/* * Copyright (C) 2017 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_NDEBUG 0 #define LOG_TAG "SimpleC2Component" #include #include #include #include #include #include #include #include namespace android { std::unique_ptr SimpleC2Component::WorkQueue::pop_front() { std::unique_ptr work = std::move(mQueue.front().work); mQueue.pop_front(); return work; } void SimpleC2Component::WorkQueue::push_back(std::unique_ptr work) { mQueue.push_back({ std::move(work), NO_DRAIN }); } bool SimpleC2Component::WorkQueue::empty() const { return mQueue.empty(); } void SimpleC2Component::WorkQueue::clear() { mQueue.clear(); } uint32_t SimpleC2Component::WorkQueue::drainMode() const { return mQueue.front().drainMode; } void SimpleC2Component::WorkQueue::markDrain(uint32_t drainMode) { mQueue.push_back({ nullptr, drainMode }); } //////////////////////////////////////////////////////////////////////////////// SimpleC2Component::WorkHandler::WorkHandler() : mRunning(false) {} void SimpleC2Component::WorkHandler::setComponent( const std::shared_ptr &thiz) { mThiz = thiz; } static void Reply(const sp &msg, int32_t *err = nullptr) { sp replyId; CHECK(msg->senderAwaitsResponse(&replyId)); sp reply = new AMessage; if (err) { reply->setInt32("err", *err); } reply->postReply(replyId); } void SimpleC2Component::WorkHandler::onMessageReceived(const sp &msg) { std::shared_ptr thiz = mThiz.lock(); if (!thiz) { ALOGD("component not yet set; msg = %s", msg->debugString().c_str()); sp replyId; if (msg->senderAwaitsResponse(&replyId)) { sp reply = new AMessage; reply->setInt32("err", C2_CORRUPTED); reply->postReply(replyId); } return; } switch (msg->what()) { case kWhatProcess: { if (mRunning) { if (thiz->processQueue()) { (new AMessage(kWhatProcess, this))->post(); } } else { ALOGV("Ignore process message as we're not running"); } break; } case kWhatInit: { int32_t err = thiz->onInit(); Reply(msg, &err); [[fallthrough]]; } case kWhatStart: { mRunning = true; break; } case kWhatStop: { int32_t err = thiz->onStop(); Reply(msg, &err); break; } case kWhatReset: { thiz->onReset(); mRunning = false; Reply(msg); break; } case kWhatRelease: { thiz->onRelease(); mRunning = false; Reply(msg); break; } default: { ALOGD("Unrecognized msg: %d", msg->what()); break; } } } class SimpleC2Component::BlockingBlockPool : public C2BlockPool { public: BlockingBlockPool(const std::shared_ptr& base): mBase{base} {} virtual local_id_t getLocalId() const override { return mBase->getLocalId(); } virtual C2Allocator::id_t getAllocatorId() const override { return mBase->getAllocatorId(); } virtual c2_status_t fetchLinearBlock( uint32_t capacity, C2MemoryUsage usage, std::shared_ptr* block) { c2_status_t status; do { status = mBase->fetchLinearBlock(capacity, usage, block); } while (status == C2_BLOCKING); return status; } virtual c2_status_t fetchCircularBlock( uint32_t capacity, C2MemoryUsage usage, std::shared_ptr* block) { c2_status_t status; do { status = mBase->fetchCircularBlock(capacity, usage, block); } while (status == C2_BLOCKING); return status; } virtual c2_status_t fetchGraphicBlock( uint32_t width, uint32_t height, uint32_t format, C2MemoryUsage usage, std::shared_ptr* block) { c2_status_t status; do { status = mBase->fetchGraphicBlock(width, height, format, usage, block); } while (status == C2_BLOCKING); return status; } private: std::shared_ptr mBase; }; //////////////////////////////////////////////////////////////////////////////// namespace { struct DummyReadView : public C2ReadView { DummyReadView() : C2ReadView(C2_NO_INIT) {} }; } // namespace SimpleC2Component::SimpleC2Component( const std::shared_ptr &intf) : mDummyReadView(DummyReadView()), mIntf(intf), mLooper(new ALooper), mHandler(new WorkHandler) { mLooper->setName(intf->getName().c_str()); (void)mLooper->registerHandler(mHandler); mLooper->start(false, false, ANDROID_PRIORITY_VIDEO); } SimpleC2Component::~SimpleC2Component() { mLooper->unregisterHandler(mHandler->id()); (void)mLooper->stop(); } c2_status_t SimpleC2Component::setListener_vb( const std::shared_ptr &listener, c2_blocking_t mayBlock) { mHandler->setComponent(shared_from_this()); Mutexed::Locked state(mExecState); if (state->mState == RUNNING) { if (listener) { return C2_BAD_STATE; } else if (!mayBlock) { return C2_BLOCKING; } } state->mListener = listener; // TODO: wait for listener change to have taken place before returning // (e.g. if there is an ongoing listener callback) return C2_OK; } c2_status_t SimpleC2Component::queue_nb(std::list> * const items) { { Mutexed::Locked state(mExecState); if (state->mState != RUNNING) { return C2_BAD_STATE; } } bool queueWasEmpty = false; { Mutexed::Locked queue(mWorkQueue); queueWasEmpty = queue->empty(); while (!items->empty()) { queue->push_back(std::move(items->front())); items->pop_front(); } } if (queueWasEmpty) { (new AMessage(WorkHandler::kWhatProcess, mHandler))->post(); } return C2_OK; } c2_status_t SimpleC2Component::announce_nb(const std::vector &items) { (void)items; return C2_OMITTED; } c2_status_t SimpleC2Component::flush_sm( flush_mode_t flushMode, std::list>* const flushedWork) { (void)flushMode; { Mutexed::Locked state(mExecState); if (state->mState != RUNNING) { return C2_BAD_STATE; } } { Mutexed::Locked queue(mWorkQueue); queue->incGeneration(); // TODO: queue->splicedBy(flushedWork, flushedWork->end()); while (!queue->empty()) { std::unique_ptr work = queue->pop_front(); if (work) { flushedWork->push_back(std::move(work)); } } while (!queue->pending().empty()) { flushedWork->push_back(std::move(queue->pending().begin()->second)); queue->pending().erase(queue->pending().begin()); } } return C2_OK; } c2_status_t SimpleC2Component::drain_nb(drain_mode_t drainMode) { if (drainMode == DRAIN_CHAIN) { return C2_OMITTED; } { Mutexed::Locked state(mExecState); if (state->mState != RUNNING) { return C2_BAD_STATE; } } bool queueWasEmpty = false; { Mutexed::Locked queue(mWorkQueue); queueWasEmpty = queue->empty(); queue->markDrain(drainMode); } if (queueWasEmpty) { (new AMessage(WorkHandler::kWhatProcess, mHandler))->post(); } return C2_OK; } c2_status_t SimpleC2Component::start() { Mutexed::Locked state(mExecState); if (state->mState == RUNNING) { return C2_BAD_STATE; } bool needsInit = (state->mState == UNINITIALIZED); state.unlock(); if (needsInit) { sp reply; (new AMessage(WorkHandler::kWhatInit, mHandler))->postAndAwaitResponse(&reply); int32_t err; CHECK(reply->findInt32("err", &err)); if (err != C2_OK) { return (c2_status_t)err; } } else { (new AMessage(WorkHandler::kWhatStart, mHandler))->post(); } state.lock(); state->mState = RUNNING; return C2_OK; } c2_status_t SimpleC2Component::stop() { ALOGV("stop"); { Mutexed::Locked state(mExecState); if (state->mState != RUNNING) { return C2_BAD_STATE; } state->mState = STOPPED; } { Mutexed::Locked queue(mWorkQueue); queue->clear(); queue->pending().clear(); } sp reply; (new AMessage(WorkHandler::kWhatStop, mHandler))->postAndAwaitResponse(&reply); int32_t err; CHECK(reply->findInt32("err", &err)); if (err != C2_OK) { return (c2_status_t)err; } return C2_OK; } c2_status_t SimpleC2Component::reset() { ALOGV("reset"); { Mutexed::Locked state(mExecState); state->mState = UNINITIALIZED; } { Mutexed::Locked queue(mWorkQueue); queue->clear(); queue->pending().clear(); } sp reply; (new AMessage(WorkHandler::kWhatReset, mHandler))->postAndAwaitResponse(&reply); return C2_OK; } c2_status_t SimpleC2Component::release() { ALOGV("release"); sp reply; (new AMessage(WorkHandler::kWhatRelease, mHandler))->postAndAwaitResponse(&reply); return C2_OK; } std::shared_ptr SimpleC2Component::intf() { return mIntf; } namespace { std::list> vec(std::unique_ptr &work) { std::list> ret; ret.push_back(std::move(work)); return ret; } } // namespace void SimpleC2Component::finish( uint64_t frameIndex, std::function &)> fillWork) { std::unique_ptr work; { Mutexed::Locked queue(mWorkQueue); if (queue->pending().count(frameIndex) == 0) { ALOGW("unknown frame index: %" PRIu64, frameIndex); return; } work = std::move(queue->pending().at(frameIndex)); queue->pending().erase(frameIndex); } if (work) { fillWork(work); std::shared_ptr listener = mExecState.lock()->mListener; listener->onWorkDone_nb(shared_from_this(), vec(work)); ALOGV("returning pending work"); } } void SimpleC2Component::cloneAndSend( uint64_t frameIndex, const std::unique_ptr ¤tWork, std::function &)> fillWork) { std::unique_ptr work(new C2Work); if (currentWork->input.ordinal.frameIndex == frameIndex) { work->input.flags = currentWork->input.flags; work->input.ordinal = currentWork->input.ordinal; } else { Mutexed::Locked queue(mWorkQueue); if (queue->pending().count(frameIndex) == 0) { ALOGW("unknown frame index: %" PRIu64, frameIndex); return; } work->input.flags = queue->pending().at(frameIndex)->input.flags; work->input.ordinal = queue->pending().at(frameIndex)->input.ordinal; } work->worklets.emplace_back(new C2Worklet); if (work) { fillWork(work); std::shared_ptr listener = mExecState.lock()->mListener; listener->onWorkDone_nb(shared_from_this(), vec(work)); ALOGV("cloned and sending work"); } } bool SimpleC2Component::processQueue() { std::unique_ptr work; uint64_t generation; int32_t drainMode; bool isFlushPending = false; bool hasQueuedWork = false; { Mutexed::Locked queue(mWorkQueue); if (queue->empty()) { return false; } generation = queue->generation(); drainMode = queue->drainMode(); isFlushPending = queue->popPendingFlush(); work = queue->pop_front(); hasQueuedWork = !queue->empty(); } if (isFlushPending) { ALOGV("processing pending flush"); c2_status_t err = onFlush_sm(); if (err != C2_OK) { ALOGD("flush err: %d", err); // TODO: error } } if (!mOutputBlockPool) { c2_status_t err = [this] { // TODO: don't use query_vb C2StreamBufferTypeSetting::output outputFormat(0u); std::vector> params; c2_status_t err = intf()->query_vb( { &outputFormat }, { C2PortBlockPoolsTuning::output::PARAM_TYPE }, C2_DONT_BLOCK, ¶ms); if (err != C2_OK && err != C2_BAD_INDEX) { ALOGD("query err = %d", err); return err; } C2BlockPool::local_id_t poolId = outputFormat.value == C2BufferData::GRAPHIC ? C2BlockPool::BASIC_GRAPHIC : C2BlockPool::BASIC_LINEAR; if (params.size()) { C2PortBlockPoolsTuning::output *outputPools = C2PortBlockPoolsTuning::output::From(params[0].get()); if (outputPools && outputPools->flexCount() >= 1) { poolId = outputPools->m.values[0]; } } std::shared_ptr blockPool; err = GetCodec2BlockPool(poolId, shared_from_this(), &blockPool); ALOGD("Using output block pool with poolID %llu => got %llu - %d", (unsigned long long)poolId, (unsigned long long)( blockPool ? blockPool->getLocalId() : 111000111), err); if (err == C2_OK) { mOutputBlockPool = std::make_shared(blockPool); } return err; }(); if (err != C2_OK) { Mutexed::Locked state(mExecState); std::shared_ptr listener = state->mListener; state.unlock(); listener->onError_nb(shared_from_this(), err); return hasQueuedWork; } } if (!work) { c2_status_t err = drain(drainMode, mOutputBlockPool); if (err != C2_OK) { Mutexed::Locked state(mExecState); std::shared_ptr listener = state->mListener; state.unlock(); listener->onError_nb(shared_from_this(), err); } return hasQueuedWork; } { std::vector updates; for (const std::unique_ptr ¶m: work->input.configUpdate) { if (param) { updates.emplace_back(param.get()); } } if (!updates.empty()) { std::vector> failures; c2_status_t err = intf()->config_vb(updates, C2_MAY_BLOCK, &failures); ALOGD("applied %zu configUpdates => %s (%d)", updates.size(), asString(err), err); } } ALOGV("start processing frame #%" PRIu64, work->input.ordinal.frameIndex.peeku()); // If input buffer list is not empty, it means we have some input to process on. // However, input could be a null buffer. In such case, clear the buffer list // before making call to process(). if (!work->input.buffers.empty() && !work->input.buffers[0]) { ALOGD("Encountered null input buffer. Clearing the input buffer"); work->input.buffers.clear(); } process(work, mOutputBlockPool); ALOGV("processed frame #%" PRIu64, work->input.ordinal.frameIndex.peeku()); Mutexed::Locked queue(mWorkQueue); if (queue->generation() != generation) { ALOGD("work form old generation: was %" PRIu64 " now %" PRIu64, queue->generation(), generation); work->result = C2_NOT_FOUND; queue.unlock(); Mutexed::Locked state(mExecState); std::shared_ptr listener = state->mListener; state.unlock(); listener->onWorkDone_nb(shared_from_this(), vec(work)); return hasQueuedWork; } if (work->workletsProcessed != 0u) { queue.unlock(); Mutexed::Locked state(mExecState); ALOGV("returning this work"); std::shared_ptr listener = state->mListener; state.unlock(); listener->onWorkDone_nb(shared_from_this(), vec(work)); } else { ALOGV("queue pending work"); work->input.buffers.clear(); std::unique_ptr unexpected; uint64_t frameIndex = work->input.ordinal.frameIndex.peeku(); if (queue->pending().count(frameIndex) != 0) { unexpected = std::move(queue->pending().at(frameIndex)); queue->pending().erase(frameIndex); } (void)queue->pending().insert({ frameIndex, std::move(work) }); queue.unlock(); if (unexpected) { ALOGD("unexpected pending work"); unexpected->result = C2_CORRUPTED; Mutexed::Locked state(mExecState); std::shared_ptr listener = state->mListener; state.unlock(); listener->onWorkDone_nb(shared_from_this(), vec(unexpected)); } } return hasQueuedWork; } std::shared_ptr SimpleC2Component::createLinearBuffer( const std::shared_ptr &block) { return createLinearBuffer(block, block->offset(), block->size()); } std::shared_ptr SimpleC2Component::createLinearBuffer( const std::shared_ptr &block, size_t offset, size_t size) { return C2Buffer::CreateLinearBuffer(block->share(offset, size, ::C2Fence())); } std::shared_ptr SimpleC2Component::createGraphicBuffer( const std::shared_ptr &block) { return createGraphicBuffer(block, C2Rect(block->width(), block->height())); } std::shared_ptr SimpleC2Component::createGraphicBuffer( const std::shared_ptr &block, const C2Rect &crop) { return C2Buffer::CreateGraphicBuffer(block->share(crop, ::C2Fence())); } } // namespace android