CSI

= CSI on mainline Linux with v4l2 =

The CSI (CMOS Sensor Interface) hardware block is partially supported in mainline Linux. Support for the hardware block found on A31 and later generations is already upstream, while the one found on A10/A20 is being worked on, as of 2019/04/12.

Currently parallel and BT.656 (embedded sync) interfaces are supported. MIPI CSI-2 is not.

The mainline driver uses v4l2 with the sub-device API and media controller API.

Kernel config options
To enable the driver, please first check if you have the VIDEO_DEV, MEDIA_CONTROLLER and VIDEO_V4L2_SUBDEV_API Kconfig options enabled.

Then once you enable V4L_PLATFORM_DRIVERS you should be able to enable VIDEO_SUN6I_CSI for the A31 CSI driver. For the A10/A20 CSI driver, enable VIDEO_SUN4I_CSI. (Provided you have the patches applied.)

Userspace configuration
It is recommended to use an up-to-date version of v4l-utils, as older versions, such as the one in Debian Stable (1.12.x) has some bugs, and doesn't understand all formats or knobs.

The usage of the media controller and sub-device API means configuration of the capture options is slightly complicated. The media-ctl and v4l2-ctl are used.

Media bus and capture formats
To see the current settings of the media bus, use

$ media-ctl --print-topology

Media controller API version 5.1.0

Media device information

driver         sun6i-csi model          Allwinner Video Capture Device serial bus info hw revision    0x0 driver version 5.1.0

Device topology - entity 1: sun6i-csi (1 pad, 1 link) type Node subtype V4L flags 0 device node name /dev/video0 pad0: Sink <- "ov5640 1-003c":0 [ENABLED,IMMUTABLE]

- entity 5: ov5640 1-003c (1 pad, 1 link) type V4L2 subdev subtype Sensor flags 0 device node name /dev/v4l-subdev0 pad0: Source [fmt:UYVY8_2X8/640x480 field:none] -> "sun6i-csi":0 [ENABLED,IMMUTABLE]

On systems with the Cedrus driver enabled, the media device may not be the default one, in which case you should use

$ media-ctl --device /dev/mediaN --print-topology

To set the capture format (including the bus format and capture size), you specify the properties of the source pad.

$ media-ctl --set-v4l2 '"ov5640 1-003c":0[fmt:UYVY8_2X8/720x480]'

Here the entity name "ov5640 1-003c" can also be replaced with the entity ID 5.

This configures a capture size of 720x480 pixels with the UYVY8_2X8 bus format, which is YUV 4:2:0. See Media Bus Formats for a list and description of formats.

The capture resolution specified here must match what is requested by the capture application, otherwise the kernel driver will report an error and refuse to capture.

Sensor sub-device configuration
Sensors can have a number of control knobs that can be configured from userspace. These range from image orientation to power line frequency to test patterns.

To see the full list of control knobs along with menu item descriptions, use

$ v4l2-ctl --list-ctrls-menus

User Controls

contrast (int)   : min=0 max=255 step=1 default=0 value=0 flags=slider saturation (int)   : min=0 max=255 step=1 default=64 value=64 flags=slider hue (int)   : min=0 max=359 step=1 default=0 value=0 flags=slider white_balance_automatic (bool)  : default=1 value=1 flags=update red_balance (int)   : min=0 max=4095 step=1 default=0 value=0 flags=inactive, slider blue_balance (int)   : min=0 max=4095 step=1 default=0 value=0 flags=inactive, slider exposure (int)   : min=0 max=65535 step=1 default=0 value=885 flags=inactive, volatile gain_automatic (bool)  : default=1 value=1 flags=update gain (int)   : min=0 max=1023 step=1 default=0 value=248 flags=inactive, volatile horizontal_flip (bool)  : default=0 value=0 vertical_flip (bool)  : default=0 value=0 power_line_frequency (menu)  : min=0 max=3 default=1 value=1 0: Disabled 1: 50 Hz                               2: 60 Hz                                3: Auto

Camera Controls

auto_exposure (menu)  : min=0 max=1 default=0 value=0 flags=update 0: Auto Mode 1: Manual Mode

Image Processing Controls

test_pattern (menu)  : min=0 max=4 default=0 value=0 0: Disabled 1: Color bars 2: Color bars w/ rolling bar 3: Color squares 4: Color squares w/ rolling bar

Note that if the system has multiple video devices, you may need to specify which one to use:

$ v4l2-ctl --device=/dev/videoN --list-ctrls-menus

To set an option, use

$ v4l2-ctl --set-ctrl=vertical_flip=1

Or multiple options at once

$ v4l2-ctl --set-ctrl=power_line_frequency=2,vertical_flip=1,horizontal_flip=1

FFMpeg
FFMpeg supports capturing from v4l2 devices. However it does not support configuration of the media bus or sub-devices. Please use the commands shown in the previous sections instead.

To capture from the first video device, use

$ ffmpeg -s WxH -i /dev/video0 output.mjpg

This captures and encodes a video of W by H pixels from the first video device to an M-JPEG file.

Note that W and H must match what you previously set with media-ctl. The system default is 640x480.

If you also specified a different bus format, such as JPEG_1X8, you will need to tell FFMpeg as well, using

$ ffmpeg -input_format mjpeg -s WxH -i /dev/video0 output.mjpg

JPEG media bus format buffers
The JPEG media bus format support in the driver does not trim the returned buffer. In other words, the full buffer is passed back to userspace, with trailing zeros. This means the user will end up with enormous JPEG files without post-processing.

There are already several JPEG parsers in the kernel. A proposal was made to combine and generalize them, which could then be used in our CSI driver to detect the end of the JPEG stream. This has not been implemented yet.

MIPI CSI-2
While a few Allwinner SoCs support MIPI CSI-2, details on the hardware is sparse. No one has attempted to support this yet.

= BSP kernel supported camera's sensors table =

Reference
* Allwinnertech Wiki