/* * Copyright (C) 2019 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 "VtsHalEvsTest" #include "FrameHandler.h" #include "FormatConvert.h" #include #include #include #include #include #include using namespace std::chrono_literals; FrameHandler::FrameHandler(android::sp pCamera, CameraDesc cameraInfo, android::sp pDisplay, BufferControlFlag mode) : mCamera(pCamera), mCameraInfo(cameraInfo), mDisplay(pDisplay), mReturnMode(mode) { // Nothing but member initialization here... } void FrameHandler::shutdown() { // Make sure we're not still streaming blockingStopStream(); // At this point, the receiver thread is no longer running, so we can safely drop // our remote object references so they can be freed mCamera = nullptr; mDisplay = nullptr; } bool FrameHandler::startStream() { // Tell the camera to start streaming Return result = mCamera->startVideoStream(this); if (result != EvsResult::OK) { return false; } // Mark ourselves as running mLock.lock(); mRunning = true; mLock.unlock(); return true; } void FrameHandler::asyncStopStream() { // Tell the camera to stop streaming. // This will result in a null frame being delivered when the stream actually stops. mCamera->stopVideoStream(); } void FrameHandler::blockingStopStream() { // Tell the stream to stop asyncStopStream(); // Wait until the stream has actually stopped std::unique_lock lock(mEventLock); if (mRunning) { mEventSignal.wait(lock, [this]() { return !mRunning; }); } } bool FrameHandler::returnHeldBuffer() { std::lock_guard lock(mLock); // Return the oldest buffer we're holding if (mHeldBuffers.empty()) { // No buffers are currently held return false; } hidl_vec buffers = mHeldBuffers.front(); mHeldBuffers.pop(); mCamera->doneWithFrame_1_1(buffers); return true; } bool FrameHandler::isRunning() { std::lock_guard lock(mLock); return mRunning; } void FrameHandler::waitForFrameCount(unsigned frameCount) { // Wait until we've seen at least the requested number of frames (could be more) std::unique_lock lock(mLock); mFrameSignal.wait(lock, [this, frameCount](){ return mFramesReceived >= frameCount; }); } void FrameHandler::getFramesCounters(unsigned* received, unsigned* displayed) { std::lock_guard lock(mLock); if (received) { *received = mFramesReceived; } if (displayed) { *displayed = mFramesDisplayed; } } Return FrameHandler::deliverFrame(const BufferDesc_1_0& bufferArg) { ALOGW("A frame delivered via v1.0 method is rejected."); mCamera->doneWithFrame(bufferArg); return Void(); } Return FrameHandler::deliverFrame_1_1(const hidl_vec& buffers) { mLock.lock(); // For VTS tests, FrameHandler uses a single frame among delivered frames. auto bufferIdx = mFramesDisplayed % buffers.size(); auto buffer = buffers[bufferIdx]; mLock.unlock(); const AHardwareBuffer_Desc* pDesc = reinterpret_cast(&buffer.buffer.description); ALOGD("Received a frame from the camera (%p)", buffer.buffer.nativeHandle.getNativeHandle()); // Store a dimension of a received frame. mFrameWidth = pDesc->width; mFrameHeight = pDesc->height; // If we were given an opened display at construction time, then send the received // image back down the camera. bool displayed = false; if (mDisplay.get()) { // Get the output buffer we'll use to display the imagery BufferDesc_1_0 tgtBuffer = {}; mDisplay->getTargetBuffer([&tgtBuffer](const BufferDesc_1_0& buff) { tgtBuffer = buff; } ); if (tgtBuffer.memHandle == nullptr) { printf("Didn't get target buffer - frame lost\n"); ALOGE("Didn't get requested output buffer -- skipping this frame."); } else { // Copy the contents of the of buffer.memHandle into tgtBuffer copyBufferContents(tgtBuffer, buffer); // Send the target buffer back for display Return result = mDisplay->returnTargetBufferForDisplay(tgtBuffer); if (!result.isOk()) { printf("HIDL error on display buffer (%s)- frame lost\n", result.description().c_str()); ALOGE("Error making the remote function call. HIDL said %s", result.description().c_str()); } else if (result != EvsResult::OK) { printf("Display reported error - frame lost\n"); ALOGE("We encountered error %d when returning a buffer to the display!", (EvsResult) result); } else { // Everything looks good! // Keep track so tests or watch dogs can monitor progress displayed = true; } } } mLock.lock(); // increases counters ++mFramesReceived; mFramesDisplayed += (int)displayed; mLock.unlock(); mFrameSignal.notify_all(); switch (mReturnMode) { case eAutoReturn: // Send the camera buffer back now that the client has seen it ALOGD("Calling doneWithFrame"); mCamera->doneWithFrame_1_1(buffers); break; case eNoAutoReturn: // Hang onto the buffer handles for now -- the client will return it explicitly later mHeldBuffers.push(buffers); break; } ALOGD("Frame handling complete"); return Void(); } Return FrameHandler::notify(const EvsEventDesc& event) { // Local flag we use to keep track of when the stream is stopping std::unique_lock lock(mEventLock); mLatestEventDesc.aType = event.aType; mLatestEventDesc.payload[0] = event.payload[0]; mLatestEventDesc.payload[1] = event.payload[1]; if (mLatestEventDesc.aType == EvsEventType::STREAM_STOPPED) { // Signal that the last frame has been received and the stream is stopped mRunning = false; } else if (mLatestEventDesc.aType == EvsEventType::PARAMETER_CHANGED) { ALOGD("Camera parameter 0x%X is changed to 0x%X", mLatestEventDesc.payload[0], mLatestEventDesc.payload[1]); } else { ALOGD("Received an event %s", eventToString(mLatestEventDesc.aType)); } lock.unlock(); mEventSignal.notify_one(); return Void(); } bool FrameHandler::copyBufferContents(const BufferDesc_1_0& tgtBuffer, const BufferDesc_1_1& srcBuffer) { bool success = true; const AHardwareBuffer_Desc* pSrcDesc = reinterpret_cast(&srcBuffer.buffer.description); // Make sure we don't run off the end of either buffer const unsigned width = std::min(tgtBuffer.width, pSrcDesc->width); const unsigned height = std::min(tgtBuffer.height, pSrcDesc->height); sp tgt = new android::GraphicBuffer(tgtBuffer.memHandle, android::GraphicBuffer::CLONE_HANDLE, tgtBuffer.width, tgtBuffer.height, tgtBuffer.format, 1, tgtBuffer.usage, tgtBuffer.stride); sp src = new android::GraphicBuffer(srcBuffer.buffer.nativeHandle, android::GraphicBuffer::CLONE_HANDLE, pSrcDesc->width, pSrcDesc->height, pSrcDesc->format, pSrcDesc->layers, pSrcDesc->usage, pSrcDesc->stride); // Lock our source buffer for reading (current expectation are for this to be NV21 format) uint8_t* srcPixels = nullptr; src->lock(GRALLOC_USAGE_SW_READ_OFTEN, (void**)&srcPixels); // Lock our target buffer for writing (should be either RGBA8888 or BGRA8888 format) uint32_t* tgtPixels = nullptr; tgt->lock(GRALLOC_USAGE_SW_WRITE_OFTEN, (void**)&tgtPixels); if (srcPixels && tgtPixels) { using namespace ::android::hardware::automotive::evs::common; if (tgtBuffer.format == HAL_PIXEL_FORMAT_RGBA_8888) { if (pSrcDesc->format == HAL_PIXEL_FORMAT_YCRCB_420_SP) { // 420SP == NV21 Utils::copyNV21toRGB32(width, height, srcPixels, tgtPixels, tgtBuffer.stride); } else if (pSrcDesc->format == HAL_PIXEL_FORMAT_YV12) { // YUV_420P == YV12 Utils::copyYV12toRGB32(width, height, srcPixels, tgtPixels, tgtBuffer.stride); } else if (pSrcDesc->format == HAL_PIXEL_FORMAT_YCBCR_422_I) { // YUYV Utils::copyYUYVtoRGB32(width, height, srcPixels, pSrcDesc->stride, tgtPixels, tgtBuffer.stride); } else if (pSrcDesc->format == tgtBuffer.format) { // 32bit RGBA Utils::copyMatchedInterleavedFormats(width, height, srcPixels, pSrcDesc->stride, tgtPixels, tgtBuffer.stride, tgtBuffer.pixelSize); } else { ALOGE("Camera buffer format is not supported"); success = false; } } else if (tgtBuffer.format == HAL_PIXEL_FORMAT_BGRA_8888) { if (pSrcDesc->format == HAL_PIXEL_FORMAT_YCRCB_420_SP) { // 420SP == NV21 Utils::copyNV21toBGR32(width, height, srcPixels, tgtPixels, tgtBuffer.stride); } else if (pSrcDesc->format == HAL_PIXEL_FORMAT_YV12) { // YUV_420P == YV12 Utils::copyYV12toBGR32(width, height, srcPixels, tgtPixels, tgtBuffer.stride); } else if (pSrcDesc->format == HAL_PIXEL_FORMAT_YCBCR_422_I) { // YUYV Utils::copyYUYVtoBGR32(width, height, srcPixels, pSrcDesc->stride, tgtPixels, tgtBuffer.stride); } else if (pSrcDesc->format == tgtBuffer.format) { // 32bit RGBA Utils::copyMatchedInterleavedFormats(width, height, srcPixels, pSrcDesc->stride, tgtPixels, tgtBuffer.stride, tgtBuffer.pixelSize); } else { ALOGE("Camera buffer format is not supported"); success = false; } } else { // We always expect 32 bit RGB for the display output for now. Is there a need for 565? ALOGE("Diplay buffer is always expected to be 32bit RGBA"); success = false; } } else { ALOGE("Failed to lock buffer contents for contents transfer"); success = false; } if (srcPixels) { src->unlock(); } if (tgtPixels) { tgt->unlock(); } return success; } void FrameHandler::getFrameDimension(unsigned* width, unsigned* height) { if (width) { *width = mFrameWidth; } if (height) { *height = mFrameHeight; } } bool FrameHandler::waitForEvent(const EvsEventDesc& aTargetEvent, EvsEventDesc& aReceivedEvent, bool ignorePayload) { // Wait until we get an expected parameter change event. std::unique_lock lock(mEventLock); auto now = std::chrono::system_clock::now(); bool found = false; while (!found) { bool result = mEventSignal.wait_until(lock, now + 5s, [this, aTargetEvent, ignorePayload, &aReceivedEvent, &found](){ found = (mLatestEventDesc.aType == aTargetEvent.aType) && (ignorePayload || (mLatestEventDesc.payload[0] == aTargetEvent.payload[0] && mLatestEventDesc.payload[1] == aTargetEvent.payload[1])); aReceivedEvent.aType = mLatestEventDesc.aType; aReceivedEvent.payload[0] = mLatestEventDesc.payload[0]; aReceivedEvent.payload[1] = mLatestEventDesc.payload[1]; return found; } ); if (!result) { ALOGW("A timer is expired before a target event has happened."); break; } } return found; } const char *FrameHandler::eventToString(const EvsEventType aType) { switch (aType) { case EvsEventType::STREAM_STARTED: return "STREAM_STARTED"; case EvsEventType::STREAM_STOPPED: return "STREAM_STOPPED"; case EvsEventType::FRAME_DROPPED: return "FRAME_DROPPED"; case EvsEventType::TIMEOUT: return "TIMEOUT"; case EvsEventType::PARAMETER_CHANGED: return "PARAMETER_CHANGED"; case EvsEventType::MASTER_RELEASED: return "MASTER_RELEASED"; default: return "Unknown"; } }