Provided by: opa-fastfabric_10.10.3.0.11-1ubuntu1_amd64 
NAME
opahostadmin
(Host) Performs a number of multi-step host initialization and verification operations,
including upgrading software or firmware, rebooting hosts, and other operations. In
general, operations performed by opahostadmin involve a login to one or more host systems.
Syntax
opahostadmin [-c] [-i ipoib_suffix] [-f hostfile] [-h 'hosts']
[-r release] [-I install_options] [-U upgrade_options] [-d dir]
[-T product] [-P packages] [-m netmask] [-S] operation ...
Options
--help
Produces full help text.
-c
Overwrites the result files from any previous run before starting this run.
-i ipoib_suffix
Specifies the suffix to apply to host names to create IPoIB host names. Default
is -opa.
-f hostfile
Specifies the file with the names of hosts in a cluster. Default is
/etc/opa/hosts file.
-h hosts
Specifies the list of hosts to execute the operation against.
-r release
Specifies the software version to load/upgrade to. Default is the version of
Intel(R) Omni-Path Software presently being run on the server.
-d dir
Specifies the directory to retrieve product. release.tgz for load or upgrade.
-I install_options
Specifies the software install options.
-U upgrade_options
Specifies the software upgrade options.
-T product
Specifies the product type to install. Default is IntelOPA-Basic. <distro> or
IntelOPA-IFS. <distro> where <distro> is the distribution and CPU.
-P packages
Specifies the packages to install. Default is oftools ipoib psm_mpi
-m netmask
Specifies the IPoIB netmask to use for configipoib operation.
-S
Securely prompts for user password on remote system.
operation
Performs the specified operation, which can be one or more of the following:
load Starts initial installation of all hosts.
upgrade Upgrades installation of all hosts.
configipoib
Creates ifcfg-ib1 using host IP address from /etc/hosts file.
reboot Reboots hosts, ensures they go down and come back.
sacache Confirms sacache has all hosts in it.
ipoibping Verifies this host can ping each host through IPoIB.
mpiperf Verifies latency and bandwidth for each host.
mpiperfdeviation
Verifies latency and bandwidth for each host against a defined
threshold (or relative to average host performance).
Example
opahostadmin -c reboot
opahostadmin upgrade
opahostadmin -h 'elrond arwen' reboot
HOSTS='elrond arwen' opahostadmin reboot
Details
opahostadmin provides detailed logging of its results. During each run, the following
files are produced:
• test.res : Appended with summary results of run.
• test.log : Appended with detailed results of run.
• save_tmp/ : Contains a directory per failed test with detailed logs.
• test_tmp*/ : Intermediate result files while test is running.
The -c option removes all log files.
Results from opahostadmin are grouped into test suites, test cases, and test items. A
given run of opahostadmin represents a single test suite. Within a test suite, multiple
test cases occur; typically one test case per host being operated on. Some of the more
complex operations may have multiple test items per test case. Each test item represents a
major step in the overall test case.
Each opahostadmin run appends to test.res and test.log, and creates temporary files in
test_tmp$PID in the current directory. test.res provides an overall summary of operations
performed and their results. The same information is also displayed while opahostadmin is
executing. test.log contains detailed information about what was performed, including the
specific commands executed and the resulting output. The test_tmp directories contain
temporary files which reflect tests in progress (or killed). The logs for any failures are
logged in the save_temp directory with a directory per failed test case. If the same test
case fails more than once, save_temp retains the information from the first failure.
Subsequent runs of opahostadmin are appended to test.log. Intel recommends reviewing
failures and using the -c option to remove old logs before subsequent runs of
opahostadmin.
opahostadmin implicitly performs its operations in parallel. However, as for the other
tools, FF_MAX_PARALLEL can be exported to change the degree of parallelism. 1000 parallel
operations is the default.
Environment Variables
The following environment variables are also used by this command:
HOSTS
List of hosts, used if -h option not supplied.
HOSTS_FILE
File containing list of hosts, used in absence of -f and -h.
FF_MAX_PARALLEL
Maximum concurrent operations are performed.
FF_SERIALIZE_OUTPUT
Serialize output of parallel operations (yes or no).
FF_TIMEOUT_MULT
Multiplier for all timeouts associated with this command. Used if the systems
are slow for some reason.
opahostadmin Operation Details
(Host) Intel recommends that you set up password SSH or SCP for use during this operation.
Alternatively, the -S option can be used to securely prompt for a password, in which case
the same password is used for all hosts. Alternately, the password may be put in the
environment or the opafastfabric.conf file using FF_PASSWORD and FF_ROOTPASS.
load
Performs an initial installation of Intel(R) Omni-Path Software on a group of
hosts. Any existing installation is uninstalled and existing configuration files
are removed. Subsequently, the hosts are installed with a default Intel(R) Omni-
Path Software configuration. The -I option can be used to select different
install packages. Default is oftools ipoib mpi The -r option can be used to
specify a release to install other than the one that this host is presently
running. The FF_PRODUCT. FF_PRODUCT_VERSION.tgz file (for example, IntelOPA-
Basic. version.tgz) is expected to exist in the directory specified by -d.
Default is the current working directory. The specified software is copied to
all the selected hosts and installed.
upgrade
Upgrades all selected hosts without modifying existing configurations. This
operation is comparable to the -U option when running ./INSTALL manually. The -r
option can be used to upgrade to a release different from this host. The default
is to upgrade to the same release as this host. The FF_PRODUCT.
FF_PRODUCT_VERSION.tgz file (for example, IntelOPA-Basic. version.tgz) is
expected to exist in the directory specified by -d. The default is the current
working directory. The specified software is copied to all the end nodes and
installed.
NOTE: Only components that are currently installed are upgraded. This operation fails for
hosts that do not have Intel(R) Omni-Path Software installed.
configipoib
Creates a ifcfg-ib1 configuration file for each node using the IP address found
using the resolver on the node. The standard Linux* resolver is used through the
host command. (If running OFA Delta, this option configures ifcfg-ib0 .)
If the host is not found, /etc/hosts on the node is checked. The -i option
specifies an IPoIB suffix to apply to the host name to create the IPoIB host
name for the node. The default suffix is -ib. The -m option specifies a netmask
other than the default for the given class of IP address, such as when dividing
a class A or B address into smaller IP subnets. IPoIB is configured for a static
IP address and is autostarted at boot. For the Intel(R) OP Software Stack, the
default /etc/ipoib.cfg file is used, which provides a redundant IPoIB
configuration using both ports of the first HFI in the system.
NOTE: opahostadmin configipoib now supports DHCP (auto or static options) for configuring
the IPoIB interface. You must specify these options in /etc/opa/opafastfabric.conf against
the FF_IPOIB_CONFIG variable. If no options are found, the static IP configuration is used
by default. If auto is specified, then one IP address from either static or dhcp is
chosen. Static is used if the IP address can be obtained out of /etc/hosts or the
resolver, otherwise DHCP is used.
reboot
Reboots the given hosts and ensures they go down and come back up by pinging
them during the reboot process. The ping rate is slow (5 seconds), so if the
servers boot faster than this, false failures may be seen.
sacache
Verifies the given hosts can properly communicate with the SA and any cached SA
data that is up to date. To run this command, Intel(R) Omni-Path Fabric software
must be installed and running on the given hosts. The subnet manager and
switches must be up. If this test fails: opacmdall 'opasaquery -o desc' can be
run against any problem hosts.
NOTE: This operation requires that the hosts being queried are specified by a resolvable
TCP/IP host name. This operation FAILS if the selected hosts are specified by IP address.
ipoibping
Verifies IPoIB basic operation by ensuring that the host can ping all other
nodes through IPoIB. To run this command, Intel(R) Omni-Path Fabric software
must be installed, IPoIB must be configured and running on the host, and the
given hosts, the SM, and switches must be up. The -i option can specify an
alternate IPoIB hostname suffix.
mpiperf
Verifies that MPI is operational and checks MPI end-to-end latency and bandwidth
between pairs of nodes (for example, 1-2, 3-4, 5-6). Use this to verify switch
latency/hops, PCI bandwidth, and overall MPI performance. The test.res file
contains the results of each pair of nodes tested.
NOTE: This option is available for the Intel(R) Omni-Path Fabric Host Software OFA Delta
packaging, but is not presently available for other packagings of OFED.
To obtain accurate results, this test should be run at a time when no other
stressful applications (for example, MPI jobs or high stress file system
operations) are running on the given hosts.
Bandwidth issues typically indicate server configuration issues (for example,
incorrect slot used, incorrect BIOS settings, or incorrect HFI model), or fabric
issues (for example, symbol errors, incorrect link width, or speed). Assuming
opareport has previously been used to check for link errors and link speed issues,
the server configuration should be verified.
Note that BIOS settings and differences between server models can account for
10-20% differences in bandwidth. For more details about BIOS settings, consult the
documentation from the server supplier and/or the server PCI chipset manufacturer.
mpiperfdeviation
Specifies the enhanced version of mpiperf that verifies MPI performance. Can be
used to verify switch latency/hops, PCI bandwidth, and overall MPI performance.
It performs assorted pair-wise bandwidth and latency tests, and reports pairs
outside an acceptable tolerance range. The tool identifies specific nodes that
have problems and provides a concise summary of results. The test.res file
contains the results of each pair of nodes tested.
By default, concurrent mode is used to quickly analyze the fabric and host
performance. Pairs that have 20% less bandwidth or 50% more latency than the
average pair are reported as failures.
The tool can be run in a sequential or a concurrent mode. Sequential mode runs
each host against a reference host. By default, the reference host is selected
based on the best performance from a quick test of the first 40 hosts. In
concurrent mode, hosts are paired up and all pairs are run concurrently. Since
there may be fabric contention during such a run, any poor performing pairs are
then rerun sequentially against the reference host.
Concurrent mode runs the tests in the shortest amount of time, however, the
results could be slightly less accurate due to switch contention. In heavily
oversubscribed fabric designs, if concurrent mode is producing unexpectedly low
performance, try sequential mode.
NOTE: This option is available for the Intel(R) Omni-Path Fabric Host Software OFA Delta
packaging, but is not presently available for other packagings of OFED.
To obtain accurate results, this test should be run at a time when no other
stressful applications (for example, MPI jobs, high stress file system operations)
are running on the given hosts.
Bandwidth issues typically indicate server configuration issues (for example,
incorrect slot used, incorrect BIOS settings, or incorrect HFI model), or fabric
issues (for example, symbol errors, incorrect link width, or speed). Assuming
opareport has previously been used to check for link errors and link speed issues,
the server configuration should be verified.
Note that BIOS settings and differences between server models can account for
10-20% differences in bandwidth. A result 5-10% below the average is typically not
cause for serious alarm, but may reflect limitations in the server design or the
chosen BIOS settings.
For more details about BIOS settings, consult the documentation from the server
supplier and/or the server PCI chipset manufacturer.
The deviation application supports a number of parameters which allow for more
precise control over the mode, benchmark and pass/fail criteria. The parameters to
use can be selected using the FF_DEVIATION_ARGS configuration parameter in
opafastfabric.conf
Available parameters for deviation application:
[-bwtol bwtol] [-bwdelta MBs] [-bwthres MBs]
[-bwloop count] [-bwsize size] [-lattol latol]
[-latdelta usec] [-latthres usec] [-latloop count]
[-latsize size][-c] [-b] [-v] [-vv]
[-h reference_host]
-bwtol Specifies the percent of bandwidth degradation allowed below average
value.
-bwbidir Performs a bidirectional bandwidth test.
-bwunidir Performs a unidirectional bandwidth test (Default).
-bwdelta Specifies the limit in MB/s of bandwidth degradation allowed below
average value.
-bwthres Specifies the lower limit in MB/s of bandwidth allowed.
-bwloop Specifies the number of loops to execute each bandwidth test.
-bwsize Specifies the size of message to use for bandwidth test.
-lattol Specifies the percent of latency degradation allowed above average value.
-latdelta Specifies the imit in µsec of latency degradation allowed above
average value.
-latthres Specifies the lower limit in µsec of latency allowed.
-latloop Specifies the number of loops to execute each latency test.
-latsize Specifies the size of message to use for latency test.
-c Runs test pairs concurrently instead of the default of sequential.
-b When comparing results against tolerance and delta, uses best instead of
average.
-v Specifies the verbose output.
-vv Specifies the very verbose output.
-h Specifies the reference host to use for sequential pairing.
Both bwtol and bwdelta must be exceeded to fail bandwidth test.
When bwthres is supplied, bwtol and bwdelta are ignored.
Both lattol and latdelta must be exceeded to fail latency test.
When latthres is supplied, lattol and latdelta are ignored.
For consistency with OSU benchmarks, MB/s is defined as 1000000 bytes/s.