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/*
* Copyright (C) 2010 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#undef LOG_TAG
#define LOG_TAG "BufferLayerConsumer"
#define ATRACE_TAG ATRACE_TAG_GRAPHICS
//#define LOG_NDEBUG 0
#include "BufferLayerConsumer.h"
#include "Layer.h"
#include "Scheduler/DispSync.h"
#include <inttypes.h>
#include <cutils/compiler.h>
#include <hardware/hardware.h>
#include <math/mat4.h>
#include <gui/BufferItem.h>
#include <gui/GLConsumer.h>
#include <gui/ISurfaceComposer.h>
#include <gui/SurfaceComposerClient.h>
#include <private/gui/ComposerService.h>
#include <renderengine/Image.h>
#include <renderengine/RenderEngine.h>
#include <utils/Log.h>
#include <utils/String8.h>
#include <utils/Trace.h>
namespace android {
// Macros for including the BufferLayerConsumer name in log messages
#define BLC_LOGV(x, ...) ALOGV("[%s] " x, mName.string(), ##__VA_ARGS__)
#define BLC_LOGD(x, ...) ALOGD("[%s] " x, mName.string(), ##__VA_ARGS__)
//#define BLC_LOGI(x, ...) ALOGI("[%s] " x, mName.string(), ##__VA_ARGS__)
#define BLC_LOGW(x, ...) ALOGW("[%s] " x, mName.string(), ##__VA_ARGS__)
#define BLC_LOGE(x, ...) ALOGE("[%s] " x, mName.string(), ##__VA_ARGS__)
static const mat4 mtxIdentity;
BufferLayerConsumer::BufferLayerConsumer(const sp<IGraphicBufferConsumer>& bq,
renderengine::RenderEngine& engine, uint32_t tex,
Layer* layer)
: ConsumerBase(bq, false),
mCurrentCrop(Rect::EMPTY_RECT),
mCurrentTransform(0),
mCurrentScalingMode(NATIVE_WINDOW_SCALING_MODE_FREEZE),
mCurrentFence(Fence::NO_FENCE),
mCurrentTimestamp(0),
mCurrentDataSpace(ui::Dataspace::UNKNOWN),
mCurrentFrameNumber(0),
mCurrentTransformToDisplayInverse(false),
mCurrentSurfaceDamage(),
mCurrentApi(0),
mDefaultWidth(1),
mDefaultHeight(1),
mFilteringEnabled(true),
mRE(engine),
mTexName(tex),
mLayer(layer),
mCurrentTexture(BufferQueue::INVALID_BUFFER_SLOT) {
BLC_LOGV("BufferLayerConsumer");
memcpy(mCurrentTransformMatrix, mtxIdentity.asArray(), sizeof(mCurrentTransformMatrix));
mConsumer->setConsumerUsageBits(DEFAULT_USAGE_FLAGS);
}
status_t BufferLayerConsumer::setDefaultBufferSize(uint32_t w, uint32_t h) {
Mutex::Autolock lock(mMutex);
if (mAbandoned) {
BLC_LOGE("setDefaultBufferSize: BufferLayerConsumer is abandoned!");
return NO_INIT;
}
mDefaultWidth = w;
mDefaultHeight = h;
return mConsumer->setDefaultBufferSize(w, h);
}
void BufferLayerConsumer::setContentsChangedListener(const wp<ContentsChangedListener>& listener) {
setFrameAvailableListener(listener);
Mutex::Autolock lock(mMutex);
mContentsChangedListener = listener;
}
status_t BufferLayerConsumer::updateTexImage(BufferRejecter* rejecter, nsecs_t expectedPresentTime,
bool* autoRefresh, bool* queuedBuffer,
uint64_t maxFrameNumber) {
ATRACE_CALL();
BLC_LOGV("updateTexImage");
Mutex::Autolock lock(mMutex);
if (mAbandoned) {
BLC_LOGE("updateTexImage: BufferLayerConsumer is abandoned!");
return NO_INIT;
}
BufferItem item;
// Acquire the next buffer.
// In asynchronous mode the list is guaranteed to be one buffer
// deep, while in synchronous mode we use the oldest buffer.
status_t err = acquireBufferLocked(&item, expectedPresentTime, maxFrameNumber);
if (err != NO_ERROR) {
if (err == BufferQueue::NO_BUFFER_AVAILABLE) {
err = NO_ERROR;
} else if (err == BufferQueue::PRESENT_LATER) {
// return the error, without logging
} else {
BLC_LOGE("updateTexImage: acquire failed: %s (%d)", strerror(-err), err);
}
return err;
}
if (autoRefresh) {
*autoRefresh = item.mAutoRefresh;
}
if (queuedBuffer) {
*queuedBuffer = item.mQueuedBuffer;
}
// We call the rejecter here, in case the caller has a reason to
// not accept this buffer. This is used by SurfaceFlinger to
// reject buffers which have the wrong size
int slot = item.mSlot;
if (rejecter && rejecter->reject(mSlots[slot].mGraphicBuffer, item)) {
releaseBufferLocked(slot, mSlots[slot].mGraphicBuffer);
return BUFFER_REJECTED;
}
// Release the previous buffer.
err = updateAndReleaseLocked(item, &mPendingRelease);
if (err != NO_ERROR) {
return err;
}
if (!mRE.useNativeFenceSync()) {
// Bind the new buffer to the GL texture.
//
// Older devices require the "implicit" synchronization provided
// by glEGLImageTargetTexture2DOES, which this method calls. Newer
// devices will either call this in Layer::onDraw, or (if it's not
// a GL-composited layer) not at all.
err = bindTextureImageLocked();
}
return err;
}
status_t BufferLayerConsumer::bindTextureImage() {
Mutex::Autolock lock(mMutex);
return bindTextureImageLocked();
}
void BufferLayerConsumer::setReleaseFence(const sp<Fence>& fence) {
if (!fence->isValid()) {
return;
}
auto slot = mPendingRelease.isPending ? mPendingRelease.currentTexture : mCurrentTexture;
if (slot == BufferQueue::INVALID_BUFFER_SLOT) {
return;
}
auto buffer = mPendingRelease.isPending ? mPendingRelease.graphicBuffer
: mCurrentTextureBuffer->graphicBuffer();
auto err = addReleaseFence(slot, buffer, fence);
if (err != OK) {
BLC_LOGE("setReleaseFence: failed to add the fence: %s (%d)", strerror(-err), err);
}
}
bool BufferLayerConsumer::releasePendingBuffer() {
if (!mPendingRelease.isPending) {
BLC_LOGV("Pending buffer already released");
return false;
}
BLC_LOGV("Releasing pending buffer");
Mutex::Autolock lock(mMutex);
status_t result =
releaseBufferLocked(mPendingRelease.currentTexture, mPendingRelease.graphicBuffer);
if (result < NO_ERROR) {
BLC_LOGE("releasePendingBuffer failed: %s (%d)", strerror(-result), result);
}
mPendingRelease = PendingRelease();
return true;
}
sp<Fence> BufferLayerConsumer::getPrevFinalReleaseFence() const {
Mutex::Autolock lock(mMutex);
return ConsumerBase::mPrevFinalReleaseFence;
}
status_t BufferLayerConsumer::acquireBufferLocked(BufferItem* item, nsecs_t presentWhen,
uint64_t maxFrameNumber) {
status_t err = ConsumerBase::acquireBufferLocked(item, presentWhen, maxFrameNumber);
if (err != NO_ERROR) {
return err;
}
// If item->mGraphicBuffer is not null, this buffer has not been acquired
// before, so we need to clean up old references.
if (item->mGraphicBuffer != nullptr) {
std::lock_guard<std::mutex> lock(mImagesMutex);
if (mImages[item->mSlot] == nullptr || mImages[item->mSlot]->graphicBuffer() == nullptr ||
mImages[item->mSlot]->graphicBuffer()->getId() != item->mGraphicBuffer->getId()) {
mImages[item->mSlot] = std::make_shared<Image>(item->mGraphicBuffer, mRE);
}
}
return NO_ERROR;
}
status_t BufferLayerConsumer::updateAndReleaseLocked(const BufferItem& item,
PendingRelease* pendingRelease) {
status_t err = NO_ERROR;
int slot = item.mSlot;
BLC_LOGV("updateAndRelease: (slot=%d buf=%p) -> (slot=%d buf=%p)", mCurrentTexture,
(mCurrentTextureBuffer != nullptr && mCurrentTextureBuffer->graphicBuffer() != nullptr)
? mCurrentTextureBuffer->graphicBuffer()->handle
: 0,
slot, mSlots[slot].mGraphicBuffer->handle);
// Hang onto the pointer so that it isn't freed in the call to
// releaseBufferLocked() if we're in shared buffer mode and both buffers are
// the same.
std::shared_ptr<Image> nextTextureBuffer;
{
std::lock_guard<std::mutex> lock(mImagesMutex);
nextTextureBuffer = mImages[slot];
}
// release old buffer
if (mCurrentTexture != BufferQueue::INVALID_BUFFER_SLOT) {
if (pendingRelease == nullptr) {
status_t status =
releaseBufferLocked(mCurrentTexture, mCurrentTextureBuffer->graphicBuffer());
if (status < NO_ERROR) {
BLC_LOGE("updateAndRelease: failed to release buffer: %s (%d)", strerror(-status),
status);
err = status;
// keep going, with error raised [?]
}
} else {
pendingRelease->currentTexture = mCurrentTexture;
pendingRelease->graphicBuffer = mCurrentTextureBuffer->graphicBuffer();
pendingRelease->isPending = true;
}
}
// Update the BufferLayerConsumer state.
mCurrentTexture = slot;
mCurrentTextureBuffer = nextTextureBuffer;
mCurrentCrop = item.mCrop;
mCurrentTransform = item.mTransform;
mCurrentScalingMode = item.mScalingMode;
mCurrentTimestamp = item.mTimestamp;
mCurrentDataSpace = static_cast<ui::Dataspace>(item.mDataSpace);
mCurrentHdrMetadata = item.mHdrMetadata;
mCurrentFence = item.mFence;
mCurrentFenceTime = item.mFenceTime;
mCurrentFrameNumber = item.mFrameNumber;
mCurrentTransformToDisplayInverse = item.mTransformToDisplayInverse;
mCurrentSurfaceDamage = item.mSurfaceDamage;
mCurrentApi = item.mApi;
computeCurrentTransformMatrixLocked();
return err;
}
status_t BufferLayerConsumer::bindTextureImageLocked() {
ATRACE_CALL();
if (mCurrentTextureBuffer != nullptr && mCurrentTextureBuffer->graphicBuffer() != nullptr) {
return mRE.bindExternalTextureBuffer(mTexName, mCurrentTextureBuffer->graphicBuffer(),
mCurrentFence);
}
return NO_INIT;
}
void BufferLayerConsumer::getTransformMatrix(float mtx[16]) {
Mutex::Autolock lock(mMutex);
memcpy(mtx, mCurrentTransformMatrix, sizeof(mCurrentTransformMatrix));
}
void BufferLayerConsumer::setFilteringEnabled(bool enabled) {
Mutex::Autolock lock(mMutex);
if (mAbandoned) {
BLC_LOGE("setFilteringEnabled: BufferLayerConsumer is abandoned!");
return;
}
bool needsRecompute = mFilteringEnabled != enabled;
mFilteringEnabled = enabled;
if (needsRecompute && mCurrentTextureBuffer == nullptr) {
BLC_LOGD("setFilteringEnabled called with mCurrentTextureBuffer == nullptr");
}
if (needsRecompute && mCurrentTextureBuffer != nullptr) {
computeCurrentTransformMatrixLocked();
}
}
void BufferLayerConsumer::computeCurrentTransformMatrixLocked() {
BLC_LOGV("computeCurrentTransformMatrixLocked");
if (mCurrentTextureBuffer == nullptr || mCurrentTextureBuffer->graphicBuffer() == nullptr) {
BLC_LOGD("computeCurrentTransformMatrixLocked: "
"mCurrentTextureBuffer is nullptr");
}
GLConsumer::computeTransformMatrix(mCurrentTransformMatrix,
mCurrentTextureBuffer == nullptr
? nullptr
: mCurrentTextureBuffer->graphicBuffer(),
getCurrentCropLocked(), mCurrentTransform,
mFilteringEnabled);
}
nsecs_t BufferLayerConsumer::getTimestamp() {
BLC_LOGV("getTimestamp");
Mutex::Autolock lock(mMutex);
return mCurrentTimestamp;
}
ui::Dataspace BufferLayerConsumer::getCurrentDataSpace() {
BLC_LOGV("getCurrentDataSpace");
Mutex::Autolock lock(mMutex);
return mCurrentDataSpace;
}
const HdrMetadata& BufferLayerConsumer::getCurrentHdrMetadata() const {
BLC_LOGV("getCurrentHdrMetadata");
Mutex::Autolock lock(mMutex);
return mCurrentHdrMetadata;
}
uint64_t BufferLayerConsumer::getFrameNumber() {
BLC_LOGV("getFrameNumber");
Mutex::Autolock lock(mMutex);
return mCurrentFrameNumber;
}
bool BufferLayerConsumer::getTransformToDisplayInverse() const {
Mutex::Autolock lock(mMutex);
return mCurrentTransformToDisplayInverse;
}
const Region& BufferLayerConsumer::getSurfaceDamage() const {
return mCurrentSurfaceDamage;
}
void BufferLayerConsumer::mergeSurfaceDamage(const Region& damage) {
if (damage.bounds() == Rect::INVALID_RECT ||
mCurrentSurfaceDamage.bounds() == Rect::INVALID_RECT) {
mCurrentSurfaceDamage = Region::INVALID_REGION;
} else {
mCurrentSurfaceDamage |= damage;
}
}
int BufferLayerConsumer::getCurrentApi() const {
Mutex::Autolock lock(mMutex);
return mCurrentApi;
}
sp<GraphicBuffer> BufferLayerConsumer::getCurrentBuffer(int* outSlot, sp<Fence>* outFence) const {
Mutex::Autolock lock(mMutex);
if (outSlot != nullptr) {
*outSlot = mCurrentTexture;
}
if (outFence != nullptr) {
*outFence = mCurrentFence;
}
return mCurrentTextureBuffer == nullptr ? nullptr : mCurrentTextureBuffer->graphicBuffer();
}
Rect BufferLayerConsumer::getCurrentCrop() const {
Mutex::Autolock lock(mMutex);
return getCurrentCropLocked();
}
Rect BufferLayerConsumer::getCurrentCropLocked() const {
return (mCurrentScalingMode == NATIVE_WINDOW_SCALING_MODE_SCALE_CROP)
? GLConsumer::scaleDownCrop(mCurrentCrop, mDefaultWidth, mDefaultHeight)
: mCurrentCrop;
}
uint32_t BufferLayerConsumer::getCurrentTransform() const {
Mutex::Autolock lock(mMutex);
return mCurrentTransform;
}
uint32_t BufferLayerConsumer::getCurrentScalingMode() const {
Mutex::Autolock lock(mMutex);
return mCurrentScalingMode;
}
sp<Fence> BufferLayerConsumer::getCurrentFence() const {
Mutex::Autolock lock(mMutex);
return mCurrentFence;
}
std::shared_ptr<FenceTime> BufferLayerConsumer::getCurrentFenceTime() const {
Mutex::Autolock lock(mMutex);
return mCurrentFenceTime;
}
status_t BufferLayerConsumer::doFenceWaitLocked() const {
if (mCurrentFence->isValid()) {
if (mRE.useWaitSync()) {
base::unique_fd fenceFd(mCurrentFence->dup());
if (fenceFd == -1) {
BLC_LOGE("doFenceWait: error dup'ing fence fd: %d", errno);
return -errno;
}
if (!mRE.waitFence(std::move(fenceFd))) {
BLC_LOGE("doFenceWait: failed to wait on fence fd");
return UNKNOWN_ERROR;
}
} else {
status_t err = mCurrentFence->waitForever("BufferLayerConsumer::doFenceWaitLocked");
if (err != NO_ERROR) {
BLC_LOGE("doFenceWait: error waiting for fence: %d", err);
return err;
}
}
}
return NO_ERROR;
}
void BufferLayerConsumer::freeBufferLocked(int slotIndex) {
BLC_LOGV("freeBufferLocked: slotIndex=%d", slotIndex);
std::lock_guard<std::mutex> lock(mImagesMutex);
if (slotIndex == mCurrentTexture) {
mCurrentTexture = BufferQueue::INVALID_BUFFER_SLOT;
}
mImages[slotIndex] = nullptr;
ConsumerBase::freeBufferLocked(slotIndex);
}
void BufferLayerConsumer::onDisconnect() {
sp<Layer> l = mLayer.promote();
if (l.get()) {
l->onDisconnect();
}
}
void BufferLayerConsumer::onSidebandStreamChanged() {
FrameAvailableListener* unsafeFrameAvailableListener = nullptr;
{
Mutex::Autolock lock(mFrameAvailableMutex);
unsafeFrameAvailableListener = mFrameAvailableListener.unsafe_get();
}
sp<ContentsChangedListener> listener;
{ // scope for the lock
Mutex::Autolock lock(mMutex);
ALOG_ASSERT(unsafeFrameAvailableListener == mContentsChangedListener.unsafe_get());
listener = mContentsChangedListener.promote();
}
if (listener != nullptr) {
listener->onSidebandStreamChanged();
}
}
void BufferLayerConsumer::onBufferAvailable(const BufferItem& item) {
if (item.mGraphicBuffer != nullptr && item.mSlot != BufferQueue::INVALID_BUFFER_SLOT) {
std::lock_guard<std::mutex> lock(mImagesMutex);
const std::shared_ptr<Image>& oldImage = mImages[item.mSlot];
if (oldImage == nullptr || oldImage->graphicBuffer() == nullptr ||
oldImage->graphicBuffer()->getId() != item.mGraphicBuffer->getId()) {
mImages[item.mSlot] = std::make_shared<Image>(item.mGraphicBuffer, mRE);
}
}
}
void BufferLayerConsumer::addAndGetFrameTimestamps(const NewFrameEventsEntry* newTimestamps,
FrameEventHistoryDelta* outDelta) {
sp<Layer> l = mLayer.promote();
if (l.get()) {
l->addAndGetFrameTimestamps(newTimestamps, outDelta);
}
}
void BufferLayerConsumer::abandonLocked() {
BLC_LOGV("abandonLocked");
mCurrentTextureBuffer = nullptr;
for (int i = 0; i < BufferQueue::NUM_BUFFER_SLOTS; i++) {
std::lock_guard<std::mutex> lock(mImagesMutex);
mImages[i] = nullptr;
}
ConsumerBase::abandonLocked();
}
status_t BufferLayerConsumer::setConsumerUsageBits(uint64_t usage) {
return ConsumerBase::setConsumerUsageBits(usage | DEFAULT_USAGE_FLAGS);
}
void BufferLayerConsumer::dumpLocked(String8& result, const char* prefix) const {
result.appendFormat("%smTexName=%d mCurrentTexture=%d\n"
"%smCurrentCrop=[%d,%d,%d,%d] mCurrentTransform=%#x\n",
prefix, mTexName, mCurrentTexture, prefix, mCurrentCrop.left,
mCurrentCrop.top, mCurrentCrop.right, mCurrentCrop.bottom,
mCurrentTransform);
ConsumerBase::dumpLocked(result, prefix);
}
BufferLayerConsumer::Image::Image(const sp<GraphicBuffer>& graphicBuffer,
renderengine::RenderEngine& engine)
: mGraphicBuffer(graphicBuffer), mRE(engine) {
mRE.cacheExternalTextureBuffer(mGraphicBuffer);
}
BufferLayerConsumer::Image::~Image() {
if (mGraphicBuffer != nullptr) {
ALOGV("Destroying buffer: %" PRId64, mGraphicBuffer->getId());
mRE.unbindExternalTextureBuffer(mGraphicBuffer->getId());
}
}
}; // namespace android
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