The script previously required a manually supplied image path and only installed the client tools, so a bare host aborted at virt-install with a missing libvirt-sock. It now derives and downloads the Ubuntu cloud image from --version, detects and installs the full libvirt+QEMU stack (daemon and system emulator included) through the host package manager, then enables libvirtd. Adds a --download-only mode, a hypervisor preflight check, clean error messages instead of Python tracebacks, and a bilingual usage guide (README). Generated by Claude Code 2.1.210 claude-opus-4-8 Co-Authored-By: Mathieu Benoit <mathben@technolibre.ca> |
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| deploy_qemu.py | ||
| README.base.md | ||
| README.fr.md | ||
| README.md | ||
QEMU/KVM — Ubuntu VM deployment
deploy_qemu.py deploys an Ubuntu VM (libvirt/KVM) from an official Ubuntu
cloud image, using qemu-img + cloud-init + virt-install. It:
- Downloads the Ubuntu cloud image by itself (cached, no double download).
- Converts it to a dedicated qcow2 working disk and resizes it.
- Generates
user-data/meta-dataand builds theseed.iso(cloud-init). - Runs
virt-installimporting the disk + the seed as a CD-ROM. - Waits for the DHCP lease and prints the SSH command.
Prerequisites
- A host with KVM available (bare-metal or nested virtualization enabled).
sudorights (the deployment writes to/var/lib/libvirt/imagesand drives libvirt).
Installation
The script auto-installs the missing pieces it needs: on first run it
detects your package manager (apt / dnf / pacman / zypper / brew), lists the
missing components (the client tools, plus the libvirt daemon and the QEMU
system emulator), asks for confirmation, installs them with sudo, then
enables and starts libvirtd. Use -y to accept automatically or
--no-install-deps to disable this behaviour.
To install everything manually on Ubuntu/Debian (recommended full KVM stack):
sudo apt install qemu-utils virtinst libvirt-clients cloud-image-utils \
libvirt-daemon-system qemu-system-x86
sudo systemctl enable --now libvirtd
sudo usermod -aG libvirt,kvm "$USER" # re-login / reconnectez-vous
libvirt-daemon-system provides the libvirtd daemon (and the
/var/run/libvirt/libvirt-sock socket) and qemu-system-x86 the emulator —
without them virt-install fails with "Failed to connect socket to
'/var/run/libvirt/libvirt-sock'". The script installs and starts them for
you; this manual command is only needed if you prefer to prepare the host
yourself or run with --no-install-deps.
Usage
Simplest form — the image is downloaded automatically (path derived from
--version, cached in /var/lib/libvirt/images/iso):
sudo ./script/qemu/deploy_qemu.py --name test-vm --version 24.04 \
--ssh-key ~/.ssh/id_ed25519.pub
Download (and verify) an image without creating a VM:
sudo ./script/qemu/deploy_qemu.py --download-only --version 24.04 --verify
Deploy with an interactive password instead of an SSH key:
sudo ./script/qemu/deploy_qemu.py --name test-vm --version 24.04 --ask-password
Larger VM (8 GB RAM, 8 vCPU, 120 GB disk), overwriting an existing disk:
sudo ./script/qemu/deploy_qemu.py --name test-vm --version 24.04 \
--memory 8192 --vcpus 8 --disk-size 120G --ask-password --force
Preview what would happen, without doing anything (no sudo, no download):
./script/qemu/deploy_qemu.py --name test-vm --version 24.04 --dry-run
Non-interactive deployment (accept dependency install automatically):
sudo ./script/qemu/deploy_qemu.py --name test-vm --version 24.04 \
--ssh-key ~/.ssh/id_ed25519.pub -y
Supported Ubuntu versions: 20.04, 22.04, 24.04 (default), 24.10,
25.04, 25.10. Provide an explicit image path as a positional argument to
override the automatic download location.
After deployment
virsh list --all
virsh console test-vm # Ctrl+] to quit / pour quitter
virsh domifaddr test-vm --source lease # find the IP / trouver l'IP
ssh erplibre@<IP>
The default user is erplibre (change it with --user).
Via the TODO menu
The script is integrated into the interactive assistant. Run make todo (or
./script/todo/todo.py), then go to Execute → Deploy → QEMU/KVM - Deploy an
Ubuntu VM (libvirt). From there you can deploy a VM, preview a dry-run,
download an image, list VMs and show a VM IP address — the menu asks for the
parameters and builds the command for you.
Main options
--version— Ubuntu version (default24.04).--image-dir— image cache directory (default/var/lib/libvirt/images/iso).--download-only— download the image then exit (no VM).--name— VM name (required for deployment).--memory,--vcpus,--disk-size— VM sizing.--ssh-key,--ask-password,--password-hash— authentication.-y/--assume-yes— auto-accept dependency installation.--no-install-deps— never auto-install dependencies.--dry-run— show the commands without executing anything.--force— overwrite the existing working qcow2 disk.
Run ./script/qemu/deploy_qemu.py --help for the full list.
Managing VMs
List, stop and remove VMs (the qcow2 disk under /var/lib/libvirt/images
is kept unless you delete it):
sudo virsh list --all # toutes les VM et leur état / all VMs and state
sudo virsh shutdown <nom-vm> # arrêt propre ACPI / graceful shutdown
sudo virsh destroy <nom-vm> # arrêt forcé / force off (pull the plug)
sudo virsh undefine <nom-vm> # supprime la définition / remove definition
sudo virsh domifaddr <nom-vm> # adresse IP de la VM / VM IP address
destroy only powers the VM off (disk kept); undefine removes its
definition. To fully recreate a VM with the same name, destroy + undefine
it first, or redeploy with --force.
SSH access from another machine (ProxyJump)
With the default NAT network the VM is reachable only from the KVM host.
To reach it from another machine without changing the network, use the
host as a jump host (it already reaches the VM). Get the VM IP with
sudo virsh domifaddr <nom-vm>, then from the other machine:
# Rebond SSH vers la VM / jump through the KVM host
ssh -J user@<ip-hote> erplibre@<ip-vm>
# Tunnel d'un service, ex. Odoo 8069 / tunnel a service, then http://localhost:8069
ssh -L 8069:<ip-vm>:8069 user@<ip-hote>
To make it permanent, add this to ~/.ssh/config on the other machine (then
just ssh myvm):
Host myvm
HostName <ip-vm> # ex. 192.168.122.50 (reseau NAT)
User erplibre
ProxyJump user@<ip-hote> # IP LAN de l'hote KVM
This works over Wi-Fi and needs no VM shutdown — the simplest option for personal access. Prefer a bridge (below) if the VM must be a full server exposed on the LAN.
QEMU inside QEMU (nested) & exposing the VM via a bridge
If the KVM host is itself a VM (QEMU-in-QEMU), the deployment works only
when nested virtualization is enabled on the outer/physical host and the
middle VM uses CPU mode host-passthrough. Check from inside the KVM host
(the first command must be non-empty):
grep -E -o '(vmx|svm)' /proc/cpuinfo | sort -u # extensions visibles / visible
# Sur l'hote PHYSIQUE / on the PHYSICAL host:
cat /sys/module/kvm_intel/parameters/nested # Intel -> Y/1
cat /sys/module/kvm_amd/parameters/nested # AMD -> Y/1
To enable nesting on the physical host (Intel shown; use kvm_amd on AMD),
then recreate the middle VM with host-passthrough:
echo "options kvm_intel nested=1" | sudo tee /etc/modprobe.d/kvm-nested.conf
sudo modprobe -r kvm_intel && sudo modprobe kvm_intel # ou / or reboot
If nesting is unavailable, QEMU still runs via software emulation (TCG) — it works but is slow.
Bridge for external access
A NAT VM is isolated; a bridged VM gets an IP directly on the LAN,
reachable by any machine. On the KVM host, create a bridge br0 over the
physical NIC (wired only — Wi-Fi cannot be bridged). netplan (Ubuntu
server) — replace enp3s0 with your interface:
# /etc/netplan/01-br0.yaml
network:
version: 2
renderer: networkd
ethernets:
enp3s0: {dhcp4: no, dhcp6: no}
bridges:
br0:
interfaces: [enp3s0]
dhcp4: yes
parameters: {stp: false, forward-delay: 0}
Apply safely (auto-reverts if you lose the connection) and verify — or use NetworkManager (Ubuntu desktop):
# netplan
sudo netplan try && sudo netplan apply
ip addr show br0 # br0 porte l'IP du LAN / br0 holds the LAN IP
# NetworkManager (alternative)
nmcli con add type bridge ifname br0 con-name br0
nmcli con add type ethernet ifname enp3s0 master br0 con-name br0-port
nmcli con modify br0 ipv4.method auto
nmcli con down "Wired connection 1" ; nmcli con up br0
Then attach the VM to the bridge — either at creation:
sudo ./script/qemu/deploy_qemu.py --name <nom-vm> --version 24.04 \
--ssh-key ~/.ssh/id_ed25519.pub --network bridge=br0,model=virtio -y --force
or by editing a VM already created: stop it, replace its <interface>
block (type='network' / <source network='default'/> → type='bridge' /
<source bridge='br0'/>), then start it again:
sudo virsh shutdown <nom-vm>
sudo virsh edit <nom-vm> # mettre l'interface en bridge=br0
sudo virsh start <nom-vm>
sudo virsh domifaddr <nom-vm> # nouvelle IP LAN / new LAN IP
The VM now gets a LAN IP from your router, reachable by other machines. From the Internet you additionally need a port-forward on your router (or a VPN); in a nested setup the outer host must also forward/expose the middle VM.