Documentation/userspace-api/media/drivers/ccs.rst - linux - Git at Google

 .. SPDX-License-Identifier: GPL-2.0-only

 .. include:: <isonum.txt>

 MIPI CCS camera sensor driver
 =============================

 The MIPI CCS camera sensor driver is a generic driver for `MIPI CCS
 <https://www.mipi.org/specifications/camera-command-set>`_ compliant
 camera sensors. It exposes three sub-devices representing the pixel array,
 the binner and the scaler.

 As the capabilities of individual devices vary, the driver exposes
 interfaces based on the capabilities that exist in hardware.

 Pixel Array sub-device
 ----------------------

 The pixel array sub-device represents the camera sensor's pixel matrix, as well
 as analogue crop functionality present in many compliant devices. The analogue
 crop is configured using the ``V4L2_SEL_TGT_CROP`` on the source pad (0) of the
 entity. The size of the pixel matrix can be obtained by getting the
 ``V4L2_SEL_TGT_NATIVE_SIZE`` target.

 Binner
 ------

 The binner sub-device represents the binning functionality on the sensor. For
 that purpose, selection target ``V4L2_SEL_TGT_COMPOSE`` is supported on the
 sink pad (0).

 Additionally, if a device has no scaler or digital crop functionality, the
 source pad (1) expses another digital crop selection rectangle that can only
 crop at the end of the lines and frames.

 Scaler
 ------

 The scaler sub-device represents the digital crop and scaling functionality of
 the sensor. The V4L2 selection target ``V4L2_SEL_TGT_CROP`` is used to
 configure the digital crop on the sink pad (0) when digital crop is supported.
 Scaling is configured using selection target ``V4L2_SEL_TGT_COMPOSE`` on the
 sink pad (0) as well.

 Additionally, if the scaler sub-device exists, its source pad (1) exposes
 another digital crop selection rectangle that can only crop at the end of the
 lines and frames.

 Digital and analogue crop
 -------------------------

 Digital crop functionality is referred to as cropping that effectively works by
 dropping some data on the floor. Analogue crop, on the other hand, means that
 the cropped information is never retrieved. In case of camera sensors, the
 analogue data is never read from the pixel matrix that are outside the
 configured selection rectangle that designates crop. The difference has an
 effect in device timing and likely also in power consumption.

 Private controls
 ----------------

 The MIPI CCS driver implements a number of private controls under
 ``V4L2_CID_USER_BASE_CCS`` to control the MIPI CCS compliant camera sensors.

 Analogue gain model
 ~~~~~~~~~~~~~~~~~~~

 The CCS defines an analogue gain model where the gain can be calculated using
 the following formula:

 	gain = m0 * x + c0 / (m1 * x + c1)

 Either m0 or c0 will be zero. The constants that are device specific, can be
 obtained from the following controls:

 	V4L2_CID_CCS_ANALOGUE_GAIN_M0
 	V4L2_CID_CCS_ANALOGUE_GAIN_M1
 	V4L2_CID_CCS_ANALOGUE_GAIN_C0
 	V4L2_CID_CCS_ANALOGUE_GAIN_C1

 The analogue gain (``x`` in the formula) is controlled through
 ``V4L2_CID_ANALOGUE_GAIN`` in this case.

 Alternate analogue gain model
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

 The CCS defines another analogue gain model called alternate analogue gain. In
 this case, the formula to calculate actual gain consists of linear and
 exponential parts:

 	gain = linear * 2 ^ exponent

 The ``linear`` and ``exponent`` factors can be set using the
 ``V4L2_CID_CCS_ANALOGUE_LINEAR_GAIN`` and
 ``V4L2_CID_CCS_ANALOGUE_EXPONENTIAL_GAIN`` controls, respectively

 Shading correction
 ~~~~~~~~~~~~~~~~~~

 The CCS standard supports lens shading correction. The feature can be controlled
 using ``V4L2_CID_CCS_SHADING_CORRECTION``. Additionally, the luminance
 correction level may be changed using
 ``V4L2_CID_CCS_LUMINANCE_CORRECTION_LEVEL``, where value 0 indicates no
 correction and 128 indicates correcting the luminance in corners to 10 % less
 than in the centre.

 Shading correction needs to be enabled for luminance correction level to have an
 effect.

 **Copyright** |copy| 2020 Intel Corporation
	.. SPDX-License-Identifier: GPL-2.0-only

	.. include:: <isonum.txt>

	MIPI CCS camera sensor driver
	=============================

	The MIPI CCS camera sensor driver is a generic driver for `MIPI CCS
	<https://www.mipi.org/specifications/camera-command-set>`_ compliant
	camera sensors. It exposes three sub-devices representing the pixel array,
	the binner and the scaler.

	As the capabilities of individual devices vary, the driver exposes
	interfaces based on the capabilities that exist in hardware.

	Pixel Array sub-device
	----------------------

	The pixel array sub-device represents the camera sensor's pixel matrix, as well
	as analogue crop functionality present in many compliant devices. The analogue
	crop is configured using the ``V4L2_SEL_TGT_CROP`` on the source pad (0) of the
	entity. The size of the pixel matrix can be obtained by getting the
	``V4L2_SEL_TGT_NATIVE_SIZE`` target.

	Binner
	------

	The binner sub-device represents the binning functionality on the sensor. For
	that purpose, selection target ``V4L2_SEL_TGT_COMPOSE`` is supported on the
	sink pad (0).

	Additionally, if a device has no scaler or digital crop functionality, the
	source pad (1) expses another digital crop selection rectangle that can only
	crop at the end of the lines and frames.

	Scaler
	------

	The scaler sub-device represents the digital crop and scaling functionality of
	the sensor. The V4L2 selection target ``V4L2_SEL_TGT_CROP`` is used to
	configure the digital crop on the sink pad (0) when digital crop is supported.
	Scaling is configured using selection target ``V4L2_SEL_TGT_COMPOSE`` on the
	sink pad (0) as well.

	Additionally, if the scaler sub-device exists, its source pad (1) exposes
	another digital crop selection rectangle that can only crop at the end of the
	lines and frames.

	Digital and analogue crop
	-------------------------

	Digital crop functionality is referred to as cropping that effectively works by
	dropping some data on the floor. Analogue crop, on the other hand, means that
	the cropped information is never retrieved. In case of camera sensors, the
	analogue data is never read from the pixel matrix that are outside the
	configured selection rectangle that designates crop. The difference has an
	effect in device timing and likely also in power consumption.

	Private controls
	----------------

	The MIPI CCS driver implements a number of private controls under
	``V4L2_CID_USER_BASE_CCS`` to control the MIPI CCS compliant camera sensors.

	Analogue gain model
	~~~~~~~~~~~~~~~~~~~

	The CCS defines an analogue gain model where the gain can be calculated using
	the following formula:

	gain = m0 * x + c0 / (m1 * x + c1)

	Either m0 or c0 will be zero. The constants that are device specific, can be
	obtained from the following controls:

	V4L2_CID_CCS_ANALOGUE_GAIN_M0
	V4L2_CID_CCS_ANALOGUE_GAIN_M1
	V4L2_CID_CCS_ANALOGUE_GAIN_C0
	V4L2_CID_CCS_ANALOGUE_GAIN_C1

	The analogue gain (``x`` in the formula) is controlled through
	``V4L2_CID_ANALOGUE_GAIN`` in this case.

	Alternate analogue gain model
	~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

	The CCS defines another analogue gain model called alternate analogue gain. In
	this case, the formula to calculate actual gain consists of linear and
	exponential parts:

	gain = linear * 2 ^ exponent

	The ``linear`` and ``exponent`` factors can be set using the
	``V4L2_CID_CCS_ANALOGUE_LINEAR_GAIN`` and
	``V4L2_CID_CCS_ANALOGUE_EXPONENTIAL_GAIN`` controls, respectively

	Shading correction
	~~~~~~~~~~~~~~~~~~

	The CCS standard supports lens shading correction. The feature can be controlled
	using ``V4L2_CID_CCS_SHADING_CORRECTION``. Additionally, the luminance
	correction level may be changed using
	``V4L2_CID_CCS_LUMINANCE_CORRECTION_LEVEL``, where value 0 indicates no
	correction and 128 indicates correcting the luminance in corners to 10 % less
	than in the centre.

	Shading correction needs to be enabled for luminance correction level to have an
	effect.

	Copyright \|copy\| 2020 Intel Corporation