2023-08-30 17:31:07 +02:00
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.. SPDX-License-Identifier: GPL-2.0
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.. include:: <isonum.txt>
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=========================================
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Rockchip Image Signal Processor (rkisp1)
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=========================================
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Introduction
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============
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This file documents the driver for the Rockchip ISP1 that is part of RK3288
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2023-10-24 12:59:35 +02:00
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and RK3399 SoCs. The driver is located under drivers/media/platform/rockchip/
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rkisp1 and uses the Media-Controller API.
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2023-08-30 17:31:07 +02:00
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Revisions
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=========
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There exist multiple smaller revisions to this ISP that got introduced in
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later SoCs. Revisions can be found in the enum :c:type:`rkisp1_cif_isp_version`
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in the UAPI and the revision of the ISP inside the running SoC can be read
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in the field hw_revision of struct media_device_info as returned by
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ioctl MEDIA_IOC_DEVICE_INFO.
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Versions in use are:
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- RKISP1_V10: used at least in rk3288 and rk3399
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- RKISP1_V11: declared in the original vendor code, but not used
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- RKISP1_V12: used at least in rk3326 and px30
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- RKISP1_V13: used at least in rk1808
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Topology
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========
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.. _rkisp1_topology_graph:
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.. kernel-figure:: rkisp1.dot
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:alt: Diagram of the default media pipeline topology
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:align: center
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The driver has 4 video devices:
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- rkisp1_mainpath: capture device for retrieving images, usually in higher
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resolution.
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- rkisp1_selfpath: capture device for retrieving images.
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- rkisp1_stats: a metadata capture device that sends statistics.
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- rkisp1_params: a metadata output device that receives parameters
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configurations from userspace.
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The driver has 3 subdevices:
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- rkisp1_resizer_mainpath: used to resize and downsample frames for the
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mainpath capture device.
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- rkisp1_resizer_selfpath: used to resize and downsample frames for the
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selfpath capture device.
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- rkisp1_isp: is connected to the sensor and is responsible for all the isp
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operations.
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rkisp1_mainpath, rkisp1_selfpath - Frames Capture Video Nodes
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-------------------------------------------------------------
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Those are the `mainpath` and `selfpath` capture devices to capture frames.
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Those entities are the DMA engines that write the frames to memory.
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The selfpath video device can capture YUV/RGB formats. Its input is YUV encoded
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stream and it is able to convert it to RGB. The selfpath is not able to
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capture bayer formats.
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The mainpath can capture both bayer and YUV formats but it is not able to
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capture RGB formats.
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Both capture videos support
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the ``V4L2_CAP_IO_MC`` :ref:`capability <device-capabilities>`.
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rkisp1_resizer_mainpath, rkisp1_resizer_selfpath - Resizers Subdevices Nodes
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----------------------------------------------------------------------------
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Those are resizer entities for the mainpath and the selfpath. Those entities
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can scale the frames up and down and also change the YUV sampling (for example
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YUV4:2:2 -> YUV4:2:0). They also have cropping capability on the sink pad.
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The resizers entities can only operate on YUV:4:2:2 format
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(MEDIA_BUS_FMT_YUYV8_2X8).
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The mainpath capture device supports capturing video in bayer formats. In that
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case the resizer of the mainpath is set to 'bypass' mode - it just forward the
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frame without operating on it.
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rkisp1_isp - Image Signal Processing Subdevice Node
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---------------------------------------------------
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This is the isp entity. It is connected to the sensor on sink pad 0 and
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receives the frames using the CSI-2 protocol. It is responsible of configuring
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the CSI-2 protocol. It has a cropping capability on sink pad 0 that is
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connected to the sensor and on source pad 2 connected to the resizer entities.
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Cropping on sink pad 0 defines the image region from the sensor.
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Cropping on source pad 2 defines the region for the Image Stabilizer (IS).
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.. _rkisp1_stats:
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rkisp1_stats - Statistics Video Node
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------------------------------------
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The statistics video node outputs the 3A (auto focus, auto exposure and auto
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white balance) statistics, and also histogram statistics for the frames that
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are being processed by the rkisp1 to userspace applications.
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Using these data, applications can implement algorithms and re-parameterize
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the driver through the rkisp_params node to improve image quality during a
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video stream.
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The buffer format is defined by struct :c:type:`rkisp1_stat_buffer`, and
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userspace should set
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:ref:`V4L2_META_FMT_RK_ISP1_STAT_3A <v4l2-meta-fmt-rk-isp1-stat-3a>` as the
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dataformat.
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.. _rkisp1_params:
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rkisp1_params - Parameters Video Node
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-------------------------------------
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The rkisp1_params video node receives a set of parameters from userspace
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to be applied to the hardware during a video stream, allowing userspace
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to dynamically modify values such as black level, cross talk corrections
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and others.
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The buffer format is defined by struct :c:type:`rkisp1_params_cfg`, and
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userspace should set
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:ref:`V4L2_META_FMT_RK_ISP1_PARAMS <v4l2-meta-fmt-rk-isp1-params>` as the
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dataformat.
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Capturing Video Frames Example
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==============================
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In the following example, the sensor connected to pad 0 of 'rkisp1_isp' is
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imx219.
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The following commands can be used to capture video from the selfpath video
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node with dimension 900x800 planar format YUV 4:2:2. It uses all cropping
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capabilities possible, (see explanation right below)
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.. code-block:: bash
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# set the links
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"media-ctl" "-d" "platform:rkisp1" "-r"
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"media-ctl" "-d" "platform:rkisp1" "-l" "'imx219 4-0010':0 -> 'rkisp1_isp':0 [1]"
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"media-ctl" "-d" "platform:rkisp1" "-l" "'rkisp1_isp':2 -> 'rkisp1_resizer_selfpath':0 [1]"
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"media-ctl" "-d" "platform:rkisp1" "-l" "'rkisp1_isp':2 -> 'rkisp1_resizer_mainpath':0 [0]"
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# set format for imx219 4-0010:0
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"media-ctl" "-d" "platform:rkisp1" "--set-v4l2" '"imx219 4-0010":0 [fmt:SRGGB10_1X10/1640x1232]'
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# set format for rkisp1_isp pads:
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"media-ctl" "-d" "platform:rkisp1" "--set-v4l2" '"rkisp1_isp":0 [fmt:SRGGB10_1X10/1640x1232 crop: (0,0)/1600x1200]'
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"media-ctl" "-d" "platform:rkisp1" "--set-v4l2" '"rkisp1_isp":2 [fmt:YUYV8_2X8/1600x1200 crop: (0,0)/1500x1100]'
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# set format for rkisp1_resizer_selfpath pads:
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"media-ctl" "-d" "platform:rkisp1" "--set-v4l2" '"rkisp1_resizer_selfpath":0 [fmt:YUYV8_2X8/1500x1100 crop: (300,400)/1400x1000]'
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"media-ctl" "-d" "platform:rkisp1" "--set-v4l2" '"rkisp1_resizer_selfpath":1 [fmt:YUYV8_2X8/900x800]'
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# set format for rkisp1_selfpath:
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"v4l2-ctl" "-z" "platform:rkisp1" "-d" "rkisp1_selfpath" "-v" "width=900,height=800,"
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"v4l2-ctl" "-z" "platform:rkisp1" "-d" "rkisp1_selfpath" "-v" "pixelformat=422P"
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# start streaming:
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v4l2-ctl "-z" "platform:rkisp1" "-d" "rkisp1_selfpath" "--stream-mmap" "--stream-count" "10"
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In the above example the sensor is configured to bayer format:
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`SRGGB10_1X10/1640x1232`. The rkisp1_isp:0 pad should be configured to the
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same mbus format and dimensions as the sensor, otherwise streaming will fail
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with 'EPIPE' error. So it is also configured to `SRGGB10_1X10/1640x1232`.
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In addition, the rkisp1_isp:0 pad is configured to cropping `(0,0)/1600x1200`.
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The cropping dimensions are automatically propagated to be the format of the
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isp source pad `rkisp1_isp:2`. Another cropping operation is configured on
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the isp source pad: `(0,0)/1500x1100`.
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The resizer's sink pad `rkisp1_resizer_selfpath` should be configured to format
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`YUYV8_2X8/1500x1100` in order to match the format on the other side of the
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link. In addition a cropping `(300,400)/1400x1000` is configured on it.
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The source pad of the resizer, `rkisp1_resizer_selfpath:1` is configured to
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format `YUYV8_2X8/900x800`. That means that the resizer first crop a window
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of `(300,400)/1400x100` from the received frame and then scales this window
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to dimension `900x800`.
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Note that the above example does not uses the stats-params control loop.
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Therefore the capture frames will not go through the 3A algorithms and
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probably won't have a good quality, and can even look dark and greenish.
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Configuring Quantization
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========================
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The driver supports limited and full range quantization on YUV formats,
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where limited is the default.
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To switch between one or the other, userspace should use the Colorspace
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Conversion API (CSC) for subdevices on source pad 2 of the
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isp (`rkisp1_isp:2`). The quantization configured on this pad is the
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quantization of the captured video frames on the mainpath and selfpath
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video nodes.
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Note that the resizer and capture entities will always report
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``V4L2_QUANTIZATION_DEFAULT`` even if the quantization is configured to full
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range on `rkisp1_isp:2`. So in order to get the configured quantization,
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application should get it from pad `rkisp1_isp:2`.
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