499 lines
18 KiB
Groff
499 lines
18 KiB
Groff
.\" Copyright (c) 1995 by the University of Southern California
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.\" All rights reserved.
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.\"
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.\" Permission to use, copy, modify, and distribute this software and its
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.\" documentation in source and binary forms for non-commercial purposes
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.\" and without fee is hereby granted, provided that the above copyright
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.\" notice appear in all copies and that both the copyright notice and
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.\" this permission notice appear in supporting documentation, and that
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.\" any documentation, advertising materials, and other materials related
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.\" to such distribution and use acknowledge that the software was
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.\" developed by the University of Southern California, Information
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.\" Sciences Institute. The name of the University may not be used to
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.\" endorse or promote products derived from this software without
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.\" specific prior written permission.
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.\"
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.\" THE UNIVERSITY OF SOUTHERN CALIFORNIA makes no representations about
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.\" the suitability of this software for any purpose. THIS SOFTWARE IS
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.\" PROVIDED "AS IS" AND WITHOUT ANY EXPRESS OR IMPLIED WARRANTIES,
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.\" INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
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.\" MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
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.\"
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.\" Other copyrights might apply to parts of this software and are so
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.\" noted when applicable.
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.\"
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.\" This manual page (but not the software) was derived from the
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.\" manual page for the traceroute program which bears the following
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.\" copyright notice:
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.\"
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.\" Copyright (c) 1988 The Regents of the University of California.
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.\" All rights reserved.
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.\"
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.\" $Id: mtrace.8,v 1.2 1995/06/02 01:02:09 thorpej Exp $
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.\"
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.TH MTRACE 8 "May 8, 1995"
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.UC 6
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.SH NAME
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mtrace \- print multicast path from a source to a receiver
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.SH SYNOPSIS
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.B mtrace
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[
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.B \-g
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.I gateway
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] [
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.B \-i
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.I if_addr
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] [
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.B \-l
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] [
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.B \-M
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] [
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.B \-m
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.I max_hops
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] [
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.B \-n
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] [
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.B \-p
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] [
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.B \-q
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.I nqueries
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] [
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.B \-r
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.I resp_dest
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] [
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.B \-s
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] [
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.B \-t
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.I ttl
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] [
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.B \-w
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.I waittime
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]
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.I source
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[
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.I receiver
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] [
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.I group
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]
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.SH DESCRIPTION
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Assessing problems in the distribution of IP multicast traffic
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can be difficult.
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.B mtrace
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utilizes a tracing feature implemented in multicast routers
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.RB ( mrouted
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version 3.3 and later) that is
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accessed via an extension to the IGMP protocol. A trace query is
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passed hop-by-hop along the reverse path from the
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.I receiver
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to the
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.IR source ,
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collecting hop addresses, packet counts, and routing error conditions
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along the path, and then the response is returned to the requestor.
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.PP
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The only required parameter is the
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.I source
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host name or address. The default
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.I receiver
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is the host running mtrace, and the default
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.I group
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is "MBone Audio" (224.2.0.1), which is sufficient if packet loss
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statistics for a particular multicast group are not needed. These two
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optional parameters may be specified to test the path to some other
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receiver in a particular group, subject to some constraints as
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detailed below. The two parameters can be distinguished because the
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.I receiver
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is a unicast address and the
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.I group
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is a multicast address.
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.SH OPTIONS
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.TP 8 8
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.BI \-g\ gwy
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Send the trace query via unicast directly to the multicast router
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.I gwy
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rather than multicasting the query.
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This must be the last-hop router on the path from the intended
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.I source
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to the
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.IR receiver .
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.RS 8
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.TP 12 12
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.I CAUTION!!
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Version 3.3 of
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.B mrouted
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will crash if a trace query is received via a
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unicast packet and
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.B mrouted
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has no route for the
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.I source
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address. Therefore, do not use the
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.B \-g
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option unless the target
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.B mrouted
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has been verified to be newer than 3.3.
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.RE
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.TP 8 8
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.BI \-i\ addr
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Use
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.I addr
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as the local interface address (on a multi-homed host) for sending the
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trace query and as the default for the
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.I receiver
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and the response destination.
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.TP 8 8
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.B \-l
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Loop indefinitely printing packet rate and loss statistics for the
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multicast path every 10 seconds.
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.TP 8 8
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.B \-M
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Always send the response using multicast rather than attempting
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unicast first.
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.TP 8 8
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.BI \-m\ n
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Set to
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.I n
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the maximum number of hops that will be traced from the
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.I receiver
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back toward the
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.IR source .
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The default is 32 hops (infinity for the DVMRP routing protocol).
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.TP 8 8
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.B \-n
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Print hop addresses numerically rather than symbolically and numerically
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(saves a nameserver address-to-name lookup for each router found on the
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path).
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.TP 8 8
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.BI \-q\ n
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Set the maximum number of query attempts for any hop to
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.IR n .
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The default is 3.
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.TP 8 8
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.B \-p
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Listen passively for multicast responses from traces initiated by
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others (not implemented yet).
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.TP 8 8
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.BI \-r\ host
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Send the trace response to
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.I host
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rather than to the host on which
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.B mtrace
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is being run, or to a multicast address other than the one registered
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for this purpose (224.0.1.32).
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.TP 8 8
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.B \-s
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Print a short form output including only the multicast path and not
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the packet rate and loss statistics.
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.TP 8 8
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.BI \-t\ ttl
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Set the
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.I ttl
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(time-to-live, or number of hops) for multicast trace queries and
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responses. The default is 64, except for local queries to the "all
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routers" multicast group which use ttl 1.
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.TP 8 8
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.BI \-w\ n
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Set the time to wait for a trace response to
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.I n
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seconds (default 3 seconds).
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.SH USAGE
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.SS How It Works
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The technique used by the
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.B traceroute
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tool to trace unicast network paths will not work for IP multicast
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because ICMP responses are specifically forbidden for multicast traffic.
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Instead, a tracing feature has been built into the multicast routers.
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This technique has the advantage that additional information about
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packet rates and losses can be accumulated while the number of packets
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sent is minimized.
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.PP
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Since multicast uses
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reverse path forwarding, the trace is run backwards from the
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.I receiver
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to the
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.IR source .
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A trace query packet is sent to the last
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hop multicast router (the leaf router for the desired
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.I receiver
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address). The last hop router builds a trace response packet, fills in
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a report for its hop, and forwards the trace packet using unicast to
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the router it believes is the previous hop for packets originating
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from the specified
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.IR source .
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Each router along the path adds its report and forwards the packet.
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When the trace response packet reaches the first hop router (the router
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that is directly connected to the source's net), that router sends the
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completed response to the response destination address specified in
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the trace query.
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.PP
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If some multicast router along the path does not implement the
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multicast traceroute feature or if there is some outage, then no
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response will be returned. To solve this problem, the trace query
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includes a maximum hop count field to limit the number of hops traced
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before the response is returned. That allows a partial path to be
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traced.
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.PP
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The reports inserted by each router contain not only the address of
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the hop, but also the ttl required to forward and some flags to indicate
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routing errors, plus counts of the total number of packets on the
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incoming and outgoing interfaces and those forwarded for the specified
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.IR group .
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Taking differences in these counts for two traces separated in time
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and comparing the output packet counts from one hop with the input
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packet counts of the next hop allows the calculation of packet rate
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and packet loss statistics for each hop to isolate congestion
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problems.
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.SS Finding the Last-Hop Router
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The trace query must be sent to the multicast router which is the
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last hop on the path from the
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.I source
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to the
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.IR receiver .
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If the receiver is on the local subnet (as determined using the subnet
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mask), then the default method is to multicast the trace query to
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all-routers.mcast.net (224.0.0.2) with a ttl of 1. Otherwise, the
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trace query is multicast to the
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.I group
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address since the last hop router will be a member of that group if
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the receiver is. Therefore it is necessary to specify a group that
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the intended receiver has joined. This multicast is sent with a
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default ttl of 64, which may not be sufficient for all cases (changed
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with the
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.B \-t
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option).
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If the last hop router is known, it may also be addressed directly
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using the
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.B \-g
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option). Alternatively, if it is desired to trace a group that the
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receiver has not joined, but it is known that the last-hop router is a
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member of another group, the
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.B \-g
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option may also be used to specify a different multicast address for the
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trace query.
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.PP
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When tracing from a multihomed host or router, the default receiver
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address may not be the desired interface for the path from the source.
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In that case, the desired interface should be specified explicitly as
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the
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.IR receiver .
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.SS Directing the Response
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By default,
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.B mtrace
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first attempts to trace the full reverse path, unless the number of
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hops to trace is explicitly set with the
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.B \-m
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option. If there is no response within a 3 second timeout interval
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(changed with the
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.B \-w
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option), a "*" is printed and the probing switches to hop-by-hop mode.
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Trace queries are issued starting with a maximum hop count of one and
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increasing by one until the full path is traced or no response is
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received. At each hop, multiple probes are sent (default is three,
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changed with
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.B \-q
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option). The first half of the attempts (default is one) are made with
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the unicast address of the host running
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.B mtrace
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as the destination for the response. Since the unicast route may be
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blocked, the remainder of attempts request that the response be
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multicast to mtrace.mcast.net (224.0.1.32) with the ttl set to 32 more
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than what's needed to pass the thresholds seen so far along the path
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to the receiver. For the last quarter of the attempts (default is
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one), the ttl is increased by another 32 each time up to a maximum of
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192. Alternatively, the ttl may be set explicity with the
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.B \-t
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option and/or the initial unicast attempts can be forced to use
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multicast instead with the
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.B \-M
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option. For each attempt, if no response is received within the
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timeout, a "*" is printed. After the specified number of attempts
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have failed,
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.B mtrace
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will try to query the next hop router with a DVMRP_ASK_NEIGHBORS2
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request (as used by the
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.B mrinfo
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program) to see what kind of router it is.
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.SH EXAMPLES
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The output of
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.B mtrace
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is in two sections. The first section is a short listing of the hops
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in the order they are queried, that is, in the reverse of the order
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from the
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.I source
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to the
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.IR receiver .
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For each hop, a line is printed showing the hop number (counted
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negatively to indicate that this is the reverse path); the multicast
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routing protocol (DVMRP, MOSPF, PIM, etc.); the threshold required to
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forward data (to the previous hop in the listing as indicated by the
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up-arrow character); and the cumulative delay for the query to reach
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that hop (valid only if the clocks are synchronized). This first
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section ends with a line showing the round-trip time which measures
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the interval from when the query is issued until the response is
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received, both derived from the local system clock. A sample use and
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output might be:
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.PP
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.nf
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.ft C
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oak.isi.edu 80# mtrace -l caraway.lcs.mit.edu 224.2.0.3
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Mtrace from 18.26.0.170 to 128.9.160.100 via group 224.2.0.3
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Querying full reverse path...
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0 oak.isi.edu (128.9.160.100)
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-1 cub.isi.edu (128.9.160.153) DVMRP thresh^ 1 3 ms
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-2 la.dart.net (140.173.128.1) DVMRP thresh^ 1 14 ms
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-3 dc.dart.net (140.173.64.1) DVMRP thresh^ 1 50 ms
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-4 bbn.dart.net (140.173.32.1) DVMRP thresh^ 1 63 ms
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-5 mit.dart.net (140.173.48.2) DVMRP thresh^ 1 71 ms
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-6 caraway.lcs.mit.edu (18.26.0.170)
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Round trip time 124 ms
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.fi
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.PP
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The second section provides a pictorial view of the path in the
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forward direction with data flow indicated by arrows pointing downward
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and the query path indicated by arrows pointing upward. For each hop,
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both the entry and exit addresses of the router are shown if
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different, along with the initial ttl required on the packet in order
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to be forwarded at this hop and the propagation delay across the hop
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assuming that the routers at both ends have synchronized clocks. The
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right half of this section is composed of several columns of
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statistics in two groups. Within each group, the columns are the
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number of packets lost, the number of packets sent, the percentage
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lost, and the average packet rate at each hop. These statistics are
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calculated from differences between traces and from hop to hop as
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explained above. The first group shows the statistics for all traffic
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flowing out the interface at one hop and in the interface at the next
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hop. The second group shows the statistics only for traffic forwarded
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from the specified
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.I source
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to the specified
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.IR group .
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.PP
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These statistics are shown on one or two lines for each hop. Without
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any options, this second section of the output is printed only once,
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approximately 10 seconds after the initial trace. One line is shown
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for each hop showing the statistics over that 10-second period. If
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the
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.B \-l
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option is given, the second section is repeated every 10 seconds and
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two lines are shown for each hop. The first line shows the statistics
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for the last 10 seconds, and the second line shows the cumulative
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statistics over the period since the initial trace, which is 101
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seconds in the example below. The second section of the output is
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omitted if the
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.B \-s
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option is set.
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.ie t \{\
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.ft C
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. ie \w'i'<>\w'm' \{\" looks like this is not proper Courier font
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(If this example is not properly columned with a fixed-width font, get
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.B groff
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and try again.)
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. \}
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.\}
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.PP
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.ft C
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.nf
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Waiting to accumulate statistics... Results after 101 seconds:
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Source Response Dest Packet Statistics For Only For Traffic
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18.26.0.170 128.9.160.100 All Multicast Traffic From 18.26.0.170
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| __/ rtt 125 ms Lost/Sent = Pct Rate To 224.2.0.3
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v / hop 65 ms --------------------- ------------------
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18.26.0.144
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140.173.48.2 mit.dart.net
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| ^ ttl 1 0/6 = --% 0 pps 0/2 = --% 0 pps
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v | hop 8 ms 1/52 = 2% 0 pps 0/18 = 0% 0 pps
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140.173.48.1
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140.173.32.1 bbn.dart.net
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| ^ ttl 2 0/6 = --% 0 pps 0/2 = --% 0 pps
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v | hop 12 ms 1/52 = 2% 0 pps 0/18 = 0% 0 pps
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140.173.32.2
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140.173.64.1 dc.dart.net
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| ^ ttl 3 0/271 = 0% 27 pps 0/2 = --% 0 pps
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v | hop 34 ms -1/2652 = 0% 26 pps 0/18 = 0% 0 pps
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140.173.64.2
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140.173.128.1 la.dart.net
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| ^ ttl 4 -2/831 = 0% 83 pps 0/2 = --% 0 pps
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v | hop 11 ms -3/8072 = 0% 79 pps 0/18 = 0% 0 pps
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140.173.128.2
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128.9.160.153 cub.isi.edu
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| \\__ ttl 5 833 83 pps 2 0 pps
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v \\ hop -8 ms 8075 79 pps 18 0 pps
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128.9.160.100 128.9.160.100
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Receiver Query Source
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.fi
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.PP
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Because the packet counts may be changing as the trace query is
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propagating, there may be small errors (off by 1 or 2) in these
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statistics. However, those errors should not accumulate, so the
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cumulative statistics line should increase in accuracy as a new trace
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is run every 10 seconds. There are two sources of larger errors, both
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of which show up as negative losses:
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.LP
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.RS
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.PD 0
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.TP 3
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\(bu
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If the input to a node is from a multi-access network with more than
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one other node attached, then the input count will be (close to) the
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sum of the output counts from all the attached nodes, but the output
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count from the previous hop on the traced path will be only part of
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that. Hence the output count minus the input count will be negative.
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.TP 3
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\(bu
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In release 3.3 of the DVMRP multicast forwarding software for SunOS
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and other systems, a multicast packet generated on a router will be
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counted as having come in an interface even though it did not. This
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creates the negative loss that can be seen in the example above.
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.PD
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.RE
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.LP
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Note that these negative losses may mask positive losses.
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.PP
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In the example, there is also one negative hop time. This simply
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indicates a lack of synchronization between the system clocks across
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that hop. This example also illustrates how the percentage loss is
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shown as two dashes when the number of packets sent is less than 10
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because the percentage would not be statistically valid.
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.PP
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A second example shows a trace to a receiver that is not local; the
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query is sent to the last-hop router with the
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.B \-g
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option. In this example, the trace of the full reverse path resulted
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in no response because there was a node running an old version of
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.B mrouted
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that did not implement the multicast traceroute function, so
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.B mtrace
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switched to hop-by-hop mode. The \*(lqRoute pruned\*(rq error code
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indicates that traffic for group 224.2.143.24 would not be forwarded.
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.PP
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.nf
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.ft C
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oak.isi.edu 108# mtrace -g 140.173.48.2 204.62.246.73 \\
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butter.lcs.mit.edu 224.2.143.24
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Mtrace from 204.62.246.73 to 18.26.0.151 via group 224.2.143.24
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Querying full reverse path... * switching to hop-by-hop:
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0 butter.lcs.mit.edu (18.26.0.151)
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-1 jam.lcs.mit.edu (18.26.0.144) DVMRP thresh^ 1 33 ms Route pruned
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-2 bbn.dart.net (140.173.48.1) DVMRP thresh^ 1 36 ms
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-3 dc.dart.net (140.173.32.2) DVMRP thresh^ 1 44 ms
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-4 darpa.dart.net (140.173.240.2) DVMRP thresh^ 16 47 ms
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-5 * * * noc.hpc.org (192.187.8.2) [mrouted 2.2] didn't respond
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Round trip time 95 ms
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.fi
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.SH AUTHOR
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Implemented by Steve Casner based on an initial prototype written by
|
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Ajit Thyagarajan. The multicast traceroute mechanism was designed by
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Van Jacobson with help from Steve Casner, Steve Deering, Dino
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Farinacci, and Deb Agrawal; it was implemented in
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.B mrouted
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|
by Ajit Thyagarajan and Bill Fenner. The option syntax and the output
|
|
format of
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.B mtrace
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|
are modeled after the unicast
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.B traceroute
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program written by Van Jacobson.
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.SH SEE ALSO
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.BR mrouted (8),
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.BR mrinfo (8),
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|
.BR map-mbone (8),
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.BR traceroute (8)
|