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#!/bin/bash # # kpatch hot patch module management script # # Copyright (C) 2014 Seth Jennings <sjenning@redhat.com> # Copyright (C) 2014 Josh Poimboeuf <jpoimboe@redhat.com> # # This program is free software; you can redistribute it and/or # modify it under the terms of the GNU General Public License # as published by the Free Software Foundation; either version 2 # of the License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # 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. # This is the kpatch user script that manages installing, loading, and # displaying information about kernel patch modules installed on the system. INSTALLDIR=/var/lib/kpatch SCRIPTDIR="$(readlink -f "$(dirname "$(type -p "$0")")")" VERSION="0.9.7" POST_ENABLE_WAIT=15 # seconds POST_SIGNAL_WAIT=60 # seconds MODULE_REF_WAIT=15 # seconds # How many times to try loading the patch if activeness safety check fails. MAX_LOAD_ATTEMPTS=5 # How long to wait before retry, in seconds. RETRY_INTERVAL=2 usage_cmd() { printf ' %-20s\n%s\n' "$1" "$(fmt -w 80 <(echo " $2"))" >&2 } usage () { # ATTENTION ATTENTION ATTENTION ATTENTION ATTENTION ATTENTION # When changing this, please also update the man page. Thanks! echo "usage: kpatch <command> [<args>]" >&2 echo >&2 echo "Valid commands:" >&2 usage_cmd "install [-k|--kernel-version=<kernel version>] <module>" "install patch module to be loaded at boot" usage_cmd "uninstall [-k|--kernel-version=<kernel version>] <module>" "uninstall patch module" echo >&2 usage_cmd "load --all" "load all installed patch modules into the running kernel" usage_cmd "load <module>" "load patch module into the running kernel" usage_cmd "unload --all (UNSUPPORTED)" "unload all patch modules from the running kernel" usage_cmd "unload <module> (UNSUPPORTED)" "unload patch module from the running kernel" echo >&2 usage_cmd "info <module>" "show information about a patch module" echo >&2 usage_cmd "list" "list installed patch modules" echo >&2 usage_cmd "signal" "signal/poke any process stalling the current patch transition. This is only useful on systems that have the sysfs livepatch signal interface. On other systems, the signaling should be done automatically by the OS and this subcommand is a no-op." echo >&2 usage_cmd "version" "display the kpatch version" exit 1 } warn() { echo "kpatch: $*" >&2 } die() { warn "$@" exit 1 } confirm_prompt() { local prompt="$1" local answer while true; do read -rp "$prompt [Y/N] " answer [[ $answer == 'Y' || $answer == 'y' ]] && return 0 [[ $answer == 'N' || $answer == 'n' ]] && return 1 done } __find_module () { MODULE="$1" [[ -f "$MODULE" ]] && return MODULE="$INSTALLDIR/$(uname -r)/$1" [[ -f "$MODULE" ]] && return return 1 } mod_name () { MODNAME="$(basename "$1")" MODNAME="${MODNAME%.ko}" MODNAME="${MODNAME//-/_}" } find_module () { arg="$1" if [[ "$arg" =~ \.ko ]]; then __find_module "$arg" || return 1 mod_name "$MODULE" return else for i in "$INSTALLDIR/$(uname -r)"/*; do mod_name "$i" if [[ "$MODNAME" == "$arg" ]]; then MODULE="$i" return fi done fi return 1 } find_core_module() { COREMOD="$SCRIPTDIR"/../kmod/core/kpatch.ko [[ -f "$COREMOD" ]] && return COREMOD="/usr/local/lib/kpatch/$(uname -r)/kpatch.ko" [[ -f "$COREMOD" ]] && return COREMOD="/usr/lib/kpatch/$(uname -r)/kpatch.ko" [[ -f "$COREMOD" ]] && return COREMOD="/usr/local/lib/modules/$(uname -r)/extra/kpatch/kpatch.ko" [[ -f "$COREMOD" ]] && return COREMOD="/usr/lib/modules/$(uname -r)/extra/kpatch/kpatch.ko" [[ -f "$COREMOD" ]] && return return 1 } kpatch_core_loaded() { [[ -d "/sys/kernel/kpatch" ]] } core_loaded () { [[ -d "/sys/kernel/kpatch" ]] || [[ -d "/sys/kernel/livepatch" ]] } get_module_name () { readelf -p .gnu.linkonce.this_module "$1" | grep '\[.*\]' | awk '{print $3}' } init_sysfs_var() { # If the kernel is configured with CONFIG_LIVEPATCH, use that. # Otherwise, use the kpatch core module (kpatch.ko). if [[ -e /sys/kernel/livepatch ]] ; then # livepatch ABI SYSFS="/sys/kernel/livepatch" elif [[ -e /sys/kernel/kpatch/patches ]] ; then # kpatch pre-0.4 ABI SYSFS="/sys/kernel/kpatch/patches" else # kpatch 0.4 ABI SYSFS="/sys/kernel/kpatch" fi } verify_module_checksum () { modname="$(get_module_name "$1")" [[ -z "$modname" ]] && return 1 checksum="$(readelf -p .kpatch.checksum "$1" 2>&1 | grep '\[.*\]' | awk '{print $3}')" # Fail checksum match only if both exist and diverge if [[ -n "$checksum" ]] && [[ -e "$SYSFS/${modname}/checksum" ]] ; then sysfs_checksum="$(cat "$SYSFS/${modname}/checksum")" [[ "$checksum" == "$sysfs_checksum" ]] || return 1 fi return 0 } in_transition() { local moddir="$SYSFS/$1" [[ $(cat "$moddir/transition" 2>/dev/null) == "1" ]] && return 0 return 1 } is_stalled() { local module="$1" local pid="$2" local patch_enabled local patch_state patch_enabled="$(cat "$SYSFS/$module/enabled" 2>/dev/null)" patch_state="$(cat "/proc/$pid/patch_state" 2>/dev/null)" # No patch transition in progress [[ "$patch_state" == "-1" ]] && return 1 [[ -z "$patch_enabled" ]] || [[ -z "$patch_state" ]] && return 1 # Stalls can be determined if the process state does not match # the transition target (ie, "enabled" and "patched", "disabled" # and "unpatched"). The state value enumerations match, so we # can just compare them directly: [[ "$patch_enabled" != "$patch_state" ]] && return 0 return 1 } get_transition_patch() { local module local modname for module in "$SYSFS"/*; do modname=$(basename "$module") if in_transition "$modname" ; then echo "$modname" return fi done } show_stalled_processes() { local module local proc_task local tid module=$(get_transition_patch) [[ -z "$module" ]] && return echo "" echo "Stalled processes:" for proc_task in /proc/[0-9]*/task/[0-9]*; do tid=${proc_task#*/task/} is_stalled "$module" "$tid" && echo -e "$tid $(cat "$proc_task"/comm 2>/dev/null)\nstack:\n$(cat "$proc_task"/stack 2>/dev/null)" done } signal_stalled_processes() { local module local proc_task local tid module=$(get_transition_patch) [[ -z "$module" ]] && return if [[ -e "/sys/kernel/livepatch/$module/signal" ]] ; then echo "signaling stalled process(es):" echo 1 > "/sys/kernel/livepatch/$module/signal" else warn "Livepatch process signaling is performed automatically on your system." warn "Skipping manual process signaling." fi } wait_for_patch_transition() { local module="$1" local i in_transition "$module" || return 0 echo "waiting (up to $POST_ENABLE_WAIT seconds) for patch transition to complete..." for (( i=0; i<POST_ENABLE_WAIT; i++ )); do if ! in_transition "$module" ; then echo "transition complete ($i seconds)" return 0 fi sleep 1s done echo "patch transition has stalled!" signal_stalled_processes echo "waiting (up to $POST_SIGNAL_WAIT seconds) for patch transition to complete..." for (( i=0; i<POST_SIGNAL_WAIT; i++ )); do if ! in_transition "$module" ; then echo "transition complete ($i seconds)" return 0 fi sleep 1s done return 1 } module_ref_count() { local modname="$1" [[ $(cat "/sys/module/$modname/refcnt" 2>/dev/null) -gt "0" ]] } wait_for_zero_module_ref_count() { local modname="$1" local i=0 # We can't rely on a zero refcount with kpatch.ko as it # implements KPATCH_FORCE_UNSAFE with an additional reference on # kpatch-patch modules to avoid potential crashes. kpatch_core_loaded && return 0 module_ref_count "$modname" || return 0 echo "waiting (up to $MODULE_REF_WAIT seconds) for module refcount..." for (( i=0; i<MODULE_REF_WAIT; i++ )); do module_ref_count "$modname" || return 0 sleep 1s done return 1 } load_module () { local module="$1" if ! core_loaded; then if modprobe -q kpatch; then echo "loaded core module" else find_core_module || die "can't find core module" echo "loading core module: $COREMOD" insmod "$COREMOD" || die "failed to load core module" fi # Now that the core module has been loaded, set $SYSFS to the # correct value based on the loaded core module's ABI. init_sysfs_var fi local modname modname="$(get_module_name "$module")" local moddir="$SYSFS/$modname" if [[ -d "$moddir" ]] ; then if [[ "$(cat "${moddir}/enabled")" -eq 0 ]]; then if verify_module_checksum "$module"; then # same checksum echo "module already loaded, re-enabling" echo 1 > "${moddir}/enabled" || die "failed to re-enable module $modname" if ! wait_for_patch_transition "$modname" ; then show_stalled_processes echo "module $modname did not complete its transition, disabling..." echo 0 > "${moddir}/enabled" || die "failed to disable module $modname" wait_for_patch_transition "$modname" die "error: failed to re-enable module $modname (transition stalled), patch disabled" fi return else die "error: cannot re-enable patch module $modname, cannot verify checksum match" fi else echo "module named $modname already loaded and enabled" fi else # Cleanup possibly loaded, but disabled patch. remove_module "$modname" "quiet" echo "loading patch module: $module" local i=0 while true; do out="$(LC_ALL=C insmod "$module" 2>&1)" [[ -z "$out" ]] && break echo "$out" 1>&2 [[ ! "$out" =~ "Device or resource busy" ]] && die "failed to load module $module" # "Device or resource busy" means the activeness safety check # failed. Retry in a few seconds. i=$((i+1)) if [[ $i -eq $MAX_LOAD_ATTEMPTS ]]; then die "failed to load module $module" break else warn "retrying..." sleep $RETRY_INTERVAL fi done fi if ! wait_for_patch_transition "$modname" ; then show_stalled_processes echo "module $modname did not complete its transition, unloading..." unload_module "$modname" die "error: failed to load module $modname (transition stalled)" fi return 0 } disable_patch () { local modname="$1" local enabled="$SYSFS/$modname/enabled" if ! [[ -e "$enabled" ]]; then if [[ -d "/sys/module/$modname" ]] ; then # Module is loaded, but already disabled return 0 fi warn "patch module $modname is not loaded" return 1 fi if [[ "$(cat "$enabled")" -eq 1 ]]; then echo "disabling patch module: $modname" local i=0 while true; do out="$(export LC_ALL=C; sh -c "echo 0 > $enabled" 2>&1)" [[ -z "$out" ]] && break echo "$out" 1>&2 if [[ ! "$out" =~ "Device or resource busy" ]]; then return 1 fi # "Device or resource busy" means the activeness safety check # failed. Retry in a few seconds. i=$((i+1)) if [[ $i -eq $MAX_LOAD_ATTEMPTS ]]; then return 1 else warn "retrying..." sleep $RETRY_INTERVAL fi done fi } disable_patch_strict () { local modname="$1" disable_patch "$modname" || die "failed to disable module $modname" if ! wait_for_patch_transition "$modname" ; then die "transition stalled for $modname" fi } remove_module () { local modname="$1" if ! wait_for_zero_module_ref_count "$modname"; then die "failed to unload module $modname (refcnt)" fi if [[ "$#" -lt 2 || "$2" != "quiet" ]] ; then echo "unloading patch module: $modname" fi # ignore any error here because rmmod can fail if the module used # KPATCH_FORCE_UNSAFE. rmmod "$modname" 2> /dev/null || return 0 } unload_module () { PATCH="${1//-/_}" PATCH="${PATCH%.ko}" disable_patch_strict "$PATCH" remove_module "$PATCH" } get_module_version() { MODVER="$(modinfo -F vermagic "$1")" || return 1 MODVER="${MODVER/ */}" } unset MODULE # Initialize the $SYSFS var. This only works if the core module has been # loaded. Otherwise, the value of $SYSFS doesn't matter at this point anyway, # and we'll have to call this function again after loading it. init_sysfs_var [[ "$#" -lt 1 ]] && usage # RHEL-specific support options case "$1" in "force") # For scripting purposes, support "kpatch force unload". # Shift out the "force" to avoid the user-prompt check below. shift ;; "unload") confirm_prompt "WARNING: Red Hat doesn't support unloading of kpatches, continue anyway?" || exit 1 ;; esac case "$1" in "load") [[ "$#" -ne 2 ]] && usage case "$2" in "--all") for i in "$INSTALLDIR/$(uname -r)"/*.ko; do [[ -e "$i" ]] || continue load_module "$i" || die "failed to load module $i" done ;; *) PATCH="$2" find_module "$PATCH" || die "can't find $PATCH" load_module "$MODULE" || die "failed to load module $PATCH" ;; esac ;; "unload") [[ "$#" -ne 2 ]] && usage case "$2" in "--all") # Versions of linux < 5.1 livepatching require patches to be # disabled in the inverse order in which they were enabled. while true; do nr_disabled=0 for module in "$SYSFS"/*; do modname="$(basename "$module")" [[ -e "$module" ]] || continue disable_patch "$modname" || continue if ! wait_for_patch_transition "$modname" ; then warn "transition stalled for $modname" continue fi remove_module "$modname" nr_disabled=$((nr_disabled + 1)) done if [ $nr_disabled -eq 0 ]; then break fi done nr_remaining=0 for module in "$SYSFS"/*; do modname="$(basename "$module")" [[ -e "$module" ]] || continue nr_remaining=$((nr_remaining + 1)) warn "failed to unload module $modname" done if [ $nr_remaining -gt 0 ]; then exit 1 fi ;; *) unload_module "$(basename "$2")" || die "failed to unload module $2" ;; esac ;; "install") KVER="$(uname -r)" shift options="$(getopt -o k: -l "kernel-version:" -- "$@")" || die "getopt failed" eval set -- "$options" while [[ $# -gt 0 ]]; do case "$1" in -k|--kernel-version) KVER="$2" shift ;; --) [[ -z "$2" ]] && die "no module file specified" PATCH="$2" ;; esac shift done [[ ! -e "$PATCH" ]] && die "$PATCH doesn't exist" [[ "${PATCH: -3}" == ".ko" ]] || die "$PATCH isn't a .ko file" get_module_version "$PATCH" || die "modinfo failed" [[ "$KVER" != "$MODVER" ]] && die "invalid module version $MODVER for kernel $KVER" [[ -e "$INSTALLDIR/$KVER/$(basename "$PATCH")" ]] && die "$PATCH is already installed" echo "installing $PATCH ($KVER)" mkdir -p "$INSTALLDIR/$KVER" || die "failed to create install directory" cp -f "$PATCH" "$INSTALLDIR/$KVER" || die "failed to install module $PATCH" command -v systemctl > /dev/null 2>&1 && systemctl enable kpatch.service ;; "uninstall") KVER="$(uname -r)" shift options="$(getopt -o k: -l "kernel-version:" -- "$@")" || die "getopt failed" eval set -- "$options" while [[ $# -gt 0 ]]; do case "$1" in -k|--kernel-version) KVER="$2" shift ;; --) [[ -z "$2" ]] && die "no module file specified" PATCH="$2" [[ "$PATCH" != "$(basename "$PATCH")" ]] && die "please supply patch module name without path" ;; esac shift done MODULE="$INSTALLDIR/$KVER/$PATCH" if [[ ! -f "$MODULE" ]]; then mod_name "$PATCH" PATCHNAME="$MODNAME" for i in "$INSTALLDIR/$KVER"/*; do mod_name "$i" if [[ "$MODNAME" == "$PATCHNAME" ]]; then MODULE="$i" break fi done fi [[ ! -e "$MODULE" ]] && die "$PATCH is not installed for kernel $KVER" echo "uninstalling $PATCH ($KVER)" rm -f "$MODULE" || die "failed to uninstall module $PATCH" rmdir --ignore-fail-on-non-empty "$INSTALLDIR/$KVER" || die "failed to remove directory $INSTALLDIR/$KVER" ;; "list") [[ "$#" -ne 1 ]] && usage echo "Loaded patch modules:" for module in "$SYSFS"/*; do if [[ -e "$module" ]]; then modname=$(basename "$module") if [[ "$(cat "$module/enabled" 2>/dev/null)" -eq 1 ]]; then in_transition "$modname" && state="enabling..." \ || state="enabled" else in_transition "$modname" && state="disabling..." \ || state="disabled" fi echo "$modname [$state]" fi done show_stalled_processes echo "" echo "Installed patch modules:" for kdir in "$INSTALLDIR"/*; do [[ -e "$kdir" ]] || continue for module in "$kdir"/*.ko; do [[ -e "$module" ]] || continue mod_name "$module" echo "$MODNAME ($(basename "$kdir"))" done done ;; "info") [[ "$#" -ne 2 ]] && usage PATCH="$2" find_module "$PATCH" || die "can't find $PATCH" echo "Patch information for $PATCH:" modinfo "$MODULE" || die "failed to get info for module $PATCH" ;; "signal") [[ "$#" -ne 1 ]] && usage signal_stalled_processes ;; "help"|"-h"|"--help") usage ;; "version"|"-v"|"--version") echo "$VERSION" ;; *) echo "subcommand $1 not recognized" usage ;; esac