pySMART
Copyright (C) 2014 Marc Herndon
pySMART is a simple Python wrapper for the smartctl component of
smartmontools. It works under Linux and Windows, as long as smartctl is on
the system path. Running with administrative (root) privilege is strongly
recommended, as smartctl cannot accurately detect all device types or parse
all SMART information without full permissions.
With only a device's name (ie: /dev/sda, pd0), the API 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 device 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:
#!bash
>>> 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:
#!bash
>>> 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.
#!bash
>>> 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.
#!bash
>>> 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.
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 under Windows. Without his work, my job would have been significantly more miserable. :)
Having recently migrated my development from Batch to Python for Linux portability, I thought a simple wrapper for smartctl would save time in the development of future automated test tools.
1# Copyright (C) 2014 Marc Herndon 2# 3# This program is free software; you can redistribute it and/or 4# modify it under the terms of the GNU General Public License, 5# version 2, as published by the Free Software Foundation. 6# 7# This program is distributed in the hope that it will be useful, 8# but WITHOUT ANY WARRANTY; without even the implied warranty of 9# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 10# GNU General Public License for more details. 11# 12# You should have received a copy of the GNU General Public License 13# along with this program; if not, write to the Free Software 14# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, 15# MA 02110-1301, USA. 16# 17################################################################ 18""" 19Copyright (C) 2014 Marc Herndon 20 21pySMART is a simple Python wrapper for the `smartctl` component of 22`smartmontools`. It works under Linux and Windows, as long as smartctl is on 23the system path. Running with administrative (root) privilege is strongly 24recommended, as smartctl cannot accurately detect all device types or parse 25all SMART information without full permissions. 26 27With only a device's name (ie: /dev/sda, pd0), the API will create a 28`Device` object, populated with all relevant information about 29that device. The documented API can then be used to query this object for 30information, initiate device self-tests, and perform other functions. 31 32Usage 33----- 34The most common way to use pySMART is to create a logical representation of the 35physical storage device that you would like to work with, as shown: 36 37 #!bash 38 >>> from pySMART import Device 39 >>> sda = Device('/dev/sda') 40 >>> sda 41 <SATA device on /dev/sda mod:WDC WD5000AAKS-60Z1A0 sn:WD-WCAWFxxxxxxx> 42 43`Device` class members can be accessed directly, and a number of helper methods 44are provided to retrieve information in bulk. Some examples are shown below: 45 46 #!bash 47 >>> sda.assessment # Query the SMART self-assessment 48 'PASS' 49 >>> sda.attributes[9] # Query a single SMART attribute 50 <SMART Attribute 'Power_On_Hours' 068/000 raw:23644> 51 >>> sda.all_attributes() # Print the entire SMART attribute table 52 ID# ATTRIBUTE_NAME CUR WST THR TYPE UPDATED WHEN_FAIL RAW 53 1 Raw_Read_Error_Rate 200 200 051 Pre-fail Always - 0 54 3 Spin_Up_Time 141 140 021 Pre-fail Always - 3908 55 4 Start_Stop_Count 098 098 000 Old_age Always - 2690 56 5 Reallocated_Sector_Ct 200 200 140 Pre-fail Always - 0 57 ... # Edited for brevity 58 199 UDMA_CRC_Error_Count 200 200 000 Old_age Always - 0 59 200 Multi_Zone_Error_Rate 200 200 000 Old_age Offline - 0 60 >>> sda.tests[0] # Query the most recent self-test result 61 <SMART Self-test [Short offline|Completed without error] hrs:23734 lba:-> 62 >>> sda.all_selftests() # Print the entire self-test log 63 ID Test_Description Status Left Hours 1st_Error@lba 64 1 Short offline Completed without error 00% 23734 - 65 2 Short offline Completed without error 00% 23734 - 66 ... # Edited for brevity 67 7 Short offline Completed without error 00% 23726 - 68 8 Short offline Completed without error 00% 1 - 69 70Alternatively, the package provides a `DeviceList` class. When instantiated, 71this will auto-detect all local storage devices and create a list containing 72one `Device` object for each detected storage device. 73 74 #!bash 75 >>> from pySMART import DeviceList 76 >>> devlist = DeviceList() 77 >>> devlist 78 <DeviceList contents: 79 <SAT device on /dev/sdb mod:WDC WD20EADS-00R6B0 sn:WD-WCAVYxxxxxxx> 80 <SAT device on /dev/sdc mod:WDC WD20EADS-00S2B0 sn:WD-WCAVYxxxxxxx> 81 <CSMI device on /dev/csmi0,0 mod:WDC WD5000AAKS-60Z1A0 sn:WD-WCAWFxxxxxxx> 82 > 83 >>> devlist.devices[0].attributes[5] # Access Device data as above 84 <SMART Attribute 'Reallocated_Sector_Ct' 173/140 raw:214> 85 86In the above cases if a new DeviceList is empty or a specific Device reports an 87"UNKNOWN INTERFACE", you are likely running without administrative privileges. 88On POSIX systems, you can request smartctl is run as a superuser by setting the 89sudo attribute of the global SMARTCTL object to True. Note this may cause you 90to be prompted for a password. 91 92 #!bash 93 >>> from pySMART import DeviceList 94 >>> from pySMART import Device 95 >>> sda = Device('/dev/sda') 96 >>> sda 97 <UNKNOWN INTERFACE device on /dev/sda mod:None sn:None> 98 >>> devlist = DeviceList() 99 >>> devlist 100 <DeviceList contents: 101 > 102 >>> from pySMART import SMARTCTL 103 >>> SMARTCTL.sudo = True 104 >>> sda = Device('/dev/sda') 105 >>> sda 106 [sudo] password for user: 107 <SAT device on /dev/sda mod:ST10000DM0004-1ZC101 sn:ZA20VNPT> 108 >>> devlist = DeviceList() 109 >>> devlist 110 <DeviceList contents: 111 <NVME device on /dev/nvme0 mod:Sabrent Rocket 4.0 1TB sn:03850709185D88300410> 112 <NVME device on /dev/nvme1 mod:Samsung SSD 970 EVO Plus 2TB sn:S59CNM0RB05028D> 113 <NVME device on /dev/nvme2 mod:Samsung SSD 970 EVO Plus 2TB sn:S59CNM0RB05113H> 114 <SAT device on /dev/sda mod:ST10000DM0004-1ZC101 sn:ZA20VNPT> 115 <SAT device on /dev/sdb mod:ST10000DM0004-1ZC101 sn:ZA22W366> 116 <SAT device on /dev/sdc mod:ST10000DM0004-1ZC101 sn:ZA22SPLG> 117 <SAT device on /dev/sdd mod:ST10000DM0004-1ZC101 sn:ZA2215HL> 118 > 119 120In general, it is recommended to run the base script with enough privileges to 121execute smartctl, but this is not possible in all cases, so this workaround is 122provided as a convenience. However, note that using sudo inside other 123non-terminal projects may cause dev-bugs/issues. 124 125 126Using the pySMART wrapper, Python applications be be rapidly developed to take 127advantage of the powerful features of smartmontools. 128 129Acknowledgements 130---------------- 131I would like to thank the entire team behind smartmontools for creating and 132maintaining such a fantastic product. 133 134In particular I want to thank Christian Franke, who maintains the Windows port 135of the software. For several years I have written Windows batch files that 136rely on smartctl.exe to automate evaluation and testing of large pools of 137storage devices under Windows. Without his work, my job would have been 138significantly more miserable. :) 139 140Having recently migrated my development from Batch to Python for Linux 141portability, I thought a simple wrapper for smartctl would save time in the 142development of future automated test tools. 143""" 144# autopep8: off 145from .testentry import TestEntry 146from .interface.ata.attribute import Attribute 147from . import utils 148utils.configure_trace_logging() 149from .smartctl import SMARTCTL 150from .device_list import DeviceList 151from .device import Device, smart_health_assement 152from .version import __version__,__version_tuple__ 153# autopep8: on 154 155 156__all__ = [ 157 '__version__', '__version_tuple__', 158 'TestEntry', 'Attribute', 'utils', 'SMARTCTL', 'DeviceList', 'Device', 159 'smart_health_assement' 160]
__version__ =
'1.4.2.dev9'
__version_tuple__ =
(1, 4, 2, 'dev9')
class
TestEntry:
27class TestEntry(object): 28 """ 29 Contains all of the information associated with a single SMART Self-test 30 log entry. This data is intended to exactly mirror that obtained through 31 smartctl. 32 """ 33 34 def __init__(self, format, num: Optional[int], test_type, status, hours, lba, 35 remain=None, 36 segment=None, 37 sense=None, 38 asc=None, 39 ascq=None, 40 nsid=None, 41 sct=None, 42 code=None): 43 44 self._format = format 45 """ 46 **(str):** Indicates whether this entry was taken from an 'ata' or 47 'scsi' self-test log. Used to display the content properly. 48 """ 49 self.num: Optional[int] = num 50 """ 51 **(int):** Entry's position in the log from 1 (most recent) to 21 52 (least recent). ATA logs save the last 21 entries while SCSI logs 53 only save the last 20. 54 """ 55 self.type = test_type 56 """ 57 **(str):** Type of test run. Generally short, long (extended), or 58 conveyance, plus offline (background) or captive (foreground). 59 """ 60 self.status = status 61 """ 62 **(str):** Self-test's status message, for example 'Completed without 63 error' or 'Completed: read failure'. 64 """ 65 self.hours = hours 66 """ 67 **(str):** The device's power-on hours at the time the self-test 68 was initiated. 69 """ 70 self.LBA = lba 71 """ 72 **(str):** Indicates the first LBA at which an error was encountered 73 during this self-test. Presented as a decimal value for ATA/SATA 74 devices and in hexadecimal notation for SAS/SCSI devices. 75 """ 76 self.remain = remain 77 """ 78 **(str):** Percentage value indicating how much of the self-test is 79 left to perform. '00%' indicates a complete test, while any other 80 value could indicate a test in progress or one that failed prior to 81 completion. Only reported by ATA devices. 82 """ 83 self.segment = segment 84 """ 85 **(str):** A manufacturer-specific self-test segment number reported 86 by SCSI devices on self-test failure. Set to '-' otherwise. 87 """ 88 self.sense = sense 89 """ 90 **(str):** SCSI sense key reported on self-test failure. Set to '-' 91 otherwise. 92 """ 93 self.ASC = asc 94 """ 95 **(str):** SCSI 'Additonal Sense Code' reported on self-test failure. 96 Set to '-' otherwise. 97 """ 98 self.ASCQ = ascq 99 """ 100 **(str):** SCSI 'Additonal Sense Code Quaifier' reported on self-test 101 failure. Set to '-' otherwise. 102 """ 103 self.nsid = nsid 104 """ 105 **(str):** NVMe 'Name Space Identifier' reported on self-test failure. 106 Set to '-' if no namespace is defined. 107 """ 108 self.sct = sct 109 """ 110 **(str):** NVMe 'Status Code Type' reported on self-test failure. 111 Set to '-' if undefined. 112 """ 113 self.code = code 114 """ 115 **(str):** NVMe 'Status Code' reported on self-test failure. 116 Set to '-' if undefined. 117 """ 118 119 def __getstate__(self): 120 return { 121 'num': self.num, 122 'type': self.type, 123 'status': self.status, 124 'hours': self.hours, 125 'lba': self.LBA, 126 'remain': self.remain, 127 'segment': self.segment, 128 'sense': self.sense, 129 'asc': self.ASC, 130 'ascq': self.ASCQ, 131 'nsid': self.nsid, 132 'sct': self.sct, 133 'code': self.code 134 } 135 136 def __repr__(self): 137 """Define a basic representation of the class object.""" 138 return "<SMART Self-test [%s|%s] hrs:%s LBA:%s>" % ( 139 self.type, self.status, self.hours, self.LBA) 140 141 def __str__(self): 142 """ 143 Define a formatted string representation of the object's content. 144 Looks nearly identical to the output of smartctl, without overflowing 145 80-character lines. 146 """ 147 if self._format == 'ata': 148 return "{0:>2} {1:17}{2:30}{3:5}{4:7}{5:17}".format( 149 self.num, self.type, self.status, self.remain, self.hours, 150 self.LBA) 151 elif self._format == 'scsi': 152 # 'Segment' could not be fit on the 80-char line. It's of limited 153 # utility anyway due to it's manufacturer-proprietary nature... 154 return ("{0:>2} {1:17}{2:23}{3:7}{4:14}[{5:4}{6:5}{7:4}]".format( 155 self.num, 156 self.type, 157 self.status, 158 self.hours, 159 self.LBA, 160 self.sense, 161 self.ASC, 162 self.ASCQ 163 )) 164 elif self._format == 'nvme': 165 ## NVME FORMAT ## 166 # Example smartctl output 167 # Self-test Log (NVMe Log 0x06) 168 # Self-test status: Extended self-test in progress (28% completed) 169 # Num Test_Description Status Power_on_Hours Failing_LBA NSID Seg SCT Code 170 # 0 Extended Completed without error 3441 - - - - - 171 return ("{0:^4} {1:<18}{2:<29}{3:>14}{4:>13}{5:>6}{6:>4}{7:>4}{8:>5}".format( 172 self.num, 173 self.type, 174 self.status, 175 self.hours, 176 self.LBA if self.LBA is not None else '-', 177 self.nsid if self.LBA is not None else '-', 178 self.segment if self.segment is not None else '-', 179 self.sct if self.LBA is not None else '-', 180 self.code if self.LBA is not None else '-' 181 )) 182 else: 183 return "Unknown test format: %s" % self._format
Contains all of the information associated with a single SMART Self-test log entry. This data is intended to exactly mirror that obtained through smartctl.
TestEntry( format, num: Optional[int], test_type, status, hours, lba, remain=None, segment=None, sense=None, asc=None, ascq=None, nsid=None, sct=None, code=None)
34 def __init__(self, format, num: Optional[int], test_type, status, hours, lba, 35 remain=None, 36 segment=None, 37 sense=None, 38 asc=None, 39 ascq=None, 40 nsid=None, 41 sct=None, 42 code=None): 43 44 self._format = format 45 """ 46 **(str):** Indicates whether this entry was taken from an 'ata' or 47 'scsi' self-test log. Used to display the content properly. 48 """ 49 self.num: Optional[int] = num 50 """ 51 **(int):** Entry's position in the log from 1 (most recent) to 21 52 (least recent). ATA logs save the last 21 entries while SCSI logs 53 only save the last 20. 54 """ 55 self.type = test_type 56 """ 57 **(str):** Type of test run. Generally short, long (extended), or 58 conveyance, plus offline (background) or captive (foreground). 59 """ 60 self.status = status 61 """ 62 **(str):** Self-test's status message, for example 'Completed without 63 error' or 'Completed: read failure'. 64 """ 65 self.hours = hours 66 """ 67 **(str):** The device's power-on hours at the time the self-test 68 was initiated. 69 """ 70 self.LBA = lba 71 """ 72 **(str):** Indicates the first LBA at which an error was encountered 73 during this self-test. Presented as a decimal value for ATA/SATA 74 devices and in hexadecimal notation for SAS/SCSI devices. 75 """ 76 self.remain = remain 77 """ 78 **(str):** Percentage value indicating how much of the self-test is 79 left to perform. '00%' indicates a complete test, while any other 80 value could indicate a test in progress or one that failed prior to 81 completion. Only reported by ATA devices. 82 """ 83 self.segment = segment 84 """ 85 **(str):** A manufacturer-specific self-test segment number reported 86 by SCSI devices on self-test failure. Set to '-' otherwise. 87 """ 88 self.sense = sense 89 """ 90 **(str):** SCSI sense key reported on self-test failure. Set to '-' 91 otherwise. 92 """ 93 self.ASC = asc 94 """ 95 **(str):** SCSI 'Additonal Sense Code' reported on self-test failure. 96 Set to '-' otherwise. 97 """ 98 self.ASCQ = ascq 99 """ 100 **(str):** SCSI 'Additonal Sense Code Quaifier' reported on self-test 101 failure. Set to '-' otherwise. 102 """ 103 self.nsid = nsid 104 """ 105 **(str):** NVMe 'Name Space Identifier' reported on self-test failure. 106 Set to '-' if no namespace is defined. 107 """ 108 self.sct = sct 109 """ 110 **(str):** NVMe 'Status Code Type' reported on self-test failure. 111 Set to '-' if undefined. 112 """ 113 self.code = code 114 """ 115 **(str):** NVMe 'Status Code' reported on self-test failure. 116 Set to '-' if undefined. 117 """
num: Optional[int]
(int): Entry's position in the log from 1 (most recent) to 21 (least recent). ATA logs save the last 21 entries while SCSI logs only save the last 20.
type
(str): Type of test run. Generally short, long (extended), or conveyance, plus offline (background) or captive (foreground).
status
(str): Self-test's status message, for example 'Completed without error' or 'Completed: read failure'.
LBA
(str): Indicates the first LBA at which an error was encountered during this self-test. Presented as a decimal value for ATA/SATA devices and in hexadecimal notation for SAS/SCSI devices.
remain
(str): Percentage value indicating how much of the self-test is left to perform. '00%' indicates a complete test, while any other value could indicate a test in progress or one that failed prior to completion. Only reported by ATA devices.
segment
(str): A manufacturer-specific self-test segment number reported by SCSI devices on self-test failure. Set to '-' otherwise.
ASCQ
(str): SCSI 'Additonal Sense Code Quaifier' reported on self-test failure. Set to '-' otherwise.
class
Attribute:
29class Attribute(object): 30 """ 31 Contains all of the information associated with a single SMART attribute 32 in a `Device`'s SMART table. This data is intended to exactly mirror that 33 obtained through smartctl. 34 """ 35 36 def __init__(self, num: int, name, flags: int, value, worst, thresh, attr_type, updated, when_failed, raw): 37 self.num: int = num 38 """**(int):** Attribute's ID as a decimal value (1-255).""" 39 self.name: str = name 40 """ 41 **(str):** Attribute's name, as reported by smartmontools' drive.db. 42 """ 43 self.flags: int = flags 44 """**(int):** Attribute flags as a bit value (ie: 0x0032).""" 45 self._value: str = value 46 """**(str):** Attribute's current normalized value.""" 47 self._worst: str = worst 48 """**(str):** Worst recorded normalized value for this attribute.""" 49 self._thresh: str = thresh 50 """**(str):** Attribute's failure threshold.""" 51 self.type: str = attr_type 52 """**(str):** Attribute's type, generally 'pre-fail' or 'old-age'.""" 53 self.updated: str = updated 54 """ 55 **(str):** When is this attribute updated? Generally 'Always' or 56 'Offline' 57 """ 58 self.when_failed: str = when_failed 59 """ 60 **(str):** When did this attribute cross below 61 `pySMART.attribute.Attribute.thresh`? Reads '-' when not failed. 62 Generally either 'FAILING_NOW' or 'In_the_Past' otherwise. 63 """ 64 self.raw = raw 65 """**(str):** Attribute's current raw (non-normalized) value.""" 66 67 @property 68 def value_str(self) -> str: 69 """Gets the attribute value 70 71 Returns: 72 str: The attribute value in string format 73 """ 74 return self._value 75 76 @property 77 def value_int(self) -> int: 78 """Gets the attribute value 79 80 Returns: 81 int: The attribute value in integer format. 82 """ 83 return int(self._value) 84 85 @property 86 def value(self) -> str: 87 """Gets the attribue value 88 89 Returns: 90 str: The attribute value in string format 91 """ 92 return self.value_str 93 94 @property 95 def worst(self) -> int: 96 """Gets the worst value 97 98 Returns: 99 int: The attribute worst field in integer format 100 """ 101 return int(self._worst) 102 103 @property 104 def thresh(self) -> Optional[int]: 105 """Gets the threshold value 106 107 Returns: 108 int: The attribute threshold field in integer format 109 """ 110 return None if self._thresh == '---' else int(self._thresh) 111 112 @property 113 def raw_int(self) -> Optional[int]: 114 """Gets the raw value converted to int 115 NOTE: Some values may not be correctly converted! 116 117 Returns: 118 int: The attribute raw-value field in integer format. 119 None: In case the raw string failed to be parsed 120 """ 121 try: 122 return int(re.search(r'\d+', self.raw).group()) 123 except: 124 return None 125 126 def __repr__(self): 127 """Define a basic representation of the class object.""" 128 return "<SMART Attribute %r %s/%s raw:%s>" % ( 129 self.name, self.value, self.thresh, self.raw) 130 131 def __str__(self): 132 """ 133 Define a formatted string representation of the object's content. 134 In the interest of not overflowing 80-character lines this does not 135 print the value of `pySMART.attribute.Attribute.flags_hex`. 136 """ 137 return "{0:>3} {1:23}{2:>4}{3:>4}{4:>4} {5:9}{6:8}{7:12}{8}".format( 138 self.num, 139 self.name, 140 self.value, 141 self.worst, 142 self.thresh, 143 self.type, 144 self.updated, 145 self.when_failed, 146 self.raw 147 ) 148 149 def __getstate__(self): 150 return { 151 'name': self.name, 152 'num': self.num, 153 'flags': self.flags, 154 'raw': self.raw, 155 'value': self.value, 156 'worst': self.worst, 157 'thresh': self.thresh, 158 'type': self.type, 159 'updated': self.updated, 160 'when_failed': self.when_failed, 161 # Raw values 162 '_value': self._value, 163 '_worst': self._worst, 164 '_thresh': self._thresh, 165 'raw_int': self.raw_int, 166 167 }
Contains all of the information associated with a single SMART attribute
in a Device's SMART table. This data is intended to exactly mirror that
obtained through smartctl.
Attribute( num: int, name, flags: int, value, worst, thresh, attr_type, updated, when_failed, raw)
36 def __init__(self, num: int, name, flags: int, value, worst, thresh, attr_type, updated, when_failed, raw): 37 self.num: int = num 38 """**(int):** Attribute's ID as a decimal value (1-255).""" 39 self.name: str = name 40 """ 41 **(str):** Attribute's name, as reported by smartmontools' drive.db. 42 """ 43 self.flags: int = flags 44 """**(int):** Attribute flags as a bit value (ie: 0x0032).""" 45 self._value: str = value 46 """**(str):** Attribute's current normalized value.""" 47 self._worst: str = worst 48 """**(str):** Worst recorded normalized value for this attribute.""" 49 self._thresh: str = thresh 50 """**(str):** Attribute's failure threshold.""" 51 self.type: str = attr_type 52 """**(str):** Attribute's type, generally 'pre-fail' or 'old-age'.""" 53 self.updated: str = updated 54 """ 55 **(str):** When is this attribute updated? Generally 'Always' or 56 'Offline' 57 """ 58 self.when_failed: str = when_failed 59 """ 60 **(str):** When did this attribute cross below 61 `pySMART.attribute.Attribute.thresh`? Reads '-' when not failed. 62 Generally either 'FAILING_NOW' or 'In_the_Past' otherwise. 63 """ 64 self.raw = raw 65 """**(str):** Attribute's current raw (non-normalized) value."""
when_failed: str
(str): When did this attribute cross below
pySMART.attribute.Attribute.thresh? Reads '-' when not failed.
Generally either 'FAILING_NOW' or 'In_the_Past' otherwise.
value_str: str
67 @property 68 def value_str(self) -> str: 69 """Gets the attribute value 70 71 Returns: 72 str: The attribute value in string format 73 """ 74 return self._value
Gets the attribute value
Returns: str: The attribute value in string format
value_int: int
76 @property 77 def value_int(self) -> int: 78 """Gets the attribute value 79 80 Returns: 81 int: The attribute value in integer format. 82 """ 83 return int(self._value)
Gets the attribute value
Returns: int: The attribute value in integer format.
value: str
85 @property 86 def value(self) -> str: 87 """Gets the attribue value 88 89 Returns: 90 str: The attribute value in string format 91 """ 92 return self.value_str
Gets the attribue value
Returns: str: The attribute value in string format
worst: int
94 @property 95 def worst(self) -> int: 96 """Gets the worst value 97 98 Returns: 99 int: The attribute worst field in integer format 100 """ 101 return int(self._worst)
Gets the worst value
Returns: int: The attribute worst field in integer format
thresh: Optional[int]
103 @property 104 def thresh(self) -> Optional[int]: 105 """Gets the threshold value 106 107 Returns: 108 int: The attribute threshold field in integer format 109 """ 110 return None if self._thresh == '---' else int(self._thresh)
Gets the threshold value
Returns: int: The attribute threshold field in integer format
raw_int: Optional[int]
112 @property 113 def raw_int(self) -> Optional[int]: 114 """Gets the raw value converted to int 115 NOTE: Some values may not be correctly converted! 116 117 Returns: 118 int: The attribute raw-value field in integer format. 119 None: In case the raw string failed to be parsed 120 """ 121 try: 122 return int(re.search(r'\d+', self.raw).group()) 123 except: 124 return None
Gets the raw value converted to int NOTE: Some values may not be correctly converted!
Returns: int: The attribute raw-value field in integer format. None: In case the raw string failed to be parsed
SMARTCTL =
<pySMART.smartctl.Smartctl object>
class
DeviceList:
37class DeviceList(object): 38 """ 39 Represents a list of all the storage devices connected to this computer. 40 """ 41 42 def __init__(self, init: bool = True, smartctl=SMARTCTL, catch_errors: bool = False): 43 """Instantiates and optionally initializes the `DeviceList`. 44 45 Args: 46 init (bool, optional): By default, `pySMART.device_list.DeviceList.devices` 47 is populated with `Device` objects during instantiation. Setting init 48 to False will skip initialization and create an empty 49 `pySMART.device_list.DeviceList` object instead. Defaults to True. 50 smartctl ([type], optional): This stablish the smartctl wrapper. 51 Defaults the global `SMARTCTL` object and should be only 52 overwritten on tests. 53 catch_errors (bool, optional): If True, individual device-parsing errors will be caught 54 """ 55 56 self.devices: List[Device] = [] 57 """ 58 **(list of `Device`):** Contains all storage devices detected during 59 instantiation, as `Device` objects. 60 """ 61 self.smartctl: Smartctl = smartctl 62 """The smartctl wrapper 63 """ 64 if init: 65 self.initialize(catch_errors) 66 67 def __repr__(self): 68 """Define a basic representation of the class object.""" 69 rep = "<DeviceList contents:\n" 70 for device in self.devices: 71 rep += str(device) + '\n' 72 return rep + '>' 73 # return "<DeviceList contents:%r>" % (self.devices) 74 75 def _cleanup(self): 76 """ 77 Removes duplicate ATA devices that correspond to an existing CSMI 78 device. Also removes any device with no capacity value, as this 79 indicates removable storage, ie: CD/DVD-ROM, ZIP, etc. 80 """ 81 # We can't operate directly on the list while we're iterating 82 # over it, so we collect indeces to delete and remove them later 83 to_delete = [] 84 # Enumerate the list to get tuples containing indeces and values 85 for index, device in enumerate(self.devices): 86 # Allow well-known devices 87 if device.interface in ['nvme']: 88 continue 89 90 # Check for duplicate ATA devices with CSMI devices 91 if device.interface == 'csmi': 92 for otherindex, otherdevice in enumerate(self.devices): 93 if (otherdevice.interface == 'ata' or 94 otherdevice.interface == 'sata'): 95 if device.serial == otherdevice.serial: 96 to_delete.append(otherindex) 97 device._sd_name = otherdevice.name 98 if device.capacity is None and index not in to_delete: 99 to_delete.append(index) 100 # Recreate the self.devices list without the marked indeces 101 self.devices[:] = [v for i, v in enumerate(self.devices) 102 if i not in to_delete] 103 104 def initialize(self, catch_errors: bool = False): 105 """ 106 Scans system busses for attached devices and add them to the 107 `DeviceList` as `Device` objects. 108 If device list is already populated, it will be cleared first. 109 110 Args: 111 catch_errors (bool, optional): If True, individual device-parsing errors will be caught 112 """ 113 114 # Clear the list if it's already populated 115 if len(self.devices): 116 self.devices = [] 117 118 # Scan for devices 119 for line in self.smartctl.scan(): 120 if not ('failed:' in line or line == ''): 121 groups = re.compile( 122 r'^(\S+)\s+-d\s+(\S+)').match(line).groups() 123 name = groups[0] 124 interface = groups[1] 125 126 try: 127 # Add the device to the list 128 self.devices.append( 129 Device(name, interface=interface, smartctl=self.smartctl)) 130 131 except Exception as e: 132 if catch_errors: 133 # Print the exception 134 import logging 135 136 logging.exception(f"Error parsing device {name}") 137 138 else: 139 # Reraise the exception 140 raise e 141 142 # Remove duplicates and unwanted devices (optical, etc.) from the list 143 self._cleanup() 144 # Sort the list alphabetically by device name 145 self.devices.sort(key=lambda device: device.name) 146 147 def __getitem__(self, index: int) -> Device: 148 """Returns an element from self.devices 149 150 Args: 151 index (int): An index of self.devices 152 153 Returns: 154 Device: Returns a Device that is located on the asked index 155 """ 156 return self.devices[index]
Represents a list of all the storage devices connected to this computer.
DeviceList( init: bool = True, smartctl=<pySMART.smartctl.Smartctl object>, catch_errors: bool = False)
42 def __init__(self, init: bool = True, smartctl=SMARTCTL, catch_errors: bool = False): 43 """Instantiates and optionally initializes the `DeviceList`. 44 45 Args: 46 init (bool, optional): By default, `pySMART.device_list.DeviceList.devices` 47 is populated with `Device` objects during instantiation. Setting init 48 to False will skip initialization and create an empty 49 `pySMART.device_list.DeviceList` object instead. Defaults to True. 50 smartctl ([type], optional): This stablish the smartctl wrapper. 51 Defaults the global `SMARTCTL` object and should be only 52 overwritten on tests. 53 catch_errors (bool, optional): If True, individual device-parsing errors will be caught 54 """ 55 56 self.devices: List[Device] = [] 57 """ 58 **(list of `Device`):** Contains all storage devices detected during 59 instantiation, as `Device` objects. 60 """ 61 self.smartctl: Smartctl = smartctl 62 """The smartctl wrapper 63 """ 64 if init: 65 self.initialize(catch_errors)
Instantiates and optionally initializes the DeviceList.
Args:
init (bool, optional): By default, pySMART.device_list.DeviceList.devices
is populated with Device objects during instantiation. Setting init
to False will skip initialization and create an empty
pySMART.device_list.DeviceList object instead. Defaults to True.
smartctl ([type], optional): This stablish the smartctl wrapper.
Defaults the global SMARTCTL object and should be only
overwritten on tests.
catch_errors (bool, optional): If True, individual device-parsing errors will be caught
devices: List[Device]
def
initialize(self, catch_errors: bool = False):
104 def initialize(self, catch_errors: bool = False): 105 """ 106 Scans system busses for attached devices and add them to the 107 `DeviceList` as `Device` objects. 108 If device list is already populated, it will be cleared first. 109 110 Args: 111 catch_errors (bool, optional): If True, individual device-parsing errors will be caught 112 """ 113 114 # Clear the list if it's already populated 115 if len(self.devices): 116 self.devices = [] 117 118 # Scan for devices 119 for line in self.smartctl.scan(): 120 if not ('failed:' in line or line == ''): 121 groups = re.compile( 122 r'^(\S+)\s+-d\s+(\S+)').match(line).groups() 123 name = groups[0] 124 interface = groups[1] 125 126 try: 127 # Add the device to the list 128 self.devices.append( 129 Device(name, interface=interface, smartctl=self.smartctl)) 130 131 except Exception as e: 132 if catch_errors: 133 # Print the exception 134 import logging 135 136 logging.exception(f"Error parsing device {name}") 137 138 else: 139 # Reraise the exception 140 raise e 141 142 # Remove duplicates and unwanted devices (optical, etc.) from the list 143 self._cleanup() 144 # Sort the list alphabetically by device name 145 self.devices.sort(key=lambda device: device.name)
Scans system busses for attached devices and add them to the
DeviceList as Device objects.
If device list is already populated, it will be cleared first.
Args: catch_errors (bool, optional): If True, individual device-parsing errors will be caught
class
Device:
81class Device(object): 82 """ 83 Represents any device attached to an internal storage interface, such as a 84 hard drive or DVD-ROM, and detected by smartmontools. Includes eSATA 85 (considered SATA) but excludes other external devices (USB, Firewire). 86 """ 87 88 def __init__(self, name: str, interface: Optional[str] = None, abridged: bool = False, smart_options: Union[str, List[str], None] = None, smartctl: Smartctl = SMARTCTL): 89 """Instantiates and initializes the `pySMART.device.Device`.""" 90 if not ( 91 interface is None or 92 smartctl_isvalid_type(interface.lower()) 93 ): 94 raise ValueError( 95 'Unknown interface: {0} specified for {1}'.format(interface, name)) 96 self.abridged = abridged or interface == 'UNKNOWN INTERFACE' 97 if smart_options is not None: 98 if isinstance(smart_options, str): 99 smart_options = smart_options.split(' ') 100 smartctl.add_options(smart_options) 101 self.smartctl = smartctl 102 """ 103 """ 104 self.name: str = name.replace('/dev/', '').replace('nvd', 'nvme') 105 """ 106 **(str):** Device's hardware ID, without the '/dev/' prefix. 107 (ie: sda (Linux), pd0 (Windows)) 108 """ 109 self.family: Optional[str] = None 110 """**(str):** Device's family (if any).""" 111 self.model: Optional[str] = None 112 """**(str):** Device's model number (if any).""" 113 self.serial: Optional[str] = None 114 """**(str):** Device's serial number (if any).""" 115 self._vendor: Optional[str] = None 116 """**(str):** Device's vendor (if any).""" 117 self._interface: Optional[str] = None if interface == 'UNKNOWN INTERFACE' else interface 118 """ 119 **(str):** Device's interface type. Must be one of: 120 * **ATA** - Advanced Technology Attachment 121 * **SATA** - Serial ATA 122 * **SCSI** - Small Computer Systems Interface 123 * **SAS** - Serial Attached SCSI 124 * **SAT** - SCSI-to-ATA Translation (SATA device plugged into a 125 SAS port) 126 * **CSMI** - Common Storage Management Interface (Intel ICH / 127 Matrix RAID) 128 Generally this should not be specified to allow auto-detection to 129 occur. Otherwise, this value overrides the auto-detected type and could 130 produce unexpected or no data. 131 """ 132 self._capacity: Optional[int] = None 133 """**(str):** Device's user capacity as reported directly by smartctl (RAW).""" 134 self._capacity_human: Optional[str] = None 135 """**(str):** Device's user capacity (human readable) as reported directly by smartctl (RAW).""" 136 self.firmware: Optional[str] = None 137 """**(str):** Device's firmware version.""" 138 self.smart_capable: bool = False 139 """ 140 **(bool):** True if the device has SMART Support Available. 141 False otherwise. This is useful for VMs amongst other things. 142 """ 143 self.smart_enabled: bool = False 144 """ 145 **(bool):** True if the device supports SMART (or SCSI equivalent) and 146 has the feature set enabled. False otherwise. 147 """ 148 self.assessment: Optional[str] = None 149 """ 150 **(str):** SMART health self-assessment as reported by the device. 151 """ 152 self.messages: List[str] = [] 153 """ 154 **(list of str):** Contains any SMART warnings or other error messages 155 reported by the device (ie: ascq codes). 156 """ 157 self.is_ssd: bool = False 158 """ 159 **(bool):** True if this device is a Solid State Drive. 160 False otherwise. 161 """ 162 self.rotation_rate: Optional[int] = None 163 """ 164 **(int):** The Roatation Rate of the Drive if it is not a SSD. 165 The Metric is RPM. 166 """ 167 self.test_capabilities = { 168 'offline': False, # SMART execute Offline immediate (ATA only) 169 'short': 'nvme' not in self.name, # SMART short Self-test 170 'long': 'nvme' not in self.name, # SMART long Self-test 171 'conveyance': False, # SMART Conveyance Self-Test (ATA only) 172 'selective': False, # SMART Selective Self-Test (ATA only) 173 } 174 # Note have not included 'offline' test for scsi as it runs in the foregorund 175 # mode. While this may be beneficial to us in someways it is against the 176 # general layout and pattern that the other tests issued using pySMART are 177 # followed hence not doing it currently 178 """ 179 **(dict): ** This dictionary contains key == 'Test Name' and 180 value == 'True/False' of self-tests that this device is capable of. 181 """ 182 # Note: The above are just default values and can/will be changed 183 # upon update() when the attributes and type of the disk is actually 184 # determined. 185 self.test_polling_time = { 186 'short': 10, 187 'long': 1000, 188 'conveyance': 20, 189 } 190 """ 191 **(dict): ** This dictionary contains key == 'Test Name' and 192 value == int of approximate times to run each test type that this 193 device is capable of. 194 """ 195 # Note: The above are just default values and can/will be changed 196 # upon update() when the attributes and type of the disk is actually 197 # determined. 198 self.tests: List[TestEntry] = [] 199 """ 200 **(list of `TestEntry`):** Contains the complete SMART self-test log 201 for this device, as provided by smartctl. 202 """ 203 self._test_running = False 204 """ 205 **(bool):** True if a self-test is currently being run. 206 False otherwise. 207 """ 208 self._test_ECD = None 209 """ 210 **(str):** Estimated completion time of the running SMART selftest. 211 Not provided by SAS/SCSI devices. 212 """ 213 self._test_progress = None 214 """ 215 **(int):** Estimate progress percantage of the running SMART selftest. 216 """ 217 self._temperature: Optional[int] = None 218 """ 219 **(int or None): Since SCSI disks do not report attributes like ATA ones 220 we need to grep/regex the shit outta the normal "smartctl -a" output. 221 In case the device have more than one temperature sensor the first value 222 will be stored here too. 223 Note: Temperatures are always in Celsius (if possible). 224 """ 225 self.temperatures: Dict[int, int] = {} 226 """ 227 **(dict of int): NVMe disks usually report multiple temperatures, which 228 will be stored here if available. Keys are sensor numbers as reported in 229 output data. 230 Note: Temperatures are always in Celsius (if possible). 231 """ 232 self.logical_sector_size: Optional[int] = None 233 """ 234 **(int):** The logical sector size of the device (or LBA). 235 """ 236 self.physical_sector_size: Optional[int] = None 237 """ 238 **(int):** The physical sector size of the device. 239 """ 240 self.if_attributes: Union[None, 241 AtaAttributes, 242 NvmeAttributes, 243 SCSIAttributes] = None 244 """ 245 **(NvmeAttributes):** This object may vary for each device interface attributes. 246 It will store all data obtained from smartctl 247 """ 248 249 if self.name is None: 250 warnings.warn( 251 "\nDevice '{0}' does not exist! This object should be destroyed.".format( 252 name) 253 ) 254 return 255 # If no interface type was provided, scan for the device 256 # Lets do this only for the non-abridged case 257 # (we can work with no interface for abridged case) 258 elif self._interface is None and not self.abridged: 259 logger.debug( 260 "Determining interface of disk: {0}".format(self.name)) 261 raw, returncode = self.smartctl.generic_call( 262 ['-d', 'test', self.dev_reference]) 263 264 if len(raw) > 0: 265 # I do not like this parsing logic but it works for now! 266 # just for reference _stdout.split('\n') gets us 267 # something like 268 # [ 269 # ...copyright string..., 270 # '', 271 # "/dev/ada2: Device of type 'atacam' [ATA] detected", 272 # "/dev/ada2: Device of type 'atacam' [ATA] opened", 273 # '' 274 # ] 275 # The above example should be enough for anyone to understand the line below 276 try: 277 for line in reversed(raw): 278 if "opened" in line: 279 self._interface = line.split("'")[1] 280 281 break 282 except: 283 # for whatever reason we could not get the interface type 284 # we should mark this as an `abbridged` case and move on 285 self._interface = None 286 self.abbridged = True 287 # TODO: Uncomment the classify call if we ever find out that we need it 288 # Disambiguate the generic interface to a specific type 289 # self._classify() 290 else: 291 warnings.warn( 292 "\nDevice '{0}' does not exist! This object should be destroyed.".format( 293 name) 294 ) 295 return 296 # If a valid device was detected, populate its information 297 # OR if in unabridged mode, then do it even without interface info 298 if self._interface is not None or self.abridged: 299 self.update() 300 301 @property 302 def attributes(self) -> List[Optional[Attribute]]: 303 """Returns the SMART attributes of the device. 304 Note: This is only filled with ATA/SATA attributes. SCSI/SAS/NVMe devices will have empty lists!! 305 @deprecated: Use `if_attributes` instead. 306 307 Returns: 308 list of `Attribute`: The SMART attributes of the device. 309 """ 310 if self.if_attributes is None or not isinstance(self.if_attributes, AtaAttributes): 311 return [None] * 256 312 else: 313 return self.if_attributes.legacyAttributes 314 315 @property 316 def dev_interface(self) -> Optional[str]: 317 """Returns the internal interface type of the device. 318 It may not be the same as the interface type as used by smartctl. 319 320 Returns: 321 str: The interface type of the device. (example: ata, scsi, nvme) 322 None if the interface type could not be determined. 323 """ 324 # Try to get the fine-tuned interface type 325 fineType = self._classify() 326 327 # If return still contains a megaraid, just asume it's type 328 if 'megaraid' in fineType: 329 # If any attributes is not None and has at least non None value, then it is a sat+megaraid device 330 if isinstance(self.if_attributes, AtaAttributes): 331 return 'ata' 332 else: 333 return 'sas' 334 335 return fineType 336 337 @property 338 def temperature(self) -> Optional[int]: 339 """Returns the temperature of the device. 340 341 Returns: 342 int: The temperature of the device in Celsius. 343 None if the temperature could not be determined. 344 """ 345 if self.if_attributes is None: 346 return self._temperature 347 else: 348 return self.if_attributes.temperature or self._temperature 349 350 @property 351 def smartctl_interface(self) -> Optional[str]: 352 """Returns the interface type of the device as it is used in smartctl. 353 354 Returns: 355 str: The interface type of the device. (example: ata, scsi, nvme) 356 None if the interface type could not be determined. 357 """ 358 return self._interface 359 360 @property 361 def interface(self) -> Optional[str]: 362 """Returns the interface type of the device as it is used in smartctl. 363 364 Returns: 365 str: The interface type of the device. (example: ata, scsi, nvme) 366 None if the interface type could not be determined. 367 """ 368 return self.smartctl_interface 369 370 @property 371 def dev_reference(self) -> str: 372 """The reference to the device as provided by smartctl. 373 - On unix-like systems, this is the path to the device. (example /dev/<name>) 374 - On MacOS, this is the name of the device. (example <name>) 375 - On Windows, this is the drive letter of the device. (example <drive letter>) 376 377 Returns: 378 str: The reference to the device as provided by smartctl. 379 """ 380 381 # detect if we are on MacOS 382 if 'IOService' in self.name: 383 return self.name 384 385 # otherwise asume we are on unix-like systems 386 return os.path.join('/dev/', self.name) 387 388 @property 389 def vendor(self) -> Optional[str]: 390 """Returns the vendor of the device. 391 392 Returns: 393 str: The vendor of the device. 394 """ 395 if self._vendor: 396 return self._vendor 397 398 # If family is present, try to stract from family. Skip anything but letters. 399 elif self.family: 400 filter = re.search(r'^[a-zA-Z]+', self.family.strip()) 401 if filter: 402 return filter.group(0) 403 404 # If model is present, try to stract from model. Skip anything but letters. 405 elif self.model: 406 filter = re.search(r'^[a-zA-Z]+', self.model.strip()) 407 if filter: 408 return filter.group(0) 409 410 # If all else fails, return None 411 return None 412 413 @property 414 def capacity(self) -> Optional[str]: 415 """Returns the capacity in the raw smartctl format. 416 This may be deprecated in the future and its only retained for compatibility. 417 418 Returns: 419 str: The capacity in the raw smartctl format 420 """ 421 return self._capacity_human 422 423 @property 424 def diagnostics(self) -> Optional[Diagnostics]: 425 """Gets the old/deprecated version of SCSI/SAS diagnostics atribute. 426 """ 427 if self.if_attributes is None or not isinstance(self.if_attributes, SCSIAttributes): 428 return None 429 430 else: 431 return self.if_attributes.diagnostics 432 433 @property 434 def diags(self) -> Dict[str, str]: 435 """Gets the old/deprecated version of SCSI/SAS diags atribute. 436 """ 437 if self.if_attributes is None or not isinstance(self.if_attributes, SCSIAttributes): 438 # Return an empty dict if the device is not SCSI/SAS 439 return {} 440 441 else: 442 return self.if_attributes.diagnostics.get_classic_format() 443 444 @property 445 def size_raw(self) -> Optional[str]: 446 """Returns the capacity in the raw smartctl format. 447 448 Returns: 449 str: The capacity in the raw smartctl format 450 """ 451 return self._capacity_human 452 453 @property 454 def size(self) -> int: 455 """Returns the capacity in bytes 456 457 Returns: 458 int: The capacity in bytes 459 """ 460 import humanfriendly 461 462 if self._capacity is not None: 463 return self._capacity 464 elif self._capacity_human is not None: 465 return humanfriendly.parse_size(self._capacity_human) 466 else: 467 return 0 468 469 @property 470 def sector_size(self) -> int: 471 """Returns the sector size of the device. 472 473 Returns: 474 int: The sector size of the device in Bytes. If undefined, we'll assume 512B 475 """ 476 if self.logical_sector_size is not None: 477 return self.logical_sector_size 478 elif self.physical_sector_size is not None: 479 return self.physical_sector_size 480 else: 481 return 512 482 483 def __repr__(self): 484 """Define a basic representation of the class object.""" 485 return "<{0} device on /dev/{1} mod:{2} sn:{3}>".format( 486 self._interface.upper() if self._interface else 'UNKNOWN INTERFACE', 487 self.name, 488 self.model, 489 self.serial 490 ) 491 492 def __getstate__(self, all_info=True) -> Dict: 493 """ 494 Allows us to send a pySMART Device object over a serializable 495 medium which uses json (or the likes of json) payloads 496 """ 497 498 # Deprecated entries: 499 # - attributes 500 # - diagnostics 501 502 state_dict = { 503 'attributes': [attr.__getstate__() if attr else None for attr in self.attributes], 504 'capacity': self._capacity_human, 505 'diagnostics': self.diagnostics.__getstate__() if self.diagnostics else None, 506 'firmware': self.firmware, 507 'if_attributes': self.if_attributes.__getstate__() if self.if_attributes else None, 508 'interface': self._interface if self._interface else 'UNKNOWN INTERFACE', 509 'is_ssd': self.is_ssd, 510 'messages': self.messages, 511 'model': self.model, 512 'name': self.name, 513 'path': self.dev_reference, 514 'rotation_rate': self.rotation_rate, 515 'serial': self.serial, 516 'smart_capable': self.smart_capable, 517 'smart_enabled': self.smart_enabled, 518 'smart_status': self.assessment, 519 'temperature': self.temperature, 520 'test_capabilities': self.test_capabilities.copy(), 521 'tests': [t.__getstate__() for t in self.tests] if self.tests else [], 522 } 523 return state_dict 524 525 def __setstate__(self, state): 526 state['assessment'] = state['smart_status'] 527 del state['smart_status'] 528 self.__dict__.update(state) 529 530 def smart_toggle(self, action: str) -> Tuple[bool, List[str]]: 531 """ 532 A basic function to enable/disable SMART on device. 533 534 # Args: 535 * **action (str):** Can be either 'on'(for enabling) or 'off'(for disabling). 536 537 # Returns" 538 * **(bool):** Return True (if action succeded) else False 539 * **(List[str]):** None if option succeded else contains the error message. 540 """ 541 # Lets make the action verb all lower case 542 if self._interface == 'nvme': 543 return False, ['NVME devices do not currently support toggling SMART enabled'] 544 action_lower = action.lower() 545 if action_lower not in ['on', 'off']: 546 return False, ['Unsupported action {0}'.format(action)] 547 # Now lets check if the device's smart enabled status is already that of what 548 # the supplied action is intending it to be. If so then just return successfully 549 if self.smart_enabled: 550 if action_lower == 'on': 551 return True, [] 552 else: 553 if action_lower == 'off': 554 return True, [] 555 if self._interface is not None: 556 raw, returncode = self.smartctl.generic_call( 557 ['-s', action_lower, '-d', self._interface, self.dev_reference]) 558 else: 559 raw, returncode = self.smartctl.generic_call( 560 ['-s', action_lower, self.dev_reference]) 561 562 if returncode != 0: 563 return False, raw 564 # if everything worked out so far lets perform an update() and check the result 565 self.update() 566 if action_lower == 'off' and self.smart_enabled: 567 return False, ['Failed to turn SMART off.'] 568 if action_lower == 'on' and not self.smart_enabled: 569 return False, ['Failed to turn SMART on.'] 570 return True, [] 571 572 def all_attributes(self, print_fn=print): 573 """ 574 Prints the entire SMART attribute table, in a format similar to 575 the output of smartctl. 576 allows usage of custom print function via parameter print_fn by default uses print 577 """ 578 header_printed = False 579 for attr in self.attributes: 580 if attr is not None: 581 if not header_printed: 582 print_fn("{0:>3} {1:24}{2:4}{3:4}{4:4}{5:9}{6:8}{7:12}{8}" 583 .format('ID#', 'ATTRIBUTE_NAME', 'CUR', 'WST', 'THR', 'TYPE', 'UPDATED', 'WHEN_FAIL', 584 'RAW')) 585 header_printed = True 586 print_fn(attr) 587 if not header_printed: 588 print_fn('This device does not support SMART attributes.') 589 590 def all_selftests(self): 591 """ 592 Prints the entire SMART self-test log, in a format similar to 593 the output of smartctl. 594 """ 595 if self.tests: 596 all_tests = [] 597 if smartctl_type(self._interface) == 'scsi': 598 header = "{0:3}{1:17}{2:23}{3:7}{4:14}{5:15}".format( 599 'ID', 600 'Test Description', 601 'Status', 602 'Hours', 603 '1st_Error@LBA', 604 '[SK ASC ASCQ]' 605 ) 606 else: 607 header = ("{0:3}{1:17}{2:30}{3:5}{4:7}{5:17}".format( 608 'ID', 609 'Test_Description', 610 'Status', 611 'Left', 612 'Hours', 613 '1st_Error@LBA')) 614 all_tests.append(header) 615 for test in self.tests: 616 all_tests.append(str(test)) 617 618 return all_tests 619 else: 620 no_tests = 'No self-tests have been logged for this device.' 621 return no_tests 622 623 def _classify(self) -> str: 624 """ 625 Disambiguates generic device types ATA and SCSI into more specific 626 ATA, SATA, SAS, SAT and SCSI. 627 """ 628 629 fine_interface = self._interface or '' 630 631 if fine_interface == 'sntasmedia': 632 return 'nvme' 633 # SCSI devices might be SCSI, SAS or SAT 634 # ATA device might be ATA or SATA 635 if fine_interface in ['scsi', 'ata'] or 'megaraid' in fine_interface: 636 if 'megaraid' in fine_interface: 637 if not 'sat+' in fine_interface: 638 test = 'sat'+fine_interface 639 else: 640 test = fine_interface 641 else: 642 test = 'sat' if fine_interface == 'scsi' else 'sata' 643 # Look for a SATA PHY to detect SAT and SATA 644 raw, returncode = self.smartctl.try_generic_call([ 645 '-d', 646 smartctl_type(test), 647 '-l', 648 'sataphy', 649 self.dev_reference]) 650 651 if returncode == 0 and 'GP Log 0x11' in raw[3]: 652 fine_interface = test 653 # If device type is still SCSI (not changed to SAT above), then 654 # check for a SAS PHY 655 if fine_interface in ['scsi'] or 'megaraid' in fine_interface: 656 raw, returncode = self.smartctl.try_generic_call([ 657 '-d', 658 smartctl_type(fine_interface), 659 '-l', 660 'sasphy', 661 self.dev_reference]) 662 if returncode == 0 and len(raw) > 4 and 'SAS SSP' in raw[4]: 663 fine_interface = 'sas' 664 # Some older SAS devices do not support the SAS PHY log command. 665 # For these, see if smartmontools reports a transport protocol. 666 else: 667 raw = self.smartctl.all(self.dev_reference, fine_interface) 668 669 for line in raw: 670 if 'Transport protocol' in line and 'SAS' in line: 671 fine_interface = 'sas' 672 673 return fine_interface 674 675 def _guess_smart_type(self, line): 676 """ 677 This function is not used in the generic wrapper, however the header 678 is defined so that it can be monkey-patched by another application. 679 """ 680 pass 681 682 def _make_smart_warnings(self): 683 """ 684 Parses an ATA/SATA SMART table for attributes with the 'when_failed' 685 value set. Generates an warning message for any such attributes and 686 updates the self-assessment value if necessary. 687 """ 688 if smartctl_type(self._interface) == 'scsi': 689 return 690 for attr in self.attributes: 691 if attr is not None: 692 if attr.when_failed == 'In_the_past': 693 warn_str = "{0} failed in the past with value {1}. [Threshold: {2}]".format( 694 attr.name, attr.worst, attr.thresh) 695 self.messages.append(warn_str) 696 if not self.assessment == 'FAIL': 697 self.assessment = 'WARN' 698 elif attr.when_failed == 'FAILING_NOW': 699 warn_str = "{0} is failing now with value {1}. [Threshold: {2}]".format( 700 attr.name, attr.value, attr.thresh) 701 self.assessment = 'FAIL' 702 self.messages.append(warn_str) 703 elif not attr.when_failed == '-': 704 warn_str = "{0} says it failed '{1}'. [V={2},W={3},T={4}]".format( 705 attr.name, attr.when_failed, attr.value, attr.worst, attr.thresh) 706 self.messages.append(warn_str) 707 if not self.assessment == 'FAIL': 708 self.assessment = 'WARN' 709 710 def __get_smart_status(self, raw_iterator:Iterator[str]): 711 """ 712 A quick function to get the SMART status of the device. 713 This is required prior to scsi parsing. 714 """ 715 716 for line in raw_iterator: 717 if 'SMART support' in line: 718 # self.smart_capable = 'Available' in line 719 # self.smart_enabled = 'Enabled' in line 720 # Since this line repeats twice the above method is flawed 721 # Lets try the following instead, it is a bit redundant but 722 # more robust. 723 if any_in(line, 'Unavailable', 'device lacks SMART capability'): 724 self.smart_capable = False 725 self.smart_enabled = False 726 elif 'Enabled' in line: 727 self.smart_enabled = True 728 elif 'Disabled' in line: 729 self.smart_enabled = False 730 elif any_in(line, 'Available', 'device has SMART capability'): 731 self.smart_capable = True 732 continue 733 734 if 'does not support SMART' in line: 735 self.smart_capable = False 736 self.smart_enabled = False 737 continue 738 739 740 741 def get_selftest_result(self, output=None): 742 """ 743 Refreshes a device's `pySMART.device.Device.tests` attribute to obtain 744 the latest test results. If a new test result is obtained, its content 745 is returned. 746 747 # Args: 748 * **output (str, optional):** If set to 'str', the string 749 representation of the most recent test result will be returned, instead 750 of a `Test_Entry` object. 751 752 # Returns: 753 * **(int):** Return status code. One of the following: 754 * 0 - Success. Object (or optionally, string rep) is attached. 755 * 1 - Self-test in progress. Must wait for it to finish. 756 * 2 - No new test results. 757 * 3 - The Self-test was Aborted by host 758 * **(`Test_Entry` or str):** Most recent `Test_Entry` object (or 759 optionally it's string representation) if new data exists. Status 760 message string on failure. 761 * **(int):** Estimate progress percantage of the running SMART selftest, if known. 762 Otherwise 'None'. 763 """ 764 # SCSI self-test logs hold 20 entries while ATA logs hold 21 765 if smartctl_type(self._interface) == 'scsi': 766 maxlog = 20 767 else: 768 maxlog = 21 769 # If we looked only at the most recent test result we could be fooled 770 # by two short tests run close together (within the same hour) 771 # appearing identical. Comparing the length of the log adds some 772 # confidence until it maxes, as above. Comparing the least-recent test 773 # result greatly diminishes the chances that two sets of two tests each 774 # were run within an hour of themselves, but with 16-17 other tests run 775 # in between them. 776 if self.tests: 777 _first_entry = self.tests[0] 778 _len = len(self.tests) 779 _last_entry = self.tests[_len - 1] 780 else: 781 _len = 0 782 self.update() 783 # Since I have changed the update() parsing to DTRT to pickup currently 784 # running selftests we can now purely rely on that for self._test_running 785 # Thus check for that variable first and return if it is True with appropos message. 786 if self._test_running is True: 787 return 1, 'Self-test in progress. Please wait.', self._test_progress 788 # Check whether the list got longer (ie: new entry) 789 # If so return the newest test result 790 # If not, because it's max size already, check for new entries 791 if ( 792 (len(self.tests) != _len) or 793 ( 794 _len == maxlog and 795 ( 796 _first_entry.type != self.tests[0].type or 797 _first_entry.hours != self.tests[0].hours or 798 _last_entry.type != self.tests[len(self.tests) - 1].type or 799 _last_entry.hours != self.tests[len( 800 self.tests) - 1].hours 801 ) 802 ) 803 ): 804 return ( 805 0 if 'Aborted' not in self.tests[0].status else 3, 806 str(self.tests[0]) if output == 'str' else self.tests[0], 807 None 808 ) 809 else: 810 return 2, 'No new self-test results found.', None 811 812 def abort_selftest(self): 813 """ 814 Aborts non-captive SMART Self Tests. Note that this command 815 will abort the Offline Immediate Test routine only if your disk 816 has the "Abort Offline collection upon new command" capability. 817 818 # Args: Nothing (just aborts directly) 819 820 # Returns: 821 * **(int):** The returncode of calling `smartctl -X device_path` 822 """ 823 return self.smartctl.test_stop(smartctl_type(self._interface), self.dev_reference) 824 825 def run_selftest(self, test_type, ETA_type='date'): 826 """ 827 Instructs a device to begin a SMART self-test. All tests are run in 828 'offline' / 'background' mode, allowing normal use of the device while 829 it is being tested. 830 831 # Args: 832 * **test_type (str):** The type of test to run. Accepts the following 833 (not case sensitive): 834 * **short** - Brief electo-mechanical functionality check. 835 Generally takes 2 minutes or less. 836 * **long** - Thorough electro-mechanical functionality check, 837 including complete recording media scan. Generally takes several 838 hours. 839 * **conveyance** - Brief test used to identify damage incurred in 840 shipping. Generally takes 5 minutes or less. **This test is not 841 supported by SAS or SCSI devices.** 842 * **offline** - Runs SMART Immediate Offline Test. The effects of 843 this test are visible only in that it updates the SMART Attribute 844 values, and if errors are found they will appear in the SMART error 845 log, visible with the '-l error' option to smartctl. **This test is 846 not supported by SAS or SCSI devices in pySMART use cli smartctl for 847 running 'offline' selftest (runs in foreground) on scsi devices.** 848 * **ETA_type** - Format to return the estimated completion time/date 849 in. Default is 'date'. One could otherwise specidy 'seconds'. 850 Again only for ATA devices. 851 852 # Returns: 853 * **(int):** Return status code. One of the following: 854 * 0 - Self-test initiated successfully 855 * 1 - Previous self-test running. Must wait for it to finish. 856 * 2 - Unknown or unsupported (by the device) test type requested. 857 * 3 - Unspecified smartctl error. Self-test not initiated. 858 * **(str):** Return status message. 859 * **(str)/(float):** Estimated self-test completion time if a test is started. 860 The optional argument of 'ETA_type' (see above) controls the return type. 861 if 'ETA_type' == 'date' then a date string is returned else seconds(float) 862 is returned. 863 Note: The self-test completion time can only be obtained for ata devices. 864 Otherwise 'None'. 865 """ 866 # Lets call get_selftest_result() here since it does an update() and 867 # checks for an existing selftest is running or not, this way the user 868 # can issue a test from the cli and this can still pick that up 869 # Also note that we do not need to obtain the results from this as the 870 # data is already stored in the Device class object's variables 871 self.get_selftest_result() 872 if self._test_running: 873 return 1, 'Self-test in progress. Please wait.', self._test_ECD 874 test_type = test_type.lower() 875 interface = smartctl_type(self._interface) 876 try: 877 if not self.test_capabilities[test_type]: 878 return ( 879 2, 880 "Device {0} does not support the '{1}' test ".format( 881 self.name, test_type), 882 None 883 ) 884 except KeyError: 885 return 2, "Unknown test type '{0}' requested.".format(test_type), None 886 887 raw, rc = self.smartctl.test_start( 888 interface, test_type, self.dev_reference) 889 _success = False 890 _running = False 891 for line in raw: 892 if 'has begun' in line: 893 _success = True 894 self._test_running = True 895 if 'aborting current test' in line: 896 _running = True 897 try: 898 self._test_progress = 100 - \ 899 int(line.split('(')[-1].split('%')[0]) 900 except ValueError: 901 pass 902 903 if _success and 'complete after' in line: 904 self._test_ECD = line[25:].rstrip() 905 if ETA_type == 'seconds': 906 self._test_ECD = mktime( 907 strptime(self._test_ECD, '%a %b %d %H:%M:%S %Y')) - time() 908 self._test_progress = 0 909 if _success: 910 return 0, 'Self-test started successfully', self._test_ECD 911 else: 912 if _running: 913 return 1, 'Self-test already in progress. Please wait.', self._test_ECD 914 else: 915 return 3, 'Unspecified Error. Self-test not started.', None 916 917 def run_selftest_and_wait(self, test_type, output=None, polling=5, progress_handler=None): 918 """ 919 This is essentially a wrapper around run_selftest() such that we 920 call self.run_selftest() and wait on the running selftest till 921 it finished before returning. 922 The above holds true for all pySMART supported tests with the 923 exception of the 'offline' test (ATA only) as it immediately 924 returns, since the entire test only affects the smart error log 925 (if any errors found) and updates the SMART attributes. Other 926 than that it is not visibile anywhere else, so we start it and 927 simply return. 928 # Args: 929 * **test_type (str):** The type of test to run. Accepts the following 930 (not case sensitive): 931 * **short** - Brief electo-mechanical functionality check. 932 Generally takes 2 minutes or less. 933 * **long** - Thorough electro-mechanical functionality check, 934 including complete recording media scan. Generally takes several 935 hours. 936 * **conveyance** - Brief test used to identify damage incurred in 937 shipping. Generally takes 5 minutes or less. **This test is not 938 supported by SAS or SCSI devices.** 939 * **offline** - Runs SMART Immediate Offline Test. The effects of 940 this test are visible only in that it updates the SMART Attribute 941 values, and if errors are found they will appear in the SMART error 942 log, visible with the '-l error' option to smartctl. **This test is 943 not supported by SAS or SCSI devices in pySMART use cli smartctl for 944 running 'offline' selftest (runs in foreground) on scsi devices.** 945 * **output (str, optional):** If set to 'str', the string 946 representation of the most recent test result will be returned, 947 instead of a `Test_Entry` object. 948 * **polling (int, default=5):** The time duration to sleep for between 949 checking for test_results and progress. 950 * **progress_handler (function, optional):** This if provided is called 951 with self._test_progress as the supplied argument everytime a poll to 952 check the status of the selftest is done. 953 # Returns: 954 * **(int):** Return status code. One of the following: 955 * 0 - Self-test executed and finished successfully 956 * 1 - Previous self-test running. Must wait for it to finish. 957 * 2 - Unknown or illegal test type requested. 958 * 3 - The Self-test was Aborted by host 959 * 4 - Unspecified smartctl error. Self-test not initiated. 960 * **(`Test_Entry` or str):** Most recent `Test_Entry` object (or 961 optionally it's string representation) if new data exists. Status 962 message string on failure. 963 """ 964 test_initiation_result = self.run_selftest(test_type) 965 if test_initiation_result[0] != 0: 966 return test_initiation_result[:2] 967 if test_type == 'offline': 968 self._test_running = False 969 # if not then the test initiated correctly and we can start the polling. 970 # For now default 'polling' value is 5 seconds if not specified by the user 971 972 # Do an initial check, for good measure. 973 # In the probably impossible case that self._test_running is instantly False... 974 selftest_results = self.get_selftest_result(output=output) 975 while self._test_running: 976 if selftest_results[0] != 1: 977 # the selftest is run and finished lets return with the results 978 break 979 # Otherwise see if we are provided with the progress_handler to update progress 980 if progress_handler is not None: 981 progress_handler( 982 selftest_results[2] if selftest_results[2] is not None else 50) 983 # Now sleep 'polling' seconds before checking the progress again 984 sleep(polling) 985 986 # Check after the sleep to ensure we return the right result, and not an old one. 987 selftest_results = self.get_selftest_result(output=output) 988 989 # Now if (selftes_results[0] == 2) i.e No new selftest (because the same 990 # selftest was run twice within the last hour) but we know for a fact that 991 # we just ran a new selftest then just return the latest entry in self.tests 992 if selftest_results[0] == 2: 993 selftest_return_value = 0 if 'Aborted' not in self.tests[0].status else 3 994 return selftest_return_value, str(self.tests[0]) if output == 'str' else self.tests[0] 995 return selftest_results[:2] 996 997 def update(self): 998 """ 999 Queries for device information using smartctl and updates all 1000 class members, including the SMART attribute table and self-test log. 1001 Can be called at any time to refresh the `pySMART.device.Device` 1002 object's data content. 1003 """ 1004 # set temperature back to None so that if update() is called more than once 1005 # any logic that relies on self.temperature to be None to rescan it works.it 1006 self._temperature = None 1007 # same for temperatures 1008 self.temperatures = {} 1009 if self.abridged: 1010 interface = None 1011 raw = self.smartctl.info(self.dev_reference) 1012 1013 else: 1014 interface = smartctl_type(self._interface) 1015 raw = self.smartctl.all( 1016 self.dev_reference, interface) 1017 1018 canonical_interface = self.dev_interface 1019 if canonical_interface == 'nvme': 1020 self.smart_capable = True 1021 self.smart_enabled = True 1022 self.is_ssd = True 1023 1024 parse_self_tests = False 1025 parse_running_test = False 1026 parse_ascq = False 1027 polling_minute_type = None 1028 message = '' 1029 self.tests = [] 1030 self._test_running = False 1031 self._test_progress = None 1032 # Lets skip the first couple of non-useful lines 1033 _stdout = raw[4:] 1034 1035 ####################################### 1036 # Encoding fixing # 1037 ####################################### 1038 # In some scenarios, smartctl returns some lines with a different/strange encoding 1039 # This is a workaround to fix that 1040 for i, line in enumerate(_stdout): 1041 # character ' ' (U+202F) should be removed 1042 _stdout[i] = line.replace('\u202f', '') 1043 1044 ####################################### 1045 # Dedicated interface attributes # 1046 ####################################### 1047 if AtaAttributes.has_compatible_data(iter(_stdout)): 1048 self.if_attributes = AtaAttributes(iter(_stdout)) 1049 1050 elif self.dev_interface == 'nvme': 1051 self.if_attributes = NvmeAttributes(iter(_stdout)) 1052 1053 # Get Tests 1054 for test in self.if_attributes.tests: 1055 self.tests.append(TestEntry('nvme', test.num, test.description, test.status, test.powerOnHours, 1056 test.failingLBA, nsid=test.nsid, segment=test.seg, sct=test.sct, code=test.code, remain=100-test.progress)) 1057 1058 # Set running test 1059 if any(test.status == 'Running' for test in self.if_attributes.tests): 1060 self._test_running = True 1061 self._test_progress = self.if_attributes.tests[0].progress 1062 else: 1063 self._test_running = False 1064 self._test_progress = None 1065 1066 elif SCSIAttributes.has_compatible_data(iter(_stdout)): 1067 self.__get_smart_status(iter(_stdout)) 1068 self.if_attributes = SCSIAttributes(iter(_stdout), 1069 abridged=self.abridged, 1070 smartEnabled=self.smart_enabled, 1071 sm=self.smartctl, 1072 dev_reference=self.dev_reference) 1073 1074 # Import (for now) the tests from if_attributes 1075 self.tests = self.if_attributes.tests 1076 1077 else: 1078 self.if_attributes = None 1079 1080 ####################################### 1081 # Global / generic attributes # 1082 ####################################### 1083 stdout_iter = iter(_stdout) 1084 for line in stdout_iter: 1085 if line.strip() == '': # Blank line stops sub-captures 1086 if parse_self_tests is True: 1087 parse_self_tests = False 1088 if parse_ascq: 1089 parse_ascq = False 1090 self.messages.append(message) 1091 if parse_ascq: 1092 message += ' ' + line.lstrip().rstrip() 1093 if parse_self_tests: 1094 # Detect Test Format 1095 1096 ## SCSI/SAS FORMAT ## 1097 # Example smartctl output 1098 # SMART Self-test log 1099 # Num Test Status segment LifeTime LBA_first_err [SK ASC ASQ] 1100 # Description number (hours) 1101 # # 1 Background short Completed - 33124 - [- - -] 1102 format_scsi = re.compile( 1103 r'^[#\s]*(\d+)\s{2,}(.*[^\s])\s{2,}(.*[^\s])\s{2,}(.*[^\s])\s{2,}(.*[^\s])\s{2,}(.*[^\s])\s+\[([^\s]+)\s+([^\s]+)\s+([^\s]+)\]$').match(line) 1104 1105 ## ATA FORMAT ## 1106 # Example smartctl output: 1107 # SMART Self-test log structure revision number 1 1108 # Num Test_Description Status Remaining LifeTime(hours) LBA_of_first_error 1109 # # 1 Extended offline Completed without error 00% 46660 - 1110 format_ata = re.compile( 1111 r'^[#\s]*(\d+)\s{2,}(.*[^\s])\s{2,}(.*[^\s])\s{1,}(.*[^\s])\s{2,}(.*[^\s])\s{2,}(.*[^\s])$').match(line) 1112 1113 if format_scsi is not None: 1114 ## SCSI FORMAT ## 1115 pass 1116 1117 elif format_ata is not None: 1118 ## ATA FORMAT ## 1119 format = 'ata' 1120 parsed = format_ata.groups() 1121 num = parsed[0] 1122 test_type = parsed[1] 1123 status = parsed[2] 1124 remain = parsed[3] 1125 hours = parsed[4] 1126 lba = parsed[5] 1127 1128 try: 1129 num = int(num) 1130 except: 1131 num = None 1132 1133 self.tests.append( 1134 TestEntry(format, num, test_type, status, 1135 hours, lba, remain=remain) 1136 ) 1137 else: 1138 pass 1139 1140 # Basic device information parsing 1141 if any_in(line, 'Device Model', 'Product', 'Model Number'): 1142 self.model = line.split(':')[1].lstrip().rstrip() 1143 self._guess_smart_type(line.lower()) 1144 continue 1145 1146 if 'Model Family' in line: 1147 self.family = line.split(':')[1].strip() 1148 self._guess_smart_type(line.lower()) 1149 continue 1150 1151 if 'LU WWN' in line: 1152 self._guess_smart_type(line.lower()) 1153 continue 1154 1155 if any_in(line, 'Serial Number', 'Serial number'): 1156 try: 1157 self.serial = line.split(':')[1].split()[0].rstrip() 1158 except IndexError: 1159 # Serial reported empty 1160 self.serial = "" 1161 continue 1162 1163 vendor = re.compile(r'^Vendor:\s+(\w+)').match(line) 1164 if vendor is not None: 1165 self._vendor = vendor.groups()[0] 1166 1167 if any_in(line, 'Firmware Version', 'Revision'): 1168 self.firmware = line.split(':')[1].strip() 1169 1170 if any_in(line, 'User Capacity', 'Total NVM Capacity', 'Namespace 1 Size/Capacity'): 1171 # TODO: support for multiple NVMe namespaces 1172 m = re.match( 1173 r'.*:\s+([\d,. \u2019\u00a0]+)\s\D*\[?([^\]]+)?\]?', line.strip()) 1174 1175 if m is not None: 1176 tmp = m.groups() 1177 if tmp[0] == ' ': 1178 # This capacity is set to 0, skip it 1179 continue 1180 1181 self._capacity = int( 1182 tmp[0].strip().replace(',', '').replace('.', '').replace(' ', '').replace('\u2019', '').replace('\u00a0', '')) 1183 1184 if len(tmp) == 2 and tmp[1] is not None: 1185 self._capacity_human = tmp[1].strip().replace(',', '.') 1186 1187 if 'SMART support' in line: 1188 # self.smart_capable = 'Available' in line 1189 # self.smart_enabled = 'Enabled' in line 1190 # Since this line repeats twice the above method is flawed 1191 # Lets try the following instead, it is a bit redundant but 1192 # more robust. 1193 if any_in(line, 'Unavailable', 'device lacks SMART capability'): 1194 self.smart_capable = False 1195 self.smart_enabled = False 1196 elif 'Enabled' in line: 1197 self.smart_enabled = True 1198 elif 'Disabled' in line: 1199 self.smart_enabled = False 1200 elif any_in(line, 'Available', 'device has SMART capability'): 1201 self.smart_capable = True 1202 continue 1203 1204 if 'does not support SMART' in line: 1205 self.smart_capable = False 1206 self.smart_enabled = False 1207 continue 1208 1209 if 'Rotation Rate' in line: 1210 if 'Solid State Device' in line: 1211 self.is_ssd = True 1212 elif 'rpm' in line: 1213 self.is_ssd = False 1214 try: 1215 self.rotation_rate = int( 1216 line.split(':')[1].lstrip().rstrip()[:-4]) 1217 except ValueError: 1218 # Cannot parse the RPM? Assigning None instead 1219 self.rotation_rate = None 1220 continue 1221 1222 if 'SMART overall-health self-assessment' in line: # ATA devices 1223 if line.split(':')[1].strip() == 'PASSED': 1224 self.assessment = 'PASS' 1225 else: 1226 self.assessment = 'FAIL' 1227 continue 1228 1229 if 'SMART Health Status' in line: # SCSI devices 1230 if line.split(':')[1].strip() == 'OK': 1231 self.assessment = 'PASS' 1232 else: 1233 self.assessment = 'FAIL' 1234 parse_ascq = True # Set flag to capture status message 1235 message = line.split(':')[1].lstrip().rstrip() 1236 continue 1237 1238 # Parse SMART test capabilities (ATA only) 1239 # Note: SCSI does not list this but and allows for only 'offline', 'short' and 'long' 1240 if 'SMART execute Offline immediate' in line: 1241 self.test_capabilities['offline'] = 'No' not in line 1242 continue 1243 1244 if 'Conveyance Self-test supported' in line: 1245 self.test_capabilities['conveyance'] = 'No' not in line 1246 continue 1247 1248 if 'Selective Self-test supported' in line: 1249 self.test_capabilities['selective'] = 'No' not in line 1250 continue 1251 1252 if 'Self-test supported' in line: 1253 self.test_capabilities['short'] = 'No' not in line 1254 self.test_capabilities['long'] = 'No' not in line 1255 continue 1256 1257 # Parse SMART test capabilities (NVMe only) 1258 if 'Optional Admin Commands' in line: 1259 if 'Self_Test' in line: 1260 self.test_capabilities['short'] = True 1261 self.test_capabilities['long'] = True 1262 1263 if 'Short self-test routine' in line: 1264 polling_minute_type = 'short' 1265 continue 1266 if 'Extended self-test routine' in line: 1267 polling_minute_type = 'long' 1268 continue 1269 if 'Conveyance self-test routine' in line: 1270 polling_minute_type = 'conveyance' 1271 continue 1272 if 'recommended polling time:' in line: 1273 self.test_polling_time[polling_minute_type] = float( 1274 re.sub("[^0-9]", "", line) 1275 ) 1276 continue 1277 1278 # For some reason smartctl does not show a currently running test 1279 # for 'ATA' in the Test log so I just have to catch it this way i guess! 1280 # For 'scsi' I still do it since it is the only place I get % remaining in scsi 1281 if 'Self-test execution status' in line: 1282 if 'progress' in line: 1283 self._test_running = True 1284 # for ATA the "%" remaining is on the next line 1285 # thus set the parse_running_test flag and move on 1286 parse_running_test = True 1287 elif '%' in line: 1288 # for scsi the progress is on the same line 1289 # so we can just parse it and move on 1290 self._test_running = True 1291 try: 1292 self._test_progress = 100 - \ 1293 int(line.split('%')[0][-3:].strip()) 1294 except ValueError: 1295 pass 1296 continue 1297 if parse_running_test is True: 1298 try: 1299 self._test_progress = 100 - \ 1300 int(line.split('%')[0][-3:].strip()) 1301 except ValueError: 1302 pass 1303 parse_running_test = False 1304 1305 if "Self-test log" in line: 1306 parse_self_tests = True # Set flag to capture test entries 1307 continue 1308 1309 ####################################### 1310 # SCSI only # 1311 ####################################### 1312 # 1313 # Everything from here on is parsing SCSI information that takes 1314 # the place of similar ATA SMART information 1315 1316 if 'Current Drive Temperature' in line or ('Temperature:' in 1317 line and interface == 'nvme'): 1318 try: 1319 self._temperature = int( 1320 line.split(':')[-1].strip().split()[0]) 1321 1322 if 'fahrenheit' in line.lower(): 1323 self._temperature = int( 1324 (self.temperature - 32) * 5 / 9) 1325 1326 except ValueError: 1327 pass 1328 1329 continue 1330 1331 if 'Temperature Sensor ' in line: 1332 try: 1333 match = re.search( 1334 r'Temperature\sSensor\s([0-9]+):\s+(-?[0-9]+)', line) 1335 if match: 1336 (tempsensor_number_s, tempsensor_value_s) = match.group(1, 2) 1337 tempsensor_number = int(tempsensor_number_s) 1338 tempsensor_value = int(tempsensor_value_s) 1339 1340 if 'fahrenheit' in line.lower(): 1341 tempsensor_value = int( 1342 (tempsensor_value - 32) * 5 / 9) 1343 1344 self.temperatures[tempsensor_number] = tempsensor_value 1345 if self.temperature is None or tempsensor_number == 0: 1346 self._temperature = tempsensor_value 1347 except ValueError: 1348 pass 1349 1350 continue 1351 1352 ####################################### 1353 # Common values # 1354 ####################################### 1355 1356 # Sector sizes 1357 if 'Sector Sizes' in line: # ATA 1358 m = re.match( 1359 r'.* (\d+) bytes logical,\s*(\d+) bytes physical', line) 1360 if m: 1361 self.logical_sector_size = int(m.group(1)) 1362 self.physical_sector_size = int(m.group(2)) 1363 continue 1364 if 'Logical block size:' in line: # SCSI 1/2 1365 self.logical_sector_size = int( 1366 line.split(':')[1].strip().split(' ')[0]) 1367 continue 1368 if 'Physical block size:' in line: # SCSI 2/2 1369 self.physical_sector_size = int( 1370 line.split(':')[1].strip().split(' ')[0]) 1371 continue 1372 if 'Namespace 1 Formatted LBA Size' in line: # NVMe 1373 # Note: we will assume that there is only one namespace 1374 self.logical_sector_size = int( 1375 line.split(':')[1].strip().split(' ')[0]) 1376 continue 1377 1378 if not self.abridged: 1379 if not interface == 'scsi': 1380 # Parse the SMART table for below-threshold attributes and create 1381 # corresponding warnings for non-SCSI disks 1382 self._make_smart_warnings() 1383 1384 # Now that we have finished the update routine, if we did not find a runnning selftest 1385 # nuke the self._test_ECD and self._test_progress 1386 if self._test_running is False: 1387 self._test_ECD = None 1388 self._test_progress = None
Represents any device attached to an internal storage interface, such as a hard drive or DVD-ROM, and detected by smartmontools. Includes eSATA (considered SATA) but excludes other external devices (USB, Firewire).
Device( name: str, interface: Optional[str] = None, abridged: bool = False, smart_options: Union[str, List[str], NoneType] = None, smartctl: pySMART.smartctl.Smartctl = <pySMART.smartctl.Smartctl object>)
88 def __init__(self, name: str, interface: Optional[str] = None, abridged: bool = False, smart_options: Union[str, List[str], None] = None, smartctl: Smartctl = SMARTCTL): 89 """Instantiates and initializes the `pySMART.device.Device`.""" 90 if not ( 91 interface is None or 92 smartctl_isvalid_type(interface.lower()) 93 ): 94 raise ValueError( 95 'Unknown interface: {0} specified for {1}'.format(interface, name)) 96 self.abridged = abridged or interface == 'UNKNOWN INTERFACE' 97 if smart_options is not None: 98 if isinstance(smart_options, str): 99 smart_options = smart_options.split(' ') 100 smartctl.add_options(smart_options) 101 self.smartctl = smartctl 102 """ 103 """ 104 self.name: str = name.replace('/dev/', '').replace('nvd', 'nvme') 105 """ 106 **(str):** Device's hardware ID, without the '/dev/' prefix. 107 (ie: sda (Linux), pd0 (Windows)) 108 """ 109 self.family: Optional[str] = None 110 """**(str):** Device's family (if any).""" 111 self.model: Optional[str] = None 112 """**(str):** Device's model number (if any).""" 113 self.serial: Optional[str] = None 114 """**(str):** Device's serial number (if any).""" 115 self._vendor: Optional[str] = None 116 """**(str):** Device's vendor (if any).""" 117 self._interface: Optional[str] = None if interface == 'UNKNOWN INTERFACE' else interface 118 """ 119 **(str):** Device's interface type. Must be one of: 120 * **ATA** - Advanced Technology Attachment 121 * **SATA** - Serial ATA 122 * **SCSI** - Small Computer Systems Interface 123 * **SAS** - Serial Attached SCSI 124 * **SAT** - SCSI-to-ATA Translation (SATA device plugged into a 125 SAS port) 126 * **CSMI** - Common Storage Management Interface (Intel ICH / 127 Matrix RAID) 128 Generally this should not be specified to allow auto-detection to 129 occur. Otherwise, this value overrides the auto-detected type and could 130 produce unexpected or no data. 131 """ 132 self._capacity: Optional[int] = None 133 """**(str):** Device's user capacity as reported directly by smartctl (RAW).""" 134 self._capacity_human: Optional[str] = None 135 """**(str):** Device's user capacity (human readable) as reported directly by smartctl (RAW).""" 136 self.firmware: Optional[str] = None 137 """**(str):** Device's firmware version.""" 138 self.smart_capable: bool = False 139 """ 140 **(bool):** True if the device has SMART Support Available. 141 False otherwise. This is useful for VMs amongst other things. 142 """ 143 self.smart_enabled: bool = False 144 """ 145 **(bool):** True if the device supports SMART (or SCSI equivalent) and 146 has the feature set enabled. False otherwise. 147 """ 148 self.assessment: Optional[str] = None 149 """ 150 **(str):** SMART health self-assessment as reported by the device. 151 """ 152 self.messages: List[str] = [] 153 """ 154 **(list of str):** Contains any SMART warnings or other error messages 155 reported by the device (ie: ascq codes). 156 """ 157 self.is_ssd: bool = False 158 """ 159 **(bool):** True if this device is a Solid State Drive. 160 False otherwise. 161 """ 162 self.rotation_rate: Optional[int] = None 163 """ 164 **(int):** The Roatation Rate of the Drive if it is not a SSD. 165 The Metric is RPM. 166 """ 167 self.test_capabilities = { 168 'offline': False, # SMART execute Offline immediate (ATA only) 169 'short': 'nvme' not in self.name, # SMART short Self-test 170 'long': 'nvme' not in self.name, # SMART long Self-test 171 'conveyance': False, # SMART Conveyance Self-Test (ATA only) 172 'selective': False, # SMART Selective Self-Test (ATA only) 173 } 174 # Note have not included 'offline' test for scsi as it runs in the foregorund 175 # mode. While this may be beneficial to us in someways it is against the 176 # general layout and pattern that the other tests issued using pySMART are 177 # followed hence not doing it currently 178 """ 179 **(dict): ** This dictionary contains key == 'Test Name' and 180 value == 'True/False' of self-tests that this device is capable of. 181 """ 182 # Note: The above are just default values and can/will be changed 183 # upon update() when the attributes and type of the disk is actually 184 # determined. 185 self.test_polling_time = { 186 'short': 10, 187 'long': 1000, 188 'conveyance': 20, 189 } 190 """ 191 **(dict): ** This dictionary contains key == 'Test Name' and 192 value == int of approximate times to run each test type that this 193 device is capable of. 194 """ 195 # Note: The above are just default values and can/will be changed 196 # upon update() when the attributes and type of the disk is actually 197 # determined. 198 self.tests: List[TestEntry] = [] 199 """ 200 **(list of `TestEntry`):** Contains the complete SMART self-test log 201 for this device, as provided by smartctl. 202 """ 203 self._test_running = False 204 """ 205 **(bool):** True if a self-test is currently being run. 206 False otherwise. 207 """ 208 self._test_ECD = None 209 """ 210 **(str):** Estimated completion time of the running SMART selftest. 211 Not provided by SAS/SCSI devices. 212 """ 213 self._test_progress = None 214 """ 215 **(int):** Estimate progress percantage of the running SMART selftest. 216 """ 217 self._temperature: Optional[int] = None 218 """ 219 **(int or None): Since SCSI disks do not report attributes like ATA ones 220 we need to grep/regex the shit outta the normal "smartctl -a" output. 221 In case the device have more than one temperature sensor the first value 222 will be stored here too. 223 Note: Temperatures are always in Celsius (if possible). 224 """ 225 self.temperatures: Dict[int, int] = {} 226 """ 227 **(dict of int): NVMe disks usually report multiple temperatures, which 228 will be stored here if available. Keys are sensor numbers as reported in 229 output data. 230 Note: Temperatures are always in Celsius (if possible). 231 """ 232 self.logical_sector_size: Optional[int] = None 233 """ 234 **(int):** The logical sector size of the device (or LBA). 235 """ 236 self.physical_sector_size: Optional[int] = None 237 """ 238 **(int):** The physical sector size of the device. 239 """ 240 self.if_attributes: Union[None, 241 AtaAttributes, 242 NvmeAttributes, 243 SCSIAttributes] = None 244 """ 245 **(NvmeAttributes):** This object may vary for each device interface attributes. 246 It will store all data obtained from smartctl 247 """ 248 249 if self.name is None: 250 warnings.warn( 251 "\nDevice '{0}' does not exist! This object should be destroyed.".format( 252 name) 253 ) 254 return 255 # If no interface type was provided, scan for the device 256 # Lets do this only for the non-abridged case 257 # (we can work with no interface for abridged case) 258 elif self._interface is None and not self.abridged: 259 logger.debug( 260 "Determining interface of disk: {0}".format(self.name)) 261 raw, returncode = self.smartctl.generic_call( 262 ['-d', 'test', self.dev_reference]) 263 264 if len(raw) > 0: 265 # I do not like this parsing logic but it works for now! 266 # just for reference _stdout.split('\n') gets us 267 # something like 268 # [ 269 # ...copyright string..., 270 # '', 271 # "/dev/ada2: Device of type 'atacam' [ATA] detected", 272 # "/dev/ada2: Device of type 'atacam' [ATA] opened", 273 # '' 274 # ] 275 # The above example should be enough for anyone to understand the line below 276 try: 277 for line in reversed(raw): 278 if "opened" in line: 279 self._interface = line.split("'")[1] 280 281 break 282 except: 283 # for whatever reason we could not get the interface type 284 # we should mark this as an `abbridged` case and move on 285 self._interface = None 286 self.abbridged = True 287 # TODO: Uncomment the classify call if we ever find out that we need it 288 # Disambiguate the generic interface to a specific type 289 # self._classify() 290 else: 291 warnings.warn( 292 "\nDevice '{0}' does not exist! This object should be destroyed.".format( 293 name) 294 ) 295 return 296 # If a valid device was detected, populate its information 297 # OR if in unabridged mode, then do it even without interface info 298 if self._interface is not None or self.abridged: 299 self.update()
Instantiates and initializes the pySMART.device.Device.
smart_capable: bool
(bool): True if the device has SMART Support Available. False otherwise. This is useful for VMs amongst other things.
smart_enabled: bool
(bool): True if the device supports SMART (or SCSI equivalent) and has the feature set enabled. False otherwise.
messages: List[str]
(list of str): Contains any SMART warnings or other error messages reported by the device (ie: ascq codes).
rotation_rate: Optional[int]
(int): The Roatation Rate of the Drive if it is not a SSD. The Metric is RPM.
test_capabilities
*(dict): * This dictionary contains key == 'Test Name' and value == 'True/False' of self-tests that this device is capable of.
test_polling_time
*(dict): * This dictionary contains key == 'Test Name' and value == int of approximate times to run each test type that this device is capable of.
tests: List[TestEntry]
(list of TestEntry): Contains the complete SMART self-test log
for this device, as provided by smartctl.
temperatures: Dict[int, int]
**(dict of int): NVMe disks usually report multiple temperatures, which will be stored here if available. Keys are sensor numbers as reported in output data. Note: Temperatures are always in Celsius (if possible).
if_attributes: Union[NoneType, pySMART.interface.ata.AtaAttributes, pySMART.interface.nvme.NvmeAttributes, pySMART.interface.scsi.SCSIAttributes]
(NvmeAttributes): This object may vary for each device interface attributes. It will store all data obtained from smartctl
attributes: List[Optional[Attribute]]
301 @property 302 def attributes(self) -> List[Optional[Attribute]]: 303 """Returns the SMART attributes of the device. 304 Note: This is only filled with ATA/SATA attributes. SCSI/SAS/NVMe devices will have empty lists!! 305 @deprecated: Use `if_attributes` instead. 306 307 Returns: 308 list of `Attribute`: The SMART attributes of the device. 309 """ 310 if self.if_attributes is None or not isinstance(self.if_attributes, AtaAttributes): 311 return [None] * 256 312 else: 313 return self.if_attributes.legacyAttributes
Returns the SMART attributes of the device.
Note: This is only filled with ATA/SATA attributes. SCSI/SAS/NVMe devices will have empty lists!!
@deprecated: Use if_attributes instead.
Returns:
list of Attribute: The SMART attributes of the device.
dev_interface: Optional[str]
315 @property 316 def dev_interface(self) -> Optional[str]: 317 """Returns the internal interface type of the device. 318 It may not be the same as the interface type as used by smartctl. 319 320 Returns: 321 str: The interface type of the device. (example: ata, scsi, nvme) 322 None if the interface type could not be determined. 323 """ 324 # Try to get the fine-tuned interface type 325 fineType = self._classify() 326 327 # If return still contains a megaraid, just asume it's type 328 if 'megaraid' in fineType: 329 # If any attributes is not None and has at least non None value, then it is a sat+megaraid device 330 if isinstance(self.if_attributes, AtaAttributes): 331 return 'ata' 332 else: 333 return 'sas' 334 335 return fineType
Returns the internal interface type of the device. It may not be the same as the interface type as used by smartctl.
Returns: str: The interface type of the device. (example: ata, scsi, nvme) None if the interface type could not be determined.
temperature: Optional[int]
337 @property 338 def temperature(self) -> Optional[int]: 339 """Returns the temperature of the device. 340 341 Returns: 342 int: The temperature of the device in Celsius. 343 None if the temperature could not be determined. 344 """ 345 if self.if_attributes is None: 346 return self._temperature 347 else: 348 return self.if_attributes.temperature or self._temperature
Returns the temperature of the device.
Returns: int: The temperature of the device in Celsius. None if the temperature could not be determined.
smartctl_interface: Optional[str]
350 @property 351 def smartctl_interface(self) -> Optional[str]: 352 """Returns the interface type of the device as it is used in smartctl. 353 354 Returns: 355 str: The interface type of the device. (example: ata, scsi, nvme) 356 None if the interface type could not be determined. 357 """ 358 return self._interface
Returns the interface type of the device as it is used in smartctl.
Returns: str: The interface type of the device. (example: ata, scsi, nvme) None if the interface type could not be determined.
interface: Optional[str]
360 @property 361 def interface(self) -> Optional[str]: 362 """Returns the interface type of the device as it is used in smartctl. 363 364 Returns: 365 str: The interface type of the device. (example: ata, scsi, nvme) 366 None if the interface type could not be determined. 367 """ 368 return self.smartctl_interface
Returns the interface type of the device as it is used in smartctl.
Returns: str: The interface type of the device. (example: ata, scsi, nvme) None if the interface type could not be determined.
dev_reference: str
370 @property 371 def dev_reference(self) -> str: 372 """The reference to the device as provided by smartctl. 373 - On unix-like systems, this is the path to the device. (example /dev/<name>) 374 - On MacOS, this is the name of the device. (example <name>) 375 - On Windows, this is the drive letter of the device. (example <drive letter>) 376 377 Returns: 378 str: The reference to the device as provided by smartctl. 379 """ 380 381 # detect if we are on MacOS 382 if 'IOService' in self.name: 383 return self.name 384 385 # otherwise asume we are on unix-like systems 386 return os.path.join('/dev/', self.name)
The reference to the device as provided by smartctl.
- On unix-like systems, this is the path to the device. (example /dev/
) - On MacOS, this is the name of the device. (example
) - On Windows, this is the drive letter of the device. (example
)
Returns: str: The reference to the device as provided by smartctl.
vendor: Optional[str]
388 @property 389 def vendor(self) -> Optional[str]: 390 """Returns the vendor of the device. 391 392 Returns: 393 str: The vendor of the device. 394 """ 395 if self._vendor: 396 return self._vendor 397 398 # If family is present, try to stract from family. Skip anything but letters. 399 elif self.family: 400 filter = re.search(r'^[a-zA-Z]+', self.family.strip()) 401 if filter: 402 return filter.group(0) 403 404 # If model is present, try to stract from model. Skip anything but letters. 405 elif self.model: 406 filter = re.search(r'^[a-zA-Z]+', self.model.strip()) 407 if filter: 408 return filter.group(0) 409 410 # If all else fails, return None 411 return None
Returns the vendor of the device.
Returns: str: The vendor of the device.
capacity: Optional[str]
413 @property 414 def capacity(self) -> Optional[str]: 415 """Returns the capacity in the raw smartctl format. 416 This may be deprecated in the future and its only retained for compatibility. 417 418 Returns: 419 str: The capacity in the raw smartctl format 420 """ 421 return self._capacity_human
Returns the capacity in the raw smartctl format. This may be deprecated in the future and its only retained for compatibility.
Returns: str: The capacity in the raw smartctl format
diagnostics: Optional[pySMART.interface.scsi.diagnostics.Diagnostics]
423 @property 424 def diagnostics(self) -> Optional[Diagnostics]: 425 """Gets the old/deprecated version of SCSI/SAS diagnostics atribute. 426 """ 427 if self.if_attributes is None or not isinstance(self.if_attributes, SCSIAttributes): 428 return None 429 430 else: 431 return self.if_attributes.diagnostics
Gets the old/deprecated version of SCSI/SAS diagnostics atribute.
diags: Dict[str, str]
433 @property 434 def diags(self) -> Dict[str, str]: 435 """Gets the old/deprecated version of SCSI/SAS diags atribute. 436 """ 437 if self.if_attributes is None or not isinstance(self.if_attributes, SCSIAttributes): 438 # Return an empty dict if the device is not SCSI/SAS 439 return {} 440 441 else: 442 return self.if_attributes.diagnostics.get_classic_format()
Gets the old/deprecated version of SCSI/SAS diags atribute.
size_raw: Optional[str]
444 @property 445 def size_raw(self) -> Optional[str]: 446 """Returns the capacity in the raw smartctl format. 447 448 Returns: 449 str: The capacity in the raw smartctl format 450 """ 451 return self._capacity_human
Returns the capacity in the raw smartctl format.
Returns: str: The capacity in the raw smartctl format
size: int
453 @property 454 def size(self) -> int: 455 """Returns the capacity in bytes 456 457 Returns: 458 int: The capacity in bytes 459 """ 460 import humanfriendly 461 462 if self._capacity is not None: 463 return self._capacity 464 elif self._capacity_human is not None: 465 return humanfriendly.parse_size(self._capacity_human) 466 else: 467 return 0
Returns the capacity in bytes
Returns: int: The capacity in bytes
sector_size: int
469 @property 470 def sector_size(self) -> int: 471 """Returns the sector size of the device. 472 473 Returns: 474 int: The sector size of the device in Bytes. If undefined, we'll assume 512B 475 """ 476 if self.logical_sector_size is not None: 477 return self.logical_sector_size 478 elif self.physical_sector_size is not None: 479 return self.physical_sector_size 480 else: 481 return 512
Returns the sector size of the device.
Returns: int: The sector size of the device in Bytes. If undefined, we'll assume 512B
def
smart_toggle(self, action: str) -> Tuple[bool, List[str]]:
530 def smart_toggle(self, action: str) -> Tuple[bool, List[str]]: 531 """ 532 A basic function to enable/disable SMART on device. 533 534 # Args: 535 * **action (str):** Can be either 'on'(for enabling) or 'off'(for disabling). 536 537 # Returns" 538 * **(bool):** Return True (if action succeded) else False 539 * **(List[str]):** None if option succeded else contains the error message. 540 """ 541 # Lets make the action verb all lower case 542 if self._interface == 'nvme': 543 return False, ['NVME devices do not currently support toggling SMART enabled'] 544 action_lower = action.lower() 545 if action_lower not in ['on', 'off']: 546 return False, ['Unsupported action {0}'.format(action)] 547 # Now lets check if the device's smart enabled status is already that of what 548 # the supplied action is intending it to be. If so then just return successfully 549 if self.smart_enabled: 550 if action_lower == 'on': 551 return True, [] 552 else: 553 if action_lower == 'off': 554 return True, [] 555 if self._interface is not None: 556 raw, returncode = self.smartctl.generic_call( 557 ['-s', action_lower, '-d', self._interface, self.dev_reference]) 558 else: 559 raw, returncode = self.smartctl.generic_call( 560 ['-s', action_lower, self.dev_reference]) 561 562 if returncode != 0: 563 return False, raw 564 # if everything worked out so far lets perform an update() and check the result 565 self.update() 566 if action_lower == 'off' and self.smart_enabled: 567 return False, ['Failed to turn SMART off.'] 568 if action_lower == 'on' and not self.smart_enabled: 569 return False, ['Failed to turn SMART on.'] 570 return True, []
A basic function to enable/disable SMART on device.
Args:
- action (str): Can be either 'on'(for enabling) or 'off'(for disabling).
Returns"
- (bool): Return True (if action succeded) else False
- (List[str]): None if option succeded else contains the error message.
def
all_attributes(self, print_fn=<built-in function print>):
572 def all_attributes(self, print_fn=print): 573 """ 574 Prints the entire SMART attribute table, in a format similar to 575 the output of smartctl. 576 allows usage of custom print function via parameter print_fn by default uses print 577 """ 578 header_printed = False 579 for attr in self.attributes: 580 if attr is not None: 581 if not header_printed: 582 print_fn("{0:>3} {1:24}{2:4}{3:4}{4:4}{5:9}{6:8}{7:12}{8}" 583 .format('ID#', 'ATTRIBUTE_NAME', 'CUR', 'WST', 'THR', 'TYPE', 'UPDATED', 'WHEN_FAIL', 584 'RAW')) 585 header_printed = True 586 print_fn(attr) 587 if not header_printed: 588 print_fn('This device does not support SMART attributes.')
Prints the entire SMART attribute table, in a format similar to the output of smartctl. allows usage of custom print function via parameter print_fn by default uses print
def
all_selftests(self):
590 def all_selftests(self): 591 """ 592 Prints the entire SMART self-test log, in a format similar to 593 the output of smartctl. 594 """ 595 if self.tests: 596 all_tests = [] 597 if smartctl_type(self._interface) == 'scsi': 598 header = "{0:3}{1:17}{2:23}{3:7}{4:14}{5:15}".format( 599 'ID', 600 'Test Description', 601 'Status', 602 'Hours', 603 '1st_Error@LBA', 604 '[SK ASC ASCQ]' 605 ) 606 else: 607 header = ("{0:3}{1:17}{2:30}{3:5}{4:7}{5:17}".format( 608 'ID', 609 'Test_Description', 610 'Status', 611 'Left', 612 'Hours', 613 '1st_Error@LBA')) 614 all_tests.append(header) 615 for test in self.tests: 616 all_tests.append(str(test)) 617 618 return all_tests 619 else: 620 no_tests = 'No self-tests have been logged for this device.' 621 return no_tests
Prints the entire SMART self-test log, in a format similar to the output of smartctl.
def
get_selftest_result(self, output=None):
741 def get_selftest_result(self, output=None): 742 """ 743 Refreshes a device's `pySMART.device.Device.tests` attribute to obtain 744 the latest test results. If a new test result is obtained, its content 745 is returned. 746 747 # Args: 748 * **output (str, optional):** If set to 'str', the string 749 representation of the most recent test result will be returned, instead 750 of a `Test_Entry` object. 751 752 # Returns: 753 * **(int):** Return status code. One of the following: 754 * 0 - Success. Object (or optionally, string rep) is attached. 755 * 1 - Self-test in progress. Must wait for it to finish. 756 * 2 - No new test results. 757 * 3 - The Self-test was Aborted by host 758 * **(`Test_Entry` or str):** Most recent `Test_Entry` object (or 759 optionally it's string representation) if new data exists. Status 760 message string on failure. 761 * **(int):** Estimate progress percantage of the running SMART selftest, if known. 762 Otherwise 'None'. 763 """ 764 # SCSI self-test logs hold 20 entries while ATA logs hold 21 765 if smartctl_type(self._interface) == 'scsi': 766 maxlog = 20 767 else: 768 maxlog = 21 769 # If we looked only at the most recent test result we could be fooled 770 # by two short tests run close together (within the same hour) 771 # appearing identical. Comparing the length of the log adds some 772 # confidence until it maxes, as above. Comparing the least-recent test 773 # result greatly diminishes the chances that two sets of two tests each 774 # were run within an hour of themselves, but with 16-17 other tests run 775 # in between them. 776 if self.tests: 777 _first_entry = self.tests[0] 778 _len = len(self.tests) 779 _last_entry = self.tests[_len - 1] 780 else: 781 _len = 0 782 self.update() 783 # Since I have changed the update() parsing to DTRT to pickup currently 784 # running selftests we can now purely rely on that for self._test_running 785 # Thus check for that variable first and return if it is True with appropos message. 786 if self._test_running is True: 787 return 1, 'Self-test in progress. Please wait.', self._test_progress 788 # Check whether the list got longer (ie: new entry) 789 # If so return the newest test result 790 # If not, because it's max size already, check for new entries 791 if ( 792 (len(self.tests) != _len) or 793 ( 794 _len == maxlog and 795 ( 796 _first_entry.type != self.tests[0].type or 797 _first_entry.hours != self.tests[0].hours or 798 _last_entry.type != self.tests[len(self.tests) - 1].type or 799 _last_entry.hours != self.tests[len( 800 self.tests) - 1].hours 801 ) 802 ) 803 ): 804 return ( 805 0 if 'Aborted' not in self.tests[0].status else 3, 806 str(self.tests[0]) if output == 'str' else self.tests[0], 807 None 808 ) 809 else: 810 return 2, 'No new self-test results found.', None
Refreshes a device's pySMART.device.Device.tests attribute to obtain
the latest test results. If a new test result is obtained, its content
is returned.
Args:
- output (str, optional): If set to 'str', the string
representation of the most recent test result will be returned, instead
of a
Test_Entryobject.
Returns:
- (int): Return status code. One of the following:
- 0 - Success. Object (or optionally, string rep) is attached.
- 1 - Self-test in progress. Must wait for it to finish.
- 2 - No new test results.
- 3 - The Self-test was Aborted by host
- (
Test_Entryor str): Most recentTest_Entryobject (or optionally it's string representation) if new data exists. Status message string on failure. - (int): Estimate progress percantage of the running SMART selftest, if known. Otherwise 'None'.
def
abort_selftest(self):
812 def abort_selftest(self): 813 """ 814 Aborts non-captive SMART Self Tests. Note that this command 815 will abort the Offline Immediate Test routine only if your disk 816 has the "Abort Offline collection upon new command" capability. 817 818 # Args: Nothing (just aborts directly) 819 820 # Returns: 821 * **(int):** The returncode of calling `smartctl -X device_path` 822 """ 823 return self.smartctl.test_stop(smartctl_type(self._interface), self.dev_reference)
Aborts non-captive SMART Self Tests. Note that this command will abort the Offline Immediate Test routine only if your disk has the "Abort Offline collection upon new command" capability.
Args: Nothing (just aborts directly)
Returns:
- (int): The returncode of calling
smartctl -X device_path
def
run_selftest(self, test_type, ETA_type='date'):
825 def run_selftest(self, test_type, ETA_type='date'): 826 """ 827 Instructs a device to begin a SMART self-test. All tests are run in 828 'offline' / 'background' mode, allowing normal use of the device while 829 it is being tested. 830 831 # Args: 832 * **test_type (str):** The type of test to run. Accepts the following 833 (not case sensitive): 834 * **short** - Brief electo-mechanical functionality check. 835 Generally takes 2 minutes or less. 836 * **long** - Thorough electro-mechanical functionality check, 837 including complete recording media scan. Generally takes several 838 hours. 839 * **conveyance** - Brief test used to identify damage incurred in 840 shipping. Generally takes 5 minutes or less. **This test is not 841 supported by SAS or SCSI devices.** 842 * **offline** - Runs SMART Immediate Offline Test. The effects of 843 this test are visible only in that it updates the SMART Attribute 844 values, and if errors are found they will appear in the SMART error 845 log, visible with the '-l error' option to smartctl. **This test is 846 not supported by SAS or SCSI devices in pySMART use cli smartctl for 847 running 'offline' selftest (runs in foreground) on scsi devices.** 848 * **ETA_type** - Format to return the estimated completion time/date 849 in. Default is 'date'. One could otherwise specidy 'seconds'. 850 Again only for ATA devices. 851 852 # Returns: 853 * **(int):** Return status code. One of the following: 854 * 0 - Self-test initiated successfully 855 * 1 - Previous self-test running. Must wait for it to finish. 856 * 2 - Unknown or unsupported (by the device) test type requested. 857 * 3 - Unspecified smartctl error. Self-test not initiated. 858 * **(str):** Return status message. 859 * **(str)/(float):** Estimated self-test completion time if a test is started. 860 The optional argument of 'ETA_type' (see above) controls the return type. 861 if 'ETA_type' == 'date' then a date string is returned else seconds(float) 862 is returned. 863 Note: The self-test completion time can only be obtained for ata devices. 864 Otherwise 'None'. 865 """ 866 # Lets call get_selftest_result() here since it does an update() and 867 # checks for an existing selftest is running or not, this way the user 868 # can issue a test from the cli and this can still pick that up 869 # Also note that we do not need to obtain the results from this as the 870 # data is already stored in the Device class object's variables 871 self.get_selftest_result() 872 if self._test_running: 873 return 1, 'Self-test in progress. Please wait.', self._test_ECD 874 test_type = test_type.lower() 875 interface = smartctl_type(self._interface) 876 try: 877 if not self.test_capabilities[test_type]: 878 return ( 879 2, 880 "Device {0} does not support the '{1}' test ".format( 881 self.name, test_type), 882 None 883 ) 884 except KeyError: 885 return 2, "Unknown test type '{0}' requested.".format(test_type), None 886 887 raw, rc = self.smartctl.test_start( 888 interface, test_type, self.dev_reference) 889 _success = False 890 _running = False 891 for line in raw: 892 if 'has begun' in line: 893 _success = True 894 self._test_running = True 895 if 'aborting current test' in line: 896 _running = True 897 try: 898 self._test_progress = 100 - \ 899 int(line.split('(')[-1].split('%')[0]) 900 except ValueError: 901 pass 902 903 if _success and 'complete after' in line: 904 self._test_ECD = line[25:].rstrip() 905 if ETA_type == 'seconds': 906 self._test_ECD = mktime( 907 strptime(self._test_ECD, '%a %b %d %H:%M:%S %Y')) - time() 908 self._test_progress = 0 909 if _success: 910 return 0, 'Self-test started successfully', self._test_ECD 911 else: 912 if _running: 913 return 1, 'Self-test already in progress. Please wait.', self._test_ECD 914 else: 915 return 3, 'Unspecified Error. Self-test not started.', None
Instructs a device to begin a SMART self-test. All tests are run in 'offline' / 'background' mode, allowing normal use of the device while it is being tested.
Args:
- test_type (str): The type of test to run. Accepts the following
(not case sensitive):
- short - Brief electo-mechanical functionality check. Generally takes 2 minutes or less.
- long - Thorough electro-mechanical functionality check, including complete recording media scan. Generally takes several hours.
- conveyance - Brief test used to identify damage incurred in shipping. Generally takes 5 minutes or less. This test is not supported by SAS or SCSI devices.
- offline - Runs SMART Immediate Offline Test. The effects of this test are visible only in that it updates the SMART Attribute values, and if errors are found they will appear in the SMART error log, visible with the '-l error' option to smartctl. This test is not supported by SAS or SCSI devices in pySMART use cli smartctl for running 'offline' selftest (runs in foreground) on scsi devices.
- ETA_type - Format to return the estimated completion time/date in. Default is 'date'. One could otherwise specidy 'seconds'. Again only for ATA devices.
Returns:
- (int): Return status code. One of the following:
- 0 - Self-test initiated successfully
- 1 - Previous self-test running. Must wait for it to finish.
- 2 - Unknown or unsupported (by the device) test type requested.
- 3 - Unspecified smartctl error. Self-test not initiated.
- (str): Return status message.
- (str)/(float): Estimated self-test completion time if a test is started. The optional argument of 'ETA_type' (see above) controls the return type. if 'ETA_type' == 'date' then a date string is returned else seconds(float) is returned. Note: The self-test completion time can only be obtained for ata devices. Otherwise 'None'.
def
run_selftest_and_wait(self, test_type, output=None, polling=5, progress_handler=None):
917 def run_selftest_and_wait(self, test_type, output=None, polling=5, progress_handler=None): 918 """ 919 This is essentially a wrapper around run_selftest() such that we 920 call self.run_selftest() and wait on the running selftest till 921 it finished before returning. 922 The above holds true for all pySMART supported tests with the 923 exception of the 'offline' test (ATA only) as it immediately 924 returns, since the entire test only affects the smart error log 925 (if any errors found) and updates the SMART attributes. Other 926 than that it is not visibile anywhere else, so we start it and 927 simply return. 928 # Args: 929 * **test_type (str):** The type of test to run. Accepts the following 930 (not case sensitive): 931 * **short** - Brief electo-mechanical functionality check. 932 Generally takes 2 minutes or less. 933 * **long** - Thorough electro-mechanical functionality check, 934 including complete recording media scan. Generally takes several 935 hours. 936 * **conveyance** - Brief test used to identify damage incurred in 937 shipping. Generally takes 5 minutes or less. **This test is not 938 supported by SAS or SCSI devices.** 939 * **offline** - Runs SMART Immediate Offline Test. The effects of 940 this test are visible only in that it updates the SMART Attribute 941 values, and if errors are found they will appear in the SMART error 942 log, visible with the '-l error' option to smartctl. **This test is 943 not supported by SAS or SCSI devices in pySMART use cli smartctl for 944 running 'offline' selftest (runs in foreground) on scsi devices.** 945 * **output (str, optional):** If set to 'str', the string 946 representation of the most recent test result will be returned, 947 instead of a `Test_Entry` object. 948 * **polling (int, default=5):** The time duration to sleep for between 949 checking for test_results and progress. 950 * **progress_handler (function, optional):** This if provided is called 951 with self._test_progress as the supplied argument everytime a poll to 952 check the status of the selftest is done. 953 # Returns: 954 * **(int):** Return status code. One of the following: 955 * 0 - Self-test executed and finished successfully 956 * 1 - Previous self-test running. Must wait for it to finish. 957 * 2 - Unknown or illegal test type requested. 958 * 3 - The Self-test was Aborted by host 959 * 4 - Unspecified smartctl error. Self-test not initiated. 960 * **(`Test_Entry` or str):** Most recent `Test_Entry` object (or 961 optionally it's string representation) if new data exists. Status 962 message string on failure. 963 """ 964 test_initiation_result = self.run_selftest(test_type) 965 if test_initiation_result[0] != 0: 966 return test_initiation_result[:2] 967 if test_type == 'offline': 968 self._test_running = False 969 # if not then the test initiated correctly and we can start the polling. 970 # For now default 'polling' value is 5 seconds if not specified by the user 971 972 # Do an initial check, for good measure. 973 # In the probably impossible case that self._test_running is instantly False... 974 selftest_results = self.get_selftest_result(output=output) 975 while self._test_running: 976 if selftest_results[0] != 1: 977 # the selftest is run and finished lets return with the results 978 break 979 # Otherwise see if we are provided with the progress_handler to update progress 980 if progress_handler is not None: 981 progress_handler( 982 selftest_results[2] if selftest_results[2] is not None else 50) 983 # Now sleep 'polling' seconds before checking the progress again 984 sleep(polling) 985 986 # Check after the sleep to ensure we return the right result, and not an old one. 987 selftest_results = self.get_selftest_result(output=output) 988 989 # Now if (selftes_results[0] == 2) i.e No new selftest (because the same 990 # selftest was run twice within the last hour) but we know for a fact that 991 # we just ran a new selftest then just return the latest entry in self.tests 992 if selftest_results[0] == 2: 993 selftest_return_value = 0 if 'Aborted' not in self.tests[0].status else 3 994 return selftest_return_value, str(self.tests[0]) if output == 'str' else self.tests[0] 995 return selftest_results[:2]
This is essentially a wrapper around run_selftest() such that we call self.run_selftest() and wait on the running selftest till it finished before returning. The above holds true for all pySMART supported tests with the exception of the 'offline' test (ATA only) as it immediately returns, since the entire test only affects the smart error log (if any errors found) and updates the SMART attributes. Other than that it is not visibile anywhere else, so we start it and simply return.
Args:
- test_type (str): The type of test to run. Accepts the following
(not case sensitive):
- short - Brief electo-mechanical functionality check. Generally takes 2 minutes or less.
- long - Thorough electro-mechanical functionality check, including complete recording media scan. Generally takes several hours.
- conveyance - Brief test used to identify damage incurred in shipping. Generally takes 5 minutes or less. This test is not supported by SAS or SCSI devices.
- offline - Runs SMART Immediate Offline Test. The effects of this test are visible only in that it updates the SMART Attribute values, and if errors are found they will appear in the SMART error log, visible with the '-l error' option to smartctl. This test is not supported by SAS or SCSI devices in pySMART use cli smartctl for running 'offline' selftest (runs in foreground) on scsi devices.
- output (str, optional): If set to 'str', the string
representation of the most recent test result will be returned,
instead of a
Test_Entryobject. - polling (int, default=5): The time duration to sleep for between checking for test_results and progress.
progress_handler (function, optional): This if provided is called with self._test_progress as the supplied argument everytime a poll to check the status of the selftest is done.
Returns:
(int): Return status code. One of the following:
- 0 - Self-test executed and finished successfully
- 1 - Previous self-test running. Must wait for it to finish.
- 2 - Unknown or illegal test type requested.
- 3 - The Self-test was Aborted by host
- 4 - Unspecified smartctl error. Self-test not initiated.
- (
Test_Entryor str): Most recentTest_Entryobject (or optionally it's string representation) if new data exists. Status message string on failure.
def
update(self):
997 def update(self): 998 """ 999 Queries for device information using smartctl and updates all 1000 class members, including the SMART attribute table and self-test log. 1001 Can be called at any time to refresh the `pySMART.device.Device` 1002 object's data content. 1003 """ 1004 # set temperature back to None so that if update() is called more than once 1005 # any logic that relies on self.temperature to be None to rescan it works.it 1006 self._temperature = None 1007 # same for temperatures 1008 self.temperatures = {} 1009 if self.abridged: 1010 interface = None 1011 raw = self.smartctl.info(self.dev_reference) 1012 1013 else: 1014 interface = smartctl_type(self._interface) 1015 raw = self.smartctl.all( 1016 self.dev_reference, interface) 1017 1018 canonical_interface = self.dev_interface 1019 if canonical_interface == 'nvme': 1020 self.smart_capable = True 1021 self.smart_enabled = True 1022 self.is_ssd = True 1023 1024 parse_self_tests = False 1025 parse_running_test = False 1026 parse_ascq = False 1027 polling_minute_type = None 1028 message = '' 1029 self.tests = [] 1030 self._test_running = False 1031 self._test_progress = None 1032 # Lets skip the first couple of non-useful lines 1033 _stdout = raw[4:] 1034 1035 ####################################### 1036 # Encoding fixing # 1037 ####################################### 1038 # In some scenarios, smartctl returns some lines with a different/strange encoding 1039 # This is a workaround to fix that 1040 for i, line in enumerate(_stdout): 1041 # character ' ' (U+202F) should be removed 1042 _stdout[i] = line.replace('\u202f', '') 1043 1044 ####################################### 1045 # Dedicated interface attributes # 1046 ####################################### 1047 if AtaAttributes.has_compatible_data(iter(_stdout)): 1048 self.if_attributes = AtaAttributes(iter(_stdout)) 1049 1050 elif self.dev_interface == 'nvme': 1051 self.if_attributes = NvmeAttributes(iter(_stdout)) 1052 1053 # Get Tests 1054 for test in self.if_attributes.tests: 1055 self.tests.append(TestEntry('nvme', test.num, test.description, test.status, test.powerOnHours, 1056 test.failingLBA, nsid=test.nsid, segment=test.seg, sct=test.sct, code=test.code, remain=100-test.progress)) 1057 1058 # Set running test 1059 if any(test.status == 'Running' for test in self.if_attributes.tests): 1060 self._test_running = True 1061 self._test_progress = self.if_attributes.tests[0].progress 1062 else: 1063 self._test_running = False 1064 self._test_progress = None 1065 1066 elif SCSIAttributes.has_compatible_data(iter(_stdout)): 1067 self.__get_smart_status(iter(_stdout)) 1068 self.if_attributes = SCSIAttributes(iter(_stdout), 1069 abridged=self.abridged, 1070 smartEnabled=self.smart_enabled, 1071 sm=self.smartctl, 1072 dev_reference=self.dev_reference) 1073 1074 # Import (for now) the tests from if_attributes 1075 self.tests = self.if_attributes.tests 1076 1077 else: 1078 self.if_attributes = None 1079 1080 ####################################### 1081 # Global / generic attributes # 1082 ####################################### 1083 stdout_iter = iter(_stdout) 1084 for line in stdout_iter: 1085 if line.strip() == '': # Blank line stops sub-captures 1086 if parse_self_tests is True: 1087 parse_self_tests = False 1088 if parse_ascq: 1089 parse_ascq = False 1090 self.messages.append(message) 1091 if parse_ascq: 1092 message += ' ' + line.lstrip().rstrip() 1093 if parse_self_tests: 1094 # Detect Test Format 1095 1096 ## SCSI/SAS FORMAT ## 1097 # Example smartctl output 1098 # SMART Self-test log 1099 # Num Test Status segment LifeTime LBA_first_err [SK ASC ASQ] 1100 # Description number (hours) 1101 # # 1 Background short Completed - 33124 - [- - -] 1102 format_scsi = re.compile( 1103 r'^[#\s]*(\d+)\s{2,}(.*[^\s])\s{2,}(.*[^\s])\s{2,}(.*[^\s])\s{2,}(.*[^\s])\s{2,}(.*[^\s])\s+\[([^\s]+)\s+([^\s]+)\s+([^\s]+)\]$').match(line) 1104 1105 ## ATA FORMAT ## 1106 # Example smartctl output: 1107 # SMART Self-test log structure revision number 1 1108 # Num Test_Description Status Remaining LifeTime(hours) LBA_of_first_error 1109 # # 1 Extended offline Completed without error 00% 46660 - 1110 format_ata = re.compile( 1111 r'^[#\s]*(\d+)\s{2,}(.*[^\s])\s{2,}(.*[^\s])\s{1,}(.*[^\s])\s{2,}(.*[^\s])\s{2,}(.*[^\s])$').match(line) 1112 1113 if format_scsi is not None: 1114 ## SCSI FORMAT ## 1115 pass 1116 1117 elif format_ata is not None: 1118 ## ATA FORMAT ## 1119 format = 'ata' 1120 parsed = format_ata.groups() 1121 num = parsed[0] 1122 test_type = parsed[1] 1123 status = parsed[2] 1124 remain = parsed[3] 1125 hours = parsed[4] 1126 lba = parsed[5] 1127 1128 try: 1129 num = int(num) 1130 except: 1131 num = None 1132 1133 self.tests.append( 1134 TestEntry(format, num, test_type, status, 1135 hours, lba, remain=remain) 1136 ) 1137 else: 1138 pass 1139 1140 # Basic device information parsing 1141 if any_in(line, 'Device Model', 'Product', 'Model Number'): 1142 self.model = line.split(':')[1].lstrip().rstrip() 1143 self._guess_smart_type(line.lower()) 1144 continue 1145 1146 if 'Model Family' in line: 1147 self.family = line.split(':')[1].strip() 1148 self._guess_smart_type(line.lower()) 1149 continue 1150 1151 if 'LU WWN' in line: 1152 self._guess_smart_type(line.lower()) 1153 continue 1154 1155 if any_in(line, 'Serial Number', 'Serial number'): 1156 try: 1157 self.serial = line.split(':')[1].split()[0].rstrip() 1158 except IndexError: 1159 # Serial reported empty 1160 self.serial = "" 1161 continue 1162 1163 vendor = re.compile(r'^Vendor:\s+(\w+)').match(line) 1164 if vendor is not None: 1165 self._vendor = vendor.groups()[0] 1166 1167 if any_in(line, 'Firmware Version', 'Revision'): 1168 self.firmware = line.split(':')[1].strip() 1169 1170 if any_in(line, 'User Capacity', 'Total NVM Capacity', 'Namespace 1 Size/Capacity'): 1171 # TODO: support for multiple NVMe namespaces 1172 m = re.match( 1173 r'.*:\s+([\d,. \u2019\u00a0]+)\s\D*\[?([^\]]+)?\]?', line.strip()) 1174 1175 if m is not None: 1176 tmp = m.groups() 1177 if tmp[0] == ' ': 1178 # This capacity is set to 0, skip it 1179 continue 1180 1181 self._capacity = int( 1182 tmp[0].strip().replace(',', '').replace('.', '').replace(' ', '').replace('\u2019', '').replace('\u00a0', '')) 1183 1184 if len(tmp) == 2 and tmp[1] is not None: 1185 self._capacity_human = tmp[1].strip().replace(',', '.') 1186 1187 if 'SMART support' in line: 1188 # self.smart_capable = 'Available' in line 1189 # self.smart_enabled = 'Enabled' in line 1190 # Since this line repeats twice the above method is flawed 1191 # Lets try the following instead, it is a bit redundant but 1192 # more robust. 1193 if any_in(line, 'Unavailable', 'device lacks SMART capability'): 1194 self.smart_capable = False 1195 self.smart_enabled = False 1196 elif 'Enabled' in line: 1197 self.smart_enabled = True 1198 elif 'Disabled' in line: 1199 self.smart_enabled = False 1200 elif any_in(line, 'Available', 'device has SMART capability'): 1201 self.smart_capable = True 1202 continue 1203 1204 if 'does not support SMART' in line: 1205 self.smart_capable = False 1206 self.smart_enabled = False 1207 continue 1208 1209 if 'Rotation Rate' in line: 1210 if 'Solid State Device' in line: 1211 self.is_ssd = True 1212 elif 'rpm' in line: 1213 self.is_ssd = False 1214 try: 1215 self.rotation_rate = int( 1216 line.split(':')[1].lstrip().rstrip()[:-4]) 1217 except ValueError: 1218 # Cannot parse the RPM? Assigning None instead 1219 self.rotation_rate = None 1220 continue 1221 1222 if 'SMART overall-health self-assessment' in line: # ATA devices 1223 if line.split(':')[1].strip() == 'PASSED': 1224 self.assessment = 'PASS' 1225 else: 1226 self.assessment = 'FAIL' 1227 continue 1228 1229 if 'SMART Health Status' in line: # SCSI devices 1230 if line.split(':')[1].strip() == 'OK': 1231 self.assessment = 'PASS' 1232 else: 1233 self.assessment = 'FAIL' 1234 parse_ascq = True # Set flag to capture status message 1235 message = line.split(':')[1].lstrip().rstrip() 1236 continue 1237 1238 # Parse SMART test capabilities (ATA only) 1239 # Note: SCSI does not list this but and allows for only 'offline', 'short' and 'long' 1240 if 'SMART execute Offline immediate' in line: 1241 self.test_capabilities['offline'] = 'No' not in line 1242 continue 1243 1244 if 'Conveyance Self-test supported' in line: 1245 self.test_capabilities['conveyance'] = 'No' not in line 1246 continue 1247 1248 if 'Selective Self-test supported' in line: 1249 self.test_capabilities['selective'] = 'No' not in line 1250 continue 1251 1252 if 'Self-test supported' in line: 1253 self.test_capabilities['short'] = 'No' not in line 1254 self.test_capabilities['long'] = 'No' not in line 1255 continue 1256 1257 # Parse SMART test capabilities (NVMe only) 1258 if 'Optional Admin Commands' in line: 1259 if 'Self_Test' in line: 1260 self.test_capabilities['short'] = True 1261 self.test_capabilities['long'] = True 1262 1263 if 'Short self-test routine' in line: 1264 polling_minute_type = 'short' 1265 continue 1266 if 'Extended self-test routine' in line: 1267 polling_minute_type = 'long' 1268 continue 1269 if 'Conveyance self-test routine' in line: 1270 polling_minute_type = 'conveyance' 1271 continue 1272 if 'recommended polling time:' in line: 1273 self.test_polling_time[polling_minute_type] = float( 1274 re.sub("[^0-9]", "", line) 1275 ) 1276 continue 1277 1278 # For some reason smartctl does not show a currently running test 1279 # for 'ATA' in the Test log so I just have to catch it this way i guess! 1280 # For 'scsi' I still do it since it is the only place I get % remaining in scsi 1281 if 'Self-test execution status' in line: 1282 if 'progress' in line: 1283 self._test_running = True 1284 # for ATA the "%" remaining is on the next line 1285 # thus set the parse_running_test flag and move on 1286 parse_running_test = True 1287 elif '%' in line: 1288 # for scsi the progress is on the same line 1289 # so we can just parse it and move on 1290 self._test_running = True 1291 try: 1292 self._test_progress = 100 - \ 1293 int(line.split('%')[0][-3:].strip()) 1294 except ValueError: 1295 pass 1296 continue 1297 if parse_running_test is True: 1298 try: 1299 self._test_progress = 100 - \ 1300 int(line.split('%')[0][-3:].strip()) 1301 except ValueError: 1302 pass 1303 parse_running_test = False 1304 1305 if "Self-test log" in line: 1306 parse_self_tests = True # Set flag to capture test entries 1307 continue 1308 1309 ####################################### 1310 # SCSI only # 1311 ####################################### 1312 # 1313 # Everything from here on is parsing SCSI information that takes 1314 # the place of similar ATA SMART information 1315 1316 if 'Current Drive Temperature' in line or ('Temperature:' in 1317 line and interface == 'nvme'): 1318 try: 1319 self._temperature = int( 1320 line.split(':')[-1].strip().split()[0]) 1321 1322 if 'fahrenheit' in line.lower(): 1323 self._temperature = int( 1324 (self.temperature - 32) * 5 / 9) 1325 1326 except ValueError: 1327 pass 1328 1329 continue 1330 1331 if 'Temperature Sensor ' in line: 1332 try: 1333 match = re.search( 1334 r'Temperature\sSensor\s([0-9]+):\s+(-?[0-9]+)', line) 1335 if match: 1336 (tempsensor_number_s, tempsensor_value_s) = match.group(1, 2) 1337 tempsensor_number = int(tempsensor_number_s) 1338 tempsensor_value = int(tempsensor_value_s) 1339 1340 if 'fahrenheit' in line.lower(): 1341 tempsensor_value = int( 1342 (tempsensor_value - 32) * 5 / 9) 1343 1344 self.temperatures[tempsensor_number] = tempsensor_value 1345 if self.temperature is None or tempsensor_number == 0: 1346 self._temperature = tempsensor_value 1347 except ValueError: 1348 pass 1349 1350 continue 1351 1352 ####################################### 1353 # Common values # 1354 ####################################### 1355 1356 # Sector sizes 1357 if 'Sector Sizes' in line: # ATA 1358 m = re.match( 1359 r'.* (\d+) bytes logical,\s*(\d+) bytes physical', line) 1360 if m: 1361 self.logical_sector_size = int(m.group(1)) 1362 self.physical_sector_size = int(m.group(2)) 1363 continue 1364 if 'Logical block size:' in line: # SCSI 1/2 1365 self.logical_sector_size = int( 1366 line.split(':')[1].strip().split(' ')[0]) 1367 continue 1368 if 'Physical block size:' in line: # SCSI 2/2 1369 self.physical_sector_size = int( 1370 line.split(':')[1].strip().split(' ')[0]) 1371 continue 1372 if 'Namespace 1 Formatted LBA Size' in line: # NVMe 1373 # Note: we will assume that there is only one namespace 1374 self.logical_sector_size = int( 1375 line.split(':')[1].strip().split(' ')[0]) 1376 continue 1377 1378 if not self.abridged: 1379 if not interface == 'scsi': 1380 # Parse the SMART table for below-threshold attributes and create 1381 # corresponding warnings for non-SCSI disks 1382 self._make_smart_warnings() 1383 1384 # Now that we have finished the update routine, if we did not find a runnning selftest 1385 # nuke the self._test_ECD and self._test_progress 1386 if self._test_running is False: 1387 self._test_ECD = None 1388 self._test_progress = None
Queries for device information using smartctl and updates all
class members, including the SMART attribute table and self-test log.
Can be called at any time to refresh the pySMART.device.Device
object's data content.
def
smart_health_assement( disk_name: str, interface: Optional[str] = None, smartctl: pySMART.smartctl.Smartctl = <pySMART.smartctl.Smartctl object>) -> Optional[str]:
49def smart_health_assement(disk_name: str, interface: Optional[str] = None, smartctl: Smartctl = SMARTCTL) -> Optional[str]: 50 """ 51 This function gets the SMART Health Status of the disk (IF the disk 52 is SMART capable and smart is enabled on it else returns None). 53 This function is to be used only in abridged mode and not otherwise, 54 since in non-abridged mode update gets this information anyways. 55 56 Args: 57 disk_name (str): name of the disk 58 interface (str, optional): interface type of the disk (e.g. 'sata', 'scsi', 'nvme',... Defaults to None.) 59 60 Returns: 61 str: SMART Health Status of the disk. Returns None if the disk is not SMART capable or smart is not enabled on it. 62 Possible values are 'PASS', 'FAIL' or None. 63 """ 64 assessment = None 65 raw = smartctl.health(os.path.join( 66 '/dev/', disk_name.replace('nvd', 'nvme')), interface) 67 line = raw[4] # We only need this line 68 if 'SMART overall-health self-assessment' in line: # ATA devices 69 if line.split(':')[1].strip() == 'PASSED': 70 assessment = 'PASS' 71 else: 72 assessment = 'FAIL' 73 if 'SMART Health Status' in line: # SCSI devices 74 if line.split(':')[1].strip() == 'OK': 75 assessment = 'PASS' 76 else: 77 assessment = 'FAIL' 78 return assessment
This function gets the SMART Health Status of the disk (IF the disk is SMART capable and smart is enabled on it else returns None). This function is to be used only in abridged mode and not otherwise, since in non-abridged mode update gets this information anyways.
Args: disk_name (str): name of the disk interface (str, optional): interface type of the disk (e.g. 'sata', 'scsi', 'nvme',... Defaults to None.)
Returns: str: SMART Health Status of the disk. Returns None if the disk is not SMART capable or smart is not enabled on it. Possible values are 'PASS', 'FAIL' or None.