4.2 KiB
Below is a UEFI-only recipe that has worked for me every time.
It uses the official Arch netboot images (which already contain UEFI-signed iPXE binaries) and the smallest possible amount of tooling on the PXE server.
────────────────────
- What the client will download (in this order)
- DHCP → gives IP + TFTP server + filename ipxe.efi
- TFTP → ipxe.efi is executed
- HTTP → iPXE downloads kernel + initrd + squashfs from the mirror you choose
Nothing is extracted from the ISO, so you don’t need the ISO at all.
──────────────────── 2. Prepare the PXE server (any Linux box)
Install packages
sudo pacman -S dnsmasq nginx
sudo systemctl enable --now dnsmasq nginx
Create a directory that will be served over HTTP
sudo mkdir -p /srv/archlive
cd /srv/archlive
──────────────────── 3. Download the netboot files (kernel + initrd + squashfs)
Pick the mirror closest to you, then:
sudo wget -r -np -nH --cut-dirs=3 \
https://mirror.pkgbuild.com/iso/latest/arch/boot/x86_64/vmlinuz-linux
sudo wget -r -np -nH --cut-dirs=3 \
https://mirror.pkgbuild.com/iso/latest/arch/boot/x86_64/initramfs-linux.img
sudo wget -r -np -nH --cut-dirs=3 \
https://mirror.pkgbuild.com/iso/latest/arch/x86_64/airootfs.sfs
Adjust the URLs if you prefer another mirror.
Make them reachable:
sudo ln -s /srv/archlive /srv/http/archlive
──────────────────── 4. Add the UEFI-signed iPXE binary to TFTP
sudo mkdir -p /srv/tftp
cd /srv/tftp
sudo wget https://archlinux.org/releng/netboot/ipxe.efi
──────────────────── 5. Configure dnsmasq for UEFI PXE only
/etc/dnsmasq.d/arch-uefi.conf
interface=eno1 # NIC facing the clients
port=0 # disable DNS
enable-tftp
tftp-root=/srv/tftp
dhcp-range=192.168.0.50,192.168.0.150,255.255.255.0,12h
dhcp-match=set:efi-x86_64,option:client-arch,7
dhcp-boot=tag:efi-x86_64,ipxe.efi
Reload:
sudo systemctl restart dnsmasq
──────────────────── 6. Create the iPXE script (menu)
/srv/http/archlive/boot.ipxe
#!ipxe
set base-url http://YOUR_PXE_SERVER/archlive
kernel ${base-url}/vmlinuz-linux archisobasedir=arch archiso_http_srv=${base-url}/ ip=:::::eth0:dhcp
initrd ${base-url}/initramfs-linux.img
boot
Make it world-readable:
sudo chmod 644 /srv/http/archlive/boot.ipxe
──────────────────── 7. Point iPXE to that script automatically
Option A – embed the script inside iPXE (recommended)
# On any Linux box
git clone https://github.com/ipxe/ipxe.git
cd ipxe/src
cat <<'EOF' > arch.ipxe
#!ipxe
chain http://YOUR_PXE_SERVER/archlive/boot.ipxe
EOF
make bin-x86_64-efi/ipxe.efi EMBED=arch.ipxe
sudo cp bin-x86_64-efi/ipxe.efi /srv/tftp/ipxe.efi
Option B – let iPXE fall back to DHCP option 175 (more complex).
──────────────────── 8. Boot the target machine
- Enter firmware → disable Secure Boot (Arch media is unsigned).
- Enable Network Stack / PXE boot on the NIC.
- Reboot → press F12 (or whatever key) → choose UEFI: IPv4 or PXE.
- You should see iPXE banner, then the Arch prompt. Login as root.
──────────────────── 9. Install Arch as usual
# verify network
ping archlinux.org
# quick interactive installer
archinstall
# or manual
pacstrap /mnt base linux ...
────────────────────
10. Common UEFI-specific pitfalls
• Secure Boot must be off until you sign your own kernels.
• The NIC must appear in the UEFI boot menu; if it doesn’t, update firmware or enable CSM → then disable CSM again once the installer boots.
• If you only have Wi-Fi, plug in a USB-to-Ethernet dongle for the PXE phase—Wi-Fi PXE is still rare.
That’s it: a single TFTP file (ipxe.efi) and an HTTP folder with three files (vmlinuz, initramfs, airootfs.sfs) are all you need to UEFI-PXE install Arch on any modern machine.