Docker container for running ARM-based virtual machines using QEMU, for devices like the Raspberry Pi 5 and many others.
-
Web-based viewer to control the machine directly from your browser
-
Supports
.iso
,.img
,.qcow2
,.vhd
,.vhdx
,.vdi
,.vmdk
and.raw
disk formats -
High-performance options (like KVM acceleration, kernel-mode networking, IO threading, etc.) to achieve near-native speed
Via Docker Compose:
services:
qemu:
container_name: qemu
image: qemux/qemu-arm
environment:
BOOT: "https://dl-cdn.alpinelinux.org/alpine/v3.19/releases/aarch64/alpine-virt-3.19.1-aarch64.iso"
devices:
- /dev/kvm
cap_add:
- NET_ADMIN
ports:
- 8006:8006
stop_grace_period: 2m
Via Docker CLI:
docker run -it --rm -e "BOOT=http://example.com/image.iso" -p 8006:8006 --device=/dev/kvm --cap-add NET_ADMIN qemux/qemu-arm
Via Kubernetes:
kubectl apply -f https://raw.githubusercontent.com/qemus/qemu-arm/refs/heads/master/kubernetes.yml
Product | Platform | |
---|---|---|
Docker Engine | Linux | β |
Docker Desktop | Linux | β |
Docker Desktop | macOS | β |
Very simple! These are the steps:
-
Set the
BOOT
environment variable to the URL of any disk image you want to install. -
Start the container and connect to port 8006 using your web browser.
-
You will see the screen and can now install the OS of your choice using your keyboard and mouse.
Enjoy your brand new machine, and don't forget to star this repo!
To change the storage location, include the following bind mount in your compose file:
volumes:
- /var/qemu:/storage
Replace the example path /var/qemu
with the desired storage folder.
To expand the default size of 16 GB, add the DISK_SIZE
setting to your compose file and set it to your preferred capacity:
environment:
DISK_SIZE: "128G"
Tip
This can also be used to resize the existing disk to a larger capacity without any data loss.
For maximum compatibility, the display output will be a simple framebuffer by default. While this isn't the most optimal, it doesn't require any drivers.
If your guest OS bundles the virtio-gpu
driver (as most Linux distributions do), you can add the following to your compose file:
environment:
VGA: "virtio-gpu"
to add a virtual graphics cards to your machine that allows for higher resolutions.
Note
Using this method your screen will stay black during the boot process, until the point where the driver is actually loaded.
You can use a local image file directly, and skip the download altogether, by binding it in your compose file:
volumes:
- /home/user/example.iso:/boot.iso
This way you can supply a boot.iso
, boot.img
or boot.qcow2
file.
Note
The URL of the BOOT
variable will be ignored in this case.
Use dockur/windows-arm instead, as it includes all the drivers required during installation, amongst many other features.
You can use qemu-docker to run x86 and x64 images on ARM.
By default, the machine makes use of virtio-scsi
drives for performance reasons, and even though most Linux kernels bundle the necessary driver for this device, that may not always be the case for other operating systems.
If your machine fails to detect the hard drive, you can modify your compose file to use virtio-blk
instead:
environment:
DISK_TYPE: "blk"
Tip
If it still fails to boot, you can set the value to usb
to emulate a USB drive, which is slower but requires no drivers and is compatible with almost every system.
By default, the container will be allowed to use a maximum of 1 CPU core and 1 GB of RAM.
If you want to adjust this, you can specify the desired amount using the following environment variables:
environment:
RAM_SIZE: "4G"
CPU_CORES: "4"
Only Linux and Windows 11 support KVM virtualization, macOS and Windows 10 do not unfortunately.
You can run the following commands in Linux to check your system:
sudo apt install cpu-checker
sudo kvm-ok
If you receive an error from kvm-ok
indicating that KVM cannot be used, please check whether:
-
the virtualization extensions (
Intel VT-x
orAMD SVM
) are enabled in your BIOS. -
you enabled "nested virtualization" if you are running the container inside a virtual machine.
-
you are not using a cloud provider, as most of them do not allow nested virtualization for their VPS's.
If you do not receive any error from kvm-ok
but the container still complains about KVM, please check whether:
-
you are not using "Docker Desktop for Linux" as it does not support KVM, instead make use of Docker Engine directly.
-
it could help to add
privileged: true
to your compose file (orsudo
to yourdocker run
command), to rule out any permission issue.
By default, the container uses bridge networking, which shares the IP address with the host.
If you want to assign an individual IP address to the container, you can create a macvlan network as follows:
docker network create -d macvlan \
--subnet=192.168.0.0/24 \
--gateway=192.168.0.1 \
--ip-range=192.168.0.100/28 \
-o parent=eth0 vlan
Be sure to modify these values to match your local subnet.
Once you have created the network, change your compose file to look as follows:
services:
qemu:
container_name: qemu
..<snip>..
networks:
vlan:
ipv4_address: 192.168.0.100
networks:
vlan:
external: true
An added benefit of this approach is that you won't have to perform any port mapping anymore, since all ports will be exposed by default.
Important
This IP address won't be accessible from the Docker host due to the design of macvlan, which doesn't permit communication between the two. If this is a concern, you need to create a second macvlan as a workaround.
After configuring the container for macvlan, it is possible for the VM to become part of your home network by requesting an IP from your router, just like a real PC.
To enable this mode, add the following lines to your compose file:
environment:
DHCP: "Y"
devices:
- /dev/vhost-net
device_cgroup_rules:
- 'c *:* rwm'
Note
In this mode, the container and the VM will each have their own separate IPs.
To create additional disks, modify your compose file like this:
environment:
DISK2_SIZE: "32G"
DISK3_SIZE: "64G"
volumes:
- /home/example:/storage2
- /mnt/data/example:/storage3
It is possible to pass-through disk devices directly by adding them to your compose file in this way:
devices:
- /dev/sdb:/disk1
- /dev/sdc:/disk2
Use /disk1
if you want it to become your main drive, and use /disk2
and higher to add them as secondary drives.
To pass-through a USB device, first lookup its vendor and product id via the lsusb
command, then add them to your compose file like this:
environment:
ARGUMENTS: "-device usb-host,vendorid=0x1234,productid=0x1234"
devices:
- /dev/bus/usb
You can create the ARGUMENTS
environment variable to provide additional arguments to QEMU at runtime:
environment:
ARGUMENTS: "-device usb-tablet"
The BOOT
URL accepts files in any of the following formats:
Extension | Format |
---|---|
.img |
Raw |
.raw |
Raw |
.iso |
Optical |
.qcow2 |
QEMU |
.vmdk |
VMware |
.vhd |
VirtualPC |
.vhdx |
Hyper-V |
.vdi |
VirtualBox |
Tip
It will also accept .img.gz
, .qcow2.xz
, .iso.zip
and many more, as it automaticly extracts compressed files.