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30fe661eb9
The scope of the s_stream video operation is now fully supported by {enable,disable}_streams. Explicitly document the s_stream() op as deprecated and update the related documentation. Signed-off-by: Sakari Ailus <sakari.ailus@linux.intel.com> Reviewed-by: Laurent Pinchart <laurent.pinchart+renesas@ideasonboard.com> Reviewed-by: Tomi Valkeinen <tomi.valkeinen@ideasonboard.com> Signed-off-by: Mauro Carvalho Chehab <mchehab+huawei@kernel.org>
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6.0 KiB
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149 lines
6.0 KiB
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.. SPDX-License-Identifier: GPL-2.0
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.. _media_writing_camera_sensor_drivers:
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Writing camera sensor drivers
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=============================
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This document covers the in-kernel APIs only. For the best practices on
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userspace API implementation in camera sensor drivers, please see
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:ref:`media_using_camera_sensor_drivers`.
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CSI-2, parallel and BT.656 buses
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--------------------------------
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Please see :ref:`transmitter-receiver`.
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Handling clocks
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---------------
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Camera sensors have an internal clock tree including a PLL and a number of
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divisors. The clock tree is generally configured by the driver based on a few
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input parameters that are specific to the hardware: the external clock frequency
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and the link frequency. The two parameters generally are obtained from system
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firmware. **No other frequencies should be used in any circumstances.**
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The reason why the clock frequencies are so important is that the clock signals
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come out of the SoC, and in many cases a specific frequency is designed to be
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used in the system. Using another frequency may cause harmful effects
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elsewhere. Therefore only the pre-determined frequencies are configurable by the
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user.
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ACPI
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~~~~
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Read the ``clock-frequency`` _DSD property to denote the frequency. The driver
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can rely on this frequency being used.
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Devicetree
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~~~~~~~~~~
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The preferred way to achieve this is using ``assigned-clocks``,
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``assigned-clock-parents`` and ``assigned-clock-rates`` properties. See the
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`clock device tree bindings
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<https://github.com/devicetree-org/dt-schema/blob/main/dtschema/schemas/clock/clock.yaml>`_
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for more information. The driver then gets the frequency using
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``clk_get_rate()``.
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This approach has the drawback that there's no guarantee that the frequency
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hasn't been modified directly or indirectly by another driver, or supported by
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the board's clock tree to begin with. Changes to the Common Clock Framework API
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are required to ensure reliability.
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Power management
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----------------
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Camera sensors are used in conjunction with other devices to form a camera
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pipeline. They must obey the rules listed herein to ensure coherent power
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management over the pipeline.
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Camera sensor drivers are responsible for controlling the power state of the
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device they otherwise control as well. They shall use runtime PM to manage
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power states. Runtime PM shall be enabled at probe time and disabled at remove
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time. Drivers should enable runtime PM autosuspend. Also see
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:ref:`async sub-device registration <media-registering-async-subdevs>`.
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The runtime PM handlers shall handle clocks, regulators, GPIOs, and other
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system resources required to power the sensor up and down. For drivers that
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don't use any of those resources (such as drivers that support ACPI systems
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only), the runtime PM handlers may be left unimplemented.
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In general, the device shall be powered on at least when its registers are
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being accessed and when it is streaming. Drivers should use
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``pm_runtime_resume_and_get()`` when starting streaming and
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``pm_runtime_put()`` or ``pm_runtime_put_autosuspend()`` when stopping
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streaming. They may power the device up at probe time (for example to read
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identification registers), but should not keep it powered unconditionally after
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probe.
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At system suspend time, the whole camera pipeline must stop streaming, and
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restart when the system is resumed. This requires coordination between the
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camera sensor and the rest of the camera pipeline. Bridge drivers are
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responsible for this coordination, and instruct camera sensors to stop and
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restart streaming by calling the appropriate subdev operations
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(``.enable_streams()`` or ``.disable_streams()``). Camera sensor drivers shall
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therefore **not** keep track of the streaming state to stop streaming in the PM
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suspend handler and restart it in the resume handler. Drivers should in general
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not implement the system PM handlers.
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Camera sensor drivers shall **not** implement the subdev ``.s_power()``
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operation, as it is deprecated. While this operation is implemented in some
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existing drivers as they predate the deprecation, new drivers shall use runtime
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PM instead. If you feel you need to begin calling ``.s_power()`` from an ISP or
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a bridge driver, instead add runtime PM support to the sensor driver you are
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using and drop its ``.s_power()`` handler.
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Please also see :ref:`examples <media-camera-sensor-examples>`.
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Control framework
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~~~~~~~~~~~~~~~~~
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``v4l2_ctrl_handler_setup()`` function may not be used in the device's runtime
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PM ``runtime_resume`` callback, as it has no way to figure out the power state
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of the device. This is because the power state of the device is only changed
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after the power state transition has taken place. The ``s_ctrl`` callback can be
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used to obtain device's power state after the power state transition:
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.. c:function:: int pm_runtime_get_if_in_use(struct device *dev);
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The function returns a non-zero value if it succeeded getting the power count or
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runtime PM was disabled, in either of which cases the driver may proceed to
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access the device.
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Rotation, orientation and flipping
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----------------------------------
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Use ``v4l2_fwnode_device_parse()`` to obtain rotation and orientation
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information from system firmware and ``v4l2_ctrl_new_fwnode_properties()`` to
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register the appropriate controls.
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.. _media-camera-sensor-examples:
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Example drivers
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---------------
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Features implemented by sensor drivers vary, and depending on the set of
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supported features and other qualities, particular sensor drivers better serve
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the purpose of an example. The following drivers are known to be good examples:
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.. flat-table:: Example sensor drivers
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:header-rows: 0
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:widths: 1 1 1 2
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* - Driver name
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- File(s)
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- Driver type
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- Example topic
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* - CCS
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- ``drivers/media/i2c/ccs/``
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- Freely configurable
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- Power management (ACPI and DT), UAPI
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* - imx219
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- ``drivers/media/i2c/imx219.c``
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- Register list based
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- Power management (DT), UAPI, mode selection
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* - imx319
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- ``drivers/media/i2c/imx319.c``
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- Register list based
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- Power management (ACPI and DT)
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