Files
runc/tests/integration/helpers.bash
T
Cédric Clerget afc23e3397 Set temporary single CPU affinity before cgroup cpuset transition.
This handles a corner case when joining a container having all
the processes running exclusively on isolated CPU cores to force
the kernel to schedule runc process on the first CPU core within the
cgroups cpuset.

The introduction of the kernel commit
46a87b3851f0d6eb05e6d83d5c5a30df0eca8f76 has affected this deterministic
scheduling behavior by distributing tasks across CPU cores within the
cgroups cpuset. Some intensive real-time application are relying on this
deterministic behavior and use the first CPU core to run a slow thread
while other CPU cores are fully used by real-time threads with SCHED_FIFO
policy. Such applications prevents runc process from joining a container
when the runc process is randomly scheduled on a CPU core owned by a
real-time thread.

Introduces isolated CPU affinity transition OCI runtime annotation
org.opencontainers.runc.exec.isolated-cpu-affinity-transition to restore
the behavior during runc exec.

Fix issue with kernel >= 6.2 not resetting CPU affinity for container processes.

Signed-off-by: Cédric Clerget <cedric.clerget@gmail.com>
2024-04-16 08:59:49 +02:00

825 lines
22 KiB
Bash
Executable File

#!/bin/bash
set -u
bats_require_minimum_version 1.5.0
# Root directory of integration tests.
INTEGRATION_ROOT=$(dirname "$(readlink -f "${BASH_SOURCE[0]}")")
# Download images, get *_IMAGE variables.
IMAGES=$("${INTEGRATION_ROOT}"/get-images.sh)
eval "$IMAGES"
unset IMAGES
: "${RUNC:="${INTEGRATION_ROOT}/../../runc"}"
RECVTTY="${INTEGRATION_ROOT}/../../contrib/cmd/recvtty/recvtty"
SD_HELPER="${INTEGRATION_ROOT}/../../contrib/cmd/sd-helper/sd-helper"
SECCOMP_AGENT="${INTEGRATION_ROOT}/../../contrib/cmd/seccompagent/seccompagent"
FS_IDMAP="${INTEGRATION_ROOT}/../../contrib/cmd/fs-idmap/fs-idmap"
PIDFD_KILL="${INTEGRATION_ROOT}/../../contrib/cmd/pidfd-kill/pidfd-kill"
REMAP_ROOTFS="${INTEGRATION_ROOT}/../../contrib/cmd/remap-rootfs/remap-rootfs"
# Some variables may not always be set. Set those to empty value,
# if unset, to avoid "unbound variable" error.
: "${ROOTLESS_FEATURES:=}"
# Test data path.
# shellcheck disable=SC2034
TESTDATA="${INTEGRATION_ROOT}/testdata"
# Kernel version
KERNEL_VERSION="$(uname -r)"
KERNEL_MAJOR="${KERNEL_VERSION%%.*}"
KERNEL_MINOR="${KERNEL_VERSION#"$KERNEL_MAJOR".}"
KERNEL_MINOR="${KERNEL_MINOR%%.*}"
ARCH=$(uname -m)
# Seccomp agent socket.
SECCCOMP_AGENT_SOCKET="$BATS_TMPDIR/seccomp-agent.sock"
# Wrapper for runc.
function runc() {
run __runc "$@"
# Some debug information to make life easier. bats will only print it if the
# test failed, in which case the output is useful.
# shellcheck disable=SC2154
echo "$(basename "$RUNC") $* (status=$status):" >&2
# shellcheck disable=SC2154
echo "$output" >&2
}
# Raw wrapper for runc.
function __runc() {
"$RUNC" ${RUNC_USE_SYSTEMD+--systemd-cgroup} \
${ROOT:+--root "$ROOT/state"} "$@"
}
# Wrapper for runc spec.
function runc_spec() {
local rootless=""
[ $EUID -ne 0 ] && rootless="--rootless"
runc spec $rootless
# Always add additional mappings if we have idmaps.
if [[ $EUID -ne 0 && "$ROOTLESS_FEATURES" == *"idmap"* ]]; then
runc_rootless_idmap
fi
}
# Helper function to reformat config.json file. Input uses jq syntax.
function update_config() {
jq "$@" "./config.json" | awk 'BEGIN{RS="";getline<"-";print>ARGV[1]}' "./config.json"
}
# Shortcut to add additional uids and gids, based on the values set as part of
# a rootless configuration.
function runc_rootless_idmap() {
update_config ' .mounts |= map((select(.type == "devpts") | .options += ["gid=5"]) // .)
| .linux.uidMappings += [{"hostID": '"$ROOTLESS_UIDMAP_START"', "containerID": 1000, "size": '"$ROOTLESS_UIDMAP_LENGTH"'}]
| .linux.gidMappings += [{"hostID": '"$ROOTLESS_GIDMAP_START"', "containerID": 100, "size": 1}]
| .linux.gidMappings += [{"hostID": '"$((ROOTLESS_GIDMAP_START + 10))"', "containerID": 1, "size": 20}]
| .linux.gidMappings += [{"hostID": '"$((ROOTLESS_GIDMAP_START + 100))"', "containerID": 1000, "size": '"$((ROOTLESS_GIDMAP_LENGTH - 1000))"'}]'
}
# Returns systemd version as a number (-1 if systemd is not enabled/supported).
function systemd_version() {
if [ -v RUNC_USE_SYSTEMD ]; then
systemctl --version | awk '/^systemd / {print $2; exit}'
return
fi
echo "-1"
}
function init_cgroup_paths() {
# init once
[[ -v CGROUP_V1 || -v CGROUP_V2 ]] && return
if stat -f -c %t /sys/fs/cgroup | grep -qFw 63677270; then
CGROUP_V2=yes
local controllers="/sys/fs/cgroup/cgroup.controllers"
# For rootless + systemd case, controllers delegation is required,
# so check the controllers that the current user has, not the top one.
# NOTE: delegation of cpuset requires systemd >= 244 (Fedora >= 32, Ubuntu >= 20.04).
if [[ $EUID -ne 0 && -v RUNC_USE_SYSTEMD ]]; then
controllers="/sys/fs/cgroup/user.slice/user-${UID}.slice/user@${UID}.service/cgroup.controllers"
fi
# "pseudo" controllers do not appear in /sys/fs/cgroup/cgroup.controllers.
# - devices (since kernel 4.15) we must assume to be supported because
# it's quite hard to test.
# - freezer (since kernel 5.2) we can auto-detect by looking for the
# "cgroup.freeze" file a *non-root* cgroup.
CGROUP_SUBSYSTEMS=$(
cat "$controllers"
echo devices
)
CGROUP_BASE_PATH=/sys/fs/cgroup
# Find any cgroup.freeze files...
if [ -n "$(find "$CGROUP_BASE_PATH" -type f -name "cgroup.freeze" -print -quit)" ]; then
CGROUP_SUBSYSTEMS+=" freezer"
fi
else
if stat -f -c %t /sys/fs/cgroup/unified 2>/dev/null | grep -qFw 63677270; then
CGROUP_HYBRID=yes
fi
CGROUP_V1=yes
CGROUP_SUBSYSTEMS=$(awk '!/^#/ {print $1}' /proc/cgroups)
local g base_path
for g in ${CGROUP_SUBSYSTEMS}; do
# This uses gawk-specific feature (\< ... \>).
base_path=$(gawk '$(NF-2) == "cgroup" && $NF ~ /\<'"${g}"'\>/ { print $5; exit }' /proc/self/mountinfo)
test -z "$base_path" && continue
eval CGROUP_"${g^^}"_BASE_PATH="${base_path}"
done
fi
}
function create_parent() {
if [ -v RUNC_USE_SYSTEMD ]; then
[ ! -v SD_PARENT_NAME ] && return
"$SD_HELPER" --parent machine.slice start "$SD_PARENT_NAME"
else
[ ! -v REL_PARENT_PATH ] && return
if [ -v CGROUP_V2 ]; then
mkdir "/sys/fs/cgroup$REL_PARENT_PATH"
else
local subsys
for subsys in ${CGROUP_SUBSYSTEMS}; do
# Have to ignore EEXIST (-p) as some subsystems
# are mounted together (e.g. cpu,cpuacct), so
# the path is created more than once.
mkdir -p "/sys/fs/cgroup/$subsys$REL_PARENT_PATH"
done
fi
fi
}
function remove_parent() {
if [ -v RUNC_USE_SYSTEMD ]; then
[ ! -v SD_PARENT_NAME ] && return
"$SD_HELPER" --parent machine.slice stop "$SD_PARENT_NAME"
else
[ ! -v REL_PARENT_PATH ] && return
if [ -v CGROUP_V2 ]; then
rmdir "/sys/fs/cgroup/$REL_PARENT_PATH"
else
local subsys
for subsys in ${CGROUP_SUBSYSTEMS} systemd; do
rmdir "/sys/fs/cgroup/$subsys/$REL_PARENT_PATH"
done
fi
fi
unset SD_PARENT_NAME
unset REL_PARENT_PATH
}
function set_parent_systemd_properties() {
[ ! -v SD_PARENT_NAME ] && return
local user=""
[ $EUID -ne 0 ] && user="--user"
systemctl set-property $user "$SD_PARENT_NAME" "$@"
}
# Randomize cgroup path(s), and update cgroupsPath in config.json.
# This function also sets a few cgroup-related variables that are used
# by other cgroup-related functions.
#
# If this function is not called (and cgroupsPath is not set in config),
# runc uses default container's cgroup path derived from the container's name
# (except for rootless containers, that have no default cgroup path).
#
# Optional parameter $1 is a pod/parent name. If set, a parent/pod cgroup is
# created, and variables $REL_PARENT_PATH and $SD_PARENT_NAME can be used to
# refer to it.
function set_cgroups_path() {
init_cgroup_paths
local pod dash_pod="" slash_pod="" pod_slice=""
if [ "$#" -ne 0 ] && [ "$1" != "" ]; then
# Set up a parent/pod cgroup.
pod="$1"
dash_pod="-$pod"
slash_pod="/$pod"
SD_PARENT_NAME="machine-${pod}.slice"
pod_slice="/$SD_PARENT_NAME"
fi
local rnd="$RANDOM"
if [ -v RUNC_USE_SYSTEMD ]; then
SD_UNIT_NAME="runc-cgroups-integration-test-${rnd}.scope"
if [ $EUID -eq 0 ]; then
REL_PARENT_PATH="/machine.slice${pod_slice}"
OCI_CGROUPS_PATH="machine${dash_pod}.slice:runc-cgroups:integration-test-${rnd}"
else
REL_PARENT_PATH="/user.slice/user-${UID}.slice/user@${UID}.service/machine.slice${pod_slice}"
# OCI path doesn't contain "/user.slice/user-${UID}.slice/user@${UID}.service/" prefix
OCI_CGROUPS_PATH="machine${dash_pod}.slice:runc-cgroups:integration-test-${rnd}"
fi
REL_CGROUPS_PATH="$REL_PARENT_PATH/$SD_UNIT_NAME"
else
REL_PARENT_PATH="/runc-cgroups-integration-test${slash_pod}"
REL_CGROUPS_PATH="$REL_PARENT_PATH/test-cgroup-${rnd}"
OCI_CGROUPS_PATH=$REL_CGROUPS_PATH
fi
# Absolute path to container's cgroup v2.
if [ -v CGROUP_V2 ]; then
CGROUP_V2_PATH=${CGROUP_BASE_PATH}${REL_CGROUPS_PATH}
fi
[ -v pod ] && create_parent
update_config '.linux.cgroupsPath |= "'"${OCI_CGROUPS_PATH}"'"'
}
# Get a path to cgroup directory, based on controller name.
# Parameters:
# $1: controller name (like "pids") or a file name (like "pids.max").
function get_cgroup_path() {
if [ -v CGROUP_V2 ]; then
echo "$CGROUP_V2_PATH"
return
fi
local var cgroup
var=${1%%.*} # controller name (e.g. memory)
var=CGROUP_${var^^}_BASE_PATH # variable name (e.g. CGROUP_MEMORY_BASE_PATH)
eval cgroup=\$"${var}${REL_CGROUPS_PATH}"
echo "$cgroup"
}
# Get a value from a cgroup file.
function get_cgroup_value() {
local cgroup
cgroup="$(get_cgroup_path "$1")"
cat "$cgroup/$1"
}
# Helper to check a if value in a cgroup file matches the expected one.
function check_cgroup_value() {
local current
current="$(get_cgroup_value "$1")"
local expected=$2
echo "current $current !? $expected"
[ "$current" = "$expected" ]
}
# Helper to check a value in systemd.
function check_systemd_value() {
[ ! -v RUNC_USE_SYSTEMD ] && return
local source="$1"
[ "$source" = "unsupported" ] && return
local expected="$2"
local expected2="${3:-}"
local user=""
[ $EUID -ne 0 ] && user="--user"
current=$(systemctl show $user --property "$source" "$SD_UNIT_NAME" | awk -F= '{print $2}')
echo "systemd $source: current $current !? $expected $expected2"
[ "$current" = "$expected" ] || [[ -n "$expected2" && "$current" = "$expected2" ]]
}
function check_cpu_quota() {
local quota=$1
local period=$2
local sd_quota=$3
if [ -v CGROUP_V2 ]; then
if [ "$quota" = "-1" ]; then
quota="max"
fi
check_cgroup_value "cpu.max" "$quota $period"
else
check_cgroup_value "cpu.cfs_quota_us" "$quota"
check_cgroup_value "cpu.cfs_period_us" "$period"
fi
# systemd values are the same for v1 and v2
check_systemd_value "CPUQuotaPerSecUSec" "$sd_quota"
# CPUQuotaPeriodUSec requires systemd >= v242
[ "$(systemd_version)" -lt 242 ] && return
local sd_period=$((period / 1000))ms
[ "$sd_period" = "1000ms" ] && sd_period="1s"
local sd_infinity=""
# 100ms is the default value, and if not set, shown as infinity
[ "$sd_period" = "100ms" ] && sd_infinity="infinity"
check_systemd_value "CPUQuotaPeriodUSec" $sd_period $sd_infinity
}
function check_cpu_burst() {
local burst=$1
if [ -v CGROUP_V2 ]; then
burst=$((burst / 1000))
check_cgroup_value "cpu.max.burst" "$burst"
else
check_cgroup_value "cpu.cfs_burst_us" "$burst"
fi
}
# Works for cgroup v1 and v2, accepts v1 shares as an argument.
function check_cpu_shares() {
local shares=$1
if [ -v CGROUP_V2 ]; then
local weight=$((1 + ((shares - 2) * 9999) / 262142))
check_cpu_weight "$weight"
else
check_cgroup_value "cpu.shares" "$shares"
check_systemd_value "CPUShares" "$shares"
fi
}
# Works only for cgroup v2, accept v2 weight.
function check_cpu_weight() {
local weight=$1
check_cgroup_value "cpu.weight" "$weight"
check_systemd_value "CPUWeight" "$weight"
}
# Helper function to set a resources limit
function set_resources_limit() {
update_config '.linux.resources.pids.limit |= 100'
}
# Helper function to make /sys/fs/cgroup writable
function set_cgroup_mount_writable() {
update_config '.mounts |= map((select(.type == "cgroup") | .options -= ["ro"]) // .)'
}
# Helper function to get all online cpus.
function get_all_online_cpus() {
cat /sys/devices/system/cpu/online
}
# Helper function to get the first online cpu.
function get_first_online_cpu() {
[[ $(get_all_online_cpus) =~ [^0-9]*([0-9]+)([-,][0-9]+)? ]] && echo "${BASH_REMATCH[1]}"
}
# Helper function to set all cpus/mems in container cgroup cpuset.
function set_cgroup_cpuset_all_cpus() {
update_config ".linux.resources.cpu.cpus = \"$(get_all_online_cpus)\""
local mems
mems="$(cat /sys/devices/system/node/online 2>/dev/null || true)"
if [[ -n $mems ]]; then
update_config ".linux.resources.cpu.mems = \"$mems\""
fi
}
# Fails the current test, providing the error given.
function fail() {
echo "$@" >&2
exit 1
}
# Check whether rootless runc can use cgroups.
function rootless_cgroup() {
[[ "$ROOTLESS_FEATURES" == *"cgroup"* || -v RUNC_USE_SYSTEMD ]]
}
# Check if criu is available and working.
function have_criu() {
command -v criu &>/dev/null || return 1
# Workaround for https://github.com/opencontainers/runc/issues/3532.
local ver
ver=$(rpm -q criu 2>/dev/null || true)
run ! grep -q '^criu-3\.17-[123]\.el9' <<<"$ver"
}
# Allows a test to specify what things it requires. If the environment can't
# support it, the test is skipped with a message.
function requires() {
for var in "$@"; do
local skip_me
case $var in
criu)
if ! have_criu; then
skip_me=1
fi
;;
root)
if [ $EUID -ne 0 ]; then
skip_me=1
fi
;;
rootless)
if [ $EUID -eq 0 ]; then
skip_me=1
fi
;;
rootless_idmap)
if [[ "$ROOTLESS_FEATURES" != *"idmap"* ]]; then
skip_me=1
fi
;;
rootless_cgroup)
if ! rootless_cgroup; then
skip_me=1
fi
;;
rootless_no_cgroup)
if rootless_cgroup; then
skip_me=1
fi
;;
rootless_no_features)
if [ -n "$ROOTLESS_FEATURES" ]; then
skip_me=1
fi
;;
cgroups_rt)
init_cgroup_paths
if [ ! -e "${CGROUP_CPU_BASE_PATH}/cpu.rt_period_us" ]; then
skip_me=1
fi
;;
cgroups_swap)
init_cgroup_paths
if [ -v CGROUP_V1 ] && [ ! -e "${CGROUP_MEMORY_BASE_PATH}/memory.memsw.limit_in_bytes" ]; then
skip_me=1
fi
;;
cgroups_cpu_idle)
local p
init_cgroup_paths
[ -v CGROUP_V1 ] && p="$CGROUP_CPU_BASE_PATH"
[ -v CGROUP_V2 ] && p="$CGROUP_BASE_PATH"
if [ -z "$(find "$p" -name cpu.idle -print -quit)" ]; then
skip_me=1
fi
;;
cgroups_cpu_burst)
local p f
init_cgroup_paths
if [ -v CGROUP_V1 ]; then
p="$CGROUP_CPU_BASE_PATH"
f="cpu.cfs_burst_us"
elif [ -v CGROUP_V2 ]; then
p="$CGROUP_BASE_PATH"
f="cpu.max.burst"
fi
if [ -z "$(find "$p" -name "$f" -print -quit)" ]; then
skip_me=1
fi
;;
cgroupns)
if [ ! -e "/proc/self/ns/cgroup" ]; then
skip_me=1
fi
;;
timens)
if [ ! -e "/proc/self/ns/time" ]; then
skip_me=1
fi
;;
cgroups_v1)
init_cgroup_paths
if [ ! -v CGROUP_V1 ]; then
skip_me=1
fi
;;
cgroups_v2)
init_cgroup_paths
if [ ! -v CGROUP_V2 ]; then
skip_me=1
fi
;;
cgroups_hybrid)
init_cgroup_paths
if [ ! -v CGROUP_HYBRID ]; then
skip_me=1
fi
;;
cgroups_*)
init_cgroup_paths
var=${var#cgroups_}
if [[ "$CGROUP_SUBSYSTEMS" != *"$var"* ]]; then
skip_me=1
fi
;;
smp)
local cpus
cpus=$(grep -c '^processor' /proc/cpuinfo)
if [ "$cpus" -lt 2 ]; then
skip_me=1
fi
;;
systemd)
if [ ! -v RUNC_USE_SYSTEMD ]; then
skip_me=1
fi
;;
systemd_v*)
var=${var#systemd_v}
if [ "$(systemd_version)" -lt "$var" ]; then
skip "requires systemd >= v${var}"
fi
;;
no_systemd)
if [ -v RUNC_USE_SYSTEMD ]; then
skip_me=1
fi
;;
arch_x86_64)
if [ "$ARCH" != "x86_64" ]; then
skip_me=1
fi
;;
more_than_8_core)
local cpus
cpus=$(grep -c '^processor' /proc/cpuinfo)
if [ "$cpus" -le 8 ]; then
skip_me=1
fi
;;
psi)
# If PSI is not compiled in the kernel, the file will not exist.
# If PSI is compiled, but not enabled, read will fail with ENOTSUPP.
if ! cat /sys/fs/cgroup/cpu.pressure &>/dev/null; then
skip_me=1
fi
;;
*)
fail "BUG: Invalid requires $var."
;;
esac
if [ -v skip_me ]; then
skip "test requires $var"
fi
done
}
# Allow a test to specify that it will not work properly on a given OS. The
# fingerprint for the OS used for this test is $ID-$VERSION_ID, using the
# variables in /etc/os-release. The arguments are regular expressions, and any
# match will cause the test to be skipped.
function exclude_os() {
local host
host="$(sh -c '. /etc/os-release ; echo "$ID-$VERSION_ID"')"
for bad_os in "$@"; do
if [[ "$host" =~ ^$bad_os$ ]]; then
skip "test doesn't work on $bad_os"
fi
done
}
# Retry a command $1 times until it succeeds. Wait $2 seconds between retries.
function retry() {
local attempts=$1
shift
local delay=$1
shift
local i
for ((i = 0; i < attempts; i++)); do
run "$@"
if [[ "$status" -eq 0 ]]; then
return 0
fi
sleep "$delay"
done
echo "Command \"$*\" failed $attempts times. Output: $output"
false
}
# retry until the given container has state
function wait_for_container() {
if [ $# -eq 3 ]; then
retry "$1" "$2" __runc state "$3"
elif [ $# -eq 4 ]; then
retry "$1" "$2" eval "__runc state $3 | grep -qw $4"
else
echo "Usage: wait_for_container ATTEMPTS DELAY ID [STATUS]" 1>&2
return 1
fi
}
function testcontainer() {
# test state of container
runc state "$1"
if [ "$2" = "checkpointed" ]; then
[ "$status" -eq 1 ]
return
fi
[ "$status" -eq 0 ]
[[ "${output}" == *"$2"* ]]
}
# Check that all the listed processes are gone. Use after kill/stop etc.
function wait_pids_gone() {
if [ $# -lt 3 ]; then
echo "Usage: wait_pids_gone ITERATIONS SLEEP PID [PID ...]"
return 1
fi
local iter=$1
shift
local sleep=$1
shift
local pids=("$@")
while true; do
for i in "${!pids[@]}"; do
# Check if the pid is there; if not, remove it from the list.
kill -0 "${pids[i]}" 2>/dev/null || unset "pids[i]"
done
[ ${#pids[@]} -eq 0 ] && return 0
# Rebuild pids array to avoid sparse array issues.
pids=("${pids[@]}")
((--iter > 0)) || break
sleep "$sleep"
done
echo "Expected all PIDs to be gone, but some are still there:" "${pids[@]}" 1>&2
return 1
}
function setup_recvtty() {
[ ! -v ROOT ] && return 1 # must not be called without ROOT set
local dir="$ROOT/tty"
mkdir "$dir"
export CONSOLE_SOCKET="$dir/sock"
# We need to start recvtty in the background, so we double fork in the shell.
("$RECVTTY" --pid-file "$dir/pid" --mode null "$CONSOLE_SOCKET" &) &
}
function teardown_recvtty() {
[ ! -v ROOT ] && return 0 # nothing to teardown
local dir="$ROOT/tty"
# When we kill recvtty, the container will also be killed.
if [ -f "$dir/pid" ]; then
kill -9 "$(cat "$dir/pid")"
fi
# Clean up the files that might be left over.
rm -rf "$dir"
}
function setup_seccompagent() {
("${SECCOMP_AGENT}" -socketfile="$SECCCOMP_AGENT_SOCKET" -pid-file "$BATS_TMPDIR/seccompagent.pid" &) &
}
function teardown_seccompagent() {
if [ -f "$BATS_TMPDIR/seccompagent.pid" ]; then
kill -9 "$(cat "$BATS_TMPDIR/seccompagent.pid")"
fi
rm -f "$BATS_TMPDIR/seccompagent.pid"
rm -f "$SECCCOMP_AGENT_SOCKET"
}
function setup_bundle() {
local image="$1"
# Root for various container directories (state, tty, bundle).
ROOT=$(mktemp -d "$BATS_RUN_TMPDIR/runc.XXXXXX")
mkdir -p "$ROOT/state" "$ROOT/bundle/rootfs"
# Directories created by mktemp -d have 0700 permission bits. Tests
# running inside userns (see userns.bats) need to access the directory
# as a different user to mount the rootfs. Since kernel v5.12, parent
# directories are also checked. Give a+x for these tests to work.
chmod a+x "$ROOT" "$BATS_RUN_TMPDIR"
setup_recvtty
cd "$ROOT/bundle" || return
tar --exclude './dev/*' -C rootfs -xf "$image"
runc_spec
}
function setup_busybox() {
setup_bundle "$BUSYBOX_IMAGE"
}
function setup_debian() {
setup_bundle "$DEBIAN_IMAGE"
}
function teardown_bundle() {
[ ! -v ROOT ] && return 0 # nothing to teardown
cd "$INTEGRATION_ROOT" || return
teardown_recvtty
local ct
for ct in $(__runc list -q); do
__runc delete -f "$ct"
done
rm -rf "$ROOT"
remove_parent
}
function remap_rootfs() {
[ ! -v ROOT ] && return 0 # nothing to remap
"$REMAP_ROOTFS" "$ROOT/bundle"
}
function is_kernel_gte() {
local major_required minor_required
major_required=$(echo "$1" | cut -d. -f1)
minor_required=$(echo "$1" | cut -d. -f2)
[[ "$KERNEL_MAJOR" -gt $major_required || ("$KERNEL_MAJOR" -eq $major_required && "$KERNEL_MINOR" -ge $minor_required) ]]
}
function requires_kernel() {
if ! is_kernel_gte "$@"; then
skip "requires kernel >= $1"
fi
}
function requires_idmap_fs() {
local fs
fs=$1
# We need to "|| true" it to avoid CI failure as this binary may return with
# something different than 0.
stderr=$($FS_IDMAP "$fs" 2>&1 >/dev/null || true)
case $stderr in
*invalid\ argument)
skip "$fs underlying file system does not support ID map mounts"
;;
*operation\ not\ permitted)
if uname -r | grep -q el9; then
# centos kernel 5.14.0-200 does not permit using ID map mounts due to a
# specific patch added to their sources:
# https://gitlab.com/redhat/centos-stream/src/kernel/centos-stream-9/-/merge_requests/131
#
# There doesn't seem to be any technical reason behind
# it, none was provided in numerous examples, like:
# https://lore.kernel.org/lkml/20210213130042.828076-1-christian.brauner@ubuntu.com/T/#m3a9df31aa183e8797c70bc193040adfd601399ad
# https://lore.kernel.org/lkml/20210213130042.828076-1-christian.brauner@ubuntu.com/T/#m59cdad9630d5a279aeecd0c1f117115144bc15eb
# https://lore.kernel.org/lkml/m1r1ifzf8x.fsf@fess.ebiederm.org
# https://lore.kernel.org/lkml/20210510125147.tkgeurcindldiwxg@wittgenstein
#
# So, sadly we just need to skip this on centos.
#
# TODO Nonetheless, there are ongoing works to revert the patch
# deactivating ID map mounts:
# https://gitlab.com/redhat/centos-stream/src/kernel/centos-stream-9/-/merge_requests/2179/diffs?commit_id=06f4fe946394cb94d2cf274aa7f3091d8f8469dc
# Once this patch is merge, we should be able to remove the below skip
# if the revert is backported or if CI centos kernel is upgraded.
skip "sadly, centos kernel 5.14 does not permit using ID map mounts"
fi
;;
esac
# If we have another error, the integration test will fail and report it.
}
# setup_pidfd_kill runs pidfd-kill process in background and receives the
# SIGTERM as signal to send the given signal to init process.
function setup_pidfd_kill() {
local signal=$1
[ ! -v ROOT ] && return 1
local dir="${ROOT}/pidfd"
mkdir "${dir}"
export PIDFD_SOCKET="${dir}/sock"
("${PIDFD_KILL}" --pid-file "${dir}/pid" --signal "${signal}" "${PIDFD_SOCKET}" &) &
# ensure socket is ready
retry 10 1 stat "${PIDFD_SOCKET}"
}
# teardown_pidfd_kill cleanups all the resources related to pidfd-kill.
function teardown_pidfd_kill() {
[ ! -v ROOT ] && return 0
local dir="${ROOT}/pidfd"
if [ -f "${dir}/pid" ]; then
kill -9 "$(cat "${dir}/pid")"
fi
rm -rf "${dir}"
}
# pidfd_kill sends the signal to init process.
function pidfd_kill() {
[ ! -v ROOT ] && return 0
local dir="${ROOT}/pidfd"
if [ -f "${dir}/pid" ]; then
kill "$(cat "${dir}/pid")"
fi
}