c0a9164e9e
Also added a very simple SharedBufferStack unit test. Change-Id: I253dbbe98a53c966b78d22d4d6dd59f8aefc8c40
522 lines
15 KiB
C++
522 lines
15 KiB
C++
/*
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* Copyright (C) 2007 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#define LOG_TAG "SharedBufferStack"
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#include <stdint.h>
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#include <sys/types.h>
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#include <utils/Debug.h>
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#include <utils/Log.h>
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#include <utils/threads.h>
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#include <private/surfaceflinger/SharedBufferStack.h>
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#include <ui/Rect.h>
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#include <ui/Region.h>
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#define DEBUG_ATOMICS 0
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namespace android {
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// ----------------------------------------------------------------------------
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SharedClient::SharedClient()
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: lock(Mutex::SHARED), cv(Condition::SHARED)
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{
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}
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SharedClient::~SharedClient() {
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}
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// these functions are used by the clients
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status_t SharedClient::validate(size_t i) const {
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if (uint32_t(i) >= uint32_t(NUM_LAYERS_MAX))
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return BAD_INDEX;
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return surfaces[i].status;
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}
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uint32_t SharedClient::getIdentity(size_t token) const {
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return uint32_t(surfaces[token].identity);
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}
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// ----------------------------------------------------------------------------
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SharedBufferStack::SharedBufferStack()
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{
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}
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void SharedBufferStack::init(int32_t i)
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{
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inUse = -1;
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status = NO_ERROR;
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identity = i;
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}
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status_t SharedBufferStack::setCrop(int buffer, const Rect& crop)
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{
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if (uint32_t(buffer) >= NUM_BUFFER_MAX)
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return BAD_INDEX;
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buffers[buffer].crop.l = uint16_t(crop.left);
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buffers[buffer].crop.t = uint16_t(crop.top);
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buffers[buffer].crop.r = uint16_t(crop.right);
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buffers[buffer].crop.b = uint16_t(crop.bottom);
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return NO_ERROR;
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}
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status_t SharedBufferStack::setDirtyRegion(int buffer, const Region& dirty)
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{
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if (uint32_t(buffer) >= NUM_BUFFER_MAX)
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return BAD_INDEX;
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FlatRegion& reg(buffers[buffer].dirtyRegion);
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if (dirty.isEmpty()) {
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reg.count = 0;
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return NO_ERROR;
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}
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size_t count;
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Rect const* r = dirty.getArray(&count);
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if (count > FlatRegion::NUM_RECT_MAX) {
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const Rect bounds(dirty.getBounds());
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reg.count = 1;
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reg.rects[0].l = uint16_t(bounds.left);
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reg.rects[0].t = uint16_t(bounds.top);
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reg.rects[0].r = uint16_t(bounds.right);
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reg.rects[0].b = uint16_t(bounds.bottom);
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} else {
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reg.count = count;
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for (size_t i=0 ; i<count ; i++) {
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reg.rects[i].l = uint16_t(r[i].left);
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reg.rects[i].t = uint16_t(r[i].top);
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reg.rects[i].r = uint16_t(r[i].right);
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reg.rects[i].b = uint16_t(r[i].bottom);
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}
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}
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return NO_ERROR;
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}
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Region SharedBufferStack::getDirtyRegion(int buffer) const
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{
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Region res;
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if (uint32_t(buffer) >= NUM_BUFFER_MAX)
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return res;
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const FlatRegion& reg(buffers[buffer].dirtyRegion);
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if (reg.count > FlatRegion::NUM_RECT_MAX)
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return res;
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if (reg.count == 1) {
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const Rect r(
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reg.rects[0].l,
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reg.rects[0].t,
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reg.rects[0].r,
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reg.rects[0].b);
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res.set(r);
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} else {
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for (size_t i=0 ; i<reg.count ; i++) {
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const Rect r(
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reg.rects[i].l,
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reg.rects[i].t,
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reg.rects[i].r,
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reg.rects[i].b);
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res.orSelf(r);
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}
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}
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return res;
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}
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// ----------------------------------------------------------------------------
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SharedBufferBase::SharedBufferBase(SharedClient* sharedClient,
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int surface, int num, int32_t identity)
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: mSharedClient(sharedClient),
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mSharedStack(sharedClient->surfaces + surface),
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mNumBuffers(num), mIdentity(identity)
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{
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}
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SharedBufferBase::~SharedBufferBase()
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{
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}
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uint32_t SharedBufferBase::getIdentity()
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{
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SharedBufferStack& stack( *mSharedStack );
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return stack.identity;
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}
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status_t SharedBufferBase::getStatus() const
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{
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SharedBufferStack& stack( *mSharedStack );
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return stack.status;
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}
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size_t SharedBufferBase::getFrontBuffer() const
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{
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SharedBufferStack& stack( *mSharedStack );
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return size_t( stack.head );
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}
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String8 SharedBufferBase::dump(char const* prefix) const
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{
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const size_t SIZE = 1024;
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char buffer[SIZE];
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String8 result;
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SharedBufferStack& stack( *mSharedStack );
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int tail = computeTail();
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snprintf(buffer, SIZE,
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"%s[ head=%2d, available=%2d, queued=%2d, tail=%2d ] "
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"reallocMask=%08x, inUse=%2d, identity=%d, status=%d\n",
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prefix, stack.head, stack.available, stack.queued, tail,
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stack.reallocMask, stack.inUse, stack.identity, stack.status);
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result.append(buffer);
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return result;
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}
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int32_t SharedBufferBase::computeTail() const
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{
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SharedBufferStack& stack( *mSharedStack );
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return (mNumBuffers + stack.head - stack.available + 1) % mNumBuffers;
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}
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status_t SharedBufferBase::waitForCondition(const ConditionBase& condition)
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{
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const SharedBufferStack& stack( *mSharedStack );
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SharedClient& client( *mSharedClient );
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const nsecs_t TIMEOUT = s2ns(1);
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const int identity = mIdentity;
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Mutex::Autolock _l(client.lock);
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while ((condition()==false) &&
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(stack.identity == identity) &&
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(stack.status == NO_ERROR))
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{
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status_t err = client.cv.waitRelative(client.lock, TIMEOUT);
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// handle errors and timeouts
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if (CC_UNLIKELY(err != NO_ERROR)) {
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if (err == TIMED_OUT) {
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if (condition()) {
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LOGE("waitForCondition(%s) timed out (identity=%d), "
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"but condition is true! We recovered but it "
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"shouldn't happen." , condition.name(), stack.identity);
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break;
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} else {
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LOGW("waitForCondition(%s) timed out "
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"(identity=%d, status=%d). "
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"CPU may be pegged. trying again.", condition.name(),
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stack.identity, stack.status);
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}
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} else {
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LOGE("waitForCondition(%s) error (%s) ",
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condition.name(), strerror(-err));
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return err;
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}
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}
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}
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return (stack.identity != mIdentity) ? status_t(BAD_INDEX) : stack.status;
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}
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// ============================================================================
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// conditions and updates
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// ============================================================================
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SharedBufferClient::DequeueCondition::DequeueCondition(
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SharedBufferClient* sbc) : ConditionBase(sbc) {
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}
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bool SharedBufferClient::DequeueCondition::operator()() const {
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return stack.available > 0;
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}
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SharedBufferClient::LockCondition::LockCondition(
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SharedBufferClient* sbc, int buf) : ConditionBase(sbc), buf(buf) {
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}
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bool SharedBufferClient::LockCondition::operator()() const {
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return (buf != stack.index[stack.head] ||
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(stack.queued > 0 && stack.inUse != buf));
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}
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SharedBufferServer::ReallocateCondition::ReallocateCondition(
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SharedBufferBase* sbb, int buf) : ConditionBase(sbb), buf(buf) {
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}
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bool SharedBufferServer::ReallocateCondition::operator()() const {
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// TODO: we should also check that buf has been dequeued
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return (buf != stack.index[stack.head]);
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}
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// ----------------------------------------------------------------------------
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SharedBufferClient::QueueUpdate::QueueUpdate(SharedBufferBase* sbb)
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: UpdateBase(sbb) {
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}
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ssize_t SharedBufferClient::QueueUpdate::operator()() {
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android_atomic_inc(&stack.queued);
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return NO_ERROR;
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}
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SharedBufferClient::UndoDequeueUpdate::UndoDequeueUpdate(SharedBufferBase* sbb)
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: UpdateBase(sbb) {
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}
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ssize_t SharedBufferClient::UndoDequeueUpdate::operator()() {
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android_atomic_inc(&stack.available);
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return NO_ERROR;
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}
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SharedBufferServer::UnlockUpdate::UnlockUpdate(
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SharedBufferBase* sbb, int lockedBuffer)
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: UpdateBase(sbb), lockedBuffer(lockedBuffer) {
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}
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ssize_t SharedBufferServer::UnlockUpdate::operator()() {
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if (stack.inUse != lockedBuffer) {
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LOGE("unlocking %d, but currently locked buffer is %d",
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lockedBuffer, stack.inUse);
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return BAD_VALUE;
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}
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android_atomic_write(-1, &stack.inUse);
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return NO_ERROR;
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}
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SharedBufferServer::RetireUpdate::RetireUpdate(
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SharedBufferBase* sbb, int numBuffers)
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: UpdateBase(sbb), numBuffers(numBuffers) {
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}
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ssize_t SharedBufferServer::RetireUpdate::operator()() {
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// head is only written in this function, which is single-thread.
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int32_t head = stack.head;
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// Preventively lock the current buffer before updating queued.
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android_atomic_write(stack.index[head], &stack.inUse);
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// Decrement the number of queued buffers
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int32_t queued;
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do {
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queued = stack.queued;
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if (queued == 0) {
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return NOT_ENOUGH_DATA;
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}
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} while (android_atomic_cmpxchg(queued, queued-1, &stack.queued));
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// update the head pointer
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head = ((head+1 >= numBuffers) ? 0 : head+1);
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// lock the buffer before advancing head, which automatically unlocks
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// the buffer we preventively locked upon entering this function
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android_atomic_write(stack.index[head], &stack.inUse);
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// advance head
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android_atomic_write(head, &stack.head);
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// now that head has moved, we can increment the number of available buffers
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android_atomic_inc(&stack.available);
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return head;
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}
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SharedBufferServer::StatusUpdate::StatusUpdate(
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SharedBufferBase* sbb, status_t status)
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: UpdateBase(sbb), status(status) {
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}
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ssize_t SharedBufferServer::StatusUpdate::operator()() {
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android_atomic_write(status, &stack.status);
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return NO_ERROR;
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}
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// ============================================================================
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SharedBufferClient::SharedBufferClient(SharedClient* sharedClient,
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int surface, int num, int32_t identity)
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: SharedBufferBase(sharedClient, surface, num, identity),
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tail(0), undoDequeueTail(0)
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{
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SharedBufferStack& stack( *mSharedStack );
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tail = computeTail();
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queued_head = stack.head;
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}
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ssize_t SharedBufferClient::dequeue()
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{
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SharedBufferStack& stack( *mSharedStack );
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if (stack.head == tail && stack.available == mNumBuffers) {
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LOGW("dequeue: tail=%d, head=%d, avail=%d, queued=%d",
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tail, stack.head, stack.available, stack.queued);
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}
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const nsecs_t dequeueTime = systemTime(SYSTEM_TIME_THREAD);
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//LOGD("[%d] about to dequeue a buffer",
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// mSharedStack->identity);
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DequeueCondition condition(this);
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status_t err = waitForCondition(condition);
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if (err != NO_ERROR)
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return ssize_t(err);
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// NOTE: 'stack.available' is part of the conditions, however
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// decrementing it, never changes any conditions, so we don't need
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// to do this as part of an update.
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if (android_atomic_dec(&stack.available) == 0) {
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LOGW("dequeue probably called from multiple threads!");
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}
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undoDequeueTail = tail;
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int dequeued = stack.index[tail];
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tail = ((tail+1 >= mNumBuffers) ? 0 : tail+1);
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LOGD_IF(DEBUG_ATOMICS, "dequeued=%d, tail++=%d, %s",
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dequeued, tail, dump("").string());
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mDequeueTime[dequeued] = dequeueTime;
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return dequeued;
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}
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status_t SharedBufferClient::undoDequeue(int buf)
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{
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// TODO: we can only undo the previous dequeue, we should
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// enforce that in the api
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UndoDequeueUpdate update(this);
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status_t err = updateCondition( update );
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if (err == NO_ERROR) {
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tail = undoDequeueTail;
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}
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return err;
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}
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status_t SharedBufferClient::lock(int buf)
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{
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SharedBufferStack& stack( *mSharedStack );
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LockCondition condition(this, buf);
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status_t err = waitForCondition(condition);
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return err;
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}
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status_t SharedBufferClient::queue(int buf)
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{
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SharedBufferStack& stack( *mSharedStack );
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queued_head = ((queued_head+1 >= mNumBuffers) ? 0 : queued_head+1);
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stack.index[queued_head] = buf;
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QueueUpdate update(this);
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status_t err = updateCondition( update );
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LOGD_IF(DEBUG_ATOMICS, "queued=%d, %s", buf, dump("").string());
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const nsecs_t now = systemTime(SYSTEM_TIME_THREAD);
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stack.stats.totalTime = ns2us(now - mDequeueTime[buf]);
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return err;
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}
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bool SharedBufferClient::needNewBuffer(int buf) const
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{
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SharedBufferStack& stack( *mSharedStack );
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const uint32_t mask = 1<<buf;
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return (android_atomic_and(~mask, &stack.reallocMask) & mask) != 0;
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}
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status_t SharedBufferClient::setCrop(int buf, const Rect& crop)
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{
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SharedBufferStack& stack( *mSharedStack );
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return stack.setCrop(buf, crop);
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}
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status_t SharedBufferClient::setDirtyRegion(int buf, const Region& reg)
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{
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SharedBufferStack& stack( *mSharedStack );
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return stack.setDirtyRegion(buf, reg);
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}
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// ----------------------------------------------------------------------------
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SharedBufferServer::SharedBufferServer(SharedClient* sharedClient,
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int surface, int num, int32_t identity)
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: SharedBufferBase(sharedClient, surface, num, identity)
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{
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mSharedStack->init(identity);
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mSharedStack->head = num-1;
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mSharedStack->available = num;
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mSharedStack->queued = 0;
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mSharedStack->reallocMask = 0;
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memset(mSharedStack->buffers, 0, sizeof(mSharedStack->buffers));
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for (int i=0 ; i<num ; i++) {
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mSharedStack->index[i] = i;
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}
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}
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ssize_t SharedBufferServer::retireAndLock()
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{
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RetireUpdate update(this, mNumBuffers);
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ssize_t buf = updateCondition( update );
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if (buf >= 0) {
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SharedBufferStack& stack( *mSharedStack );
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buf = stack.index[buf];
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LOGD_IF(DEBUG_ATOMICS && buf>=0, "retire=%d, %s",
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int(buf), dump("").string());
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}
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return buf;
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}
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status_t SharedBufferServer::unlock(int buf)
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{
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UnlockUpdate update(this, buf);
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status_t err = updateCondition( update );
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return err;
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}
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void SharedBufferServer::setStatus(status_t status)
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{
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if (status < NO_ERROR) {
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StatusUpdate update(this, status);
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updateCondition( update );
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}
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}
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status_t SharedBufferServer::reallocate()
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{
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SharedBufferStack& stack( *mSharedStack );
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uint32_t mask = (1<<mNumBuffers)-1;
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android_atomic_or(mask, &stack.reallocMask);
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return NO_ERROR;
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}
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int32_t SharedBufferServer::getQueuedCount() const
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{
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SharedBufferStack& stack( *mSharedStack );
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return stack.queued;
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}
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status_t SharedBufferServer::assertReallocate(int buf)
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{
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ReallocateCondition condition(this, buf);
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status_t err = waitForCondition(condition);
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return err;
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}
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Region SharedBufferServer::getDirtyRegion(int buf) const
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{
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SharedBufferStack& stack( *mSharedStack );
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return stack.getDirtyRegion(buf);
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}
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SharedBufferStack::Statistics SharedBufferServer::getStats() const
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{
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SharedBufferStack& stack( *mSharedStack );
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return stack.stats;
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}
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// ---------------------------------------------------------------------------
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}; // namespace android
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