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- .. SPDX-License-Identifier: GFDL-1.1-no-invariants-or-later
- .. c:namespace:: V4L
- .. _open:
- ***************************
- Opening and Closing Devices
- ***************************
- .. _v4l2_hardware_control:
- Controlling a hardware peripheral via V4L2
- ==========================================
- Hardware that is supported using the V4L2 uAPI often consists of multiple
- devices or peripherals, each of which have their own driver.
- The bridge driver exposes one or more V4L2 device nodes
- (see :ref:`v4l2_device_naming`).
- There are other drivers providing support for other components of
- the hardware, which may also expose device nodes, called V4L2 sub-devices.
- When such V4L2 sub-devices are exposed, they allow controlling those
- other hardware components - usually connected via a serial bus (like
- I²C, SMBus or SPI). Depending on the bridge driver, those sub-devices
- can be controlled indirectly via the bridge driver or explicitly via
- the :ref:`Media Controller <media_controller>` and via the
- :ref:`V4L2 sub-devices <subdev>`.
- The devices that require the use of the
- :ref:`Media Controller <media_controller>` are called **MC-centric**
- devices. The devices that are fully controlled via V4L2 device nodes
- are called **video-node-centric**.
- Userspace can check if a V4L2 hardware peripheral is MC-centric by
- calling :ref:`VIDIOC_QUERYCAP` and checking the
- :ref:`device_caps field <device-capabilities>`.
- If the device returns ``V4L2_CAP_IO_MC`` flag at ``device_caps``,
- then it is MC-centric, otherwise, it is video-node-centric.
- It is required for MC-centric drivers to identify the V4L2
- sub-devices and to configure the pipelines via the
- :ref:`media controller API <media_controller>` before using the peripheral.
- Also, the sub-devices' configuration shall be controlled via the
- :ref:`sub-device API <subdev>`.
- .. note::
- A video-node-centric may still provide media-controller and
- sub-device interfaces as well.
- However, in that case the media-controller and the sub-device
- interfaces are read-only and just provide information about the
- device. The actual configuration is done via the video nodes.
- .. _v4l2_device_naming:
- V4L2 Device Node Naming
- =======================
- V4L2 drivers are implemented as kernel modules, loaded manually by the
- system administrator or automatically when a device is first discovered.
- The driver modules plug into the ``videodev`` kernel module. It provides
- helper functions and a common application interface specified in this
- document.
- Each driver thus loaded registers one or more device nodes with major
- number 81. Minor numbers are allocated dynamically unless the kernel
- is compiled with the kernel option CONFIG_VIDEO_FIXED_MINOR_RANGES.
- In that case minor numbers are allocated in ranges depending on the
- device node type.
- The device nodes supported by the Video4Linux subsystem are:
- ======================== ====================================================
- Default device node name Usage
- ======================== ====================================================
- ``/dev/videoX`` Video and metadata for capture/output devices
- ``/dev/vbiX`` Vertical blank data (i.e. closed captions, teletext)
- ``/dev/radioX`` Radio tuners and modulators
- ``/dev/swradioX`` Software Defined Radio tuners and modulators
- ``/dev/v4l-touchX`` Touch sensors
- ``/dev/v4l-subdevX`` Video sub-devices (used by sensors and other
- components of the hardware peripheral)\ [#]_
- ======================== ====================================================
- Where ``X`` is a non-negative integer.
- .. note::
- 1. The actual device node name is system-dependent, as udev rules may apply.
- 2. There is no guarantee that ``X`` will remain the same for the same
- device, as the number depends on the device driver's probe order.
- If you need an unique name, udev default rules produce
- ``/dev/v4l/by-id/`` and ``/dev/v4l/by-path/`` directories containing
- links that can be used uniquely to identify a V4L2 device node::
- $ tree /dev/v4l
- /dev/v4l
- ├── by-id
- │ └── usb-OmniVision._USB_Camera-B4.04.27.1-video-index0 -> ../../video0
- └── by-path
- └── pci-0000:00:14.0-usb-0:2:1.0-video-index0 -> ../../video0
- .. [#] **V4L2 sub-device nodes** (e. g. ``/dev/v4l-subdevX``) use a different
- set of system calls, as covered at :ref:`subdev`.
- Many drivers support "video_nr", "radio_nr" or "vbi_nr" module
- options to select specific video/radio/vbi node numbers. This allows the
- user to request that the device node is named e.g. /dev/video5 instead
- of leaving it to chance. When the driver supports multiple devices of
- the same type more than one device node number can be assigned,
- separated by commas:
- .. code-block:: none
- # modprobe mydriver video_nr=0,1 radio_nr=0,1
- In ``/etc/modules.conf`` this may be written as:
- ::
- options mydriver video_nr=0,1 radio_nr=0,1
- When no device node number is given as module option the driver supplies
- a default.
- Normally udev will create the device nodes in /dev automatically for
- you. If udev is not installed, then you need to enable the
- CONFIG_VIDEO_FIXED_MINOR_RANGES kernel option in order to be able to
- correctly relate a minor number to a device node number. I.e., you need
- to be certain that minor number 5 maps to device node name video5. With
- this kernel option different device types have different minor number
- ranges. These ranges are listed in :ref:`devices`.
- The creation of character special files (with mknod) is a privileged
- operation and devices cannot be opened by major and minor number. That
- means applications cannot *reliably* scan for loaded or installed
- drivers. The user must enter a device name, or the application can try
- the conventional device names.
- .. _related:
- Related Devices
- ===============
- Devices can support several functions. For example video capturing, VBI
- capturing and radio support.
- The V4L2 API creates different V4L2 device nodes for each of these functions.
- The V4L2 API was designed with the idea that one device node could
- support all functions. However, in practice this never worked: this
- 'feature' was never used by applications and many drivers did not
- support it and if they did it was certainly never tested. In addition,
- switching a device node between different functions only works when
- using the streaming I/O API, not with the
- :c:func:`read()`/\ :c:func:`write()` API.
- Today each V4L2 device node supports just one function.
- Besides video input or output the hardware may also support audio
- sampling or playback. If so, these functions are implemented as ALSA PCM
- devices with optional ALSA audio mixer devices.
- One problem with all these devices is that the V4L2 API makes no
- provisions to find these related V4L2 device nodes. Some really complex
- hardware use the Media Controller (see :ref:`media_controller`) which can
- be used for this purpose. But several drivers do not use it, and while some
- code exists that uses sysfs to discover related V4L2 device nodes (see
- libmedia_dev in the
- `v4l-utils <http://git.linuxtv.org/cgit.cgi/v4l-utils.git/>`__ git
- repository), there is no library yet that can provide a single API
- towards both Media Controller-based devices and devices that do not use
- the Media Controller. If you want to work on this please write to the
- linux-media mailing list:
- `https://linuxtv.org/lists.php <https://linuxtv.org/lists.php>`__.
- Multiple Opens
- ==============
- V4L2 devices can be opened more than once. [#f1]_ When this is supported
- by the driver, users can for example start a "panel" application to
- change controls like brightness or audio volume, while another
- application captures video and audio. In other words, panel applications
- are comparable to an ALSA audio mixer application. Just opening a V4L2
- device should not change the state of the device. [#f2]_
- Once an application has allocated the memory buffers needed for
- streaming data (by calling the :ref:`VIDIOC_REQBUFS`
- or :ref:`VIDIOC_CREATE_BUFS` ioctls, or
- implicitly by calling the :c:func:`read()` or
- :c:func:`write()` functions) that application (filehandle)
- becomes the owner of the device. It is no longer allowed to make changes
- that would affect the buffer sizes (e.g. by calling the
- :ref:`VIDIOC_S_FMT <VIDIOC_G_FMT>` ioctl) and other applications are
- no longer allowed to allocate buffers or start or stop streaming. The
- EBUSY error code will be returned instead.
- Merely opening a V4L2 device does not grant exclusive access. [#f3]_
- Initiating data exchange however assigns the right to read or write the
- requested type of data, and to change related properties, to this file
- descriptor. Applications can request additional access privileges using
- the priority mechanism described in :ref:`app-pri`.
- Shared Data Streams
- ===================
- V4L2 drivers should not support multiple applications reading or writing
- the same data stream on a device by copying buffers, time multiplexing
- or similar means. This is better handled by a proxy application in user
- space.
- Functions
- =========
- To open and close V4L2 devices applications use the
- :c:func:`open()` and :c:func:`close()` function,
- respectively. Devices are programmed using the
- :ref:`ioctl() <func-ioctl>` function as explained in the following
- sections.
- .. [#f1]
- There are still some old and obscure drivers that have not been
- updated to allow for multiple opens. This implies that for such
- drivers :c:func:`open()` can return an ``EBUSY`` error code
- when the device is already in use.
- .. [#f2]
- Unfortunately, opening a radio device often switches the state of the
- device to radio mode in many drivers. This behavior should be fixed
- eventually as it violates the V4L2 specification.
- .. [#f3]
- Drivers could recognize the ``O_EXCL`` open flag. Presently this is
- not required, so applications cannot know if it really works.
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