iperf3: A TCP, UDP, and SCTP network bandwidth measurement tool
================================================================
Summary
-------
iperf is a tool for active measurements of the maximum achievable
bandwidth on IP networks. It supports tuning of various parameters
related to timing, protocols, and buffers. For each test it reports
the bandwidth, loss, and other parameters.
This version, sometimes referred to as iperf3, is a redesign of an
original version developed at NLANR/DAST. iperf3 is a new
implementation from scratch, with the goal of a smaller, simpler code
base, and a library version of the functionality that can be used in
other programs. iperf3 also a number of features found in other tools
such as nuttcp and netperf, but were missing from the original iperf.
These include, for example, a zero-copy mode and optional JSON output.
Note that iperf3 is *not* backwards compatible with the original iperf.
Primary development for iperf3 takes place on CentOS Linux, FreeBSD,
and MacOS X. At this time, these are the only officially supported
platforms, however there have been some reports of success with
OpenBSD, NetBSD, Android, Solaris, and other Linux distributions.
iperf3 is principally developed by ESnet / Lawrence Berkeley National
Laboratory. It is released under a three-clause BSD license.
Note that at this point, ESnet plans to support iperf3 in "maintenance
mode". At this point, there are no definite plans for further iperf3
releases, and ESnet will be providing a very limited amount of
resources for support and development, going forward. However, ESnet
could issue new iperf3 releases to deal with security issues or
high-impact bug fixes.
For more information see: http://software.es.net/iperf
Source code and issue tracker: https://github.com/esnet/iperf
Obtaining iperf3
----------------
Downloads of iperf3 are available at:
http://downloads.es.net/pub/iperf/
To check out the most recent code, clone the git repository at:
https://github.com/esnet/iperf.git
Building iperf3
---------------
### Prerequisites: ###
None.
### Building ###
./configure; make; make install
(Note: If configure fails, try running `./bootstrap.sh` first)
Invoking iperf3
---------------
iperf3 includes a manual page listing all of the command-line options.
The manual page is the most up-to-date reference to the various flags and parameters.
For sample command line usage, see:
http://fasterdata.es.net/performance-testing/network-troubleshooting-tools/iperf-and-iperf3/
Using the default options, iperf is meant to show typical well
designed application performance. 'Typical well designed application'
means avoiding artificial enhancements that work only for testing
(such as splice()'ing the data to /dev/null). iperf does also have
flags for 'extreme best case' optimizations but they must be
explicitly activated.
These flags include:
-Z, --zerocopy use a 'zero copy' sendfile() method of sending data
-A, --affinity n/n,m set CPU affinity
Bug Reports
-----------
Before submitting a bug report, please make sure you're running the
latest version of the code, and confirm that your issue has not
already been fixed. Then submit to the iperf3 issue tracker on
GitHub:
https://github.com/esnet/iperf/issues
In your issue submission, please indicate the version of iperf3 and
what platform you're trying to run on (provide the platform
information even if you're not using a supported platform, we
*might* be able to help anyway). Exact command-line arguments will
help us recreate your problem. If you're getting error messages,
please include them verbatim if possible, but remember to sanitize any
sensitive information.
If you have a question about usage or about the code, please do *not*
submit an issue. Please use one of the mailing lists for that.
Changes from iperf 2.x
----------------------
New options:
-V, --verbose more detailed output than before
-J, --json output in JSON format
-Z, --zerocopy use a 'zero copy' sendfile() method of sending data
-O, --omit N omit the first n seconds (to ignore slowstart)
-T, --title str prefix every output line with this string
-F, --file name xmit/recv the specified file
-A, --affinity n/n,m set CPU affinity (Linux and FreeBSD only)
-k, --blockcount #[KMG] number of blocks (packets) to transmit (instead
of -t or -n)
-L, --flowlabel set IPv6 flow label (Linux only)
Changed flags:
-C, --linux-congestion set congestion control algorithm (Linux only)
(-Z in iperf2)
Deprecated options:
Not planning to support these iperf2 flags. If you really miss these
options, please submit a request in the issue tracker:
-d, --dualtest Do a bidirectional test simultaneously
-r, --tradeoff Do a bidirectional test individually
-T, --ttl time-to-live, for multicast (default 1)
-x, --reportexclude [CDMSV] exclude C(connection) D(data) M(multicast)
S(settings) V(server) reports
-y, --reportstyle C report as a Comma-Separated Values
Also deprecated is the ability to set the options via environment
variables.
Known Issues
------------
* UDP performance: Some problems have been noticed with iperf3 on the
ESnet 100G testbed at high UDP rates (above 10Gbps). The symptom is
that on any particular run of iperf3 the receiver reports a loss rate
of about 20%, regardless of the -b option used on the client side.
This problem appears not to be iperf3-specific, and may be due to the
placement of the iperf3 process on a CPU and its relation to the
inbound NIC. In some cases this problem can be mitigated by an
appropriate use of the CPU affinity (-A) option. (Issue #55)
* The -Z flag sometimes causes the iperf3 client to hang on OSX.
(Issue #129)
* When specifying the socket buffer size using the "-w" flag on Linux, Linux
doubles the value you pass in. (You can see this using iperf3's debug flag).
But then the CWND does not actually ramp up to the doubled value, but only
to about 75% of the doubled value. This appears to be by design.
* Although the "-w" flag is documented as setting the (TCP) window
size, it is also used to set the socket buffer size. This has been
shown to be helpful with high-bitrate UDP tests.
* On some platforms, it might be necessary to invoke "ldconfig"
manually after doing a "make install" before the iperf3 executable can
find its shared library. (Issue #153)
* The results printed on the server side at the end of a test do not
correctly reflect the client-side measurements. This is due to the
ordering of computing and transferring results between the client
and server. (Issue #293)
* The server could have a very short measurement reporting interval at
the end of a test (particularly a UDP test), containing few or no
packets. This issue is due to an artifact of timing between the
client and server. (Issue #278)
Links
-----
This section lists links to user-contributed Web pages regarding
iperf3. ESnet and Lawrence Berkeley National Laboratory bear no
responsibility for the content of these pages.
* Installation instructions for Debian Linux (by Cameron Camp
<cameron@ivdatacenter.com>):
http://cheatsheet.logicalwebhost.com/iperf-network-testing/
Copyright
---------
iperf, Copyright (c) 2014-2016, The Regents of the University of
California, through Lawrence Berkeley National Laboratory (subject
to receipt of any required approvals from the U.S. Dept. of
Energy). All rights reserved.
If you have questions about your rights to use or distribute this
software, please contact Berkeley Lab's Technology Transfer
Department at TTD@lbl.gov.
NOTICE. This software is owned by the U.S. Department of Energy.
As such, the U.S. Government has been granted for itself and others
acting on its behalf a paid-up, nonexclusive, irrevocable,
worldwide license in the Software to reproduce, prepare derivative
works, and perform publicly and display publicly. Beginning five
(5) years after the date permission to assert copyright is obtained
from the U.S. Department of Energy, and subject to any subsequent
five (5) year renewals, the U.S. Government is granted for itself
and others acting on its behalf a paid-up, nonexclusive,
irrevocable, worldwide license in the Software to reproduce,
prepare derivative works, distribute copies to the public, perform
publicly and display publicly, and to permit others to do so.
This code is distributed under a BSD style license, see the LICENSE
file for complete information.
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