Traceroute

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In computing, traceroute is a computer network diagnostic tool for displaying the route (path) and measuring transit delays of packets across an Internet Protocol (IP) network. The history of the route is recorded as the round-trip times of the packets received from each successive host (remote node) in the route (path); the sum of the mean times in each hop indicates the total time spent to establish the connection. Traceroute proceeds unless all (three) sent packets are lost more than twice, then the connection is lost and the route cannot be evaluated. Ping, on the other hand, only computes the final round-trip times from the destination point.

traceroute outputs the list of traversed routers in simple text format, together with timing information

The traceroute command is available on a number of modern operating systems. On Apple Mac OS, it is available by opening 'Network Utilities' then selecting 'Traceroute' tab, as well as by typing the "traceroute" command in the terminal. On other Unix systems, such as FreeBSD or Linux, it is available as a traceroute(8) command in a terminal. On Microsoft Windows, it is named tracert. Windows NT-based operating systems also provide PathPing, with similar functionality. For Internet Protocol Version 6 (IPv6) the tool sometimes has the name traceroute6 or tracert6.

Traceroute on Snow Leopard – Mac

Implementation

Traceroute sends a sequence of three Internet Control Message Protocol (ICMP) Echo Request packets addressed to a destination host. The time-to-live (TTL) value, also known as hop limit, is used in determining the intermediate routers being traversed towards the destination. Routers decrement packets' TTL value by 1 when routing and discard packets whose TTL value has reached zero, returning the ICMP error message ICMP Time Exceeded.^[1] Common default values for TTL are 128 (Windows OS) and 64 (Unix-based OS).

Traceroute works by sending packets with gradually increasing TTL value, starting with TTL value of 1. The first router receives the packet, decrements the TTL value and drops the packet because it then has TTL value zero. The router sends an ICMP Time Exceeded message back to the source. The next set of packets are given a TTL value of 2, so the first router forwards the packets, but the second router drops them and replies with ICMP Time Exceeded. Proceeding in this way, traceroute uses the returned ICMP Time Exceeded messages to build a list of routers that packets traverse, until the destination is reached and returns an ICMP Echo Reply message.^[1]

The timestamp values returned for each router along the path are the delay (latency) values, typically measured in milliseconds for each packet.

Hop 192.168.1.2 Depth 1
    Probe status: unsuccessful
    Parent: ()
    Return code: Label-switched at stack-depth 1
    Sender timestamp: 2008-04-17 09:35:27 EDT 400.88 msec
    Receiver timestamp: 2008-04-17 09:35:27 EDT 427.87 msec
    Response time: 26.92 msec
    MTU: Unknown
    Multipath type: IP
      Address Range 1: 127.0.0.64 ~ 127.0.0.127
    Label Stack:
      Label 1 Value 299792 Protocol RSVP-TE

The sender expects a reply within a specified number of seconds. If a packet is not acknowledged within the expected interval, an asterisk is displayed. The Internet Protocol does not require packets to take the same route towards a particular destination, thus hosts listed might be hosts that other packets have traversed. If the host at hop #N does not reply, the hop is skipped in the output.

On Unix-like operating systems, the traceroute utility uses User Datagram Protocol (UDP) datagrams by default, with destination port numbers ranging from 33434 to 33534. The traceroute utility usually has an option to instead use ICMP echo request (type 8), like the Windows tracert utility does.^[1] If a network has a firewall and operates both Windows and Unix-like systems, both protocols must be enabled inbound through the firewall for traceroute to work and receive replies.

Some traceroute implementations use TCP packets, such as tcptraceroute or layer four traceroute. PathPing is a utility introduced with Windows NT that combines ping and traceroute functionality. MTR is an enhanced version of ICMP traceroute available for Unix-like and Windows systems. The various implementations of traceroute all rely on ICMP Time Exceeded (type 11) packets being sent to the source.

The implementations of traceroute shipped with Linux, FreeBSD, NetBSD, OpenBSD, DragonFly BSD, and Mac OS X include an option to use ICMP Echo packets (-I), or any arbitrary protocol (-P) such as UDP, TCP or ICMP.

Cisco's implementation of traceroute also uses a sequence of UDP datagrams, each with incrementing TTL values, to an invalid port number at the remote host; by default, UDP port 33434 is used. Extended version of this command (known as the extended traceroute command) can change the destination port number used by the UDP probe messages.^[2]

Usage

Most implementations include at least options to specify the number of queries to send per hop, time to wait for a response, the hop limit and port to use. Invoking traceroute with no specified options displays the list of available options, while man traceroute presents more details, including the displayed error flags. Simple example on Linux:

$ traceroute -w 3 -q 1 -m 16 example.com

In the example above, selected options are to wait for three seconds (instead of five), send out only one query to each hop (instead of three), limit the maximum number of hops to 16 before giving up (instead of 30), with example.com as the final host.

This can help identify incorrect routing table definitions or firewalls that may be blocking ICMP traffic, or high port UDP in Unix ping, to a site. Note that a firewall may permit ICMP packets but not permit packets of other protocols.

Traceroute is also used by penetration testers to gather information about network infrastructure and IP ranges around a given host.

It can also be used when downloading data, and if there are multiple mirrors available for the same piece of data, one can trace each mirror to get a good idea of which mirror would be the fastest to use.

Origins

The traceroute manual page states that the original traceroute program was written by Van Jacobson in 1987 from a suggestion by Steve Deering, with particularly cogent suggestions or fixes from C. Philip Wood, Tim Seaver and Ken Adelman. Also, the inventor of the ping program, Mike Muuss, states on his website that traceroute was written using kernel ICMP support that he had earlier coded to enable raw ICMP sockets when he first wrote the ping program.^[3]

References

↑ 1.0 1.1 1.2 Comer, Douglas (2004). Computer Network and Internets with Internet Applications. Pearson Education, Inc. pp. 360–362. ISBN 0131433512.
↑ "Understanding the Ping and Traceroute Commands". Cisco IOS Software Releases 12.1 Mainline. cisco.com. 2006-11-29. Retrieved 2013-12-08.
↑ The Story of the PING Program

External links

traceroute(8) – Linux man page
Tracert – Windows XP Command-line reference
RFC 1393: Traceroute using an IP Option Internet RFC
RFC 792: Internet Control Message Protocol (ICMP)
How traceroute works – InetDaemon

Implementations:

Online traceroute services:

Dazzlepod: Multi-source visual traceroute on Google Map
traceroute.org: monthly updated list of online traceroutes
IPv4 traceroute sites, listed by ASN. (An IPv6 Traceroute page is also available.) (BGP4.net)
Misk.com Traceroute, Supports IPv6
Online Traceroute with GeoIP mapping
IPv6 Tools (Euro6IX)
TRACEROUTE6.NET: Located in Japan, Asia. Online IPv6 and IPv4 Ping and Traceroute tools
Traceroute from multiple locations: Locations in Netherlands, Hong Kong, USA, Croatia, UK, Ukraine, Malaysia, Russia, India, Turkey.

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This article is based on material taken from the Free On-line Dictionary of Computing prior to 1 November 2008 and incorporated under the "relicensing" terms of the GFDL, version 1.3 or later.

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