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Media Controller devices
------------------------

Media Controller
~~~~~~~~~~~~~~~~

The media controller userspace API is documented in
:ref:`the Media Controller uAPI book <media_controller>`. This document focus
on the kernel-side implementation of the media framework.

Abstract media device model
^^^^^^^^^^^^^^^^^^^^^^^^^^^

Discovering a device internal topology, and configuring it at runtime, is one
of the goals of the media framework. To achieve this, hardware devices are
modelled as an oriented graph of building blocks called entities connected
through pads.

An entity is a basic media hardware building block. It can correspond to
a large variety of logical blocks such as physical hardware devices
(CMOS sensor for instance), logical hardware devices (a building block
in a System-on-Chip image processing pipeline), DMA channels or physical
connectors.

A pad is a connection endpoint through which an entity can interact with
other entities. Data (not restricted to video) produced by an entity
flows from the entity's output to one or more entity inputs. Pads should
not be confused with physical pins at chip boundaries.

A link is a point-to-point oriented connection between two pads, either
on the same entity or on different entities. Data flows from a source
pad to a sink pad.

Media device
^^^^^^^^^^^^

A media device is represented by a :c:type:`struct media_device <media_device>`
instance, defined in ``include/media/media-device.h``.
Allocation of the structure is handled by the media device driver, usually by
embedding the :c:type:`media_device` instance in a larger driver-specific
structure.

Drivers register media device instances by calling
:cpp:func:`__media_device_register()` via the macro ``media_device_register()``
and unregistered by calling :cpp:func:`media_device_unregister()`.

Entities
^^^^^^^^

Entities are represented by a :c:type:`struct media_entity <media_entity>`
instance, defined in ``include/media/media-entity.h``. The structure is usually
embedded into a higher-level structure, such as
:c:type:`v4l2_subdev` or :c:type:`video_device`
instances, although drivers can allocate entities directly.

Drivers initialize entity pads by calling
:cpp:func:`media_entity_pads_init()`.

Drivers register entities with a media device by calling
:cpp:func:`media_device_register_entity()`
and unregistred by calling
:cpp:func:`media_device_unregister_entity()`.

Interfaces
^^^^^^^^^^

Interfaces are represented by a
:c:type:`struct media_interface <media_interface>` instance, defined in
``include/media/media-entity.h``. Currently, only one type of interface is
defined: a device node. Such interfaces are represented by a
:c:type:`struct media_intf_devnode <media_intf_devnode>`.

Drivers initialize and create device node interfaces by calling
:cpp:func:`media_devnode_create()`
and remove them by calling:
:cpp:func:`media_devnode_remove()`.

Pads
^^^^
Pads are represented by a :c:type:`struct media_pad <media_pad>` instance,
defined in ``include/media/media-entity.h``. Each entity stores its pads in
a pads array managed by the entity driver. Drivers usually embed the array in
a driver-specific structure.

Pads are identified by their entity and their 0-based index in the pads
array.

Both information are stored in the :c:type:`struct media_pad`, making the
:c:type:`media_pad` pointer the canonical way to store and pass link references.

Pads have flags that describe the pad capabilities and state.

``MEDIA_PAD_FL_SINK`` indicates that the pad supports sinking data.
``MEDIA_PAD_FL_SOURCE`` indicates that the pad supports sourcing data.

.. note::

  One and only one of ``MEDIA_PAD_FL_SINK`` or ``MEDIA_PAD_FL_SOURCE`` must
  be set for each pad.

Links
^^^^^

Links are represented by a :c:type:`struct media_link <media_link>` instance,
defined in ``include/media/media-entity.h``. There are two types of links:

**1. pad to pad links**:

Associate two entities via their PADs. Each entity has a list that points
to all links originating at or targeting any of its pads.
A given link is thus stored twice, once in the source entity and once in
the target entity.

Drivers create pad to pad links by calling:
:cpp:func:`media_create_pad_link()` and remove with
:cpp:func:`media_entity_remove_links()`.

**2. interface to entity links**:

Associate one interface to a Link.

Drivers create interface to entity links by calling:
:cpp:func:`media_create_intf_link()` and remove with
:cpp:func:`media_remove_intf_links()`.

.. note::

   Links can only be created after having both ends already created.

Links have flags that describe the link capabilities and state. The
valid values are described at :cpp:func:`media_create_pad_link()` and
:cpp:func:`media_create_intf_link()`.

Graph traversal
^^^^^^^^^^^^^^^

The media framework provides APIs to iterate over entities in a graph.

To iterate over all entities belonging to a media device, drivers can use
the media_device_for_each_entity macro, defined in
``include/media/media-device.h``.

..  code-block:: c

    struct media_entity *entity;

    media_device_for_each_entity(entity, mdev) {
    // entity will point to each entity in turn
    ...
    }

Drivers might also need to iterate over all entities in a graph that can be
reached only through enabled links starting at a given entity. The media
framework provides a depth-first graph traversal API for that purpose.

.. note::

   Graphs with cycles (whether directed or undirected) are **NOT**
   supported by the graph traversal API. To prevent infinite loops, the graph
   traversal code limits the maximum depth to ``MEDIA_ENTITY_ENUM_MAX_DEPTH``,
   currently defined as 16.

Drivers initiate a graph traversal by calling
:cpp:func:`media_entity_graph_walk_start()`

The graph structure, provided by the caller, is initialized to start graph
traversal at the given entity.

Drivers can then retrieve the next entity by calling
:cpp:func:`media_entity_graph_walk_next()`

When the graph traversal is complete the function will return ``NULL``.

Graph traversal can be interrupted at any moment. No cleanup function call
is required and the graph structure can be freed normally.

Helper functions can be used to find a link between two given pads, or a pad
connected to another pad through an enabled link
:cpp:func:`media_entity_find_link()` and
:cpp:func:`media_entity_remote_pad()`.

Use count and power handling
^^^^^^^^^^^^^^^^^^^^^^^^^^^^

Due to the wide differences between drivers regarding power management
needs, the media controller does not implement power management. However,
the :c:type:`struct media_entity <media_entity>` includes a ``use_count``
field that media drivers
can use to track the number of users of every entity for power management
needs.

The :c:type:`media_entity<media_entity>`.\ ``use_count`` field is owned by
media drivers and must not be
touched by entity drivers. Access to the field must be protected by the
:c:type:`media_device`.\ ``graph_mutex`` lock.

Links setup
^^^^^^^^^^^

Link properties can be modified at runtime by calling
:cpp:func:`media_entity_setup_link()`.

Pipelines and media streams
^^^^^^^^^^^^^^^^^^^^^^^^^^^

When starting streaming, drivers must notify all entities in the pipeline to
prevent link states from being modified during streaming by calling
:cpp:func:`media_entity_pipeline_start()`.

The function will mark all entities connected to the given entity through
enabled links, either directly or indirectly, as streaming.

The :c:type:`struct media_pipeline <media_pipeline>` instance pointed to by
the pipe argument will be stored in every entity in the pipeline.
Drivers should embed the :c:type:`struct media_pipeline <media_pipeline>`
in higher-level pipeline structures and can then access the
pipeline through the :c:type:`struct media_entity <media_entity>`
pipe field.

Calls to :cpp:func:`media_entity_pipeline_start()` can be nested.
The pipeline pointer must be identical for all nested calls to the function.

:cpp:func:`media_entity_pipeline_start()` may return an error. In that case,
it will clean up any of the changes it did by itself.

When stopping the stream, drivers must notify the entities with
:cpp:func:`media_entity_pipeline_stop()`.

If multiple calls to :cpp:func:`media_entity_pipeline_start()` have been
made the same number of :cpp:func:`media_entity_pipeline_stop()` calls
are required to stop streaming.
The :c:type:`media_entity`.\ ``pipe`` field is reset to ``NULL`` on the last
nested stop call.

Link configuration will fail with ``-EBUSY`` by default if either end of the
link is a streaming entity. Links that can be modified while streaming must
be marked with the ``MEDIA_LNK_FL_DYNAMIC`` flag.

If other operations need to be disallowed on streaming entities (such as
changing entities configuration parameters) drivers can explicitly check the
media_entity stream_count field to find out if an entity is streaming. This
operation must be done with the media_device graph_mutex held.

Link validation
^^^^^^^^^^^^^^^

Link validation is performed by :cpp:func:`media_entity_pipeline_start()`
for any entity which has sink pads in the pipeline. The
:c:type:`media_entity`.\ ``link_validate()`` callback is used for that
purpose. In ``link_validate()`` callback, entity driver should check
that the properties of the source pad of the connected entity and its own
sink pad match. It is up to the type of the entity (and in the end, the
properties of the hardware) what matching actually means.

Subsystems should facilitate link validation by providing subsystem specific
helper functions to provide easy access for commonly needed information, and
in the end provide a way to use driver-specific callbacks.

.. kernel-doc:: include/media/media-device.h

.. kernel-doc:: include/media/media-devnode.h

.. kernel-doc:: include/media/media-entity.h