457 lines
18 KiB
ReStructuredText
457 lines
18 KiB
ReStructuredText
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.. -*- coding: utf-8; mode: rst -*-
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.. _subdev:
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********************
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Sub-device Interface
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********************
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The complex nature of V4L2 devices, where hardware is often made of
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several integrated circuits that need to interact with each other in a
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controlled way, leads to complex V4L2 drivers. The drivers usually
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reflect the hardware model in software, and model the different hardware
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components as software blocks called sub-devices.
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V4L2 sub-devices are usually kernel-only objects. If the V4L2 driver
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implements the media device API, they will automatically inherit from
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media entities. Applications will be able to enumerate the sub-devices
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and discover the hardware topology using the media entities, pads and
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links enumeration API.
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In addition to make sub-devices discoverable, drivers can also choose to
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make them directly configurable by applications. When both the
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sub-device driver and the V4L2 device driver support this, sub-devices
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will feature a character device node on which ioctls can be called to
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- query, read and write sub-devices controls
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- subscribe and unsubscribe to events and retrieve them
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- negotiate image formats on individual pads
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Sub-device character device nodes, conventionally named
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``/dev/v4l-subdev*``, use major number 81.
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Controls
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========
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Most V4L2 controls are implemented by sub-device hardware. Drivers
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usually merge all controls and expose them through video device nodes.
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Applications can control all sub-devices through a single interface.
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Complex devices sometimes implement the same control in different pieces
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of hardware. This situation is common in embedded platforms, where both
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sensors and image processing hardware implement identical functions,
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such as contrast adjustment, white balance or faulty pixels correction.
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As the V4L2 controls API doesn't support several identical controls in a
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single device, all but one of the identical controls are hidden.
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Applications can access those hidden controls through the sub-device
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node with the V4L2 control API described in :ref:`control`. The ioctls
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behave identically as when issued on V4L2 device nodes, with the
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exception that they deal only with controls implemented in the
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sub-device.
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Depending on the driver, those controls might also be exposed through
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one (or several) V4L2 device nodes.
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Events
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======
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V4L2 sub-devices can notify applications of events as described in
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:ref:`event`. The API behaves identically as when used on V4L2 device
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nodes, with the exception that it only deals with events generated by
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the sub-device. Depending on the driver, those events might also be
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reported on one (or several) V4L2 device nodes.
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.. _pad-level-formats:
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Pad-level Formats
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=================
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.. warning::
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Pad-level formats are only applicable to very complex devices that
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need to expose low-level format configuration to user space. Generic
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V4L2 applications do *not* need to use the API described in this
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section.
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.. note::
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For the purpose of this section, the term *format* means the
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combination of media bus data format, frame width and frame height.
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Image formats are typically negotiated on video capture and output
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devices using the format and
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:ref:`selection <VIDIOC_SUBDEV_G_SELECTION>` ioctls. The driver is
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responsible for configuring every block in the video pipeline according
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to the requested format at the pipeline input and/or output.
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For complex devices, such as often found in embedded systems, identical
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image sizes at the output of a pipeline can be achieved using different
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hardware configurations. One such example is shown on
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:ref:`pipeline-scaling`, where image scaling can be performed on both
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the video sensor and the host image processing hardware.
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.. _pipeline-scaling:
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.. figure:: dev-subdev_files/pipeline.*
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:alt: pipeline.pdf / pipeline.png
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:align: center
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Image Format Negotiation on Pipelines
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High quality and high speed pipeline configuration
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The sensor scaler is usually of less quality than the host scaler, but
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scaling on the sensor is required to achieve higher frame rates.
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Depending on the use case (quality vs. speed), the pipeline must be
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configured differently. Applications need to configure the formats at
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every point in the pipeline explicitly.
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Drivers that implement the :ref:`media API <media-controller-intro>`
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can expose pad-level image format configuration to applications. When
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they do, applications can use the
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:ref:`VIDIOC_SUBDEV_G_FMT <VIDIOC_SUBDEV_G_FMT>` and
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:ref:`VIDIOC_SUBDEV_S_FMT <VIDIOC_SUBDEV_G_FMT>` ioctls. to
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negotiate formats on a per-pad basis.
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Applications are responsible for configuring coherent parameters on the
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whole pipeline and making sure that connected pads have compatible
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formats. The pipeline is checked for formats mismatch at
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:ref:`VIDIOC_STREAMON <VIDIOC_STREAMON>` time, and an ``EPIPE`` error
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code is then returned if the configuration is invalid.
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Pad-level image format configuration support can be tested by calling
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the :ref:`VIDIOC_SUBDEV_G_FMT` ioctl on pad
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0. If the driver returns an ``EINVAL`` error code pad-level format
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configuration is not supported by the sub-device.
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Format Negotiation
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------------------
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Acceptable formats on pads can (and usually do) depend on a number of
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external parameters, such as formats on other pads, active links, or
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even controls. Finding a combination of formats on all pads in a video
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pipeline, acceptable to both application and driver, can't rely on
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formats enumeration only. A format negotiation mechanism is required.
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Central to the format negotiation mechanism are the get/set format
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operations. When called with the ``which`` argument set to
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:ref:`V4L2_SUBDEV_FORMAT_TRY <VIDIOC_SUBDEV_G_FMT>`, the
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:ref:`VIDIOC_SUBDEV_G_FMT <VIDIOC_SUBDEV_G_FMT>` and
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:ref:`VIDIOC_SUBDEV_S_FMT <VIDIOC_SUBDEV_G_FMT>` ioctls operate on
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a set of formats parameters that are not connected to the hardware
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configuration. Modifying those 'try' formats leaves the device state
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untouched (this applies to both the software state stored in the driver
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and the hardware state stored in the device itself).
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While not kept as part of the device state, try formats are stored in
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the sub-device file handles. A
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:ref:`VIDIOC_SUBDEV_G_FMT <VIDIOC_SUBDEV_G_FMT>` call will return
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the last try format set *on the same sub-device file handle*. Several
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applications querying the same sub-device at the same time will thus not
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interact with each other.
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To find out whether a particular format is supported by the device,
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applications use the
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:ref:`VIDIOC_SUBDEV_S_FMT <VIDIOC_SUBDEV_G_FMT>` ioctl. Drivers
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verify and, if needed, change the requested ``format`` based on device
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requirements and return the possibly modified value. Applications can
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then choose to try a different format or accept the returned value and
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continue.
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Formats returned by the driver during a negotiation iteration are
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guaranteed to be supported by the device. In particular, drivers
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guarantee that a returned format will not be further changed if passed
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to an :ref:`VIDIOC_SUBDEV_S_FMT <VIDIOC_SUBDEV_G_FMT>` call as-is
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(as long as external parameters, such as formats on other pads or links'
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configuration are not changed).
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Drivers automatically propagate formats inside sub-devices. When a try
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or active format is set on a pad, corresponding formats on other pads of
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the same sub-device can be modified by the driver. Drivers are free to
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modify formats as required by the device. However, they should comply
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with the following rules when possible:
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- Formats should be propagated from sink pads to source pads. Modifying
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a format on a source pad should not modify the format on any sink
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pad.
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- Sub-devices that scale frames using variable scaling factors should
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reset the scale factors to default values when sink pads formats are
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modified. If the 1:1 scaling ratio is supported, this means that
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source pads formats should be reset to the sink pads formats.
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Formats are not propagated across links, as that would involve
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propagating them from one sub-device file handle to another.
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Applications must then take care to configure both ends of every link
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explicitly with compatible formats. Identical formats on the two ends of
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a link are guaranteed to be compatible. Drivers are free to accept
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different formats matching device requirements as being compatible.
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:ref:`sample-pipeline-config` shows a sample configuration sequence
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for the pipeline described in :ref:`pipeline-scaling` (table columns
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list entity names and pad numbers).
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.. raw:: latex
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\begin{adjustbox}{width=\columnwidth}
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.. tabularcolumns:: |p{4.5cm}|p{4.5cm}|p{4.5cm}|p{4.5cm}|p{4.5cm}|p{4.5cm}|p{4.5cm}|
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.. _sample-pipeline-config:
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.. flat-table:: Sample Pipeline Configuration
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:header-rows: 1
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:stub-columns: 0
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:widths: 5 5 5 5 5 5 5
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* -
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- Sensor/0 format
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- Frontend/0 format
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- Frontend/1 format
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- Scaler/0 format
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- Scaler/0 compose selection rectangle
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- Scaler/1 format
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* - Initial state
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- 2048x1536/SGRBG8_1X8
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- (default)
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- (default)
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- (default)
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- (default)
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- (default)
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* - Configure frontend sink format
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- 2048x1536/SGRBG8_1X8
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- *2048x1536/SGRBG8_1X8*
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- *2046x1534/SGRBG8_1X8*
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- (default)
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- (default)
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- (default)
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* - Configure scaler sink format
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- 2048x1536/SGRBG8_1X8
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- 2048x1536/SGRBG8_1X8
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- 2046x1534/SGRBG8_1X8
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- *2046x1534/SGRBG8_1X8*
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- *0,0/2046x1534*
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- *2046x1534/SGRBG8_1X8*
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* - Configure scaler sink compose selection
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- 2048x1536/SGRBG8_1X8
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- 2048x1536/SGRBG8_1X8
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- 2046x1534/SGRBG8_1X8
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- 2046x1534/SGRBG8_1X8
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- *0,0/1280x960*
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- *1280x960/SGRBG8_1X8*
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.. raw:: latex
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\end{adjustbox}\newline\newline
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1. Initial state. The sensor source pad format is set to its native 3MP
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size and V4L2_MBUS_FMT_SGRBG8_1X8 media bus code. Formats on the
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host frontend and scaler sink and source pads have the default
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values, as well as the compose rectangle on the scaler's sink pad.
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2. The application configures the frontend sink pad format's size to
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2048x1536 and its media bus code to V4L2_MBUS_FMT_SGRBG_1X8. The
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driver propagates the format to the frontend source pad.
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3. The application configures the scaler sink pad format's size to
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2046x1534 and the media bus code to V4L2_MBUS_FMT_SGRBG_1X8 to
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match the frontend source size and media bus code. The media bus code
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on the sink pad is set to V4L2_MBUS_FMT_SGRBG_1X8. The driver
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propagates the size to the compose selection rectangle on the
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scaler's sink pad, and the format to the scaler source pad.
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4. The application configures the size of the compose selection
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rectangle of the scaler's sink pad 1280x960. The driver propagates
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the size to the scaler's source pad format.
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When satisfied with the try results, applications can set the active
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formats by setting the ``which`` argument to
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``V4L2_SUBDEV_FORMAT_ACTIVE``. Active formats are changed exactly as try
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formats by drivers. To avoid modifying the hardware state during format
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negotiation, applications should negotiate try formats first and then
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modify the active settings using the try formats returned during the
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last negotiation iteration. This guarantees that the active format will
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be applied as-is by the driver without being modified.
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.. _v4l2-subdev-selections:
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Selections: cropping, scaling and composition
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---------------------------------------------
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Many sub-devices support cropping frames on their input or output pads
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(or possible even on both). Cropping is used to select the area of
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interest in an image, typically on an image sensor or a video decoder.
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It can also be used as part of digital zoom implementations to select
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the area of the image that will be scaled up.
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Crop settings are defined by a crop rectangle and represented in a
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struct :c:type:`v4l2_rect` by the coordinates of the top
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left corner and the rectangle size. Both the coordinates and sizes are
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expressed in pixels.
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As for pad formats, drivers store try and active rectangles for the
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selection targets :ref:`v4l2-selections-common`.
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On sink pads, cropping is applied relative to the current pad format.
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The pad format represents the image size as received by the sub-device
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from the previous block in the pipeline, and the crop rectangle
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represents the sub-image that will be transmitted further inside the
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sub-device for processing.
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The scaling operation changes the size of the image by scaling it to new
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dimensions. The scaling ratio isn't specified explicitly, but is implied
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from the original and scaled image sizes. Both sizes are represented by
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struct :c:type:`v4l2_rect`.
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Scaling support is optional. When supported by a subdev, the crop
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rectangle on the subdev's sink pad is scaled to the size configured
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using the
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:ref:`VIDIOC_SUBDEV_S_SELECTION <VIDIOC_SUBDEV_G_SELECTION>` IOCTL
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using ``V4L2_SEL_TGT_COMPOSE`` selection target on the same pad. If the
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subdev supports scaling but not composing, the top and left values are
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not used and must always be set to zero.
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On source pads, cropping is similar to sink pads, with the exception
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that the source size from which the cropping is performed, is the
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COMPOSE rectangle on the sink pad. In both sink and source pads, the
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crop rectangle must be entirely contained inside the source image size
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for the crop operation.
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The drivers should always use the closest possible rectangle the user
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requests on all selection targets, unless specifically told otherwise.
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``V4L2_SEL_FLAG_GE`` and ``V4L2_SEL_FLAG_LE`` flags may be used to round
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the image size either up or down. :ref:`v4l2-selection-flags`
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Types of selection targets
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--------------------------
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Actual targets
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^^^^^^^^^^^^^^
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Actual targets (without a postfix) reflect the actual hardware
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configuration at any point of time. There is a BOUNDS target
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corresponding to every actual target.
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BOUNDS targets
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^^^^^^^^^^^^^^
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BOUNDS targets is the smallest rectangle that contains all valid actual
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rectangles. It may not be possible to set the actual rectangle as large
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as the BOUNDS rectangle, however. This may be because e.g. a sensor's
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pixel array is not rectangular but cross-shaped or round. The maximum
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size may also be smaller than the BOUNDS rectangle.
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Order of configuration and format propagation
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---------------------------------------------
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Inside subdevs, the order of image processing steps will always be from
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the sink pad towards the source pad. This is also reflected in the order
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in which the configuration must be performed by the user: the changes
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made will be propagated to any subsequent stages. If this behaviour is
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not desired, the user must set ``V4L2_SEL_FLAG_KEEP_CONFIG`` flag. This
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flag causes no propagation of the changes are allowed in any
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circumstances. This may also cause the accessed rectangle to be adjusted
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by the driver, depending on the properties of the underlying hardware.
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The coordinates to a step always refer to the actual size of the
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previous step. The exception to this rule is the source compose
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rectangle, which refers to the sink compose bounds rectangle --- if it
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is supported by the hardware.
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1. Sink pad format. The user configures the sink pad format. This format
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defines the parameters of the image the entity receives through the
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pad for further processing.
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2. Sink pad actual crop selection. The sink pad crop defines the crop
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performed to the sink pad format.
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3. Sink pad actual compose selection. The size of the sink pad compose
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rectangle defines the scaling ratio compared to the size of the sink
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pad crop rectangle. The location of the compose rectangle specifies
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the location of the actual sink compose rectangle in the sink compose
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bounds rectangle.
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4. Source pad actual crop selection. Crop on the source pad defines crop
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performed to the image in the sink compose bounds rectangle.
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5. Source pad format. The source pad format defines the output pixel
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format of the subdev, as well as the other parameters with the
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exception of the image width and height. Width and height are defined
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by the size of the source pad actual crop selection.
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Accessing any of the above rectangles not supported by the subdev will
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return ``EINVAL``. Any rectangle referring to a previous unsupported
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rectangle coordinates will instead refer to the previous supported
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rectangle. For example, if sink crop is not supported, the compose
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selection will refer to the sink pad format dimensions instead.
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.. _subdev-image-processing-crop:
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.. figure:: dev-subdev_files/subdev-image-processing-crop.*
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:alt: subdev-image-processing-crop.svg
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:align: center
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**Figure 4.5. Image processing in subdevs: simple crop example**
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In the above example, the subdev supports cropping on its sink pad. To
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configure it, the user sets the media bus format on the subdev's sink
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pad. Now the actual crop rectangle can be set on the sink pad --- the
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location and size of this rectangle reflect the location and size of a
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rectangle to be cropped from the sink format. The size of the sink crop
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rectangle will also be the size of the format of the subdev's source
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pad.
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.. _subdev-image-processing-scaling-multi-source:
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.. figure:: dev-subdev_files/subdev-image-processing-scaling-multi-source.*
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:alt: subdev-image-processing-scaling-multi-source.svg
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:align: center
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**Figure 4.6. Image processing in subdevs: scaling with multiple sources**
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In this example, the subdev is capable of first cropping, then scaling
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and finally cropping for two source pads individually from the resulting
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scaled image. The location of the scaled image in the cropped image is
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ignored in sink compose target. Both of the locations of the source crop
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|
rectangles refer to the sink scaling rectangle, independently cropping
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an area at location specified by the source crop rectangle from it.
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|
.. _subdev-image-processing-full:
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.. figure:: dev-subdev_files/subdev-image-processing-full.*
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|
:alt: subdev-image-processing-full.svg
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:align: center
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**Figure 4.7. Image processing in subdevs: scaling and composition with multiple sinks and sources**
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The subdev driver supports two sink pads and two source pads. The images
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from both of the sink pads are individually cropped, then scaled and
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further composed on the composition bounds rectangle. From that, two
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|
independent streams are cropped and sent out of the subdev from the
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source pads.
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.. toctree::
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|
:maxdepth: 1
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subdev-formats
|