- CI/CD weaponization thru vnc and xdotool
- OSX-KVM
- X11 Forwarding
- SSH on localhost:50922
- QEMU
- VNC on localhost:8888 vnc version is inside a separate directory
- Create an ARMY using
docker commit
- XFVB HEADLESS (use vnc)
Run Mac in a Docker container! Run near native OSX-KVM in Docker! X11 Forwarding!
Author: Sick.Codes https://sick.codes/ & https://twitter.com/sickcodes
PR & Contributor Credits: https://github.com/sickcodes/Docker-OSX/blob/master/CREDITS.md
Upstream: https://github.com/kholia/OSX-KVM && the great guy @kholia
Upstream Credits (OSX-KVM project) among many others: https://github.com/kholia/OSX-KVM/blob/master/CREDITS.md
Docker Hub: https://hub.docker.com/r/sickcodes/docker-osx
Run iOS in a Docker with Docker-eyeOS - https://github.com/sickcodes/Docker-eyeOS
docker pull sickcodes/docker-osx:latest
docker run \
--device /dev/kvm \
--device /dev/snd \
-v /tmp/.X11-unix:/tmp/.X11-unix \
-e "DISPLAY=${DISPLAY:-:0.0}" \
sickcodes/docker-osx:latest
# press ctrl G if your mouse gets stuck
# scroll down to troubleshooting if you have problems
# need more RAM and SSH on localhost -p 50922?
docker run \
--device /dev/kvm \
--device /dev/snd \
-e RAM=4 \
-p 50922:10022 \
-v /tmp/.X11-unix:/tmp/.X11-unix \
-e "DISPLAY=${DISPLAY:-:0.0}" \
sickcodes/docker-osx:latest
# turn on SSH after you've installed OSX in the "Sharing" settings.
ssh fullname@localhost -p 50922
# find you containerID
docker ps
# move the no picker script on top of the Launch script
# NEW CONTAINERS
docker exec containerID mv ./Launch-nopicker.sh ./Launch.sh
# VNC-VERSION-CONTAINER
docker exec containerID mv ./Launch-nopicker.sh ./Launch_custom.sh
# LEGACY CONTAINERS
docker exec containerID bash -c "grep -v InstallMedia ./Launch.sh > ./Launch-nopicker.sh
chmod x ./Launch-nopicker.sh
sed -i -e s/OpenCore\.qcow2/OpenCore\-nopicker\.qcow2/ ./Launch-nopicker.sh
"
Need to turn on hardware virtualization in your BIOS, very easy to do.
Then have QEMU on the host if you haven't already
# ARCH
sudo pacman -S qemu libvirt dnsmasq virt-manager bridge-utils flex bison iptables-nft edk2-ovmf
# UBUNTU DEBIAN
sudo apt install qemu qemu-kvm libvirt-clients libvirt-daemon-system bridge-utils virt-manager
# CENTOS RHEL FEDORA
sudo yum install libvirt qemu-kvm
# then run
sudo systemctl enable libvirtd.service
sudo systemctl enable virtlogd.service
sudo modprobe kvm
# reboot
This is for when you want to run the SAME container again later.
If you don't run this you will have a new image every time.
# look at your recent containers and copy the CONTAINER ID
docker ps --all
# docker start the container ID
docker start abc123xyz567
# if you have many containers, you can try automate it with filters like this
# docker ps --all --filter "ancestor=sickcodes/docker-osx"
# for locally tagged/built containers
# docker ps --all --filter "ancestor=docker-osx"
-
Boot the macOS Base System
-
Click
Disk Utility
-
Erase the BIGGEST disk (around 200gb default), DO NOT MODIFY THE SMALLER DISKS. -- if you can't click
erase
, you may need to reduce the disk size by 1kb -
(optional) Create a partition using the unused space to house the OS and your files if you want to limit the capacity. (For Xcode 12 partition at least 60gb.)
-
Click
Reinstall macOS
# You can create an image of an already configured and setup container.
# This allows you to effectively duplicate a system.
# To do this, run the following commands
# make note of your container id
docker ps --all
docker commit containerid newImageName
# To run this image do the following
docker run \
--device /dev/kvm \
--device /dev/snd \
-v /tmp/.X11-unix:/tmp/.X11-unix \
newImageName
libgtk permissions denied error, thanks @raoulh @arsham
echo $DISPLAY
# ARCH
sudo pacman -S xorg-xhost
# UBUNTU DEBIAN
sudo apt install x11-xserver-utils
# CENTOS RHEL FEDORA
sudo yum install xorg-x11-server-utils
# then run
xhost
PulseAudio for sound (note neither AppleALC and varying alcid
or VoodooHDA-OC have codec support though IORegistryExplorer does show the controller component working):
docker run \
--device /dev/kvm \
-e AUDIO_DRIVER=pa,server=unix:/tmp/pulseaudio.socket \
-v "/run/user/$(id -u)/pulse/native:/tmp/pulseaudio.socket" \
-v /tmp/.X11-unix:/tmp/.X11-unix \
sickcodes/docker-osx
PulseAudio debugging:
docker run \
--device /dev/kvm \
-e AUDIO_DRIVER=pa,server=unix:/tmp/pulseaudio.socket \
-v "/run/user/$(id -u)/pulse/native:/tmp/pulseaudio.socket" \
-v /tmp/.X11-unix:/tmp/.X11-unix \
-e PULSE_SERVER=unix:/tmp/pulseaudio.socket \
sickcodes/docker-osx pactl list
Alternative run, thanks @roryrjb
docker run \
--privileged \
--net host \
--cap-add=ALL \
-v /tmp/.X11-unix:/tmp/.X11-unix \
-v /dev:/dev \
-v /lib/modules:/lib/modules \
sickcodes/docker-osx
Check if your hardware virt is on
egrep -c '(svm|vmx)' /proc/cpuinfo
Try adding yourself to the docker group
sudo usermod -aG docker "${USER}"
Turn on docker daemon
# run ad hoc
sudo dockerd
# or daemonize it
sudo nohup dockerd &
# or enable it in systemd
sudo systemctl enable docker
Allow ipv4 forwarding for bridged networking connections:
This is not required for LOCAL installations and may cause containers behind VPN's to leak host IP.
If you are connecting to a REMOTE Docker-OSX, e.g. a "Mac Mini" in a datacenter, then this may boost networking:
# enable for current session
sudo sysctl -w net.ipv4.ip_forward=1
# OR
# sudo tee /proc/sys/net/ipv4/ip_forward <<< 1
# enable permanently
sudo touch /etc/sysctl.conf
sudo tee -a /etc/sysctl.conf <<EOF
net.ipv4.ip_forward = 1
EOF
# OR edit manually
nano /etc/sysctl.conf || vi /etc/sysctl.conf || vim /etc/sysctl.conf
# now reboot
### Arch
sudo pacman -S docker
sudo groupadd docker
sudo usermod -aG docker "${USER}"
### Ubuntu
sudo apt remove docker docker-engine docker.io containerd runc -y
sudo apt install apt-transport-https ca-certificates curl gnupg-agent software-properties-common -y
curl -fsSL https://download.docker.com/linux/ubuntu/gpg | apt-key add -
apt-key fingerprint 0EBFCD88
sudo add-apt-repository "deb [arch=amd64] https://download.docker.com/linux/ubuntu $(lsb_release -cs) stable"
sudo apt update -y
sudo apt install docker-ce docker-ce-cli containerd.io -y
sudo groupadd docker
sudo usermod -aG docker "${USER}"
# Set the docker0 bridge to the trusted zone
sudo firewall-cmd --permanent --zone=trusted --add-interface=docker0
sudo firewall-cmd --reload
You can use docker cp
# docker copy your image OUT of your container (warning, double disk space)
docker cp oldcontainerid:/home/arch/OSX-KVM/mac_hdd_ng.img .
Or if you lost your container, find it with this:
# fast way, find 10 gigabyte OSX disks hiding in your docker container storage
sudo find /var/lib/docker -size 10G | grep mac_hdd_ng.img
# you can move (mv) it somewhere, using cp can take loads of disk space
sudo mv somedir/mac_hdd_ng.img .
You do not have to reinstall everything, you can simply:
-
start a new container
-
overwrite the .img in the new container with your big old one
# start a new docker-osx container
# you can start with ssh, without, or vnc, because they are all interchangable.
# get the NEW container id
docker ps
# docker cp your OLD disk into the NEW container
docker cp ./mac_hdd_ng.img newcontainerid:/home/arch/OSX-KVM/mac_hdd_ng.img
# kill the NEW container
docker kill newcontainerid
# start the NEW container and it just works
docker start newcontainerid
This is useful for getting disk space back.
It will delete ALL your old (and new) docker containers.
# WARNING deletes all old images, but saves disk space if you make too many containers
# The following command will make your containers RIP
docker system prune --all
docker image prune --all
This Dockerfile automates the installation of OSX-KVM inside a docker container.
It will build a Catalina Disk with up to 200GB of space.
You can change the size and version using build arguments (see below).
This file builds on top of the work done by Dhiru Kholia and many others on the OSX-KVM project.
- Start up the container as usual, and remove unnecessary files. A useful way
to do this is to use
du -sh *
starting from the/
directory, and find large directories where files can be removed. E.g. unnecessary cached files, Xcode platforms, etc. - Once you are satisfied with the amount of free space, enable trim with
sudo trimforce enable
, and reboot. - Zero out the empty space on the disk with
dd if=/dev/zero of=./empty && rm -f empty
- Shut down the VM and copy out the qcow image with
docker cp stoppedcontainer:/home/arch/OSX-KVM/mac_hdd_ng.img .
- Run
qemu-img check -r all mac_hdd_ng.img
to fix any errors. - Run
qemu-img convert -O qcow2 mac_hdd_ng.img deduped.img
and check for errors again - OPTIONAL: Run
qemu-img -c -O qcow2 deduped.img compressed.img
to further compress the image. This may reduce the runtime speed though, but it should reduce the size by roughly 25%. - Check for errors again, and build a fresh docker image. E.g. with this Dockerfile
FROM sickcodes/docker-osx
USER arch
COPY --chown=arch ./deduped.img /home/arch/OSX-KVM/mac_hdd_ng.img
First make sure autoboot is enabled
Next, you will want to set up SSH to be automatically started.
sudo systemsetup -setremotelogin on
Make sure to commit the new docker image and save it, or rebuild as described in the section on reducing disk space.
Then run it with these arguments.
# Run with the -nographic flag, and enable a telnet interface
docker run \
--device /dev/kvm \
-p 50922:10022 \
-e "DISPLAY=${DISPLAY:-:0.0}" \
-e EXTRA="-monitor telnet::45454,server,nowait -nographic -serial null" \
mycustomimage
Optionally, you can enable the SPICE protocol, which allows you to use remote-viewer
to access it rather than VNC.
Note: -disable-ticketing
will allow unauthenticated access to the VM. See the spice manual for help setting up authenticated access ("Ticketing").
docker run \
--device /dev/kvm \
-p 50922:10022 \
-e "DISPLAY=${DISPLAY:-:0.0}" \
-e EXTRA="-monitor telnet::45454,server,nowait -nographic -serial null -spice disable-ticketing,port=3001" \
mycustomimage
Then simply do remote-viewer spice://localhost:3001
and add --spice-debug
for debugging.
docker build -t docker-osx:latest \
--build-arg VERSION=10.14.6 \
--build-arg SIZE=200G
Pass any devices/directories to the Docker container & the QEMU arguments using the handy -e EXTRA=
runtime options.
docker run \
-e RAM=4 \
-e SMP=4 \
-e CORES=4 \
-e EXTRA='-usb -device usb-host,hostbus=1,hostaddr=8' \
-e INTERNAL_SSH_PORT=23 \
--device /dev/kvm \
--device /dev/snd \
-v /tmp/.X11-unix:/tmp/.X11-unix \
docker-osx:latest
The simplest way to do this is the following:
First of all, in order to do this, QEMU must be started as root. It is also potentially possible to do this by changing the permissions of the device in the container. See here.
For example, create a new Dockerfile with the following
FROM sickcodes/docker-osx
USER arch
RUN sed -i -e s/exec\ qemu/exec\ sudo\ qemu/ ./Launch.sh
COPY --chown=arch ./new_image.img /home/arch/OSX-KVM/mac_hdd_ng.img
Where new_image.img
is the qcow2 image you extracted. Then rebuild with docker build .
Find out the bus and port numbers of your USB device which you want to pass through to the VM.
lsusb -t
/: Bus 02.Port 1: Dev 1, Class=root_hub, Driver=xhci_hcd/6p, 5000M
/: Bus 01.Port 1: Dev 1, Class=root_hub, Driver=xhci_hcd/12p, 480M
|__ Port 2: Dev 5, If 0, Class=Human Interface Device, Driver=usbhid, 12M
|__ Port 2: Dev 5, If 1, Class=Chip/SmartCard, Driver=, 12M
|__ Port 3: Dev 2, If 0, Class=Wireless, Driver=, 12M
|__ Port 3: Dev 2, If 1, Class=Wireless, Driver=, 12M
|__ Port 5: Dev 3, If 0, Class=Video, Driver=uvcvideo, 480M
|__ Port 5: Dev 3, If 1, Class=Video, Driver=uvcvideo, 480M
In this example, we want to pass through a smartcard device. The device we want is on bus 1 and port 2.
There may also be differences if your device is usb 2.0 (ehci) vs usb 3.0 (xhci). See here for more details.
# hostbus and hostport correspond to the numbers from lsusb
# runs in privileged mode to enable access to the usb devices.
docker run \
--privileged \
--device /dev/kvm \
-e RAM=4 \
-p 50922:10022 \
-e "DISPLAY=${DISPLAY:-:0.0}" \
-e EXTRA="-device virtio-serial-pci -device usb-host,hostbus=1,hostport=2" \
mycustomimage
You should see the device show up when you do system_profiler SPUSBDataType
in the MacOS shell.
Important Note: this will cause the host system to lose access to the USB device while the VM is running!
$DISPLAY
is the shell variable that refers to your X11 display server.
${DISPLAY}
is the same, but allows you to join variables like this:
- e.g.
${DISPLAY}_${DISPLAY}
would print:0.0_:0.0
- e.g.
$DISPLAY_$DISPLAY
would print:0.0
...because $DISPLAY_
is not $DISPLAY
${variable:-fallback}
allows you to set a "fallback" variable to be substituted if $variable
is not set.
You can also use ${variable:=fallback}
to set that variable (in your current terminal).
In Docker-OSX, we assume, :0.0
is your default $DISPLAY
variable.
You can see what yours is
echo $DISPLAY
Hence, ${DISPLAY:-:0.0}
will use whatever variable your X11 server has set for you, else :0.0
-v
is a Docker command-line option that lets you pass a volume to the container.
The directory that we are letting the Docker container use is a X server display socket.
/tmp/.X11-unix
If we let the Docker container use the same display socket as our own environment, then any applications you run inside the Docker container will show up on your screen too! https://www.x.org/archive/X11R6.8.0/doc/RELNOTES5.html
- Security Documentation
- GPU Acceleration: Coming Soon
- Virt-manager