libcamera/vivid.git - libcamera pipeline handler for VIVID

Age	Commit message (Expand)	Author
2020-05-13	licenses: License all meson files under CC0-1.0	Laurent Pinchart
2020-05-11	LICENSES: Add BSD-2-Clause license	Laurent Pinchart
2020-04-15	licenses: Move developer's certificate of origin to Documentation/	Laurent Pinchart
2020-04-15	licenses: Replace deprecated GPL-2.0 with GPL-2.0-only	Laurent Pinchart
2020-04-15	licenses: Remove unused LGPL-2.1	Laurent Pinchart
2020-04-15	licenses: Add missing licenses	Laurent Pinchart
2020-04-15	licenses: Rename license files according to REUSE	Laurent Pinchart

/* SPDX-License-Identifier: LGPL-2.1-or-later */ /* * Copyright (C) 2019, Google Inc. * * uvcvideo.cpp - Pipeline handler for uvcvideo devices */ #include <algorithm> #include <iomanip> #include <sys/sysmacros.h> #include <tuple> #include <libcamera/camera.h> #include <libcamera/control_ids.h> #include <libcamera/controls.h> #include <libcamera/request.h> #include <libcamera/stream.h> #include "device_enumerator.h" #include "log.h" #include "media_device.h" #include "pipeline_handler.h" #include "utils.h" #include "v4l2_controls.h" #include "v4l2_videodevice.h" namespace libcamera { LOG_DEFINE_CATEGORY(UVC) class UVCCameraData : public CameraData { public: UVCCameraData(PipelineHandler *pipe) : CameraData(pipe), video_(nullptr) { } ~UVCCameraData() { delete video_; } int init(MediaEntity *entity); void bufferReady(FrameBuffer *buffer); V4L2VideoDevice *video_; Stream stream_; }; class UVCCameraConfiguration : public CameraConfiguration { public: UVCCameraConfiguration(); Status validate() override; }; class PipelineHandlerUVC : public PipelineHandler { public: PipelineHandlerUVC(CameraManager *manager); CameraConfiguration *generateConfiguration(Camera *camera, const StreamRoles &roles) override; int configure(Camera *camera, CameraConfiguration *config) override; int exportFrameBuffers(Camera *camera, Stream *stream, std::vector<std::unique_ptr<FrameBuffer>> *buffers) override; int importFrameBuffers(Camera *camera, Stream *stream) override; void freeFrameBuffers(Camera *camera, Stream *stream) override; int start(Camera *camera) override; void stop(Camera *camera) override; int queueRequestDevice(Camera *camera, Request *request) override; bool match(DeviceEnumerator *enumerator) override; private: int processControls(UVCCameraData *data, Request *request); UVCCameraData *cameraData(const Camera *camera) { return static_cast<UVCCameraData *>( PipelineHandler::cameraData(camera)); } }; UVCCameraConfiguration::UVCCameraConfiguration() : CameraConfiguration() { } CameraConfiguration::Status UVCCameraConfiguration::validate() { Status status = Valid; if (config_.empty()) return Invalid; /* Cap the number of entries to the available streams. */ if (config_.size() > 1) { config_.resize(1); status = Adjusted; } StreamConfiguration &cfg = config_[0]; const StreamFormats &formats = cfg.formats(); const unsigned int pixelFormat = cfg.pixelFormat; const Size size = cfg.size; const std::vector<unsigned int> pixelFormats = formats.pixelformats(); auto iter = std::find(pixelFormats.begin(), pixelFormats.end(), pixelFormat); if (iter == pixelFormats.end()) { cfg.pixelFormat = pixelFormats.front(); LOG(UVC, Debug) << "Adjusting pixel format from " << pixelFormat << " to " << cfg.pixelFormat; status = Adjusted; } const std::vector<Size> &formatSizes = formats.sizes(cfg.pixelFormat); cfg.size = formatSizes.front(); for (const Size &formatsSize : formatSizes) { if (formatsSize > size) break; cfg.size = formatsSize; } if (cfg.size != size) { LOG(UVC, Debug) << "Adjusting size from " << size.toString() << " to " << cfg.size.toString(); status = Adjusted; } cfg.bufferCount = 4; return status; } PipelineHandlerUVC::PipelineHandlerUVC(CameraManager *manager) : PipelineHandler(manager) { } CameraConfiguration *PipelineHandlerUVC::generateConfiguration(Camera *camera, const StreamRoles &roles) { UVCCameraData *data = cameraData(camera); CameraConfiguration *config = new UVCCameraConfiguration(); if (roles.empty()) return config; ImageFormats v4l2formats = data->video_->formats(); StreamFormats formats(v4l2formats.data()); StreamConfiguration cfg(formats); cfg.pixelFormat = formats.pixelformats().front(); cfg.size = formats.sizes(cfg.pixelFormat).back(); cfg.bufferCount = 4; config->addConfiguration(cfg); config->validate(); return config; } int PipelineHandlerUVC::configure(Camera *camera, CameraConfiguration *config) { UVCCameraData *data = cameraData(camera); StreamConfiguration &cfg = config->at(0); int ret; V4L2DeviceFormat format = {}; format.fourcc = data->video_->toV4L2Fourcc(cfg.pixelFormat); format.size = cfg.size; ret = data->video_->setFormat(&format); if (ret) return ret; if (format.size != cfg.size || format.fourcc != data->video_->toV4L2Fourcc(cfg.pixelFormat)) return -EINVAL; cfg.setStream(&data->stream_); return 0; } int PipelineHandlerUVC::exportFrameBuffers(Camera *camera, Stream *stream, std::vector<std::unique_ptr<FrameBuffer>> *buffers) { UVCCameraData *data = cameraData(camera); unsigned int count = stream->configuration().bufferCount; return data->video_->exportBuffers(count, buffers); } int PipelineHandlerUVC::importFrameBuffers(Camera *camera, Stream *stream) { UVCCameraData *data = cameraData(camera); unsigned int count = stream->configuration().bufferCount; return data->video_->importBuffers(count); } void PipelineHandlerUVC::freeFrameBuffers(Camera *camera, Stream *stream) { UVCCameraData *data = cameraData(camera); data->video_->releaseBuffers(); } int PipelineHandlerUVC::start(Camera *camera) { UVCCameraData *data = cameraData(camera); return data->video_->streamOn(); } void PipelineHandlerUVC::stop(Camera *camera) { UVCCameraData *data = cameraData(camera); data->video_->streamOff(); } int PipelineHandlerUVC::processControls(UVCCameraData *data, Request *request) { ControlList controls(data->video_->controls()); for (auto it : request->controls()) { unsigned int id = it.first; ControlValue &value = it.second; if (id == controls::Brightness) { controls.set(V4L2_CID_BRIGHTNESS, value); } else if (id == controls::Contrast) { controls.set(V4L2_CID_CONTRAST, value); } else if (id == controls::Saturation) { controls.set(V4L2_CID_SATURATION, value); } else if (id == controls::ManualExposure) { controls.set(V4L2_CID_EXPOSURE_AUTO, static_cast<int32_t>(1)); controls.set(V4L2_CID_EXPOSURE_ABSOLUTE, value); } else if (id == controls::ManualGain) { controls.set(V4L2_CID_GAIN, value); } } for (const auto &ctrl : controls) LOG(UVC, Debug) << "Setting control " << utils::hex(ctrl.first) << " to " << ctrl.second.toString(); int ret = data->video_->setControls(&controls); if (ret) { LOG(UVC, Error) << "Failed to set controls: " << ret; return ret < 0 ? ret : -EINVAL; } return ret; } int PipelineHandlerUVC::queueRequestDevice(Camera *camera, Request *request) { UVCCameraData *data = cameraData(camera); FrameBuffer *buffer = request->findBuffer(&data->stream_); if (!buffer) { LOG(UVC, Error) << "Attempt to queue request with invalid stream"; return -ENOENT; } int ret = processControls(data, request); if (ret < 0) return ret; ret = data->video_->queueBuffer(buffer); if (ret < 0) return ret; return 0; } bool PipelineHandlerUVC::match(DeviceEnumerator *enumerator) { MediaDevice *media; DeviceMatch dm("uvcvideo"); media = acquireMediaDevice(enumerator, dm); if (!media) return false; std::unique_ptr<UVCCameraData> data = std::make_unique<UVCCameraData>(this); /* Locate and initialise the camera data with the default video node. */ const std::vector<MediaEntity *> &entities = media->entities(); auto entity = std::find_if(entities.begin(), entities.end(), [](MediaEntity *entity) { return entity->flags() & MEDIA_ENT_FL_DEFAULT; }); if (entity == entities.end()) { LOG(UVC, Error) << "Could not find a default video device"; return false; } if (data->init(*entity)) return false; dev_t devnum = makedev((*entity)->deviceMajor(), (*entity)->deviceMinor()); /* Create and register the camera. */ std::set<Stream *> streams{ &data->stream_ }; std::shared_ptr<Camera> camera = Camera::create(this, media->model(), streams); registerCamera(std::move(camera), std::move(data), devnum); /* Enable hot-unplug notifications. */ hotplugMediaDevice(media); return true; } int UVCCameraData::init(MediaEntity *entity) { int ret; /* Create and open the video device. */ video_ = new V4L2VideoDevice(entity); ret = video_->open(); if (ret) return ret; video_->bufferReady.connect(this, &UVCCameraData::bufferReady); /* Initialise the supported controls. */ const ControlInfoMap &controls = video_->controls(); ControlInfoMap::Map ctrls; for (const auto &ctrl : controls) { const ControlRange &range = ctrl.second; const ControlId *id; switch (ctrl.first->id()) { case V4L2_CID_BRIGHTNESS: id = &controls::Brightness; break; case V4L2_CID_CONTRAST: id = &controls::Contrast; break; case V4L2_CID_SATURATION: id = &controls::Saturation; break; case V4L2_CID_EXPOSURE_ABSOLUTE: id = &controls::ManualExposure; break; case V4L2_CID_GAIN: id = &controls::ManualGain; break; default: continue; } ctrls.emplace(id, range); } controlInfo_ = std::move(ctrls); return 0; } void UVCCameraData::bufferReady(FrameBuffer *buffer) { Request *request = buffer->request(); pipe_->completeBuffer(camera_, request, buffer); pipe_->completeRequest(camera_, request); } REGISTER_PIPELINE_HANDLER(PipelineHandlerUVC); } /* namespace libcamera */