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Description:

pySMART 1.3.0

pySMART

Copyright (C) 2021-2023 Rafael Leira
Copyright (C) 2021 Truenas team
Copyright (C) 2015 Marc Herndon
pySMART is a simple Python wrapper for the smartctl component of
smartmontools. It is officially compatible with Linux, Windows and FreeBSD,
as long as smartctl is on the system path. Running with administrative rights
is strongly recommended, as smartctl cannot accurately detect all device types
or parse all SMART information without these permissions.
With only a device's name (ie: /dev/sda, pd0), the package will create a
Device object, populated with all relevant information about that
device. The documented API can then be used to query this object for
information, initiate self-tests, and perform other functions.
Usage
The most common way to use pySMART is to create a logical representation of the
physical storage device that you would like to work with, as shown::
>>> from pySMART import Device
>>> sda = Device('/dev/sda')
>>> sda
<SATA device on /dev/sda mod:WDC WD5000AAKS-60Z1A0 sn:WD-WCAWFxxxxxxx>

Device class members can be accessed directly, and a number of helper methods
are provided to retrieve information in bulk. Some examples are shown below::
>>> sda.assessment # Query the SMART self-assessment
'PASS'
>>> sda.attributes[9] # Query a single SMART attribute
<SMART Attribute 'Power_On_Hours' 068/000 raw:23644>
>>> sda.all_attributes() # Print the entire SMART attribute table
ID# ATTRIBUTE_NAME CUR WST THR TYPE UPDATED WHEN_FAIL RAW
1 Raw_Read_Error_Rate 200 200 051 Pre-fail Always - 0
3 Spin_Up_Time 141 140 021 Pre-fail Always - 3908
4 Start_Stop_Count 098 098 000 Old_age Always - 2690
5 Reallocated_Sector_Ct 200 200 140 Pre-fail Always - 0
... # Edited for brevity
199 UDMA_CRC_Error_Count 200 200 000 Old_age Always - 0
200 Multi_Zone_Error_Rate 200 200 000 Old_age Offline - 0
>>> sda.tests[0] # Query the most recent self-test result
<SMART Self-test [Short offline|Completed without error] hrs:23734 LBA:->
>>> sda.all_selftests() # Print the entire self-test log
ID Test_Description Status Left Hours 1st_Error@LBA
1 Short offline Completed without error 00% 23734 -
2 Short offline Completed without error 00% 23734 -
... # Edited for brevity
7 Short offline Completed without error 00% 23726 -
8 Short offline Completed without error 00% 1 -

Alternatively, the package provides a DeviceList class. When instantiated,
this will auto-detect all local storage devices and create a list containing
one Device object for each detected storage device::
>>> from pySMART import DeviceList
>>> devlist = DeviceList()
>>> devlist
<DeviceList contents:
<SAT device on /dev/sdb mod:WDC WD20EADS-00R6B0 sn:WD-WCAVYxxxxxxx>
<SAT device on /dev/sdc mod:WDC WD20EADS-00S2B0 sn:WD-WCAVYxxxxxxx>
<CSMI device on /dev/csmi0,0 mod:WDC WD5000AAKS-60Z1A0 sn:WD-WCAWFxxxxxxx>
>
>>> devlist.devices[0].attributes[5] # Access Device data as above
<SMART Attribute 'Reallocated_Sector_Ct' 173/140 raw:214>

In the above cases if a new DeviceList is empty or a specific Device reports an
"UNKNOWN INTERFACE", you are likely running without administrative privileges.
On POSIX systems, you can request smartctl is run as a superuser by setting the
sudo attribute of the global SMARTCTL object to True. Note this may cause you
to be prompted for a password.
>>> from pySMART import DeviceList
>>> from pySMART import Device
>>> sda = Device('/dev/sda')
>>> sda
<UNKNOWN INTERFACE device on /dev/sda mod:None sn:None>
>>> devlist = DeviceList()
>>> devlist
<DeviceList contents:
>
>>> from pySMART import SMARTCTL
>>> SMARTCTL.sudo = True
>>> sda = Device('/dev/sda')
>>> sda
[sudo] password for user:
<SAT device on /dev/sda mod:ST10000DM0004-1ZC101 sn:ZA20VNPT>
>>> devlist = DeviceList()
>>> devlist
<DeviceList contents:
<NVME device on /dev/nvme0 mod:Sabrent Rocket 4.0 1TB sn:03850709185D88300410>
<NVME device on /dev/nvme1 mod:Samsung SSD 970 EVO Plus 2TB sn:S59CNM0RB05028D>
<NVME device on /dev/nvme2 mod:Samsung SSD 970 EVO Plus 2TB sn:S59CNM0RB05113H>
<SAT device on /dev/sda mod:ST10000DM0004-1ZC101 sn:ZA20VNPT>
<SAT device on /dev/sdb mod:ST10000DM0004-1ZC101 sn:ZA22W366>
<SAT device on /dev/sdc mod:ST10000DM0004-1ZC101 sn:ZA22SPLG>
<SAT device on /dev/sdd mod:ST10000DM0004-1ZC101 sn:ZA2215HL>
>

In general, it is recommended to run the base script with enough privileges to
execute smartctl, but this is not possible in all cases, so this workaround is
provided as a convenience. However, note that using sudo inside other
non-terminal projects may cause dev-bugs/issues.
Using the pySMART wrapper, Python applications be be rapidly developed to take
advantage of the powerful features of smartmontools.
Installation
pySMART is available on PyPI and installable via pip::
python -m pip install pySMART

The only external (non-python) dependency is the smartctl component of the smartmontools
package. This should be pre-installed in most Linux distributions, or it
can be obtained through your package manager. Likely one of the following::
apt-get install smartmontools
# or
yum install smartmontools

On Windows PC's, smartmontools must be downloaded and installed. The latest
version can be obtained from the project's homepage, http://www.smartmontools.org/.
Note that after installing smartmontools on Windows, the directory containing
smartctl.exe must be added to the system path, if it is not already.
Documentation
API documentation for pySMART was generated using pdoc and can be
found in the /docs folder within the package archive.
Development
Tests are run using pytest. Under folder tests, there is a
readme with instructions on how to run the tests.
Acknowledgements
I would like to thank the entire team behind smartmontools for creating and
maintaining such a fantastic product.
In particular I want to thank Christian Franke, who maintains the Windows port
of the software. For several years I have written Windows batch files that
rely on smartctl.exe to automate evaluation and testing of large pools of
storage devices. Without his work, my job would have been significantly
more miserable. :)
Additionally I would like to thank iXsystems, Inc., the team behind the amazing
FreeNAS and TrueNAS products. Several years ago that team approached me with an
interest in pySMART, though I have no other affiliation with the company. At
their request I made a simple change to allow pySMART to run on FreeBSD and
changed the license from GPL to LGPL to allow them to build upon my work and
incorporate it into their products. They began hosting the code on their github,
and in the intervening years they've taken the project to all new heights.
Because of their work the code is now Python 3 compatible, supports NVME hardware
devices, and has several other improvements and bug fixes.
Final Note on Licensing
At the request of several companies seeking to use this code in their products,
the license has been changed from GPL to the slightly more permissive LGPL.
This should allow you to call into pySMART as a library as use it as-is in your
own project without fear of "GPL contamination". If you are reading this and
thinking that the license is still too restrictive, please contact me. I am very
willing to make the code available privately under a more permissive license,
including for some corporate or commercial uses. I'd just like for you to say hello
first, and tell me a bit about your project and how pySMART could fit into it.