{"id":1755,"url":"https://patchwork.libcamera.org/api/patches/1755/?format=json","web_url":"https://patchwork.libcamera.org/patch/1755/","project":{"id":1,"url":"https://patchwork.libcamera.org/api/projects/1/?format=json","name":"libcamera","link_name":"libcamera","list_id":"libcamera_core","list_email":"libcamera-devel@lists.libcamera.org","web_url":"","scm_url":"","webscm_url":""},"msgid":"<20190808151221.24254-7-kieran.bingham@ideasonboard.com>","date":"2019-08-08T15:12:21","name":"[libcamera-devel,6/6,PoC/RFC] libcamera: pipeline: Add RaspberryPi handler","commit_ref":null,"pull_url":null,"state":"superseded","archived":false,"hash":"75fb91393c7330207c759633c338d64b3ab9c8ca","submitter":{"id":4,"url":"https://patchwork.libcamera.org/api/people/4/?format=json","name":"Kieran Bingham","email":"kieran.bingham@ideasonboard.com"},"delegate":null,"mbox":"https://patchwork.libcamera.org/patch/1755/mbox/","series":[{"id":449,"url":"https://patchwork.libcamera.org/api/series/449/?format=json","web_url":"https://patchwork.libcamera.org/project/libcamera/list/?series=449","date":"2019-08-08T15:12:15","name":"V4L2 M2M Support (+RPi PoC)","version":1,"mbox":"https://patchwork.libcamera.org/series/449/mbox/"}],"comments":"https://patchwork.libcamera.org/api/patches/1755/comments/","check":"pending","checks":"https://patchwork.libcamera.org/api/patches/1755/checks/","tags":{},"headers":{"Return-Path":"","Received":["from perceval.ideasonboard.com (perceval.ideasonboard.com\n\t[IPv6:2001:4b98:dc2:55:216:3eff:fef7:d647])\n\tby lancelot.ideasonboard.com (Postfix) with ESMTPS id 7006D61620\n\tfor ;\n\tThu, 8 Aug 2019 17:12:28 +0200 (CEST)","from localhost.localdomain\n\t(cpc89242-aztw30-2-0-cust488.18-1.cable.virginm.net [86.31.129.233])\n\tby perceval.ideasonboard.com (Postfix) with ESMTPSA id E6A08CC;\n\tThu, 8 Aug 2019 17:12:27 +0200 (CEST)"],"DKIM-Signature":"v=1; a=rsa-sha256; c=relaxed/simple; d=ideasonboard.com;\n\ts=mail; t=1565277148;\n\tbh=ut3sD1T0kboJx3d8eUc+FZhmLuwtehfrxSpQoG7zK+c=;\n\th=From:To:Cc:Subject:Date:In-Reply-To:References:From;\n\tb=pAw2kHV9YtiWLgzMkb6dv/x6wGshzKTTKcC0IU1uRnBvpcqBwmFQHfX5TePb09EVp\n\txBnFRjYdc5N2Pc8PAgVCnY6VcTlQGHPczwnLmlCXk3Qmg6i3z48b1F4Iwh3DoDzKBX\n\tmp2Gdm3QzwI1zBTqRxuz3K55UF5X1Gk3lTMsot7o=","From":"Kieran Bingham ","To":"LibCamera Devel ","Date":"Thu, 8 Aug 2019 16:12:21 +0100","Message-Id":"<20190808151221.24254-7-kieran.bingham@ideasonboard.com>","X-Mailer":"git-send-email 2.20.1","In-Reply-To":"<20190808151221.24254-1-kieran.bingham@ideasonboard.com>","References":"<20190808151221.24254-1-kieran.bingham@ideasonboard.com>","MIME-Version":"1.0","Content-Transfer-Encoding":"8bit","Subject":"[libcamera-devel] [PATCH 6/6] [PoC/RFC] libcamera: pipeline: Add\n\tRaspberryPi handler","X-BeenThere":"libcamera-devel@lists.libcamera.org","X-Mailman-Version":"2.1.23","Precedence":"list","List-Id":"","List-Unsubscribe":",\n\t","List-Archive":"","List-Post":"","List-Help":"","List-Subscribe":",\n\t","X-List-Received-Date":"Thu, 08 Aug 2019 15:12:29 -0000"},"content":"Utilise the CameraSensor class and construct a pipeline for a single\nsensor on the Unicam, routed through the V4L2 Codec ISP interface.\n\nSigned-off-by: Kieran Bingham \n---\n src/libcamera/pipeline/meson.build | 1 +\n src/libcamera/pipeline/raspberrypi.cpp | 425 +++++++++++++++++++++++++\n 2 files changed, 426 insertions(+)\n create mode 100644 src/libcamera/pipeline/raspberrypi.cpp","diff":"diff --git a/src/libcamera/pipeline/meson.build b/src/libcamera/pipeline/meson.build\nindex 0d466225a72e..7ed7b26f3033 100644\n--- a/src/libcamera/pipeline/meson.build\n+++ b/src/libcamera/pipeline/meson.build\n@@ -1,4 +1,5 @@\n libcamera_sources += files([\n+ 'raspberrypi.cpp',\n 'uvcvideo.cpp',\n 'vimc.cpp',\n ])\ndiff --git a/src/libcamera/pipeline/raspberrypi.cpp b/src/libcamera/pipeline/raspberrypi.cpp\nnew file mode 100644\nindex 000000000000..4c4c3dea0113\n--- /dev/null\n+++ b/src/libcamera/pipeline/raspberrypi.cpp\n@@ -0,0 +1,425 @@\n+/* SPDX-License-Identifier: LGPL-2.1-or-later */\n+/*\n+ * Copyright (C) 2019, Google Inc.\n+ *\n+ * raspberrypi.cpp - Pipeline handler for raspberrypi devices\n+ */\n+\n+#include \n+#include \n+#include \n+\n+#include \"camera_sensor.h\"\n+#include \"device_enumerator.h\"\n+#include \"log.h\"\n+#include \"media_device.h\"\n+#include \"pipeline_handler.h\"\n+#include \"utils.h\"\n+#include \"v4l2_controls.h\"\n+#include \"v4l2_videodevice.h\"\n+\n+namespace libcamera {\n+\n+LOG_DEFINE_CATEGORY(RPI)\n+\n+class RPiCameraData : public CameraData\n+{\n+public:\n+\tRPiCameraData(PipelineHandler *pipe)\n+\t\t: CameraData(pipe), sensor_(nullptr), unicam_(nullptr),\n+\t\t isp_(nullptr)\n+\t{\n+\t}\n+\n+\t~RPiCameraData()\n+\t{\n+\t\tbayerBuffers_.destroyBuffers();\n+\t\tdelete unicam_;\n+\t\tdelete isp_;\n+\t}\n+\n+\tvoid sensorReady(Buffer *buffer);\n+\tvoid ispOutputReady(Buffer *buffer);\n+\tvoid ispCaptureReady(Buffer *buffer);\n+\n+\tCameraSensor *sensor_;\n+\tV4L2VideoDevice *unicam_;\n+\tV4L2M2MDevice *isp_;\n+\tStream stream_;\n+\n+\tBufferPool bayerBuffers_;\n+\tstd::vector> rawBuffers_;\n+};\n+\n+class RPiCameraConfiguration : public CameraConfiguration\n+{\n+public:\n+\tRPiCameraConfiguration();\n+\n+\tStatus validate() override;\n+};\n+\n+class PipelineHandlerRPi : public PipelineHandler\n+{\n+public:\n+\tPipelineHandlerRPi(CameraManager *manager);\n+\t~PipelineHandlerRPi();\n+\n+\tCameraConfiguration *\n+\tgenerateConfiguration(Camera *camera,\n+\t\t\t const StreamRoles &roles) override;\n+\tint configure(Camera *camera,\n+\t\t CameraConfiguration *config) override;\n+\n+\tint allocateBuffers(Camera *camera,\n+\t\t\t const std::set &streams) override;\n+\tint freeBuffers(Camera *camera,\n+\t\t\tconst std::set &streams) override;\n+\n+\tint start(Camera *camera) override;\n+\tvoid stop(Camera *camera) override;\n+\n+\tint queueRequest(Camera *camera, Request *request) override;\n+\n+\tbool match(DeviceEnumerator *enumerator) override;\n+\n+private:\n+\tRPiCameraData *cameraData(const Camera *camera)\n+\t{\n+\t\treturn static_cast(\n+\t\t\tPipelineHandler::cameraData(camera));\n+\t}\n+\n+\tstd::shared_ptr unicam_;\n+\tstd::shared_ptr codec_;\n+};\n+\n+RPiCameraConfiguration::RPiCameraConfiguration()\n+\t: CameraConfiguration()\n+{\n+}\n+\n+CameraConfiguration::Status RPiCameraConfiguration::validate()\n+{\n+\tStatus status = Valid;\n+\n+\tif (config_.empty())\n+\t\treturn Invalid;\n+\n+\t/* Todo: Experiment with increased stream support through the ISP. */\n+\tif (config_.size() > 1) {\n+\t\tconfig_.resize(1);\n+\t\tstatus = Adjusted;\n+\t}\n+\n+\tStreamConfiguration &cfg = config_[0];\n+\n+\t/* Todo: restrict to hardware capabilities. */\n+\n+\tcfg.bufferCount = 4;\n+\n+\treturn status;\n+}\n+\n+PipelineHandlerRPi::PipelineHandlerRPi(CameraManager *manager)\n+\t: PipelineHandler(manager), unicam_(nullptr), codec_(nullptr)\n+{\n+}\n+\n+PipelineHandlerRPi::~PipelineHandlerRPi()\n+{\n+\tif (unicam_)\n+\t\tunicam_->release();\n+\n+\tif (codec_)\n+\t\tcodec_->release();\n+}\n+\n+CameraConfiguration *\n+PipelineHandlerRPi::generateConfiguration(Camera *camera,\n+\t\t\t\t\t const StreamRoles &roles)\n+{\n+\tCameraConfiguration *config = new RPiCameraConfiguration();\n+\n+\tif (roles.empty())\n+\t\treturn config;\n+\n+\tStreamConfiguration cfg{};\n+\tcfg.pixelFormat = V4L2_PIX_FMT_YUYV;\n+\tcfg.size = { 1920, 1080 }; // data->sensor_->resolution();\n+\tcfg.bufferCount = 4;\n+\n+\tLOG(RPI, Debug) << \"Config default as \" << cfg.toString();\n+\n+\tconfig->addConfiguration(cfg);\n+\n+\tconfig->validate();\n+\n+\treturn config;\n+}\n+\n+int PipelineHandlerRPi::configure(Camera *camera,\n+\t\t\t\t CameraConfiguration *config)\n+{\n+\tRPiCameraData *data = cameraData(camera);\n+\tStreamConfiguration &cfg = config->at(0);\n+\tint ret;\n+\n+\tSize sensorSize = { 1920, 1080 };\n+\tSize outputSize = { 1920, 1088 };\n+\n+\tV4L2DeviceFormat format = {};\n+\tformat.size = sensorSize;\n+\tformat.fourcc = V4L2_PIX_FMT_SRGGB10P;\n+\n+\tLOG(RPI, Debug) << \"Setting format to \" << format.toString();\n+\n+\tret = data->unicam_->setFormat(&format);\n+\tif (ret)\n+\t\treturn ret;\n+\n+\tif (format.size != sensorSize ||\n+\t format.fourcc != V4L2_PIX_FMT_SRGGB10P) {\n+\t\tLOG(RPI, Error)\n+\t\t\t<< \"Failed to set format on Video device: \"\n+\t\t\t<< format.toString();\n+\t\treturn -EINVAL;\n+\t}\n+\n+\tformat.size = outputSize;\n+\n+\tret = data->isp_->output()->setFormat(&format);\n+\n+\tif (format.size != outputSize ||\n+\t format.fourcc != V4L2_PIX_FMT_SRGGB10P) {\n+\t\tLOG(RPI, Error) << \"Failed to set format on ISP output device: \"\n+\t\t\t\t<< format.toString();\n+\t\treturn -EINVAL;\n+\t}\n+\n+\t/* Configure the ISP based to generate the requested size and format. */\n+\tformat.size = cfg.size;\n+\tformat.fourcc = cfg.pixelFormat;\n+\n+\tret = data->isp_->capture()->setFormat(&format);\n+\n+\tif (format.size != cfg.size ||\n+\t format.fourcc != cfg.pixelFormat) {\n+\t\tLOG(RPI, Error)\n+\t\t\t<< \"Failed to set format on ISP capture device: \"\n+\t\t\t<< format.toString();\n+\t\treturn -EINVAL;\n+\t}\n+\n+\tcfg.setStream(&data->stream_);\n+\n+\treturn 0;\n+}\n+\n+int PipelineHandlerRPi::allocateBuffers(Camera *camera,\n+\t\t\t\t\tconst std::set &streams)\n+{\n+\tRPiCameraData *data = cameraData(camera);\n+\tStream *stream = *streams.begin();\n+\tconst StreamConfiguration &cfg = stream->configuration();\n+\tint ret;\n+\n+\tLOG(RPI, Debug) << \"Requesting \" << cfg.bufferCount << \" buffers\";\n+\n+\t/*\n+\t * Buffers are allocated on the camera, and the capture pad of the ISP\n+\t * unicam -> isp.output -> isp.capture -> Application\n+\t */\n+\n+\t/* Create a new intermediate buffer pool */\n+\tdata->bayerBuffers_.createBuffers(cfg.bufferCount);\n+\n+\t/* Tie the unicam video buffers to the intermediate pool */\n+\tret = data->unicam_->exportBuffers(&data->bayerBuffers_);\n+\tif (ret)\n+\t\treturn ret;\n+\n+\tret = data->isp_->output()->importBuffers(&data->bayerBuffers_);\n+\tif (ret)\n+\t\treturn ret;\n+\n+\t/* Tie the stream buffers to the capture device of the ISP */\n+\tif (stream->memoryType() == InternalMemory)\n+\t\tret = data->isp_->capture()->exportBuffers(&stream->bufferPool());\n+\telse\n+\t\tret = data->isp_->capture()->importBuffers(&stream->bufferPool());\n+\n+\treturn ret;\n+}\n+\n+int PipelineHandlerRPi::freeBuffers(Camera *camera,\n+\t\t\t\t const std::set &streams)\n+{\n+\tRPiCameraData *data = cameraData(camera);\n+\tint ret;\n+\n+\tret = data->unicam_->releaseBuffers();\n+\tret = data->isp_->output()->releaseBuffers();\n+\tret = data->isp_->capture()->releaseBuffers();\n+\n+\tdata->bayerBuffers_.destroyBuffers();\n+\n+\treturn ret;\n+}\n+\n+int PipelineHandlerRPi::start(Camera *camera)\n+{\n+\tRPiCameraData *data = cameraData(camera);\n+\tint ret;\n+\n+\tdata->rawBuffers_ = data->unicam_->queueAllBuffers();\n+\tif (data->rawBuffers_.empty()) {\n+\t\tLOG(RPI, Debug) << \"Failed to queue unicam buffers\";\n+\t\treturn -EINVAL;\n+\t}\n+\n+\tLOG(RPI, Warning) << \"Using hard-coded exposure/gain defaults\";\n+\n+\tV4L2ControlList controls;\n+\tcontrols.add(V4L2_CID_EXPOSURE, 1700);\n+\tcontrols.add(V4L2_CID_ANALOGUE_GAIN, 180);\n+\tret = data->unicam_->setControls(&controls);\n+\tif (ret) {\n+\t\tLOG(RPI, Error) << \"Failed to set controls\";\n+\t\treturn ret;\n+\t}\n+\n+\tret = data->isp_->output()->streamOn();\n+\tif (ret)\n+\t\treturn ret;\n+\n+\tret = data->isp_->capture()->streamOn();\n+\tif (ret)\n+\t\treturn ret;\n+\n+\tret = data->unicam_->streamOn();\n+\tif (ret)\n+\t\treturn ret;\n+\n+\treturn ret;\n+}\n+\n+void PipelineHandlerRPi::stop(Camera *camera)\n+{\n+\tRPiCameraData *data = cameraData(camera);\n+\n+\tdata->isp_->capture()->streamOff();\n+\tdata->isp_->output()->streamOff();\n+\tdata->unicam_->streamOff();\n+\n+\tdata->rawBuffers_.clear();\n+}\n+\n+int PipelineHandlerRPi::queueRequest(Camera *camera, Request *request)\n+{\n+\tRPiCameraData *data = cameraData(camera);\n+\tBuffer *buffer = request->findBuffer(&data->stream_);\n+\tif (!buffer) {\n+\t\tLOG(RPI, Error)\n+\t\t\t<< \"Attempt to queue request with invalid stream\";\n+\n+\t\treturn -ENOENT;\n+\t}\n+\n+\tint ret = data->isp_->capture()->queueBuffer(buffer);\n+\tif (ret < 0)\n+\t\treturn ret;\n+\n+\tPipelineHandler::queueRequest(camera, request);\n+\n+\treturn 0;\n+}\n+\n+bool PipelineHandlerRPi::match(DeviceEnumerator *enumerator)\n+{\n+\tDeviceMatch unicam(\"unicam\");\n+\tDeviceMatch codec(\"bcm2835-codec\");\n+\n+\t/* We explicitly need the ISP device from the MMAL codec driver. */\n+\tcodec.add(\"bcm2835-codec-isp\");\n+\n+\tunicam_ = enumerator->search(unicam);\n+\tif (!unicam_)\n+\t\treturn false;\n+\n+\tcodec_ = enumerator->search(codec);\n+\tif (!codec_)\n+\t\treturn false;\n+\n+\tunicam_->acquire();\n+\tcodec_->acquire();\n+\n+\tstd::unique_ptr data = utils::make_unique(this);\n+\n+\t/* Locate and open the unicam video node. */\n+\tdata->unicam_ = new V4L2VideoDevice(unicam_->getEntityByName(\"unicam\"));\n+\tif (data->unicam_->open())\n+\t\treturn false;\n+\n+\t/* Locate the ISP M2M node */\n+\tMediaEntity *isp = codec_->getEntityByName(\"bcm2835-codec-isp\");\n+\tif (!isp)\n+\t\treturn false;\n+\n+\tdata->isp_ = new V4L2M2MDevice(isp->deviceNode());\n+\tif (data->isp_->status()) {\n+\t\tLOG(RPI, Error) << \"Could not create the ISP device\";\n+\t\treturn false;\n+\t}\n+\n+\tdata->unicam_->bufferReady.connect(data.get(), &RPiCameraData::sensorReady);\n+\tdata->isp_->output()->bufferReady.connect(data.get(), &RPiCameraData::ispOutputReady);\n+\tdata->isp_->capture()->bufferReady.connect(data.get(), &RPiCameraData::ispCaptureReady);\n+\n+\t/* Identify the sensor */\n+\tfor (MediaEntity *entity : unicam_->entities()) {\n+\t\tif (entity->function() == MEDIA_ENT_F_CAM_SENSOR) {\n+\t\t\tdata->sensor_ = new CameraSensor(entity);\n+\t\t\tbreak;\n+\t\t}\n+\t}\n+\n+\tif (!data->sensor_)\n+\t\treturn false;\n+\n+\tint ret = data->sensor_->init();\n+\tif (ret)\n+\t\treturn false;\n+\n+\t/* Create and register the camera. */\n+\tstd::set streams{ &data->stream_ };\n+\tstd::shared_ptr camera =\n+\t\tCamera::create(this, data->sensor_->entity()->name(), streams);\n+\tregisterCamera(std::move(camera), std::move(data));\n+\n+\treturn true;\n+}\n+\n+void RPiCameraData::sensorReady(Buffer *buffer)\n+{\n+\t/* Deliver the frame from the sensor to the ISP */\n+\tisp_->output()->queueBuffer(buffer);\n+}\n+\n+void RPiCameraData::ispOutputReady(Buffer *buffer)\n+{\n+\t/* Return a completed buffer from the ISP back to the sensor */\n+\tunicam_->queueBuffer(buffer);\n+}\n+\n+void RPiCameraData::ispCaptureReady(Buffer *buffer)\n+{\n+\tRequest *request = buffer->request();\n+\n+\tpipe_->completeBuffer(camera_, request, buffer);\n+\tpipe_->completeRequest(camera_, request);\n+}\n+\n+REGISTER_PIPELINE_HANDLER(PipelineHandlerRPi);\n+\n+} /* namespace libcamera */\n","prefixes":["libcamera-devel","6/6","PoC/RFC"]}