acrn-hypervisor/doc/developer-guides/hld/virtio-i2c.rst

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.. _virtio-i2c:
Virtio-I2C
##########
Virtio-i2c provides a virtual I2C adapter that supports mapping multiple
client devices under multiple native I2C adapters to one virtio I2C
adapter. The address for the client device is not changed. Virtio-i2c
also provides an interface to add an ACPI node for client devices so that
the client device driver in the guest OS does not need to change.
:numref:`virtio-i2c-1` below shows the virtio-i2c architecture.
.. figure:: images/virtio-i2c-1.png
:align: center
:name: virtio-i2c-1
Virtio-i2c Architecture
Virtio-i2c is implemented as a virtio legacy device in the ACRN Device
Model (DM) and is registered as a PCI virtio device to the guest OS. The
Device ID of virtio-i2c is ``0x860A`` and the Sub Device ID is
``0xFFF6``.
Virtio-i2c uses one **virtqueue** to transfer the I2C msg that is
received from the I2C core layer. Each I2C msg is translated into three
parts:
- Header: includes ``addr``, ``flags``, and ``len``.
- Data buffer: includes the pointer to ``msg`` data.
- Status: includes the process results at the backend.
In the backend kick handler, data is obtained from the virtqueue, which
reformats the data to a standard I2C message and then sends it to a
message queue that is maintained in the backend. A worker thread is
created during the initiate phase; it receives the I2C message from the
queue and then calls the I2C APIs to send to the native I2C adapter.
When the request is done, the backend driver updates the results and
notifies the frontend. The msg process flow is shown in
:numref:`virtio-process-flow` below.
.. figure:: images/virtio-i2c-1a.png
:align: center
:name: virtio-process-flow
Message Process Flow
**Usage:**
.. code-block:: none
-s <slot>,virtio-i2c,<bus>[:<client_addr>[@<node>]][:<client_addr>[@<node>]][,<bus>[:<client_addr>[@<node>]][:<client_addr>][@<node>]]
``bus``:
The bus number for the native I2C adapter; ``2`` means ``/dev/i2c-2``.
``client_addr``:
The address for the native client devices such as ``1C``, ``2F`` ...
``@``:
The prefix for the ACPI node.
``node``:
The ACPI node name supported in the current code. You can find the
supported name in the ``acpi_node_table[]`` from the source code.
Only ``cam1``, ``cam2``, and ``hdac`` are supported for MRB. These nodes are
platform-specific.
**Example:**
.. code-block:: none
-s 19,virtio-i2c,0:70@cam1:2F,4:1C
This adds client devices ``0x70`` and ``0x2F`` under the native adapter
``/dev/i2c-0``, and ``0x1C`` under ``/dev/i2c-6`` to the virtio-i2c
adapter. Since ``0x70`` includes ``@cam1``, ACPI info is also added to
it. Since ``0x2F`` and ``0x1C`` have ``@<node>``, no ACPI info is added
to them.
**Simple use case:**
When launched with this cmdline:
.. code-block:: none
-s 19,virtio-i2c,4:1C
a virtual I2C adapter will appear in the guest OS:
.. code-block:: none
root@clr-d5f61ae5f5224e59bb1727db3b5f5d4e ~ # ./i2cdetect -y -l
i2c-3 i2c DPDDC-A I2C adapter
i2c-1 i2c i915 gmbus dpc I2C adapter
i2c-6 i2c i2c-virtio I2C adapter <------
i2c-4 i2c DPDDC-B I2C adapter
i2c-2 i2c i915 gmbus misc I2C adapter
i2c-0 i2c i915 gmbus dpb I2C adapter
i2c-5 i2c DPDDC-C I2C adapter
You can find the client device 0x1C under the virtio I2C adapter
``i2c-6``:
.. code-block:: none
root@clr-d5f61ae5f5224e59bb1727db3b5f5d4e ~ # ./i2cdetect -y -r 6
0 1 2 3 4 5 6 7 8 9 a b c d e f
00: -- -- -- -- -- -- -- -- -- -- -- -- --
10: -- -- -- -- -- -- -- -- -- -- -- -- 1c -- -- -- <--------
20: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
30: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
40: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
50: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
60: -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- --
70: -- -- -- -- -- -- -- --
You can dump the I2C device if it is supported:
.. code-block:: none
root@clr-d5f61ae5f5224e59bb1727db3b5f5d4e ~ # ./i2cdump -f -y 6 0x1C
No size specified (using byte-data access)
0 1 2 3 4 5 6 7 8 9 a b c d e f 0123456789abcdef
10: ff ff 00 22 b2 05 00 00 00 00 00 00 00 00 00 00 ..."??..........
20: 00 00 00 ff ff ff ff ff 00 00 00 ff ff ff ff ff ................
30: ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff 00 ................
40: 00 00 00 ff ff ff ff ff ff ff ff ff ff ff ff ff ................
50: ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ................
60: 00 10 00 00 00 00 00 00 00 00 00 00 00 00 00 00 .?..............
70: ff ff 00 ff 10 10 ff ff ff ff ff ff ff ff ff ff ....??..........
80: ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ................
90: ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ................
a0: ff ff ff ff ff ff f8 ff 00 00 ff ff 00 ff ff ff ......?.........
b0: ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ................
c0: 00 ff 00 00 ff ff ff 00 00 ff ff ff ff ff ff ff ................
d0: ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ................
e0: 00 ff 06 00 03 fa 00 ff ff ff ff ff ff ff ff ff ..?.??..........
f0: ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ff ................
Note that the virtual I2C bus number has no relationship with the native
I2C bus number; it is auto-generated by the guest OS.