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There is also an option to incorporate huerstics into the dissector to eliminate the need to use a "decode as..." or setting the UDP preference.  An huerstics decode was built as a proof of concept and it worked pretty well but might need further testing to prove out. There is also an option to incorporate huerstics into the dissector to eliminate the need to use a "decode as..." or setting the UDP preference. An huerstics decode was built as a proof of concept and it worked pretty well but might need further testing to prove out.

Juniper Networks mirror encapsulation (Jmirror)

Juniper E Series routers have the ability to perform packet mirroring. Packet mirroring enables you to automatically send a copy of a packet to an external host for analysis. Packet mirroring has many uses including lawful intercept, traffic debugging and troubleshooting user networking problems.

The E Series JUNOSe software provides two methods that you can use to configure and manage your packet-mirroring environment — CLI-based and RADIUS-based.

  • CLI-based packet mirroring — An authorized operator uses the router’s CLI commands to configure and manage packet mirroring. You can mirror traffic related to a specific IP, IPv6, or L2TP interface or traffic related to a particular user. You also use CLI commands to create secure policies that identify the traffic to be mirrored and specify how the mirrored traffic is treated.
  • RADIUS-based packet mirroring — A RADIUS administrator uses RADIUS attributes to configure packet mirroring of a particular user’s traffic. The router creates dynamic secure policies for the mirroring operation.

When a packet is mirrored an exact duplicate of the packet is created. In order to prevent this duplicate packet from reaching the original destination it is often necessary to wrap the mirrored packet with a new, routable IP packet header. As a result Juniper Networks defined a proprietary UDP packet header format which allows you to redirect the mirrored packet to the intended packet mirror destination. For lawful intercept applications this is commonly the mediation device IP and UDP port. There is a special logical interface on the E Series router called an analyzer port where the router directs mirrored packets that only allows outgoing packets — all incoming traffic is silently ignored.

During a packet mirroring session, the router prepends a special UDP/IP header to each mirrored packet that is sent to the analyzer interface. This prepended header is created by the policy-mirroring action, and is used for demultiplexing at the analyzer to sort through the multiple mirrored streams that arrive from different sources.

UDP header format.gif

All mirrored L2TP session packets are prepended with a UDP/IP header. However, for IP traffic mirroring, the prepend header is optional; the header is added if the mirroring-related Juniper Networks VSAs (VSAs 26-59 and 26-61) are both included in the RADIUS message. For CLI-based mirroring, the analyzer-udp-port keyword of the mirror analyzer-ip-address command creates the same information contained in the two VSAs. If you do not include the VSAs or the analyzer-udp-port keyword, an IP mirroring action is indicated, and the prepend header is not used.

History

The primary driver for the development of the packet mirroring technology in the industry was the anticipation of an FCC order to comply with CALEA http://www.fcc.gov/pshs/services/calea/ law enforcement regulations. The FCC issued their first order in August 2005 and mandated that CALEA compliance was to be in place with 18 months of the order. This order was motivated by the need to intercept VoIP communications across data networks. The FCC issued their second order in May 2006 which included VoIP as well as broadband subscribers applications, but the deadline was not extended.

The deadline for compliance was set at May 14, 2007. The ruling was such that governments could impose daily fines designed to block services which were not Lawful Intercept compliant.

In anticipation of this ruling, work began well in advance of the first FCC order to develop technology within E Series to meet the expected reqirements. The ability to perform packet mirroring on an E Series router was introduced in JUNOSe 5.1 in March of 2004. In this initial release mirroring was entirely CLI based and the mirror commands were visible to anyone with access to the router. Only IP packets could be mirrored and there was no support for the prepended UDP header.

Support for secure policies came in JUNOSe 6.0 in January of 2005. Secure policies hid the mirror commands from view unless you had command authorization to view them. In this release packet mirroring support was extended to L2TP packets and the prepended UDP header was first introduced. Initially the only way to add the UDP header to a mirrored packet was through the return of Juniper Networks VSAs [26-58] LI Action, [26-59] Med-Dev-Handle, [26-60] Med-Ip-Address and [26-61] Med-Port-Number in the RADIUS Accept message. Mirroring could also be triggered for active sessions through a RADIUS CoA messages by returing the aforementioned Juniper Networks VSAs along with the IETF VSA [44] Acct-Session-Id.

In JUNOSe 7.0 (released in July 2005), support for prepending the UDP header to a mirrored packet was extended to CLI based mirroring.

Protocol dependencies

  • UDP: Jmirror is transported over UDP. No specific port number is used nor assigned.

Example traffic

l2tp decode.JPG

Wireshark

The Jmirror dissector is fully functional and partially tested. It has been verified with mirrored IP and L2TP flows. There are hooks in the dissector to decode mirrored IPv6 packets, however there were no actual PCAPs available to test with so that functionality has not been verified.

Under the protocol preferences the default UDP port is 30030. This port was chosen since it was unused and happened to be the product of the first six prime numbers 2, 3, 5, 7, 11 and 13. Since the jimirror uses an unspecified UDP port number you can adjust this value as required.

There is based expression support for the mirror id (mid) and the session id (sid). These value are 32-bit values and support basic numerical operands.

Preference Settings

The Jmirror dissector has a UDP port number preference to tell it which on which UDP port to listen for Jmirror packets.

Example capture file

Display Filter

A complete list of Jmirror display filter fields can be found in the display filter reference

  • Show only the Jmirror based traffic:
     jmirror

Capture Filter

You cannot directly filter Jmirror protocols while capturing. However, if you know the UDP port used (see above), you can filter on that one.

  • Capture only the mirror traffic over port (30030):
     udp port 30030

  • add link to PROTO specification and where to find additional info on the web about it, e.g.:
  • jmirror header - format of jmirror packets

Discussion

I continue to search for a Jmirror IPv6 PCAP file to test the dissector with so if one become available please test this dissector on it and report on the success or failure.

There is also an option to incorporate huerstics into the dissector to eliminate the need to use a "decode as..." or setting the UDP preference. An huerstics decode was built as a proof of concept and it worked pretty well but might need further testing to prove out.

jmirror (last edited 2013-02-25 01:51:21 by WayneBrassem)