kexec-tools/kdumpctl

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#!/bin/bash
2011-07-06 19:25:34 +00:00
KEXEC=/sbin/kexec
KDUMP_KERNELVER=""
KDUMP_KERNEL=""
2011-07-06 19:25:34 +00:00
KDUMP_COMMANDLINE=""
KEXEC_ARGS=""
KDUMP_LOG_PATH="/var/log"
MKDUMPRD="/sbin/mkdumprd -f"
MKFADUMPRD="/sbin/mkfadumprd"
DRACUT_MODULES_FILE="/usr/lib/dracut/modules.txt"
DEFAULT_INITRD=""
DEFAULT_INITRD_BAK=""
INITRD_CHECKSUM_LOCATION=""
KDUMP_INITRD=""
kdump: Rebuild default initrd for firmware assisted dump The current kdump infrastructure builds a separate initrd which then gets loaded into memory by kexec-tools for use by kdump kernel. But firmware assisted dump (FADUMP) does not use kexec-based approach. After crash, firmware reboots the partition and loads grub loader like the normal booting process does. Hence in the FADUMP approach, the second kernel (after crash) will always use the default initrd (OS built). So, to support FADUMP, change is required, as in to add dump capturing steps, in this initrd. The current kdumpctl script implementation already has the code to build initrd using mkdumprd. This patch uses the new '--rebuild' option introduced, in dracut, to incrementally build the initramfs image. Before rebuilding, we may need to probe the initrd image for fadump support, to avoid rebuilding the initrd image multiple times unnecessarily. This can be done using "lsinitrd" tool with the newly proposed '--mod' option & inspecting the presence of "kdumpbase" in the list of modules of default initrd image. We rebuild the image if only "kdumpbase" module is missing in the initrd image. Also, before rebuilding, a backup of default initrd image is taken. Kexec-tools package in rhel7 is now enhanced to insert a out-of-tree kdump module for dracut, which is responsible for adding vmcore capture steps into initrd, if dracut is invoked with "IN_KDUMP" environment variable set to 1. mkdumprd script exports "IN_KDUMP=1" environment variable before invoking dracut to build kdump initrd. This patch relies on this current mechanism of kdump init script. Signed-off-by: Mahesh Salgaonkar <mahesh@linux.vnet.ibm.com> Signed-off-by: Hari Bathini <hbathini@linux.vnet.ibm.com> Acked-by: Vivek Goyal <vgoyal@redhat.com>
2014-07-24 18:39:07 +00:00
TARGET_INITRD=""
#kdump shall be the default dump mode
DEFAULT_DUMP_MODE="kdump"
2011-07-06 19:25:34 +00:00
standard_kexec_args="-d -p"
2011-07-06 19:25:34 +00:00
# Some default values in case /etc/sysconfig/kdump doesn't include
KDUMP_COMMANDLINE_REMOVE="hugepages hugepagesz slub_debug"
declare -A OPT
if [[ -f /etc/sysconfig/kdump ]]; then
2011-07-06 19:25:34 +00:00
. /etc/sysconfig/kdump
fi
[[ $dracutbasedir ]] || dracutbasedir=/usr/lib/dracut
# shellcheck source=/dev/null
. "$dracutbasedir"/dracut-functions.sh
if [[ ${__SOURCED__:+x} ]]; then
KDUMP_LIB_PATH=.
else
KDUMP_LIB_PATH=/lib/kdump
fi
# shellcheck source=./kdump-lib.sh
. $KDUMP_LIB_PATH/kdump-lib.sh
# shellcheck source=./kdump-logger.sh
. $KDUMP_LIB_PATH/kdump-logger.sh
#initiate the kdump logger
if ! dlog_init; then
echo "failed to initiate the kdump logger."
exit 1
fi
KDUMP_TMPDIR=$(mktemp --tmpdir -d kdump.XXXX)
trap '
ret=$?;
rm -rf "$KDUMP_TMPDIR"
exit $ret;
' EXIT
_get_dracut_arg()
{
local shortopt longopt n tmp
local -a _opt _ret
shortopt=$1; shift
longopt=$1; shift
n=0
if [[ -n $shortopt ]]; then
_opt+=(-o "${shortopt#-}:")
else
# getopt requires the -o/--option to be set.
_opt+=(-o "")
fi
[[ -n $longopt ]] && _opt+=(--long "${longopt#--}:")
# make sure bash didn't break quoting
eval set -- "$*"
tmp=$(
unset POSIXLY_CORRECT
getopt -q "${_opt[@]}" -- "$@"
)
eval set -- "$tmp"
while :; do
case $1 in
"$shortopt"|"$longopt")
_ret+=("$2"); shift
n=$((n+1))
;;
--|*)
break
;;
esac
shift
done
echo "${_ret[@]}"
return $n
}
is_dracut_mod_omitted()
{
local mod omitted
mod=$1
omitted=$(_get_dracut_arg -o --omit "${OPT[dracut_args]}")
[[ " $omitted " == *" $mod "* ]]
}
single_instance_lock()
{
local rc timeout=5 lockfile
if [[ -d /run/lock ]]; then
lockfile=/run/lock/kdump
else
# when updating package using virt-customize, /run/lock doesn't exist
lockfile=/tmp/kdump.lock
fi
if ! exec 9> $lockfile; then
derror "Create file lock failed"
exit 1
fi
flock -n 9
rc=$?
while [[ $rc -ne 0 ]]; do
dinfo "Another app is currently holding the kdump lock; waiting for it to exit..."
flock -w $timeout 9
rc=$?
done
}
determine_dump_mode()
{
# Check if firmware-assisted dump is enabled
# if yes, set the dump mode as fadump
if is_fadump_capable; then
dinfo "Dump mode is fadump"
DEFAULT_DUMP_MODE="fadump"
fi
ddebug "DEFAULT_DUMP_MODE=$DEFAULT_DUMP_MODE"
}
kdump: Rebuild default initrd for firmware assisted dump The current kdump infrastructure builds a separate initrd which then gets loaded into memory by kexec-tools for use by kdump kernel. But firmware assisted dump (FADUMP) does not use kexec-based approach. After crash, firmware reboots the partition and loads grub loader like the normal booting process does. Hence in the FADUMP approach, the second kernel (after crash) will always use the default initrd (OS built). So, to support FADUMP, change is required, as in to add dump capturing steps, in this initrd. The current kdumpctl script implementation already has the code to build initrd using mkdumprd. This patch uses the new '--rebuild' option introduced, in dracut, to incrementally build the initramfs image. Before rebuilding, we may need to probe the initrd image for fadump support, to avoid rebuilding the initrd image multiple times unnecessarily. This can be done using "lsinitrd" tool with the newly proposed '--mod' option & inspecting the presence of "kdumpbase" in the list of modules of default initrd image. We rebuild the image if only "kdumpbase" module is missing in the initrd image. Also, before rebuilding, a backup of default initrd image is taken. Kexec-tools package in rhel7 is now enhanced to insert a out-of-tree kdump module for dracut, which is responsible for adding vmcore capture steps into initrd, if dracut is invoked with "IN_KDUMP" environment variable set to 1. mkdumprd script exports "IN_KDUMP=1" environment variable before invoking dracut to build kdump initrd. This patch relies on this current mechanism of kdump init script. Signed-off-by: Mahesh Salgaonkar <mahesh@linux.vnet.ibm.com> Signed-off-by: Hari Bathini <hbathini@linux.vnet.ibm.com> Acked-by: Vivek Goyal <vgoyal@redhat.com>
2014-07-24 18:39:07 +00:00
rebuild_fadump_initrd()
{
if ! $MKFADUMPRD "$DEFAULT_INITRD_BAK" "$TARGET_INITRD" --kver "$KDUMP_KERNELVER"; then
derror "mkfadumprd: failed to make fadump initrd"
kdump: Rebuild default initrd for firmware assisted dump The current kdump infrastructure builds a separate initrd which then gets loaded into memory by kexec-tools for use by kdump kernel. But firmware assisted dump (FADUMP) does not use kexec-based approach. After crash, firmware reboots the partition and loads grub loader like the normal booting process does. Hence in the FADUMP approach, the second kernel (after crash) will always use the default initrd (OS built). So, to support FADUMP, change is required, as in to add dump capturing steps, in this initrd. The current kdumpctl script implementation already has the code to build initrd using mkdumprd. This patch uses the new '--rebuild' option introduced, in dracut, to incrementally build the initramfs image. Before rebuilding, we may need to probe the initrd image for fadump support, to avoid rebuilding the initrd image multiple times unnecessarily. This can be done using "lsinitrd" tool with the newly proposed '--mod' option & inspecting the presence of "kdumpbase" in the list of modules of default initrd image. We rebuild the image if only "kdumpbase" module is missing in the initrd image. Also, before rebuilding, a backup of default initrd image is taken. Kexec-tools package in rhel7 is now enhanced to insert a out-of-tree kdump module for dracut, which is responsible for adding vmcore capture steps into initrd, if dracut is invoked with "IN_KDUMP" environment variable set to 1. mkdumprd script exports "IN_KDUMP=1" environment variable before invoking dracut to build kdump initrd. This patch relies on this current mechanism of kdump init script. Signed-off-by: Mahesh Salgaonkar <mahesh@linux.vnet.ibm.com> Signed-off-by: Hari Bathini <hbathini@linux.vnet.ibm.com> Acked-by: Vivek Goyal <vgoyal@redhat.com>
2014-07-24 18:39:07 +00:00
return 1
fi
sync -f "$TARGET_INITRD"
kdump: Rebuild default initrd for firmware assisted dump The current kdump infrastructure builds a separate initrd which then gets loaded into memory by kexec-tools for use by kdump kernel. But firmware assisted dump (FADUMP) does not use kexec-based approach. After crash, firmware reboots the partition and loads grub loader like the normal booting process does. Hence in the FADUMP approach, the second kernel (after crash) will always use the default initrd (OS built). So, to support FADUMP, change is required, as in to add dump capturing steps, in this initrd. The current kdumpctl script implementation already has the code to build initrd using mkdumprd. This patch uses the new '--rebuild' option introduced, in dracut, to incrementally build the initramfs image. Before rebuilding, we may need to probe the initrd image for fadump support, to avoid rebuilding the initrd image multiple times unnecessarily. This can be done using "lsinitrd" tool with the newly proposed '--mod' option & inspecting the presence of "kdumpbase" in the list of modules of default initrd image. We rebuild the image if only "kdumpbase" module is missing in the initrd image. Also, before rebuilding, a backup of default initrd image is taken. Kexec-tools package in rhel7 is now enhanced to insert a out-of-tree kdump module for dracut, which is responsible for adding vmcore capture steps into initrd, if dracut is invoked with "IN_KDUMP" environment variable set to 1. mkdumprd script exports "IN_KDUMP=1" environment variable before invoking dracut to build kdump initrd. This patch relies on this current mechanism of kdump init script. Signed-off-by: Mahesh Salgaonkar <mahesh@linux.vnet.ibm.com> Signed-off-by: Hari Bathini <hbathini@linux.vnet.ibm.com> Acked-by: Vivek Goyal <vgoyal@redhat.com>
2014-07-24 18:39:07 +00:00
return 0
}
check_earlykdump_is_enabled()
{
grep -q -w "rd.earlykdump" /proc/cmdline
}
kdump: Rebuild default initrd for firmware assisted dump The current kdump infrastructure builds a separate initrd which then gets loaded into memory by kexec-tools for use by kdump kernel. But firmware assisted dump (FADUMP) does not use kexec-based approach. After crash, firmware reboots the partition and loads grub loader like the normal booting process does. Hence in the FADUMP approach, the second kernel (after crash) will always use the default initrd (OS built). So, to support FADUMP, change is required, as in to add dump capturing steps, in this initrd. The current kdumpctl script implementation already has the code to build initrd using mkdumprd. This patch uses the new '--rebuild' option introduced, in dracut, to incrementally build the initramfs image. Before rebuilding, we may need to probe the initrd image for fadump support, to avoid rebuilding the initrd image multiple times unnecessarily. This can be done using "lsinitrd" tool with the newly proposed '--mod' option & inspecting the presence of "kdumpbase" in the list of modules of default initrd image. We rebuild the image if only "kdumpbase" module is missing in the initrd image. Also, before rebuilding, a backup of default initrd image is taken. Kexec-tools package in rhel7 is now enhanced to insert a out-of-tree kdump module for dracut, which is responsible for adding vmcore capture steps into initrd, if dracut is invoked with "IN_KDUMP" environment variable set to 1. mkdumprd script exports "IN_KDUMP=1" environment variable before invoking dracut to build kdump initrd. This patch relies on this current mechanism of kdump init script. Signed-off-by: Mahesh Salgaonkar <mahesh@linux.vnet.ibm.com> Signed-off-by: Hari Bathini <hbathini@linux.vnet.ibm.com> Acked-by: Vivek Goyal <vgoyal@redhat.com>
2014-07-24 18:39:07 +00:00
rebuild_kdump_initrd()
{
ddebug "rebuild kdump initrd: $MKDUMPRD $TARGET_INITRD $KDUMP_KERNELVER"
if ! $MKDUMPRD "$TARGET_INITRD" "$KDUMP_KERNELVER"; then
derror "mkdumprd: failed to make kdump initrd"
return 1
fi
kdump: Rebuild default initrd for firmware assisted dump The current kdump infrastructure builds a separate initrd which then gets loaded into memory by kexec-tools for use by kdump kernel. But firmware assisted dump (FADUMP) does not use kexec-based approach. After crash, firmware reboots the partition and loads grub loader like the normal booting process does. Hence in the FADUMP approach, the second kernel (after crash) will always use the default initrd (OS built). So, to support FADUMP, change is required, as in to add dump capturing steps, in this initrd. The current kdumpctl script implementation already has the code to build initrd using mkdumprd. This patch uses the new '--rebuild' option introduced, in dracut, to incrementally build the initramfs image. Before rebuilding, we may need to probe the initrd image for fadump support, to avoid rebuilding the initrd image multiple times unnecessarily. This can be done using "lsinitrd" tool with the newly proposed '--mod' option & inspecting the presence of "kdumpbase" in the list of modules of default initrd image. We rebuild the image if only "kdumpbase" module is missing in the initrd image. Also, before rebuilding, a backup of default initrd image is taken. Kexec-tools package in rhel7 is now enhanced to insert a out-of-tree kdump module for dracut, which is responsible for adding vmcore capture steps into initrd, if dracut is invoked with "IN_KDUMP" environment variable set to 1. mkdumprd script exports "IN_KDUMP=1" environment variable before invoking dracut to build kdump initrd. This patch relies on this current mechanism of kdump init script. Signed-off-by: Mahesh Salgaonkar <mahesh@linux.vnet.ibm.com> Signed-off-by: Hari Bathini <hbathini@linux.vnet.ibm.com> Acked-by: Vivek Goyal <vgoyal@redhat.com>
2014-07-24 18:39:07 +00:00
if check_earlykdump_is_enabled; then
dwarn "Tips: If early kdump is enabled, also require rebuilding the system initramfs to make the changes take effect for early kdump."
fi
sync -f "$TARGET_INITRD"
kdump: Rebuild default initrd for firmware assisted dump The current kdump infrastructure builds a separate initrd which then gets loaded into memory by kexec-tools for use by kdump kernel. But firmware assisted dump (FADUMP) does not use kexec-based approach. After crash, firmware reboots the partition and loads grub loader like the normal booting process does. Hence in the FADUMP approach, the second kernel (after crash) will always use the default initrd (OS built). So, to support FADUMP, change is required, as in to add dump capturing steps, in this initrd. The current kdumpctl script implementation already has the code to build initrd using mkdumprd. This patch uses the new '--rebuild' option introduced, in dracut, to incrementally build the initramfs image. Before rebuilding, we may need to probe the initrd image for fadump support, to avoid rebuilding the initrd image multiple times unnecessarily. This can be done using "lsinitrd" tool with the newly proposed '--mod' option & inspecting the presence of "kdumpbase" in the list of modules of default initrd image. We rebuild the image if only "kdumpbase" module is missing in the initrd image. Also, before rebuilding, a backup of default initrd image is taken. Kexec-tools package in rhel7 is now enhanced to insert a out-of-tree kdump module for dracut, which is responsible for adding vmcore capture steps into initrd, if dracut is invoked with "IN_KDUMP" environment variable set to 1. mkdumprd script exports "IN_KDUMP=1" environment variable before invoking dracut to build kdump initrd. This patch relies on this current mechanism of kdump init script. Signed-off-by: Mahesh Salgaonkar <mahesh@linux.vnet.ibm.com> Signed-off-by: Hari Bathini <hbathini@linux.vnet.ibm.com> Acked-by: Vivek Goyal <vgoyal@redhat.com>
2014-07-24 18:39:07 +00:00
return 0
}
rebuild_initrd()
{
dinfo "Rebuilding $TARGET_INITRD"
if [[ ! -w $(dirname "$TARGET_INITRD") ]]; then
derror "$(dirname "$TARGET_INITRD") does not have write permission. Cannot rebuild $TARGET_INITRD"
return 1
fi
if [[ $DEFAULT_DUMP_MODE == "fadump" ]]; then
kdump: Rebuild default initrd for firmware assisted dump The current kdump infrastructure builds a separate initrd which then gets loaded into memory by kexec-tools for use by kdump kernel. But firmware assisted dump (FADUMP) does not use kexec-based approach. After crash, firmware reboots the partition and loads grub loader like the normal booting process does. Hence in the FADUMP approach, the second kernel (after crash) will always use the default initrd (OS built). So, to support FADUMP, change is required, as in to add dump capturing steps, in this initrd. The current kdumpctl script implementation already has the code to build initrd using mkdumprd. This patch uses the new '--rebuild' option introduced, in dracut, to incrementally build the initramfs image. Before rebuilding, we may need to probe the initrd image for fadump support, to avoid rebuilding the initrd image multiple times unnecessarily. This can be done using "lsinitrd" tool with the newly proposed '--mod' option & inspecting the presence of "kdumpbase" in the list of modules of default initrd image. We rebuild the image if only "kdumpbase" module is missing in the initrd image. Also, before rebuilding, a backup of default initrd image is taken. Kexec-tools package in rhel7 is now enhanced to insert a out-of-tree kdump module for dracut, which is responsible for adding vmcore capture steps into initrd, if dracut is invoked with "IN_KDUMP" environment variable set to 1. mkdumprd script exports "IN_KDUMP=1" environment variable before invoking dracut to build kdump initrd. This patch relies on this current mechanism of kdump init script. Signed-off-by: Mahesh Salgaonkar <mahesh@linux.vnet.ibm.com> Signed-off-by: Hari Bathini <hbathini@linux.vnet.ibm.com> Acked-by: Vivek Goyal <vgoyal@redhat.com>
2014-07-24 18:39:07 +00:00
rebuild_fadump_initrd
else
rebuild_kdump_initrd
fi
}
#$1: the files to be checked with IFS=' '
check_exist()
{
for file in $1; do
if [[ ! -e $file ]]; then
derror "Error: $file not found."
return 1
fi
done
}
#$1: the files to be checked with IFS=' '
check_executable()
{
for file in $1; do
if [[ ! -x $file ]]; then
derror "Error: $file is not executable."
return 1
fi
done
}
backup_default_initrd()
kdump: Rebuild default initrd for firmware assisted dump The current kdump infrastructure builds a separate initrd which then gets loaded into memory by kexec-tools for use by kdump kernel. But firmware assisted dump (FADUMP) does not use kexec-based approach. After crash, firmware reboots the partition and loads grub loader like the normal booting process does. Hence in the FADUMP approach, the second kernel (after crash) will always use the default initrd (OS built). So, to support FADUMP, change is required, as in to add dump capturing steps, in this initrd. The current kdumpctl script implementation already has the code to build initrd using mkdumprd. This patch uses the new '--rebuild' option introduced, in dracut, to incrementally build the initramfs image. Before rebuilding, we may need to probe the initrd image for fadump support, to avoid rebuilding the initrd image multiple times unnecessarily. This can be done using "lsinitrd" tool with the newly proposed '--mod' option & inspecting the presence of "kdumpbase" in the list of modules of default initrd image. We rebuild the image if only "kdumpbase" module is missing in the initrd image. Also, before rebuilding, a backup of default initrd image is taken. Kexec-tools package in rhel7 is now enhanced to insert a out-of-tree kdump module for dracut, which is responsible for adding vmcore capture steps into initrd, if dracut is invoked with "IN_KDUMP" environment variable set to 1. mkdumprd script exports "IN_KDUMP=1" environment variable before invoking dracut to build kdump initrd. This patch relies on this current mechanism of kdump init script. Signed-off-by: Mahesh Salgaonkar <mahesh@linux.vnet.ibm.com> Signed-off-by: Hari Bathini <hbathini@linux.vnet.ibm.com> Acked-by: Vivek Goyal <vgoyal@redhat.com>
2014-07-24 18:39:07 +00:00
{
ddebug "backup default initrd: $DEFAULT_INITRD"
if [[ ! -f $DEFAULT_INITRD ]]; then
return
fi
if [[ ! -e $DEFAULT_INITRD_BAK ]]; then
dinfo "Backing up $DEFAULT_INITRD before rebuild."
# save checksum to verify before restoring
sha1sum "$DEFAULT_INITRD" > "$INITRD_CHECKSUM_LOCATION"
if ! cp "$DEFAULT_INITRD" "$DEFAULT_INITRD_BAK"; then
dwarn "WARNING: failed to backup $DEFAULT_INITRD."
rm -f -- "$INITRD_CHECKSUM_LOCATION"
rm -f -- "$DEFAULT_INITRD_BAK"
fi
fi
}
kdump: Rebuild default initrd for firmware assisted dump The current kdump infrastructure builds a separate initrd which then gets loaded into memory by kexec-tools for use by kdump kernel. But firmware assisted dump (FADUMP) does not use kexec-based approach. After crash, firmware reboots the partition and loads grub loader like the normal booting process does. Hence in the FADUMP approach, the second kernel (after crash) will always use the default initrd (OS built). So, to support FADUMP, change is required, as in to add dump capturing steps, in this initrd. The current kdumpctl script implementation already has the code to build initrd using mkdumprd. This patch uses the new '--rebuild' option introduced, in dracut, to incrementally build the initramfs image. Before rebuilding, we may need to probe the initrd image for fadump support, to avoid rebuilding the initrd image multiple times unnecessarily. This can be done using "lsinitrd" tool with the newly proposed '--mod' option & inspecting the presence of "kdumpbase" in the list of modules of default initrd image. We rebuild the image if only "kdumpbase" module is missing in the initrd image. Also, before rebuilding, a backup of default initrd image is taken. Kexec-tools package in rhel7 is now enhanced to insert a out-of-tree kdump module for dracut, which is responsible for adding vmcore capture steps into initrd, if dracut is invoked with "IN_KDUMP" environment variable set to 1. mkdumprd script exports "IN_KDUMP=1" environment variable before invoking dracut to build kdump initrd. This patch relies on this current mechanism of kdump init script. Signed-off-by: Mahesh Salgaonkar <mahesh@linux.vnet.ibm.com> Signed-off-by: Hari Bathini <hbathini@linux.vnet.ibm.com> Acked-by: Vivek Goyal <vgoyal@redhat.com>
2014-07-24 18:39:07 +00:00
restore_default_initrd()
{
ddebug "restore default initrd: $DEFAULT_INITRD"
if [[ ! -f $DEFAULT_INITRD ]]; then
return
fi
# If a backup initrd exists, we must be switching back from
# fadump to kdump. Restore the original default initrd.
if [[ -f $DEFAULT_INITRD_BAK ]] && [[ -f $INITRD_CHECKSUM_LOCATION ]]; then
# verify checksum before restoring
backup_checksum=$(sha1sum "$DEFAULT_INITRD_BAK" | awk '{ print $1 }')
default_checksum=$(awk '{ print $1 }' "$INITRD_CHECKSUM_LOCATION")
if [[ $default_checksum != "$backup_checksum" ]]; then
dwarn "WARNING: checksum mismatch! Can't restore original initrd.."
else
rm -f "$INITRD_CHECKSUM_LOCATION"
if mv "$DEFAULT_INITRD_BAK" "$DEFAULT_INITRD"; then
derror "Restoring original initrd as fadump mode is disabled."
sync -f "$DEFAULT_INITRD"
fi
fi
kdump: Rebuild default initrd for firmware assisted dump The current kdump infrastructure builds a separate initrd which then gets loaded into memory by kexec-tools for use by kdump kernel. But firmware assisted dump (FADUMP) does not use kexec-based approach. After crash, firmware reboots the partition and loads grub loader like the normal booting process does. Hence in the FADUMP approach, the second kernel (after crash) will always use the default initrd (OS built). So, to support FADUMP, change is required, as in to add dump capturing steps, in this initrd. The current kdumpctl script implementation already has the code to build initrd using mkdumprd. This patch uses the new '--rebuild' option introduced, in dracut, to incrementally build the initramfs image. Before rebuilding, we may need to probe the initrd image for fadump support, to avoid rebuilding the initrd image multiple times unnecessarily. This can be done using "lsinitrd" tool with the newly proposed '--mod' option & inspecting the presence of "kdumpbase" in the list of modules of default initrd image. We rebuild the image if only "kdumpbase" module is missing in the initrd image. Also, before rebuilding, a backup of default initrd image is taken. Kexec-tools package in rhel7 is now enhanced to insert a out-of-tree kdump module for dracut, which is responsible for adding vmcore capture steps into initrd, if dracut is invoked with "IN_KDUMP" environment variable set to 1. mkdumprd script exports "IN_KDUMP=1" environment variable before invoking dracut to build kdump initrd. This patch relies on this current mechanism of kdump init script. Signed-off-by: Mahesh Salgaonkar <mahesh@linux.vnet.ibm.com> Signed-off-by: Hari Bathini <hbathini@linux.vnet.ibm.com> Acked-by: Vivek Goyal <vgoyal@redhat.com>
2014-07-24 18:39:07 +00:00
fi
}
_set_config()
{
local opt=$1
local val=$2
if [[ -z $val ]]; then
derror "Invalid kdump config value for option '$opt'"
return 1
fi
if [[ -n ${OPT[$opt]} ]]; then
if [[ $opt == _target ]] || [[ $opt == _fstype ]]; then
derror "More than one dump targets specified"
else
derror "Duplicated kdump config value of option $opt"
fi
return 1
fi
OPT[$opt]="$val"
}
parse_config()
{
while read -r config_opt config_val; do
case "$config_opt" in
dracut_args)
if [[ $config_val == *--mount* ]]; then
if [[ $(echo "$config_val" | grep -o -- "--mount" | wc -l) -ne 1 ]]; then
derror 'Multiple mount targets specified in one "dracut_args".'
return 1
fi
_set_config _fstype "$(get_dracut_args_fstype "$config_val")" || return 1
_set_config _target "$(get_dracut_args_target "$config_val")" || return 1
fi
;;
raw)
if [[ -d "/proc/device-tree/ibm,opal/dump" ]]; then
dwarn "WARNING: Won't capture opalcore when 'raw' dump target is used."
fi
_set_config _fstype "$config_opt" || return 1
config_opt=_target
;;
ext[234] | minix | btrfs | xfs | nfs | ssh | virtiofs)
_set_config _fstype "$config_opt" || return 1
config_opt=_target
;;
sshkey)
if [[ -z $config_val ]]; then
derror "Invalid kdump config value for option '$config_opt'"
return 1
elif [[ -f $config_val ]]; then
config_val=$(/usr/bin/readlink -m "$config_val")
else
dwarn "WARNING: '$config_val' doesn't exist, using default value '$DEFAULT_SSHKEY'"
config_val=$DEFAULT_SSHKEY
fi
;;
default)
dwarn "WARNING: Option 'default' was renamed 'failure_action' and will be removed in the future."
dwarn "Please update $KDUMP_CONFIG_FILE to use option 'failure_action' instead."
_set_config failure_action "$config_val" || return 1
;;
path | core_collector | kdump_post | kdump_pre | extra_bins | extra_modules | failure_action | final_action | force_rebuild | force_no_rebuild | fence_kdump_args | fence_kdump_nodes | auto_reset_crashkernel) ;;
net | options | link_delay | disk_timeout | debug_mem_level | blacklist)
derror "Deprecated kdump config option: $config_opt. Refer to kdump.conf manpage for alternatives."
return 1
;;
'')
continue
;;
*)
derror "Invalid kdump config option $config_opt"
return 1
;;
esac
_set_config "$config_opt" "$config_val" || return 1
done <<< "$(kdump_read_conf)"
OPT[path]=${OPT[path]:-$DEFAULT_PATH}
OPT[sshkey]=${OPT[sshkey]:-$DEFAULT_SSHKEY}
check_failure_action_config || return 1
check_final_action_config || return 1
check_fence_kdump_config || return 1
check_ssh_config || return 1
return 0
}
# get_pcs_cluster_modified_files <image timestamp>
# return list of modified file for fence_kdump modified in Pacemaker cluster
get_pcs_cluster_modified_files()
{
local time_stamp
local modified_files
local image_time
is_generic_fence_kdump && return 1
is_pcs_fence_kdump || return 1
image_time=$1
time_stamp=$(pcs cluster cib | xmllint --xpath 'string(/cib/@cib-last-written)' - | xargs -0 date +%s --date)
if [[ -n $time_stamp ]] && [[ $time_stamp -gt $image_time ]]; then
modified_files="cluster-cib"
fi
if [[ -f $FENCE_KDUMP_CONFIG_FILE ]]; then
time_stamp=$(stat -c "%Y" "$FENCE_KDUMP_CONFIG_FILE")
if [[ $time_stamp -gt $image_time ]]; then
modified_files="$modified_files $FENCE_KDUMP_CONFIG_FILE"
fi
fi
echo "$modified_files"
}
setup_initrd()
kdump: Rebuild default initrd for firmware assisted dump The current kdump infrastructure builds a separate initrd which then gets loaded into memory by kexec-tools for use by kdump kernel. But firmware assisted dump (FADUMP) does not use kexec-based approach. After crash, firmware reboots the partition and loads grub loader like the normal booting process does. Hence in the FADUMP approach, the second kernel (after crash) will always use the default initrd (OS built). So, to support FADUMP, change is required, as in to add dump capturing steps, in this initrd. The current kdumpctl script implementation already has the code to build initrd using mkdumprd. This patch uses the new '--rebuild' option introduced, in dracut, to incrementally build the initramfs image. Before rebuilding, we may need to probe the initrd image for fadump support, to avoid rebuilding the initrd image multiple times unnecessarily. This can be done using "lsinitrd" tool with the newly proposed '--mod' option & inspecting the presence of "kdumpbase" in the list of modules of default initrd image. We rebuild the image if only "kdumpbase" module is missing in the initrd image. Also, before rebuilding, a backup of default initrd image is taken. Kexec-tools package in rhel7 is now enhanced to insert a out-of-tree kdump module for dracut, which is responsible for adding vmcore capture steps into initrd, if dracut is invoked with "IN_KDUMP" environment variable set to 1. mkdumprd script exports "IN_KDUMP=1" environment variable before invoking dracut to build kdump initrd. This patch relies on this current mechanism of kdump init script. Signed-off-by: Mahesh Salgaonkar <mahesh@linux.vnet.ibm.com> Signed-off-by: Hari Bathini <hbathini@linux.vnet.ibm.com> Acked-by: Vivek Goyal <vgoyal@redhat.com>
2014-07-24 18:39:07 +00:00
{
if ! prepare_kdump_bootinfo; then
derror "failed to prepare for kdump bootinfo."
return 1
fi
DEFAULT_INITRD_BAK="$KDUMP_BOOTDIR/.$(basename "$DEFAULT_INITRD").default"
INITRD_CHECKSUM_LOCATION="$DEFAULT_INITRD_BAK.checksum"
if [[ $DEFAULT_DUMP_MODE == "fadump" ]]; then
TARGET_INITRD="$DEFAULT_INITRD"
# backup initrd for reference before replacing it
# with fadump aware initrd
backup_default_initrd
kdump: Rebuild default initrd for firmware assisted dump The current kdump infrastructure builds a separate initrd which then gets loaded into memory by kexec-tools for use by kdump kernel. But firmware assisted dump (FADUMP) does not use kexec-based approach. After crash, firmware reboots the partition and loads grub loader like the normal booting process does. Hence in the FADUMP approach, the second kernel (after crash) will always use the default initrd (OS built). So, to support FADUMP, change is required, as in to add dump capturing steps, in this initrd. The current kdumpctl script implementation already has the code to build initrd using mkdumprd. This patch uses the new '--rebuild' option introduced, in dracut, to incrementally build the initramfs image. Before rebuilding, we may need to probe the initrd image for fadump support, to avoid rebuilding the initrd image multiple times unnecessarily. This can be done using "lsinitrd" tool with the newly proposed '--mod' option & inspecting the presence of "kdumpbase" in the list of modules of default initrd image. We rebuild the image if only "kdumpbase" module is missing in the initrd image. Also, before rebuilding, a backup of default initrd image is taken. Kexec-tools package in rhel7 is now enhanced to insert a out-of-tree kdump module for dracut, which is responsible for adding vmcore capture steps into initrd, if dracut is invoked with "IN_KDUMP" environment variable set to 1. mkdumprd script exports "IN_KDUMP=1" environment variable before invoking dracut to build kdump initrd. This patch relies on this current mechanism of kdump init script. Signed-off-by: Mahesh Salgaonkar <mahesh@linux.vnet.ibm.com> Signed-off-by: Hari Bathini <hbathini@linux.vnet.ibm.com> Acked-by: Vivek Goyal <vgoyal@redhat.com>
2014-07-24 18:39:07 +00:00
else
TARGET_INITRD="$KDUMP_INITRD"
# check if a backup of default initrd exists. If yes,
# it signifies a switch from fadump mode. So, restore
# the backed up default initrd.
restore_default_initrd
kdump: Rebuild default initrd for firmware assisted dump The current kdump infrastructure builds a separate initrd which then gets loaded into memory by kexec-tools for use by kdump kernel. But firmware assisted dump (FADUMP) does not use kexec-based approach. After crash, firmware reboots the partition and loads grub loader like the normal booting process does. Hence in the FADUMP approach, the second kernel (after crash) will always use the default initrd (OS built). So, to support FADUMP, change is required, as in to add dump capturing steps, in this initrd. The current kdumpctl script implementation already has the code to build initrd using mkdumprd. This patch uses the new '--rebuild' option introduced, in dracut, to incrementally build the initramfs image. Before rebuilding, we may need to probe the initrd image for fadump support, to avoid rebuilding the initrd image multiple times unnecessarily. This can be done using "lsinitrd" tool with the newly proposed '--mod' option & inspecting the presence of "kdumpbase" in the list of modules of default initrd image. We rebuild the image if only "kdumpbase" module is missing in the initrd image. Also, before rebuilding, a backup of default initrd image is taken. Kexec-tools package in rhel7 is now enhanced to insert a out-of-tree kdump module for dracut, which is responsible for adding vmcore capture steps into initrd, if dracut is invoked with "IN_KDUMP" environment variable set to 1. mkdumprd script exports "IN_KDUMP=1" environment variable before invoking dracut to build kdump initrd. This patch relies on this current mechanism of kdump init script. Signed-off-by: Mahesh Salgaonkar <mahesh@linux.vnet.ibm.com> Signed-off-by: Hari Bathini <hbathini@linux.vnet.ibm.com> Acked-by: Vivek Goyal <vgoyal@redhat.com>
2014-07-24 18:39:07 +00:00
fi
}
check_files_modified()
{
local modified_files=""
local image_time
image_time=$(stat -c "%Y" "$TARGET_INITRD" 2> /dev/null)
#also rebuild when Pacemaker cluster conf is changed and fence kdump is enabled.
modified_files=$(get_pcs_cluster_modified_files "$image_time")
EXTRA_BINS=${OPT[kdump_post]}
CHECK_FILES=${OPT[kdump_pre]}
HOOKS="/etc/kdump/post.d/ /etc/kdump/pre.d/"
if [[ -d /etc/kdump/post.d ]]; then
for file in /etc/kdump/post.d/*; do
if [[ -x $file ]]; then
POST_FILES="$POST_FILES $file"
fi
done
fi
if [[ -d /etc/kdump/pre.d ]]; then
for file in /etc/kdump/pre.d/*; do
if [[ -x $file ]]; then
PRE_FILES="$PRE_FILES $file"
fi
done
fi
HOOKS="$HOOKS $POST_FILES $PRE_FILES"
CORE_COLLECTOR=$(echo "${OPT[core_collector]}" | awk '{print $1}')
CORE_COLLECTOR=$(type -P "$CORE_COLLECTOR")
# POST_FILES and PRE_FILES are already checked against executable, need not to check again.
EXTRA_BINS="$EXTRA_BINS $CHECK_FILES"
CHECK_FILES=${OPT[extra_bins]}
EXTRA_BINS="$EXTRA_BINS $CHECK_FILES"
files="$KDUMP_CONFIG_FILE $KDUMP_KERNEL $EXTRA_BINS $CORE_COLLECTOR"
[[ -e /etc/fstab ]] && files="$files /etc/fstab"
# Check for any updated extra module
EXTRA_MODULES="${OPT[extra_modules]}"
if [[ -n $EXTRA_MODULES ]]; then
if [[ -e /lib/modules/$KDUMP_KERNELVER/modules.dep ]]; then
files="$files /lib/modules/$KDUMP_KERNELVER/modules.dep"
fi
for _module in $EXTRA_MODULES; do
if _module_file="$(modinfo --set-version "$KDUMP_KERNELVER" --filename "$_module" 2> /dev/null)"; then
files="$files $_module_file"
for _dep_modules in $(modinfo -F depends "$_module" | tr ',' ' '); do
files="$files $(modinfo --set-version "$KDUMP_KERNELVER" --filename "$_dep_modules" 2> /dev/null)"
done
else
# If it's not a module nor builtin, give an error
if ! (modprobe --set-version "$KDUMP_KERNELVER" --dry-run "$_module" &> /dev/null); then
dwarn "Module $_module not found"
fi
fi
done
fi
# HOOKS is mandatory and need to check the modification time
files="$files $HOOKS"
is_lvm2_thinp_dump_target && files="$files $LVM_CONF"
check_exist "$files" && check_executable "$EXTRA_BINS" || return 2
for file in $files; do
if [[ -e $file ]]; then
time_stamp=$(stat -c "%Y" "$file")
if [[ $time_stamp -gt $image_time ]]; then
modified_files="$modified_files $file"
fi
if [[ -L $file ]]; then
file=$(readlink -m "$file")
time_stamp=$(stat -c "%Y" "$file")
if [[ $time_stamp -gt $image_time ]]; then
modified_files="$modified_files $file"
fi
fi
else
dwarn "$file doesn't exist"
fi
done
if [[ -n $modified_files ]]; then
dinfo "Detected change(s) in the following file(s): $modified_files"
return 1
fi
return 0
}
check_drivers_modified()
kdumpctl: force rebuild in case of file system is modified kdumpctl passes --device argument if dump target is a raw device. It passes --mount argument if dump target is either mounted as nfs or as a bulk device. When dump target device is a root device then it does not pass any of the above two arguments. After kdumpctl restart, if there is any change in file system which needs different dracut arguments, then initramfs must be rebuild. Modification in filesystem for a raw target does not affect dracut arguments. So, we do not consider to check any modification if raw target was specified in kdump.conf. We might need to change dracut arguments if there is some changes in nfs and ssh target related files. However, we do not consider them in this patch. We mainly consider changes in bulk target specified in kdump.conf. We also consider changes in bulk and nfs file system, if there was no dump target specified in kdump.conf but dump path is mounting such file systems. So the initramfs must be rebuild if, either dump target's persistent path or it's mount point or its file system type changes. If there is no dump target specified then, both dump path and root path must mount same device, otherwise rebuild should be triggered. Some of the examples when we can need a rebuild: -- "dump target" is specified as one of ext[234], xfs or btrfs. But after kdump initramfs building its UUID is changed by reformatting. -- "dump target" is specified as file system type fs1 (say ext3). But after kdump initramfs building, user change it to fs2 (say ext4), probably by a mkfs.ext4 executing on the target device. -- "dump target" is not specified, but "dump path" mounts a device which is different than device for root path and either UUID or file system type is modified after kdump initramfs build. -- "dump target" is not specified, but "dump path" mounts a nfs device and nfs host path changes after kdump initramfs build. Some testing: Initial conditions: -- No dump target specified -- dump path (/var/crash) and root(/) are on same device -- kdumpctl was already executed once after last modification in /etc/kdump.conf # kdumpctl restart No rebuild # mkfs.ext2 /dev/md0;mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/md0; # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/mapper/fedora-swap # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.btrfs /dev/mapper/fedora-swap -f # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount /dev/mapper/fedora-swap /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.minix /dev/md0 # mount /dev/md0 /var/crash/; kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash;mount 192.168.1.12:/nfsroot /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" Added "raw /dev/md0" in /etc/kdump.conf # kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # mkfs.ext4 /dev/md0 ;kdumpctl restart No rebuild Added "ext4 /dev/md0" in /etc/kdump.conf # mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # umount /mnt;mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" Most of the credits for this patch goes to Xunlei Pang <xpang@redhat.com> for suggesting several improvements. Signed-off-by: Pratyush Anand <panand@redhat.com> Acked-by: Xunlei Pang <xlpang@redhat.com> Acked-by: Baoquan He <xlpang@redhat.com> Acked-by: Dave Young <dyoung@redhat.com>
2016-05-09 08:17:55 +00:00
{
local _target _new_drivers _old_drivers _module_name _module_filename
kdumpctl: force rebuild in case of file system is modified kdumpctl passes --device argument if dump target is a raw device. It passes --mount argument if dump target is either mounted as nfs or as a bulk device. When dump target device is a root device then it does not pass any of the above two arguments. After kdumpctl restart, if there is any change in file system which needs different dracut arguments, then initramfs must be rebuild. Modification in filesystem for a raw target does not affect dracut arguments. So, we do not consider to check any modification if raw target was specified in kdump.conf. We might need to change dracut arguments if there is some changes in nfs and ssh target related files. However, we do not consider them in this patch. We mainly consider changes in bulk target specified in kdump.conf. We also consider changes in bulk and nfs file system, if there was no dump target specified in kdump.conf but dump path is mounting such file systems. So the initramfs must be rebuild if, either dump target's persistent path or it's mount point or its file system type changes. If there is no dump target specified then, both dump path and root path must mount same device, otherwise rebuild should be triggered. Some of the examples when we can need a rebuild: -- "dump target" is specified as one of ext[234], xfs or btrfs. But after kdump initramfs building its UUID is changed by reformatting. -- "dump target" is specified as file system type fs1 (say ext3). But after kdump initramfs building, user change it to fs2 (say ext4), probably by a mkfs.ext4 executing on the target device. -- "dump target" is not specified, but "dump path" mounts a device which is different than device for root path and either UUID or file system type is modified after kdump initramfs build. -- "dump target" is not specified, but "dump path" mounts a nfs device and nfs host path changes after kdump initramfs build. Some testing: Initial conditions: -- No dump target specified -- dump path (/var/crash) and root(/) are on same device -- kdumpctl was already executed once after last modification in /etc/kdump.conf # kdumpctl restart No rebuild # mkfs.ext2 /dev/md0;mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/md0; # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/mapper/fedora-swap # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.btrfs /dev/mapper/fedora-swap -f # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount /dev/mapper/fedora-swap /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.minix /dev/md0 # mount /dev/md0 /var/crash/; kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash;mount 192.168.1.12:/nfsroot /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" Added "raw /dev/md0" in /etc/kdump.conf # kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # mkfs.ext4 /dev/md0 ;kdumpctl restart No rebuild Added "ext4 /dev/md0" in /etc/kdump.conf # mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # umount /mnt;mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" Most of the credits for this patch goes to Xunlei Pang <xpang@redhat.com> for suggesting several improvements. Signed-off-by: Pratyush Anand <panand@redhat.com> Acked-by: Xunlei Pang <xlpang@redhat.com> Acked-by: Baoquan He <xlpang@redhat.com> Acked-by: Dave Young <dyoung@redhat.com>
2016-05-09 08:17:55 +00:00
# If it's dump target is on block device, detect the block driver
_target=$(get_block_dump_target)
if [[ -n $_target ]]; then
# shellcheck disable=SC2317
_record_block_drivers()
{
local _drivers
_drivers=$(udevadm info -a "/dev/block/$1" | sed -n 's/\s*DRIVERS=="\(\S\+\)"/\1/p')
for _driver in $_drivers; do
if ! [[ " $_new_drivers " == *" $_driver "* ]]; then
_new_drivers="$_new_drivers $_driver"
fi
done
kdumpctl: force rebuild in case of file system is modified kdumpctl passes --device argument if dump target is a raw device. It passes --mount argument if dump target is either mounted as nfs or as a bulk device. When dump target device is a root device then it does not pass any of the above two arguments. After kdumpctl restart, if there is any change in file system which needs different dracut arguments, then initramfs must be rebuild. Modification in filesystem for a raw target does not affect dracut arguments. So, we do not consider to check any modification if raw target was specified in kdump.conf. We might need to change dracut arguments if there is some changes in nfs and ssh target related files. However, we do not consider them in this patch. We mainly consider changes in bulk target specified in kdump.conf. We also consider changes in bulk and nfs file system, if there was no dump target specified in kdump.conf but dump path is mounting such file systems. So the initramfs must be rebuild if, either dump target's persistent path or it's mount point or its file system type changes. If there is no dump target specified then, both dump path and root path must mount same device, otherwise rebuild should be triggered. Some of the examples when we can need a rebuild: -- "dump target" is specified as one of ext[234], xfs or btrfs. But after kdump initramfs building its UUID is changed by reformatting. -- "dump target" is specified as file system type fs1 (say ext3). But after kdump initramfs building, user change it to fs2 (say ext4), probably by a mkfs.ext4 executing on the target device. -- "dump target" is not specified, but "dump path" mounts a device which is different than device for root path and either UUID or file system type is modified after kdump initramfs build. -- "dump target" is not specified, but "dump path" mounts a nfs device and nfs host path changes after kdump initramfs build. Some testing: Initial conditions: -- No dump target specified -- dump path (/var/crash) and root(/) are on same device -- kdumpctl was already executed once after last modification in /etc/kdump.conf # kdumpctl restart No rebuild # mkfs.ext2 /dev/md0;mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/md0; # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/mapper/fedora-swap # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.btrfs /dev/mapper/fedora-swap -f # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount /dev/mapper/fedora-swap /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.minix /dev/md0 # mount /dev/md0 /var/crash/; kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash;mount 192.168.1.12:/nfsroot /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" Added "raw /dev/md0" in /etc/kdump.conf # kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # mkfs.ext4 /dev/md0 ;kdumpctl restart No rebuild Added "ext4 /dev/md0" in /etc/kdump.conf # mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # umount /mnt;mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" Most of the credits for this patch goes to Xunlei Pang <xpang@redhat.com> for suggesting several improvements. Signed-off-by: Pratyush Anand <panand@redhat.com> Acked-by: Xunlei Pang <xlpang@redhat.com> Acked-by: Baoquan He <xlpang@redhat.com> Acked-by: Dave Young <dyoung@redhat.com>
2016-05-09 08:17:55 +00:00
ddebug "MAJ:MIN=$1 drivers='$_drivers'"
}
check_block_and_slaves_all _record_block_drivers "$(get_maj_min "$_target")"
fi
# Include watchdog drivers if watchdog module is not omitted
is_dracut_mod_omitted watchdog || _new_drivers+=" $(get_watchdog_drvs)"
[[ -z $_new_drivers ]] && return 0
if is_fadump_capable; then
_old_drivers="$(lsinitrd "$TARGET_INITRD" -f /usr/lib/dracut/fadump-kernel-modules.txt | tr '\n' ' ')"
else
_old_drivers="$(lsinitrd "$TARGET_INITRD" -f /usr/lib/dracut/hostonly-kernel-modules.txt | tr '\n' ' ')"
fi
ddebug "Modules required for kdump: '$_new_drivers'"
ddebug "Modules included in old initramfs: '$_old_drivers'"
for _driver in $_new_drivers; do
# Skip deprecated/invalid driver name or built-in module
_module_name=$(modinfo --set-version "$KDUMP_KERNELVER" -F name "$_driver" 2> /dev/null)
_module_filename=$(modinfo --set-version "$KDUMP_KERNELVER" -n "$_driver" 2> /dev/null)
if [[ -z $_module_name ]] || [[ -z $_module_filename ]] || [[ $_module_filename == *"(builtin)"* ]]; then
continue
fi
if ! [[ " $_old_drivers " == *" $_module_name "* ]]; then
dinfo "Detected change in block device driver, new loaded module: $_module_name"
return 1
fi
done
}
check_fs_modified()
{
local _old_dev _old_mntpoint _old_fstype
local _new_dev _new_mntpoint _new_fstype
local _target _dracut_args
# No need to check in case of mount target specified via "dracut_args".
if is_mount_in_dracut_args; then
return 0
fi
# No need to check in case of raw target.
# Currently we do not check also if ssh/nfs/virtiofs/thinp target is specified
if is_ssh_dump_target || is_nfs_dump_target || is_raw_dump_target ||
is_virtiofs_dump_target || is_lvm2_thinp_dump_target; then
return 0
fi
_target=$(get_block_dump_target)
_new_fstype=$(get_fs_type_from_target "$_target")
if [[ -z $_target ]] || [[ -z $_new_fstype ]]; then
derror "Dump target is invalid"
return 2
fi
ddebug "_target=$_target _new_fstype=$_new_fstype"
_new_dev=$(kdump_get_persistent_dev "$_target")
if [[ -z $_new_dev ]]; then
perror "Get persistent device name failed"
return 2
kdumpctl: force rebuild in case of file system is modified kdumpctl passes --device argument if dump target is a raw device. It passes --mount argument if dump target is either mounted as nfs or as a bulk device. When dump target device is a root device then it does not pass any of the above two arguments. After kdumpctl restart, if there is any change in file system which needs different dracut arguments, then initramfs must be rebuild. Modification in filesystem for a raw target does not affect dracut arguments. So, we do not consider to check any modification if raw target was specified in kdump.conf. We might need to change dracut arguments if there is some changes in nfs and ssh target related files. However, we do not consider them in this patch. We mainly consider changes in bulk target specified in kdump.conf. We also consider changes in bulk and nfs file system, if there was no dump target specified in kdump.conf but dump path is mounting such file systems. So the initramfs must be rebuild if, either dump target's persistent path or it's mount point or its file system type changes. If there is no dump target specified then, both dump path and root path must mount same device, otherwise rebuild should be triggered. Some of the examples when we can need a rebuild: -- "dump target" is specified as one of ext[234], xfs or btrfs. But after kdump initramfs building its UUID is changed by reformatting. -- "dump target" is specified as file system type fs1 (say ext3). But after kdump initramfs building, user change it to fs2 (say ext4), probably by a mkfs.ext4 executing on the target device. -- "dump target" is not specified, but "dump path" mounts a device which is different than device for root path and either UUID or file system type is modified after kdump initramfs build. -- "dump target" is not specified, but "dump path" mounts a nfs device and nfs host path changes after kdump initramfs build. Some testing: Initial conditions: -- No dump target specified -- dump path (/var/crash) and root(/) are on same device -- kdumpctl was already executed once after last modification in /etc/kdump.conf # kdumpctl restart No rebuild # mkfs.ext2 /dev/md0;mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/md0; # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/mapper/fedora-swap # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.btrfs /dev/mapper/fedora-swap -f # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount /dev/mapper/fedora-swap /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.minix /dev/md0 # mount /dev/md0 /var/crash/; kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash;mount 192.168.1.12:/nfsroot /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" Added "raw /dev/md0" in /etc/kdump.conf # kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # mkfs.ext4 /dev/md0 ;kdumpctl restart No rebuild Added "ext4 /dev/md0" in /etc/kdump.conf # mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # umount /mnt;mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" Most of the credits for this patch goes to Xunlei Pang <xpang@redhat.com> for suggesting several improvements. Signed-off-by: Pratyush Anand <panand@redhat.com> Acked-by: Xunlei Pang <xlpang@redhat.com> Acked-by: Baoquan He <xlpang@redhat.com> Acked-by: Dave Young <dyoung@redhat.com>
2016-05-09 08:17:55 +00:00
fi
_new_mntpoint="$(get_kdump_mntpoint_from_target "$_target")"
_dracut_args=$(lsinitrd "$TARGET_INITRD" -f usr/lib/dracut/build-parameter.txt)
if [[ -z $_dracut_args ]]; then
dwarn "Warning: No dracut arguments found in initrd"
kdumpctl: force rebuild in case of file system is modified kdumpctl passes --device argument if dump target is a raw device. It passes --mount argument if dump target is either mounted as nfs or as a bulk device. When dump target device is a root device then it does not pass any of the above two arguments. After kdumpctl restart, if there is any change in file system which needs different dracut arguments, then initramfs must be rebuild. Modification in filesystem for a raw target does not affect dracut arguments. So, we do not consider to check any modification if raw target was specified in kdump.conf. We might need to change dracut arguments if there is some changes in nfs and ssh target related files. However, we do not consider them in this patch. We mainly consider changes in bulk target specified in kdump.conf. We also consider changes in bulk and nfs file system, if there was no dump target specified in kdump.conf but dump path is mounting such file systems. So the initramfs must be rebuild if, either dump target's persistent path or it's mount point or its file system type changes. If there is no dump target specified then, both dump path and root path must mount same device, otherwise rebuild should be triggered. Some of the examples when we can need a rebuild: -- "dump target" is specified as one of ext[234], xfs or btrfs. But after kdump initramfs building its UUID is changed by reformatting. -- "dump target" is specified as file system type fs1 (say ext3). But after kdump initramfs building, user change it to fs2 (say ext4), probably by a mkfs.ext4 executing on the target device. -- "dump target" is not specified, but "dump path" mounts a device which is different than device for root path and either UUID or file system type is modified after kdump initramfs build. -- "dump target" is not specified, but "dump path" mounts a nfs device and nfs host path changes after kdump initramfs build. Some testing: Initial conditions: -- No dump target specified -- dump path (/var/crash) and root(/) are on same device -- kdumpctl was already executed once after last modification in /etc/kdump.conf # kdumpctl restart No rebuild # mkfs.ext2 /dev/md0;mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/md0; # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/mapper/fedora-swap # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.btrfs /dev/mapper/fedora-swap -f # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount /dev/mapper/fedora-swap /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.minix /dev/md0 # mount /dev/md0 /var/crash/; kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash;mount 192.168.1.12:/nfsroot /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" Added "raw /dev/md0" in /etc/kdump.conf # kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # mkfs.ext4 /dev/md0 ;kdumpctl restart No rebuild Added "ext4 /dev/md0" in /etc/kdump.conf # mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # umount /mnt;mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" Most of the credits for this patch goes to Xunlei Pang <xpang@redhat.com> for suggesting several improvements. Signed-off-by: Pratyush Anand <panand@redhat.com> Acked-by: Xunlei Pang <xlpang@redhat.com> Acked-by: Baoquan He <xlpang@redhat.com> Acked-by: Dave Young <dyoung@redhat.com>
2016-05-09 08:17:55 +00:00
return 0
fi
# if --mount argument present then match old and new target, mount
# point and file system. If any of them mismatches then rebuild
if echo "$_dracut_args" | grep -q -- "--mount"; then
# shellcheck disable=SC2046
set -- $(echo "$_dracut_args" | awk -F "--mount '" '{print $2}' | cut -d' ' -f1,2,3)
kdumpctl: force rebuild in case of file system is modified kdumpctl passes --device argument if dump target is a raw device. It passes --mount argument if dump target is either mounted as nfs or as a bulk device. When dump target device is a root device then it does not pass any of the above two arguments. After kdumpctl restart, if there is any change in file system which needs different dracut arguments, then initramfs must be rebuild. Modification in filesystem for a raw target does not affect dracut arguments. So, we do not consider to check any modification if raw target was specified in kdump.conf. We might need to change dracut arguments if there is some changes in nfs and ssh target related files. However, we do not consider them in this patch. We mainly consider changes in bulk target specified in kdump.conf. We also consider changes in bulk and nfs file system, if there was no dump target specified in kdump.conf but dump path is mounting such file systems. So the initramfs must be rebuild if, either dump target's persistent path or it's mount point or its file system type changes. If there is no dump target specified then, both dump path and root path must mount same device, otherwise rebuild should be triggered. Some of the examples when we can need a rebuild: -- "dump target" is specified as one of ext[234], xfs or btrfs. But after kdump initramfs building its UUID is changed by reformatting. -- "dump target" is specified as file system type fs1 (say ext3). But after kdump initramfs building, user change it to fs2 (say ext4), probably by a mkfs.ext4 executing on the target device. -- "dump target" is not specified, but "dump path" mounts a device which is different than device for root path and either UUID or file system type is modified after kdump initramfs build. -- "dump target" is not specified, but "dump path" mounts a nfs device and nfs host path changes after kdump initramfs build. Some testing: Initial conditions: -- No dump target specified -- dump path (/var/crash) and root(/) are on same device -- kdumpctl was already executed once after last modification in /etc/kdump.conf # kdumpctl restart No rebuild # mkfs.ext2 /dev/md0;mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/md0; # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/mapper/fedora-swap # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.btrfs /dev/mapper/fedora-swap -f # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount /dev/mapper/fedora-swap /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.minix /dev/md0 # mount /dev/md0 /var/crash/; kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash;mount 192.168.1.12:/nfsroot /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" Added "raw /dev/md0" in /etc/kdump.conf # kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # mkfs.ext4 /dev/md0 ;kdumpctl restart No rebuild Added "ext4 /dev/md0" in /etc/kdump.conf # mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # umount /mnt;mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" Most of the credits for this patch goes to Xunlei Pang <xpang@redhat.com> for suggesting several improvements. Signed-off-by: Pratyush Anand <panand@redhat.com> Acked-by: Xunlei Pang <xlpang@redhat.com> Acked-by: Baoquan He <xlpang@redhat.com> Acked-by: Dave Young <dyoung@redhat.com>
2016-05-09 08:17:55 +00:00
_old_dev=$1
_old_mntpoint=$2
_old_fstype=$3
[[ $_new_dev == "$_old_dev" && $_new_mntpoint == "$_old_mntpoint" && $_new_fstype == "$_old_fstype" ]] && return 0
kdumpctl: force rebuild in case of file system is modified kdumpctl passes --device argument if dump target is a raw device. It passes --mount argument if dump target is either mounted as nfs or as a bulk device. When dump target device is a root device then it does not pass any of the above two arguments. After kdumpctl restart, if there is any change in file system which needs different dracut arguments, then initramfs must be rebuild. Modification in filesystem for a raw target does not affect dracut arguments. So, we do not consider to check any modification if raw target was specified in kdump.conf. We might need to change dracut arguments if there is some changes in nfs and ssh target related files. However, we do not consider them in this patch. We mainly consider changes in bulk target specified in kdump.conf. We also consider changes in bulk and nfs file system, if there was no dump target specified in kdump.conf but dump path is mounting such file systems. So the initramfs must be rebuild if, either dump target's persistent path or it's mount point or its file system type changes. If there is no dump target specified then, both dump path and root path must mount same device, otherwise rebuild should be triggered. Some of the examples when we can need a rebuild: -- "dump target" is specified as one of ext[234], xfs or btrfs. But after kdump initramfs building its UUID is changed by reformatting. -- "dump target" is specified as file system type fs1 (say ext3). But after kdump initramfs building, user change it to fs2 (say ext4), probably by a mkfs.ext4 executing on the target device. -- "dump target" is not specified, but "dump path" mounts a device which is different than device for root path and either UUID or file system type is modified after kdump initramfs build. -- "dump target" is not specified, but "dump path" mounts a nfs device and nfs host path changes after kdump initramfs build. Some testing: Initial conditions: -- No dump target specified -- dump path (/var/crash) and root(/) are on same device -- kdumpctl was already executed once after last modification in /etc/kdump.conf # kdumpctl restart No rebuild # mkfs.ext2 /dev/md0;mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/md0; # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/mapper/fedora-swap # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.btrfs /dev/mapper/fedora-swap -f # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount /dev/mapper/fedora-swap /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.minix /dev/md0 # mount /dev/md0 /var/crash/; kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash;mount 192.168.1.12:/nfsroot /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" Added "raw /dev/md0" in /etc/kdump.conf # kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # mkfs.ext4 /dev/md0 ;kdumpctl restart No rebuild Added "ext4 /dev/md0" in /etc/kdump.conf # mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # umount /mnt;mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" Most of the credits for this patch goes to Xunlei Pang <xpang@redhat.com> for suggesting several improvements. Signed-off-by: Pratyush Anand <panand@redhat.com> Acked-by: Xunlei Pang <xlpang@redhat.com> Acked-by: Baoquan He <xlpang@redhat.com> Acked-by: Dave Young <dyoung@redhat.com>
2016-05-09 08:17:55 +00:00
# otherwise rebuild if target device is not a root device
else
[[ $_target == "$(get_root_fs_device)" ]] && return 0
kdumpctl: force rebuild in case of file system is modified kdumpctl passes --device argument if dump target is a raw device. It passes --mount argument if dump target is either mounted as nfs or as a bulk device. When dump target device is a root device then it does not pass any of the above two arguments. After kdumpctl restart, if there is any change in file system which needs different dracut arguments, then initramfs must be rebuild. Modification in filesystem for a raw target does not affect dracut arguments. So, we do not consider to check any modification if raw target was specified in kdump.conf. We might need to change dracut arguments if there is some changes in nfs and ssh target related files. However, we do not consider them in this patch. We mainly consider changes in bulk target specified in kdump.conf. We also consider changes in bulk and nfs file system, if there was no dump target specified in kdump.conf but dump path is mounting such file systems. So the initramfs must be rebuild if, either dump target's persistent path or it's mount point or its file system type changes. If there is no dump target specified then, both dump path and root path must mount same device, otherwise rebuild should be triggered. Some of the examples when we can need a rebuild: -- "dump target" is specified as one of ext[234], xfs or btrfs. But after kdump initramfs building its UUID is changed by reformatting. -- "dump target" is specified as file system type fs1 (say ext3). But after kdump initramfs building, user change it to fs2 (say ext4), probably by a mkfs.ext4 executing on the target device. -- "dump target" is not specified, but "dump path" mounts a device which is different than device for root path and either UUID or file system type is modified after kdump initramfs build. -- "dump target" is not specified, but "dump path" mounts a nfs device and nfs host path changes after kdump initramfs build. Some testing: Initial conditions: -- No dump target specified -- dump path (/var/crash) and root(/) are on same device -- kdumpctl was already executed once after last modification in /etc/kdump.conf # kdumpctl restart No rebuild # mkfs.ext2 /dev/md0;mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/md0; # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/mapper/fedora-swap # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.btrfs /dev/mapper/fedora-swap -f # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount /dev/mapper/fedora-swap /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.minix /dev/md0 # mount /dev/md0 /var/crash/; kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash;mount 192.168.1.12:/nfsroot /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" Added "raw /dev/md0" in /etc/kdump.conf # kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # mkfs.ext4 /dev/md0 ;kdumpctl restart No rebuild Added "ext4 /dev/md0" in /etc/kdump.conf # mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # umount /mnt;mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" Most of the credits for this patch goes to Xunlei Pang <xpang@redhat.com> for suggesting several improvements. Signed-off-by: Pratyush Anand <panand@redhat.com> Acked-by: Xunlei Pang <xlpang@redhat.com> Acked-by: Baoquan He <xlpang@redhat.com> Acked-by: Dave Young <dyoung@redhat.com>
2016-05-09 08:17:55 +00:00
fi
dinfo "Detected change in File System"
kdumpctl: force rebuild in case of file system is modified kdumpctl passes --device argument if dump target is a raw device. It passes --mount argument if dump target is either mounted as nfs or as a bulk device. When dump target device is a root device then it does not pass any of the above two arguments. After kdumpctl restart, if there is any change in file system which needs different dracut arguments, then initramfs must be rebuild. Modification in filesystem for a raw target does not affect dracut arguments. So, we do not consider to check any modification if raw target was specified in kdump.conf. We might need to change dracut arguments if there is some changes in nfs and ssh target related files. However, we do not consider them in this patch. We mainly consider changes in bulk target specified in kdump.conf. We also consider changes in bulk and nfs file system, if there was no dump target specified in kdump.conf but dump path is mounting such file systems. So the initramfs must be rebuild if, either dump target's persistent path or it's mount point or its file system type changes. If there is no dump target specified then, both dump path and root path must mount same device, otherwise rebuild should be triggered. Some of the examples when we can need a rebuild: -- "dump target" is specified as one of ext[234], xfs or btrfs. But after kdump initramfs building its UUID is changed by reformatting. -- "dump target" is specified as file system type fs1 (say ext3). But after kdump initramfs building, user change it to fs2 (say ext4), probably by a mkfs.ext4 executing on the target device. -- "dump target" is not specified, but "dump path" mounts a device which is different than device for root path and either UUID or file system type is modified after kdump initramfs build. -- "dump target" is not specified, but "dump path" mounts a nfs device and nfs host path changes after kdump initramfs build. Some testing: Initial conditions: -- No dump target specified -- dump path (/var/crash) and root(/) are on same device -- kdumpctl was already executed once after last modification in /etc/kdump.conf # kdumpctl restart No rebuild # mkfs.ext2 /dev/md0;mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/md0; # mount /dev/md0 /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.ext4 /dev/mapper/fedora-swap # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.btrfs /dev/mapper/fedora-swap -f # mount /dev/mapper/fedora-swap /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount /dev/mapper/fedora-swap /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash;mkfs.minix /dev/md0 # mount /dev/md0 /var/crash/; kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # mount 192.168.1.16:/nfsroot /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" # kdumpctl restart No rebuild # umount /var/crash;mount 192.168.1.12:/nfsroot /var/crash/ # kdumpctl restart Rebuilt because "Detected change in File System" # umount /var/crash/;kdumpctl restart Rebuilt because "Detected change in File System" Added "raw /dev/md0" in /etc/kdump.conf # kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # mkfs.ext4 /dev/md0 ;kdumpctl restart No rebuild Added "ext4 /dev/md0" in /etc/kdump.conf # mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" # umount /mnt;mkfs.ext4 /dev/md0;mount /dev/md0 /mnt # mkdir /mnt/var;mkdir /mnt/var/crash; kdumpctl restart Rebuilt because "Detected change in /etc/kdump.conf" Most of the credits for this patch goes to Xunlei Pang <xpang@redhat.com> for suggesting several improvements. Signed-off-by: Pratyush Anand <panand@redhat.com> Acked-by: Xunlei Pang <xlpang@redhat.com> Acked-by: Baoquan He <xlpang@redhat.com> Acked-by: Dave Young <dyoung@redhat.com>
2016-05-09 08:17:55 +00:00
return 1
}
# returns 0 if system is not modified
# returns 1 if system is modified
# returns 2 if an error occurred
is_system_modified()
{
local ret
[[ -f $TARGET_INITRD ]] || return 1
# in case of fadump mode, check whether the default/target initrd is
# already built with dump capture capability
if [[ $DEFAULT_DUMP_MODE == "fadump" ]]; then
if ! lsinitrd -f $DRACUT_MODULES_FILE "$TARGET_INITRD" | grep -q -e ^kdumpbase$ -e ^zz-fadumpinit$; then
dinfo "Rebuild $TARGET_INITRD with dump capture support"
return 1
fi
fi
check_files_modified || return
check_fs_modified || return
check_drivers_modified
}
# need_initrd_rebuild - check whether the initrd needs to be rebuild
# Returns:
# 0 if does not need to be rebuild
# 1 if it needs to be rebuild
# 2 if an error occurred
need_initrd_rebuild()
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{
local force_rebuild force_no_rebuild
force_no_rebuild=${OPT[force_no_rebuild]:-0}
if [[ $force_no_rebuild != "0" ]] && [[ $force_no_rebuild != "1" ]]; then
derror "Error: force_no_rebuild value is invalid"
return 2
fi
force_rebuild=${OPT[force_rebuild]:-0}
if [[ $force_rebuild != "0" ]] && [[ $force_rebuild != "1" ]]; then
derror "Error: force_rebuild value is invalid"
return 2
fi
if [[ $force_no_rebuild == "1" && $force_rebuild == "1" ]]; then
derror "Error: force_rebuild and force_no_rebuild are enabled simultaneously in kdump.conf"
return 2
fi
if [[ $force_no_rebuild == "1" ]]; then
return 0
fi
if [[ $force_rebuild == "1" ]]; then
dinfo "Force rebuild $TARGET_INITRD"
return 1
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fi
if [[ ! -f $TARGET_INITRD ]]; then
dinfo "No kdump initial ramdisk found."
return 1
fi
is_system_modified
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}
# On ppc64le LPARs, the keys trusted by firmware do not end up in
# .builtin_trusted_keys. So instead, add the key to the .ima keyring
function load_kdump_kernel_key()
{
# this is only called inside is_secure_boot_enforced,
# no need to retest
# this is only required if DT /ibm,secure-boot is a file.
# if it is a dir, we are on OpenPower and don't need this.
if ! [[ -f /proc/device-tree/ibm,secure-boot ]]; then
return
fi
keyctl padd asymmetric "" %:.ima < "/usr/share/doc/kernel-keys/$KDUMP_KERNELVER/kernel-signing-ppc.cer"
}
# Load the kdump kernel specified in /etc/sysconfig/kdump
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# If none is specified, try to load a kdump kernel with the same version
# as the currently running kernel.
load_kdump()
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{
local ret uki
KEXEC_ARGS=$(prepare_kexec_args "${KEXEC_ARGS}")
KDUMP_COMMANDLINE=$(prepare_cmdline "${KDUMP_COMMANDLINE}" "${KDUMP_COMMANDLINE_REMOVE}" "${KDUMP_COMMANDLINE_APPEND}")
if is_uki "$KDUMP_KERNEL"; then
uki=$KDUMP_KERNEL
KDUMP_KERNEL=$KDUMP_TMPDIR/vmlinuz
objcopy -O binary --only-section .linux "$uki" "$KDUMP_KERNEL"
sync -f "$KDUMP_KERNEL"
# Make sure the temp file has the correct SELinux label.
# Otherwise starting the kdump.service will fail.
chcon -t boot_t "$KDUMP_KERNEL"
fi
ddebug "$KEXEC $KEXEC_ARGS $standard_kexec_args --command-line=$KDUMP_COMMANDLINE --initrd=$TARGET_INITRD $KDUMP_KERNEL"
# The '12' represents an intermediate temporary file descriptor
# to store the standard error file descriptor '2', and later
# restore the error file descriptor with the file descriptor '12'
# and release it.
exec 12>&2
exec 2>> $KDUMP_LOG_PATH/kdump.log
chmod 600 $KDUMP_LOG_PATH/kdump.log
PS4='+ $(date "+%Y-%m-%d %H:%M:%S") ${BASH_SOURCE}@${LINENO}: '
set -x
# shellcheck disable=SC2086
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$KEXEC $KEXEC_ARGS $standard_kexec_args \
--command-line="$KDUMP_COMMANDLINE" \
--initrd="$TARGET_INITRD" "$KDUMP_KERNEL"
ret=$?
set +x
exec 2>&12 12>&-
if [[ $ret == 0 ]]; then
dinfo "kexec: loaded kdump kernel"
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return 0
else
derror "kexec: failed to load kdump kernel"
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return 1
fi
}
check_ssh_config()
{
local target
[[ "${OPT[_fstype]}" == ssh ]] || return 0
target=$(ssh -G "${OPT[_target]}" | sed -n -e "s/^hostname[[:space:]]\+\([^[:space:]]*\).*$/\1/p")
[[ ${OPT[_target]} =~ .*@.* ]] || return 1
if [[ ${OPT[_target]#*@} != "$target" ]]; then
derror "Invalid ssh destination ${OPT[_target]} provided."
return 1
fi
return 0
}
# ipv6 host address may takes a long time to be ready.
# Instead of checking against ipv6 address, we just check the network reachable
# by the return val of 'ssh'
check_and_wait_network_ready()
{
local start_time
local warn_once=1
local cur
local diff
local retval
local errmsg
[[ "${OPT[_fstype]}" == ssh ]] || return 0
start_time=$(date +%s)
while true; do
errmsg=$(ssh -i "${OPT[sshkey]}" -o BatchMode=yes "${OPT[_target]}" mkdir -p "${OPT[path]}" 2>&1)
retval=$?
# ssh exits with the exit status of the remote command or with 255 if an error occurred
if [[ $retval -eq 0 ]]; then
return 0
elif [[ $retval -ne 255 ]]; then
derror "Could not create ${OPT[_target]}:${OPT[path]}, you should check the privilege on server side"
return 1
fi
# if server removes the authorized_keys or, no /root/.ssh/kdump_id_rsa
ddebug "$errmsg"
if echo "$errmsg" | grep -q "Permission denied\|No such file or directory\|Host key verification failed"; then
derror "Could not create ${OPT[_target]}:${OPT[path]}, you probably need to run \"kdumpctl propagate\""
return 1
fi
if [[ $warn_once -eq 1 ]]; then
dwarn "Network dump target is not usable, waiting for it to be ready..."
warn_once=0
fi
cur=$(date +%s)
diff=$((cur - start_time))
# time out after 180s
if [[ $diff -gt 180 ]]; then
break
fi
sleep 1
done
dinfo "Could not create ${OPT[_target]}:${OPT[path]}, ipaddr is not ready yet. You should check network connection"
return 1
}
propagate_ssh_key()
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{
local SSH_USER SSH_SERVER
parse_config || return 1
if [[ ${OPT[_fstype]} != ssh ]] ; then
derror "No ssh destination defined in $KDUMP_CONFIG_FILE."
derror "Please verify that $KDUMP_CONFIG_FILE contains 'ssh <user>@<host>' and that it is properly formatted."
exit 1
fi
local KEYFILE=${OPT[sshkey]}
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#Check to see if we already created key, if not, create it.
if [[ -f $KEYFILE ]]; then
dinfo "Using existing keys..."
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else
dinfo "Generating new ssh keys... "
/usr/bin/ssh-keygen -t rsa -f "$KEYFILE" -N "" &> /dev/null
dinfo "done."
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fi
SSH_USER=${OPT[_target]%@*}
SSH_SERVER=${OPT[_target]#*@}
if ssh-copy-id -i "$KEYFILE" "${OPT[_target]}"; then
dinfo "$KEYFILE has been added to ~$SSH_USER/.ssh/authorized_keys on $SSH_SERVER"
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return 0
else
derror "Failed to propagate ssh key, could not transfer $KEYFILE to $SSH_SERVER"
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exit 1
fi
}
show_reserved_mem()
{
local mem
local mem_mb
mem=$(get_reserved_mem_size)
mem_mb=$((mem / 1024 / 1024))
dinfo "Reserved ${mem_mb}MB memory for crash kernel"
}
save_raw()
{
local raw_target
[[ ${OPT[_fstype]} == raw ]] || return 0
raw_target=${OPT[_target]}
[[ -b $raw_target ]] || {
derror "raw partition $raw_target not found"
return 1
}
check_fs=$(lsblk --nodeps -npo FSTYPE "$raw_target")
if [[ $(echo "$check_fs" | wc -w) -ne 0 ]]; then
dwarn "Warning: Detected '$check_fs' signature on $raw_target, data loss is expected."
return 0
fi
coredir="${OPT[path]}/$(date +"%Y-%m-%d-%H:%M")"
mkdir -p "$coredir"
[[ -d $coredir ]] || {
derror "failed to create $coredir"
return 1
}
if makedumpfile -R "$coredir/vmcore" < "$raw_target" > /dev/null 2>&1; then
# dump found
dinfo "Dump saved to $coredir/vmcore"
# wipe makedumpfile header
dd if=/dev/zero of="$raw_target" bs=1b count=1 2> /dev/null
else
rm -rf "$coredir"
fi
return 0
}
is_local_target()
{
[[ ${OPT[_fstype]} =~ ^ext[234]|^xfs|^btrfs|^minix ]]
}
path_to_be_relabeled()
{
local _path _mnt="/" _rmnt
if is_user_configured_dump_target; then
if is_mount_in_dracut_args; then
return
fi
if is_local_target; then
_mnt=$(get_mntpoint_from_target "${OPT[_target]}")
if ! is_mounted "$_mnt"; then
return
fi
else
return
fi
fi
_path=$(get_save_path)
# if $_path is masked by other mount, we will not relabel it.
_rmnt=$(df "$_mnt/$_path" 2> /dev/null | tail -1 | awk '{ print $NF }')
if [[ $_rmnt == "$_mnt" ]]; then
echo "$_mnt/$_path"
fi
}
selinux_relabel()
{
local _path _i _attr
_path=$(path_to_be_relabeled)
if [[ -z $_path ]] || ! [[ -d $_path ]]; then
return
fi
while IFS= read -r -d '' _i; do
_attr=$(getfattr -m "security.selinux" "$_i" 2> /dev/null)
if [[ -z $_attr ]]; then
restorecon "$_i"
fi
done < <(find "$_path" -print0)
}
check_fence_kdump_config()
{
local hostname
local ipaddrs
local nodes
hostname=$(hostname)
ipaddrs=$(hostname -I)
nodes=${OPT[fence_kdump_nodes]}
for node in $nodes; do
if [[ $node == "$hostname" ]]; then
derror "Option fence_kdump_nodes cannot contain $hostname"
return 1
fi
# node can be ipaddr
if echo "$ipaddrs " | grep -q "$node "; then
derror "Option fence_kdump_nodes cannot contain $node"
return 1
fi
done
return 0
}
check_dump_feasibility()
{
if [[ $DEFAULT_DUMP_MODE == "fadump" ]]; then
return 0
fi
check_kdump_feasibility
}
start_fadump()
{
echo 1 > "$FADUMP_REGISTER_SYS_NODE"
if ! is_kernel_loaded "fadump"; then
derror "fadump: failed to register"
return 1
fi
dinfo "fadump: registered successfully"
return 0
}
start_dump()
{
# On secure boot enabled Power systems, load kernel signing key on .ima for signature
# verification using kexec file based syscall.
if [[ "$(uname -m)" == ppc64le ]] && is_secure_boot_enforced; then
load_kdump_kernel_key
fi
if [[ $DEFAULT_DUMP_MODE == "fadump" ]]; then
start_fadump
else
load_kdump
fi
}
check_failure_action_config()
{
case "${OPT[failure_action]}" in
"" | reboot | halt | poweroff | shell | dump_to_rootfs)
return 0
;;
*)
dinfo $"Usage kdump.conf: failure_action {reboot|halt|poweroff|shell|dump_to_rootfs}"
return 1
;;
esac
}
check_final_action_config()
{
case "${OPT[final_action]}" in
"" | reboot | halt | poweroff)
return 0
;;
*)
dinfo $"Usage kdump.conf: final_action {reboot|halt|poweroff}"
return 1
;;
esac
}
start()
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{
check_dump_feasibility || return
parse_config || return
if sestatus 2> /dev/null | grep -q "SELinux status.*enabled"; then
selinux_relabel
fi
save_raw || return
if [[ $DEFAULT_DUMP_MODE == "kdump" ]] && is_kernel_loaded "kdump"; then
dwarn "Kdump already running: [WARNING]"
return 0
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fi
check_and_wait_network_ready || return
setup_initrd || return
need_initrd_rebuild
case "$?" in
0)
# Nothing to do
;;
1)
rebuild_initrd || return
;;
*)
return
;;
esac
start_dump || return
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dinfo "Starting kdump: [OK]"
return 0
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}
reload()
{
if ! is_kernel_loaded "$DEFAULT_DUMP_MODE"; then
dwarn "Kdump was not running: [WARNING]"
fi
if [[ $DEFAULT_DUMP_MODE == "fadump" ]]; then
reload_fadump
return
else
if ! stop_kdump; then
derror "Stopping kdump: [FAILED]"
return 1
fi
fi
dinfo "Stopping kdump: [OK]"
if ! setup_initrd; then
derror "Starting kdump: [FAILED]"
return 1
fi
if ! start_dump; then
derror "Starting kdump: [FAILED]"
return 1
fi
dinfo "Starting kdump: [OK]"
}
stop_fadump()
{
echo 0 > "$FADUMP_REGISTER_SYS_NODE"
if is_kernel_loaded "fadump"; then
derror "fadump: failed to unregister"
return 1
fi
dinfo "fadump: unregistered successfully"
return 0
}
stop_kdump()
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{
if is_secure_boot_enforced; then
$KEXEC -s -p -u
else
$KEXEC -p -u
fi
# shellcheck disable=SC2181
if [[ $? != 0 ]]; then
derror "kexec: failed to unload kdump kernel"
return 1
fi
dinfo "kexec: unloaded kdump kernel"
return 0
}
reload_fadump()
{
if echo 1 > "$FADUMP_REGISTER_SYS_NODE"; then
dinfo "fadump: re-registered successfully"
return 0
else
# FADump could fail on older kernel where re-register
# support is not enabled. Try stop/start from userspace
# to handle such scenario.
if stop_fadump; then
start_fadump
return
fi
fi
return 1
}
stop()
{
if [[ $DEFAULT_DUMP_MODE == "fadump" ]]; then
stop_fadump || return
else
stop_kdump || return
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fi
dinfo "Stopping kdump: [OK]"
return 0
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}
rebuild()
{
parse_config || return 1
check_and_wait_network_ready || return 1
setup_initrd || return 1
rebuild_initrd
}
check_vmlinux()
{
# Use readelf to check if it's a valid ELF
readelf -h "$1" &> /dev/null || return 1
}
get_vmlinux_size()
{
local size=0 _msize
while read -r _msize; do
size=$((size + _msize))
done <<< "$(readelf -l -W "$1" | awk '/^ LOAD/{print $6}' 2> /dev/stderr)"
echo $size
}
try_decompress()
{
# The obscure use of the "tr" filter is to work around older versions of
# "grep" that report the byte offset of the line instead of the pattern.
# Try to find the header ($1) and decompress from here
for pos in $(tr "$1\n$2" "\n$2=" < "$4" | grep -abo "^$2"); do
if ! type -P "$3" > /dev/null; then
ddebug "Signiature detected but '$3' is missing, skip this decompressor"
break
fi
pos=${pos%%:*}
tail "-c+$pos" "$img" | $3 > "$5" 2> /dev/null
if check_vmlinux "$5"; then
ddebug "Kernel is extracted with '$3'"
return 0
fi
done
return 1
}
# Borrowed from linux/scripts/extract-vmlinux
get_kernel_size()
{
# Prepare temp files:
local tmp img=$1
tmp="$KDUMP_TMPDIR/vmlinux"
# Try to check if it's a vmlinux already
check_vmlinux "$img" && get_vmlinux_size "$img" && return 0
# That didn't work, so retry after decompression.
try_decompress '\037\213\010' xy gunzip "$img" "$tmp" ||
try_decompress '\3757zXZ\000' abcde unxz "$img" "$tmp" ||
try_decompress 'BZh' xy bunzip2 "$img" "$tmp" ||
try_decompress '\135\0\0\0' xxx unlzma "$img" "$tmp" ||
try_decompress '\211\114\132' xy 'lzop -d' "$img" "$tmp" ||
try_decompress '\002!L\030' xxx 'lz4 -d' "$img" "$tmp" ||
try_decompress '(\265/\375' xxx unzstd "$img" "$tmp"
# Finally check for uncompressed images or objects:
[[ $? -eq 0 ]] && get_vmlinux_size "$tmp" && return 0
# Fallback to use iomem
local _size=0 _seg
while read -r _seg; do
_size=$((_size + 0x${_seg#*-} - 0x${_seg%-*}))
done <<< "$(grep -E "Kernel (code|rodata|data|bss)" /proc/iomem | cut -d ":" -f 1)"
echo $_size
}
do_estimate()
{
local kdump_mods
local -A large_mods
local baseline
local kernel_size mod_size initrd_size baseline_size runtime_size reserved_size estimated_size recommended_size _cryptsetup_overhead
local size_mb=$((1024 * 1024))
setup_initrd
is_system_modified
case "$?" in
0)
# Nothing to do
;;
1)
rebuild_initrd || return
;;
*)
return
;;
esac
kdump_mods="$(lsinitrd "$TARGET_INITRD" -f /usr/lib/dracut/hostonly-kernel-modules.txt | tr '\n' ' ')"
baseline=$(kdump_get_arch_recommend_size)
if [[ ${baseline: -1} == "M" ]]; then
baseline=${baseline%M}
elif [[ ${baseline: -1} == "G" ]]; then
baseline=$((${baseline%G} * 1024))
elif [[ ${baseline: -1} == "T" ]]; then
baseline=$((${baseline%Y} * 1048576))
fi
# The default pre-reserved crashkernel value
baseline_size=$((baseline * size_mb))
# Current reserved crashkernel size
reserved_size=$(get_reserved_mem_size)
# A pre-estimated value for userspace usage and kernel
# runtime allocation, 64M should good for most cases
runtime_size=$((64 * size_mb))
# Kernel image size
kernel_size=$(get_kernel_size "$KDUMP_KERNEL")
# Kdump initramfs size
initrd_size=$(du -b "$TARGET_INITRD" | awk '{print $1}')
# Kernel modules static size after loaded
mod_size=0
while read -r _name _size _; do
if [[ " $kdump_mods " != *" $_name "* ]]; then
continue
fi
mod_size=$((mod_size + _size))
# Mark module with static size larger than 2M as large module
if [[ $((_size / size_mb)) -ge 1 ]]; then
large_mods[$_name]=$_size
fi
done <<< "$(< /proc/modules)"
# Extra memory usage required for LUKS2 decryption
crypt_size=0
for _dev in $(get_all_kdump_crypt_dev); do
_crypt_info=$(cryptsetup luksDump "/dev/block/$_dev")
[[ $(echo "$_crypt_info" | sed -n "s/^Version:\s*\(.*\)/\1/p") == "2" ]] || continue
for _mem in $(echo "$_crypt_info" | sed -n "s/\sMemory:\s*\(.*\)/\1/p" | sort -n -r); do
crypt_size=$((crypt_size + _mem * 1024))
break
done
done
if [[ $crypt_size -ne 0 ]]; then
if [[ $(uname -m) == aarch64 ]]; then
_cryptsetup_overhead=50
else
_cryptsetup_overhead=20
fi
crypt_size=$((crypt_size + _cryptsetup_overhead * size_mb))
echo -e "Encrypted kdump target requires extra memory, assuming using the keyslot with maximum memory requirement\n"
fi
estimated_size=$((kernel_size + mod_size + initrd_size + runtime_size + crypt_size))
if [[ $baseline_size -gt $estimated_size ]]; then
recommended_size=$baseline_size
else
recommended_size=$estimated_size
fi
echo "Reserved crashkernel: $((reserved_size / size_mb))M"
echo "Recommended crashkernel: $((recommended_size / size_mb))M"
echo
echo "Kernel image size: $((kernel_size / size_mb))M"
echo "Kernel modules size: $((mod_size / size_mb))M"
echo "Initramfs size: $((initrd_size / size_mb))M"
echo "Runtime reservation: $((runtime_size / size_mb))M"
[[ $crypt_size -ne 0 ]] &&
echo "LUKS required size: $((crypt_size / size_mb))M"
echo -n "Large modules:"
if [[ ${#large_mods[@]} -eq 0 ]]; then
echo " <none>"
else
echo ""
for _mod in "${!large_mods[@]}"; do
echo " $_mod: ${large_mods[$_mod]}"
done
fi
if [[ $reserved_size -lt $recommended_size ]]; then
echo "WARNING: Current crashkernel size is lower than recommended size $((recommended_size / size_mb))M."
fi
}
get_default_crashkernel()
{
local _dump_mode=$1
kdump_get_arch_recommend_crashkernel "$_dump_mode"
}
# Read kernel cmdline parameter for a specific kernel
# $1: kernel path, DEFAULT or kernel path, ALL not accepted
# $2: kernel cmldine parameter
get_grub_kernel_boot_parameter()
{
local _kernel_path=$1 _para=$2
[[ $_kernel_path == ALL ]] && derror "kernel_path=ALL invalid for get_grub_kernel_boot_parameter" && return 1
grubby --info="$_kernel_path" | sed -En -e "/^args=.*$/{s/^.*(\s|\")${_para}=(\S*).*\"$/\2/p;q}"
}
# get dump mode by fadump value
# return
# - fadump, if fadump=on or fadump=nocma
# - kdump, if fadump=off or empty fadump, return kdump
# - error if otherwise
get_dump_mode_by_fadump_val()
{
local _fadump_val=$1
if [[ -z $_fadump_val ]] || [[ $_fadump_val == off ]]; then
echo -n kdump
elif [[ $_fadump_val == on ]] || [[ $_fadump_val == nocma ]]; then
echo -n fadump
else
derror "invalid fadump=$_fadump_val"
return 1
fi
}
# get dump mode of a specific kernel
# based on its fadump kernel cmdline parameter
get_dump_mode_by_kernel()
{
local _kernel_path=$1 _fadump_val _dump_mode
_fadump_val=$(get_grub_kernel_boot_parameter "$_kernel_path" fadump)
if _dump_mode=$(get_dump_mode_by_fadump_val "$_fadump_val"); then
echo -n "$_dump_mode"
else
derror "failed to get dump mode for kernel $_kernel_path"
exit
fi
}
add helper functions to get kernel path by kernel release and the path of current running kernel grubby --info=kernel-path or --add-kernel=kernel-path accepts a kernel path (e.g. /boot/vmlinuz-5.14.14-200.fc34.x86_64) instead of kernel release (e.g 5.14.14-200.fc34.x86_64). So we need to know the kernel path given a kernel release. Although for Fedora/RHEL, the kernel path is "/boot/vmlinuz-<KERNEL_RELEASE>", a path kernel could also be /boot/<machine-id>/<KERNEL_RELEASE>/vmlinuz. So the most reliable way to find the kernel path given a kernel release is to use "grubby --info". For osbuild, a kernel path may not yet exist but it's valid for "grubby --update-kernel=KERNEL_PATH". For example, "grubby -info" may output something as follows, index=0 kernel="/var/cache/osbuild-worker/osbuild-store/tmp/tmp2prywdy5object/tree/boot/vmlinuz-5.15.10-100.fc34.x86_64" args="ro no_timer_check net.ifnames=0 console=tty1 console=ttyS0,115200n8" root="UUID=76a22bf4-f153-4541-b6c7-0332c0dfaeac" initrd="/var/cache/osbuild-worker/osbuild-store/tmp/tmp2prywdy5object/tree/boot/initramfs-5.15.10-100.fc34.x86_64.img" There is no need to check if path like /var/cache/osbuild-worker/osbuild-store/tmp/tmp2prywdy5object/tree/boot/vmlinuz-5.15.10-100.fc34.x86_64 physically exists. Note these helper functions doesn't support CoreOS/Atomic/Silverblue since grubby isn't used by them. Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-07 07:16:07 +00:00
_filter_grubby_kernel_str()
{
local _grubby_kernel_str=$1
echo -n "$_grubby_kernel_str" | sed -n -e 's/^kernel="\(.*\)"/\1/p'
}
_find_kernel_path_by_release()
{
local _release="$1" _grubby_kernel_str _kernel_path
# Insert '/' before '+' to cope with grep's EREs
_release=${_release//+/\\+}
_grubby_kernel_str=$(grubby --info ALL | grep -E "^kernel=.*$_release(\/\w+)?\"$")
add helper functions to get kernel path by kernel release and the path of current running kernel grubby --info=kernel-path or --add-kernel=kernel-path accepts a kernel path (e.g. /boot/vmlinuz-5.14.14-200.fc34.x86_64) instead of kernel release (e.g 5.14.14-200.fc34.x86_64). So we need to know the kernel path given a kernel release. Although for Fedora/RHEL, the kernel path is "/boot/vmlinuz-<KERNEL_RELEASE>", a path kernel could also be /boot/<machine-id>/<KERNEL_RELEASE>/vmlinuz. So the most reliable way to find the kernel path given a kernel release is to use "grubby --info". For osbuild, a kernel path may not yet exist but it's valid for "grubby --update-kernel=KERNEL_PATH". For example, "grubby -info" may output something as follows, index=0 kernel="/var/cache/osbuild-worker/osbuild-store/tmp/tmp2prywdy5object/tree/boot/vmlinuz-5.15.10-100.fc34.x86_64" args="ro no_timer_check net.ifnames=0 console=tty1 console=ttyS0,115200n8" root="UUID=76a22bf4-f153-4541-b6c7-0332c0dfaeac" initrd="/var/cache/osbuild-worker/osbuild-store/tmp/tmp2prywdy5object/tree/boot/initramfs-5.15.10-100.fc34.x86_64.img" There is no need to check if path like /var/cache/osbuild-worker/osbuild-store/tmp/tmp2prywdy5object/tree/boot/vmlinuz-5.15.10-100.fc34.x86_64 physically exists. Note these helper functions doesn't support CoreOS/Atomic/Silverblue since grubby isn't used by them. Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-07 07:16:07 +00:00
_kernel_path=$(_filter_grubby_kernel_str "$_grubby_kernel_str")
if [[ -z $_kernel_path ]]; then
ddebug "kernel $_release doesn't exist"
add helper functions to get kernel path by kernel release and the path of current running kernel grubby --info=kernel-path or --add-kernel=kernel-path accepts a kernel path (e.g. /boot/vmlinuz-5.14.14-200.fc34.x86_64) instead of kernel release (e.g 5.14.14-200.fc34.x86_64). So we need to know the kernel path given a kernel release. Although for Fedora/RHEL, the kernel path is "/boot/vmlinuz-<KERNEL_RELEASE>", a path kernel could also be /boot/<machine-id>/<KERNEL_RELEASE>/vmlinuz. So the most reliable way to find the kernel path given a kernel release is to use "grubby --info". For osbuild, a kernel path may not yet exist but it's valid for "grubby --update-kernel=KERNEL_PATH". For example, "grubby -info" may output something as follows, index=0 kernel="/var/cache/osbuild-worker/osbuild-store/tmp/tmp2prywdy5object/tree/boot/vmlinuz-5.15.10-100.fc34.x86_64" args="ro no_timer_check net.ifnames=0 console=tty1 console=ttyS0,115200n8" root="UUID=76a22bf4-f153-4541-b6c7-0332c0dfaeac" initrd="/var/cache/osbuild-worker/osbuild-store/tmp/tmp2prywdy5object/tree/boot/initramfs-5.15.10-100.fc34.x86_64.img" There is no need to check if path like /var/cache/osbuild-worker/osbuild-store/tmp/tmp2prywdy5object/tree/boot/vmlinuz-5.15.10-100.fc34.x86_64 physically exists. Note these helper functions doesn't support CoreOS/Atomic/Silverblue since grubby isn't used by them. Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-07 07:16:07 +00:00
return 1
fi
echo -n "$_kernel_path"
}
_update_kernel_cmdline()
{
local _kernel _param _old _new
_kernel="$1"
_param="$2"
_old="$3"
_new="$4"
# _new = "" removes a _param, so _new = _old = "" is fine
[[ -n "$_new" ]] && [[ "$_old" == "$_new" ]] && return 1
if is_ostree; then
if [[ -z "$_new" ]]; then
rpm-ostree kargs --delete="$_param=$_old"
elif [[ -n "$_old" ]]; then
rpm-ostree kargs --replace="$_param=$_new"
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
else
rpm-ostree kargs --append="$_param=$_new"
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
fi
elif has_command grubby; then
if [[ -n "$_new" ]]; then
grubby --update-kernel "$_kernel" --args "$_param=$_new"
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
else
grubby --update-kernel "$_kernel" --remove-args "$_param"
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
fi
else
derror "Unable to update kernel command line"
exit 1
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
fi
# Don't use "[[ CONDITION ]] && COMMAND" which returns 1 under false CONDITION
if [[ -f /etc/zipl.conf ]]; then
zipl > /dev/null
fi
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
}
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
_valid_grubby_kernel_path()
{
[[ -n "$1" ]] && grubby --info="$1" > /dev/null 2>&1
}
# return all the kernel paths given a grubby kernel-path
#
# $1: kernel path accepted by grubby, e.g. DEFAULT, ALL,
# /boot/vmlinuz-`uname -r`
# return: kernel paths separated by space
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
_get_all_kernels_from_grubby()
{
local _kernels _line _kernel_path _grubby_kernel_path=$1
for _line in $(grubby --info "$_grubby_kernel_path" | grep "^kernel="); do
_kernel_path=$(_filter_grubby_kernel_str "$_line")
_kernels="$_kernels $_kernel_path"
done
echo -n "$_kernels"
}
reset_crashkernel()
{
local _opt _val _reboot _grubby_kernel_path _kernel _kernels
local _dump_mode _new_dump_mode
local _has_changed _needs_reboot
local _old_ck _new_ck
local _old_fadump _new_fadump
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
for _opt in "$@"; do
case "$_opt" in
--fadump=*)
if [[ $(uname -m) != ppc64le ]]; then
derror "Option --fadump only valid on PPC"
exit 1
fi
_new_fadump=${_opt#*=}
if ! _dump_mode=$(get_dump_mode_by_fadump_val $_new_fadump); then
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
derror "failed to determine dump mode"
exit
fi
[[ "$_new_fadump" == off ]] && _new_fadump=""
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
;;
--kernel=*)
_val=${_opt#*=}
if ! _valid_grubby_kernel_path $_val; then
derror "Invalid $_opt, please specify a valid kernel path, ALL or DEFAULT"
exit
fi
_grubby_kernel_path=$_val
;;
--reboot)
_reboot=yes
;;
*)
derror "$_opt not recognized"
exit 1
;;
esac
done
# 1. OSTree systems use "rpm-ostree kargs" instead of grubby to manage kernel command
# line. --kernel=ALL doesn't make sense for OStree.
# 2. We don't have any OSTree POWER systems so the dump mode is always kdump.
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
# 3. "rpm-ostree kargs" would prompt the user to reboot the system after
# modifying the kernel command line so there is no need for kexec-tools
# to repeat it.
if is_ostree; then
_old_ck=$(rpm-ostree kargs | sed -n -E 's/.*(^|\s)crashkernel=(\S*).*/\2/p')
_new_ck=$(kdump_get_arch_recommend_crashkernel kdump)
if _update_kernel_cmdline "" crashkernel "$_old_ck" "$_new_ck"; then
[[ $_reboot == yes ]] && systemctl reboot
fi
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
return
fi
[[ $(uname -m) != ppc64le ]] && _dump_mode=kdump
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
# If kernel-path not specified, either
# - use KDUMP_KERNELVER if it's defined
# - use current running kernel
if [[ -z $_grubby_kernel_path ]]; then
[[ -n $KDUMP_KERNELVER ]] || KDUMP_KERNELVER=$(uname -r)
if ! _kernels=$(_find_kernel_path_by_release "$KDUMP_KERNELVER"); then
derror "no kernel for version $KDUMP_KERNELVER found"
exit 1
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
fi
else
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
_kernels=$(_get_all_kernels_from_grubby "$_grubby_kernel_path")
fi
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
for _kernel in $_kernels; do
_has_changed=""
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
if [[ -z $_dump_mode ]]; then
_new_dump_mode=$(get_dump_mode_by_kernel "$_kernel")
_new_fadump=$(get_grub_kernel_boot_parameter "$_kernel" fadump)
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
else
_new_dump_mode=$_dump_mode
fi
_old_ck=$(get_grub_kernel_boot_parameter "$_kernel" crashkernel)
_new_ck=$(kdump_get_arch_recommend_crashkernel "$_new_dump_mode")
_old_fadump=$(get_grub_kernel_boot_parameter "$_kernel" fadump)
if _update_kernel_cmdline "$_kernel" fadump "$_old_fadump" "$_new_fadump"; then
_has_changed="Updated fadump=$_new_fadump"
fi
if _update_kernel_cmdline "$_kernel" crashkernel "$_old_ck" "$_new_ck"; then
_has_changed="Updated crashkernel=$_new_ck"
fi
if [[ -n "$_has_changed" ]]; then
_needs_reboot=1
dwarn "$_has_changed for kernel=$_kernel. Please reboot the system for the change to take effect."
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
fi
done
if [[ $_reboot == yes && $_needs_reboot == 1 ]]; then
systemctl reboot
fi
}
GRUB_CFG=/boot/grub2/grub.cfg
Don't try to update crashkernel when bootloader is not installed Currently when using anaconda to install the OS, the following errors occur, INF packaging: Configuring (running scriptlet for): kernel-core-5.14.0-70.el9.x86_64 ... INF dnf.rpm: grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory ... INF packaging: Configuring (running scriptlet for): kexec-tools-2.0.23-9.el9.x86_64 ... INF dnf.rpm: grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory Or for s390, the following errors occur, INF packaging: Configuring (running scriptlet for): kernel-core-5.14.0-71.el9.s390x ... 03:37:51,232 INF dnf.rpm: grep: /etc/zipl.conf: No such file or directory grep: /etc/zipl.conf: No such file or directory grep: /etc/zipl.conf: No such file or directory INF packaging: Configuring (running scriptlet for): kexec-tools-2.0.23-9_1.el9_0.s390x ... INF dnf.rpm: grep: /etc/zipl.conf: No such file or directory This is because when anaconda installs the packages, bootloader hasn't been installed and /boot/grub2/grubenv or /etc/zipl.conf doesn't exist. So don't try to update crashkernel when bootloader isn't ready to avoid the above errors. Note this is the second attempt to fix this issue. Previously a file /tmp/kexec_tools_package_install was created to avoid running the related code thus to avoid the above errors but unfortunately that approach has two issues a) somehow osbuild doesn't delete it for RHEL b) this file could still exist if users manually remove kexec-tools. Fixes: e218128 ("Only try to reset crashkernel for osbuild during package install") Reported-by: Jan Stodola <jstodola@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com>
2022-12-20 05:59:18 +00:00
_is_bootloader_installed()
{
if [[ $(uname -m) == s390x ]]; then
Don't try to update crashkernel when bootloader is not installed Currently when using anaconda to install the OS, the following errors occur, INF packaging: Configuring (running scriptlet for): kernel-core-5.14.0-70.el9.x86_64 ... INF dnf.rpm: grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory ... INF packaging: Configuring (running scriptlet for): kexec-tools-2.0.23-9.el9.x86_64 ... INF dnf.rpm: grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory Or for s390, the following errors occur, INF packaging: Configuring (running scriptlet for): kernel-core-5.14.0-71.el9.s390x ... 03:37:51,232 INF dnf.rpm: grep: /etc/zipl.conf: No such file or directory grep: /etc/zipl.conf: No such file or directory grep: /etc/zipl.conf: No such file or directory INF packaging: Configuring (running scriptlet for): kexec-tools-2.0.23-9_1.el9_0.s390x ... INF dnf.rpm: grep: /etc/zipl.conf: No such file or directory This is because when anaconda installs the packages, bootloader hasn't been installed and /boot/grub2/grubenv or /etc/zipl.conf doesn't exist. So don't try to update crashkernel when bootloader isn't ready to avoid the above errors. Note this is the second attempt to fix this issue. Previously a file /tmp/kexec_tools_package_install was created to avoid running the related code thus to avoid the above errors but unfortunately that approach has two issues a) somehow osbuild doesn't delete it for RHEL b) this file could still exist if users manually remove kexec-tools. Fixes: e218128 ("Only try to reset crashkernel for osbuild during package install") Reported-by: Jan Stodola <jstodola@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com>
2022-12-20 05:59:18 +00:00
test -f /etc/zipl.conf
else
test -f "$GRUB_CFG"
Don't try to update crashkernel when bootloader is not installed Currently when using anaconda to install the OS, the following errors occur, INF packaging: Configuring (running scriptlet for): kernel-core-5.14.0-70.el9.x86_64 ... INF dnf.rpm: grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory ... INF packaging: Configuring (running scriptlet for): kexec-tools-2.0.23-9.el9.x86_64 ... INF dnf.rpm: grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory Or for s390, the following errors occur, INF packaging: Configuring (running scriptlet for): kernel-core-5.14.0-71.el9.s390x ... 03:37:51,232 INF dnf.rpm: grep: /etc/zipl.conf: No such file or directory grep: /etc/zipl.conf: No such file or directory grep: /etc/zipl.conf: No such file or directory INF packaging: Configuring (running scriptlet for): kexec-tools-2.0.23-9_1.el9_0.s390x ... INF dnf.rpm: grep: /etc/zipl.conf: No such file or directory This is because when anaconda installs the packages, bootloader hasn't been installed and /boot/grub2/grubenv or /etc/zipl.conf doesn't exist. So don't try to update crashkernel when bootloader isn't ready to avoid the above errors. Note this is the second attempt to fix this issue. Previously a file /tmp/kexec_tools_package_install was created to avoid running the related code thus to avoid the above errors but unfortunately that approach has two issues a) somehow osbuild doesn't delete it for RHEL b) this file could still exist if users manually remove kexec-tools. Fixes: e218128 ("Only try to reset crashkernel for osbuild during package install") Reported-by: Jan Stodola <jstodola@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com>
2022-12-20 05:59:18 +00:00
fi
}
Simplify the management of the kernel parameter crashkernel Currently, kexec-tools only updates the crashkernel to a new default value only when both two conditions are met, - auto_reset_crashkernel=yes in kdump.conf - existing kernels or current running kernel should use the old default value. To address seen corner cases, the logic to tell if the second condition is met becomes quite complex. Instead of making the logic more complex to support aarch64-64k, this patch drops the second condition to simplify the management of the crashkernel kernel parameter. Another change brought by this simplification is kexec-tools will also set up the kernel crashkernel parameter for a fresh install (previously it's limited to osbuild). Note 1. This patch also stop trying to update /etc/default/grub because a) it only affects the static file /boot/grub2/grub.cfg b) grubby is recommended to change the kernel command-line parameters for both Fedora [1] and RHEL9 [2][3] c) For the cases of aarch64 and POWER, different kernels could have different default crashkernel value. 2. Starting with Fedora 37, posttrans rpm scriplet distinguish between package install and upgrade. [1] https://fedoraproject.org/wiki/GRUB_2 [2] https://access.redhat.com/documentation/en-us/red_hat_enterprise_linux/9/html/managing_monitoring_and_updating_the_kernel/configuring-kernel-command-line-parameters_managing-monitoring-and-updating-the-kernel#changing-kernel-command-line-parameters-for-all-boot-entries_configuring-kernel-command-line-parameters [3] https://access.redhat.com/solutions/1136173 Signed-off-by: Coiby Xu <coxu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com>
2023-04-25 20:48:25 +00:00
_update_crashkernel()
{
local _kernel _kver _dump_mode _msg
local _old_ck _new_ck
Simplify the management of the kernel parameter crashkernel Currently, kexec-tools only updates the crashkernel to a new default value only when both two conditions are met, - auto_reset_crashkernel=yes in kdump.conf - existing kernels or current running kernel should use the old default value. To address seen corner cases, the logic to tell if the second condition is met becomes quite complex. Instead of making the logic more complex to support aarch64-64k, this patch drops the second condition to simplify the management of the crashkernel kernel parameter. Another change brought by this simplification is kexec-tools will also set up the kernel crashkernel parameter for a fresh install (previously it's limited to osbuild). Note 1. This patch also stop trying to update /etc/default/grub because a) it only affects the static file /boot/grub2/grub.cfg b) grubby is recommended to change the kernel command-line parameters for both Fedora [1] and RHEL9 [2][3] c) For the cases of aarch64 and POWER, different kernels could have different default crashkernel value. 2. Starting with Fedora 37, posttrans rpm scriplet distinguish between package install and upgrade. [1] https://fedoraproject.org/wiki/GRUB_2 [2] https://access.redhat.com/documentation/en-us/red_hat_enterprise_linux/9/html/managing_monitoring_and_updating_the_kernel/configuring-kernel-command-line-parameters_managing-monitoring-and-updating-the-kernel#changing-kernel-command-line-parameters-for-all-boot-entries_configuring-kernel-command-line-parameters [3] https://access.redhat.com/solutions/1136173 Signed-off-by: Coiby Xu <coxu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com>
2023-04-25 20:48:25 +00:00
_kernel=$1
_dump_mode=$(get_dump_mode_by_kernel "$_kernel")
_old_ck=$(get_grub_kernel_boot_parameter "$_kernel" crashkernel)
_kver=$(parse_kver_from_path "$_kernel")
# The second argument is for the case of aarch64, where installing a 64k variant on a 4k kernel, or vice versa
_new_ck=$(kdump_get_arch_recommend_crashkernel "$_dump_mode" "$_kver")
if _update_kernel_cmdline "$_kernel" crashkernel "$_old_ck" "$_new_ck"; then
_msg="For kernel=$_kernel, crashkernel=$_new_ck now. Please reboot the system for the change to take effect."
_msg+=" Note if you don't want kexec-tools to manage the crashkernel kernel parameter, please set auto_reset_crashkernel=no in /etc/kdump.conf."
dinfo "$_msg"
fi
}
Simplify the management of the kernel parameter crashkernel Currently, kexec-tools only updates the crashkernel to a new default value only when both two conditions are met, - auto_reset_crashkernel=yes in kdump.conf - existing kernels or current running kernel should use the old default value. To address seen corner cases, the logic to tell if the second condition is met becomes quite complex. Instead of making the logic more complex to support aarch64-64k, this patch drops the second condition to simplify the management of the crashkernel kernel parameter. Another change brought by this simplification is kexec-tools will also set up the kernel crashkernel parameter for a fresh install (previously it's limited to osbuild). Note 1. This patch also stop trying to update /etc/default/grub because a) it only affects the static file /boot/grub2/grub.cfg b) grubby is recommended to change the kernel command-line parameters for both Fedora [1] and RHEL9 [2][3] c) For the cases of aarch64 and POWER, different kernels could have different default crashkernel value. 2. Starting with Fedora 37, posttrans rpm scriplet distinguish between package install and upgrade. [1] https://fedoraproject.org/wiki/GRUB_2 [2] https://access.redhat.com/documentation/en-us/red_hat_enterprise_linux/9/html/managing_monitoring_and_updating_the_kernel/configuring-kernel-command-line-parameters_managing-monitoring-and-updating-the-kernel#changing-kernel-command-line-parameters-for-all-boot-entries_configuring-kernel-command-line-parameters [3] https://access.redhat.com/solutions/1136173 Signed-off-by: Coiby Xu <coxu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com>
2023-04-25 20:48:25 +00:00
try to reset kernel crashkernel when kexec-tools updates the default crashkernel value kexec-tools could update the default crashkernel value. When auto_reset_crashkernel=yes, reset kernel to new crashkernel value in the following two cases, - crashkernel=auto is found in the kernel cmdline - the kernel crashkernel was previously set by kexec-tools i.e. the kernel is using old default crashkernel value To tell if the user is using a custom value for the kernel crashkernel or not, we assume the user would never use the default crashkernel value as custom value. When kexec-tools gets updated, 1. save the default crashkernel value of the older package to /tmp/crashkernel (for POWER system, /tmp/crashkernel_fadump is saved as well). 2. If auto_reset_crashkernel=yes, iterate all installed kernels. For each kernel, compare its crashkernel value with the old default crashkernel and reset it if yes The implementation makes use of two RPM scriptlets [2], - %pre is run before a package is installed so we can use it to save old default crashkernel value - %post is run after a package installed so we can use it to try to reset kernel crashkernel There are several problems when running kdumpctl in the RPM scripts for CoreOS/Atomic/Silverblue, for example, the lock can't be acquired by kdumpctl, "rpm-ostree kargs" can't be run and etc.. So don't enable this feature for CoreOS/Atomic/Silverblue. Note latest shellcheck (0.8.0) gives false positives about the associative array as of this commit. And Fedora's shellcheck is 0.7.2 and can't even correctly parse the shell code because of the associative array. [1] https://github.com/koalaman/shellcheck/issues/2399 [2] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 07:33:13 +00:00
# shellcheck disable=SC2154 # false positive when dereferencing an array
reset_crashkernel_after_update()
{
Simplify the management of the kernel parameter crashkernel Currently, kexec-tools only updates the crashkernel to a new default value only when both two conditions are met, - auto_reset_crashkernel=yes in kdump.conf - existing kernels or current running kernel should use the old default value. To address seen corner cases, the logic to tell if the second condition is met becomes quite complex. Instead of making the logic more complex to support aarch64-64k, this patch drops the second condition to simplify the management of the crashkernel kernel parameter. Another change brought by this simplification is kexec-tools will also set up the kernel crashkernel parameter for a fresh install (previously it's limited to osbuild). Note 1. This patch also stop trying to update /etc/default/grub because a) it only affects the static file /boot/grub2/grub.cfg b) grubby is recommended to change the kernel command-line parameters for both Fedora [1] and RHEL9 [2][3] c) For the cases of aarch64 and POWER, different kernels could have different default crashkernel value. 2. Starting with Fedora 37, posttrans rpm scriplet distinguish between package install and upgrade. [1] https://fedoraproject.org/wiki/GRUB_2 [2] https://access.redhat.com/documentation/en-us/red_hat_enterprise_linux/9/html/managing_monitoring_and_updating_the_kernel/configuring-kernel-command-line-parameters_managing-monitoring-and-updating-the-kernel#changing-kernel-command-line-parameters-for-all-boot-entries_configuring-kernel-command-line-parameters [3] https://access.redhat.com/solutions/1136173 Signed-off-by: Coiby Xu <coxu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com>
2023-04-25 20:48:25 +00:00
local _kernel
try to reset kernel crashkernel when kexec-tools updates the default crashkernel value kexec-tools could update the default crashkernel value. When auto_reset_crashkernel=yes, reset kernel to new crashkernel value in the following two cases, - crashkernel=auto is found in the kernel cmdline - the kernel crashkernel was previously set by kexec-tools i.e. the kernel is using old default crashkernel value To tell if the user is using a custom value for the kernel crashkernel or not, we assume the user would never use the default crashkernel value as custom value. When kexec-tools gets updated, 1. save the default crashkernel value of the older package to /tmp/crashkernel (for POWER system, /tmp/crashkernel_fadump is saved as well). 2. If auto_reset_crashkernel=yes, iterate all installed kernels. For each kernel, compare its crashkernel value with the old default crashkernel and reset it if yes The implementation makes use of two RPM scriptlets [2], - %pre is run before a package is installed so we can use it to save old default crashkernel value - %post is run after a package installed so we can use it to try to reset kernel crashkernel There are several problems when running kdumpctl in the RPM scripts for CoreOS/Atomic/Silverblue, for example, the lock can't be acquired by kdumpctl, "rpm-ostree kargs" can't be run and etc.. So don't enable this feature for CoreOS/Atomic/Silverblue. Note latest shellcheck (0.8.0) gives false positives about the associative array as of this commit. And Fedora's shellcheck is 0.7.2 and can't even correctly parse the shell code because of the associative array. [1] https://github.com/koalaman/shellcheck/issues/2399 [2] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 07:33:13 +00:00
Don't try to update crashkernel when bootloader is not installed Currently when using anaconda to install the OS, the following errors occur, INF packaging: Configuring (running scriptlet for): kernel-core-5.14.0-70.el9.x86_64 ... INF dnf.rpm: grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory ... INF packaging: Configuring (running scriptlet for): kexec-tools-2.0.23-9.el9.x86_64 ... INF dnf.rpm: grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory Or for s390, the following errors occur, INF packaging: Configuring (running scriptlet for): kernel-core-5.14.0-71.el9.s390x ... 03:37:51,232 INF dnf.rpm: grep: /etc/zipl.conf: No such file or directory grep: /etc/zipl.conf: No such file or directory grep: /etc/zipl.conf: No such file or directory INF packaging: Configuring (running scriptlet for): kexec-tools-2.0.23-9_1.el9_0.s390x ... INF dnf.rpm: grep: /etc/zipl.conf: No such file or directory This is because when anaconda installs the packages, bootloader hasn't been installed and /boot/grub2/grubenv or /etc/zipl.conf doesn't exist. So don't try to update crashkernel when bootloader isn't ready to avoid the above errors. Note this is the second attempt to fix this issue. Previously a file /tmp/kexec_tools_package_install was created to avoid running the related code thus to avoid the above errors but unfortunately that approach has two issues a) somehow osbuild doesn't delete it for RHEL b) this file could still exist if users manually remove kexec-tools. Fixes: e218128 ("Only try to reset crashkernel for osbuild during package install") Reported-by: Jan Stodola <jstodola@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com>
2022-12-20 05:59:18 +00:00
if ! _is_bootloader_installed; then
return
fi
for _kernel in $(_get_all_kernels_from_grubby ALL); do
Simplify the management of the kernel parameter crashkernel Currently, kexec-tools only updates the crashkernel to a new default value only when both two conditions are met, - auto_reset_crashkernel=yes in kdump.conf - existing kernels or current running kernel should use the old default value. To address seen corner cases, the logic to tell if the second condition is met becomes quite complex. Instead of making the logic more complex to support aarch64-64k, this patch drops the second condition to simplify the management of the crashkernel kernel parameter. Another change brought by this simplification is kexec-tools will also set up the kernel crashkernel parameter for a fresh install (previously it's limited to osbuild). Note 1. This patch also stop trying to update /etc/default/grub because a) it only affects the static file /boot/grub2/grub.cfg b) grubby is recommended to change the kernel command-line parameters for both Fedora [1] and RHEL9 [2][3] c) For the cases of aarch64 and POWER, different kernels could have different default crashkernel value. 2. Starting with Fedora 37, posttrans rpm scriplet distinguish between package install and upgrade. [1] https://fedoraproject.org/wiki/GRUB_2 [2] https://access.redhat.com/documentation/en-us/red_hat_enterprise_linux/9/html/managing_monitoring_and_updating_the_kernel/configuring-kernel-command-line-parameters_managing-monitoring-and-updating-the-kernel#changing-kernel-command-line-parameters-for-all-boot-entries_configuring-kernel-command-line-parameters [3] https://access.redhat.com/solutions/1136173 Signed-off-by: Coiby Xu <coxu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com>
2023-04-25 20:48:25 +00:00
_update_crashkernel "$_kernel"
try to reset kernel crashkernel when kexec-tools updates the default crashkernel value kexec-tools could update the default crashkernel value. When auto_reset_crashkernel=yes, reset kernel to new crashkernel value in the following two cases, - crashkernel=auto is found in the kernel cmdline - the kernel crashkernel was previously set by kexec-tools i.e. the kernel is using old default crashkernel value To tell if the user is using a custom value for the kernel crashkernel or not, we assume the user would never use the default crashkernel value as custom value. When kexec-tools gets updated, 1. save the default crashkernel value of the older package to /tmp/crashkernel (for POWER system, /tmp/crashkernel_fadump is saved as well). 2. If auto_reset_crashkernel=yes, iterate all installed kernels. For each kernel, compare its crashkernel value with the old default crashkernel and reset it if yes The implementation makes use of two RPM scriptlets [2], - %pre is run before a package is installed so we can use it to save old default crashkernel value - %post is run after a package installed so we can use it to try to reset kernel crashkernel There are several problems when running kdumpctl in the RPM scripts for CoreOS/Atomic/Silverblue, for example, the lock can't be acquired by kdumpctl, "rpm-ostree kargs" can't be run and etc.. So don't enable this feature for CoreOS/Atomic/Silverblue. Note latest shellcheck (0.8.0) gives false positives about the associative array as of this commit. And Fedora's shellcheck is 0.7.2 and can't even correctly parse the shell code because of the associative array. [1] https://github.com/koalaman/shellcheck/issues/2399 [2] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 07:33:13 +00:00
done
}
# read the value of an environ variable from given environ file path
#
# The environment variable entries in /proc/[pid]/environ are separated
# by null bytes instead of by spaces.
#
# $1: environment variable
# $2: environ file path
read_proc_environ_var()
{
local _var=$1 _environ_path=$2
sed -n -E "s/.*(^|\x00)${_var}=([^\x00]*).*/\2/p" < "$_environ_path"
}
_OSBUILD_ENVIRON_PATH='/proc/1/environ'
set up kernel crashkernel for osbuild in kernel hook osbuild is a tool to build OS images. It uses bwrap to install packages inside a sandbox/container. Since the kernel package recommends kexec-tools which in turn recommends grubby, the installation order would be grubby -> kexec-tools -> kernel. So we can use the kernel hook 92-crashkernel.install provided by kexec-tools to set up kernel crashkernel for the target OS image. But in osbuild's case, there is no current running kernel and running `uname -r` in the container/sandbox actually returns the host kernel release. To set up kernel crashkernel for the OS image built by osbuild, a different logic is needed. We will check if kernel hook is running inside the osbuild container then set up kernel crashkernel only if osbuild hasn't specified a custome value. osbuild exposes [1] the container=bwrap-osbuild environment variable. According to [2], the environment variable is not inherited down the process tree, so we need to check /proc/1/environ to detect this environment variable to tell if the kernel hook is running inside a bwrap-osbuild container. After that we need to know if osbuild wants to use custom crashkernel value. This is done by checking if /etc/kernel/cmdline has crashkernel set [3]. /etc/kernel/cmdline is written before packages are installed. [1] https://github.com/osbuild/osbuild/pull/926 [2] https://systemd.io/CONTAINER_INTERFACE/ [3] https://bugzilla.redhat.com/show_bug.cgi?id=2024976#c5 Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-15 13:45:18 +00:00
_is_osbuild()
{
[[ $(read_proc_environ_var container "$_OSBUILD_ENVIRON_PATH") == bwrap-osbuild ]]
set up kernel crashkernel for osbuild in kernel hook osbuild is a tool to build OS images. It uses bwrap to install packages inside a sandbox/container. Since the kernel package recommends kexec-tools which in turn recommends grubby, the installation order would be grubby -> kexec-tools -> kernel. So we can use the kernel hook 92-crashkernel.install provided by kexec-tools to set up kernel crashkernel for the target OS image. But in osbuild's case, there is no current running kernel and running `uname -r` in the container/sandbox actually returns the host kernel release. To set up kernel crashkernel for the OS image built by osbuild, a different logic is needed. We will check if kernel hook is running inside the osbuild container then set up kernel crashkernel only if osbuild hasn't specified a custome value. osbuild exposes [1] the container=bwrap-osbuild environment variable. According to [2], the environment variable is not inherited down the process tree, so we need to check /proc/1/environ to detect this environment variable to tell if the kernel hook is running inside a bwrap-osbuild container. After that we need to know if osbuild wants to use custom crashkernel value. This is done by checking if /etc/kernel/cmdline has crashkernel set [3]. /etc/kernel/cmdline is written before packages are installed. [1] https://github.com/osbuild/osbuild/pull/926 [2] https://systemd.io/CONTAINER_INTERFACE/ [3] https://bugzilla.redhat.com/show_bug.cgi?id=2024976#c5 Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-15 13:45:18 +00:00
}
reset kernel crashkernel for the special case where the kernel is updated right after kexec-tools When kexec-tools updates the default crashkernel value, it will try to reset the existing installed kernels including the currently running kernel. So the running kernel could have different kernel cmdline parameters from /proc/cmdline. When installing a kernel after updating kexec-tools, /usr/lib/kernel/install.d/20-grub.install would be called by kernel-install [1] which would use /proc/cmdline to set up new kernel's cmdline. To address this special case, reset the new kernel's crashkernel and fadump value to the value that would be used by running kernel after rebooting by the installation hook. One side effect of this commit is it would reset the installed kernel's crashkernel even currently running kernel don't use the default crashkernel value after rebooting. But I think this side effect is a benefit for the user. The implementation depends on kernel-install which run the scripts in /usr/lib/kernel/install.d passing the following arguments, add KERNEL-VERSION $BOOT/MACHINE-ID/KERNEL-VERSION/ KERNEL-IMAGE [INITRD-FILE ...] An concrete example is given as follows, add 5.11.12-300.fc34.x86_64 /boot/e986846f63134c7295458cf36300ba5b/5.11.12-300.fc34.x86_64 /lib/modules/5.11.12-300.fc34.x86_64/vmlinuz kernel-install could be started by the kernel package's RPM scriplet [2]. As mentioned in previous commit "try to reset kernel crashkernel when kexec-tools updates the default crashkernel value", kdumpctl has difficulty running in RPM scriptlet fore CoreOS. But rpm-ostree ignores all kernel hooks, there is no need to disable the kernel hook for CoreOS/Atomic/Silverblue. But a collaboration between rpm-ostree and kexec-tools is needed [3] to take care of this special case. Note the crashkernel.default support is dropped. [1] https://www.freedesktop.org/software/systemd/man/kernel-install.html [2] https://src.fedoraproject.org/rpms/kernel/blob/rawhide/f/kernel.spec#_2680 [3] https://github.com/coreos/rpm-ostree/issues/2894 Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-02 09:19:50 +00:00
reset_crashkernel_for_installed_kernel()
{
Simplify the management of the kernel parameter crashkernel Currently, kexec-tools only updates the crashkernel to a new default value only when both two conditions are met, - auto_reset_crashkernel=yes in kdump.conf - existing kernels or current running kernel should use the old default value. To address seen corner cases, the logic to tell if the second condition is met becomes quite complex. Instead of making the logic more complex to support aarch64-64k, this patch drops the second condition to simplify the management of the crashkernel kernel parameter. Another change brought by this simplification is kexec-tools will also set up the kernel crashkernel parameter for a fresh install (previously it's limited to osbuild). Note 1. This patch also stop trying to update /etc/default/grub because a) it only affects the static file /boot/grub2/grub.cfg b) grubby is recommended to change the kernel command-line parameters for both Fedora [1] and RHEL9 [2][3] c) For the cases of aarch64 and POWER, different kernels could have different default crashkernel value. 2. Starting with Fedora 37, posttrans rpm scriplet distinguish between package install and upgrade. [1] https://fedoraproject.org/wiki/GRUB_2 [2] https://access.redhat.com/documentation/en-us/red_hat_enterprise_linux/9/html/managing_monitoring_and_updating_the_kernel/configuring-kernel-command-line-parameters_managing-monitoring-and-updating-the-kernel#changing-kernel-command-line-parameters-for-all-boot-entries_configuring-kernel-command-line-parameters [3] https://access.redhat.com/solutions/1136173 Signed-off-by: Coiby Xu <coxu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com>
2023-04-25 20:48:25 +00:00
local _installed_kernel
reset kernel crashkernel for the special case where the kernel is updated right after kexec-tools When kexec-tools updates the default crashkernel value, it will try to reset the existing installed kernels including the currently running kernel. So the running kernel could have different kernel cmdline parameters from /proc/cmdline. When installing a kernel after updating kexec-tools, /usr/lib/kernel/install.d/20-grub.install would be called by kernel-install [1] which would use /proc/cmdline to set up new kernel's cmdline. To address this special case, reset the new kernel's crashkernel and fadump value to the value that would be used by running kernel after rebooting by the installation hook. One side effect of this commit is it would reset the installed kernel's crashkernel even currently running kernel don't use the default crashkernel value after rebooting. But I think this side effect is a benefit for the user. The implementation depends on kernel-install which run the scripts in /usr/lib/kernel/install.d passing the following arguments, add KERNEL-VERSION $BOOT/MACHINE-ID/KERNEL-VERSION/ KERNEL-IMAGE [INITRD-FILE ...] An concrete example is given as follows, add 5.11.12-300.fc34.x86_64 /boot/e986846f63134c7295458cf36300ba5b/5.11.12-300.fc34.x86_64 /lib/modules/5.11.12-300.fc34.x86_64/vmlinuz kernel-install could be started by the kernel package's RPM scriplet [2]. As mentioned in previous commit "try to reset kernel crashkernel when kexec-tools updates the default crashkernel value", kdumpctl has difficulty running in RPM scriptlet fore CoreOS. But rpm-ostree ignores all kernel hooks, there is no need to disable the kernel hook for CoreOS/Atomic/Silverblue. But a collaboration between rpm-ostree and kexec-tools is needed [3] to take care of this special case. Note the crashkernel.default support is dropped. [1] https://www.freedesktop.org/software/systemd/man/kernel-install.html [2] https://src.fedoraproject.org/rpms/kernel/blob/rawhide/f/kernel.spec#_2680 [3] https://github.com/coreos/rpm-ostree/issues/2894 Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-02 09:19:50 +00:00
# During package install, only try to reset crashkernel for osbuild
# thus to avoid calling grubby when installing os via anaconda
Don't try to update crashkernel when bootloader is not installed Currently when using anaconda to install the OS, the following errors occur, INF packaging: Configuring (running scriptlet for): kernel-core-5.14.0-70.el9.x86_64 ... INF dnf.rpm: grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory ... INF packaging: Configuring (running scriptlet for): kexec-tools-2.0.23-9.el9.x86_64 ... INF dnf.rpm: grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory grep: /boot/grub2/grubenv: No such file or directory Or for s390, the following errors occur, INF packaging: Configuring (running scriptlet for): kernel-core-5.14.0-71.el9.s390x ... 03:37:51,232 INF dnf.rpm: grep: /etc/zipl.conf: No such file or directory grep: /etc/zipl.conf: No such file or directory grep: /etc/zipl.conf: No such file or directory INF packaging: Configuring (running scriptlet for): kexec-tools-2.0.23-9_1.el9_0.s390x ... INF dnf.rpm: grep: /etc/zipl.conf: No such file or directory This is because when anaconda installs the packages, bootloader hasn't been installed and /boot/grub2/grubenv or /etc/zipl.conf doesn't exist. So don't try to update crashkernel when bootloader isn't ready to avoid the above errors. Note this is the second attempt to fix this issue. Previously a file /tmp/kexec_tools_package_install was created to avoid running the related code thus to avoid the above errors but unfortunately that approach has two issues a) somehow osbuild doesn't delete it for RHEL b) this file could still exist if users manually remove kexec-tools. Fixes: e218128 ("Only try to reset crashkernel for osbuild during package install") Reported-by: Jan Stodola <jstodola@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com>
2022-12-20 05:59:18 +00:00
if ! _is_bootloader_installed && ! _is_osbuild; then
return
fi
reset kernel crashkernel for the special case where the kernel is updated right after kexec-tools When kexec-tools updates the default crashkernel value, it will try to reset the existing installed kernels including the currently running kernel. So the running kernel could have different kernel cmdline parameters from /proc/cmdline. When installing a kernel after updating kexec-tools, /usr/lib/kernel/install.d/20-grub.install would be called by kernel-install [1] which would use /proc/cmdline to set up new kernel's cmdline. To address this special case, reset the new kernel's crashkernel and fadump value to the value that would be used by running kernel after rebooting by the installation hook. One side effect of this commit is it would reset the installed kernel's crashkernel even currently running kernel don't use the default crashkernel value after rebooting. But I think this side effect is a benefit for the user. The implementation depends on kernel-install which run the scripts in /usr/lib/kernel/install.d passing the following arguments, add KERNEL-VERSION $BOOT/MACHINE-ID/KERNEL-VERSION/ KERNEL-IMAGE [INITRD-FILE ...] An concrete example is given as follows, add 5.11.12-300.fc34.x86_64 /boot/e986846f63134c7295458cf36300ba5b/5.11.12-300.fc34.x86_64 /lib/modules/5.11.12-300.fc34.x86_64/vmlinuz kernel-install could be started by the kernel package's RPM scriplet [2]. As mentioned in previous commit "try to reset kernel crashkernel when kexec-tools updates the default crashkernel value", kdumpctl has difficulty running in RPM scriptlet fore CoreOS. But rpm-ostree ignores all kernel hooks, there is no need to disable the kernel hook for CoreOS/Atomic/Silverblue. But a collaboration between rpm-ostree and kexec-tools is needed [3] to take care of this special case. Note the crashkernel.default support is dropped. [1] https://www.freedesktop.org/software/systemd/man/kernel-install.html [2] https://src.fedoraproject.org/rpms/kernel/blob/rawhide/f/kernel.spec#_2680 [3] https://github.com/coreos/rpm-ostree/issues/2894 Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-02 09:19:50 +00:00
if ! _installed_kernel=$(_find_kernel_path_by_release "$1"); then
exit 1
fi
if _is_osbuild; then
if ! grep -qs crashkernel= /etc/kernel/cmdline; then
reset_crashkernel "--kernel=$_installed_kernel"
fi
set up kernel crashkernel for osbuild in kernel hook osbuild is a tool to build OS images. It uses bwrap to install packages inside a sandbox/container. Since the kernel package recommends kexec-tools which in turn recommends grubby, the installation order would be grubby -> kexec-tools -> kernel. So we can use the kernel hook 92-crashkernel.install provided by kexec-tools to set up kernel crashkernel for the target OS image. But in osbuild's case, there is no current running kernel and running `uname -r` in the container/sandbox actually returns the host kernel release. To set up kernel crashkernel for the OS image built by osbuild, a different logic is needed. We will check if kernel hook is running inside the osbuild container then set up kernel crashkernel only if osbuild hasn't specified a custome value. osbuild exposes [1] the container=bwrap-osbuild environment variable. According to [2], the environment variable is not inherited down the process tree, so we need to check /proc/1/environ to detect this environment variable to tell if the kernel hook is running inside a bwrap-osbuild container. After that we need to know if osbuild wants to use custom crashkernel value. This is done by checking if /etc/kernel/cmdline has crashkernel set [3]. /etc/kernel/cmdline is written before packages are installed. [1] https://github.com/osbuild/osbuild/pull/926 [2] https://systemd.io/CONTAINER_INTERFACE/ [3] https://bugzilla.redhat.com/show_bug.cgi?id=2024976#c5 Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-15 13:45:18 +00:00
return
fi
Simplify the management of the kernel parameter crashkernel Currently, kexec-tools only updates the crashkernel to a new default value only when both two conditions are met, - auto_reset_crashkernel=yes in kdump.conf - existing kernels or current running kernel should use the old default value. To address seen corner cases, the logic to tell if the second condition is met becomes quite complex. Instead of making the logic more complex to support aarch64-64k, this patch drops the second condition to simplify the management of the crashkernel kernel parameter. Another change brought by this simplification is kexec-tools will also set up the kernel crashkernel parameter for a fresh install (previously it's limited to osbuild). Note 1. This patch also stop trying to update /etc/default/grub because a) it only affects the static file /boot/grub2/grub.cfg b) grubby is recommended to change the kernel command-line parameters for both Fedora [1] and RHEL9 [2][3] c) For the cases of aarch64 and POWER, different kernels could have different default crashkernel value. 2. Starting with Fedora 37, posttrans rpm scriplet distinguish between package install and upgrade. [1] https://fedoraproject.org/wiki/GRUB_2 [2] https://access.redhat.com/documentation/en-us/red_hat_enterprise_linux/9/html/managing_monitoring_and_updating_the_kernel/configuring-kernel-command-line-parameters_managing-monitoring-and-updating-the-kernel#changing-kernel-command-line-parameters-for-all-boot-entries_configuring-kernel-command-line-parameters [3] https://access.redhat.com/solutions/1136173 Signed-off-by: Coiby Xu <coxu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com>
2023-04-25 20:48:25 +00:00
_update_crashkernel "$_installed_kernel"
reset kernel crashkernel for the special case where the kernel is updated right after kexec-tools When kexec-tools updates the default crashkernel value, it will try to reset the existing installed kernels including the currently running kernel. So the running kernel could have different kernel cmdline parameters from /proc/cmdline. When installing a kernel after updating kexec-tools, /usr/lib/kernel/install.d/20-grub.install would be called by kernel-install [1] which would use /proc/cmdline to set up new kernel's cmdline. To address this special case, reset the new kernel's crashkernel and fadump value to the value that would be used by running kernel after rebooting by the installation hook. One side effect of this commit is it would reset the installed kernel's crashkernel even currently running kernel don't use the default crashkernel value after rebooting. But I think this side effect is a benefit for the user. The implementation depends on kernel-install which run the scripts in /usr/lib/kernel/install.d passing the following arguments, add KERNEL-VERSION $BOOT/MACHINE-ID/KERNEL-VERSION/ KERNEL-IMAGE [INITRD-FILE ...] An concrete example is given as follows, add 5.11.12-300.fc34.x86_64 /boot/e986846f63134c7295458cf36300ba5b/5.11.12-300.fc34.x86_64 /lib/modules/5.11.12-300.fc34.x86_64/vmlinuz kernel-install could be started by the kernel package's RPM scriplet [2]. As mentioned in previous commit "try to reset kernel crashkernel when kexec-tools updates the default crashkernel value", kdumpctl has difficulty running in RPM scriptlet fore CoreOS. But rpm-ostree ignores all kernel hooks, there is no need to disable the kernel hook for CoreOS/Atomic/Silverblue. But a collaboration between rpm-ostree and kexec-tools is needed [3] to take care of this special case. Note the crashkernel.default support is dropped. [1] https://www.freedesktop.org/software/systemd/man/kernel-install.html [2] https://src.fedoraproject.org/rpms/kernel/blob/rawhide/f/kernel.spec#_2680 [3] https://github.com/coreos/rpm-ostree/issues/2894 Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-02 09:19:50 +00:00
}
main()
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{
# Determine if the dump mode is kdump or fadump
determine_dump_mode
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case "$1" in
start)
if ! start; then
derror "Starting kdump: [FAILED]"
exit 1
fi
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;;
stop)
if ! stop; then
derror "Stopping kdump: [FAILED]"
exit 1
fi
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;;
status)
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EXIT_CODE=0
is_kernel_loaded "$DEFAULT_DUMP_MODE"
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case "$?" in
0)
dinfo "Kdump is operational"
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EXIT_CODE=0
;;
1)
dinfo "Kdump is not operational"
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EXIT_CODE=3
;;
esac
exit $EXIT_CODE
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;;
reload)
reload
;;
restart)
if ! stop; then
derror "Stopping kdump: [FAILED]"
exit 1
fi
if ! start; then
derror "Starting kdump: [FAILED]"
exit 1
fi
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;;
rebuild)
rebuild
;;
propagate)
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propagate_ssh_key
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;;
showmem)
show_reserved_mem
;;
estimate)
do_estimate
;;
get-default-crashkernel)
get_default_crashkernel "$2"
;;
reset-crashkernel)
rewrite reset_crashkernel to support fadump and to used by RPM scriptlet Rewrite kdumpctl reset-crashkernel KERNEL_PATH as kdumpctl reset-crashkernel [--fadump=[on|off|nocma]] [--kernel=path_to_kernel] [--reboot] This interface would reset a specific kernel to the default crashkernel value given the kernel path. And it also supports grubby's syntax so there are the following special cases, - if --kernel not specified, - use KDUMP_KERNELVER if it's defined in /etc/sysconfig/kdump - otherwise use current running kernel, i.e. `uname -r` - if --kernel=DEFAULT, the default boot kernel is chosen - if --kernel=ALL, all kernels would have its crashkernel reset to the default value and the /etc/default/grub is updated as well --fadump=[on|off|nocma] toggles fadump on/off for the kernel provided in KERNEL_PATH. If --fadump is omitted, the dump mode is determined by parsing the kernel command line for the kernel(s) to update. CoreOS/Atomic/Silverblue needs to be treated as a special case because, - "rpm-ostree kargs" is used to manage kernel command line parameters so --kernel doesn't make sense and there is no need to find current running kernel - "rpm-ostree kargs" itself would prompt the user to reboot the system after modify the kernel command line parameter - POWER is not supported so we can assume the dump mode is always kdump This interface will also be called by kexec-tools RPM scriptlets [1] to reset crashkernel. Note the support of crashkenrel.default is dropped. [1] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 05:39:40 +00:00
shift
reset_crashkernel "$@"
;;
_reset-crashkernel-after-update)
try to reset kernel crashkernel when kexec-tools updates the default crashkernel value kexec-tools could update the default crashkernel value. When auto_reset_crashkernel=yes, reset kernel to new crashkernel value in the following two cases, - crashkernel=auto is found in the kernel cmdline - the kernel crashkernel was previously set by kexec-tools i.e. the kernel is using old default crashkernel value To tell if the user is using a custom value for the kernel crashkernel or not, we assume the user would never use the default crashkernel value as custom value. When kexec-tools gets updated, 1. save the default crashkernel value of the older package to /tmp/crashkernel (for POWER system, /tmp/crashkernel_fadump is saved as well). 2. If auto_reset_crashkernel=yes, iterate all installed kernels. For each kernel, compare its crashkernel value with the old default crashkernel and reset it if yes The implementation makes use of two RPM scriptlets [2], - %pre is run before a package is installed so we can use it to save old default crashkernel value - %post is run after a package installed so we can use it to try to reset kernel crashkernel There are several problems when running kdumpctl in the RPM scripts for CoreOS/Atomic/Silverblue, for example, the lock can't be acquired by kdumpctl, "rpm-ostree kargs" can't be run and etc.. So don't enable this feature for CoreOS/Atomic/Silverblue. Note latest shellcheck (0.8.0) gives false positives about the associative array as of this commit. And Fedora's shellcheck is 0.7.2 and can't even correctly parse the shell code because of the associative array. [1] https://github.com/koalaman/shellcheck/issues/2399 [2] https://docs.fedoraproject.org/en-US/packaging-guidelines/Scriptlets/ Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-01 07:33:13 +00:00
if [[ $(kdump_get_conf_val auto_reset_crashkernel) != no ]]; then
reset_crashkernel_after_update
fi
;;
_reset-crashkernel-for-installed_kernel)
reset kernel crashkernel for the special case where the kernel is updated right after kexec-tools When kexec-tools updates the default crashkernel value, it will try to reset the existing installed kernels including the currently running kernel. So the running kernel could have different kernel cmdline parameters from /proc/cmdline. When installing a kernel after updating kexec-tools, /usr/lib/kernel/install.d/20-grub.install would be called by kernel-install [1] which would use /proc/cmdline to set up new kernel's cmdline. To address this special case, reset the new kernel's crashkernel and fadump value to the value that would be used by running kernel after rebooting by the installation hook. One side effect of this commit is it would reset the installed kernel's crashkernel even currently running kernel don't use the default crashkernel value after rebooting. But I think this side effect is a benefit for the user. The implementation depends on kernel-install which run the scripts in /usr/lib/kernel/install.d passing the following arguments, add KERNEL-VERSION $BOOT/MACHINE-ID/KERNEL-VERSION/ KERNEL-IMAGE [INITRD-FILE ...] An concrete example is given as follows, add 5.11.12-300.fc34.x86_64 /boot/e986846f63134c7295458cf36300ba5b/5.11.12-300.fc34.x86_64 /lib/modules/5.11.12-300.fc34.x86_64/vmlinuz kernel-install could be started by the kernel package's RPM scriplet [2]. As mentioned in previous commit "try to reset kernel crashkernel when kexec-tools updates the default crashkernel value", kdumpctl has difficulty running in RPM scriptlet fore CoreOS. But rpm-ostree ignores all kernel hooks, there is no need to disable the kernel hook for CoreOS/Atomic/Silverblue. But a collaboration between rpm-ostree and kexec-tools is needed [3] to take care of this special case. Note the crashkernel.default support is dropped. [1] https://www.freedesktop.org/software/systemd/man/kernel-install.html [2] https://src.fedoraproject.org/rpms/kernel/blob/rawhide/f/kernel.spec#_2680 [3] https://github.com/coreos/rpm-ostree/issues/2894 Reviewed-by: Pingfan Liu <piliu@redhat.com> Reviewed-by: Philipp Rudo <prudo@redhat.com> Signed-off-by: Coiby Xu <coxu@redhat.com>
2021-12-02 09:19:50 +00:00
if [[ $(kdump_get_conf_val auto_reset_crashkernel) != no ]]; then
reset_crashkernel_for_installed_kernel "$2"
fi
;;
*)
dinfo $"Usage: $0 {estimate|start|stop|status|restart|reload|rebuild|reset-crashkernel|propagate|showmem}"
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exit 1
;;
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esac
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}
if [[ ${__SOURCED__:+x} ]]; then
return
fi
if [[ ! -f $KDUMP_CONFIG_FILE ]]; then
derror "Error: No kdump config file found!"
exit 1
fi
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# Other kdumpctl instances will block in queue, until this one exits
single_instance_lock
# To avoid fd 9 leaking, we invoke a subshell, close fd 9 and call main.
# So that fd isn't leaking when main is invoking a subshell.
(
exec 9<&-
main "$@"
)