ungleich-tools/opennebula-images/centos-build-luks-opennebula-image.sh

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#!/bin/sh
# This script generates CentOS images for OpenNebula.
# Depends on the following packages (as of CentOS 8):
# qemu-img util-linux coreutils dnf curl e2fsprogs cryptsetup
# Run locally (without network) with:
# qemu-system-x86_64 -enable-kvm -m 1G -drive file=$IMAGE,format=raw
set -e
set -x
RELEASE=7
ARCH=x86_64
IMAGE_PATH=centos-luks-$RELEASE-$(date --iso-8601).img
IMAGE_SIZE=10G
LOOPBACK_DEVICE=/dev/loop0
LUKS_PASSPHRASE=secret
LUKS_DEVICE_NAME=cryptroot
LUKS_DEVICE="/dev/mapper/$LUKS_DEVICE_NAME"
ONE_CONTEXT_RPM_URL="https://github.com/OpenNebula/addon-context-linux/releases/download/v5.10.0/one-context-5.10.0-1.el$RELEASE.noarch.rpm"
ONE_CONTEXT_RPM_PATH=/root/one-context.rpm
cleanup() {
# The order here is important.
umount /mnt/dev/pts 2>/dev/null || true
umount /mnt/dev/shm 2>/dev/null || true
umount /mnt/dev 2>/dev/null || true
umount /mnt/proc 2>/dev/null || true
umount /mnt/run 2>/dev/null || true
umount /mnt/sys 2>/dev/null || true
umount /mnt/boot 2>/dev/null || true
umount /mnt 2>/dev/null || true
losetup -d "$LOOPBACK_DEVICE"
}
run_root() {
chroot /mnt /usr/bin/env \
PATH=/sbin:/usr/sbin:/bin:/usr/bin \
sh -c "$*"
}
if [ "$(whoami)" != 'root' ]; then
echo "This script must be run as root." >&2
exit 1
fi
if [ ! -f '/etc/centos-release' ]; then
echo "WARNING: this script has been designed to run on a CentOS system." >&2
echo "WARNING: Not running CentOS. Giving you 5 seconds to abort." >&2
sleep 5
fi
# Create base RAW image (no LOOPBACK support in RHEL/CentOS).
qemu-img create -f raw "$IMAGE_PATH" "$IMAGE_SIZE"
losetup "$LOOPBACK_DEVICE" "$IMAGE_PATH"
# Don't forget to cleanup, even if the script crash.
trap cleanup EXIT
# Create partition table, format partitions.
parted --script "$LOOPBACK_DEVICE" \
mklabel msdos \
mkpart primary ext4 1M 500M \
mkpart primary ext4 500M 100%
partprobe "$LOOPBACK_DEVICE"
mkfs.ext4 "${LOOPBACK_DEVICE}p1"
echo -n "$LUKS_PASSPHRASE" | cryptsetup luksFormat -v -d - "${LOOPBACK_DEVICE}p2"
echo -n "$LUKS_PASSPHRASE" | cryptsetup open -v -d - "${LOOPBACK_DEVICE}p2" "$LUKS_DEVICE_NAME"
mkfs.ext4 "$LUKS_DEVICE"
# Mount partitions, install base OS.
mount "${LUKS_DEVICE}" /mnt
mkdir /mnt/boot
mount "${LOOPBACK_DEVICE}p1" /mnt/boot
# AppStream landed in CentOS 8.
if [ $RELEASE -ge 8 ]; then
enabled_repos="--enablerepo=BaseOS --enablerepo=AppStream --enablerepo=extras"
release_specific_packages="systemd-udev"
else
enabled_repos="--enablerepo=base --enablerepo=extras"
release_specific_packages="dnf"
fi
dnf -y \
--releasever=$RELEASE \
--installroot=/mnt \
--disablerepo='*' \
$enabled_repos \
--setopt=install_weak_deps=False install \
--setopt=reposdir=rpm-repositories \
bash basesystem systemd dnf centos-release cryptsetup $release_specific_packages
mount --bind /dev /mnt/dev
mount --bind /dev/pts /mnt/dev/pts
mount --bind /dev/shm /mnt/dev/shm
mount --bind /proc /mnt/proc
mount --bind /run /mnt/run
mount --bind /sys /mnt/sys
# Guest networking is to be handled by the one-context package.
# See https://github.com/OpenNebula/addon-context-linux for details.
# Note: as of writing, one-context does not support NetworkManager or
# systemd-networkd.
# Required to resolve package mirror in chroot.
cp /etc/resolv.conf /mnt/etc/resolv.conf
# Initialize /etc/hosts.
cat > /mnt/etc/hosts << EOF
127.0.0.1 localhost localhost.localdomain localhost4 localhost4.localdomain4
::1 localhost localhost.localdomain localhost6 localhost6.localdomain6
EOF
# See https://github.com/OpenNebula/addon-context-linux/issues/121 for details.
# network-scripts.x86_64 : Legacy scripts for manipulating of network devices
if [ $RELEASE -ge 8 ]; then
run_root dnf -y install network-scripts
fi
# Install (magic?) one-context RPM and hope things works as expected.
curl -L "$ONE_CONTEXT_RPM_URL" > "/mnt$ONE_CONTEXT_RPM_PATH"
run_root dnf -y install "$ONE_CONTEXT_RPM_PATH"
run_root rm "$ONE_CONTEXT_RPM_PATH"
# Install resize2fs, which is required to resize the root file-system.
run_root dnf -y install e2fsprogs
# Initalize base services.
run_root systemd-machine-id-setup
run_root ln -sf /usr/share/zoneinfo/UTC /etc/localtime
# Install and configure NTP client.
run_root dnf install -y chrony
run_root systemctl enable chronyd.service
# Install kernel and bootloader.
# Note: linux-firmware is not required our environment and takes almost 200M
# uncompressed but is a direct dependency of kernel-core...
run_root dnf -y install kernel grub2
# Add support for virtio block devices at boot time, configure bootloader.
cat > /mnt/etc/dracut.conf.d/virtio-blk.conf <<EOF
add_drivers="virtio-blk"
EOF
kernel_version=$(ls /mnt/boot | grep "vmlinuz.*.$ARCH" | cut -d- -f2-)
luks_uuid=$(blkid --match-tag UUID --output value "${LOOPBACK_DEVICE}p2")
echo "cryptroot UUID=$luks_uuid luks,timeout=30" >> /mnt/etc/crypttab
run_root dracut -v --force --kver $kernel_version
run_root grub2-install --target=i386-pc "${LOOPBACK_DEVICE}"
run_root grub2-mkconfig -o /boot/grub2/grub.cfg
# Install en configure SSH daemon.
run_root dnf -y install openssh-server
run_root systemctl enable sshd
# Generate fstab file.
boot_uuid=$(blkid --match-tag UUID --output value "${LOOPBACK_DEVICE}p1")
root_uuid=$(blkid --match-tag UUID --output value "$LUKS_DEVICE")
cat >>/mnt/etc/fstab <<EOF
UUID=$boot_uuid /boot ext4 rw,relatime,data=ordered 0 2
UUID=$root_uuid / ext4 rw,relatime,data=ordered 0 1
EOF
# Reset systemd's environment.
run_root rm -f /etc/machine-id
run_root touch /etc/machine-id
rm -f /var/lib/systemd/random-seed
# Remove temporary files and reclaim freed disk space.
# Note: build logs could be removed as well.
run_root dnf clean all
# Make sure everything is written to disk before exiting.
sync