mirror of https://gitee.com/openkylin/linux.git
Documentation: i2c: Add doc for I2C sysfs
This doc helps Linux users navigate through I2C sysfs and learn the system I2C topology. Signed-off-by: Alex Qiu <xqiu@google.com> Reviewed-by: Guenter Roeck <linux@roeck-us.net> Signed-off-by: Wolfram Sang <wsa@kernel.org>
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===============
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Linux I2C Sysfs
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===============
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Overview
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========
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I2C topology can be complex because of the existence of I2C MUX
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(I2C Multiplexer). The Linux
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kernel abstracts the MUX channels into logical I2C bus numbers. However, there
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is a gap of knowledge to map from the I2C bus physical number and MUX topology
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to logical I2C bus number. This doc is aimed to fill in this gap, so the
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audience (hardware engineers and new software developers for example) can learn
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the concept of logical I2C buses in the kernel, by knowing the physical I2C
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topology and navigating through the I2C sysfs in Linux shell. This knowledge is
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useful and essential to use ``i2c-tools`` for the purpose of development and
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debugging.
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Target audience
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---------------
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People who need to use Linux shell to interact with I2C subsystem on a system
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which the Linux is running on.
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Prerequisites
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-------------
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1. Knowledge of general Linux shell file system commands and operations.
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2. General knowledge of I2C, I2C MUX and I2C topology.
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Location of I2C Sysfs
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=====================
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Typically, the Linux Sysfs filesystem is mounted at the ``/sys`` directory,
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so you can find the I2C Sysfs under ``/sys/bus/i2c/devices``
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where you can directly ``cd`` to it.
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There is a list of symbolic links under that directory. The links that
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start with ``i2c-`` are I2C buses, which may be either physical or logical. The
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other links that begin with numbers and end with numbers are I2C devices, where
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the first number is I2C bus number, and the second number is I2C address.
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Google Pixel 3 phone for example::
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blueline:/sys/bus/i2c/devices $ ls
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0-0008 0-0061 1-0028 3-0043 4-0036 4-0041 i2c-1 i2c-3
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0-000c 0-0066 2-0049 4-000b 4-0040 i2c-0 i2c-2 i2c-4
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``i2c-2`` is an I2C bus whose number is 2, and ``2-0049`` is an I2C device
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on bus 2 address 0x49 bound with a kernel driver.
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Terminologies
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=============
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First, let us define a couple of terminologies to avoid confusions in the later
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sections.
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(Physical) I2C Bus Controller
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-----------------------------
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The hardware system that the Linux kernel is running on may have multiple
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physical I2C bus controllers. The controllers are hardware and physical, and the
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system may define multiple registers in the memory space to manipulate the
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controllers. Linux kernel has I2C bus drivers under source directory
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``drivers/i2c/busses`` to translate kernel I2C API into register
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operations for different systems. This terminology is not limited to Linux
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kernel only.
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I2C Bus Physical Number
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-----------------------
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For each physical I2C bus controller, the system vendor may assign a physical
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number to each controller. For example, the first I2C bus controller which has
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the lowest register addresses may be called ``I2C-0``.
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Logical I2C Bus
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---------------
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Every I2C bus number you see in Linux I2C Sysfs is a logical I2C bus with a
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number assigned. This is similar to the fact that software code is usually
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written upon virtual memory space, instead of physical memory space.
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Each logical I2C bus may be an abstraction of a physical I2C bus controller, or
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an abstraction of a channel behind an I2C MUX. In case it is an abstraction of a
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MUX channel, whenever we access an I2C device via a such logical bus, the kernel
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will switch the I2C MUX for you to the proper channel as part of the
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abstraction.
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Physical I2C Bus
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----------------
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If the logical I2C bus is a direct abstraction of a physical I2C bus controller,
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let us call it a physical I2C bus.
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Caveat
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------
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This may be a confusing part for people who only know about the physical I2C
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design of a board. It is actually possible to rename the I2C bus physical number
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to a different number in logical I2C bus level in Device Tree Source (DTS) under
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section ``aliases``. See
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`arch/arm/boot/dts/nuvoton-npcm730-gsj.dts
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<../../arch/arm/boot/dts/nuvoton-npcm730-gsj.dts>`_
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for an example of DTS file.
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Best Practice: **(To kernel software developers)** It is better to keep the I2C
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bus physical number the same as their corresponding logical I2C bus number,
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instead of renaming or mapping them, so that it may be less confusing to other
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users. These physical I2C buses can be served as good starting points for I2C
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MUX fanouts. For the following examples, we will assume that the physical I2C
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bus has a number same as their I2C bus physical number.
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Walk through Logical I2C Bus
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============================
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For the following content, we will use a more complex I2C topology as an
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example. Here is a brief graph for the I2C topology. If you do not understand
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this graph at the first glance, do not be afraid to continue reading this doc
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and review it when you finish reading.
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::
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i2c-7 (physical I2C bus controller 7)
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`-- 7-0071 (4-channel I2C MUX at 0x71)
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|-- i2c-60 (channel-0)
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|-- i2c-73 (channel-1)
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| |-- 73-0040 (I2C sensor device with hwmon directory)
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| |-- 73-0070 (I2C MUX at 0x70, exists in DTS, but failed to probe)
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| `-- 73-0072 (8-channel I2C MUX at 0x72)
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| |-- i2c-78 (channel-0)
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| |-- ... (channel-1...6, i2c-79...i2c-84)
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| `-- i2c-85 (channel-7)
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|-- i2c-86 (channel-2)
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`-- i2c-203 (channel-3)
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Distinguish Physical and Logical I2C Bus
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----------------------------------------
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One simple way to distinguish between a physical I2C bus and a logical I2C bus,
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is to read the symbolic link ``device`` under the I2C bus directory by using
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command ``ls -l`` or ``readlink``.
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An alternative symbolic link to check is ``mux_device``. This link only exists
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in logical I2C bus directory which is fanned out from another I2C bus.
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Reading this link will also tell you which I2C MUX device created
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this logical I2C bus.
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If the symbolic link points to a directory ending with ``.i2c``, it should be a
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physical I2C bus, directly abstracting a physical I2C bus controller. For
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example::
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$ readlink /sys/bus/i2c/devices/i2c-7/device
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../../f0087000.i2c
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$ ls /sys/bus/i2c/devices/i2c-7/mux_device
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ls: /sys/bus/i2c/devices/i2c-7/mux_device: No such file or directory
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In this case, ``i2c-7`` is a physical I2C bus, so it does not have the symbolic
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link ``mux_device`` under its directory. And if the kernel software developer
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follows the common practice by not renaming physical I2C buses, this should also
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mean the physical I2C bus controller 7 of the system.
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On the other hand, if the symbolic link points to another I2C bus, the I2C bus
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presented by the current directory has to be a logical bus. The I2C bus pointed
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by the link is the parent bus which may be either a physical I2C bus or a
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logical one. In this case, the I2C bus presented by the current directory
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abstracts an I2C MUX channel under the parent bus.
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For example::
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$ readlink /sys/bus/i2c/devices/i2c-73/device
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../../i2c-7
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$ readlink /sys/bus/i2c/devices/i2c-73/mux_device
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../7-0071
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``i2c-73`` is a logical bus fanout by an I2C MUX under ``i2c-7``
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whose I2C address is 0x71.
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Whenever we access an I2C device with bus 73, the kernel will always
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switch the I2C MUX addressed 0x71 to the proper channel for you as part of the
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abstraction.
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Finding out Logical I2C Bus Number
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----------------------------------
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In this section, we will describe how to find out the logical I2C bus number
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representing certain I2C MUX channels based on the knowledge of physical
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hardware I2C topology.
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In this example, we have a system which has a physical I2C bus 7 and not renamed
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in DTS. There is a 4-channel MUX at address 0x71 on that bus. There is another
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8-channel MUX at address 0x72 behind the channel 1 of the 0x71 MUX. Let us
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navigate through Sysfs and find out the logical I2C bus number of the channel 3
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of the 0x72 MUX.
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First of all, let us go to the directory of ``i2c-7``::
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~$ cd /sys/bus/i2c/devices/i2c-7
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/sys/bus/i2c/devices/i2c-7$ ls
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7-0071 i2c-60 name subsystem
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delete_device i2c-73 new_device uevent
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device i2c-86 of_node
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i2c-203 i2c-dev power
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There, we see the 0x71 MUX as ``7-0071``. Go inside it::
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/sys/bus/i2c/devices/i2c-7$ cd 7-0071/
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/sys/bus/i2c/devices/i2c-7/7-0071$ ls -l
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channel-0 channel-3 modalias power
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channel-1 driver name subsystem
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channel-2 idle_state of_node uevent
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Read the link ``channel-1`` using ``readlink`` or ``ls -l``::
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/sys/bus/i2c/devices/i2c-7/7-0071$ readlink channel-1
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../i2c-73
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We find out that the channel 1 of 0x71 MUX on ``i2c-7`` is assigned
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with a logical I2C bus number of 73.
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Let us continue the journey to directory ``i2c-73`` in either ways::
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# cd to i2c-73 under I2C Sysfs root
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/sys/bus/i2c/devices/i2c-7/7-0071$ cd /sys/bus/i2c/devices/i2c-73
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/sys/bus/i2c/devices/i2c-73$
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# cd the channel symbolic link
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/sys/bus/i2c/devices/i2c-7/7-0071$ cd channel-1
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/sys/bus/i2c/devices/i2c-7/7-0071/channel-1$
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# cd the link content
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/sys/bus/i2c/devices/i2c-7/7-0071$ cd ../i2c-73
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/sys/bus/i2c/devices/i2c-7/i2c-73$
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Either ways, you will end up in the directory of ``i2c-73``. Similar to above,
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we can now find the 0x72 MUX and what logical I2C bus numbers
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that its channels are assigned::
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/sys/bus/i2c/devices/i2c-73$ ls
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73-0040 device i2c-83 new_device
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73-004e i2c-78 i2c-84 of_node
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73-0050 i2c-79 i2c-85 power
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73-0070 i2c-80 i2c-dev subsystem
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73-0072 i2c-81 mux_device uevent
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delete_device i2c-82 name
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/sys/bus/i2c/devices/i2c-73$ cd 73-0072
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/sys/bus/i2c/devices/i2c-73/73-0072$ ls
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channel-0 channel-4 driver of_node
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channel-1 channel-5 idle_state power
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channel-2 channel-6 modalias subsystem
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channel-3 channel-7 name uevent
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/sys/bus/i2c/devices/i2c-73/73-0072$ readlink channel-3
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../i2c-81
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There, we find out the logical I2C bus number of the channel 3 of the 0x72 MUX
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is 81. We can later use this number to switch to its own I2C Sysfs directory or
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issue ``i2c-tools`` commands.
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Tip: Once you understand the I2C topology with MUX, command
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`i2cdetect -l
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<https://manpages.debian.org/unstable/i2c-tools/i2cdetect.8.en.html>`_
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in
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`I2C Tools
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<https://i2c.wiki.kernel.org/index.php/I2C_Tools>`_
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can give you
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an overview of the I2C topology easily, if it is available on your system. For
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example::
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$ i2cdetect -l | grep -e '\-73' -e _7 | sort -V
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i2c-7 i2c npcm_i2c_7 I2C adapter
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i2c-73 i2c i2c-7-mux (chan_id 1) I2C adapter
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i2c-78 i2c i2c-73-mux (chan_id 0) I2C adapter
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i2c-79 i2c i2c-73-mux (chan_id 1) I2C adapter
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i2c-80 i2c i2c-73-mux (chan_id 2) I2C adapter
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i2c-81 i2c i2c-73-mux (chan_id 3) I2C adapter
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i2c-82 i2c i2c-73-mux (chan_id 4) I2C adapter
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i2c-83 i2c i2c-73-mux (chan_id 5) I2C adapter
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i2c-84 i2c i2c-73-mux (chan_id 6) I2C adapter
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i2c-85 i2c i2c-73-mux (chan_id 7) I2C adapter
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Pinned Logical I2C Bus Number
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-----------------------------
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If not specified in DTS, when an I2C MUX driver is applied and the MUX device is
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successfully probed, the kernel will assign the MUX channels with a logical bus
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number based on the current biggest logical bus number incrementally. For
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example, if the system has ``i2c-15`` as the highest logical bus number, and a
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4-channel MUX is applied successfully, we will have ``i2c-16`` for the
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MUX channel 0, and all the way to ``i2c-19`` for the MUX channel 3.
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The kernel software developer is able to pin the fanout MUX channels to a static
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logical I2C bus number in the DTS. This doc will not go through the details on
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how to implement this in DTS, but we can see an example in:
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`arch/arm/boot/dts/aspeed-bmc-facebook-wedge400.dts
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<../../arch/arm/boot/dts/aspeed-bmc-facebook-wedge400.dts>`_
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In the above example, there is an 8-channel I2C MUX at address 0x70 on physical
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I2C bus 2. The channel 2 of the MUX is defined as ``imux18`` in DTS,
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and pinned to logical I2C bus number 18 with the line of ``i2c18 = &imux18;``
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in section ``aliases``.
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Take it further, it is possible to design a logical I2C bus number schema that
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can be easily remembered by humans or calculated arithmetically. For example, we
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can pin the fanout channels of a MUX on bus 3 to start at 30. So 30 will be the
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logical bus number of the channel 0 of the MUX on bus 3, and 37 will be the
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logical bus number of the channel 7 of the MUX on bus 3.
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I2C Devices
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===========
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In previous sections, we mostly covered the I2C bus. In this section, let us see
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what we can learn from the I2C device directory whose link name is in the format
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of ``${bus}-${addr}``. The ``${bus}`` part in the name is a logical I2C bus
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decimal number, while the ``${addr}`` part is a hex number of the I2C address
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of each device.
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I2C Device Directory Content
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----------------------------
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Inside each I2C device directory, there is a file named ``name``.
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This file tells what device name it was used for the kernel driver to
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probe this device. Use command ``cat`` to read its content. For example::
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/sys/bus/i2c/devices/i2c-73$ cat 73-0040/name
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ina230
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/sys/bus/i2c/devices/i2c-73$ cat 73-0070/name
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pca9546
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/sys/bus/i2c/devices/i2c-73$ cat 73-0072/name
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pca9547
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There is a symbolic link named ``driver`` to tell what Linux kernel driver was
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used to probe this device::
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/sys/bus/i2c/devices/i2c-73$ readlink -f 73-0040/driver
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/sys/bus/i2c/drivers/ina2xx
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/sys/bus/i2c/devices/i2c-73$ readlink -f 73-0072/driver
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/sys/bus/i2c/drivers/pca954x
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But if the link ``driver`` does not exist at the first place,
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it may mean that the kernel driver failed to probe this device due to
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some errors. The error may be found in ``dmesg``::
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/sys/bus/i2c/devices/i2c-73$ ls 73-0070/driver
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ls: 73-0070/driver: No such file or directory
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/sys/bus/i2c/devices/i2c-73$ dmesg | grep 73-0070
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pca954x 73-0070: probe failed
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pca954x 73-0070: probe failed
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Depending on what the I2C device is and what kernel driver was used to probe the
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device, we may have different content in the device directory.
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I2C MUX Device
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--------------
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While you may be already aware of this in previous sections, an I2C MUX device
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will have symbolic link ``channel-*`` inside its device directory.
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These symbolic links point to their logical I2C bus directories::
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/sys/bus/i2c/devices/i2c-73$ ls -l 73-0072/channel-*
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lrwxrwxrwx ... 73-0072/channel-0 -> ../i2c-78
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lrwxrwxrwx ... 73-0072/channel-1 -> ../i2c-79
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lrwxrwxrwx ... 73-0072/channel-2 -> ../i2c-80
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lrwxrwxrwx ... 73-0072/channel-3 -> ../i2c-81
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lrwxrwxrwx ... 73-0072/channel-4 -> ../i2c-82
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lrwxrwxrwx ... 73-0072/channel-5 -> ../i2c-83
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lrwxrwxrwx ... 73-0072/channel-6 -> ../i2c-84
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lrwxrwxrwx ... 73-0072/channel-7 -> ../i2c-85
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I2C Sensor Device / Hwmon
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-------------------------
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I2C sensor device is also common to see. If they are bound by a kernel hwmon
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(Hardware Monitoring) driver successfully, you will see a ``hwmon`` directory
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inside the I2C device directory. Keep digging into it, you will find the Hwmon
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Sysfs for the I2C sensor device::
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/sys/bus/i2c/devices/i2c-73/73-0040/hwmon/hwmon17$ ls
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curr1_input in0_lcrit_alarm name subsystem
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device in1_crit power uevent
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in0_crit in1_crit_alarm power1_crit update_interval
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in0_crit_alarm in1_input power1_crit_alarm
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in0_input in1_lcrit power1_input
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in0_lcrit in1_lcrit_alarm shunt_resistor
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For more info on the Hwmon Sysfs, refer to the doc:
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`Naming and data format standards for sysfs files
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<../hwmon/sysfs-interface.rst>`_
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Instantiate I2C Devices in I2C Sysfs
|
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------------------------------------
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Refer to the doc:
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`How to instantiate I2C devices, Method 4: Instantiate from user-space
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<instantiating-devices.rst#method-4-instantiate-from-user-space>`_
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