Provided by: opa-fastfabric_10.10.3.0.11-1ubuntu1_amd64 
NAME
opafabricanalysis
(All) Performs analysis of the fabric.
Syntax
opafabricanalysis [-b|-e] [-s] [-d dir] [-c file] [-t portsfile]
[-p ports] [-T topology_input]
Options
--help
Produces full help text.
-b
Specifies the baseline mode. Default is compare/check mode.
-e
Evaluates health only. Default is compare/check mode.
-s
Saves history of failures (errors/differences).
-d dir
Specifies the top-level directory for saving baseline and history of failed
checks. Default is /var/usr/lib/opa/analysis
-c file
Specifies the error thresholds config file.Default is /etc/opa/opamon.conf
-t portsfile
Specifies the file with list of local HFI ports used to access fabric(s) for
analysis. Default is /etc/opa/ports
-p ports
Specifies the list of local HFI ports used to access fabrics for analysis.
Default is first active port. The first HFI in the system is 1. The first port
on an HFI is 1. Uses the format hfi:port,
for example:
0:0 First active port in system.
0:y Port y within system.
x:0 First active port on HFI x.
x:y HFI x, port y.
-T topology_input
Specifies the name of topology input file to use. Any %P markers in this
filename are replaced with the HFI:port being operated on (such as 0:0 or 1:2).
Default is /etc/opa/topology.%P.xml. If -T NONE is specified, no topology input
file is used. See Details and opareport for more information.
Example
opafabricanalysis
opafabricanalysis -p '1:1 1:2 2:1 2:2'
The fabric analysis tool checks the following:
• Fabric links (both internal to switch chassis and external cables)
• Fabric components (nodes, links, SMs, systems, and their SMA configuration)
• Fabric PMA error counters and link speed mismatches
NOTE: The comparison includes components on the fabric. Therefore, operations such as
shutting down a server cause the server to no longer appear on the fabric and are flagged
as a fabric change or failure by opafabricanalysis.
Environment Variables
The following environment variables are also used by this command:
PORTS
List of ports, used in absence of -t and -p.
PORTS_FILE
File containing list of ports, used in absence of -t and -p.
FF_TOPOLOGY_FILE
File containing topology_input (may have %P marker in filename), used in absence
of -T.
FF_ANALYSIS_DIR
Top-level directory for baselines and failed health checks.
Details
For simple fabrics, the Intel(R) Omni-Path Fabric Suite FastFabric Toolset host is
connected to a single fabric. By default, the first active port on the FastFabric Toolset
host is used to analyze the fabric. However, in more complex fabrics, the FastFabric
Toolset host may be connected to more than one fabric or subnet. In this case, you can
specify the ports or HFIs to use with one of the following methods:
• On the command line using the -p option.
• In a file specified using the -t option.
• Through the environment variables PORTS or PORTS_FILE.
• Using the PORTS_FILE configuration option in opafastfabric.conf.
If the specified port does not exist or is empty, the first active port on the local
system is used. In more complex configurations, you must specify the exact ports to use
for all fabrics to be analyzed.
You can specify the topology_input file to be used with one of the following methods:
• On the command line using the -T option.
• In a file specified through the environment variable FF_TOPOLOGY_FILE.
• Using the ff_topology_file configuration option in opafastfabric.conf.
If the specified file does not exist, no topology_input file is used. Alternately the
filename can be specified as NONE to prevent use of an input file.
For more information on topology_input, refer to opareport
By default, the error analysis includes PMA counters and slow links (that is, links
running below enabled speeds). You can change this using the FF_FABRIC_HEALTH
configuration parameter in opafastfabric.conf. This parameter specifies the opareport
options and reports to be used for the health analysis. It also can specify the PMA
counter clearing behavior (-I seconds, -C, or none at all).
When a topology_input file is used, it can also be useful to extend FF_FABRIC_HEALTH to
include fabric topology verification options such as -o verifylinks.
The thresholds for PMA counter analysis default to /etc/opa/opamon.conf. However, you can
specify an alternate configuration file for thresholds using the -c option. The
opamon.si.conf file can also be used to check for any non-zero values for signal integrity
(SI) counters.
All files generated by opafabricanalysis start with fabric in their file name. This is
followed by the port selection option identifying the port used for the analysis. Default
is 0:0.
The opafabricanalysis tool generates files such as the following within FF_ANALYSIS_DIR :
Health Check
• latest/fabric.0:0.errors stdout of opareport for errors encountered during fabric
error analysis.
• latest/fabric.0.0.errors.stderr stderr of opareport during fabric error analysis.
Baseline
During a baseline run, the following files are also created in FF_ANALYSIS_DIR/latest.
• baseline/fabric.0:0.snapshot.xml opareport snapshot of complete fabric components
and SMA configuration.
• baseline/fabric.0:0.comps opareport summary of fabric components and basic SMA
configuration.
• baseline/fabric.0.0.links opareport summary of internal and external links.
Full Analysis
• latest/fabric.0:0.snapshot.xml opareport snapshot of complete fabric components and
SMA configuration.
• latest/fabric.0:0.snapshot.stderr stderr of opareport during snapshot.
• latest/fabric.0:0.errors stdout of opareport for errors encountered during fabric
error analysis.
• latest/fabric.0.0.errors.stderr stderr of opareport during fabric error analysis.
• latest/fabric.0:0.comps stdout of opareport for fabric components and SMA
configuration.
• latest/fabric.0:0.comps.stderr stderr of opareport for fabric components.
• latest/fabric.0:0.comps.diff diff of baseline and latest fabric components.
• latest/fabric.0:0.links stdout of opareport summary of internal and external links.
• latest/fabric.0:0.links.stderr stderr of opareport summary of internal and external
links.
• latest/fabric.0:0.links.diff diff of baseline and latest fabric internal and
external links.
• latest/fabric.0:0.links.changes.stderr stderr of opareport comparison of links.
• latest/fabric.0:0.links.changes opareport comparison of links against baseline.
This is typically easier to read than the links.diff file and contains the same
information.
• latest/fabric.0:0.comps.changes.stderr stderr of opareport comparison of
components.
• latest/fabric.0:0.comps.changes opareport comparison of components against
baseline. This is typically easier to read than the comps.diff file and contains
the same information.
The .diff and .changes files are only created if differences are detected.
If the -s option is used and failures are detected, files related to the checks that
failed are also copied to the time-stamped directory name under FF_ANALYSIS_DIR.
Fabric Items Checked Against the Baseline
Based on opareport -o links:
• Unconnected/down/missing cables
• Added/moved cables
• Changes in link width and speed
• Changes to Node GUIDs in fabric (replacement of HFI or Switch hardware)
• Adding/Removing Nodes [FI, Virtual FIs, Virtual Switches, Physical Switches,
Physical Switch internal switching cards (leaf/spine)]
• Changes to server or switch names
Based on opareport -o comps:
• Overlap with items from links report
• Changes in port MTU, LMC, number of VLs
• Changes in port speed/width enabled or supported
• Changes in HFI or switch device IDs/revisions/VendorID (for example, ASIC hardware
changes)
• Changes in port Capability mask (which features/agents run on port/server)
• Changes to ErrorLimits and PKey enforcement per port
• Changes to IOUs/IOCs/IOC Services provided
Location (port, node) and number of SMs in fabric. Includes:
• Primary and backups
• Configured priority for SM
Fabric Items Also Checked During Health Check
Based on opareport -s -C -o errors -o slowlinks:
• PMA error counters on all Intel(R) Omni-Path Fabric ports (HFI, switch external and
switch internal) checked against configurable thresholds.
• Counters are cleared each time a health check is run. Each health check reflects a
counter delta since last health check.
• Typically identifies potential fabric errors, such as symbol errors.
• May also identify transient congestion, depending on the counters that are
monitored.
• Link active speed/width as compared to Enabled speed.
• Identifies links whose active speed/width is < min (enabled speed/width on each
side of link).
• This typically reflects bad cables or bad ports or poor connections.
• Side effect is the verification of SA health.