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File combustion-1.4+git8.obscpio of Package combustion
07070100000000000041ED00000000000000000000000266C5D8BB00000000000000000000000000000000000000000000001C00000000combustion-1.4+git8/.github07070100000001000041ED00000000000000000000000266C5D8BB00000000000000000000000000000000000000000000002600000000combustion-1.4+git8/.github/workflows07070100000002000081A400000000000000000000000166C5D8BB00000266000000000000000000000000000000000000002F00000000combustion-1.4+git8/.github/workflows/test.ymlname: MicroOS in QEMU on: push: branches: [ master ] pull_request: branches: [ master ] jobs: build: runs-on: ubuntu-latest steps: - uses: actions/checkout@v4 - name: Install dependencies run: | sudo apt update sudo apt install -y qemu-system-x86 # Normally setfacl -m u:$USER:rw /dev/kvm should work, but for some # reason this only sticks around for a single QEMU run. udev? sudo usermod -a -G kvm "$USER" - name: Test run: | # Needed to activate the new kvm group membership sudo -u "$USER" bash test/test.sh 07070100000003000041ED00000000000000000000000266C5D8BB00000000000000000000000000000000000000000000002000000000combustion-1.4+git8/30firstboot07070100000004000081A400000000000000000000000166C5D8BB00000619000000000000000000000000000000000000003100000000combustion-1.4+git8/30firstboot/firstboot-detect#!/bin/sh set -eu what="$(systemctl show -P What sysroot.mount)" opts="$(systemctl show -P Options sysroot.mount)" # Catch cases where sysroot isn't a device, # especially kiwi's install:CDLABEL=INSTALL syntax. if ! echo "$what" | grep -q ^/; then echo "Unable to detect firstboot on $what" >&2 exit 0 fi mount -o "$opts" "$what" /sysroot # Handle x-initrd.mount without initrd-parse-etc.service awk '$1 !~ /^#/ && $4 ~ /(\<|,)x-initrd\.mount(\>|,)/ { if(system("mount --target-prefix /sysroot --fstab /sysroot/etc/fstab " $2) != 0) exit 1; }' /sysroot/etc/fstab if ! [ -e /sysroot/etc/machine-id ] \ || grep -qw 'ignition\.firstboot' /proc/cmdline || grep -qw 'combustion\.firstboot' /proc/cmdline; then echo "Firstboot detected" if [ "$(uname -m)" = "s390x" ]; then # On s390x, attached DASDs need to be enabled first to appear as block devices. # On the first boot this is necessary to probe for configuration sources. echo "Trying to enable all available DASDs" chzdev dasd --offline --existing --enable --active || echo "Couldn't enable all DASD devices, trying to continue anyway." >&2 fi # Make initrd.target require firstboot.target systemctl enable --quiet firstboot.target # As initrd.target/start was already scheduled, ^ does not have any immediate effect. # Triggering a start of initrd.target again schedules the missing jobs. # With --job-mode=fail this fails if any of those missing jobs is destructive, likely # caused by dep cycles in firstboot units. systemctl start --now --no-block --job-mode=fail initrd.target fi 07070100000005000081A400000000000000000000000166C5D8BB000004B8000000000000000000000000000000000000003900000000combustion-1.4+git8/30firstboot/firstboot-detect.service[Unit] Description=Detect Firstboot DefaultDependencies=no # In this mode, the zipl initrd uses grub2-emu to kexec the real kernel # and initrd. Don't run there, only in the real initrd (bsc#1218065). ConditionKernelCommandLine=!initgrub # This needs /sysroot to be mountable # Should also include systemd-fsck-root, but that would create a cycle # with dracut-initqueue below. Requires=initrd-root-device.target After=initrd-root-device.target # But before it's actually mounted Before=sysroot.mount # Combustion/ignition may configure networking, which runs during # the initqueue (wicked) or has its own service (NM) Before=dracut-initqueue.service nm-initrd.service # Make sure this is stopped before switch root or emergency: # https://github.com/systemd/systemd/issues/3436 Conflicts=initrd-switch-root.target umount.target Conflicts=dracut-emergency.service emergency.service emergency.target [Service] Type=oneshot # This has to mount /sysroot as /sysroot, but starting sysroot.mount would # screw up ordering PrivateMounts=true # Work around https://github.com/systemd/systemd/issues/28723 TemporaryFileSystem=/run/mount ExecStart=/usr/bin/firstboot-detect [Install] RequiredBy=initrd.target 07070100000006000081A400000000000000000000000166C5D8BB0000012F000000000000000000000000000000000000003100000000combustion-1.4+git8/30firstboot/firstboot.target[Unit] Description=Initrd Firstboot # Make sure this is stopped before switch root or emergency: # https://github.com/systemd/systemd/issues/3436 Conflicts=initrd-switch-root.target umount.target Conflicts=dracut-emergency.service emergency.service emergency.target [Install] RequiredBy=initrd.target 07070100000007000081A400000000000000000000000166C5D8BB00000369000000000000000000000000000000000000003000000000combustion-1.4+git8/30firstboot/module-setup.shcheck() { # Pulled in by other modules only return 255 } depends() { echo bash systemd } install() { inst_simple "${moddir}/firstboot-detect.service" "${systemdsystemunitdir}/firstboot-detect.service" inst_simple "${moddir}/firstboot.target" "${systemdsystemunitdir}/firstboot.target" inst_simple "${moddir}/firstboot-detect" "/usr/bin/firstboot-detect" $SYSTEMCTL -q --root "$initdir" enable firstboot-detect.service inst_multiple awk grep mount if [ "${DRACUT_ARCH:-$(uname -m)}" = "s390x" ]; then # Special behaviour on s390x: On the first boot, enable all DASDs inst_multiple chzdev fi # Work around https://github.com/systemd/systemd/pull/28718 mkdir -p "${initdir}/${systemdsystemunitdir}/initrd-parse-etc.service.d/" echo -e "[Unit]\nConflicts=emergency.target" > "${initdir}/${systemdsystemunitdir}/initrd-parse-etc.service.d/emergency.conf" } 07070100000008000081A400000000000000000000000166C5D8BB000046AC000000000000000000000000000000000000001C00000000combustion-1.4+git8/LICENSE GNU GENERAL PUBLIC LICENSE Version 2, June 1991 Copyright (C) 1989, 1991 Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA Everyone is permitted to copy and distribute verbatim copies of this license document, but changing it is not allowed. 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You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. Also add information on how to contact you by electronic and paper mail. If the program is interactive, make it output a short notice like this when it starts in an interactive mode: Gnomovision version 69, Copyright (C) year name of author Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'. This is free software, and you are welcome to redistribute it under certain conditions; type `show c' for details. The hypothetical commands `show w' and `show c' should show the appropriate parts of the General Public License. Of course, the commands you use may be called something other than `show w' and `show c'; they could even be mouse-clicks or menu items--whatever suits your program. 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If this is what you want to do, use the GNU Lesser General Public License instead of this License. 07070100000009000081A400000000000000000000000166C5D8BB00000375000000000000000000000000000000000000001D00000000combustion-1.4+git8/MakefileFB_MODULEDIR ?= $(DESTDIR)/usr/lib/dracut/modules.d/30firstboot MODULEDIR ?= $(DESTDIR)/usr/lib/dracut/modules.d/35combustion all: install-30firstboot: install -Dm0644 30firstboot/module-setup.sh $(FB_MODULEDIR)/module-setup.sh install -Dm0644 30firstboot/firstboot.target $(FB_MODULEDIR)/firstboot.target install -Dm0755 30firstboot/firstboot-detect $(FB_MODULEDIR)/firstboot-detect install -Dm0644 30firstboot/firstboot-detect.service $(FB_MODULEDIR)/firstboot-detect.service install: install-30firstboot install -Dm0644 module-setup.sh $(MODULEDIR)/module-setup.sh install -Dm0644 combustion.service $(MODULEDIR)/combustion.service install -Dm0644 combustion-prepare.service $(MODULEDIR)/combustion-prepare.service install -Dm0755 combustion $(MODULEDIR)/combustion install -Dm0644 combustion.rules $(MODULEDIR)/combustion.rules .PHONY: all install install-30firstboot 0707010000000A000081A400000000000000000000000166C5D8BB0000243F000000000000000000000000000000000000001E00000000combustion-1.4+git8/README.mdCombustion - configure MicroOS on the first boot ================================================ Combustion is a minimal module for dracut, which runs a user provided script on the first boot of a system. You can use this to create additional files, install packages, set up devices or even re-partition the hard disk. The configuration can be provided as a shell script, loaded from an external storage media and is run during boot in a new system snapshot. On success, the system will directly boot into that new snapshot, so that no reboot is needed. Installation ------------ Run `make install` to install it manually. Usually combustion is packaged up and installed during image builds already. How to use it ------------- The source of configuration is a script file, most commonly using sh or bash. You can do everything necessary for initial system configuration from this script, including addition of ssh keys, adding users, changing passwords or even doing partitioning changes. There are multiple ways to provide the configuration. In order of priority: ### combustion.url kernel parameter The kernel cmdline can be used to specify a URL like `combustion.url=http://server/config/script`. The script is downloaded using curl, so various protocols are available. ### QEMU fw_cfg If a QEMU fw_cfg blob with the name "opt/org.opensuse.combustion/script" is found, it is preferred and the content of that is used as script. Example parameter for QEMU: -fw_cfg name=opt/org.opensuse.combustion/script,file=/var/combustion-script ### VMware guestinfo If the VMware guestinfo parameter "guestinfo.combustion.script" is set and nonempty, it is treated as a base64 encoded gzipped script. ### Config drive The configuration files are copied from a filesystem with the LABEL "combustion", but to be compatible and co-installable with ignition (https://github.com/coreos/ignition), the LABEL "ignition" is used as fallback. All-uppercase labels are accepted as well. Alternatively, if a KIWI selfinstall .iso is used for deployment (LABEL "INSTALL"), this is used as a fallback. It expects a directory "combustion" at the root level of the filesystem and a file "script" inside, which is executed inside a transactional-update shell. ``` <root directory> ├── combustion │ ├── script │ └── ... other files └── ignition (optional) └── config.ign ``` Simple example -------------- Example for formatting a USB drive and adding a config, which installs the "vim-small" package and creates a /root/welcome file: ```bash mkfs.ext4 /dev/sdX e2label /dev/sdX ignition mount /dev/sdX /mnt mkdir -p /mnt/combustion/ cat >/mnt/combustion/script <<EOF #!/bin/sh # combustion: network systemctl enable sshd.service zypper --non-interactive install vim-small cp welcome /root/welcome EOF echo "Hello User!" >/mnt/combustion/welcome umount /mnt ``` The `# combustion: network` comment triggers networking initialization before running the script. This is equivalent to passing "rd.neednet=1" on the kernel cmdline and so the network configuration parameters (man dracut.cmdline) apply here as well. If those aren't specified, it defaults to "ip=dhcp" for each available interface. More complex configuration example ---------------------------------- This script additionally provides visible feedback during boot, sets a password and copies a public ssh key (which has to be in the "combustion" folder). ```bash #!/bin/bash # combustion: network # Redirect output to the console exec > >(exec tee -a /dev/tty0) 2>&1 # Set a password for root, generate the hash with "openssl passwd -6" echo 'root:$5$.wn2BZHlEJ5R3B1C$TAHEchlU.h2tvfOpOki54NaHpGYKwdNhjaBuSpDotD7' | chpasswd -e # Add a public ssh key and enable sshd mkdir -pm700 /root/.ssh/ cat id_rsa_new.pub >> /root/.ssh/authorized_keys systemctl enable sshd.service # Install vim-small zypper --non-interactive install vim-small # Leave a marker echo "Configured with combustion" > /etc/issue.d/combustion # Close outputs and wait for tee to finish. exec 1>&- 2>&-; wait; ``` Perform modifications in the initrd environment ----------------------------------------------- Using the `# combustion: prepare` marker, the initrd environment can be modified for instance to perform tasks before `/sysroot` is mounted or to write NetworkManager connection configuration into `/etc/NetworkManager/system-connections/`. If the marker is present, the script is invoked with `--prepare` as parameter from `combustion-prepare.service`, in addition to the main invocation inside the transaction later. Example: ```bash #!/bin/bash # combustion: network prepare set -euxo pipefail nm_config() { umask 077 # Required for NM config mkdir -p /etc/NetworkManager/system-connections/ cat >/etc/NetworkManager/system-connections/static.nmconnection <<-EOF [connection] id=static type=ethernet autoconnect=true [ipv4] method=manual dns=192.168.100.1 address1=192.168.100.42/24,192.168.100.1 EOF } if [ "${1-}" = "--prepare" ]; then nm_config # Configure NM in the initrd exit 0 fi # Redirect output to the console exec > >(exec tee -a /dev/tty0) 2>&1 nm_config # Configure NM in the system curl example.com # Leave a marker echo "Configured with combustion" > /etc/issue.d/combustion # Close outputs and wait for tee to finish. exec 1>&- 2>&-; wait; ``` How it works ------------ ### Firstboot detection Combustion ships a `firstboot` dracut module which introduces `firstboot.target` as well as a `firstboot-detect.service`. This service mounts `/sysroot/etc` early in the initrd (in a private namespace, to not trigger `.mount` units and dependencies out of order). It then checks for the following conditions: * `combustion.firstboot` or `ignition.firstboot` are present on the kernel cmdline * `/etc/machine-id` does not exist in `/sysroot`. Note: Unlike systemd's `ConditionFirstBoot`, this is not triggered by "uninitialized" in the machine-id file or influcenced by `systemd.firstboot=` on the kernel cmdline. If one of them applies, it enables and starts `firstboot.target`. It's important that all units started by `firstboot.target` are effectively ordered after `firstboot-detect.service` to prevent loops. Add some Before= to `firstboot-detect.service` if necessary. If any of the firstboot configuration mechanisms (combustion, ignition) find a user specified config, they delete `/var/lib/YaST2/reconfig_system`. The result is that if (and only if) no configuration for those was provided, the file still exists in the real system and triggers interactive setup (jeos-firstboot, YaST Firstboot) if present. The final system eventually reaches `first-boot-complete.target` and after that `systemd-machine-id-commit.service`, which commits `/etc/machine-id` to disk and thus `firstboot-detect.service` no longer triggers `firstboot.target` on subsequent boots. ### Combustion The `combustion` dracut module is included by default, but omitted if dracut is run on an already configured system in `hostonly` mode. `firstboot.target` pulls in `combustion.service` and `combustion-prepare.service`. The latter runs after the config drive or QEMU fw_cfg blob appears (see `combustion.rules` for details). The combustion configuration is copied from the config source into `/dev/shm/combustion/config` (this is accessible in `transactional-update shell` later). If the script contains the `prepare` flag, it's executed now with the `--prepare` option. If the `network` flag is present, networking is enabled in the initrd. After `/sysroot` is mounted and network is up (if enabled), `combustion.service` runs, which tries to activate all mountpoints in the system's /etc/fstab and then calls transactional-update in a chroot. In this transactional-update session the script is started and the exit code recorded. If the script failed, transactional-update rollback is called and combustion.service marked as failed, which causes booting to fail. Note that a missing config drive or script is not considered a fatal error and only results in a warning. /sysroot is unmounted and mounted again, so that the default subvolume gets reevaluated and directly booted into. Now, `initrd-parse-etc.service` can evaluate the final `/sysroot/etc/fstab` and create the matching `sysroot-FOO.mount` units which are started before switching into the root filesystem. Automated Testing ----------------- To test combustion, it has to be installed in the target system, a new initrd built with it included (requires `--no-hostonly` or missing `/etc/machine-id`) and then rebooted with some appropriate config source attached. That is cumbersome even when using VMs, so there is some basic automated testing in the test/ subdirectory. Calling `test/test.sh` will download the latest MicroOS qcow2 image, build an initrd with the combustion sources from the parent directory and perform some basic tests. Currently this uses QEMU with three ways of providing a config source and validates that the script was properly executes for each of those. This all happens in a temporary directory. To avoid having to redownload the image for each `test.sh` run, it's possible to specify a less temporary directory as parameter. 0707010000000B000081A400000000000000000000000166C5D8BB00002D0D000000000000000000000000000000000000001F00000000combustion-1.4+git8/combustion#!/bin/bash # SPDX-FileCopyrightText: 2023 SUSE LLC # SPDX-License-Identifier: GPL-2.0-or-later set -euo pipefail config_mount="/run/combustion/mount" # Use /dev/shm for data exchange exchangedir="/dev/shm/combustion/" config_dir="${exchangedir}/config" get_combustion_url() { (set +eu; . /lib/dracut-lib.sh; getarg combustion.url) } if [ "${1-}" = "--prepare" ]; then rm -rf "${exchangedir}" mkdir "${exchangedir}" enable_network() { sh -s <<'EOF' . /lib/dracut-lib.sh # Set rd.neednet if not already done and reevaluate it (module-specific) getargbool 0 'rd.neednet' && exit 0 echo rd.neednet=1 > /etc/cmdline.d/40-combustion-neednet.conf if [ -e "${hookdir}/pre-udev/60-net-genrules.sh" ]; then # Wicked . "${hookdir}/pre-udev/60-net-genrules.sh" # Re-trigger generation of network rules and apply them udevadm control --reload udevadm trigger --subsystem-match net --action add elif [ -e "${hookdir}/cmdline/99-nm-config.sh" ]; then # NetworkManager . "${hookdir}/cmdline/99-nm-config.sh" else echo "ERROR: unknown network framework" >&2 exit 1 fi EOF } # Look at combustion.url first if [ -n "$(get_combustion_url)" ]; then echo "URL provided, downloading config later" enable_network exit 0 fi # Try fw_cfg next if [ -e "/sys/firmware/qemu_fw_cfg/by_name/opt/org.opensuse.combustion" ]; then mkdir -p "${config_dir}" if ! cp /sys/firmware/qemu_fw_cfg/by_name/opt/org.opensuse.combustion/script/raw \ "${config_dir}/script"; then echo "Failed to copy script from fw_cfg!" exit 1 fi # TODO: Support other files, e.g. with a tarball or fs image? fi # Try VMware guestinfo next if ! [ -d "${config_dir}" ] && [ "$(systemd-detect-virt)" = "vmware" ]; then mkdir -p "${config_dir}" # The exit code isn't really useful or documented. Print all errors and only treat # a zero exit code + nonempty stdout as success. echo "Trying vmware-rpctool" if ! vmware-rpctool "info-get guestinfo.combustion.script" > "${config_dir}/script.gz.b64" \ || ! [ -s "${config_dir}/script.gz.b64" ] \ || ! base64 -d < "${config_dir}/script.gz.b64" | gzip -cd > "${config_dir}/script" \ || ! [ -s "${config_dir}/script" ]; then # vmware-rpctool failed or the script is empty rm -f "${config_dir}/script.gz.b64" "${config_dir}/script" rmdir "${config_dir}" fi rm -f "${config_dir}/script.gz.b64" fi # Try disks next - both lower and upper case # "INSTALL" is used as label for KIWI selfinstall .isos. Try those as fallback. for label in combustion COMBUSTION ignition IGNITION install INSTALL; do [ -d "${config_dir}" ] && break [ -e "/dev/disk/by-label/${label}" ] || continue mkdir -p "${config_mount}" if ! mount -o ro /dev/disk/by-label/${label} "${config_mount}"; then echo "Failed to mount config drive!" rmdir "${config_mount}" exit 1 fi if [ -d "${config_mount}/combustion" ]; then if ! cp -R "${config_mount}/combustion" "${config_dir}"; then echo "Failed to copy config!" rm -rf "${config_dir}" umount "${config_mount}" rmdir "${config_mount}" exit 1 fi else echo "No config found on drive." fi umount "${config_mount}" rmdir "${config_mount}" done if ! [ -d "${config_dir}" ]; then echo "No config source found" exit 0 fi if ! [ -e "${config_dir}/script" ]; then echo "No config script found!" exit 1 fi chmod a+x "${config_dir}/script" # Check for the magic flag "# combustion: prepare" in the script if grep -qE '^# combustion:(.*)\<prepare\>' "${config_dir}/script"; then # Run the script with the --prepare option if ! (cd "${config_dir}"; exec ./script --prepare); then echo "script --prepare failed with $?" exit 1 fi fi # Note: In case ^ creates a NM config by writing to # /etc/NetworkManager/system-connections/, nm-initrd-generator must not generate a # default configuration anymore. This happens automatically since 1.36.0 (79885656d3). # Check for the magic flag "# combustion: network" in the script if grep -qE '^# combustion:(.*)\<network\>' "${config_dir}/script"; then enable_network fi exit 0 fi # Set by combustion.service but not ignition-kargs-helper. # Controls whether config is actually completed by this step, # triggering deletion of /var/lib/YaST2/reconfig_system complete=0 if [ "${1-}" = "--complete" ]; then complete=1 fi delete_resolv_conf=0 cleanup() { rm -rf "${exchangedir}" || true if [ "${delete_resolv_conf}" -eq 1 ]; then rm -f /sysroot/etc/resolv.conf || true fi if findmnt /sysroot >/dev/null; then # zypper (both from t-u's selfupdate as well as the script) # uses gpg which starts gpg-agent in the background. This keeps # /sysroot busy, so we'll have to stop those. while pkill -x gpg-agent; do sleep 0.5; done # umount and remount so that the new default subvol is used umount -R /sysroot # Manual umount confuses systemd sometimes because it's async and the # .mount unit might still be active when the "start" is queued, making # it a noop, which ultimately leaves /sysroot unmounted # (https://github.com/systemd/systemd/issues/20329). To avoid that, # wait until systemd processed the umount events. In a chroot (or with # SYSTEMD_OFFLINE=1) systemctl always succeeds, so avoid an infinite loop. if ! systemctl --quiet is-active does-not-exist.mount; then while systemctl --quiet is-active sysroot.mount; do sleep 0.5; done fi fi if grep -w /sysroot /proc/*/mountinfo; then echo "Warning: /sysroot still mounted somewhere" fi systemctl start sysroot.mount } # Note: The /sysroot remounting during cleanup happens unconditionally. # This is needed as ignition-mount.service's ExecStop is also disabled unconditionally. trap cleanup EXIT # Compatibility for ignition-kargs-helper, which drops a script into # "/run/combustion/mount/combustion" and then calls combustion if [ -d "${config_mount}/combustion" ]; then rm -rf "${config_dir}" mkdir -p "${exchangedir}" cp -R "${config_mount}/combustion" "${config_dir}" chmod a+x "${config_dir}/script" fi # Download and use a script from the given URL combustion_url="$(get_combustion_url)" || : if ! [ -d "${config_dir}" ] && [ -n "${combustion_url}" ]; then echo "Downloading config..." mkdir -p "${config_dir}" curl --globoff --location --retry 3 --retry-connrefused --fail --show-error --output "${config_dir}/script" -- "${combustion_url}" chmod a+x "${config_dir}/script" # Check for the magic flag "# combustion: prepare" in the script if grep -qE '^# combustion:(.*)\<prepare\>' "${config_dir}/script"; then # Run the script with the --prepare option if ! (cd "${config_dir}"; exec ./script --prepare); then echo "script --prepare failed with $?" exit 1 fi fi fi [ -d "${config_dir}" ] || exit 0 # Make sure /sysroot is mounted systemctl start sysroot.mount # Same for /sysroot/usr if it exists (e.g. through mount.usr) if systemctl cat sysroot-usr.mount &>/dev/null; then systemctl start sysroot-usr.mount fi # Have to take care of x-initrd.mount first and from the outside. # Note: ignition-kargs-helper calls combustion but already mounted those itself. awk '$1 !~ /^#/ && $4 ~ /(\<|,)x-initrd\.mount(\>|,)/ { if(system("findmnt /sysroot/" $2 " >/dev/null || mount --target-prefix /sysroot --fstab /sysroot/etc/fstab " $2) != 0) exit 1; }' /sysroot/etc/fstab # Make sure the old snapshot is relabeled too, otherwise syncing its /etc fails. ( set +eu . /lib/dracut-lib.sh set -eu if [ -e "${hookdir}/pre-pivot/50-selinux-microos-relabel.sh" ]; then NEWROOT=/sysroot bash -c '. /lib/dracut-lib.sh; . "${hookdir}/pre-pivot/50-selinux-microos-relabel.sh"' elif [ -e /sysroot/.autorelabel ] || [ -e /sysroot/etc/selinux/.autorelabel ]; then echo "ERROR: Relabel (probably) needed, but selinux-microos-relabel not found." exit 1 fi ) # Prepare chroot. # Ideally this would just be --rbind /dev /sysroot/dev etc., but that has subtle downsides: # By default, umount -R /sysroot would then propagate into the main /dev etc. and try to # unmount /dev/shm/ etc. which must be avoided. Disabling mount propagation with # --make-rslave interacts badly with other mount namespaces (used for PrivateMounts=true # e.g. by systemd-udevd.service): The mounts propagate, but not all unmounts, leaving e.g. # /sysroot/dev/shm/ mounted in udev's mnt context. To avoid all that, just bind mount # everything individually, then it can be unmounted without caring about propagation. # Alternatives are # a) mount --bind --make-private /sysroot /sysroot on itself, but then e.g. udev doesn't # see the same /sysroot as us # b) Run combustion in its own mount namespace, but the needed redesign breaks some # subtle interactions with the outside. findmnt -nrvo TARGET | grep -E '^/(sys|proc|dev)(/|$)' | while read i; do mount --bind "$i" "/sysroot/$i" done # Mount everything we can, errors deliberately ignored chroot /sysroot mount -a || true # t-u needs writable /var/run and /tmp findmnt /sysroot/run >/dev/null || mount -t tmpfs tmpfs /sysroot/run findmnt /sysroot/tmp >/dev/null || mount -t tmpfs tmpfs /sysroot/tmp # Fake a netconfig setup if [ -r /etc/resolv.conf ]; then mkdir -p /sysroot/run/netconfig/ cp /etc/resolv.conf /sysroot/run/netconfig/resolv.conf if ! [ -e /sysroot/etc/resolv.conf ]; then if ln -sf /run/netconfig/resolv.conf /sysroot/etc/resolv.conf; then delete_resolv_conf=1 fi fi fi if [ -x /sysroot/usr/sbin/transactional-update ]; then # t-u doesn't allow running arbitrary commands and # also ignores the shell's exit code, so DIY. if ! chroot /sysroot transactional-update shell <<EOF; then cd "${config_dir}" ./script echo \$? > "${exchangedir}/retval" # Snapshot got touched while the policy isn't active, needs relabeling again. if [ -e /etc/selinux/.relabelled ]; then >> /etc/selinux/.autorelabel; fi EOF echo "transactional-update failed" exit 1 fi if ! [ -e "${exchangedir}/retval" ] || [ "$(cat "${exchangedir}/retval")" -ne 0 ]; then echo "Command failed, rolling back" chroot /sysroot transactional-update --no-selfupdate rollback exit 1 fi # If the mount options for /sysroot include subvol(id)=..., # it would mount the old snapshot again. Override it. # At this point, /sysroot is mounted so systemctl show returns the active mount options, # not the configured ones. Use cat to get the configured ones instead. if systemctl cat sysroot.mount | grep -q '\<subvol\(id\)\?='; then # systemctl cat can't query a specific property, so work with the active options instead here... rootopts="$(systemctl show -P Options sysroot.mount | sed -Ee 's/(^|,)subvol=[^,]*(,|$)//g;s/(^|,)subvolid=[^,]*(,|$)//g')" # Apparently there is no better API? newdefault=$(btrfs subvolume get-default /sysroot | sed -e 's/^.* path \([^[:space:]]*\).*$/\1/') # Drop-ins in /etc have precedence over generated files in /run. mkdir -p /etc/systemd/system/sysroot.mount.d/ cat > /etc/systemd/system/sysroot.mount.d/combustion-newsubvol.conf <<-EOF [Mount] Options=${rootopts},subvol=${newdefault} EOF systemctl daemon-reload # Unfortunately required for this :-/ fi else mount -o remount,rw /sysroot if ! chroot /sysroot sh -e -c "cd '${config_dir}'; ./script"; then echo "Command failed" exit 1 fi chroot /sysroot snapper --no-dbus create -d "After combustion configuration" --userdata "important=yes" || : fi if [ "${complete}" -eq 1 ]; then rm -f /sysroot/var/lib/YaST2/reconfig_system fi exit 0 0707010000000C000081A400000000000000000000000166C5D8BB00000379000000000000000000000000000000000000002F00000000combustion-1.4+git8/combustion-prepare.service[Unit] Description=Combustion (preparations) DefaultDependencies=false # Config drive has to be available Wants=dev-combustion-config.device After=dev-combustion-config.device # If both Ignition and Combustion are active make sure to run their # configuration scripts sequentially, as both try to mount the configuration # device After=ignition-setup-user.service # This may enable network services in the same way, so make sure the prepare # script could write configiguration before networking is enabled. Before=ignition-enable-network.service # This reconfigures networking, which runs during the initqueue (wicked) # or has its own service (NM) Before=dracut-initqueue.service nm-initrd.service Conflicts=initrd-switch-root.target umount.target Conflicts=dracut-emergency.service emergency.service emergency.target [Service] Type=oneshot ExecStart=/usr/bin/combustion --prepare 0707010000000D000081A400000000000000000000000166C5D8BB00000958000000000000000000000000000000000000002500000000combustion-1.4+git8/combustion.rules# SPDX-FileCopyrightText: 2024 SUSE LLC # SPDX-License-Identifier: GPL-2.0-or-later # It's not possible to wait for one of multiple devices to appear, so # introduce a dev-combustion-config.device unit as alias to the actual device(s). # This is only used for the .service dependencies. # If combustion.url is specified, alias it to /dev/null to avoid waiting # IMPORT has to be on its own as it returns success or not, even with "="... IMPORT{cmdline}="combustion.url" ACTION!="remove", SUBSYSTEM=="mem", ENV{DEVPATH}=="/devices/virtual/mem/null", ENV{combustion.url}!="", ENV{SYSTEMD_ALIAS}+="/dev/combustion/config", TAG+="systemd" # Filesystems with either combustion or ignition as label ACTION!="remove", SUBSYSTEM=="block", ENV{ID_FS_LABEL}=="combustion", ENV{SYSTEMD_ALIAS}+="/dev/combustion/config" ACTION!="remove", SUBSYSTEM=="block", ENV{ID_FS_LABEL}=="COMBUSTION", ENV{SYSTEMD_ALIAS}+="/dev/combustion/config" ACTION!="remove", SUBSYSTEM=="block", ENV{ID_FS_LABEL}=="ignition", ENV{SYSTEMD_ALIAS}+="/dev/combustion/config" ACTION!="remove", SUBSYSTEM=="block", ENV{ID_FS_LABEL}=="IGNITION", ENV{SYSTEMD_ALIAS}+="/dev/combustion/config" # These can be used as config source as well, but they cannot be used as providers for # /dev/combustion/config, as some other config source with higher priority might show up later. #ACTION!="remove", SUBSYSTEM=="block", ENV{ID_FS_LABEL}=="install", ENV{SYSTEMD_ALIAS}+="/dev/combustion/config" #ACTION!="remove", SUBSYSTEM=="block", ENV{ID_FS_LABEL}=="INSTALL", ENV{SYSTEMD_ALIAS}+="/dev/combustion/config" # QEMU fw_cfg blob with key opt/org.opensuse.combustion # There are add events for keys inside fw_cfg, but they are unreliable: https://github.com/systemd/systemd/issues/28638 # Using the platform device with add|bind does not work with TAG+="systemd" for some reason, so use the module... ACTION!="remove", SUBSYSTEM=="module", KERNEL=="qemu_fw_cfg", TEST=="/sys/firmware/qemu_fw_cfg/by_name/opt/org.opensuse.combustion", ENV{SYSTEMD_ALIAS}+="/dev/combustion/config", TAG+="systemd" # VMware guestinfo value. Using sh allows PATH lookup traversal and checking for nonempty stdout without logging the value. ACTION!="remove", DEVPATH=="/devices/virtual/misc/vmci", PROGRAM=="/bin/sh -c '[ $$(vmware-rpctool \"info-get guestinfo.combustion.script\" | wc -c) -gt 2 ]'", ENV{SYSTEMD_ALIAS}+="/dev/combustion/config", TAG+="systemd" 0707010000000E000081A400000000000000000000000166C5D8BB00000390000000000000000000000000000000000000002700000000combustion-1.4+git8/combustion.service[Unit] Description=Combustion DefaultDependencies=false # /sysroot needs to be available, but it's temporarily stopped # for remounting so a direct requirement is not possible Requires=initrd-root-device.target After=initrd-root-device.target # combustion-prepare sets up network, if required Requires=combustion-prepare.service After=combustion-prepare.service # Optionally make network available After=network.target # After ignition completed its stuff After=ignition-complete.target # So that /etc/fstab's x-initrd.mount entries are read (again) later Before=initrd-parse-etc.service # Without DefaultDependencies the target would be reached without us Before=firstboot.target Conflicts=initrd-switch-root.target umount.target Conflicts=dracut-emergency.service emergency.service emergency.target [Service] Type=oneshot ExecStart=/usr/bin/combustion --complete [Install] RequiredBy=firstboot.target 0707010000000F000081A400000000000000000000000166C5D8BB00000698000000000000000000000000000000000000002400000000combustion-1.4+git8/module-setup.shcheck() { # Omit if building for this already configured system if [[ $hostonly ]] && [ -e "${dracutsysrootdir}/etc/machine-id" ]; then return 255 fi return 0 } depends() { echo bash firstboot network systemd url-lib } install() { inst_simple "${moddir}/combustion.service" "${systemdsystemunitdir}/combustion.service" inst_simple "${moddir}/combustion-prepare.service" "${systemdsystemunitdir}/combustion-prepare.service" inst_simple "${moddir}/combustion.rules" "/etc/udev/rules.d/70-combustion.rules" $SYSTEMCTL -q --root "$initdir" enable combustion.service inst_multiple awk chroot findmnt grep pkill rmdir systemd-detect-virt wc inst_multiple -o base64 gzip vmware-rpctool inst_simple "${moddir}/combustion" "/usr/bin/combustion" # ignition-mount.service mounts stuff below /sysroot in ExecStart and umounts # it on ExecStop, failing if umounting fails. This conflicts with the # mounts/umounts done by combustion. Just let combustion do it instead. mkdir -p "${initdir}/${systemdsystemunitdir}/ignition-mount.service.d/" echo -e "[Service]\nExecStop=" > "${initdir}/${systemdsystemunitdir}/ignition-mount.service.d/noexecstop.conf" # Wait up to 10s (30s on aarch64) for the config drive devtimeout=10 [ "$(uname -m)" = "aarch64" ] && devtimeout=30 mkdir -p "${initdir}/${systemdsystemunitdir}/dev-combustion-config.device.d/" echo -e "[Unit]\nJobTimeoutSec=${devtimeout}" > "${initdir}/${systemdsystemunitdir}/dev-combustion-config.device.d/timeout.conf" } installkernel() { # Modules for config sources hostonly='' instmods ext4 # hostonly is fine here, only include them if they fit the current HW instmods qemu_fw_cfg vmw_vsock_vmci_transport } 07070100000010000041ED00000000000000000000000266C5D8BB00000000000000000000000000000000000000000000001900000000combustion-1.4+git8/test07070100000011000081A400000000000000000000000166C5D8BB0000012F000000000000000000000000000000000000002400000000combustion-1.4+git8/test/config.ign{ "ignition": { "version": "3.2.0" }, "storage": { "filesystems": [ { "device": "/dev/disk/by-label/ROOT", "format": "btrfs", "mountOptions": [ "subvol=/@/home" ], "path": "/home", "wipeFilesystem": false } ] } } 07070100000012000081ED00000000000000000000000166C5D8BB00001262000000000000000000000000000000000000002100000000combustion-1.4+git8/test/test.sh#!/bin/bash set -euxo pipefail # Some basic combustion testing: # 1. Download the latest MicroOS image # 2. Use its combustion to install the combustion to test and transfer kernel + initrd to the host using 9pfs # 3. Revert the image to the original state and perform tests using the generated kernel + initrd # Skip the generation of a new initrd with the changed combustion. # Only useful when iterating this test script. reuseinitrd= if [ "${1-}" = "--reuseinitrd" ]; then reuseinitrd=1 shift fi # Working dir which is also exposed to the VM through 9pfs. # If not specified, create a temporary directory which is deleted on exit. if [ -n "${1-}" ]; then tmpdir="$(realpath "$1")" else tmpdir="$(mktemp -d)" cleanup() { rm -rf "$tmpdir" } trap cleanup EXIT fi QEMU_BASEARGS=( # -accel tcg was here after -accel kvm but the fallback hid a weird bug # that in GH actions only the first instance of QEMU was able to access /dev/kvm. -accel kvm -nographic -m 1024 # Reading from stdin doesn't work, configure serial and monitor appropriately. -chardev null,id=serial,logfile=/dev/stdout,logappend=on -serial chardev:serial -monitor none -virtfs "local,path=${tmpdir},mount_tag=tmpdir,security_model=none") # Prepare the temporary dir: Install combustion and copy resources. testdir="$(dirname "$0")" make -C "${testdir}/.." install "DESTDIR=${tmpdir}/install" cp "${testdir}/"{testscript,config.ign} "${tmpdir}" cd "$tmpdir" # Download latest MicroOS image if ! [ -f openSUSE-MicroOS.x86_64-kvm-and-xen.qcow2 ]; then wget --progress=bar:force:noscroll https://download.opensuse.org/tumbleweed/appliances/openSUSE-MicroOS.x86_64-kvm-and-xen.qcow2 qemu-img snapshot -c initial openSUSE-MicroOS.x86_64-kvm-and-xen.qcow2 else qemu-img snapshot -a initial openSUSE-MicroOS.x86_64-kvm-and-xen.qcow2 fi # First step: Use combustion in the downloaded image to generate an initrd with the new combustion. if ! [ -n "${reuseinitrd}" ] || ! [ -e "${tmpdir}/vmlinuz" ] || ! [ -e "${tmpdir}/initrd" ]; then rm -f "${tmpdir}/done" cat >create-initrd <<'EOF' #!/bin/bash set -euxo pipefail exec &>/dev/ttyS0 trap '[ $? -eq 0 ] || poweroff -f' EXIT mount -t 9p -o trans=virtio tmpdir /mnt # Install new combustion, make sure the old remnants are gone rpm -e --nodeps --noscripts combustion cp -av /mnt/install/usr / cp /usr/lib/modules/$(uname -r)/vmlinuz /mnt/vmlinuz dracut -f --no-hostonly /mnt/initrd touch /mnt/done umount /mnt SYSTEMD_IGNORE_CHROOT=1 poweroff -f EOF timeout 300 qemu-system-x86_64 "${QEMU_BASEARGS[@]}" -drive if=virtio,file=openSUSE-MicroOS.x86_64-kvm-and-xen.qcow2 \ -fw_cfg name=opt/org.opensuse.combustion/script,file=create-initrd if ! [ -e "${tmpdir}/done" ]; then echo "Initrd generation failed" exit 1 fi fi # Test using a config drive rm -f "${tmpdir}/done" qemu-img snapshot -a initial openSUSE-MicroOS.x86_64-kvm-and-xen.qcow2 mkdir -p configdrv/combustion/ cp testscript configdrv/combustion/script mkdir -p configdrv/ignition/ cp config.ign configdrv/ignition/config.ign /sbin/mkfs.ext4 -F -d configdrv -L ignition combustion.raw 16M timeout 300 qemu-system-x86_64 "${QEMU_BASEARGS[@]}" -drive if=virtio,file=openSUSE-MicroOS.x86_64-kvm-and-xen.qcow2 \ -kernel vmlinuz -initrd initrd -append "root=LABEL=ROOT console=ttyS0 quiet systemd.show_status=1 systemd.log_target=console systemd.journald.forward_to_console=1 rd.emergency=poweroff rd.shell=0" \ -drive if=virtio,file=combustion.raw if ! [ -e "${tmpdir}/done" ]; then echo "Test failed" exit 1 fi # Test fw_cfg with the test script rm -f "${tmpdir}/done" qemu-img snapshot -a initial openSUSE-MicroOS.x86_64-kvm-and-xen.qcow2 timeout 300 qemu-system-x86_64 "${QEMU_BASEARGS[@]}" -drive if=virtio,file=openSUSE-MicroOS.x86_64-kvm-and-xen.qcow2 \ -kernel vmlinuz -initrd initrd -append "root=LABEL=ROOT console=ttyS0 quiet systemd.show_status=1 systemd.log_target=console systemd.journald.forward_to_console=1 rd.emergency=poweroff rd.shell=0" \ -fw_cfg name=opt/org.opensuse.combustion/script,file=testscript if ! [ -e "${tmpdir}/done" ]; then echo "Test failed" exit 1 fi # Test combustion.url using QEMU's builtin tftp server rm -f "${tmpdir}/done" qemu-img snapshot -a initial openSUSE-MicroOS.x86_64-kvm-and-xen.qcow2 timeout 300 qemu-system-x86_64 "${QEMU_BASEARGS[@]}" -drive if=virtio,file=openSUSE-MicroOS.x86_64-kvm-and-xen.qcow2 \ -kernel vmlinuz -initrd initrd -append "root=LABEL=ROOT console=ttyS0 quiet systemd.show_status=1 systemd.log_target=console systemd.journald.forward_to_console=1 rd.emergency=poweroff rd.shell=0 combustion.url=tftp://10.0.2.2/testscript" \ -nic "user,tftp=$tmpdir" if ! [ -e "${tmpdir}/done" ]; then echo "Test failed" exit 1 fi 07070100000013000081A400000000000000000000000166C5D8BB00000492000000000000000000000000000000000000002400000000combustion-1.4+git8/test/testscript#!/bin/bash # combustion: prepare network set -euxo pipefail exec &>/dev/ttyS0 # Poweroff immediately on any failure to avoid unnecessary waiting. trap '[ $? -eq 0 ] || poweroff -f' EXIT if [ "${1-}" = "--prepare" ]; then # Verify that the udev rules work for all config sources and avoid # the timeout on boot. if ! systemctl is-active dev-combustion-config.device; then echo "FAILED: timeout" exit 1 fi exit 0 fi echo root:linux | chpasswd curl example.com echo "Configured with combustion" > /etc/issue.d/combustion # Make sure that the system comes up good, leave a marker in the shared FS # and power off the VM. cat >>/usr/bin/combustion-validate <<'EOF' #!/bin/bash set -euxo pipefail exec &>/dev/ttyS0 trap '[ $? -eq 0 ] || poweroff -f' EXIT if journalctl --no-pager | grep "/sysroot still mounted somewhere"; then exit 1 fi mount -t 9p -o trans=virtio tmpdir /mnt touch /mnt/done umount /mnt poweroff -f EOF chmod a+x /usr/bin/combustion-validate cat >>/etc/systemd/system/combustion-validate.service <<'EOF' [Service] ExecStart=/usr/bin/combustion-validate [Install] RequiredBy=default.target EOF systemctl enable combustion-validate.service 07070100000000000000000000000000000000000000010000000000000000000000000000000000000000000000000000000B00000000TRAILER!!!117 blocks
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