RFC 3888 Message Tracking Model and Requirements

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INFORMATIONAL

Network Working Group                                          T. Hansen
Request for Comments: 3888                             AT&T Laboratories
Category: Informational                                   September 2004


                Message Tracking Model and Requirements

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 (2004).

Abstract

   Customers buying enterprise message systems often ask: Can I track
   the messages?  Message tracking is the ability to find out the path
   that a particular message has taken through a messaging system and
   the current routing status of that message.  This document provides a
   model of message tracking that can be used for understanding the
   Internet-wide message infrastructure and to further enhance those
   capabilities to include message tracking, as well as requirements for
   proposed message tracking solutions.

1.  Problem Statement

   Consider sending a package through a package delivery company.  Once
   you've sent a package, you would like to be able to find out if the
   package has been delivered or not, and if not, where that package
   currently is and what its status is.  Note that the status of a
   package may not include whether it was delivered to its addressee,
   but just the destination.  Many package carriers provide such
   services today, often via a web interface.

   Message tracking extends that capability to the Internet-wide message
   infrastructure, analogous to the service provided by package
   carriers:  the ability to quickly locate where a message (package)
   is, and to determine whether or not the message (package) has been
   delivered to its final destination.  An Internet-standard approach
   will allow the development of message tracking applications that can
   operate in a multi-vendor messaging environment, and will encourage
   the operation of the function across administrative boundaries.





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   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
   document are to be interpreted as described in BCP 14, RFC 2119
   [RFC-KEYWORDS].

2.  Definitions

   The following terms are relevant to message tracking.  The terms
   Tracking User Agent and Tracking Server are new, while all other
   terms have been collected here from other sources.

   Originating Mail User Agent (MUA)
             The originating mail user agent is the software used to
             compose and originate a message.  It is the software
             sitting on a person's desktop.

   Originating Mail Submission Agent (MSA)
             The Mail Submission Agent accepts a message from a User
             Agent, adds or modifies it as required for Internet
             standards and/or site policy, and injects the message into
             the network.  The MSA may be the initial MTA or may hand
             off the message to an MTA.

   Message Transfer Agent (MTA)
             A Message Transfer Agent accepts a message and moves it
             forward towards its destination.  That destination may be
             local or reached via another MTA.  It may use a local queue
             to store the message before transferring it further.  Any
             MTA may generate a Non-Delivery Notification.

   Intermediate Message Transfer Agent (MTA)
             An Intermediate MTA is an MTA that accepts a message for
             transfer somewhere else.

   Final Message Transfer Agent (MTA)
             A Final MTA is an MTA that accepts a message for local
             delivery.  It is the final place that a message is
             accepted.  The final MTA is what sends any Delivery Status
             Notifications (DSNs).  (Intermediate MTA's may also send a
             DSN if it relays to a non-DSN aware MTA.)

   Foreign Message Transfer Agent
             A foreign MTA provides delivery of messages using other
             protocols than those specified for Internet mail, such as
             an X.400 mail system.






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   Gateway Message Transfer Agent (GW-MTA)
             A gateway MTA accepts a message for transfer to a foreign
             MTA outside of the Internet protocol space.

   Local Delivery Agent (LDA)
             The local Delivery Agent delivers the message to the local
             message store.  (The MTA and LDA are often combined into
             the same program.)

   Delivery Status Notification (DSN)
             A Delivery Status Notification [RFC-DSN] is produced by an
             MTA when a message is unsuccessfully delivered, either to
             its next hop or the final message store, or when it is
             successfully delivered, either to a foreign MTA, to a local
             delivery agent, or a non-DSN aware MTA.  Positive
             notifications are only performed [RFC-ESMTP-DSN] when
             specifically requested.

   Non-Delivery Notification (NDN)
             A non-delivery notification is a special form of DSN
             indicating unsuccessful delivery.

   Message Disposition Notification (MDN)
             A Message Disposition Notification is used to report the
             disposition of a message after it has been successfully
             delivered to a recipient.

   Tracking User Agent (TUA)
             A tracking user agent wants to find information on a
             message on the behalf of a user.  It is the requestor or
             initiator of such a request.  (The MUA and TUA could be
             combined into the same program.)

   Tracking Server
             A tracking server provides tracking information to a
             tracking client.  It is the repository of the information
             about a message for the traversal through a particular MTA.
             (The tracking server and MTA may run on the same system.)

3.  Entities

   The entities involved in message tracking are: message user agents,
   message submission agents, message transfer agents, tracking user
   agents and tracking servers.







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4.  Requirements

   These are requirements that any message tracking solution must be
   able to satisfy:

   The message tracking solution:

   **   MUST scale to the internet.

   **   MUST be easy to deploy.

   **   SHOULD maximize the reuse of existing, already deployed
        technology and infrastructure.

   **   If possible, SHOULD extend existing protocols and not invent new
        ones.

   **   SHOULD have a low implementation cost.  (This makes it easy to
        incorporate into existing products.)

   **   MUST restrict tracking of a message to the originator of the
        message (or a delegate).

   **   MUST be able to do authentication.

   **   MAY allow an originator to delegate this responsibility to a
        third party.

   **   SHOULD have the property that they would allow per-message
        delegation of the tracking responsibility.

   **   MUST require a tracking user agent to prove that they are
        permitted to request the tracking information.

   **   MUST be able to uniquely identify messages.

   **   MUST require every message to have unique identification.

5.  Interaction Models

   There are several models by which tracking of messages can be
   enabled, by which messages can be tracked, and by which information
   can be requested and gathered.








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5.1.  Tracking Enabling Models

   Either the envelope or message header must contain enough information
   to track a message and securely retrieve information about the
   message.  Any message that does not have enough information to track
   it is by definition not trackable.

   If there is not enough information available in current standard
   envelopes or message headers, then the current standards will need to
   be extended.  Either the MUA or MSA must determine the additional
   information and enable the tracking by adding the additional
   information to either the envelope or header.

   This leads to two tracking enabling models: passive enabling and
   active enabling.

5.1.1.  Passive Enabling Model

   The "passive enabling" model assumes that there is sufficient
   information available.  No UA or MSA interaction occurs to turn
   tracking on; it is on by default.

5.1.2.  Active Enabling Model

   The "active enabling" model requires that the MUA and MSA exchange
   information when the message is submitted.  This exchange indicates
   that logging of the message's traversal should be performed, as well
   as providing enough additional information to allow the message to be
   tracked.  This information will need to be passed on to subsequent
   MTAs as needed.

5.2.  Tracking Request Models

   There are several models by which tracking information may be
   requested.

5.2.1.  Passive Request Model

   The "passive request" model requires active enabling to indicate that
   some form of tracking is to be performed.  The tracking information
   can be sent back immediately (as a form of telemetry) or sent to a
   3rd party for later retrieval.









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5.2.2.  Passive Request Tracking Information

   Forms of passive tracking information that could potentially be
   requested are as follows.  Note that mechanisms already exist for
   requesting the information marked with a (+).  The references for
   such mechanisms are listed at the end of each such entry.

   **   send a DSN of a message arriving at an intermediate MTA

   **   (+) send a DSN of a message being rejected while at an
        intermediate MTA [RFC-DSN]

   **   (+) send a DSN of a message leaving an intermediate MTA and
        going to another MTA [RFC-DELIVER-BY]

   **   send a DSN of a message arriving at a final MTA

   **   (+) send a DSN of a message being rejected while at a final MTA
        [RFC-DSN]

   **   (+) send a DSN of a message being delivered to a user's message
        store [RFC-DSN]

   **   (+) send a DSN of a message being delivered to a foreign MTA
        [RFC-DSN]

   **   (+) send an MDN of a message being read by an end user [RFC-MDN]

5.3.  Active Request Model

   The "active request" model requires an active query by a user's user
   agent to the MSA, intermediate MTAs and final MTA, or to a third
   party, to find the message's status as known by that MTA.  Active
   request will work with either passive enabling or active enabling.

5.3.1.  Server Chaining vs. Server Referrals

   When a tracking server has been asked for tracking information, and
   the message has been passed on to another MTA of which this tracking
   server has no tracking knowledge, there are two modelling choices:

   **   the first tracking server will contact the next tracking server
        to query for status and pass back the combined status (server
        chaining), or

   **   the first tracking server will return the address of the next
        MTA and the tracking client has the responsibility of contacting
        the next tracking server (server referrals).



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5.3.2.  Active Request Tracking Information

   Forms of active tracking information that could potentially be
   requested are as follows.  (Note that no mechanisms currently exist
   for requesting such information.)

   **   the message has been queued for later delivery

   **   the message was delivered locally

   **   the message was delivered to another MTA,

   **   the message was delivered to a foreign MTA

   **   ask a different tracking server,

   **   I know but can't tell you,

   **   I don't know.

5.4.  Combining DSN and MDN Information with Message Tracking
      Information

   The information that would be retrieved by message tracking and the
   information that is returned for DSN and MDN requests all attempt to
   answer the question of "what happened to message XX"?  The
   information provided by each is complimentary in nature, but similar.
   A tracking user agent could use all three possible information
   sources  to present a total view of the status of a message.

   Both DSN and MDN notifications utilize the formats defined by RFC
   3462 [RFC-REPORT].  This suggests that the information returned by
   message tracking solutions should also be similar.

6.  Security Considerations

6.1.  Security Considerations Summary

   Security vulnerabilities are detailed in [RFC-MTRK-ESMTP], [RFC-
   MTRK-TSN] and [RFC-MTRK-MTQP].  These considerations include:

   **   vulnerability to snooping or replay attacks when using
        unencrypted sessions

   **   a dependency on the randomness of the per-message secret

   **   reliance on TLS




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   **   man-in-the-middle attacks

   **   reliance on the server maintaining the security level when it
        performs chaining

   **   denial of service

   **   confidentiality concerns

   **   forgery by malicious servers

6.2.  Message Identification and Authentication

   This is a security model for message identification and
   authentication that could be deployed.  (There may be others.)

   A Tracking User Agent must prove that they are permitted to request
   tracking information about a message.  Every [RFC-822]-compliant
   message is supposed to contain a Message-Id header.  One possible
   mechanism is for the originator to calculate a one-way hash A from
   the message ID + time stamp + a per-user secret.  The user then
   calculates another one-way hash B to be the hash of A.  The user
   includes B in the submitted message, and retains A.  Later, when the
   user makes a message tracking request to the messaging system or
   tracking entity, it submits A in the tracking request.  The entity
   receiving the tracking request then uses A to calculate B, since it
   was already provided B, verifying that the requestor is authentic.
   In summary,

      A = H(message ID + time stamp + secret)

      B = H(A)

   Another possible mechanism for A is to ignore the message ID and time
   stamp and just use a one-way hash from a large (>128 bits) random
   number.  B would be calculated as before.  In summary,

      A = H(large-random-number)

      B = H(A)

   This is similar in technique to the methods used for One-Time
   Passwords [RFC-OTP].  The success of these techniques is dependent on
   the randomness of the per-user secret or the large random number,
   which can be incredibly difficult in some environments.






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   If the originator of a message were to delegate his or her tracking
   request to a third party by sending it A, this would be vulnerable to
   snooping over unencrypted sessions.  The user can decide on a
   message-by-message basis if this risk is acceptable.

7.  Informational References

   [RFC-822]          Crocker, D., "Standard for the format of ARPA
                      Internet text messages", STD 11, RFC 822, August
                      1982.

   [RFC-DELIVER-BY]   Newman, D., "Deliver By SMTP Service Extension",
                      RFC 2852, June 2000.

   [RFC-DSN]          Moore, K., and G. Vaudreuil, "An Extensible
                      Message Format for Delivery Status Notifications",
                      RFC 3464, January 2003.

   [RFC-ESMTP-DSN]    Moore, K., "Simple Mail Transfer Protocol (SMTP)
                      Service Extension for Delivery Status
                      Notifications (DSNs)", RFC 3461, January 2003.

   [RFC-KEYWORDS]     Bradner, S., "Key words for use in RFCs to
                      Indicate Requirement Levels", BCP 14, RFC 2119,
                      March 1997.

   [RFC-MDN]          Hansen, T. and G. Vaudreuil, Eds., "Message
                      Disposition Notifications", RFC 3798, May 2004.

   [RFC-OTP]          Haller, N., Metz, C., Nesser, P. and M. Straw, "A
                      One-Time Password System", STD 61, RFC 2289,
                      February 1998.

   [RFC-REPORT]       Vaudreuil, G., "The Multipart/Report Content Type
                      for the Reporting of Mail System Administrative
                      Messages", RFC 3462, January 2003.

   [RFC-MTRK-ESMTP]   Allman, E. and T. Hansen, "SMTP Service Extension
                      for Message Tracking", RFC 3885, September 2004.

   [RFC-MTRK-TSN]     Allman, E., "The Message/Tracking-Status MIME
                      Extension", RFC 3886, September 2004.

   [RFC-MTRK-MTQP]    Hansen, T., "Message Tracking Query Protocol", RFC
                      3887, September 2004.






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8.  Acknowledgements

   This document is the product of input from many people and many
   sources, including all of the members of the Message Tracking Working
   Group: Philip Hazel, Alexey Melnikov, Lyndon Nerenberg, Chris Newman,
   and Gregory Neil Shapiro.  It owes much to earlier work by Gordon
   Jones, Bruce Ernst, and Greg Vaudreuil.  In particular, I'd like to
   also thank Ken Lin for his considerable contributions to the early
   versions of the document.

9.  Author's Address

   Tony Hansen
   AT&T Laboratories
   Middletown, NJ 07748
   USA

   Phone: +1.732.420.8934
   EMail: tony+msgtrk@maillennium.att.com
































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10. Full Copyright Statement

   Copyright (C) The Internet Society (2004).

   This document is subject to the rights, licenses and restrictions
   contained in BCP 78, and except as set forth therein, the authors
   retain all their rights.

   This document and the information contained herein are provided on an
   "AS IS" basis and THE CONTRIBUTOR, THE ORGANIZATION HE/S HE
   REPRESENTS OR IS SPONSORED BY (IF ANY), THE INTERNET SOCIETY AND THE
   INTERNET ENGINEERING TASK FORCE DISCLAIM ALL WARRANTIES, EXPRESS OR
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Acknowledgement

   Funding for the RFC Editor function is currently provided by the
   Internet Society.







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