/* * Copyright (C) 2013-2018 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 "Camera3-OutputStream" #define ATRACE_TAG ATRACE_TAG_CAMERA //#define LOG_NDEBUG 0 #include #include #include "Camera3OutputStream.h" #ifndef container_of #define container_of(ptr, type, member) \ (type *)((char*)(ptr) - offsetof(type, member)) #endif namespace android { namespace camera3 { Camera3OutputStream::Camera3OutputStream(int id, sp consumer, uint32_t width, uint32_t height, int format, android_dataspace dataSpace, camera3_stream_rotation_t rotation, nsecs_t timestampOffset, const String8& physicalCameraId, int setId) : Camera3IOStreamBase(id, CAMERA3_STREAM_OUTPUT, width, height, /*maxSize*/0, format, dataSpace, rotation, physicalCameraId, setId), mConsumer(consumer), mTransform(0), mTraceFirstBuffer(true), mUseBufferManager(false), mTimestampOffset(timestampOffset), mConsumerUsage(0), mDropBuffers(false), mDequeueBufferLatency(kDequeueLatencyBinSize) { if (mConsumer == NULL) { ALOGE("%s: Consumer is NULL!", __FUNCTION__); mState = STATE_ERROR; } bool needsReleaseNotify = setId > CAMERA3_STREAM_SET_ID_INVALID; mBufferProducerListener = new BufferProducerListener(this, needsReleaseNotify); } Camera3OutputStream::Camera3OutputStream(int id, sp consumer, uint32_t width, uint32_t height, size_t maxSize, int format, android_dataspace dataSpace, camera3_stream_rotation_t rotation, nsecs_t timestampOffset, const String8& physicalCameraId, int setId) : Camera3IOStreamBase(id, CAMERA3_STREAM_OUTPUT, width, height, maxSize, format, dataSpace, rotation, physicalCameraId, setId), mConsumer(consumer), mTransform(0), mTraceFirstBuffer(true), mUseMonoTimestamp(false), mUseBufferManager(false), mTimestampOffset(timestampOffset), mConsumerUsage(0), mDropBuffers(false), mDequeueBufferLatency(kDequeueLatencyBinSize) { if (format != HAL_PIXEL_FORMAT_BLOB && format != HAL_PIXEL_FORMAT_RAW_OPAQUE) { ALOGE("%s: Bad format for size-only stream: %d", __FUNCTION__, format); mState = STATE_ERROR; } if (mConsumer == NULL) { ALOGE("%s: Consumer is NULL!", __FUNCTION__); mState = STATE_ERROR; } bool needsReleaseNotify = setId > CAMERA3_STREAM_SET_ID_INVALID; mBufferProducerListener = new BufferProducerListener(this, needsReleaseNotify); } Camera3OutputStream::Camera3OutputStream(int id, uint32_t width, uint32_t height, int format, uint64_t consumerUsage, android_dataspace dataSpace, camera3_stream_rotation_t rotation, nsecs_t timestampOffset, const String8& physicalCameraId, int setId) : Camera3IOStreamBase(id, CAMERA3_STREAM_OUTPUT, width, height, /*maxSize*/0, format, dataSpace, rotation, physicalCameraId, setId), mConsumer(nullptr), mTransform(0), mTraceFirstBuffer(true), mUseBufferManager(false), mTimestampOffset(timestampOffset), mConsumerUsage(consumerUsage), mDropBuffers(false), mDequeueBufferLatency(kDequeueLatencyBinSize) { // Deferred consumer only support preview surface format now. if (format != HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED) { ALOGE("%s: Deferred consumer only supports IMPLEMENTATION_DEFINED format now!", __FUNCTION__); mState = STATE_ERROR; } // Sanity check for the consumer usage flag. if ((consumerUsage & GraphicBuffer::USAGE_HW_TEXTURE) == 0 && (consumerUsage & GraphicBuffer::USAGE_HW_COMPOSER) == 0) { ALOGE("%s: Deferred consumer usage flag is illegal %" PRIu64 "!", __FUNCTION__, consumerUsage); mState = STATE_ERROR; } mConsumerName = String8("Deferred"); bool needsReleaseNotify = setId > CAMERA3_STREAM_SET_ID_INVALID; mBufferProducerListener = new BufferProducerListener(this, needsReleaseNotify); } Camera3OutputStream::Camera3OutputStream(int id, camera3_stream_type_t type, uint32_t width, uint32_t height, int format, android_dataspace dataSpace, camera3_stream_rotation_t rotation, const String8& physicalCameraId, uint64_t consumerUsage, nsecs_t timestampOffset, int setId) : Camera3IOStreamBase(id, type, width, height, /*maxSize*/0, format, dataSpace, rotation, physicalCameraId, setId), mTransform(0), mTraceFirstBuffer(true), mUseMonoTimestamp(false), mUseBufferManager(false), mTimestampOffset(timestampOffset), mConsumerUsage(consumerUsage), mDropBuffers(false), mDequeueBufferLatency(kDequeueLatencyBinSize) { bool needsReleaseNotify = setId > CAMERA3_STREAM_SET_ID_INVALID; mBufferProducerListener = new BufferProducerListener(this, needsReleaseNotify); // Subclasses expected to initialize mConsumer themselves } Camera3OutputStream::~Camera3OutputStream() { disconnectLocked(); } status_t Camera3OutputStream::getBufferLocked(camera3_stream_buffer *buffer, const std::vector&) { ATRACE_CALL(); ANativeWindowBuffer* anb; int fenceFd = -1; status_t res; res = getBufferLockedCommon(&anb, &fenceFd); if (res != OK) { return res; } /** * FenceFD now owned by HAL except in case of error, * in which case we reassign it to acquire_fence */ handoutBufferLocked(*buffer, &(anb->handle), /*acquireFence*/fenceFd, /*releaseFence*/-1, CAMERA3_BUFFER_STATUS_OK, /*output*/true); return OK; } status_t Camera3OutputStream::queueBufferToConsumer(sp& consumer, ANativeWindowBuffer* buffer, int anwReleaseFence, const std::vector&) { return consumer->queueBuffer(consumer.get(), buffer, anwReleaseFence); } status_t Camera3OutputStream::returnBufferLocked( const camera3_stream_buffer &buffer, nsecs_t timestamp, const std::vector& surface_ids) { ATRACE_CALL(); status_t res = returnAnyBufferLocked(buffer, timestamp, /*output*/true, surface_ids); if (res != OK) { return res; } mLastTimestamp = timestamp; mFrameCount++; return OK; } status_t Camera3OutputStream::returnBufferCheckedLocked( const camera3_stream_buffer &buffer, nsecs_t timestamp, bool output, const std::vector& surface_ids, /*out*/ sp *releaseFenceOut) { (void)output; ALOG_ASSERT(output, "Expected output to be true"); status_t res; // Fence management - always honor release fence from HAL sp releaseFence = new Fence(buffer.release_fence); int anwReleaseFence = releaseFence->dup(); /** * Release the lock briefly to avoid deadlock with * StreamingProcessor::startStream -> Camera3Stream::isConfiguring (this * thread will go into StreamingProcessor::onFrameAvailable) during * queueBuffer */ sp currentConsumer = mConsumer; StreamState state = mState; mLock.unlock(); ANativeWindowBuffer *anwBuffer = container_of(buffer.buffer, ANativeWindowBuffer, handle); /** * Return buffer back to ANativeWindow */ if (buffer.status == CAMERA3_BUFFER_STATUS_ERROR || mDropBuffers || timestamp == 0) { // Cancel buffer if (mDropBuffers) { ALOGV("%s: Dropping a frame for stream %d.", __FUNCTION__, mId); } else if (buffer.status == CAMERA3_BUFFER_STATUS_ERROR) { ALOGV("%s: A frame is dropped for stream %d due to buffer error.", __FUNCTION__, mId); } else { ALOGE("%s: Stream %d: timestamp shouldn't be 0", __FUNCTION__, mId); } res = currentConsumer->cancelBuffer(currentConsumer.get(), anwBuffer, anwReleaseFence); if (shouldLogError(res, state)) { ALOGE("%s: Stream %d: Error cancelling buffer to native window:" " %s (%d)", __FUNCTION__, mId, strerror(-res), res); } notifyBufferReleased(anwBuffer); if (mUseBufferManager) { // Return this buffer back to buffer manager. mBufferProducerListener->onBufferReleased(); } } else { if (mTraceFirstBuffer && (stream_type == CAMERA3_STREAM_OUTPUT)) { { char traceLog[48]; snprintf(traceLog, sizeof(traceLog), "Stream %d: first full buffer\n", mId); ATRACE_NAME(traceLog); } mTraceFirstBuffer = false; } /* Certain consumers (such as AudioSource or HardwareComposer) use * MONOTONIC time, causing time misalignment if camera timestamp is * in BOOTTIME. Do the conversion if necessary. */ res = native_window_set_buffers_timestamp(mConsumer.get(), mUseMonoTimestamp ? timestamp - mTimestampOffset : timestamp); if (res != OK) { ALOGE("%s: Stream %d: Error setting timestamp: %s (%d)", __FUNCTION__, mId, strerror(-res), res); return res; } res = queueBufferToConsumer(currentConsumer, anwBuffer, anwReleaseFence, surface_ids); if (shouldLogError(res, state)) { ALOGE("%s: Stream %d: Error queueing buffer to native window:" " %s (%d)", __FUNCTION__, mId, strerror(-res), res); } } mLock.lock(); // Once a valid buffer has been returned to the queue, can no longer // dequeue all buffers for preallocation. if (buffer.status != CAMERA3_BUFFER_STATUS_ERROR) { mStreamUnpreparable = true; } if (res != OK) { close(anwReleaseFence); } *releaseFenceOut = releaseFence; return res; } void Camera3OutputStream::dump(int fd, const Vector &args) const { (void) args; String8 lines; lines.appendFormat(" Stream[%d]: Output\n", mId); lines.appendFormat(" Consumer name: %s\n", mConsumerName.string()); write(fd, lines.string(), lines.size()); Camera3IOStreamBase::dump(fd, args); mDequeueBufferLatency.dump(fd, " DequeueBuffer latency histogram:"); } status_t Camera3OutputStream::setTransform(int transform) { ATRACE_CALL(); Mutex::Autolock l(mLock); return setTransformLocked(transform); } status_t Camera3OutputStream::setTransformLocked(int transform) { status_t res = OK; if (mState == STATE_ERROR) { ALOGE("%s: Stream in error state", __FUNCTION__); return INVALID_OPERATION; } mTransform = transform; if (mState == STATE_CONFIGURED) { res = native_window_set_buffers_transform(mConsumer.get(), transform); if (res != OK) { ALOGE("%s: Unable to configure stream transform to %x: %s (%d)", __FUNCTION__, transform, strerror(-res), res); } } return res; } status_t Camera3OutputStream::configureQueueLocked() { status_t res; mTraceFirstBuffer = true; if ((res = Camera3IOStreamBase::configureQueueLocked()) != OK) { return res; } if ((res = configureConsumerQueueLocked()) != OK) { return res; } // Set dequeueBuffer/attachBuffer timeout if the consumer is not hw composer or hw texture. // We need skip these cases as timeout will disable the non-blocking (async) mode. if (!(isConsumedByHWComposer() || isConsumedByHWTexture())) { if (mUseBufferManager) { // When buffer manager is handling the buffer, we should have available buffers in // buffer queue before we calls into dequeueBuffer because buffer manager is tracking // free buffers. // There are however some consumer side feature (ImageReader::discardFreeBuffers) that // can discard free buffers without notifying buffer manager. We want the timeout to // happen immediately here so buffer manager can try to update its internal state and // try to allocate a buffer instead of waiting. mConsumer->setDequeueTimeout(0); } else { mConsumer->setDequeueTimeout(kDequeueBufferTimeout); } } return OK; } status_t Camera3OutputStream::configureConsumerQueueLocked() { status_t res; mTraceFirstBuffer = true; ALOG_ASSERT(mConsumer != 0, "mConsumer should never be NULL"); // Configure consumer-side ANativeWindow interface. The listener may be used // to notify buffer manager (if it is used) of the returned buffers. res = mConsumer->connect(NATIVE_WINDOW_API_CAMERA, /*reportBufferRemoval*/true, /*listener*/mBufferProducerListener); if (res != OK) { ALOGE("%s: Unable to connect to native window for stream %d", __FUNCTION__, mId); return res; } mConsumerName = mConsumer->getConsumerName(); res = native_window_set_usage(mConsumer.get(), mUsage); if (res != OK) { ALOGE("%s: Unable to configure usage %" PRIu64 " for stream %d", __FUNCTION__, mUsage, mId); return res; } res = native_window_set_scaling_mode(mConsumer.get(), NATIVE_WINDOW_SCALING_MODE_SCALE_TO_WINDOW); if (res != OK) { ALOGE("%s: Unable to configure stream scaling: %s (%d)", __FUNCTION__, strerror(-res), res); return res; } if (mMaxSize == 0) { // For buffers of known size res = native_window_set_buffers_dimensions(mConsumer.get(), camera3_stream::width, camera3_stream::height); } else { // For buffers with bounded size res = native_window_set_buffers_dimensions(mConsumer.get(), mMaxSize, 1); } if (res != OK) { ALOGE("%s: Unable to configure stream buffer dimensions" " %d x %d (maxSize %zu) for stream %d", __FUNCTION__, camera3_stream::width, camera3_stream::height, mMaxSize, mId); return res; } res = native_window_set_buffers_format(mConsumer.get(), camera3_stream::format); if (res != OK) { ALOGE("%s: Unable to configure stream buffer format %#x for stream %d", __FUNCTION__, camera3_stream::format, mId); return res; } res = native_window_set_buffers_data_space(mConsumer.get(), camera3_stream::data_space); if (res != OK) { ALOGE("%s: Unable to configure stream dataspace %#x for stream %d", __FUNCTION__, camera3_stream::data_space, mId); return res; } int maxConsumerBuffers; res = static_cast(mConsumer.get())->query( mConsumer.get(), NATIVE_WINDOW_MIN_UNDEQUEUED_BUFFERS, &maxConsumerBuffers); if (res != OK) { ALOGE("%s: Unable to query consumer undequeued" " buffer count for stream %d", __FUNCTION__, mId); return res; } ALOGV("%s: Consumer wants %d buffers, HAL wants %d", __FUNCTION__, maxConsumerBuffers, camera3_stream::max_buffers); if (camera3_stream::max_buffers == 0) { ALOGE("%s: Camera HAL requested max_buffer count: %d, requires at least 1", __FUNCTION__, camera3_stream::max_buffers); return INVALID_OPERATION; } mTotalBufferCount = maxConsumerBuffers + camera3_stream::max_buffers; mHandoutTotalBufferCount = 0; mFrameCount = 0; mLastTimestamp = 0; mUseMonoTimestamp = (isConsumedByHWComposer() | isVideoStream()); res = native_window_set_buffer_count(mConsumer.get(), mTotalBufferCount); if (res != OK) { ALOGE("%s: Unable to set buffer count for stream %d", __FUNCTION__, mId); return res; } res = native_window_set_buffers_transform(mConsumer.get(), mTransform); if (res != OK) { ALOGE("%s: Unable to configure stream transform to %x: %s (%d)", __FUNCTION__, mTransform, strerror(-res), res); return res; } /** * Camera3 Buffer manager is only supported by HAL3.3 onwards, as the older HALs requires * buffers to be statically allocated for internal static buffer registration, while the * buffers provided by buffer manager are really dynamically allocated. Camera3Device only * sets the mBufferManager if device version is > HAL3.2, which guarantees that the buffer * manager setup is skipped in below code. Note that HAL3.2 is also excluded here, as some * HAL3.2 devices may not support the dynamic buffer registeration. * Also Camera3BufferManager does not support display/texture streams as they have its own * buffer management logic. */ if (mBufferManager != 0 && mSetId > CAMERA3_STREAM_SET_ID_INVALID && !(isConsumedByHWComposer() || isConsumedByHWTexture())) { uint64_t consumerUsage = 0; getEndpointUsage(&consumerUsage); StreamInfo streamInfo( getId(), getStreamSetId(), getWidth(), getHeight(), getFormat(), getDataSpace(), mUsage | consumerUsage, mTotalBufferCount, /*isConfigured*/true); wp weakThis(this); res = mBufferManager->registerStream(weakThis, streamInfo); if (res == OK) { // Disable buffer allocation for this BufferQueue, buffer manager will take over // the buffer allocation responsibility. mConsumer->getIGraphicBufferProducer()->allowAllocation(false); mUseBufferManager = true; } else { ALOGE("%s: Unable to register stream %d to camera3 buffer manager, " "(error %d %s), fall back to BufferQueue for buffer management!", __FUNCTION__, mId, res, strerror(-res)); } } return OK; } status_t Camera3OutputStream::getBufferLockedCommon(ANativeWindowBuffer** anb, int* fenceFd) { ATRACE_CALL(); status_t res; if ((res = getBufferPreconditionCheckLocked()) != OK) { return res; } bool gotBufferFromManager = false; if (mUseBufferManager) { sp gb; res = mBufferManager->getBufferForStream(getId(), getStreamSetId(), &gb, fenceFd); if (res == OK) { // Attach this buffer to the bufferQueue: the buffer will be in dequeue state after a // successful return. *anb = gb.get(); res = mConsumer->attachBuffer(*anb); if (shouldLogError(res, mState)) { ALOGE("%s: Stream %d: Can't attach the output buffer to this surface: %s (%d)", __FUNCTION__, mId, strerror(-res), res); } if (res != OK) { checkRetAndSetAbandonedLocked(res); return res; } gotBufferFromManager = true; ALOGV("Stream %d: Attached new buffer", getId()); } else if (res == ALREADY_EXISTS) { // Have sufficient free buffers already attached, can just // dequeue from buffer queue ALOGV("Stream %d: Reusing attached buffer", getId()); gotBufferFromManager = false; } else if (res != OK) { ALOGE("%s: Stream %d: Can't get next output buffer from buffer manager: %s (%d)", __FUNCTION__, mId, strerror(-res), res); return res; } } if (!gotBufferFromManager) { /** * Release the lock briefly to avoid deadlock for below scenario: * Thread 1: StreamingProcessor::startStream -> Camera3Stream::isConfiguring(). * This thread acquired StreamingProcessor lock and try to lock Camera3Stream lock. * Thread 2: Camera3Stream::returnBuffer->StreamingProcessor::onFrameAvailable(). * This thread acquired Camera3Stream lock and bufferQueue lock, and try to lock * StreamingProcessor lock. * Thread 3: Camera3Stream::getBuffer(). This thread acquired Camera3Stream lock * and try to lock bufferQueue lock. * Then there is circular locking dependency. */ sp currentConsumer = mConsumer; mLock.unlock(); nsecs_t dequeueStart = systemTime(SYSTEM_TIME_MONOTONIC); res = currentConsumer->dequeueBuffer(currentConsumer.get(), anb, fenceFd); nsecs_t dequeueEnd = systemTime(SYSTEM_TIME_MONOTONIC); mDequeueBufferLatency.add(dequeueStart, dequeueEnd); mLock.lock(); if (mUseBufferManager && res == TIMED_OUT) { checkRemovedBuffersLocked(); sp gb; res = mBufferManager->getBufferForStream( getId(), getStreamSetId(), &gb, fenceFd, /*noFreeBuffer*/true); if (res == OK) { // Attach this buffer to the bufferQueue: the buffer will be in dequeue state after // a successful return. *anb = gb.get(); res = mConsumer->attachBuffer(*anb); gotBufferFromManager = true; ALOGV("Stream %d: Attached new buffer", getId()); if (res != OK) { if (shouldLogError(res, mState)) { ALOGE("%s: Stream %d: Can't attach the output buffer to this surface:" " %s (%d)", __FUNCTION__, mId, strerror(-res), res); } checkRetAndSetAbandonedLocked(res); return res; } } else { ALOGE("%s: Stream %d: Can't get next output buffer from buffer manager:" " %s (%d)", __FUNCTION__, mId, strerror(-res), res); return res; } } else if (res != OK) { if (shouldLogError(res, mState)) { ALOGE("%s: Stream %d: Can't dequeue next output buffer: %s (%d)", __FUNCTION__, mId, strerror(-res), res); } checkRetAndSetAbandonedLocked(res); return res; } } if (res == OK) { checkRemovedBuffersLocked(); } return res; } void Camera3OutputStream::checkRemovedBuffersLocked(bool notifyBufferManager) { std::vector> removedBuffers; status_t res = mConsumer->getAndFlushRemovedBuffers(&removedBuffers); if (res == OK) { onBuffersRemovedLocked(removedBuffers); if (notifyBufferManager && mUseBufferManager && removedBuffers.size() > 0) { mBufferManager->onBuffersRemoved(getId(), getStreamSetId(), removedBuffers.size()); } } } void Camera3OutputStream::checkRetAndSetAbandonedLocked(status_t res) { // Only transition to STATE_ABANDONED from STATE_CONFIGURED. (If it is // STATE_PREPARING, let prepareNextBuffer handle the error.) if ((res == NO_INIT || res == DEAD_OBJECT) && mState == STATE_CONFIGURED) { mState = STATE_ABANDONED; } } bool Camera3OutputStream::shouldLogError(status_t res, StreamState state) { if (res == OK) { return false; } if ((res == DEAD_OBJECT || res == NO_INIT) && state == STATE_ABANDONED) { return false; } return true; } status_t Camera3OutputStream::disconnectLocked() { status_t res; if ((res = Camera3IOStreamBase::disconnectLocked()) != OK) { return res; } // Stream configuration was not finished (can only be in STATE_IN_CONFIG or STATE_CONSTRUCTED // state), don't need change the stream state, return OK. if (mConsumer == nullptr) { return OK; } ALOGV("%s: disconnecting stream %d from native window", __FUNCTION__, getId()); res = native_window_api_disconnect(mConsumer.get(), NATIVE_WINDOW_API_CAMERA); /** * This is not an error. if client calling process dies, the window will * also die and all calls to it will return DEAD_OBJECT, thus it's already * "disconnected" */ if (res == DEAD_OBJECT) { ALOGW("%s: While disconnecting stream %d from native window, the" " native window died from under us", __FUNCTION__, mId); } else if (res != OK) { ALOGE("%s: Unable to disconnect stream %d from native window " "(error %d %s)", __FUNCTION__, mId, res, strerror(-res)); mState = STATE_ERROR; return res; } // Since device is already idle, there is no getBuffer call to buffer manager, unregister the // stream at this point should be safe. if (mUseBufferManager) { res = mBufferManager->unregisterStream(getId(), getStreamSetId()); if (res != OK) { ALOGE("%s: Unable to unregister stream %d from buffer manager " "(error %d %s)", __FUNCTION__, mId, res, strerror(-res)); mState = STATE_ERROR; return res; } // Note that, to make prepare/teardown case work, we must not mBufferManager.clear(), as // the stream is still in usable state after this call. mUseBufferManager = false; } mState = (mState == STATE_IN_RECONFIG) ? STATE_IN_CONFIG : STATE_CONSTRUCTED; mDequeueBufferLatency.log("Stream %d dequeueBuffer latency histogram", mId); mDequeueBufferLatency.reset(); return OK; } status_t Camera3OutputStream::getEndpointUsage(uint64_t *usage) const { status_t res; if (mConsumer == nullptr) { // mConsumerUsage was sanitized before the Camera3OutputStream was constructed. *usage = mConsumerUsage; return OK; } res = getEndpointUsageForSurface(usage, mConsumer); return res; } void Camera3OutputStream::applyZSLUsageQuirk(int format, uint64_t *consumerUsage /*inout*/) { if (consumerUsage == nullptr) { return; } // If an opaque output stream's endpoint is ImageReader, add // GRALLOC_USAGE_HW_CAMERA_ZSL to the usage so HAL knows it will be used // for the ZSL use case. // Assume it's for ImageReader if the consumer usage doesn't have any of these bits set: // 1. GRALLOC_USAGE_HW_TEXTURE // 2. GRALLOC_USAGE_HW_RENDER // 3. GRALLOC_USAGE_HW_COMPOSER // 4. GRALLOC_USAGE_HW_VIDEO_ENCODER if (format == HAL_PIXEL_FORMAT_IMPLEMENTATION_DEFINED && (*consumerUsage & (GRALLOC_USAGE_HW_TEXTURE | GRALLOC_USAGE_HW_RENDER | GRALLOC_USAGE_HW_COMPOSER | GRALLOC_USAGE_HW_VIDEO_ENCODER)) == 0) { *consumerUsage |= GRALLOC_USAGE_HW_CAMERA_ZSL; } } status_t Camera3OutputStream::getEndpointUsageForSurface(uint64_t *usage, const sp& surface) const { status_t res; uint64_t u = 0; res = native_window_get_consumer_usage(static_cast(surface.get()), &u); applyZSLUsageQuirk(camera3_stream::format, &u); *usage = u; return res; } bool Camera3OutputStream::isVideoStream() const { uint64_t usage = 0; status_t res = getEndpointUsage(&usage); if (res != OK) { ALOGE("%s: getting end point usage failed: %s (%d).", __FUNCTION__, strerror(-res), res); return false; } return (usage & GRALLOC_USAGE_HW_VIDEO_ENCODER) != 0; } status_t Camera3OutputStream::setBufferManager(sp bufferManager) { Mutex::Autolock l(mLock); if (mState != STATE_CONSTRUCTED) { ALOGE("%s: this method can only be called when stream in CONSTRUCTED state.", __FUNCTION__); return INVALID_OPERATION; } mBufferManager = bufferManager; return OK; } status_t Camera3OutputStream::updateStream(const std::vector> &/*outputSurfaces*/, const std::vector &/*outputInfo*/, const std::vector &/*removedSurfaceIds*/, KeyedVector, size_t> * /*outputMapo*/) { ALOGE("%s: this method is not supported!", __FUNCTION__); return INVALID_OPERATION; } void Camera3OutputStream::BufferProducerListener::onBufferReleased() { sp stream = mParent.promote(); if (stream == nullptr) { ALOGV("%s: Parent camera3 output stream was destroyed", __FUNCTION__); return; } Mutex::Autolock l(stream->mLock); if (!(stream->mUseBufferManager)) { return; } ALOGV("Stream %d: Buffer released", stream->getId()); bool shouldFreeBuffer = false; status_t res = stream->mBufferManager->onBufferReleased( stream->getId(), stream->getStreamSetId(), &shouldFreeBuffer); if (res != OK) { ALOGE("%s: signaling buffer release to buffer manager failed: %s (%d).", __FUNCTION__, strerror(-res), res); stream->mState = STATE_ERROR; } if (shouldFreeBuffer) { sp buffer; // Detach and free a buffer (when buffer goes out of scope) stream->detachBufferLocked(&buffer, /*fenceFd*/ nullptr); if (buffer.get() != nullptr) { stream->mBufferManager->notifyBufferRemoved( stream->getId(), stream->getStreamSetId()); } } } void Camera3OutputStream::BufferProducerListener::onBuffersDiscarded( const std::vector>& buffers) { sp stream = mParent.promote(); if (stream == nullptr) { ALOGV("%s: Parent camera3 output stream was destroyed", __FUNCTION__); return; } if (buffers.size() > 0) { Mutex::Autolock l(stream->mLock); stream->onBuffersRemovedLocked(buffers); if (stream->mUseBufferManager) { stream->mBufferManager->onBuffersRemoved(stream->getId(), stream->getStreamSetId(), buffers.size()); } ALOGV("Stream %d: %zu Buffers discarded.", stream->getId(), buffers.size()); } } void Camera3OutputStream::onBuffersRemovedLocked( const std::vector>& removedBuffers) { sp callback = mBufferFreedListener.promote(); if (callback != nullptr) { for (const auto& gb : removedBuffers) { callback->onBufferFreed(mId, gb->handle); } } } status_t Camera3OutputStream::detachBuffer(sp* buffer, int* fenceFd) { Mutex::Autolock l(mLock); return detachBufferLocked(buffer, fenceFd); } status_t Camera3OutputStream::detachBufferLocked(sp* buffer, int* fenceFd) { ALOGV("Stream %d: detachBuffer", getId()); if (buffer == nullptr) { return BAD_VALUE; } sp fence; status_t res = mConsumer->detachNextBuffer(buffer, &fence); if (res == NO_MEMORY) { // This may rarely happen, which indicates that the released buffer was freed by other // call (e.g., attachBuffer, dequeueBuffer etc.) before reaching here. We should notify the // buffer manager that this buffer has been freed. It's not fatal, but should be avoided, // therefore log a warning. *buffer = 0; ALOGW("%s: the released buffer has already been freed by the buffer queue!", __FUNCTION__); } else if (res != OK) { // Treat other errors as abandonment if (shouldLogError(res, mState)) { ALOGE("%s: detach next buffer failed: %s (%d).", __FUNCTION__, strerror(-res), res); } mState = STATE_ABANDONED; return res; } if (fenceFd != nullptr) { if (fence!= 0 && fence->isValid()) { *fenceFd = fence->dup(); } else { *fenceFd = -1; } } // Here we assume detachBuffer is called by buffer manager so it doesn't need to be notified checkRemovedBuffersLocked(/*notifyBufferManager*/false); return res; } status_t Camera3OutputStream::dropBuffers(bool dropping) { Mutex::Autolock l(mLock); mDropBuffers = dropping; return OK; } const String8& Camera3OutputStream::getPhysicalCameraId() const { Mutex::Autolock l(mLock); return physicalCameraId(); } status_t Camera3OutputStream::notifyBufferReleased(ANativeWindowBuffer* /*anwBuffer*/) { return OK; } bool Camera3OutputStream::isConsumerConfigurationDeferred(size_t surface_id) const { Mutex::Autolock l(mLock); if (surface_id != 0) { ALOGE("%s: surface_id %zu for Camera3OutputStream should be 0!", __FUNCTION__, surface_id); } return mConsumer == nullptr; } status_t Camera3OutputStream::setConsumers(const std::vector>& consumers) { Mutex::Autolock l(mLock); if (consumers.size() != 1) { ALOGE("%s: it's illegal to set %zu consumer surfaces!", __FUNCTION__, consumers.size()); return INVALID_OPERATION; } if (consumers[0] == nullptr) { ALOGE("%s: it's illegal to set null consumer surface!", __FUNCTION__); return INVALID_OPERATION; } if (mConsumer != nullptr) { ALOGE("%s: consumer surface was already set!", __FUNCTION__); return INVALID_OPERATION; } mConsumer = consumers[0]; return OK; } bool Camera3OutputStream::isConsumedByHWComposer() const { uint64_t usage = 0; status_t res = getEndpointUsage(&usage); if (res != OK) { ALOGE("%s: getting end point usage failed: %s (%d).", __FUNCTION__, strerror(-res), res); return false; } return (usage & GRALLOC_USAGE_HW_COMPOSER) != 0; } bool Camera3OutputStream::isConsumedByHWTexture() const { uint64_t usage = 0; status_t res = getEndpointUsage(&usage); if (res != OK) { ALOGE("%s: getting end point usage failed: %s (%d).", __FUNCTION__, strerror(-res), res); return false; } return (usage & GRALLOC_USAGE_HW_TEXTURE) != 0; } }; // namespace camera3 }; // namespace android