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/*
* Copyright 2014 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.
*/
#define LOG_TAG "BufferQueueCore"
#define ATRACE_TAG ATRACE_TAG_GRAPHICS
//#define LOG_NDEBUG 0
#define EGL_EGLEXT_PROTOTYPES
#if DEBUG_ONLY_CODE
#define VALIDATE_CONSISTENCY() do { validateConsistencyLocked(); } while (0)
#else
#define VALIDATE_CONSISTENCY()
#endif
#include <inttypes.h>
#include <gui/BufferItem.h>
#include <gui/BufferQueueCore.h>
#include <gui/IConsumerListener.h>
#include <gui/IGraphicBufferAlloc.h>
#include <gui/IProducerListener.h>
#include <gui/ISurfaceComposer.h>
#include <private/gui/ComposerService.h>
namespace android {
static String8 getUniqueName() {
static volatile int32_t counter = 0;
return String8::format("unnamed-%d-%d", getpid(),
android_atomic_inc(&counter));
}
BufferQueueCore::BufferQueueCore(const sp<IGraphicBufferAlloc>& allocator) :
mAllocator(allocator),
mMutex(),
mIsAbandoned(false),
mConsumerControlledByApp(false),
mConsumerName(getUniqueName()),
mConsumerListener(),
mConsumerUsageBits(0),
mConnectedApi(NO_CONNECTED_API),
mConnectedProducerListener(),
mSlots(),
mQueue(),
mFreeSlots(),
mFreeBuffers(),
mUnusedSlots(),
mActiveBuffers(),
mDequeueCondition(),
mDequeueBufferCannotBlock(false),
mDefaultBufferFormat(PIXEL_FORMAT_RGBA_8888),
mDefaultWidth(1),
mDefaultHeight(1),
mDefaultBufferDataSpace(HAL_DATASPACE_UNKNOWN),
mMaxBufferCount(BufferQueueDefs::NUM_BUFFER_SLOTS),
mMaxAcquiredBufferCount(1),
mMaxDequeuedBufferCount(1),
mBufferHasBeenQueued(false),
mFrameCounter(0),
mTransformHint(0),
mIsAllocating(false),
mIsAllocatingCondition(),
mAllowAllocation(true),
mBufferAge(0),
mGenerationNumber(0),
mAsyncMode(false),
mSingleBufferMode(false),
mSingleBufferSlot(INVALID_BUFFER_SLOT),
mSingleBufferCache(Rect::INVALID_RECT, 0, NATIVE_WINDOW_SCALING_MODE_FREEZE,
HAL_DATASPACE_UNKNOWN)
{
if (allocator == NULL) {
sp<ISurfaceComposer> composer(ComposerService::getComposerService());
mAllocator = composer->createGraphicBufferAlloc();
if (mAllocator == NULL) {
BQ_LOGE("createGraphicBufferAlloc failed");
}
}
int numStartingBuffers = getMaxBufferCountLocked();
for (int s = 0; s < numStartingBuffers; s++) {
mFreeSlots.insert(s);
}
for (int s = numStartingBuffers; s < BufferQueueDefs::NUM_BUFFER_SLOTS;
s++) {
mUnusedSlots.push_front(s);
}
}
BufferQueueCore::~BufferQueueCore() {}
void BufferQueueCore::dump(String8& result, const char* prefix) const {
Mutex::Autolock lock(mMutex);
String8 fifo;
Fifo::const_iterator current(mQueue.begin());
while (current != mQueue.end()) {
fifo.appendFormat("%02d:%p crop=[%d,%d,%d,%d], "
"xform=0x%02x, time=%#" PRIx64 ", scale=%s\n",
current->mSlot, current->mGraphicBuffer.get(),
current->mCrop.left, current->mCrop.top, current->mCrop.right,
current->mCrop.bottom, current->mTransform, current->mTimestamp,
BufferItem::scalingModeName(current->mScalingMode));
++current;
}
result.appendFormat("%s-BufferQueue mMaxAcquiredBufferCount=%d, "
"mMaxDequeuedBufferCount=%d, mDequeueBufferCannotBlock=%d "
"mAsyncMode=%d, default-size=[%dx%d], default-format=%d, "
"transform-hint=%02x, FIFO(%zu)={%s}\n", prefix,
mMaxAcquiredBufferCount, mMaxDequeuedBufferCount,
mDequeueBufferCannotBlock, mAsyncMode, mDefaultWidth,
mDefaultHeight, mDefaultBufferFormat, mTransformHint, mQueue.size(),
fifo.string());
for (int s : mActiveBuffers) {
const sp<GraphicBuffer>& buffer(mSlots[s].mGraphicBuffer);
result.appendFormat("%s%s[%02d:%p] state=%-8s, %p [%4ux%4u:%4u,%3X]\n",
prefix, (mSlots[s].mBufferState.isAcquired()) ? ">" : " ", s,
buffer.get(), mSlots[s].mBufferState.string(), buffer->handle,
buffer->width, buffer->height, buffer->stride, buffer->format);
}
for (int s : mFreeBuffers) {
const sp<GraphicBuffer>& buffer(mSlots[s].mGraphicBuffer);
result.appendFormat("%s [%02d:%p] state=%-8s, %p [%4ux%4u:%4u,%3X]\n",
prefix, s, buffer.get(), mSlots[s].mBufferState.string(),
buffer->handle, buffer->width, buffer->height, buffer->stride,
buffer->format);
}
for (int s : mFreeSlots) {
const sp<GraphicBuffer>& buffer(mSlots[s].mGraphicBuffer);
result.appendFormat("%s [%02d:%p] state=%-8s\n", prefix, s,
buffer.get(), mSlots[s].mBufferState.string());
}
}
int BufferQueueCore::getMinUndequeuedBufferCountLocked() const {
// If dequeueBuffer is allowed to error out, we don't have to add an
// extra buffer.
if (mAsyncMode || mDequeueBufferCannotBlock) {
return mMaxAcquiredBufferCount + 1;
}
return mMaxAcquiredBufferCount;
}
int BufferQueueCore::getMinMaxBufferCountLocked() const {
return getMinUndequeuedBufferCountLocked() + 1;
}
int BufferQueueCore::getMaxBufferCountLocked(bool asyncMode,
bool dequeueBufferCannotBlock, int maxBufferCount) const {
int maxCount = mMaxAcquiredBufferCount + mMaxDequeuedBufferCount +
((asyncMode || dequeueBufferCannotBlock) ? 1 : 0);
maxCount = std::min(maxBufferCount, maxCount);
return maxCount;
}
int BufferQueueCore::getMaxBufferCountLocked() const {
int maxBufferCount = mMaxAcquiredBufferCount + mMaxDequeuedBufferCount +
((mAsyncMode || mDequeueBufferCannotBlock) ? 1 : 0);
// limit maxBufferCount by mMaxBufferCount always
maxBufferCount = std::min(mMaxBufferCount, maxBufferCount);
return maxBufferCount;
}
void BufferQueueCore::clearBufferSlotLocked(int slot) {
BQ_LOGV("clearBufferSlotLocked: slot %d", slot);
mSlots[slot].mGraphicBuffer.clear();
mSlots[slot].mBufferState.reset();
mSlots[slot].mRequestBufferCalled = false;
mSlots[slot].mFrameNumber = 0;
mSlots[slot].mAcquireCalled = false;
mSlots[slot].mNeedsReallocation = true;
// Destroy fence as BufferQueue now takes ownership
if (mSlots[slot].mEglFence != EGL_NO_SYNC_KHR) {
eglDestroySyncKHR(mSlots[slot].mEglDisplay, mSlots[slot].mEglFence);
mSlots[slot].mEglFence = EGL_NO_SYNC_KHR;
}
mSlots[slot].mFence = Fence::NO_FENCE;
mSlots[slot].mEglDisplay = EGL_NO_DISPLAY;
}
void BufferQueueCore::freeAllBuffersLocked() {
for (int s : mFreeSlots) {
clearBufferSlotLocked(s);
}
for (int s : mFreeBuffers) {
mFreeSlots.insert(s);
clearBufferSlotLocked(s);
}
mFreeBuffers.clear();
for (int s : mActiveBuffers) {
mFreeSlots.insert(s);
clearBufferSlotLocked(s);
}
mActiveBuffers.clear();
for (auto& b : mQueue) {
b.mIsStale = true;
}
VALIDATE_CONSISTENCY();
}
bool BufferQueueCore::adjustAvailableSlotsLocked(int delta) {
if (delta >= 0) {
// If we're going to fail, do so before modifying anything
if (delta > static_cast<int>(mUnusedSlots.size())) {
return false;
}
while (delta > 0) {
if (mUnusedSlots.empty()) {
return false;
}
int slot = mUnusedSlots.back();
mUnusedSlots.pop_back();
mFreeSlots.insert(slot);
delta--;
}
} else {
// If we're going to fail, do so before modifying anything
if (-delta > static_cast<int>(mFreeSlots.size() +
mFreeBuffers.size())) {
return false;
}
while (delta < 0) {
if (!mFreeSlots.empty()) {
auto slot = mFreeSlots.begin();
clearBufferSlotLocked(*slot);
mUnusedSlots.push_back(*slot);
mFreeSlots.erase(slot);
} else if (!mFreeBuffers.empty()) {
int slot = mFreeBuffers.back();
clearBufferSlotLocked(slot);
mUnusedSlots.push_back(slot);
mFreeBuffers.pop_back();
} else {
return false;
}
delta++;
}
}
return true;
}
void BufferQueueCore::waitWhileAllocatingLocked() const {
ATRACE_CALL();
while (mIsAllocating) {
mIsAllocatingCondition.wait(mMutex);
}
}
#if DEBUG_ONLY_CODE
void BufferQueueCore::validateConsistencyLocked() const {
static const useconds_t PAUSE_TIME = 0;
int allocatedSlots = 0;
for (int slot = 0; slot < BufferQueueDefs::NUM_BUFFER_SLOTS; ++slot) {
bool isInFreeSlots = mFreeSlots.count(slot) != 0;
bool isInFreeBuffers =
std::find(mFreeBuffers.cbegin(), mFreeBuffers.cend(), slot) !=
mFreeBuffers.cend();
bool isInActiveBuffers = mActiveBuffers.count(slot) != 0;
bool isInUnusedSlots =
std::find(mUnusedSlots.cbegin(), mUnusedSlots.cend(), slot) !=
mUnusedSlots.cend();
if (isInFreeSlots || isInFreeBuffers || isInActiveBuffers) {
allocatedSlots++;
}
if (isInUnusedSlots) {
if (isInFreeSlots) {
BQ_LOGE("Slot %d is in mUnusedSlots and in mFreeSlots", slot);
usleep(PAUSE_TIME);
}
if (isInFreeBuffers) {
BQ_LOGE("Slot %d is in mUnusedSlots and in mFreeBuffers", slot);
usleep(PAUSE_TIME);
}
if (isInActiveBuffers) {
BQ_LOGE("Slot %d is in mUnusedSlots and in mActiveBuffers",
slot);
usleep(PAUSE_TIME);
}
if (!mSlots[slot].mBufferState.isFree()) {
BQ_LOGE("Slot %d is in mUnusedSlots but is not FREE", slot);
usleep(PAUSE_TIME);
}
if (mSlots[slot].mGraphicBuffer != NULL) {
BQ_LOGE("Slot %d is in mUnusedSluts but has an active buffer",
slot);
usleep(PAUSE_TIME);
}
} else if (isInFreeSlots) {
if (isInUnusedSlots) {
BQ_LOGE("Slot %d is in mFreeSlots and in mUnusedSlots", slot);
usleep(PAUSE_TIME);
}
if (isInFreeBuffers) {
BQ_LOGE("Slot %d is in mFreeSlots and in mFreeBuffers", slot);
usleep(PAUSE_TIME);
}
if (isInActiveBuffers) {
BQ_LOGE("Slot %d is in mFreeSlots and in mActiveBuffers", slot);
usleep(PAUSE_TIME);
}
if (!mSlots[slot].mBufferState.isFree()) {
BQ_LOGE("Slot %d is in mFreeSlots but is not FREE", slot);
usleep(PAUSE_TIME);
}
if (mSlots[slot].mGraphicBuffer != NULL) {
BQ_LOGE("Slot %d is in mFreeSlots but has a buffer",
slot);
usleep(PAUSE_TIME);
}
} else if (isInFreeBuffers) {
if (isInUnusedSlots) {
BQ_LOGE("Slot %d is in mFreeBuffers and in mUnusedSlots", slot);
usleep(PAUSE_TIME);
}
if (isInFreeSlots) {
BQ_LOGE("Slot %d is in mFreeBuffers and in mFreeSlots", slot);
usleep(PAUSE_TIME);
}
if (isInActiveBuffers) {
BQ_LOGE("Slot %d is in mFreeBuffers and in mActiveBuffers",
slot);
usleep(PAUSE_TIME);
}
if (!mSlots[slot].mBufferState.isFree()) {
BQ_LOGE("Slot %d is in mFreeBuffers but is not FREE", slot);
usleep(PAUSE_TIME);
}
if (mSlots[slot].mGraphicBuffer == NULL) {
BQ_LOGE("Slot %d is in mFreeBuffers but has no buffer", slot);
usleep(PAUSE_TIME);
}
} else if (isInActiveBuffers) {
if (isInUnusedSlots) {
BQ_LOGE("Slot %d is in mActiveBuffers and in mUnusedSlots",
slot);
usleep(PAUSE_TIME);
}
if (isInFreeSlots) {
BQ_LOGE("Slot %d is in mActiveBuffers and in mFreeSlots", slot);
usleep(PAUSE_TIME);
}
if (isInFreeBuffers) {
BQ_LOGE("Slot %d is in mActiveBuffers and in mFreeBuffers",
slot);
usleep(PAUSE_TIME);
}
if (mSlots[slot].mBufferState.isFree() &&
!mSlots[slot].mBufferState.isShared()) {
BQ_LOGE("Slot %d is in mActiveBuffers but is FREE", slot);
usleep(PAUSE_TIME);
}
if (mSlots[slot].mGraphicBuffer == NULL && !mIsAllocating) {
BQ_LOGE("Slot %d is in mActiveBuffers but has no buffer", slot);
usleep(PAUSE_TIME);
}
} else {
BQ_LOGE("Slot %d isn't in any of mUnusedSlots, mFreeSlots, "
"mFreeBuffers, or mActiveBuffers", slot);
usleep(PAUSE_TIME);
}
}
if (allocatedSlots != getMaxBufferCountLocked()) {
BQ_LOGE("Number of allocated slots is incorrect. Allocated = %d, "
"Should be %d (%zu free slots, %zu free buffers, "
"%zu activeBuffers, %zu unusedSlots)", allocatedSlots,
getMaxBufferCountLocked(), mFreeSlots.size(),
mFreeBuffers.size(), mActiveBuffers.size(),
mUnusedSlots.size());
}
}
#endif
} // namespace android