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systemd/test/units/TEST-74-AUX-UTILS.bootctl.sh
Daan De Meyer 7a321b5a21 test: Rename testsuite-XX units to match test name
Having these named differently than the test itself mostly creates
unecessary confusion and makes writing logic against the tests harder
so let's rename the testsuite-xx units and scripts to just use the
test name itself.
2024-05-14 12:43:28 +02:00

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#!/usr/bin/env bash
# SPDX-License-Identifier: LGPL-2.1-or-later
set -eux
set -o pipefail
if systemd-detect-virt --quiet --container; then
echo "running on container, skipping."
exit 0
fi
if ! command -v bootctl >/dev/null; then
echo "bootctl not found, skipping."
exit 0
fi
if [[ ! -d /usr/lib/systemd/boot/efi ]]; then
echo "sd-boot is not installed, skipping."
exit 0
fi
# shellcheck source=test/units/util.sh
. "$(dirname "$0")"/util.sh
# shellcheck source=test/units/test-control.sh
. "$(dirname "$0")"/test-control.sh
basic_tests() {
bootctl "$@" --help
bootctl "$@" --version
bootctl "$@" install --make-entry-directory=yes
bootctl "$@" remove --make-entry-directory=yes
bootctl "$@" install --all-architectures
bootctl "$@" remove --all-architectures
bootctl "$@" install --make-entry-directory=yes --all-architectures
bootctl "$@" remove --make-entry-directory=yes --all-architectures
bootctl "$@" install
(! bootctl "$@" update)
bootctl "$@" update --graceful
bootctl "$@" is-installed
bootctl "$@" is-installed --graceful
bootctl "$@" random-seed
bootctl "$@"
bootctl "$@" status
bootctl "$@" status --quiet
bootctl "$@" list
bootctl "$@" list --quiet
bootctl "$@" list --json=short
bootctl "$@" list --json=pretty
bootctl "$@" remove
(! bootctl "$@" is-installed)
(! bootctl "$@" is-installed --graceful)
}
testcase_bootctl_basic() {
assert_in "$(bootctl --print-esp-path)" "^(/boot/|/efi)$"
assert_in "$(bootctl --print-boot-path)" "^(/boot/|/efi)$"
bootctl --print-root-device
basic_tests
}
cleanup_image() (
set +e
if [[ -z "${IMAGE_DIR:-}" ]]; then
return 0
fi
umount "${IMAGE_DIR}/root"
if [[ -n "${LOOPDEV:-}" ]]; then
losetup -d "${LOOPDEV}"
unset LOOPDEV
fi
udevadm settle
rm -rf "${IMAGE_DIR}"
unset IMAGE_DIR
return 0
)
testcase_bootctl_image() {
IMAGE_DIR="$(mktemp --directory /tmp/test-bootctl.XXXXXXXXXX)"
trap cleanup_image RETURN
truncate -s 256m "${IMAGE_DIR}/image"
cat >"${IMAGE_DIR}/partscript" <<EOF
label: gpt
type=C12A7328-F81F-11D2-BA4B-00A0C93EC93B name=esp size=64M
type=0FC63DAF-8483-4772-8E79-3D69D8477DE4 name=root size=64M bootable
type=BC13C2FF-59E6-4262-A352-B275FD6F7172 name=boot
EOF
LOOPDEV="$(losetup --show -P -f "${IMAGE_DIR}/image")"
sfdisk "$LOOPDEV" <"${IMAGE_DIR}/partscript"
udevadm settle
mkfs.vfat -n esp "${LOOPDEV}p1"
mkfs.ext4 -L root "${LOOPDEV}p2"
mkfs.ext4 -L boot "${LOOPDEV}p3"
mkdir -p "${IMAGE_DIR}/root"
mount -t ext4 "${LOOPDEV}p2" "${IMAGE_DIR}/root"
mkdir -p "${IMAGE_DIR}/root/efi"
mkdir -p "${IMAGE_DIR}/root/boot"
mkdir -p "${IMAGE_DIR}/root/etc"
mkdir -p "${IMAGE_DIR}/root/usr/lib"
if [[ -f /usr/lib/os-release ]]; then
cp /usr/lib/os-release "${IMAGE_DIR}/root/usr/lib/."
ln -s ../usr/lib/os-release "${IMAGE_DIR}/root/etc/os-release"
else
cp -a /etc/os-release "${IMAGE_DIR}/root/etc/."
fi
umount "${IMAGE_DIR}/root"
assert_eq "$(bootctl --image "${IMAGE_DIR}/image" --print-esp-path)" "/run/systemd/mount-rootfs/efi"
assert_eq "$(bootctl --image "${IMAGE_DIR}/image" --print-esp-path --esp-path=/efi)" "/run/systemd/mount-rootfs/efi"
assert_eq "$(bootctl --image "${IMAGE_DIR}/image" --print-boot-path)" "/run/systemd/mount-rootfs/boot"
assert_eq "$(bootctl --image "${IMAGE_DIR}/image" --print-boot-path --boot-path=/boot)" "/run/systemd/mount-rootfs/boot"
# FIXME: This provides spurious result.
bootctl --image "${IMAGE_DIR}/image" --print-root-device || :
basic_tests --image "${IMAGE_DIR}/image"
}
cleanup_raid() (
set +e
if [[ -z "${IMAGE_DIR:-}" ]]; then
return 0
fi
systemd-umount "${IMAGE_DIR}/root/efi"
systemd-umount "${IMAGE_DIR}/root/boot"
systemd-umount "${IMAGE_DIR}/root"
mdadm --misc --stop /dev/md/raid-esp
mdadm --misc --stop /dev/md/raid-root
if [[ -n "${LOOPDEV1:-}" ]]; then
mdadm --misc --force --zero-superblock "${LOOPDEV1}p1"
mdadm --misc --force --zero-superblock "${LOOPDEV1}p2"
fi
if [[ -n "${LOOPDEV2:-}" ]]; then
mdadm --misc --force --zero-superblock "${LOOPDEV2}p1"
mdadm --misc --force --zero-superblock "${LOOPDEV2}p2"
fi
udevadm settle
if [[ -n "${LOOPDEV1:-}" ]]; then
mdadm --misc --force --zero-superblock "${LOOPDEV1}p1"
mdadm --misc --force --zero-superblock "${LOOPDEV1}p2"
losetup -d "${LOOPDEV1}"
unset LOOPDEV1
fi
if [[ -n "${LOOPDEV2:-}" ]]; then
mdadm --misc --force --zero-superblock "${LOOPDEV2}p1"
mdadm --misc --force --zero-superblock "${LOOPDEV2}p2"
losetup -d "${LOOPDEV2}"
unset LOOPDEV2
fi
udevadm settle
rm -rf "${IMAGE_DIR}"
return 0
)
testcase_bootctl_raid() {
if ! command -v mdadm >/dev/null; then
echo "mdadm not found, skipping."
return 0
fi
if ! command -v mkfs.btrfs >/dev/null; then
echo "mkfs.btrfs not found, skipping."
return 0
fi
IMAGE_DIR="$(mktemp --directory /tmp/test-bootctl.XXXXXXXXXX)"
trap cleanup_raid RETURN
truncate -s 256m "${IMAGE_DIR}/image1"
truncate -s 256m "${IMAGE_DIR}/image2"
cat >"${IMAGE_DIR}/partscript" <<EOF
label: gpt
type=C12A7328-F81F-11D2-BA4B-00A0C93EC93B name=esp size=64M
type=0FC63DAF-8483-4772-8E79-3D69D8477DE4 name=root size=64M bootable
type=BC13C2FF-59E6-4262-A352-B275FD6F7172 name=boot
EOF
LOOPDEV1="$(losetup --show -P -f "${IMAGE_DIR}/image1")"
LOOPDEV2="$(losetup --show -P -f "${IMAGE_DIR}/image2")"
sfdisk "$LOOPDEV1" <"${IMAGE_DIR}/partscript"
sfdisk "$LOOPDEV2" <"${IMAGE_DIR}/partscript"
udevadm settle
echo y | mdadm --create /dev/md/raid-esp --name "raid-esp" "${LOOPDEV1}p1" "${LOOPDEV2}p1" -v -f --level=1 --raid-devices=2
mkfs.vfat /dev/md/raid-esp
echo y | mdadm --create /dev/md/raid-root --name "raid-root" "${LOOPDEV1}p2" "${LOOPDEV2}p2" -v -f --level=1 --raid-devices=2
mkfs.ext4 /dev/md/raid-root
mkfs.btrfs -f -M -d raid1 -m raid1 -L "raid-boot" "${LOOPDEV1}p3" "${LOOPDEV2}p3"
mkdir -p "${IMAGE_DIR}/root"
mount -t ext4 /dev/md/raid-root "${IMAGE_DIR}/root"
mkdir -p "${IMAGE_DIR}/root/efi"
mount -t vfat /dev/md/raid-esp "${IMAGE_DIR}/root/efi"
mkdir -p "${IMAGE_DIR}/root/boot"
mount -t btrfs "${LOOPDEV1}p3" "${IMAGE_DIR}/root/boot"
mkdir -p "${IMAGE_DIR}/root/etc"
mkdir -p "${IMAGE_DIR}/root/usr/lib"
if [[ -f /usr/lib/os-release ]]; then
cp /usr/lib/os-release "${IMAGE_DIR}/root/usr/lib/."
ln -s ../usr/lib/os-release "${IMAGE_DIR}/root/etc/os-release"
else
cp -a /etc/os-release "${IMAGE_DIR}/root/etc/."
fi
# find_esp() does not support md RAID partition.
(! bootctl --root "${IMAGE_DIR}/root" --print-esp-path)
(! bootctl --root "${IMAGE_DIR}/root" --print-esp-path --esp-path=/efi)
# If the verification is relaxed, it accepts md RAID partition.
assert_eq "$(SYSTEMD_RELAX_ESP_CHECKS=yes bootctl --root "${IMAGE_DIR}/root" --print-esp-path)" "${IMAGE_DIR}/root/efi"
assert_eq "$(SYSTEMD_RELAX_ESP_CHECKS=yes bootctl --root "${IMAGE_DIR}/root" --print-esp-path --esp-path=/efi)" "${IMAGE_DIR}/root/efi"
# find_xbootldr() does not support btrfs RAID, and bootctl tries to fall back to use ESP.
# (but as in the above, the ESP verification is also failed in this case).
(! bootctl --root "${IMAGE_DIR}/root" --print-boot-path)
(! bootctl --root "${IMAGE_DIR}/root" --print-boot-path --boot-path=/boot)
# If the verification for ESP is relaxed, bootctl falls back to use ESP.
assert_eq "$(SYSTEMD_RELAX_ESP_CHECKS=yes bootctl --root "${IMAGE_DIR}/root" --print-boot-path)" "${IMAGE_DIR}/root/efi"
# If the verification is relaxed, it accepts the xbootldr partition.
assert_eq "$(SYSTEMD_RELAX_XBOOTLDR_CHECKS=yes bootctl --root "${IMAGE_DIR}/root" --print-boot-path)" "${IMAGE_DIR}/root/boot"
assert_eq "$(SYSTEMD_RELAX_XBOOTLDR_CHECKS=yes bootctl --root "${IMAGE_DIR}/root" --print-boot-path --boot-path=/boot)" "${IMAGE_DIR}/root/boot"
# FIXME: This provides spurious result.
bootctl --root "${IMAGE_DIR}/root" --print-root-device || :
SYSTEMD_RELAX_ESP_CHECKS=yes SYSTEMD_RELAX_XBOOTLDR_CHECKS=yes basic_tests --root "${IMAGE_DIR}/root"
}
testcase_bootctl_varlink() {
varlinkctl call --collect /run/systemd/io.systemd.BootControl io.systemd.BootControl.ListBootEntries '{}'
# We may have UEFI in the test environment.
# If we don't have UEFI then we can test whether bootctl's varlink API fails cleanly.
# If we do have UEFI then the rest of the clean fail tests should be skipped.
if ! (SYSTEMD_LOG_TARGET=console varlinkctl call --json=short /run/systemd/io.systemd.BootControl io.systemd.BootControl.GetRebootToFirmware '{}' || true) |& grep -q io.systemd.BootControl.RebootToFirmwareNotSupported; then
return 0
fi
(SYSTEMD_LOG_TARGET=console varlinkctl call --json=short /run/systemd/io.systemd.BootControl io.systemd.BootControl.SetRebootToFirmware '{"state":true}' || true) |& grep -q io.systemd.BootControl.RebootToFirmwareNotSupported
(SYSTEMD_LOG_TARGET=console varlinkctl call --json=short /run/systemd/io.systemd.BootControl io.systemd.BootControl.SetRebootToFirmware '{"state":false}' || true) |& grep -q io.systemd.BootControl.RebootToFirmwareNotSupported
}
run_testcases