/* * Copyright (C) 2012 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. */ // Utility classes for camera2 HAL testing #define LOG_TAG "Camera2_test_utils" #define LOG_NDEBUG 0 #include "utils/Log.h" #include "camera2_utils.h" #include namespace android { namespace camera2 { namespace tests { /** * MetadataQueue */ MetadataQueue::MetadataQueue(): mDevice(NULL), mFrameCount(0), mCount(0), mStreamSlotCount(0), mSignalConsumer(true) { camera2_request_queue_src_ops::dequeue_request = consumer_dequeue; camera2_request_queue_src_ops::request_count = consumer_buffer_count; camera2_request_queue_src_ops::free_request = consumer_free; camera2_frame_queue_dst_ops::dequeue_frame = producer_dequeue; camera2_frame_queue_dst_ops::cancel_frame = producer_cancel; camera2_frame_queue_dst_ops::enqueue_frame = producer_enqueue; } MetadataQueue::~MetadataQueue() { freeBuffers(mEntries.begin(), mEntries.end()); freeBuffers(mStreamSlot.begin(), mStreamSlot.end()); } // Interface to camera2 HAL as consumer (input requests/reprocessing) const camera2_request_queue_src_ops_t* MetadataQueue::getToConsumerInterface() { return static_cast(this); } void MetadataQueue::setFromConsumerInterface(camera2_device_t *d) { mDevice = d; } const camera2_frame_queue_dst_ops_t* MetadataQueue::getToProducerInterface() { return static_cast(this); } // Real interfaces status_t MetadataQueue::enqueue(camera_metadata_t *buf) { Mutex::Autolock l(mMutex); mCount++; mEntries.push_back(buf); notEmpty.signal(); if (mSignalConsumer && mDevice != NULL) { mSignalConsumer = false; mMutex.unlock(); ALOGV("%s: Signaling consumer", __FUNCTION__); mDevice->ops->notify_request_queue_not_empty(mDevice); mMutex.lock(); } return OK; } int MetadataQueue::getBufferCount() { Mutex::Autolock l(mMutex); if (mStreamSlotCount > 0) { return CAMERA2_REQUEST_QUEUE_IS_BOTTOMLESS; } return mCount; } status_t MetadataQueue::dequeue(camera_metadata_t **buf, bool incrementCount) { Mutex::Autolock l(mMutex); if (mCount == 0) { if (mStreamSlotCount == 0) { ALOGV("%s: Empty", __FUNCTION__); *buf = NULL; mSignalConsumer = true; return OK; } ALOGV("%s: Streaming %d frames to queue", __FUNCTION__, mStreamSlotCount); for (List::iterator slotEntry = mStreamSlot.begin(); slotEntry != mStreamSlot.end(); slotEntry++ ) { size_t entries = get_camera_metadata_entry_count(*slotEntry); size_t dataBytes = get_camera_metadata_data_count(*slotEntry); camera_metadata_t *copy = allocate_camera_metadata(entries, dataBytes); append_camera_metadata(copy, *slotEntry); mEntries.push_back(copy); } mCount = mStreamSlotCount; } ALOGV("MetadataQueue: deque (%d buffers)", mCount); camera_metadata_t *b = *(mEntries.begin()); mEntries.erase(mEntries.begin()); if (incrementCount) { add_camera_metadata_entry(b, ANDROID_REQUEST_FRAME_COUNT, (void**)&mFrameCount, 1); mFrameCount++; } *buf = b; mCount--; return OK; } status_t MetadataQueue::waitForBuffer(nsecs_t timeout) { Mutex::Autolock l(mMutex); status_t res; while (mCount == 0) { res = notEmpty.waitRelative(mMutex,timeout); if (res != OK) return res; } return OK; } status_t MetadataQueue::setStreamSlot(camera_metadata_t *buf) { if (buf == NULL) { freeBuffers(mStreamSlot.begin(), mStreamSlot.end()); mStreamSlotCount = 0; return OK; } if (mStreamSlotCount > 1) { List::iterator deleter = ++mStreamSlot.begin(); freeBuffers(++mStreamSlot.begin(), mStreamSlot.end()); mStreamSlotCount = 1; } if (mStreamSlotCount == 1) { free_camera_metadata( *(mStreamSlot.begin()) ); *(mStreamSlot.begin()) = buf; } else { mStreamSlot.push_front(buf); mStreamSlotCount = 1; } return OK; } status_t MetadataQueue::setStreamSlot(const List &bufs) { if (mStreamSlotCount > 0) { freeBuffers(mStreamSlot.begin(), mStreamSlot.end()); } mStreamSlot = bufs; mStreamSlotCount = mStreamSlot.size(); return OK; } status_t MetadataQueue::freeBuffers(List::iterator start, List::iterator end) { while (start != end) { free_camera_metadata(*start); start = mStreamSlot.erase(start); } return OK; } MetadataQueue* MetadataQueue::getInstance( const camera2_request_queue_src_ops_t *q) { const MetadataQueue* cmq = static_cast(q); return const_cast(cmq); } MetadataQueue* MetadataQueue::getInstance( const camera2_frame_queue_dst_ops_t *q) { const MetadataQueue* cmq = static_cast(q); return const_cast(cmq); } int MetadataQueue::consumer_buffer_count( const camera2_request_queue_src_ops_t *q) { MetadataQueue *queue = getInstance(q); return queue->getBufferCount(); } int MetadataQueue::consumer_dequeue(const camera2_request_queue_src_ops_t *q, camera_metadata_t **buffer) { MetadataQueue *queue = getInstance(q); return queue->dequeue(buffer, true); } int MetadataQueue::consumer_free(const camera2_request_queue_src_ops_t *q, camera_metadata_t *old_buffer) { MetadataQueue *queue = getInstance(q); free_camera_metadata(old_buffer); return OK; } int MetadataQueue::producer_dequeue(const camera2_frame_queue_dst_ops_t *q, size_t entries, size_t bytes, camera_metadata_t **buffer) { camera_metadata_t *new_buffer = allocate_camera_metadata(entries, bytes); if (new_buffer == NULL) return NO_MEMORY; *buffer = new_buffer; return OK; } int MetadataQueue::producer_cancel(const camera2_frame_queue_dst_ops_t *q, camera_metadata_t *old_buffer) { free_camera_metadata(old_buffer); return OK; } int MetadataQueue::producer_enqueue(const camera2_frame_queue_dst_ops_t *q, camera_metadata_t *filled_buffer) { MetadataQueue *queue = getInstance(q); return queue->enqueue(filled_buffer); } /** * NotifierListener */ NotifierListener::NotifierListener() { } status_t NotifierListener::getNotificationsFrom(camera2_device *dev) { if (!dev) return BAD_VALUE; status_t err; err = dev->ops->set_notify_callback(dev, notify_callback_dispatch, (void*)this); return err; } status_t NotifierListener::getNextNotification(int32_t *msg_type, int32_t *ext1, int32_t *ext2, int32_t *ext3) { Mutex::Autolock l(mMutex); if (mNotifications.size() == 0) return BAD_VALUE; return getNextNotificationLocked(msg_type, ext1, ext2, ext3); } status_t NotifierListener::waitForNotification(int32_t *msg_type, int32_t *ext1, int32_t *ext2, int32_t *ext3) { Mutex::Autolock l(mMutex); while (mNotifications.size() == 0) { mNewNotification.wait(mMutex); } return getNextNotificationLocked(msg_type, ext1, ext2, ext3); } int NotifierListener::numNotifications() { Mutex::Autolock l(mMutex); return mNotifications.size(); } status_t NotifierListener::getNextNotificationLocked(int32_t *msg_type, int32_t *ext1, int32_t *ext2, int32_t *ext3) { *msg_type = mNotifications.begin()->msg_type; *ext1 = mNotifications.begin()->ext1; *ext2 = mNotifications.begin()->ext2; *ext3 = mNotifications.begin()->ext3; mNotifications.erase(mNotifications.begin()); return OK; } void NotifierListener::onNotify(int32_t msg_type, int32_t ext1, int32_t ext2, int32_t ext3) { Mutex::Autolock l(mMutex); mNotifications.push_back(Notification(msg_type, ext1, ext2, ext3)); mNewNotification.signal(); } void NotifierListener::notify_callback_dispatch(int32_t msg_type, int32_t ext1, int32_t ext2, int32_t ext3, void *user) { NotifierListener *me = reinterpret_cast(user); me->onNotify(msg_type, ext1, ext2, ext3); } /** * StreamAdapter */ #ifndef container_of #define container_of(ptr, type, member) \ (type *)((char*)(ptr) - offsetof(type, member)) #endif StreamAdapter::StreamAdapter(sp consumer): mState(UNINITIALIZED), mDevice(NULL), mId(-1), mWidth(0), mHeight(0), mFormat(0) { mConsumerInterface = new Surface(consumer); camera2_stream_ops::dequeue_buffer = dequeue_buffer; camera2_stream_ops::enqueue_buffer = enqueue_buffer; camera2_stream_ops::cancel_buffer = cancel_buffer; camera2_stream_ops::set_crop = set_crop; } StreamAdapter::~StreamAdapter() { disconnect(); } status_t StreamAdapter::connectToDevice(camera2_device_t *d, uint32_t width, uint32_t height, int format) { if (mState != UNINITIALIZED) return INVALID_OPERATION; if (d == NULL) { ALOGE("%s: Null device passed to stream adapter", __FUNCTION__); return BAD_VALUE; } status_t res; mWidth = width; mHeight = height; mFormat = format; // Allocate device-side stream interface uint32_t id; uint32_t formatActual; // ignored uint32_t usage; uint32_t maxBuffers = 2; res = d->ops->allocate_stream(d, mWidth, mHeight, mFormat, getStreamOps(), &id, &formatActual, &usage, &maxBuffers); if (res != OK) { ALOGE("%s: Device stream allocation failed: %s (%d)", __FUNCTION__, strerror(-res), res); mState = UNINITIALIZED; return res; } mDevice = d; mId = id; mUsage = usage; mMaxProducerBuffers = maxBuffers; // Configure consumer-side ANativeWindow interface res = native_window_api_connect(mConsumerInterface.get(), NATIVE_WINDOW_API_CAMERA); if (res != OK) { ALOGE("%s: Unable to connect to native window for stream %d", __FUNCTION__, mId); mState = ALLOCATED; return res; } res = native_window_set_usage(mConsumerInterface.get(), mUsage); if (res != OK) { ALOGE("%s: Unable to configure usage %08x for stream %d", __FUNCTION__, mUsage, mId); mState = CONNECTED; return res; } res = native_window_set_buffers_geometry(mConsumerInterface.get(), mWidth, mHeight, mFormat); if (res != OK) { ALOGE("%s: Unable to configure buffer geometry" " %d x %d, format 0x%x for stream %d", __FUNCTION__, mWidth, mHeight, mFormat, mId); mState = CONNECTED; return res; } int maxConsumerBuffers; res = mConsumerInterface->query(mConsumerInterface.get(), NATIVE_WINDOW_MIN_UNDEQUEUED_BUFFERS, &maxConsumerBuffers); if (res != OK) { ALOGE("%s: Unable to query consumer undequeued" " buffer count for stream %d", __FUNCTION__, mId); mState = CONNECTED; return res; } mMaxConsumerBuffers = maxConsumerBuffers; ALOGV("%s: Producer wants %d buffers, consumer wants %d", __FUNCTION__, mMaxProducerBuffers, mMaxConsumerBuffers); int totalBuffers = mMaxConsumerBuffers + mMaxProducerBuffers; res = native_window_set_buffer_count(mConsumerInterface.get(), totalBuffers); if (res != OK) { ALOGE("%s: Unable to set buffer count for stream %d", __FUNCTION__, mId); mState = CONNECTED; return res; } // Register allocated buffers with HAL device buffer_handle_t *buffers = new buffer_handle_t[totalBuffers]; ANativeWindowBuffer **anwBuffers = new ANativeWindowBuffer*[totalBuffers]; int bufferIdx = 0; for (; bufferIdx < totalBuffers; bufferIdx++) { res = native_window_dequeue_buffer_and_wait(mConsumerInterface.get(), &anwBuffers[bufferIdx]); if (res != OK) { ALOGE("%s: Unable to dequeue buffer %d for initial registration for" "stream %d", __FUNCTION__, bufferIdx, mId); mState = CONNECTED; goto cleanUpBuffers; } buffers[bufferIdx] = anwBuffers[bufferIdx]->handle; } res = mDevice->ops->register_stream_buffers(mDevice, mId, totalBuffers, buffers); if (res != OK) { ALOGE("%s: Unable to register buffers with HAL device for stream %d", __FUNCTION__, mId); mState = CONNECTED; } else { mState = ACTIVE; } cleanUpBuffers: for (int i = 0; i < bufferIdx; i++) { res = mConsumerInterface->cancelBuffer(mConsumerInterface.get(), anwBuffers[i], -1); } delete anwBuffers; delete buffers; return res; } status_t StreamAdapter::disconnect() { status_t res; if (mState >= ALLOCATED) { res = mDevice->ops->release_stream(mDevice, mId); if (res != OK) { ALOGE("%s: Unable to release stream %d", __FUNCTION__, mId); return res; } } if (mState >= CONNECTED) { res = native_window_api_disconnect(mConsumerInterface.get(), NATIVE_WINDOW_API_CAMERA); if (res != OK) { ALOGE("%s: Unable to disconnect stream %d from native window", __FUNCTION__, mId); return res; } } mId = -1; mState = DISCONNECTED; return OK; } int StreamAdapter::getId() { return mId; } const camera2_stream_ops *StreamAdapter::getStreamOps() { return static_cast(this); } ANativeWindow* StreamAdapter::toANW(const camera2_stream_ops_t *w) { return static_cast(w)->mConsumerInterface.get(); } int StreamAdapter::dequeue_buffer(const camera2_stream_ops_t *w, buffer_handle_t** buffer) { int res; int state = static_cast(w)->mState; if (state != ACTIVE) { ALOGE("%s: Called when in bad state: %d", __FUNCTION__, state); return INVALID_OPERATION; } ANativeWindow *a = toANW(w); ANativeWindowBuffer* anb; res = native_window_dequeue_buffer_and_wait(a, &anb); if (res != OK) return res; *buffer = &(anb->handle); return res; } int StreamAdapter::enqueue_buffer(const camera2_stream_ops_t* w, int64_t timestamp, buffer_handle_t* buffer) { int state = static_cast(w)->mState; if (state != ACTIVE) { ALOGE("%s: Called when in bad state: %d", __FUNCTION__, state); return INVALID_OPERATION; } ANativeWindow *a = toANW(w); status_t err; err = native_window_set_buffers_timestamp(a, timestamp); if (err != OK) return err; return a->queueBuffer(a, container_of(buffer, ANativeWindowBuffer, handle), -1); } int StreamAdapter::cancel_buffer(const camera2_stream_ops_t* w, buffer_handle_t* buffer) { int state = static_cast(w)->mState; if (state != ACTIVE) { ALOGE("%s: Called when in bad state: %d", __FUNCTION__, state); return INVALID_OPERATION; } ANativeWindow *a = toANW(w); return a->cancelBuffer(a, container_of(buffer, ANativeWindowBuffer, handle), -1); } int StreamAdapter::set_crop(const camera2_stream_ops_t* w, int left, int top, int right, int bottom) { int state = static_cast(w)->mState; if (state != ACTIVE) { ALOGE("%s: Called when in bad state: %d", __FUNCTION__, state); return INVALID_OPERATION; } ANativeWindow *a = toANW(w); android_native_rect_t crop = { left, top, right, bottom }; return native_window_set_crop(a, &crop); } /** * FrameWaiter */ FrameWaiter::FrameWaiter(): mPendingFrames(0) { } status_t FrameWaiter::waitForFrame(nsecs_t timeout) { status_t res; Mutex::Autolock lock(mMutex); while (mPendingFrames == 0) { res = mCondition.waitRelative(mMutex, timeout); if (res != OK) return res; } mPendingFrames--; return OK; } void FrameWaiter::onFrameAvailable() { Mutex::Autolock lock(mMutex); mPendingFrames++; mCondition.signal(); } int HWModuleHelpers::closeModule(hw_module_t* module) { int status; if (!module) { return -EINVAL; } status = dlclose(module->dso); if (status != 0) { char const *err_str = dlerror(); ALOGE("%s dlclose failed, error: %s", __func__, err_str ?: "unknown"); } return status; } } // namespace tests } // namespace camera2 } // namespace android