsumer = new CpuConsumer(consumer, 1);
sp<ISurfaceComposer> sf(ComposerService::getComposerService());
sp<IBinder> display(sf->getBuiltInDisplay(
ISurfaceComposer::eDisplayIdMain));
SurfaceComposerClient::openGlobalTransaction();
SurfaceComposerClient::closeGlobalTransaction(true);
ASSERT_EQ(NO_ERROR, sf->captureScreen(display, producer, Rect(), 0, 0,
0, INT_MAX, false));
*sc = new ScreenCapture(cpuConsumer);
}
void checkPixel(uint32_t x, uint32_t y, uint8_t r, uint8_t g, uint8_t b) {
ASSERT_EQ(HAL_PIXEL_FORMAT_RGBA_8888, mBuf.format);
const uint8_t* img = static_cast<const uint8_t*>(mBuf.data);
const uint8_t* pixel = img + (4 * (y * mBuf.stride + x));
if (r != pixel[0] || g != pixel[1] || b != pixel[2]) {
String8 err(String8::format("pixel @ (%3d, %3d): "
"expected [%3d, %3d, %3d], got [%3d, %3d, %3d]",
x, y, r, g, b, pixel[0], pixel[1], pixel[2]));
EXPECT_EQ(String8(), err) << err.string();
}
}
void expectFGColor(uint32_t x, uint32_t y) {
checkPixel(x, y, 195, 63, 63);
}
void expectBGColor(uint32_t x, uint32_t y) {
checkPixel(x, y, 63, 63, 195);
}
void expectChildColor(uint32_t x, uint32_t y) {
checkPixel(x, y, 200, 200, 200);
}
private:
ScreenCapture(const sp<CpuConsumer>& cc) :
mCC(cc) {
EXPECT_EQ(NO_ERROR, mCC->lockNextBuffer(&mBuf));
}
~ScreenCapture() {
mCC->unlockBuffer(mBuf);
}
sp<CpuConsumer> mCC;
CpuConsumer::LockedBuffer mBuf;
};
class LayerUpdateTest : public ::testing::Test {
protected:
virtual void SetUp() {
mComposerClient = new SurfaceComposerClient;
ASSERT_EQ(NO_ERROR, mComposerClient->initCheck());
sp<IBinder> display(SurfaceComposerClient::getBuiltInDisplay(
ISurfaceComposer::eDisplayIdMain));
DisplayInfo info;
SurfaceComposerClient::getDisplayInfo(display, &info);
ssize_t displayWidth = info.w;
ssize_t displayHeight = info.h;
// Background surface
mBGSurfaceControl = mComposerClient->createSurface(
String8("BG Test Surface"), displayWidth, displayHeight,
PIXEL_FORMAT_RGBA_8888, 0);
ASSERT_TRUE(mBGSurfaceControl != NULL);
ASSERT_TRUE(mBGSurfaceControl->isValid());
fillSurfaceRGBA8(mBGSurfaceControl, 63, 63, 195);
// Foreground surface
mFGSurfaceControl = mComposerClient->createSurface(
String8("FG Test Surface"), 64, 64, PIXEL_FORMAT_RGBA_8888, 0);
ASSERT_TRUE(mFGSurfaceControl != NULL);
ASSERT_TRUE(mFGSurfaceControl->isValid());
fillSurfaceRGBA8(mFGSurfaceControl, 195, 63, 63);
// Synchronization surface
mSyncSurfaceControl = mComposerClient->createSurface(
String8("Sync Test Surface"), 1, 1, PIXEL_FORMAT_RGBA_8888, 0);
ASSERT_TRUE(mSyncSurfaceControl != NULL);
ASSERT_TRUE(mSyncSurfaceControl->isValid());
fillSurfaceRGBA8(mSyncSurfaceControl, 31, 31, 31);
SurfaceComposerClient::openGlobalTransaction();
mComposerClient->setDisplayLayerStack(display, 0);
ASSERT_EQ(NO_ERROR, mBGSurfaceControl->setLayer(INT32_MAX-2));
ASSERT_EQ(NO_ERROR, mBGSurfaceControl->show());
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setLayer(INT32_MAX-1));
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setPosition(64, 64));
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->show());
ASSERT_EQ(NO_ERROR, mSyncSurfaceControl->setLayer(INT32_MAX-1));
ASSERT_EQ(NO_ERROR, mSyncSurfaceControl->setPosition(displayWidth-2,
displayHeight-2));
ASSERT_EQ(NO_ERROR, mSyncSurfaceControl->show());
SurfaceComposerClient::closeGlobalTransaction(true);
}
virtual void TearDown() {
mComposerClient->dispose();
mBGSurfaceControl = 0;
mFGSurfaceControl = 0;
mSyncSurfaceControl = 0;
mComposerClient = 0;
}
void waitForPostedBuffers() {
// Since the sync surface is in synchronous mode (i.e. double buffered)
// posting three buffers to it should ensure that at least two
// SurfaceFlinger::handlePageFlip calls have been made, which should
// guaranteed that a buffer posted to another Surface has been retired.
fillSurfaceRGBA8(mSyncSurfaceControl, 31, 31, 31);
fillSurfaceRGBA8(mSyncSurfaceControl, 31, 31, 31);
fillSurfaceRGBA8(mSyncSurfaceControl, 31, 31, 31);
}
sp<SurfaceComposerClient> mComposerClient;
sp<SurfaceControl> mBGSurfaceControl;
sp<SurfaceControl> mFGSurfaceControl;
// This surface is used to ensure that the buffers posted to
// mFGSurfaceControl have been picked up by SurfaceFlinger.
sp<SurfaceControl> mSyncSurfaceControl;
};
TEST_F(LayerUpdateTest, LayerMoveWorks) {
sp<ScreenCapture> sc;
{
SCOPED_TRACE("before move");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(0, 12);
sc->expectFGColor(75, 75);
sc->expectBGColor(145, 145);
}
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setPosition(128, 128));
SurfaceComposerClient::closeGlobalTransaction(true);
{
// This should reflect the new position, but not the new color.
SCOPED_TRACE("after move, before redraw");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectBGColor(75, 75);
sc->expectFGColor(145, 145);
}
fillSurfaceRGBA8(mFGSurfaceControl, 63, 195, 63);
waitForPostedBuffers();
{
// This should reflect the new position and the new color.
SCOPED_TRACE("after redraw");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectBGColor(75, 75);
sc->checkPixel(145, 145, 63, 195, 63);
}
}
TEST_F(LayerUpdateTest, LayerResizeWorks) {
sp<ScreenCapture> sc;
{
SCOPED_TRACE("before resize");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(0, 12);
sc->expectFGColor(75, 75);
sc->expectBGColor(145, 145);
}
ALOGD("resizing");
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setSize(128, 128));
SurfaceComposerClient::closeGlobalTransaction(true);
ALOGD("resized");
{
// This should not reflect the new size or color because SurfaceFlinger
// has not yet received a buffer of the correct size.
SCOPED_TRACE("after resize, before redraw");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(0, 12);
sc->expectFGColor(75, 75);
sc->expectBGColor(145, 145);
}
ALOGD("drawing");
fillSurfaceRGBA8(mFGSurfaceControl, 63, 195, 63);
waitForPostedBuffers();
ALOGD("drawn");
{
// This should reflect the new size and the new color.
SCOPED_TRACE("after redraw");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->checkPixel(75, 75, 63, 195, 63);
sc->checkPixel(145, 145, 63, 195, 63);
}
}
TEST_F(LayerUpdateTest, LayerCropWorks) {
sp<ScreenCapture> sc;
{
SCOPED_TRACE("before crop");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectFGColor(75, 75);
sc->expectBGColor(145, 145);
}
SurfaceComposerClient::openGlobalTransaction();
Rect cropRect(16, 16, 32, 32);
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setCrop(cropRect));
SurfaceComposerClient::closeGlobalTransaction(true);
{
// This should crop the foreground surface.
SCOPED_TRACE("after crop");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectBGColor(75, 75);
sc->expectFGColor(95, 80);
sc->expectFGColor(80, 95);
sc->expectBGColor(96, 96);
}
}
TEST_F(LayerUpdateTest, LayerFinalCropWorks) {
sp<ScreenCapture> sc;
{
SCOPED_TRACE("before crop");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectFGColor(75, 75);
sc->expectBGColor(145, 145);
}
SurfaceComposerClient::openGlobalTransaction();
Rect cropRect(16, 16, 32, 32);
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setFinalCrop(cropRect));
SurfaceComposerClient::closeGlobalTransaction(true);
{
// This should crop the foreground surface.
SCOPED_TRACE("after crop");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectBGColor(75, 75);
sc->expectBGColor(95, 80);
sc->expectBGColor(80, 95);
sc->expectBGColor(96, 96);
}
}
TEST_F(LayerUpdateTest, LayerSetLayerWorks) {
sp<ScreenCapture> sc;
{
SCOPED_TRACE("before setLayer");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectFGColor(75, 75);
sc->expectBGColor(145, 145);
}
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setLayer(INT_MAX - 3));
SurfaceComposerClient::closeGlobalTransaction(true);
{
// This should hide the foreground surface beneath the background.
SCOPED_TRACE("after setLayer");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectBGColor(75, 75);
sc->expectBGColor(145, 145);
}
}
TEST_F(LayerUpdateTest, LayerShowHideWorks) {
sp<ScreenCapture> sc;
{
SCOPED_TRACE("before hide");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectFGColor(75, 75);
sc->expectBGColor(145, 145);
}
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->hide());
SurfaceComposerClient::closeGlobalTransaction(true);
{
// This should hide the foreground surface.
SCOPED_TRACE("after hide, before show");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectBGColor(75, 75);
sc->expectBGColor(145, 145);
}
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->show());
SurfaceComposerClient::closeGlobalTransaction(true);
{
// This should show the foreground surface.
SCOPED_TRACE("after show");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectFGColor(75, 75);
sc->expectBGColor(145, 145);
}
}
TEST_F(LayerUpdateTest, LayerSetAlphaWorks) {
sp<ScreenCapture> sc;
{
SCOPED_TRACE("before setAlpha");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectFGColor(75, 75);
sc->expectBGColor(145, 145);
}
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setAlpha(0.75f));
SurfaceComposerClient::closeGlobalTransaction(true);
{
// This should set foreground to be 75% opaque.
SCOPED_TRACE("after setAlpha");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->checkPixel(75, 75, 162, 63, 96);
sc->expectBGColor(145, 145);
}
}
TEST_F(LayerUpdateTest, LayerSetLayerStackWorks) {
sp<ScreenCapture> sc;
{
SCOPED_TRACE("before setLayerStack");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectFGColor(75, 75);
sc->expectBGColor(145, 145);
}
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setLayerStack(1));
SurfaceComposerClient::closeGlobalTransaction(true);
{
// This should hide the foreground surface since it goes to a different
// layer stack.
SCOPED_TRACE("after setLayerStack");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectBGColor(75, 75);
sc->expectBGColor(145, 145);
}
}
TEST_F(LayerUpdateTest, LayerSetFlagsWorks) {
sp<ScreenCapture> sc;
{
SCOPED_TRACE("before setFlags");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectFGColor(75, 75);
sc->expectBGColor(145, 145);
}
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setFlags(
layer_state_t::eLayerHidden, layer_state_t::eLayerHidden));
SurfaceComposerClient::closeGlobalTransaction(true);
{
// This should hide the foreground surface
SCOPED_TRACE("after setFlags");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectBGColor(75, 75);
sc->expectBGColor(145, 145);
}
}
TEST_F(LayerUpdateTest, LayerSetMatrixWorks) {
sp<ScreenCapture> sc;
{
SCOPED_TRACE("before setMatrix");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectFGColor(91, 96);
sc->expectFGColor(96, 101);
sc->expectBGColor(145, 145);
}
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setMatrix(M_SQRT1_2, M_SQRT1_2,
-M_SQRT1_2, M_SQRT1_2));
SurfaceComposerClient::closeGlobalTransaction(true);
{
SCOPED_TRACE("after setMatrix");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectFGColor(91, 96);
sc->expectBGColor(96, 91);
sc->expectBGColor(145, 145);
}
}
class GeometryLatchingTest : public LayerUpdateTest {
protected:
void EXPECT_INITIAL_STATE(const char * trace) {
SCOPED_TRACE(trace);
ScreenCapture::captureScreen(&sc);
// We find the leading edge of the FG surface.
sc->expectFGColor(127, 127);
sc->expectBGColor(128, 128);
}
void lockAndFillFGBuffer() {
fillSurfaceRGBA8(mFGSurfaceControl, 195, 63, 63, false);
}
void unlockFGBuffer() {
sp<Surface> s = mFGSurfaceControl->getSurface();
ASSERT_EQ(NO_ERROR, s->unlockAndPost());
waitForPostedBuffers();
}
void completeFGResize() {
fillSurfaceRGBA8(mFGSurfaceControl, 195, 63, 63);
waitForPostedBuffers();
}
void restoreInitialState() {
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->setSize(64, 64);
mFGSurfaceControl->setPosition(64, 64);
mFGSurfaceControl->setCrop(Rect(0, 0, 64, 64));
mFGSurfaceControl->setFinalCrop(Rect(0, 0, -1, -1));
SurfaceComposerClient::closeGlobalTransaction(true);
EXPECT_INITIAL_STATE("After restoring initial state");
}
sp<ScreenCapture> sc;
};
TEST_F(GeometryLatchingTest, SurfacePositionLatching) {
EXPECT_INITIAL_STATE("before anything");
// By default position can be updated even while
// a resize is pending.
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->setSize(32, 32);
mFGSurfaceControl->setPosition(100, 100);
SurfaceComposerClient::closeGlobalTransaction(true);
{
SCOPED_TRACE("After moving surface");
ScreenCapture::captureScreen(&sc);
// If we moved, the FG Surface should cover up what was previously BG
// however if we didn't move the FG wouldn't be large enough now.
sc->expectFGColor(163, 163);
}
restoreInitialState();
// Now we repeat with setGeometryAppliesWithResize
// and verify the position DOESN'T latch.
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->setGeometryAppliesWithResize();
mFGSurfaceControl->setSize(32, 32);
mFGSurfaceControl->setPosition(100, 100);
SurfaceComposerClient::closeGlobalTransaction(true);
{
SCOPED_TRACE("While resize is pending");
ScreenCapture::captureScreen(&sc);
// This time we shouldn't have moved, so the BG color
// should still be visible.
sc->expectBGColor(128, 128);
}
completeFGResize();
{
SCOPED_TRACE("After the resize");
ScreenCapture::captureScreen(&sc);
// But after the resize completes, we should move
// and the FG should be visible here.
sc->expectFGColor(128, 128);
}
}
class CropLatchingTest : public GeometryLatchingTest {
protected:
void EXPECT_CROPPED_STATE(const char* trace) {
SCOPED_TRACE(trace);
ScreenCapture::captureScreen(&sc);
// The edge should be moved back one pixel by our crop.
sc->expectFGColor(126, 126);
sc->expectBGColor(127, 127);
sc->expectBGColor(128, 128);
}
};
TEST_F(CropLatchingTest, CropLatching) {
EXPECT_INITIAL_STATE("before anything");
// Normally the crop applies immediately even while a resize is pending.
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->setSize(128, 128);
mFGSurfaceControl->setCrop(Rect(0, 0, 63, 63));
SurfaceComposerClient::closeGlobalTransaction(true);
EXPECT_CROPPED_STATE("after setting crop (without geometryAppliesWithResize)");
restoreInitialState();
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->setSize(128, 128);
mFGSurfaceControl->setGeometryAppliesWithResize();
mFGSurfaceControl->setCrop(Rect(0, 0, 63, 63));
SurfaceComposerClient::closeGlobalTransaction(true);
EXPECT_INITIAL_STATE("after setting crop (with geometryAppliesWithResize)");
completeFGResize();
EXPECT_CROPPED_STATE("after the resize finishes");
}
TEST_F(CropLatchingTest, FinalCropLatching) {
EXPECT_INITIAL_STATE("before anything");
// Normally the crop applies immediately even while a resize is pending.
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->setSize(128, 128);
mFGSurfaceControl->setFinalCrop(Rect(64, 64, 127, 127));
SurfaceComposerClient::closeGlobalTransaction(true);
EXPECT_CROPPED_STATE("after setting crop (without geometryAppliesWithResize)");
restoreInitialState();
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->setSize(128, 128);
mFGSurfaceControl->setGeometryAppliesWithResize();
mFGSurfaceControl->setFinalCrop(Rect(64, 64, 127, 127));
SurfaceComposerClient::closeGlobalTransaction(true);
EXPECT_INITIAL_STATE("after setting crop (with geometryAppliesWithResize)");
completeFGResize();
EXPECT_CROPPED_STATE("after the resize finishes");
}
// In this test we ensure that setGeometryAppliesWithResize actually demands
// a buffer of the new size, and not just any size.
TEST_F(CropLatchingTest, FinalCropLatchingBufferOldSize) {
EXPECT_INITIAL_STATE("before anything");
// Normally the crop applies immediately even while a resize is pending.
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->setSize(128, 128);
mFGSurfaceControl->setFinalCrop(Rect(64, 64, 127, 127));
SurfaceComposerClient::closeGlobalTransaction(true);
EXPECT_CROPPED_STATE("after setting crop (without geometryAppliesWithResize)");
restoreInitialState();
// In order to prepare to submit a buffer at the wrong size, we acquire it prior to
// initiating the resize.
lockAndFillFGBuffer();
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->setSize(128, 128);
mFGSurfaceControl->setGeometryAppliesWithResize();
mFGSurfaceControl->setFinalCrop(Rect(64, 64, 127, 127));
SurfaceComposerClient::closeGlobalTransaction(true);
EXPECT_INITIAL_STATE("after setting crop (with geometryAppliesWithResize)");
// We now submit our old buffer, at the old size, and ensure it doesn't
// trigger geometry latching.
unlockFGBuffer();
EXPECT_INITIAL_STATE("after unlocking FG buffer (with geometryAppliesWithResize)");
completeFGResize();
EXPECT_CROPPED_STATE("after the resize finishes");
}
TEST_F(CropLatchingTest, FinalCropLatchingRegressionForb37531386) {
EXPECT_INITIAL_STATE("before anything");
// In this scenario, we attempt to set the final crop a second time while the resize
// is still pending, and ensure we are successful. Success meaning the second crop
// is the one which eventually latches and not the first.
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->setSize(128, 128);
mFGSurfaceControl->setGeometryAppliesWithResize();
mFGSurfaceControl->setFinalCrop(Rect(64, 64, 127, 127));
SurfaceComposerClient::closeGlobalTransaction(true);
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->setFinalCrop(Rect(0, 0, -1, -1));
SurfaceComposerClient::closeGlobalTransaction(true);
EXPECT_INITIAL_STATE("after setting crops with geometryAppliesWithResize");
completeFGResize();
EXPECT_INITIAL_STATE("after the resize finishes");
}
TEST_F(LayerUpdateTest, DeferredTransactionTest) {
sp<ScreenCapture> sc;
{
SCOPED_TRACE("before anything");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(32, 32);
sc->expectFGColor(96, 96);
sc->expectBGColor(160, 160);
}
// set up two deferred transactions on different frames
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setAlpha(0.75));
mFGSurfaceControl->deferTransactionUntil(mSyncSurfaceControl->getHandle(),
mSyncSurfaceControl->getSurface()->getNextFrameNumber());
SurfaceComposerClient::closeGlobalTransaction(true);
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setPosition(128,128));
mFGSurfaceControl->deferTransactionUntil(mSyncSurfaceControl->getHandle(),
mSyncSurfaceControl->getSurface()->getNextFrameNumber() + 1);
SurfaceComposerClient::closeGlobalTransaction(true);
{
SCOPED_TRACE("before any trigger");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(32, 32);
sc->expectFGColor(96, 96);
sc->expectBGColor(160, 160);
}
// should trigger the first deferred transaction, but not the second one
fillSurfaceRGBA8(mSyncSurfaceControl, 31, 31, 31);
{
SCOPED_TRACE("after first trigger");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(32, 32);
sc->checkPixel(96, 96, 162, 63, 96);
sc->expectBGColor(160, 160);
}
// should show up immediately since it's not deferred
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setAlpha(1.0));
SurfaceComposerClient::closeGlobalTransaction(true);
// trigger the second deferred transaction
fillSurfaceRGBA8(mSyncSurfaceControl, 31, 31, 31);
{
SCOPED_TRACE("after second trigger");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(32, 32);
sc->expectBGColor(96, 96);
sc->expectFGColor(160, 160);
}
}
TEST_F(LayerUpdateTest, LayerSetRelativeLayerWorks) {
sp<ScreenCapture> sc;
{
SCOPED_TRACE("before adding relative surface");
ScreenCapture::captureScreen(&sc);
sc->expectBGColor(24, 24);
sc->expectFGColor(75, 75);
sc->expectBGColor(145, 145);
}
auto relativeSurfaceControl = mComposerClient->createSurface(
String8("Test Surface"), 64, 64, PIXEL_FORMAT_RGBA_8888, 0);
fillSurfaceRGBA8(relativeSurfaceControl, 255, 177, 177);
waitForPostedBuffers();
// Now we stack the surface above the foreground surface and make sure it is visible.
SurfaceComposerClient::openGlobalTransaction();
relativeSurfaceControl->setPosition(64, 64);
relativeSurfaceControl->show();
relativeSurfaceControl->setRelativeLayer(mFGSurfaceControl->getHandle(), 1);
SurfaceComposerClient::closeGlobalTransaction(true);
{
SCOPED_TRACE("after adding relative surface");
ScreenCapture::captureScreen(&sc);
// our relative surface should be visible now.
sc->checkPixel(75, 75, 255, 177, 177);
}
// A call to setLayer will override a call to setRelativeLayer
SurfaceComposerClient::openGlobalTransaction();
relativeSurfaceControl->setLayer(0);
SurfaceComposerClient::closeGlobalTransaction();
{
SCOPED_TRACE("after set layer");
ScreenCapture::captureScreen(&sc);
// now the FG surface should be visible again.
sc->expectFGColor(75, 75);
}
}
class ChildLayerTest : public LayerUpdateTest {
protected:
void SetUp() override {
LayerUpdateTest::SetUp();
mChild = mComposerClient->createSurface(
String8("Child surface"),
10, 10, PIXEL_FORMAT_RGBA_8888,
0, mFGSurfaceControl.get());
fillSurfaceRGBA8(mChild, 200, 200, 200);
{
SCOPED_TRACE("before anything");
ScreenCapture::captureScreen(&mCapture);
mCapture->expectChildColor(64, 64);
}
}
void TearDown() override {
LayerUpdateTest::TearDown();
mChild = 0;
}
sp<SurfaceControl> mChild;
sp<ScreenCapture> mCapture;
};
TEST_F(ChildLayerTest, ChildLayerPositioning) {
SurfaceComposerClient::openGlobalTransaction();
mChild->show();
mChild->setPosition(10, 10);
mFGSurfaceControl->setPosition(64, 64);
SurfaceComposerClient::closeGlobalTransaction(true);
{
ScreenCapture::captureScreen(&mCapture);
// Top left of foreground must now be visible
mCapture->expectFGColor(64, 64);
// But 10 pixels in we should see the child surface
mCapture->expectChildColor(74, 74);
// And 10 more pixels we should be back to the foreground surface
mCapture->expectFGColor(84, 84);
}
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setPosition(0, 0));
SurfaceComposerClient::closeGlobalTransaction(true);
{
ScreenCapture::captureScreen(&mCapture);
// Top left of foreground should now be at 0, 0
mCapture->expectFGColor(0, 0);
// But 10 pixels in we should see the child surface
mCapture->expectChildColor(10, 10);
// And 10 more pixels we should be back to the foreground surface
mCapture->expectFGColor(20, 20);
}
}
TEST_F(ChildLayerTest, ChildLayerCropping) {
SurfaceComposerClient::openGlobalTransaction();
mChild->show();
mChild->setPosition(0, 0);
mFGSurfaceControl->setPosition(0, 0);
mFGSurfaceControl->setCrop(Rect(0, 0, 5, 5));
SurfaceComposerClient::closeGlobalTransaction(true);
{
ScreenCapture::captureScreen(&mCapture);
mCapture->expectChildColor(0, 0);
mCapture->expectChildColor(4, 4);
mCapture->expectBGColor(5, 5);
}
}
TEST_F(ChildLayerTest, ChildLayerFinalCropping) {
SurfaceComposerClient::openGlobalTransaction();
mChild->show();
mChild->setPosition(0, 0);
mFGSurfaceControl->setPosition(0, 0);
mFGSurfaceControl->setFinalCrop(Rect(0, 0, 5, 5));
SurfaceComposerClient::closeGlobalTransaction(true);
{
ScreenCapture::captureScreen(&mCapture);
mCapture->expectChildColor(0, 0);
mCapture->expectChildColor(4, 4);
mCapture->expectBGColor(5, 5);
}
}
TEST_F(ChildLayerTest, ChildLayerConstraints) {
SurfaceComposerClient::openGlobalTransaction();
mChild->show();
mFGSurfaceControl->setPosition(0, 0);
mChild->setPosition(63, 63);
SurfaceComposerClient::closeGlobalTransaction(true);
{
ScreenCapture::captureScreen(&mCapture);
mCapture->expectFGColor(0, 0);
// Last pixel in foreground should now be the child.
mCapture->expectChildColor(63, 63);
// But the child should be constrained and the next pixel
// must be the background
mCapture->expectBGColor(64, 64);
}
}
TEST_F(ChildLayerTest, ChildLayerScaling) {
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->setPosition(0, 0);
SurfaceComposerClient::closeGlobalTransaction(true);
// Find the boundary between the parent and child
{
ScreenCapture::captureScreen(&mCapture);
mCapture->expectChildColor(9, 9);
mCapture->expectFGColor(10, 10);
}
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->setMatrix(2.0, 0, 0, 2.0);
SurfaceComposerClient::closeGlobalTransaction(true);
// The boundary should be twice as far from the origin now.
// The pixels from the last test should all be child now
{
ScreenCapture::captureScreen(&mCapture);
mCapture->expectChildColor(9, 9);
mCapture->expectChildColor(10, 10);
mCapture->expectChildColor(19, 19);
mCapture->expectFGColor(20, 20);
}
}
TEST_F(ChildLayerTest, ChildLayerAlpha) {
fillSurfaceRGBA8(mBGSurfaceControl, 0, 0, 254);
fillSurfaceRGBA8(mFGSurfaceControl, 254, 0, 0);
fillSurfaceRGBA8(mChild, 0, 254, 0);
waitForPostedBuffers();
SurfaceComposerClient::openGlobalTransaction();
mChild->show();
mChild->setPosition(0, 0);
mFGSurfaceControl->setPosition(0, 0);
SurfaceComposerClient::closeGlobalTransaction(true);
{
ScreenCapture::captureScreen(&mCapture);
// Unblended child color
mCapture->checkPixel(0, 0, 0, 254, 0);
}
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mChild->setAlpha(0.5));
SurfaceComposerClient::closeGlobalTransaction(true);
{
ScreenCapture::captureScreen(&mCapture);
// Child and BG blended.
mCapture->checkPixel(0, 0, 127, 127, 0);
}
SurfaceComposerClient::openGlobalTransaction();
ASSERT_EQ(NO_ERROR, mFGSurfaceControl->setAlpha(0.5));
SurfaceComposerClient::closeGlobalTransaction(true);
{
ScreenCapture::captureScreen(&mCapture);
// Child and BG blended.
mCapture->checkPixel(0, 0, 95, 64, 95);
}
}
TEST_F(ChildLayerTest, ReparentChildren) {
SurfaceComposerClient::openGlobalTransaction();
mChild->show();
mChild->setPosition(10, 10);
mFGSurfaceControl->setPosition(64, 64);
SurfaceComposerClient::closeGlobalTransaction(true);
{
ScreenCapture::captureScreen(&mCapture);
// Top left of foreground must now be visible
mCapture->expectFGColor(64, 64);
// But 10 pixels in we should see the child surface
mCapture->expectChildColor(74, 74);
// And 10 more pixels we should be back to the foreground surface
mCapture->expectFGColor(84, 84);
}
mFGSurfaceControl->reparentChildren(mBGSurfaceControl->getHandle());
{
ScreenCapture::captureScreen(&mCapture);
mCapture->expectFGColor(64, 64);
// In reparenting we should have exposed the entire foreground surface.
mCapture->expectFGColor(74, 74);
// And the child layer should now begin at 10, 10 (since the BG
// layer is at (0, 0)).
mCapture->expectBGColor(9, 9);
mCapture->expectChildColor(10, 10);
}
}
TEST_F(ChildLayerTest, DetachChildren) {
SurfaceComposerClient::openGlobalTransaction();
mChild->show();
mChild->setPosition(10, 10);
mFGSurfaceControl->setPosition(64, 64);
SurfaceComposerClient::closeGlobalTransaction(true);
{
ScreenCapture::captureScreen(&mCapture);
// Top left of foreground must now be visible
mCapture->expectFGColor(64, 64);
// But 10 pixels in we should see the child surface
mCapture->expectChildColor(74, 74);
// And 10 more pixels we should be back to the foreground surface
mCapture->expectFGColor(84, 84);
}
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->detachChildren();
SurfaceComposerClient::closeGlobalTransaction(true);
SurfaceComposerClient::openGlobalTransaction();
mChild->hide();
SurfaceComposerClient::closeGlobalTransaction(true);
// Nothing should have changed.
{
ScreenCapture::captureScreen(&mCapture);
mCapture->expectFGColor(64, 64);
mCapture->expectChildColor(74, 74);
mCapture->expectFGColor(84, 84);
}
}
TEST_F(ChildLayerTest, ChildrenInheritNonTransformScalingFromParent) {
SurfaceComposerClient::openGlobalTransaction();
mChild->show();
mChild->setPosition(0, 0);
mFGSurfaceControl->setPosition(0, 0);
SurfaceComposerClient::closeGlobalTransaction(true);
{
ScreenCapture::captureScreen(&mCapture);
// We've positioned the child in the top left.
mCapture->expectChildColor(0, 0);
// But it's only 10x10.
mCapture->expectFGColor(10, 10);
}
SurfaceComposerClient::openGlobalTransaction();
mFGSurfaceControl->setOverrideScalingMode(NATIVE_WINDOW_SCALING_MODE_SCALE_TO_WINDOW);
// We cause scaling by 2.
mFGSurfaceControl->setSize(128, 128);
SurfaceComposerClient::closeGlobalTransaction();
{
ScreenCapture::captureScreen(&mCapture);
// We've positioned the child in the top left.
mCapture->expectChildColor(0, 0);
mCapture->expectChildColor(10, 10);
mCapture->expectChildColor(19, 19);
// And now it should be scaled all the way to 20x20
mCapture->expectFGColor(20, 20);
}
}
// Regression test for b/37673612
TEST_F(ChildLayerTest, ChildrenWithParentBufferTransform) {
SurfaceComposerClient::openGlobalTransaction();
mChild->show();
mChild->setPosition(0, 0);
mFGSurfaceControl->setPosition(0, 0);
SurfaceComposerClient::closeGlobalTransaction(true);
{
ScreenCapture::captureScreen(&mCapture);
// We've positioned the child in the top left.
mCapture->expectChildColor(0, 0);
// But it's only 10x10.
mCapture->expectFGColor(10, 10);
}
// We set things up as in b/37673612 so that there is a mismatch between the buffer size and
// the WM specified state size.
mFGSurfaceControl->setSize(128, 64);
sp<Surface> s = mFGSurfaceControl->getSurface();
auto anw = static_cast<ANativeWindow*>(s.get());
native_window_set_buffers_transform(anw, NATIVE_WINDOW_TRANSFORM_ROT_90);
native_window_set_buffers_dimensions(anw, 64, 128);
fillSurfaceRGBA8(mFGSurfaceControl, 195, 63, 63);
waitForPostedBuffers();
{
// The child should still be in the same place and not have any strange scaling as in
// b/37673612.
ScreenCapture::captureScreen(&mCapture);
mCapture->expectChildColor(0, 0);
mCapture->expectFGColor(10, 10);
}
}
TEST_F(ChildLayerTest, Bug36858924) {
// Destroy the child layer
mChild.clear();
// Now recreate it as hidden
mChild = mComposerClient->createSurface(String8("Child surface"), 10, 10,
PIXEL_FORMAT_RGBA_8888, ISurfaceComposerClient::eHidden,
mFGSurfaceControl.get());
// Show the child layer in a deferred transaction
SurfaceComposerClient::openGlobalTransaction();
mChild->deferTransactionUntil(mFGSurfaceControl->getHandle(),
mFGSurfaceControl->getSurface()->getNextFrameNumber());
mChild->show();
SurfaceComposerClient::closeGlobalTransaction(true);
// Render the foreground surface a few times
//
// Prior to the bugfix for b/36858924, this would usually hang while trying to fill the third
// frame because SurfaceFlinger would never process the deferred transaction and would therefore
// never acquire/release the first buffer
ALOGI("Filling 1");
fillSurfaceRGBA8(mFGSurfaceControl, 0, 255, 0);
ALOGI("Filling 2");
fillSurfaceRGBA8(mFGSurfaceControl, 0, 0, 255);
ALOGI("Filling 3");
fillSurfaceRGBA8(mFGSurfaceControl, 255, 0, 0);
ALOGI("Filling 4");
fillSurfaceRGBA8(mFGSurfaceControl, 0, 255, 0);
}
}