Unattended Boot and Install: Difference between revisions

From Alpine Linux
(Delete content. Consolidated into existing install wiki pages and files now hosted on github.)
Tag: Replaced
 
(30 intermediate revisions by the same user not shown)
Line 1: Line 1:
{{Draft}}
{{Delete|See the latest version on [https://github.com/macmpi/alpine-linux-headless-bootstrap github] .}}
{{TOC right}}
= Introduction =
This wiki describes a modified version of the original method I posted for [https://wiki.alpinelinux.org/wiki/Raspberry_Pi_-_Headless_Installation Headless installation on a Raspberry Pi.] While the original version worked for other architectures, like x86_64, it was targeted at and posted in the Raspberry Pi section since that was my primary focus at the time. Revisions to that page by other authors removed the mention of x86_64 altogether so this version will be more generally written in the hopes that it will be easier to find and that it's applicability will be clearer.
 
Additionally, this version improves upon the original (in my opinion) by automatically logging in the root user and optionally running a shell script. This provides a means to perform unattended installations or other scripted tasks and does not require modification of the stock Alpine installation media / files.
 
The following functionality is provided:
* Automatic DHCP configuration of a network interface, either wired or wireless
* Automatic configuration of sshd with password-less root login enabled
* Automatic login of the root user on tty7
* Automatic script execution (optional)
 
This is accomplished by using an overlay file that Alpine extracts at boot. [http://www.sodface.com/repo/headless.apkovl.tar.gz Download a pre-built overlay file here.]
 
= Basic Use =
For Alpine supported Raspberry Pi models:
# Download the applicable [https://alpinelinux.org/downloads/ Alpine installation tarball] and extract it to an SD card formatted with a single FAT partition.
# Copy the [http://www.sodface.com/repo/headless.apkovl.tar.gz headless.apkovl.tar.gz] file to the root of the SD card.
# Optionally, create a file named '''wifi.txt''' in the root of the SD card. See below for file format.
# Optionally, create a file named '''unattended.sh''' in the root of the SD card. See below for an example.
# Boot the Pi with the SD card.
 
For other architectures (tested on various x86_64 hardware and a Qemu VM)
# Download the applicable [https://alpinelinux.org/downloads/ Alpine installation file] and write it to usb stick or other media as needed.
# Copy the [http://www.sodface.com/repo/headless.apkovl.tar.gz headless.apkovl.tar.gz] file to a second usb stick or other media separate from the installation media.
# Optionally, create a file named '''wifi.txt''' in the root of second media. See below for file format.
# Optionally, create a file named '''unattended.sh''' in the root of the second media. See below for an example.
# Boot the device with both the installation and the secondary media connected.
 
For basic interactive ssh access, only the headless.apkovl.tar.gz file is required. The '''wifi.txt''' file can be omitted if wired ethernet is used. The '''unattended.sh''' file can be omitted.
 
= Wifi Support =
Create a text file named '''wifi.txt''' with the SSID and Password on the first line of the file:
 
<code>SSID Password</code>
 
= Example Scripts =
If a shell script named '''unattended.sh''' is found in the root of the same media that contains the headless.apkovl.tar.gz file, it will be executed (sourced) by the root user after the auto login occurs on tty7. This can be used to script the installation of Alpine to local disk for example. Note too, that since network is available, the '''unattended.sh''' script can also just fetch and execute another script from the local network or internet, if available.
 
I've experimented with different installation scripts. The first is derived from the [https://gitlab.alpinelinux.org/alpine/alpine-conf/-/blob/master/setup-alpine.in setup-alpine] script.
 
 
 
{{Cat|unattended.sh|
KEYMAPOPTS="us us"
HOSTNAMEOPTS="-n alpine-test"
TIMEZONEOPTS="-z UTC"
NTPOPTS="-c busybox"
APKREPOSOPTS="-r"
DISKOPTS="-m sys /dev/mmcblk0"
 
source /lib/libalpine.sh
setup-keymap ${KEYMAPOPTS}
setup-hostname ${HOSTNAMEOPTS}
setup-timezone ${TIMEZONEOPTS}
rc-update add networking boot
rc-update add urandom boot
for svc in acpid cron crond; do
        if rc-service --exists $svc; then
                rc-update add $svc
        fi
done
rc-service hostname restart
_dn=$(sed -n \
-e '/^domain[[:space:]][[:space:]]*/{s///;s/\([^[:space:]]*\).*$/\1/;h;}' \
-e '/^search[[:space:]][[:space:]]*/{s///;s/\([^[:space:]]*\).*$/\1/;h;}' \
-e '${g;p;}' /etc/resolv.conf 2>/dev/null)
_hn=$(hostname)
_hn=${_hn%%.*}
sed -i -e "s/^127\.0\.0\.1.*/127.0.0.1\t${_hn}.${_dn:-$(get_fqdn my.domain)} ${_hn} localhost.localdomain localhost/" /etc/hosts
setup-ntp ${NTPOPTS}
setup-apkrepos ${APKREPOSOPTS}
yes | setup-disk -q ${DISKOPTS}
poweroff
}}
 
Notice that the wireless interface (wlan0) uses dhcp from the home network as usual and that an IP address is not used at all on the wired interface (eth0).
 
Enable and create a local start-up script to add route entries at boot:
 
{{Cmd| # rc-update add local default
# touch /etc/local.d/RouteAdd.start
# chmod +x /etc/local.d/RouteAdd.start
}}

Latest revision as of 22:23, 12 July 2022

This material is proposed for deletion ...

See the latest version on github . (Discuss)
Make sure no other pages link here and check the page's history before deleting.