GRAYBYTE | AutoShopMaker

Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

# # This is library of helper functions that can be used in scripts in tuned profiles. # # API provided by this library is under heavy development and could be changed anytime # # # Config # STORAGE=/run/tuned STORAGE_PERSISTENT=/var/lib/tuned STORAGE_SUFFIX=".save" # # Helpers # # Save value # $0 STORAGE_NAME VALUE save_value() { [ "$#" -ne 2 ] && return [ "$2" -a -e "${STORAGE}" ] && echo "$2" > "${STORAGE}/${1}${STORAGE_SUFFIX}" } # Parse sysfs value, i.e. for "val1 [val2] val3" return "val2" # $0 SYSFS_NAME parse_sys() { local V1 V2 [ -r "$1" ] || return V1=`cat "$1"` V2="${V1##*[}" V2="${V2%%]*}" echo "${V2:-$V1}" } # Save sysfs value # $0 STORAGE_NAME SYSFS_NAME save_sys() { [ "$#" -ne 2 ] && return [ -r "$2" -a ! -e "${STORAGE}/${1}${STORAGE_SUFFIX}" ] && parse_sys "$2" > "${STORAGE}/${1}${STORAGE_SUFFIX}" } # Set sysfs value # $0 SYSFS_NAME VALUE set_sys() { [ "$#" -ne 2 ] && return [ -w "$1" ] && echo "$2" > "$1" } # Save and set sysfs value # $0 STORAGE_NAME SYSFS_NAME VALUE save_set_sys() { [ "$#" -ne 3 ] && return save_sys "$1" "$2" set_sys "$2" "$3" } # Get stored sysfs value from storage # $0 STORAGE_NAME get_stored_sys() { [ "$#" -ne 1 ] && return [ -r "${STORAGE}/${1}${STORAGE_SUFFIX}" ] && cat "${STORAGE}/${1}${STORAGE_SUFFIX}" } # Restore value from storage # $0 STORAGE_NAME restore_value() { [ "$#" -ne 1 ] && return _rs_value="`get_stored_sys \"$1\"`" unlink "${STORAGE}/${1}${STORAGE_SUFFIX}" >/dev/null 2>&1 [ "$_rs_value" ] && echo "$_rs_value" } # Restore sysfs value from storage, if nothing is stored, use VALUE # $0 STORAGE_NAME SYSFS_NAME [VALUE] restore_sys() { [ "$#" -lt 2 -o "$#" -gt 3 ] && return _rs_value="`get_stored_sys \"$1\"`" unlink "${STORAGE}/${1}${STORAGE_SUFFIX}" >/dev/null 2>&1 [ "$_rs_value" ] || _rs_value="$3" [ "$_rs_value" ] && set_sys "$2" "$_rs_value" } # # DISK tuning # DISKS_DEV="$(command ls -d1 /dev/[shv]d*[a-z] 2>/dev/null)" DISKS_SYS="$(command ls -d1 /sys/block/{sd,cciss,dm-,vd,dasd,xvd}* 2>/dev/null)" _check_elevator_override() { /bin/fgrep -q 'elevator=' /proc/cmdline } # $0 OPERATOR DEVICES ELEVATOR _set_elevator_helper() { _check_elevator_override && return SYS_BLOCK_SDX="" [ "$2" ] && SYS_BLOCK_SDX=$(eval LANG=C /bin/ls -1 "${2}" 2>/dev/null) # if there is no kernel command line elevator settings, apply the elevator if [ "$1" -a "$SYS_BLOCK_SDX" ]; then for i in $SYS_BLOCK_SDX; do se_dev="`echo \"$i\" | sed 's|/sys/block/$[^/]\+$/queue/scheduler|\1|'`" $1 "elevator_${se_dev}" "$i" "$3" done fi } # $0 DEVICES ELEVATOR set_elevator() { _set_elevator_helper save_set_sys "$1" "$2" } # $0 DEVICES [ELEVATOR] restore_elevator() { re_elevator="$2" [ "$re_elevator" ] || re_elevator=cfq _set_elevator_helper restore_sys "$1" "$re_elevator" } # SATA Aggressive Link Power Management # usage: set_disk_alpm policy set_disk_alpm() { policy=$1 for host in /sys/class/scsi_host/*; do if [ -f $host/ahci_port_cmd ]; then port_cmd=`cat $host/ahci_port_cmd`; if [ $((0x$port_cmd & 0x240000)) = 0 -a -f $host/link_power_management_policy ]; then echo $policy >$host/link_power_management_policy; else echo "max_performance" >$host/link_power_management_policy; fi fi done } # usage: set_disk_apm level set_disk_apm() { level=$1 for disk in $DISKS_DEV; do hdparm -B $level $disk &>/dev/null done } # usage: set_disk_spindown level set_disk_spindown() { level=$1 for disk in $DISKS_DEV; do hdparm -S $level $disk &>/dev/null done } # usage: multiply_disk_readahead by multiply_disk_readahead() { by=$1 # float multiplication not supported in bash # bc might not be installed, python is available for sure for disk in $DISKS_SYS; do control="${disk}/queue/read_ahead_kb" old=$(cat $control) new=$(echo "print int($old*$by)" | python) (echo $new > $control) &>/dev/null done } # usage: remount_disk options partition1 partition2 ... remount_partitions() { options=$1 shift for partition in $@; do mount -o remount,$options $partition >/dev/null 2>&1 done } remount_all_no_rootboot_partitions() { [ "$1" ] || return # Find non-root and non-boot partitions, disable barriers on them rootvol=$(df -h / | grep "^/dev" | awk '{print $1}') bootvol=$(df -h /boot | grep "^/dev" | awk '{print $1}') volumes=$(df -hl --exclude=tmpfs | grep "^/dev" | awk '{print $1}') nobarriervols=$(echo "$volumes" | grep -v $rootvol | grep -v $bootvol) remount_partitions "$1" $nobarriervols } DISK_QUANTUM_SAVE="${STORAGE}/disk_quantum${STORAGE_SUFFIX}" set_disk_scheduler_quantum() { value=$1 rm -f "$DISK_QUANTUM_SAVE" for disk in $DISKS_SYS; do control="${disk}/queue/iosched/quantum" echo "echo $(cat $control) > $control" >> "$DISK_QUANTUM_SAVE" 2>/dev/null (echo $value > $control) &2>/dev/null done } restore_disk_scheduler_quantum() { if [ -r "$DISK_QUANTUM_SAVE" ]; then /bin/bash "$DISK_QUANTUM_SAVE" &>/dev/null rm -f "$DISK_QUANTUM_SAVE" fi } # # CPU tuning # CPUSPEED_SAVE_FILE="${STORAGE}/cpuspeed${STORAGE_SUFFIX}" CPUSPEED_ORIG_GOV="${STORAGE}/cpuspeed-governor-%s${STORAGE_SUFFIX}" CPUSPEED_STARTED="${STORAGE}/cpuspeed-started" CPUSPEED_CFG="/etc/sysconfig/cpuspeed" CPUSPEED_INIT="/etc/rc.d/init.d/cpuspeed" # do not use cpuspeed CPUSPEED_USE="0" CPUS="$(ls -d1 /sys/devices/system/cpu/cpu* | sed 's;^.*/;;' | grep "cpu[0-9]\+")" # set CPU governor setting and store the old settings # usage: set_cpu_governor governor set_cpu_governor() { governor=$1 # always patch cpuspeed configuration if exists, if it doesn't exist and is enabled, # explicitly disable it with hint if [ -e $CPUSPEED_INIT ]; then if [ ! -e $CPUSPEED_SAVE_FILE -a -e $CPUSPEED_CFG ]; then cp -p $CPUSPEED_CFG $CPUSPEED_SAVE_FILE sed -e 's/^GOVERNOR=.*/GOVERNOR='$governor'/g' $CPUSPEED_SAVE_FILE > $CPUSPEED_CFG fi else if [ "$CPUSPEED_USE" = "1" ]; then echo >&2 echo "Suggestion: install 'cpuspeed' package to get best tuning results." >&2 echo "Falling back to sysfs control." >&2 echo >&2 fi CPUSPEED_USE="0" fi if [ "$CPUSPEED_USE" = "1" ]; then service cpuspeed status &> /dev/null [ $? -eq 3 ] && touch $CPUSPEED_STARTED || rm -f $CPUSPEED_STARTED service cpuspeed restart &> /dev/null # direct change using sysfs elif [ -e /sys/devices/system/cpu/cpu0/cpufreq/scaling_governor ]; then for cpu in $CPUS; do gov_file=/sys/devices/system/cpu/$cpu/cpufreq/scaling_governor save_file=$(printf $CPUSPEED_ORIG_GOV $cpu) rm -f $save_file if [ -e $gov_file ]; then cat $gov_file > $save_file echo $governor > $gov_file fi done fi } # re-enable previous CPU governor settings # usage: restore_cpu_governor restore_cpu_governor() { if [ -e $CPUSPEED_INIT ]; then if [ -e $CPUSPEED_SAVE_FILE ]; then cp -fp $CPUSPEED_SAVE_FILE $CPUSPEED_CFG rm -f $CPUSPEED_SAVE_FILE fi if [ "$CPUSPEED_USE" = "1" ]; then if [ -e $CPUSPEED_STARTED ]; then service cpuspeed stop &> /dev/null else service cpuspeed restart &> /dev/null fi fi if [ -e $CPUSPEED_STARTED ]; then rm -f $CPUSPEED_STARTED fi else CPUSPEED_USE="0" fi if [ "$CPUSPEED_USE" != "1" -a -e /sys/devices/system/cpu/cpu0/cpufreq/scaling_governor ]; then for cpu in $CPUS; do cpufreq_dir=/sys/devices/system/cpu/$cpu/cpufreq save_file=$(printf $CPUSPEED_ORIG_GOV $cpu) if [ -e $cpufreq_dir/scaling_governor ]; then if [ -e $save_file ]; then cat $save_file > $cpufreq_dir/scaling_governor rm -f $save_file else echo userspace > $cpufreq_dir/scaling_governor cat $cpufreq_dir/cpuinfo_max_freq > $cpufreq_dir/scaling_setspeed fi fi done fi } _cpu_multicore_powersave() { value=$1 [ -e /sys/devices/system/cpu/sched_mc_power_savings ] && echo $value > /sys/devices/system/cpu/sched_mc_power_savings } # enable multi core power savings for low wakeup systems enable_cpu_multicore_powersave() { _cpu_multicore_powersave 1 } disable_cpu_multicore_powersave() { _cpu_multicore_powersave 0 } # # MEMORY tuning # THP_ENABLE="/sys/kernel/mm/transparent_hugepage/enabled" THP_SAVE="${STORAGE}/thp${STORAGE_SUFFIX}" [ -e "$THP_ENABLE" ] || THP_ENABLE="/sys/kernel/mm/redhat_transparent_hugepage/enabled" enable_transparent_hugepages() { if [ -e $THP_ENABLE ]; then cut -f2 -d'[' $THP_ENABLE | cut -f1 -d']' > $THP_SAVE (echo always > $THP_ENABLE) &> /dev/null fi } restore_transparent_hugepages() { if [ -e $THP_SAVE ]; then (echo $(cat $THP_SAVE) > $THP_ENABLE) &> /dev/null rm -f $THP_SAVE fi } # # WIFI tuning # # usage: _wifi_set_power_level level _wifi_set_power_level() { # 0 auto, PM enabled # 1-5 least savings and lowest latency - most savings and highest latency # 6 disable power savings level=$1 # do not report errors on systems with no wireless [ -e /proc/net/wireless ] || return 0 # apply the settings using iwpriv ifaces=$(cat /proc/net/wireless | grep -v '|' | sed 's@^ *$[^:]*$:.*@\1@') for iface in $ifaces; do iwpriv $iface set_power $level done # some adapters may rely on sysfs for i in /sys/bus/pci/devices/*/power_level; do (echo $level > $i) &> /dev/null done } enable_wifi_powersave() { _wifi_set_power_level 5 } disable_wifi_powersave() { _wifi_set_power_level 0 } # # BLUETOOTH tuning # disable_bluetooth() { hciconfig hci0 down >/dev/null 2>&1 lsmod | grep -q btusb && rmmod btusb } enable_bluetooth() { modprobe btusb hciconfig hci0 up >/dev/null 2>&1 } # # USB tuning # _usb_autosuspend() { value=$1 for i in /sys/bus/usb/devices/*/power/autosuspend; do echo $value > $i; done &> /dev/null } enable_usb_autosuspend() { _usb_autosuspend 1 } disable_usb_autosuspend() { _usb_autosuspend 0 } # # SOUND CARDS tuning # enable_snd_ac97_powersave() { save_set_sys ac97 /sys/module/snd_ac97_codec/parameters/power_save Y } disable_snd_ac97_powersave() { save_set_sys ac97 /sys/module/snd_ac97_codec/parameters/power_save N } restore_snd_ac97_powersave() { restore_sys ac97 /sys/module/snd_ac97_codec/parameters/power_save $1 } set_hda_intel_powersave() { save_set_sys hda_intel /sys/module/snd_hda_intel/parameters/power_save $1 } restore_hda_intel_powersave() { restore_sys hda_intel /sys/module/snd_hda_intel/parameters/power_save $1 } # # VIDEO CARDS tuning # # Power savings settings for Radeon # usage: set_radeon_powersave dynpm | default | low | mid | high set_radeon_powersave () { [ "$1" ] || return [ -e /sys/class/drm/card0/device/power_method ] || return if [ "$1" = default -o "$1" = auto -o "$1" = low -o "$1" = med -o "$1" = high ]; then [ -w /sys/class/drm/card0/device/power_profile ] || return save_sys radeon_profile /sys/class/drm/card0/device/power_profile save_set_sys radeon_method /sys/class/drm/card0/device/power_method profile set_sys /sys/class/drm/card0/device/power_profile "$1" elif [ "$1" = dynpm ]; then save_sys radeon_profile /sys/class/drm/card0/device/power_profile save_set_sys radeon_method /sys/class/drm/card0/device/power_method dynpm fi } restore_radeon_powersave () { restore_sys radeon_method /sys/class/drm/card0/device/power_method profile _rrp_method="`get_stored_sys radeon_method`" [ -z "$_rrp_method" -o _rrp_method="profile" ] && restore_sys radeon_profile /sys/class/drm/card0/device/power_profile default } # # SOFTWARE tuning # RSYSLOG_CFG="/etc/rsyslog.conf" RSYSLOG_SAVE="${STORAGE}/cpuspeed${STORAGE_SUFFIX}" disable_logs_syncing() { cp -p $RSYSLOG_CFG $RSYSLOG_SAVE sed -i 's/ \/var\/log/-\/var\/log/' $RSYSLOG_CFG } restore_logs_syncing() { mv -Z $RSYSLOG_SAVE $RSYSLOG_CFG || mv $RSYSLOG_SAVE $RSYSLOG_CFG } irqbalance_banned_cpus_clear() { sed -i '/^IRQBALANCE_BANNED_CPUS=/d' /etc/sysconfig/irqbalance || return if [ ${1:-restart} = restart ]; then systemctl try-restart irqbalance fi } irqbalance_banned_cpus_setup() { irqbalance_banned_cpus_clear norestart if [ -n "$1" ]; then echo "IRQBALANCE_BANNED_CPUS=$1" >> /etc/sysconfig/irqbalance fi systemctl try-restart irqbalance } # # HARDWARE SPECIFIC tuning # # Asus EEE with Intel Atom _eee_fsb_control() { value=$1 if [ -e /sys/devices/platform/eeepc/she ]; then echo $value > /sys/devices/platform/eeepc/she elif [ -e /sys/devices/platform/eeepc/cpufv ]; then echo $value > /sys/devices/platform/eeepc/cpufv elif [ -e /sys/devices/platform/eeepc-wmi/cpufv ]; then echo $value > /sys/devices/platform/eeepc-wmi/cpufv fi } eee_set_reduced_fsb() { _eee_fsb_control 2 } eee_set_normal_fsb() { _eee_fsb_control 1 } # # modprobe configuration handling # kvm_modprobe_file=/etc/modprobe.d/kvm.rt.tuned.conf teardown_kvm_mod_low_latency() { rm -f $kvm_modprobe_file } setup_kvm_mod_low_latency() { local HAS_KPS="" local HAS_NX_HP="" local HAS_PLE_GAP="" local WANTS_KPS="" local WANTS_NX_HP="" local WANTS_PLE_GAP="" modinfo -p kvm | grep -q kvmclock_periodic_sync && HAS_KPS=1 modinfo -p kvm | grep -q nx_huge_pages && HAS_NX_HP=1 modinfo -p kvm_intel | grep -q ple_gap && HAS_PLE_GAP=1 grep -qs kvmclock_periodic_sync "$kvm_modprobe_file" && WANTS_KPS=1 grep -qs nx_huge_pages "$kvm_modprobe_file" && WANTS_NX_HP=1 grep -qs ple_gap "$kvm_modprobe_file" && WANTS_PLE_GAP=1 if [ "$HAS_KPS" != "$WANTS_KPS" -o "$HAS_PLE_GAP" != "$WANTS_PLE_GAP" -o \ "$HAS_NX_HP" != "$WANTS_NX_HP" ]; then teardown_kvm_mod_low_latency [ "$HAS_KPS" ] && echo "options kvm kvmclock_periodic_sync=0" > $kvm_modprobe_file [ "$HAS_NX_HP" ] && echo "options kvm nx_huge_pages=0" >> $kvm_modprobe_file [ "$HAS_PLE_GAP" ] && echo "options kvm_intel ple_gap=0" >> $kvm_modprobe_file fi return 0 } # # KSM # KSM_SERVICES="ksm ksmtuned" KSM_RUN_PATH=/sys/kernel/mm/ksm/run KSM_MASK_FILE="${STORAGE_PERSISTENT}/ksm-masked" disable_ksm() { if [ ! -f $KSM_MASK_FILE ]; then # Always create $KSM_MASK_FILE, since we don't want to # run any systemctl commands during boot if ! touch $KSM_MASK_FILE; then die "failed to create $KSM_MASK_FILE" fi # Do not run any systemctl commands if $KSM_SERVICES units do not exist systemctl cat -- $KSM_SERVICES &> /dev/null || return 0 systemctl --now --quiet mask $KSM_SERVICES # Unmerge all shared pages test -f $KSM_RUN_PATH && echo 2 > $KSM_RUN_PATH fi } # Should only be called when full_rollback == true enable_ksm() { if [ -f $KSM_MASK_FILE ]; then # Do not run any systemctl commands if $KSM_SERVICES units do not exist systemctl cat -- $KSM_SERVICES &> /dev/null || return 0 if systemctl --quiet unmask $KSM_SERVICES; then rm -f $KSM_MASK_FILE fi fi } die() { echo "$@" >&2 exit 1 } # # ACTION PROCESSING # error_not_implemented() { echo "tuned: script function '$1' is not implemented." >&2 } # implicit actions, will be used if not provided by profile script: # # * start must be implemented # * stop must be implemented start() { error_not_implemented start return 16 } stop() { error_not_implemented stop return 16 } # # main processing # process() { ARG="$1" shift case "$ARG" in start) start "$@" RETVAL=$? ;; stop) stop "$@" RETVAL=$? ;; verify) if declare -f verify &> /dev/null; then verify "$@" else : fi RETVAL=$? ;; *) echo $"Usage: $0 {start|stop|verify}" RETVAL=2 ;; esac exit $RETVAL }