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171 lines
5.2 KiB
Groff
171 lines
5.2 KiB
Groff
.\" $Id$
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.TH echoping 1 "November 22, 1996" "ECHOPING" "echoping"
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.SH NAME
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echoping \- tests a remote host with TCP or UDP
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.SH SYNOPSIS
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.B echoping
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.RI [ -vudcrC ]
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.RI [ -s\ number ]
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.RI [ -n\ number ]
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.RI [ -w\ number ]
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.RI [ -t\ number ]
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.RI [ -h\ URL ]
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.RI [ -i\ URL ]
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.RI [ -S ]
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.RI [ -p\ number ]
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.RI [ -P\ number ]
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.B hostname
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[:port]
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.SH DESCRIPTION
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.LP
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.B echoping
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is a small program to test (approximatively) performances
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of a remote Internet host by sending it TCP "echo" packets. It can use other
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protocols as well (HTTP - which makes it a good tool to test Web servers, UDP "echo", etc).
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.LP
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.B echoping
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simply shows the elapsed time, including the time to set up the TCP
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connection and to transfer the data. Therefore, it is unsuitable to physical
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line raw throughput measures (unlike bing or treno). On the other end, the
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action it performs are close from, for instance, a HTTP request and it is meaningful
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to use it (carefully) to measure Web performances.
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.SH ARGUMENT
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.IP hostname[:port]
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Name of the server to test. For HTTP, you can specify a port number.
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.SH OPTIONS
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.IP -v
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Verbose
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.IP -s\ nnn
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Size of the data to send. Large values can produce strange results with
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some echo servers.
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.IP -n\ nnn
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Numbers of repeated tests. With this option, you have also the minimum, maximum, average and median
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time. The median is the value such that half of the measures are under it
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and the other half is above. When you measure highly variables values, like
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it is often the case on the whole Internet, median is better than average
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to avoid "extreme" values.
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.IP -w\ nnn
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Number of seconds to wait between two tests (default is one)
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.IP -t\ nnn
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Number of seconds to wait a reply before giving up. For TCP, this is the
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maximum number of seconds for the whole connection (setup and data exchange).
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.IP -u
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Use UDP instead of TCP
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.IP -d
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Use the "discard" service instead of echo
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.IP -c
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Use the "chargen" service instead of echo
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.IP -h\ url
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Use the HTTP protocol (instead of echo) for the given URL. The URL has to
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be a relative one (for instance '/' or '/pics/foobar.gif') because HTTP 1.0
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servers will not understand a request for an absolute URL.
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.IP -i\ url
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Use the ICP protocol (instead of echo) for the given URL. The URL has to
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be an absolute one. This is mostly for testing Squid Web proxy/caches.
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.IP -C
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Use the SSL (cryptography) protocol. For HTTP tests only.
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.IP -S
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Use the SMTP protocol (instead of echo) for the given server.
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.IP -r
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Use T/TCP (if it has been compiled with it). See the INSTALL file for details.
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.IP -f\ character
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Fill the packet with this character (default is random filling)
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.IP -p\ n
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Send packets with the socket priority to the integer
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.IR n .
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The mapping of the socket priority into a network layer or a link
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layer priority depends upon the network protocol and link protocol
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in use. For more details see
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.B SO_PRIORITY
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in
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.BR socket (7).
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.IP -P\ n
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Set the IP type of service octet in the transmitted packets to the
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least significant eight bits of the integer
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.IR n .
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.SH EXAMPLES
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.IP echoping\ \-v\ foobar.example.com
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Tests the remote machine with TCP echo (one test).
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.IP echoping\ \-n\ 5\ \-w\ 10\ foobar.example.com
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Tests the remote machine with TCP echo (five tests, every ten seconds).
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.IP echoping\ \-h\ /\ foobar.example.com
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Tests the remote Web server and asks its home page. Note you don't
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indicate the whole URL.
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.IP echoping\ \-h\ http://www.example.com/\ cache.example.com:3128
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Tests the remote Web proxy-cache and asks a Web page. Note that you must
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indicate the whole URL.
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.IP echoping\ -u\ \-P\ 0xa0\ foobar.example.com
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Sends several UDP Echo packets with an IP Precedence of 5.
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.SH IP TYPE OF SERVICE OCTET
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The IP packet header contains 8 bits named the "type of service octet".
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The value of the octet is set with the
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.B \-P
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option. The effects of the octet are defined differently in RFC791
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.I "Internet Protocol"
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and RFC2474
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.IR "Definition of the Differentiated Services Field (DS Field) in the IPv4 and IPv6 Headers".
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RFC791 defines
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.I Precedence
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which has ascending priorities 0 through to 7, and the bits
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.IR Delay ,
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.IR Throughput ,
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.IR Reliability ,
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and
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.I Cost
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which indicates the application's preference for the properties of
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the packet's path through the network.
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.I Precedence
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is in the most significant three bits of the type of service octet,
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followed in decending significance order by the
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.IR D ,
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.IR T ,
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.I R
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and
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.I C
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bits. The least significant bit must be zero. Only one of the
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.IR D ,
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.IR T ,
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.I R
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or
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.I C
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bits may be set.
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RFC2474 defines the Distributed Services Code Point, or
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DSCP.
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This acts as a selector between 64 possible behaviours that the
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network can apply to the packet. The
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.I DSCP
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is in the most significant six bits of the type of service octet.
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The remaining least significant two bits of the octet must be
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zero.
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The numeric arguments to
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.B -p
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and
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.B -P
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can be in decimal (such as 11), octal (such as 013) or hexadecimal
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(such as 0x0b). So padding decimal arguments with leading zeros will
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change the value read.
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You may need to be superuser to set some
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.B -p
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or
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.B -P
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values.
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.SH BUGS
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See the TODO file or SourceForge bug tracking system at
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<http://sourceforge.net/bugs/?group_id=4581>.
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.SH SEE ALSO
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See the README for information about other network measurements programs.
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.SH AUTHOR
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Stephane Bortzmeyer <bortz@users.sourceforge.net>
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