From ArchWiki

S.M.A.R.T. (Self-Monitoring, Analysis, and Reporting Technology) is a supplementary component built into many modern storage devices through which devices monitor, store, and analyze the health of their operation. Statistics are collected (temperature, number of reallocated sectors, seek errors...) which software can use to measure the health of a device, predict possible device failure, and provide notifications on unsafe values.


The smartmontools package contains two utility programs for analyzing and monitoring storage devices: smartctl and smartd and a 3rd database update utility update-smart-drivedb.

Install the smartmontools package to use these tools.

SMART support must be available and enabled on each storage device to effectively use these tools. You can use #smartctl to check for and enable SMART support. That done, you can manually #Run a test and #View test results, or you can use #smartd to automatically run tests and email notifications.


smartctl is a command-line tool that "controls the Self-Monitoring, Analysis and Reporting Technology (SMART) system built into most ATA/SATA and SCSI/SAS hard drives and solid-state drives."

The -i/--info option prints a variety of information about a device, including whether SMART is available and enabled:

# smartctl --info /dev/sda | grep 'SMART support is:'
SMART support is: Available - device has SMART capability.
SMART support is: Enabled

If SMART is available but not enabled, you can enable it:

# smartctl --smart=on /dev/device

You may need to specify a device type. For example, specifying --device=ata tells smartctl that the device type is ATA, and this prevents smartctl from issuing SCSI commands to that device.

Run a test

There are three types of self-tests that a device can execute (all are safe to user data):

  • Short: runs tests that have a high probability of detecting device problems,
  • Extended or Long: the test is the same as the short check but with no time limit and with complete disk surface examination,
  • Conveyance: identifies if damage incurred during transportation of the device.
  • Selective: tests a range of LBA (read smartctl(8) § t for more).

The -c/--capabilities flag prints which tests a device supports and the approximate execution time of each test. For example:

# smartctl -c /dev/sda
Short self-test routine
recommended polling time:        (   1) minutes.
Extended self-test routine
recommended polling time:        (  74) minutes.
Conveyance self-test routine
recommended polling time:        (   2) minutes.

Use -t/--test=test_name flag to run a test:

# smartctl -t short /dev/device
# smartctl -t long /dev/device
# smartctl -t conveyance /dev/device
# smartctl -t select,123+345 /dev/device

View test results

You can view a device's overall health with the -H flag. "If the device reports failing health status, this means either that the device has already failed, or that it is predicting its own failure within the next 24 hours. If this happens […] get your data off the disk and to someplace safe as soon as you can."

# smartctl -H /dev/device

You can also view a list of recent test results and detailed information about a device:

# smartctl -l selftest /dev/device
# smartctl -x /dev/device

Generate table with attributes of all disks

This article or section needs language, wiki syntax or style improvements. See Help:Style for reference.

Reason: The wiki is not a code development platform. Long scripts should be maintained elsewhere. (Discuss in Talk:S.M.A.R.T.)
function drives_csv {
	declare -A drive_values
	for d in `smartctl --scan -d scsi | cut -d' ' -f1`; do
		for l in `smartctl -A $d | grep ATTRIBUTE_NAME -A30 | grep -v ATTRIBUTE_NAME | column -H1,3,4,5,6,7,8,9,11,12,13,14,15 -t -o, | sed 's/ //g'`; do
			key=`echo $l | cut -d',' -f1`
			value=`echo $l | cut -d',' -f2`
			#~ echo "${key},${drive_values[$key]}"
	for key in "${!drive_values[@]}"; do
		echo "${key}${drive_values[$key]}"
	done | sort
drives_csv | column -s, -t


The smartd daemon monitors SMART statuses and emits notifications when something goes wrong. It can be managed with systemd and configured using the /etc/smartd.conf configuration file. The configuration file syntax is esoteric, and this wiki page provides only a quick reference. For more complete information, read the examples and comments within the configuration file, or read smartd.conf(5).

daemon management

To start the daemon, check its status, make it auto-start on system boot and read recent log file entries, simply start/enable the smartd.service systemd unit.

Define the devices to monitor

To monitor for all possible SMART errors on all disks, the following setting must be added in the configuration file.


Note this is the default smartd configuration and the -a parameter, which is the default parameter, may be omitted.

To monitor for all possible SMART errors on /dev/sda and /dev/sdb, and ignore all other devices:

/dev/sda -a
/dev/sdb -a

To monitor for all possible SMART errors on externally connected disks (USB-backup disks spring to mind) it is prudent to tell smartd the UUID of the device since the /dev/sdX of the drive might change during a reboot.

First, you will have to get the UUID of the disk to monitor: ls -lah /dev/disk/by-uuid/ now look for the disk you want to Monitor

$ ls -lah /dev/disk/by-uuid/
lrwxrwxrwx 1 root root   9 Nov  5 22:41 820cdd8a-866a-444d-833c-1edb0f4becac -> ../../sde
lrwxrwxrwx 1 root root  10 Nov  5 22:41 b51b87f3-425e-4fe7-883f-f4ff1689189e -> ../../sdf2
lrwxrwxrwx 1 root root   9 Nov  5 22:42 ea2199dd-8f9f-4065-a7ba-71bde11a462c -> ../../sda
lrwxrwxrwx 1 root root  10 Nov  5 22:41 fe9e886a-8031-439f-a909-ad06c494fadb -> ../../sdf1

In this example, the target device is sde. Now to tell smartd to monitor that disk simply use the /dev/disk/by-uuid/ path.

/dev/disk/by-uuid/820cdd8a-866a-444d-833c-1edb0f4becac -a

Note that you may additionally need -d removable for smartd to work.

Now your USB disk will be monitored even if the /dev/sdX path changes during reboot.

Notifying potential problems

To have an email sent when a failure or new error occurs, use the -m option:

DEVICESCAN -m address@domain.com

To be able to send the email externally (i.e. not to the root mail account) a MTA (Mail Transport Agent) or a MUA (Mail User Agent) will need to be installed and configured. Common MUAs are msmtp and Postfix, but perhaps the easiest dma will suffice. Common MTAs are sendmail and Postfix. It is enough to simply configure S-nail if you do not want anything else, but you will need to follow these instructions.

The -M test option causes a test email to be sent each time the smartd daemon starts:

DEVICESCAN -m address@domain.com -M test

Emails can take quite a while to be delivered. To make sure you are warned immediately if your hard drive fails, you may also define a script to be executed in addition to the email sending:

DEVICESCAN -m address@domain.com -M exec /usr/local/bin/smartdnotify

To send an email and a system notification, put something like this into /usr/local/bin/smartdnotify:

# Send email
# Notify user

If you are running a desktop environment, you might also prefer having a popup to appear on your desktop. In this case, you can use this script (replace X_user and X_userid with the user and userid running X respectively) :


sudo -u X_user DISPLAY=:0 DBUS_SESSION_BUS_ADDRESS=unix:path=/run/user/X_userid/bus notify-send "S.M.A.R.T Error ($SMARTD_FAILTYPE)" "$SMARTD_MESSAGE" --icon=dialog-warning -u critical

This requires libnotify and a compatible desktop environment. See Desktop notifications for more details.

You can also put your custom scripts into /usr/share/smartmontools/smartd_warning.d/:

This scripts notifies every logged in users on the system via libnotify.


for LINE in `w -hs`
    USER=`echo $LINE | awk '{print $1}'`
    USER_ID=`id -u $USER`
    DISP_ID=`echo $LINE | awk '{print $8}'`
    sudo -u $USER DISPLAY=$DISP_ID DBUS_SESSION_BUS_ADDRESS=unix:path=/run/user/$USER_ID/bus notify-send "S.M.A.R.T Error ($SMARTD_FAILTYPE)" "$SMARTD_MESSAGE" --icon=dialog-warning -u critical

This script requires libnotify and procps-ng and a compatible desktop environment.

You can execute your custom scripts with

DEVICESCAN -m @smartdnotify

Power management

If you use a computer under control of power management, you should instruct smartd how to handle disks in low power mode. Usually, in response to SMART commands issued by smartd, the disk platters are spun up. So if this option is not used, then a disk which is in a low-power mode may be spun up and put into a higher-power mode when it is periodically polled by smartd.

DEVICESCAN -n standby,15,q

More info on smartmontools wiki.

On some devices the -n does not work. You get the following error message in syslog:

# journalctl -u smartd
CHECK POWER MODE: incomplete response, ATA output registers missing
Device: /dev/sdb [SAT], no ATA CHECK POWER STATUS support, ignoring -n Directive

As an alternative, you can use the -i option of smartd. It controls how often smartd spins the disks up to check their status. Default is 30 minutes. To change it, edit /etc/conf.d/smartd.

SMARTD_ARGS="-i 10800"  Check status every 10800 seconds (3 hours)

For more info see smartd(8).

Schedule self-tests

smartd can tell disks to perform self-tests on a schedule. The following /etc/smartd.conf configuration will start a short self-test every day between 2-3am, and an extended self test weekly on Saturdays between 3-4am:

DEVICESCAN -s (S/../.././02|L/../../6/03)

Alert on temperature changes

smartd can track disk temperatures and alert if they rise too quickly or hit a high limit. The following will log changes of 4 degrees or more, log when temp reaches 35 degrees, and log/email a warning when temp reaches 40:

  • You can determine the current disk temperature with the command smartctl -A /dev/device | grep Temperature_Celsius
  • If you have some disks that run a lot hotter/cooler than others, remove DEVICESCAN and define a separate configuration for each device with appropriate temperature settings.

Complete smartd.conf example

Putting together all of the above gives the following example configuration:

  • DEVICESCAN smartd scans for disks and monitors all it finds
  • -a monitor all attributes
  • -o on enable automatic offline data collection
  • -S on enable automatic attribute autosave
  • -n standby,q do not check if disk is in standby, and suppress log message to that effect so as not to cause a write to disk
  • -s ... schedule short and long self-tests
  • -W ... monitor temperature
  • -m ... mail alerts
DEVICESCAN -a -o on -S on -n standby,q -s (S/../.././02|L/../../6/03) -W 4,35,40 -m username-or-email


This utility downloads the latest version of drivedb.h from the smartmontools source repository so that new drives and their parameters are understood.

The downloaded file can replace the default one located at /usr/share/smartmontools/drivedb.h and is a plaintext file that contains comma separated values for each drive.

If your drive is not yet recognised, it can be submitted upstream.

See update-smart-drivedb(8) for full command line options.

Console applications

  • skdump — utility to monitor and manage SMART devices to monitor and report hard disk drive health.
https://0pointer.de/blog/projects/being-smart.html || libatasmart
  • iostat -x (from sysstat) also provides some disk health metrics: in particular, high values in the f_await column mean that the disk does not respond quickly to requests, and might be failing.

GUI applications

  • DisKMonitor — Tools for KDE to monitor SMART devices and MDRaid health status.
https://github.com/papylhomme/diskmonitor || diskmonitorAUR
https://apps.gnome.org/DiskUtility/ || gnome-disk-utility
  • GSmartControl — GUI for smartctl. It allows you to inspect the drive's SMART data to determine its health, as well as run various tests on it.
https://gsmartcontrol.shaduri.dev/ || gsmartcontrol
  • Plasma Disks — Hard disk health monitoring for KDE Plasma. Part of plasma.
https://invent.kde.org/plasma/plasma-disks/ || plasma-disks

See also