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This document is about using and testing the experimental full virtualization patch for I2C pass-through devices using QEMU+KVM.

For the basic setup, Geert Uytterhoeven did an introduction how to setup QEMU+KVM on R-Car Gen3.

Please note also that this document is only about QEMU+KVM. Other hypervisors would need a seperate document.

For security reasons, this pass through only supports reading. Writing works basically the same and would be trivial to add.


This patch was created when researching pass-through techniques suitable for I2C devices. One outcome of this research is that "full virtualization" has severe limits and other approaches like virtio sound more reasonable. From the patch header:

    Full virtualization
    Would be nice to have because it would work with all virtual I2C
    adapters instantly, however there come problems with it. For that to
    work, we would need to be able to transmit the QEMU I2C primitives from
    userspace to the kernel. There is currently no such interface for that.
    As of today, there is only the i2c-dev interface which allows to send
    a complete transfer (which may consist of multiple, combined messages)
    or SMBus commands. There is no way to send more primitive commands like
    "send {start|stop|acknowledge}-bit". Even if there was, most hardware I
    know of wouldn't work well with this. We often need a-priori knowledge
    like length of the message to program the controller. Such information
    is not available when working with such primitives. On top of that, that
    approach would cause quite some overhead, so performance regressions for
    drivers which use other devices on the same bus are likely.
    From what I understood so far, virtio could help here. Yes, we would
    need seperate drivers, yet data transfer could be super simple. If we
    had a simple virtio-PCI I2C master device, it could have a really simple
    kernel driver. It basically takes the I2C transfer it gets, does some
    sanity checking so no other devices are accessed, and then passes it
    to the kernel. I have not fully understood yet, if the virtio
    transportation mechanism is better/required here, or if we can/should
    still use the existing i2c-dev character interface.

    Other problems found
    Here is a list of other problems I discovered which need addressing in
    one way or the other:
    * exclusive access to I2C devices
    We currently don't have a way to mark devices as being "in use, don't
    touch" from userspace. This could be added but we need to decide on the
    transportation layer first (i2c-dev vs. virtio).
    * no generic I2C master (at least for x86)
    Unless I overlooked something, we currently can't simply add a new I2C
    bus on x86 because there is no virtual hardware encoded just doing that.
    I found patches for a USB-to-I2C bridge floating around. USB is nicely
    generic, so probably worth evaluating those again if this task is to be
    * re-definition of I2C_SLAVE
    QEMU defines I2C_SLAVE as well as <linux/i2c-dev.h>. So, if that
    interface is going to be used, we need something to fix this.
    * likely improvements to the QEMU I2C core
    From visual review, I am quite sure QEMU I2C core does not suport
    'repeated start' with the following message having a different I2C
    destination address than the previous one. This is legal, but up to
    now very rarely seen in practice. However, with deivces becoming more
    complex and those devices maybe being passed-through as well, more
    improvements to the QEMU I2C core might be needed as well.
    These are my finding regarding I2C device passthrough with QEMU. The
    below patch is a very first step in the "full virtualization" direction
    because it transports every byte access directly to the host (totally
    missing proper I2C start/stop/ack generation). As described above,
    I would not recommend this approach any further. My staring point now
    would be a simplified virtio or virtio-alike device where the transfer
    is passed-through as such to the host, and not split up into primitives.
    So the patch itself is already obsolete, but it served well for gaining


The patch can be found here: <FIXME>

The patch is very self-contained and should easily be applicable to various versions of QEMU.

Other than a version of QEMU with the patch applied, you need 'CONFIG_I2C_CHARDEV' enabled in the host-kernel. Also, the user running QEMU should have access to that character device which can be achieved by adding the user to the "i2c" group.

You should have the 'i2c-tools' package installed on the host and the client to verify the results.

Getting reference data from the host

First, we read out a device on the host directly. For this, I use an SPD EEPROM of a memory module which sits on bus 0, addr 0x52 on my laptop. Although this is pretty common, it may be different on your system, so please double check beforehand. For easier comparison, we calculate a hashsum over the dump:

$ sudo i2cdump -y 0 0x52 | md5sum
No size specified (using byte-data access)
2bfd553791d86fcc7d850528033a08c9  -

Passing through the I2C device

For the above combination of bus number and address, add this snipplet to your standard QEMU command line to have the SPD EEPROM mapped at address 0x42 or adapt the parameters to your needs: -device host-i2cdev,address=0x42,file=/dev/i2c-0,hostaddr=0x52

Then boot into the QEMU machine and execute as root:

# i2cdump -y 0 0x42 | md5sum
No size specified (using byte-data access)
2bfd553791d86fcc7d850528033a08c9  -

The equal md5sum outputs show that the dump matches and we have successfully read from the host-device.