sasutils is a set of command-line tools and a Python library to ease the administration of Serial Attached SCSI (SAS) storage networks.
- sas_counters
- sas_devices
- sas_discover
- ses_report
Also, a few "zeroconf" udev scripts for use in udev rules that create friendly device aliases using SES-2 subenclosure nicknames.
- sas_mpath_snic_alias
- sas_sd_snic_alias
- sas_st_snic_alias
Note
While sasutils gets most of the system data from sysfs (/sys), sg_ses (available in sg3_utils or sg3-utils) and smp_discover (available in smp_utils or smp-utils) are required for some SES features to work.
Warning
sasutils is known to be broken with the new SAS 24Gb/s Broadcom driver mpi3mr. This driver is currently not creating sas objects (sas_host, etc.) in sysfs, which are used by sasutils. Suggestions are welcome.
sas_counters reports SAS/SES/SD I/O and phy error counters and provides SAS topology information in an output suitable for Carbon/Graphite.
This command also supports SES-2 nicknames as seen in the example below (io1-sassw1
is the nickname of a SAS switch and io1-jbod1-0
is the nickname of a JBOD SIM).
$ sas_counters ... oak-io1-s1.SAS9300-8e.0x500605b00ab01234.Switch184.io1-sassw1.JB4602_SIM_0.io1-jbod1-0.bays.41.ST8000NM0075.0x5000c50084c79876.ioerr_cnt 2 1487457378 oak-io1-s1.SAS9300-8e.0x500605b00ab01234.Switch184.io1-sassw1.JB4602_SIM_0.io1-jbod1-0.bays.41.ST8000NM0075.0x5000c50084c79876.iodone_cnt 7154904 1487457378 oak-io1-s1.SAS9300-8e.0x500605b00ab01234.Switch184.io1-sassw1.JB4602_SIM_0.io1-jbod1-0.bays.41.ST8000NM0075.0x5000c50084c79876.iorequest_cnt 7154906 1487457378 ... oak-io1-s1.SAS9300-8e.0x500605b00ab05678.Switch184.io1-sassw2.phys.15.invalid_dword_count 5 1487457378 oak-io1-s1.SAS9300-8e.0x500605b00ab05678.Switch184.io1-sassw2.phys.15.loss_of_dword_sync_count 1 1487457378 oak-io1-s1.SAS9300-8e.0x500605b00ab05678.Switch184.io1-sassw2.phys.15.phy_reset_problem_count 0 1487457378 oak-io1-s1.SAS9300-8e.0x500605b00ab05678.Switch184.io1-sassw2.phys.15.running_disparity_error_count 1 1487457378 ...
Display SAS topology. By default, sas_discover tries to fold common devices (like disks). Use -v
, -vv
or -vvv
and --addr
to display more details.
Below is an example with a large topology with multiple SAS HBAs, SAS switches and SAS JBODs.
$ sas_discover -v oak-io8-s2 |--host1 HBA 9500-16e | `--8x--expander-1:0 ASTEK | |--1x--end_device-1:0:0 | | `--enclosure io8-sassw2 ASTEK | |--4x--expander-1:1 HGST | | |--1x--end_device-1:1:0 | | | `--enclosure io8-jbod1 HGST | | |--10x--expander-1:9 HGST | | | `-- 50 x end_device -- disk | | `--10x--expander-1:10 HGST | | `-- 51 x end_device -- disk | |--4x--expander-1:2 HGST | | |--1x--end_device-1:2:0 | | | `--enclosure io8-jbod2 HGST | | |--10x--expander-1:11 HGST | | | `-- 51 x end_device -- disk | | `--10x--expander-1:12 HGST | | `-- 51 x end_device -- disk | |--4x--expander-1:3 HGST | | |--1x--end_device-1:3:0 | | | `--enclosure io8-jbod3 HGST | | |--10x--expander-1:13 HGST | | | `-- 51 x end_device -- disk | | `--10x--expander-1:14 HGST | | `-- 51 x end_device -- disk | |--4x--expander-1:4 HGST | | |--1x--end_device-1:4:0 | | | `--enclosure io8-jbod4 HGST | | |--10x--expander-1:15 HGST | | | `-- 51 x end_device -- disk | | `--10x--expander-1:16 HGST | | `-- 51 x end_device -- disk | |--4x--expander-1:5 HGST | | |--1x--end_device-1:5:0 | | | `--enclosure io8-jbod5 HGST | | |--10x--expander-1:17 HGST | | | `-- 51 x end_device -- disk | | `--10x--expander-1:18 HGST | | `-- 51 x end_device -- disk | |--4x--expander-1:6 HGST | | |--1x--end_device-1:6:0 | | | `--enclosure io8-jbod6 HGST | | |--10x--expander-1:19 HGST | | | `-- 51 x end_device -- disk | | `--10x--expander-1:20 HGST | | `-- 51 x end_device -- disk | |--4x--expander-1:7 HGST | | |--1x--end_device-1:7:0 | | | `--enclosure io8-jbod7 HGST | | |--10x--expander-1:21 HGST | | | `-- 51 x end_device -- disk | | `--10x--expander-1:22 HGST | | `-- 51 x end_device -- disk | `--4x--expander-1:8 HGST | |--1x--end_device-1:8:0 | | `--enclosure io8-jbod8 HGST | |--10x--expander-1:23 HGST | | `-- 51 x end_device -- disk | `--10x--expander-1:24 HGST | `-- 51 x end_device -- disk `--host10 HBA 9500-16e `--8x--expander-10:0 ASTEK |--1x--end_device-10:0:0 | `--enclosure io8-sassw1 ASTEK |--4x--expander-10:1 HGST | |--1x--end_device-10:1:0 | | `--enclosure io8-jbod1 HGST | |--10x--expander-10:9 HGST | | `-- 50 x end_device -- disk | `--10x--expander-10:10 HGST | `-- 51 x end_device -- disk |--4x--expander-10:2 HGST | |--1x--end_device-10:2:0 | | `--enclosure io8-jbod2 HGST | |--10x--expander-10:11 HGST | | `-- 51 x end_device -- disk | `--10x--expander-10:12 HGST | `-- 51 x end_device -- disk |--4x--expander-10:3 HGST | |--1x--end_device-10:3:0 | | `--enclosure io8-jbod3 HGST | |--10x--expander-10:13 HGST | | `-- 51 x end_device -- disk | `--10x--expander-10:14 HGST | `-- 51 x end_device -- disk |--4x--expander-10:4 HGST | |--1x--end_device-10:4:0 | | `--enclosure io8-jbod4 HGST | |--10x--expander-10:15 HGST | | `-- 51 x end_device -- disk | `--10x--expander-10:16 HGST | `-- 51 x end_device -- disk |--4x--expander-10:5 HGST | |--1x--end_device-10:5:0 | | `--enclosure io8-jbod5 HGST | |--10x--expander-10:17 HGST | | `-- 51 x end_device -- disk | `--10x--expander-10:18 HGST | `-- 51 x end_device -- disk |--4x--expander-10:6 HGST | |--1x--end_device-10:6:0 | | `--enclosure io8-jbod6 HGST | |--10x--expander-10:19 HGST | | `-- 51 x end_device -- disk | `--10x--expander-10:20 HGST | `-- 51 x end_device -- disk |--4x--expander-10:7 HGST | |--1x--end_device-10:7:0 | | `--enclosure io8-jbod7 HGST | |--10x--expander-10:21 HGST | | `-- 51 x end_device -- disk | `--10x--expander-10:22 HGST | `-- 51 x end_device -- disk `--4x--expander-10:8 HGST |--1x--end_device-10:8:0 | `--enclosure io8-jbod8 HGST |--10x--expander-10:23 HGST | `-- 51 x end_device -- disk `--10x--expander-10:24 HGST `-- 51 x end_device -- disk
Use sas_discover --counters
to display the number of SCSI commands issued (req), completed or rejected (done) and the ones that completed with an error (error).
Zeroconf tool that scans SAS devices and resolves associated enclosures. Useful to quickly check cabling and hardware setup.
When used with -v, sas_devices will also display all disk devices with serial numbers.
The following example shows a proper detection of a 60-disk JBOD with 2 SIMs/IOMs (an "enclosure group").
$ sas_devices Found 2 SAS hosts Found 4 SAS expanders Found 1 enclosure groups Enclosure group: [io1-jbod1-0][io1-jbod1-1] NUM VENDOR MODEL REV SIZE PATHS 60 x SEAGATE ST8000NM0075 E004 8.0TB 2 Total: 60 block devices in enclosure group
The following example shows a proper detection of four Seagate Exos E JBOFs with 15.4TB SSDs. Note that 2 IOMs are detected for each JBOF and they have the same SES-2 nickname (this is normal with this hardware).
$ sas_devices Found 2 SAS hosts Found 8 SAS expanders Found 4 enclosure groups Enclosure group: [io1-jbof4][io1-jbof4] NUM VENDOR MODEL REV SIZE PATHS 24 x SEAGATE XS15360SE70084 0003 15.4TB 2 Total: 24 block devices in enclosure group Enclosure group: [io1-jbof2][io1-jbof2] NUM VENDOR MODEL REV SIZE PATHS 24 x SEAGATE XS15360SE70084 0003 15.4TB 2 Total: 24 block devices in enclosure group Enclosure group: [io1-jbof3][io1-jbof3] NUM VENDOR MODEL REV SIZE PATHS 24 x SEAGATE XS15360SE70084 0003 15.4TB 2 Total: 24 block devices in enclosure group Enclosure group: [io1-jbof1][io1-jbof1] NUM VENDOR MODEL REV SIZE PATHS 24 x SEAGATE XS15360SE70084 0003 15.4TB 2 Total: 24 block devices in enclosure group
SES status and environmental metrics.
Used with -c, this command will find all enclosures and then use SES-2 nicknames and use sg_ses to output results suitable for Carbon/Graphite.
$ ses_report -c --prefix=datacenter.stanford datacenter.stanford.io1-sassw1.Cooling.Left_Fan.speed_rpm 19560 1476486766 datacenter.stanford.io1-sassw1.Cooling.Right_Fan.speed_rpm 19080 1476486766 datacenter.stanford.io1-sassw1.Cooling.Center_Fan.speed_rpm 19490 1476486766 ...
Use -s to get the status of all detected SES Element Descriptors.
# ses_report -s --prefix=datacenter.stanford | grep SIM datacenter.stanford.io1-jbod1-0.Enclosure_services_controller_electronics.SIM_00 OK datacenter.stanford.io1-jbod1-0.Enclosure_services_controller_electronics.SIM_01 OK datacenter.stanford.io1-jbod1-0.SAS_expander.SAS_Expander_SIM_0 OK datacenter.stanford.io1-jbod1-0.SAS_expander.SAS_Expander_ISIM_2 OK datacenter.stanford.io1-jbod1-0.SAS_expander.SAS_Expander_ISIM_0 OK datacenter.stanford.io1-jbod1-1.Enclosure_services_controller_electronics.SIM_00 OK datacenter.stanford.io1-jbod1-1.Enclosure_services_controller_electronics.SIM_01 OK datacenter.stanford.io1-jbod1-1.SAS_expander.SAS_Expander_SIM_1 OK datacenter.stanford.io1-jbod1-1.SAS_expander.SAS_Expander_ISIM_3 OK datacenter.stanford.io1-jbod1-1.SAS_expander.SAS_Expander_ISIM_1 OK
Warning
ses_report requires a recent version of sg3_utils and won't work with the version shipped with CentOS 6 for example.
Generate udev aliases using the SES-2 subenclosure nickname and bay identifier of each device. These scripts can also be used as examples and adapted to your specific needs.
For example, for block devices, add the following to your udev rules:
KERNEL=="sd*", PROGRAM="/usr/bin/sas_sd_snic_alias %k", SYMLINK+="%c"
Or, for SAS tape drives behind SAS switches (that act as enclosures):
KERNEL=="st*", PROGRAM="/usr/bin/sas_st_snic_alias %k", SYMLINK+="%c"
This should generate udev aliases made of the device subenclosure nickname followed by the bay identifier. In the following case, io1-jbod1-0 is the subenclosure nickname (here SIM 0 of JBOD #1).
$ ls -l /dev/io1-jbod1-0-bay26 lrwxrwxrwx 1 root root 4 Oct 14 21:00 /dev/io1-jbod1-0-bay26 -> sdab
Note
Use sg_ses --nickname=... to define SES-2 subenclosure nicknames.
This utility is very similar to sas_sd_snic_alias but only accepts device-mapper devices. Add the following line to your udev rules:
KERNEL=="dm-[0-9]*", PROGRAM="/usr/bin/sas_mpath_snic_alias %k", SYMLINK+="mapper/%c"
This will result in useful symlinks.
$ ls -l /dev/mapper/io1-jbod1-bay26 lrwxrwxrwx 1 root root 8 Oct 14 21:00 /dev/mapper/io1-jbod1-bay26 -> ../dm-31
Note
For sas_mpath_snic_alias to work with a JBOD having two SIMs, both enclosure nicknames should have a common prefix (eg. "myjbodX-") that will be automatically used.
Documentation will be available on the wiki.
the following example will list all SAS hosts (controllers) found in sysfs
from sasutils.sas import SASHost from sasutils.sysfs import sysfs # sysfs is a helper to walk through sysfs (/sys) for node in sysfs.node('class').node('sas_host'): # Instantiate SASHost with the sas_host sysfs device class host = SASHost(node.node('device')) # To get its sysfs name, use: print(host.name) # To get attributes from scsi_host, use: print(' %s' % host.scsi_host.attrs.host_sas_address) print(' %s' % host.scsi_host.attrs.version_fw)
See also https://github.com/stanford-rc/sasutils/wiki/Code-snippets
Author: | Stephane Thiell - Stanford Research Computing Center |
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