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Network Working Group S. Parker
Request for Comments: 2398 C. Schmechel
FYI: 33 Sun Microsystems, Inc.
Category: Informational August 1998
Some Testing Tools for TCP Implementors
Status of this Memo
This memo provides information for the Internet community. It does
not specify an Internet standard of any kind. Distribution of this
memo is unlimited.
Copyright Notice
Copyright (C) The Internet Society (1998). All Rights Reserved.
1. Introduction
Available tools for testing TCP implementations are catalogued by
this memo. Hopefully disseminating this information will encourage
those responsible for building and maintaining TCP to make the best
use of available tests. The type of testing the tool provides, the
type of tests it is capable of doing, and its availability is
enumerated. This document lists only tools which can evaluate one or
more TCP implementations, or which can privde some specific results
which describe or evaluate the TCP being tested. A number of these
tools produce time-sequence plots, see
Tim Shepard's thesis [She91] for a general discussion of these plots.
Each tools is defined as follows:
Name
The name associated with the testing tool.
Category
One or more categories of tests which the tools are capable of
providing. Categories used are: functional correctness, performance,
stress. Functional correctness tests how stringent a TCP
implementation is to the RFC specifications. Performance tests how
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RFC 2398 Some Testing Tools for TCP Implementors August 1998
quickly a TCP implementation can send and receive data, etc. Stress
tests how a TCP implementation is effected under high load
conditions.
Description
A description of the tools construction, and the implementation
methodology of the tests.
Automation
What steps are required to complete the test? What human
intervention is required?
Availability
How do you retrieve this tool and get more information about it?
Required Environment
Compilers, OS version, etc. required to build and/or run the
associated tool.
References
A list of publications relating to the tool, if any.
2. Tools
2.1. Dbs
Author
Yukio Murayama
Category
Performance / Stress
Description
Dbs is a tool which allows multiple data transfers to be coordinated,
and the resulting TCP behavior to be reviewed. Results are presented
as ASCII log files.
Automation
Command of execution is driven by a script file.
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Availability
See http://www.ai3.net/products/dbs for details of precise OS
versions supported, and for download of the source code. Current
implementation supports BSDI BSD/OS, Linux, mkLinux, SunOS, IRIX,
Ultrix, NEWS OS, HP-UX. Other environments are likely easy to add.
Required Environment
C language compiler, UNIX-style socket API support.
2.2. Dummynet
Author
Luigi Rizzo
Category
Functional Correctness / Performance
Description
Dummynet is a tool which simulates the presence of finite size
queues, bandwidth limitations, and communication delays. Dummynet
inserts between two layers of the protocol stack (in the current
implementation between TCP and IP), simulating the above effects in
an operational system. This way experiments can be done using real
protocol implementations and real applications, even running on the
same host (dummynet also intercepts communications on the loopback
interface). Reconfiguration of dummynet parameters (delay, queue
size, bandwidth) can be done on the fly by using a sysctl call. The
overhead of dummynet is extremely low.
Automation
Requires merging diff files with kernel source code. Command-line
driven through the sysctl command to modify kernel variables.
Availability
See http://www.iet.unipi.it/~luigi/research.html or e-mail Luigi
Rizzo (l.rizzo@iet.unipi.it). Source code is available for FreeBSD
2.1 and FreeBSD 2.2 (easily adaptable to other BSD-derived systems).
Required Environment
C language compiler, BSD-derived system, kernel source code.
References
[Riz97]
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2.3. Netperf
Author
Rick Jones
Category
Performance
Description
Single connection bandwidth or latency tests for TCP, UDP, and DLPI.
Includes provisions for CPU utilization measurement.
Automation
Requires compilation (K&R C sufficient for all but-DHISTOGRAM, may
require ANSI C in the future) if starting from source. Execution as
child of inetd requires editing of /etc/services and /etc/inetd.conf.
Scripts are provided for a quick look (snapshot_script), bulk
throughput of TCP and UDP, and latency for TCP and UDP. It is
command-line driven.
Availability
See http://www.cup.hp.com/netperf/NetperfPage.html or e-mail Rick
Jones (raj@cup.hp.com). Binaries are available here for HP/UX Irix,
Solaris, and Win32.
Required Environment
C language compiler, POSIX.1, sockets.
2.4. NIST Net
Author
Mark Carson
Category
Functional Correctness / Performance
Description
NIST Net is a network emulator. The tool is packaged as a Linux
kernel patch, a kernel module, a set of programming APIs, and
command-line and X-based user interfaces.
NIST Net works by turning the system into a "selectively bad" router
- incoming packets may be delayed, dropped, duplicated, bandwidth-
constrained, etc. Packet delays may be fixed or randomly
distributed, with loadable probability distributions. Packet loss
may be uniformly distributed (constant loss probability) or
congestion-dependent (probability of loss increases with packet queue
lengths). Explicit congestion notifications may optionally be sent
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in place of congestion-dependent loss.
Automation
To control the operation of the emulator, there is an interactive
user interface, a non-interactive command-line interface, and a set
of APIs. Any or all of these may be used in concert. The
interactive interface is suitable for simple, spur-of-the-moment
testing, while the command-line or APIs may be used to create
scripted, non-interactive tests.
Availability
NIST Net is available for public download from the NIST Net web site,
http://www.antd.nist.gov/itg/nistnet/. The web site also has
installation instructions and documentation.
Required Environment
NIST Net requires a Linux installtion, with kernel version 2.0.27 -
2.0.33. A kernel source tree and build tools are required to build
and install the NIST Net components. Building the X interface
requires a version of XFree86 (Current Version is 3.3.2). An
Athena-replacement widget set such as neXtaw
(http://www.inf.ufrgs.br/~kojima/nextaw/) is also desirable for an
improved user interface.
NIST Net should run on any i386-compatible machine capable of running
Linux, with one or more interfaces.
2.5. Orchestra
Author
Scott Dawson, Farnam Jahanian, and Todd Mitton
Category
Functional Correctness / Performance
Description
This tool is a library which provides the user with an ability to
build a protocol layer capable of performing fault injection on
protocols. Several fault injection layers have been built using this
library, one of which has been used to test different vendor
implementations of TCP. This is accomplished by probing the vendor
implementation from one machine containing a protocol stack that has
been instrumented with Orchestra. A connection is opened from the
vendor TCP implementation to the machine which has been instrumented.
Faults may then be injected at the Orchestra side of the connection
and the vendor TCP's response may be monitored. The most recent
version of Orchestra runs inside the X-kernel protocol stack on the
OSF MK operating system.
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When using Orchestra to test a protocol, the fault injection layer is
placed below the target protocol in the protocol stack. This can
either be done on one machine on the network, if protocol stacks on
the other machines cannot be modified (as in the case of testing
TCP), or can be done on all machines on the network (as in the case
of testing a protocol under development). Once the fault injection
layer is in the protocol stack, all messages sent by and destined for
the target protocol pass through it on their way to/from the network.
The Orchestra fault injection layer can manipulate these messages.
In particular, it can drop, delay, re-order, duplicate, or modify
messages. It can also introduce new messages into the system if
desired.
The actions of the Orchestra fault injection layer on each message
are determined by a script, written in Tcl. This script is
interpreted by the fault injection layer when the message enters the
layer. The script has access to the header information about the
message, and can make decisions based on header values. It can also
keep information about previous messages, counters, or any other data
which the script writer deems useful. Users of Orchestra may also
define their own actions to be taken on messages, written in C, that
may be called from the fault injection scripts.
Automation
Scripts can be specified either using a graphical user interface
which generates Tcl, or by writing Tcl directly. At this time,
post-analysis of the results of the test must also be performed by
the user. Essentially this consists of looking at a packet trace
that Orchestra generates for (in)correct behavior. Must compile and
link fault generated layer with the protocol stack.
Availability
See http://www.eecs.umich.edu/RTCL/projects/orchestra/ or e-mail
Scott Dawson (sdawson@eecs.umich.edu).
Required Environment OSF MK operating system, or X-kernel like network
architecture, or adapted to network stack.
References
[DJ94], [DJM96a], [DJM96b]
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2.6. Packet Shell
Author
Steve Parker and Chris Schmechel
Category
Functional Correctness / Performance
Description
An extensible Tcl/Tk based software toolset for protocol development
and testing. Tcl (Tool Command Language) is an embeddable scripting
language and Tk is a graphical user interface toolkit based on Tcl.
The Packet Shell creates Tcl commands that allow you to create,
modify, send, and receive packets on networks. The operations for
each protocol are supplied by a dynamic linked library called a
protocol library. These libraries are silently linked in from a
special directory when the Packet Shell begins execution. The current
protocol libraries are: IP, IPv6, IPv6 extensions, ICMP, ICMPv6,
Ethernet layer, data layer, file layer (snoop and tcpdump support),
socket layer, TCP, TLI.
It includes harness, which is a Tk based graphical user interface for
creating test scripts within the Packet Shell. It includes tests for
no initial slow start, and retain out of sequence data as TCP test
cases mentioned in [PADHV98].
It includes tcpgraph, which is used with a snoop or tcpdump capture
file to produce a TCP time-sequence plot using xplot.
Automation
Command-line driven through Tcl commands, or graphical user interface
models are available through the harness format.
Availability
See http://playground.sun.com/psh/ or e-mail owner-packet-
shell@sunroof.eng.sun.com.
Required Environment
Solaris 2.4 or higher. Porting required for other operating systems.
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2.7. Tcpanaly
Author
Vern Paxson
Category
Functional Correctness / Performance
Description
This is a tool for automatically analyzing a TCP implementation's
behavior by inspecting packet traces of the TCP's activity. It does
so through packet filter traces produced by tcpdump. It has coded
within it knowledge of a large number of TCP implementations. Using
this, it can determine whether a given trace appears consistent with
a given implementation, and, if so, exactly why the TCP chose to
transmit each packet at the time it did. If a trace is found
inconsistent with a TCP, tcpanaly either diagnoses a likely
measurement error present in the trace, or indicates exactly whether
the activity in the trace deviates from that of the TCP, which can
greatly aid in determining how the traced implementation behaves.
Tcpanaly's category is somewhat difficult to classify, since it
attempts to profile the behavior of an implementation, rather than to
explicitly test specific correctness or performance issues. However,
this profile identifies correctness and performance problems.
Adding new implementations of TCP behavior is possible with tcpanaly
through the use of C++ classes.
Automation
Command-line driven and only the traces of the TCP sending and
receiving bulk data transfers are needed as input.
Availability
Contact Vern Paxson (vern@ee.lbl.gov).
Required Environment
C++ compiler.
References
[Pax97a]
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2.8. Tcptrace
Author
Shawn Ostermann
Category
Functional Correctness / Performance
Description
This is a TCP trace file analysis tool. It reads output trace files
in the formats of : tcpdump, snoop, etherpeek, and netm.
For each connection, it keeps track of elapsed time, bytes/segments
sent and received, retransmissions, round trip times, window
advertisements, throughput, etc from simple to very detailed output.
It can also produce three different types of graphs:
Time Sequence Graph (shows the segments sent and ACKs returned as a
function of time)
Instantaneous Throughput (shows the instantaneous, averaged over a
few segments, throughput of the connection as a function of time).
Round Trip Times (shows the round trip times for the ACKs as a
function of time)
Automation
Command-line driven, and uses the xplot program to view the graphs.
Availability
Source code is available, and Solaris binary along with sample
traces. See http://jarok.cs.ohiou.edu/software/tcptrace/tcptrace.html
or e-mail Shawn Ostermann (ostermann@cs.ohiou.edu).
Required Environment
C compiler, Solaris, FreeBSD, NetBSD, HPUX, Linux.
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2.9. Tracelook
Author
Greg Minshall
Category
Functional Correctness / Performance
Description
This is a Tcl/Tk program for graphically viewing the contents of
tcpdump trace files. When plotting a connection, a user can select
various variables to be plotted. In each direction of the connection,
the user can plot the advertised window in each packet, the highest
sequence number in each packet, the lowest sequence number in each
packet, and the acknowledgement number in each packet.
Automation
Command-line driven with a graphical user interface for the graph.
Availability
See http://www.ipsilon.com/~minshall/sw/tracelook/tracelook.html or
e-mail Greg Minshall (minshall@ipsilon.com).
Required Environment
A modern version of awk, and Tcl/Tk (Tk version 3.6 or higher). The
program xgraph is required to view the graphs under X11.
2.10. TReno
Author
Matt Mathis and Jamshid Mahdavi
Category
Performance
Description
This is a TCP throughput measurement tool based on sending UDP or
ICMP packets in patterns that are controlled at the user-level so
that their timing reflects what would be sent by a TCP that observes
proper congestion control (and implements SACK). This allows it to
measure throughput independent of the TCP implementation of end hosts
and serve as a useful platform for prototyping TCP changes.
Automation
Command-line driven. No "server" is required, and it only requires a
single argument of the machine to run the test to.
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Availability
See http://www.psc.edu/networking/treno_info.html or e-mail Matt
Mathis (mathis@psc.edu) or Jamshid Mahdavi (mahdavi@psc.edu).
Required Environment
C compiler, POSIX.1, raw sockets.
2.11. Ttcp
Author
Unknown
Category
Performance
Description
Originally written to move files around, ttcp became the classic
throughput benchmark or load generator, with the addition of support
for sourcing to/from memory. It can also be used as a traffic
absorber. It has spawned many variants, recent ones include support
for UDP, data pattern generation, page alignment, and even alignment
offset control.
Automation
Command-line driven.
Availability
See ftp://ftp.arl.mil/pub/ttcp/ or e-mail ARL (ftp@arl.mil) which
includes the most common variants available.
Required Environment
C compiler, BSD sockets.
2.12. Xplot
Author
Tim Shepard
Category
Functional Correctness / Performance
Description
This is a fairly conventional graphing/plotting tool (xplot itself),
a script to turn tcpdump output into xplot input, and some sample
code to generate xplot commands to plot the TCP time-sequence graph).
Automation
Command-line driven with a graphical user interface for the plot.
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Availability
See ftp://mercury.lcs.mit.edu/pub/shep/xplot.tar.gz or e-mail Tim
Shepard (shep@lcs.mit.edu).
Required Environment
C compiler, X11.
References
[She91]
3. Summary
This memo lists all TCP tests and testing tools reported to the
authors as part of TCP Implementer's working group and is not
exhaustive. These tools have been verified as available by the
authors.
4. Security Considerations
Network analysis tools are improving at a steady pace. The
continuing improvement in these tools such as the ones described make
security concerns significant.
Some of the tools could be used to create rogue packets or denial-
of-service attacks against other hosts. Also, some of the tools
require changes to the kernel (foreign code) and might require root
privileges to execute. So you are trusting code that you have
fetched from some perhaps untrustworthy remote site. This code could
contain malicious code that could present any kind of attack.
None of the listed tools evaluate security in any way or form.
There are privacy concerns when grabbing packets from the network in
that you are now able to read other people's mail, files, etc. This
impacts more than just the host running the tool but all traffic
crossing the host's physical network.
5. References
[DJ94] Scott Dawson and Farnam Jahanian, "Probing and Fault
Injection of Distributed Protocol Implementations",
University of Michigan Technical Report CSE-TR-217-94, EECS
Department.
[DJM96a] Scott Dawson, Farnam Jahanian, and Todd Mitton, "ORCHESTRA:
A Fault Injection Environment for Distributed Systems",
University of Michigan Technical Report CSE-TR-318-96, EECS
Department.
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RFC 2398 Some Testing Tools for TCP Implementors August 1998
[DJM96b] Scott Dawson, Farnam Jahanian, and Todd Mitton,
"Experiments on Six Commercial TCP Implementations Using a
Software Fault Injection Tool", University of Michigan
Technical Report CSE-TR-298-96, EECS Department.
[Pax97a] Vern Paxson, "Automated Packet Trace Analysis of TCP
Implementations", ACM SIGCOMM '97, September 1997, Cannes,
France.
[PADHV98] Paxson, V., Allman, M., Dawson, S., Heavens, I., and B.
Volz, "Known TCP Implementation Problems", Work In
Progress.
[Riz97] Luigi Rizzo, "Dummynet: a simple approach to the evaluation
of network protocols", ACM Computer Communication Review,
Vol. 27, N. 1, January 1997, pp. 31-41.
[She91] Tim Shepard, "TCP Packet Trace Analysis", MIT Laboratory
for Computer Science MIT-LCS-TR-494, February, 1991.
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RFC 2398 Some Testing Tools for TCP Implementors August 1998
6. Authors' Addresses
Steve Parker
Sun Microsystems, Inc.
901 San Antonio Road, UMPK17-202
Palo Alto, CA 94043
USA
Phone: (650) 786-5176
EMail: sparker@eng.sun.com
Chris Schmechel
Sun Microsystems, Inc.
901 San Antonio Road, UMPK17-202
Palo Alto, CA, 94043
USA
Phone: (650) 786-4053
EMail: cschmec@eng.sun.com
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7. Full Copyright Statement
Copyright (C) The Internet Society (1998). All Rights Reserved.
This document and translations of it may be copied and furnished to
others, and derivative works that comment on or otherwise explain it
or assist in its implementation may be prepared, copied, published
and distributed, in whole or in part, without restriction of any
kind, provided that the above copyright notice and this paragraph are
included on all such copies and derivative works. However, this
document itself may not be modified in any way, such as by removing
the copyright notice or references to the Internet Society or other
Internet organizations, except as needed for the purpose of
developing Internet standards in which case the procedures for
copyrights defined in the Internet Standards process must be
followed, or as required to translate it into languages other than
English.
The limited permissions granted above are perpetual and will not be
revoked by the Internet Society or its successors or assigns.
This document and the information contained herein is provided on an
"AS IS" basis and THE INTERNET SOCIETY AND THE INTERNET ENGINEERING
TASK FORCE DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING
BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION
HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED WARRANTIES OF
MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
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