Hello,
In my earlier attempt [1], I implemented the vhost-user-i2c backend
deamon for QEMU (though the code was generic enough to be used with
any hypervisor).
And here is a Rust implementation of the vhost-user-i2c backend
daemon. Again this is generic enough to be used with any hypervisor
and can live in its own repository now:
https://github.com/vireshk/vhost-user-i2c
I am not sure what's the process to get this merged to Rust-vmm.
Can someone help ? Is that the right thing to do ?
-------------------------8<-------------------------
Here are other details (which are same since the earlier Qemu
attempt):
This is an initial implementation of a generic vhost-user backend for
the I2C bus. This is based of the virtio specifications (already merged)
for the I2C bus.
The kernel virtio I2C driver is still under review, here [2] is the latest
version (v10):
The backend is implemented as a vhost-user device because we want to
experiment in making portable backends that can be used with multiple
hypervisors. We also want to support backends isolated in their own
separate service VMs with limited memory cross-sections with the
principle guest. This is part of a wider initiative by Linaro called
"project Stratos" for which you can find information here:
https://collaborate.linaro.org/display/STR/Stratos+Home
I2C Testing:
------------
I didn't have access to a real hardware where I can play with a I2C
client device (like RTC, eeprom, etc) to verify the working of the
backend daemon, so I decided to test it on my x86 box itself with
hierarchy of two ARM64 guests.
The first ARM64 guest was passed "-device ds1338,address=0x20" option,
so it could emulate a ds1338 RTC device, which connects to an I2C bus.
Once the guest came up, ds1338 device instance was created within the
guest kernel by doing:
echo ds1338 0x20 > /sys/bus/i2c/devices/i2c-0/new_device
[
Note that this may end up binding the ds1338 device to its driver,
which won't let our i2c daemon talk to the device. For that we need to
manually unbind the device from the driver:
echo 0-0020 > /sys/bus/i2c/devices/0-0020/driver/unbind
]
After this is done, you will get /dev/rtc1. This is the device we wanted
to emulate, which will be accessed by the vhost-user-i2c backend daemon
via the /dev/i2c-0 file present in the guest VM.
At this point we need to start the backend daemon and give it a
socket-path to talk to from qemu (you can pass -v to it to get more
detailed messages):
target/debug/vhost-user-i2c --socket-path=vi2c.sock -l 0:32
[ Here, 0:32 is the bus/device mapping, 0 for /dev/i2c-0 and 32 (i.e.
0x20) is client address of ds1338 that we used while creating the
device. ]
Now we need to start the second level ARM64 guest (from within the first
guest) to get the i2c-virtio.c Linux driver up. The second level guest
is passed the following options to connect to the same socket:
-chardev socket,path=vi2c.sock,id=vi2c \
-device vhost-user-i2c-pci,chardev=vi2c,id=i2c
Once the second level guest boots up, we will see the i2c-virtio bus at
/sys/bus/i2c/devices/i2c-X/. From there we can now make it emulate the
ds1338 device again by doing:
echo ds1338 0x20 > /sys/bus/i2c/devices/i2c-0/new_device
[ This time we want ds1338's driver to be bound to the device, so it
should be enabled in the kernel as well. ]
And we will get /dev/rtc1 device again here in the second level guest.
Now we can play with the rtc device with help of hwclock utility and we
can see the following sequence of transfers happening if we try to
update rtc's time from system time.
hwclock -w -f /dev/rtc1 (in guest2) ->
Reaches i2c-virtio.c (Linux bus driver in guest2) ->
transfer over virtio ->
Reaches the qemu's vhost-i2c device emulation (running over guest1) ->
Reaches the backend daemon vhost-user-i2c started earlier (in guest1) ->
ioctl(/dev/i2c-0, I2C_RDWR, ..); (in guest1) ->
reaches qemu's hw/rtc/ds1338.c (running over host)
SMBUS Testing:
--------------
I wasn't required to have such a tedious setup for testing out with
SMBUS devices. I was able to emulate a SMBUS device on my x86 machine
using i2c-stub driver.
$ modprobe i2c-stub chip_addr=0x20
//Boot the arm64 guest now with i2c-virtio driver and then do:
$ echo al3320a 0x20 > /sys/class/i2c-adapter/i2c-0/new_device
$ cat /sys/bus/iio/devices/iio:device0/in_illuminance_raw
That's it.
I hope I was able to give a clear picture of my test setup here :)
--
viresh
[1] https://lore.kernel.org/qemu-devel/cover.1617278395.git.viresh.kumar@linaro…
[2] https://lore.kernel.org/lkml/226a8d5663b7bb6f5d06ede7701eedb18d1bafa1.16164…
Hi Everyone,
(apologies to anyone missed from the wide bcc list)
For next weeks sync we'll have the postponed presentation on Qualcomm's
Gunyah hypervisor which has been recently open sourced:
https://github.com/quic/gunyah-hypervisor
as you may be aware the name of the project comes from an Australian
Aboriginal word and has been developed by a team in Sydney. For the next
meeting only I've moved it to 9:30 London time it's not too late for our
friends on the other side of the world.
I appreciate this makes it harder for some to attend from the Americas.
I shall see if it's possible to record the session for those who need to
catch up.
I've updated the project calendar and would like to take this opportunity
to remind you of it's URL:
https://calendar.google.com/calendar/embed?src=c_j7ngi1o8rlofkped4r5ch98mvg…
by subscribing to that you won't be subject to the whims of any
individuals diary changes.
--
Alex Bennée
