MARF Working Group H.F. Fontana
Internet-Draft 2011
Intended status: Standards Track

Authentication Failure Reporting using the Abuse Report Format
draft-ietf-marf-authfailure-report-06

Abstract

This memo registers an extension report type to ARF, affecting multiple registries, for use in generating receipt-time reports about messages that fail one or more email authentication checks.

Status of This Memo

This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79.

Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet- Drafts is at http:/⁠/⁠datatracker.ietf.org/⁠drafts/⁠current/⁠.

Internet-Drafts are draft documents valid for a maximum of six months and may be updated, replaced, or obsoleted by other documents at any time. It is inappropriate to use Internet-Drafts as reference material or to cite them other than as "work in progress."

Copyright Notice

Copyright (c) 2011 IETF Trust and the persons identified as the document authors. All rights reserved.

This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (http:/⁠/⁠trustee.ietf.org/⁠license-⁠info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License.


Table of Contents

1. Introduction

[ARF] defines a message format for sending reports of abuse in the messaging infrastructure, with an eye towards automating both the generation and consumption of those reports. There is now also a desire to extend the ARF format to include reporting of messages that fail to authenticate using known authentication methods, as these are sometimes evidence of abuse that can be detected and reported through automated means. The same mechanism can be used to convey forensic information about the specific reason the authentication method failed. Thus, this memo presents such extensions to the Abuse Reporting Format to allow for detailed reporting of message authentication method failures.

2. Definitions

2.1. Keywords

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 [KEYWORDS].

2.2. Base 64

base64 is defined in [MIME].

The values that are base64 encodings may contain FWS for formatting purposes as per the usual header field wrapping defined in [MAIL]. During decoding, any characters not in the base64 alphabet are ignored so that such line wrapping does not harm the value. The ABNF token "FWS" is defined in [DKIM].

2.3. Technologies

There are technologies in email security that provide authentication services and some that do authorization. These are often conflated. A discussion of this that is useful for establishing context can be found in Section 1.5.2 in [AUTH-RESULTS].

3. Extension ARF Fields for Authentication Failure Reporting

The current report format defined in [ARF] lacks some specific features required to do effective email authentication failure reporting. This section defines extensions to ARF to accommodate this requirement.

3.1. New ARF Feedback Type

A new feedback type of "auth-failure" is defined as an extension to Section 8.2 of [ARF]. See Section 3.3 for details.

A message that uses this feedback type has the following modified header field requirements for the second (machine-parseable) [MIME] part of the report:

Authentication-Results:
Syntax as specified in [ARF]. Furthermore, [ARF] specifies this field is OPTIONAL and appears at most once; for this extension, this field MUST be present if that value is available. It MUST be formatted according to [AUTH-RESULTS], and MUST reflect only a single email authentication method failure. To report multiple failures for a single message, multiple reports MUST be generated.
Original-Envelope-Id:
Syntax as specified in [ARF]. Furthermore, [ARF] specifies this field is OPTIONAL and appears at most once; for this extension, this field MUST be present if that value is available.
Original-Mail-From:
Syntax as specified in [ARF]. Furthermore, [ARF] specifies this field is OPTIONAL and appears at most once; for this extension, this field MUST be present if that value is available.
Source-IP:
Syntax as specified in [ARF]. Furthermore, [ARF] specifies this field is OPTIONAL and appears at most once; for this extension, this field MUST be present if that value is available.
Reported-Domain:
Syntax as specified in [ARF]. Furthermore, [ARF] specifies this field is OPTIONAL and appears at most once; for this extension, this field MUST be present if such a value is available.
Delivery-Result:
As specified in Section 3.2.1. This field is OPTIONAL, but MUST NOT appear more than once. If present, it SHOULD indicate the outcome of the message in some meaningful way, but might be redacted to "other" for local policy reasons.

The third MIME part of the message is either of type "message/rfc822" (as defined in [MIME-TYPES]) or "text/rfc822-headers" (as defined in [REPORT]) and contains a copy of the entire header block from the original message. This part MUST be included (contrary to [REPORT], which makes it optional).

For privacy reasons, report generators might need to redact portions of a reported message such as the end user whose complaint action resulted in the report. See [I-D.IETF-MARF-REDACTION] for a discussion of this.

3.2. New ARF Header Field Names

The following new ARF field names are defined as extensions to Section 3.1 of [ARF].

3.2.1. Required For All Reports

Auth-Failure:
Indicates the failure from an email authentication method that is being reported. The list of valid values is enumerated in Section 3.3.

3.2.2. Optional For All Reports

Delivery-Result:
The final message disposition that was enacted by the ADMD generating the report and MUST NOT appear more than once. Possible values are:
delivered:
The message was delivered (not specific as to where).
spam:
The message was delivered to the recipient's spam folder (or equivalent).
policy:
The message was not delivered to the intended inbox due to a failure from an email authentication method. The specific action taken is not specified.
reject:
The message was rejected.
other:
The message had a final disposition not covered by one of the above values.

3.2.3. Required For DKIM Reports

DKIM-Domain:
The domain that signed the message, taken from the "d=" tag of the signature.
DKIM-Identity:
The identity of the signature that failed verification, taken from the "i=" tag of the signature.
DKIM-Selector:
The selector of the signature that failed verification, taken from the "s=" tag of the signature.

3.2.4. Optional For DKIM Reports

DKIM-Canonicalized-Header:
A base64 encoding of the canonicalized header of the message as generated by the verifier.
DKIM-Canonicalized-Body:
A base64 encoding of the canonicalized body of the message as generated by the verifier. The encoded content MUST be limited to those octets that contribute to the DKIM body hash (i.e., the value of the "l=" tag; see Section 3.7 of [DKIM]).

If DKIM-Canonicalized-Header and DKIM-Canonicalized-Body encode redacted data, they MUST NOT be included. Otherwise, they SHOULD be included. The data presented there have to be exactly the canonicalized header and body as defined by [DKIM] and computed at the verifier. This is because these fields are intended to aid in identifying message alterations that invalidate DKIM signatures in transit. Including redacted data in them renders the data unusable. (See also Section 3.1 and Section 6.6 for further discussion.)

3.2.5. Required For ADSP Reports

DKIM-ADSP-DNS: Includes the ADSP policy used to obtain the verifier's ADSP result.

3.2.6. Required For SPF Reports

SPF-DNS MUST appear once for every SPF record used to obtain the SPF result.

3.3. Authentication Failure Types

The list of defined email authentication failure types used in the "Auth-Failure:" header field (defined above), is as follows:

adsp:
The message did not conform to the author domain's published [ADSP] signing practises. The DKIM-ADSP-DNS field MUST be included in the report.
bodyhash:
The body hash in the signature and the body hash computed by the verifier did not match. The DKIM-Canonicalized-Body field SHOULD be included in the report (see Section 3.2.4).
revoked:
The DKIM key referenced by the signature on the message has been revoked. The DKIM-Domain and DKIM-Selector fields MUST be included in the report.
signature:
The DKIM signature on the message did not successfully verify against the header hash and public key. The DKIM-Domain and DKIM-Selector fields MUST be included in the report, and the DKIM-Canonicalized-Header field SHOULD be included in the report (see Section 3.2.4).
spf:
The evaluation of the author domain's SPF record produced a "fail", "softfail", "temperror" or "permerror" result.

Supplementary data MAY be included in the form of [MAIL]-compliant comments. For example, "Auth-Failure: adsp" could be augmented by a comment to indicate that the failed message was rejected because it was not signed when it should have been. See Appendix Appendix B for an example.

4. Syntax For Added ARF Header Fields

The [ABNF] definitions for the new fields are as follows:

  auth-failure = "Auth-Failure:" [CFWS] token [CFWS] CRLF
               ; "token" must be a registered email authentication
               ; failure type as specified elsewhere in this memo
               ; "token" is defined in [MIME]
               ; "CFWS" is defined in [MAIL]

  delivery-result = "Delivery-Result:" [CFWS]
                    ( "delivered" / "spam" /"policy" /
                      "reject" / "other" ) [CFWS] CRLF

  dkim-header = "DKIM-Canonicalized-Header:" [CFWS]
                base64string CRLF
              ; "base64string" is defined in [DKIM]

  dkim-sig-domain = "DKIM-Domain:" [CFWS] dkim-domain [CFWS]
                    CRLF
                  ; "dkim-domain" is defined in [DKIM]

  dkim-identity = "DKIM-Identity:" [CFWS] [ local-part ] "@"
                  domain-name [CFWS] CRLF
                ; "local-part" is defined in [MAIL]

  dkim-selector = "DKIM-Selector:" [CFWS] token [CFWS] CRLF

  dkim-adsp-dns = "DKIM-ADSP-DNS:" [CFWS]
                  quoted-string [CFWS] CRLF
                ; "quoted-string" is defined in [MAIL]

  dkim-body = "DKIM-Canonicalized-Body:" [CFWS]
              base64string CRLF

  dkim-selector-dns = "DKIM-Selector-DNS:" [CFWS]
                      quoted-string [CFWS] CRLF

  spf-dns = "SPF-DNS:" : { "txt" / "spf" } [FWS] ":" [FWS] 
            domain [FWS] ":" [FWS] quoted-string
		

5. IANA Considerations

As required by [IANA], this section contains registry information for the new tag, and the extension to [ARF].

5.1. Updates to ARF Feedback Types

The following feedback type is added to the Feedback Report Feedback Type Registry:

    Feedback Type: auth-failure
    Description: email authentication failure report
    Registration: (this document)
			

5.2. Updates to ARF Header Field Names

The following headers are added to the Feedback Report Header Names Registry:

    Field Name: Auth-Failure
    Description: Type of email authentication method failure
    Multiple Appearances: No
    Related "Feedback-Type": auth-failure
			
    Field Name: Delivery-Result
    Description: Final disposition of the subject message
    Multiple Appearances: No
    Related "Feedback-Type": auth-failure
			
    Field Name: DKIM-ADSP-DNS
    Description: Retrieved DKIM ADSP record
    Multiple Appearances: No
    Related "Feedback-Type": auth-failure
			
    Field Name: DKIM-Canonicalized-Body
    Description: Canonicalized body, per DKIM
    Multiple Appearances: No
    Related "Feedback-Type": auth-failure
			
    Field Name: DKIM-Canonicalized-Header
    Description: Canonicalized header, per DKIM
    Multiple Appearances: No
    Related "Feedback-Type": auth-failure
			
    Field Name: DKIM-Domain
    Description: DKIM signing domain from "d=" tag
    Multiple Appearances: No
    Related "Feedback-Type": auth-failure
			
    Field Name: DKIM-Identity
    Description: Identity from DKIM signature
    Multiple Appearances: No
    Related "Feedback-Type": auth-failure
			
    Field Name: DKIM-Selector
    Description: Selector from DKIM signature
    Multiple Appearances: No
    Related "Feedback-Type": auth-failure
			
    Field Name: DKIM-Selector-DNS
    Description: Retrieved DKIM key record
    Multiple Appearances: No
    Related "Feedback-Type": auth-failure
			
    Field Name: SPF-DNS
    Description: Retrieved SPF record
    Multiple Appearances: No
    Related "Feedback-Type": auth-failure
			

6. Security Considerations

Security issues with respect to these reports are similar to those found in [DSN].

6.1. Inherited Considerations

Implementers are advised to consider the Security Considerations sections of [DKIM], [ADSP] [SPF] and [ARF].

6.2. Forgeries

These reports may be forged as easily as ordinary Internet electronic mail. User agents and automatic mail handling facilities (such as mail distribution list exploders) that wish to make automatic use of DSNs of any kind should take appropriate precautions to minimize the potential damage from denial-of-service attacks.

Security threats related to forged DSNs include the sending of:

  1. A falsified email authentication method failure notification when the message was in fact delivered to the indicated recipient;
  2. Falsified signature information, such as selector, domain, etc.

Perhaps the simplest means of mitigating this threat is to assert that these reports should themselves be signed with something like DKIM. On the other hand, if there's a problem with the DKIM infrastructure at the verifier, signing DKIM failure reports may produce reports that aren't trusted or even accepted by their intended recipients.

6.3. Automatic Generation

Automatic generation of these reports by verifying agents can cause a denial-of-service attack when a large volume of e-mail is sent that causes email authentication failures for whatever reason.

Limiting the rate of generation of these messages may be appropriate but threatens to inhibit the distribution of important and possibly time-sensitive information.

In general ARF feedback loop terms, it is suggested that report generators only create these (or any) ARF reports after an out-of-band arrangement has been made between two parties. This mechanism then becomes a way to adjust parameters of an authorized abuse report feedback loop that is configured and activated by private agreement rather than starting to send them automatically based solely on discovered data in the DNS.

6.4. Envelope Sender Selection

In the case of transmitted reports in the form of a new message, it is necessary to consider the construction and transmission of the message so as to avoid amplification attacks, deliberate or otherwise. See Section 5 of [ARF] for further information.

6.5. Reporting Multiple Incidents

If it is known that a particular host generates abuse reports upon certain incidents, an attacker could forge a high volume of messages that will trigger such a report. The recipient of the report could then be innundated with reports. This could easily be extended to a distributed denial-of-service attack by finding a number of report-generating servers.

The incident count referenced in [ARF] provides a limited form of mitigation. The host generating reports may elect to send reports only periodically, with each report representing a number of identical or near-identical incidents. One might even do something inverse-exponentially, sending reports for each of the first ten incidents, then every tenth incident up to 100, then every 100th incident up to 1000, etc. until some period of relative quiet after which the limitation resets.

The use of this for "near-identical" incidents in particular causes a degradation in reporting quality, however. If for example a large number of pieces of spam arrive from one attacker, a reporting agent may decide only to send a report about a fraction of those messages. While this averts a flood of reports to a system administrator, the precise details of each incident are similarly not sent.

6.6. Redaction of Data in DKIM Reports

This memo requires that the canonicalized header and body be returned without being subject to redaction when a DKIM failure is being reported. This is necessary to ensure that the returned canonicalized forms are useful for debugging as they must be compared to the equivalent form at the signer. If a message is altered in transit, and the returned data are also redacted, the redacted portion and the altered portion may overlap, rendering the comparison results meaningless. However, unredacted data can leak information the reporting entity considers to be private. It is for this reason the return of the canonicalized forms is not required.

7. References

7.1. Normative References

[ABNF] Crocker, D. and P. Overell, "Augmented BNF for Syntax Specifications: ABNF ", RFC 5234, January 2008.
[ADSP] Allman, E., Delany, M., Fenton, J. and J. Levine, "DKIM Sender Signing Practises ", RFC 5617, August 2009.
[ARF] Shafranovich, Y., Levine, J. and M. Kucherawy, "An Extensible Format for Email Feedback Reports ", RFC 5965, August 2010.
[AUTH-RESULTS] Kucherawy, M., "Message Header Field for Indicating Message Authentication Status ", RFC 5451, April 2009.
[DKIM] Crocker, D., Hansen, T. and M. Kucherawy, "DomainKeys Identified Mail (DKIM) Signatures ", RFC 6376, September 2011.
[IANA] Alvestrand, H. and T. Narten, "Guidelines for Writing an IANA Considerations Section in RFCs ", RFC 5226, May 2008.
[KEYWORDS] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels ", RFC 2119, March 1997.
[MAIL] Resnick, P., "Internet Message Format ", RFC 5322, October 2008.
[MIME] Freed, N. and N. Borenstein, "Multipurpose Internet Mail Extensions (MIME) Part One: Format of Internet Message Bodies ", RFC 2045, November 1996.
[MIME-TYPES] Freed, N. and N. Borenstein, "Multipurpose Internet Mail Extensions (MIME) Part Two: Media Types ", RFC 2046, November 1996.
[I-D.IETF-MARF-REDACTION] Falk, JD, "Redaction of Potentially Sensitive Data from Mail Abuse Reports", I-D draft-ietf-marf-redaction, March 2011.
[REPORT] Vaudreuil, G., "The Multipart/Report Content Type for the Reporting of Mail System Administrative Messages ", RFC 3462, January 2003.
[SPF] Wong, M. and W. Schlitt, "Sender Policy Framework (SPF) for Authorizing Use of Domains in E-Mail, Version 1 ", RFC 4408, April 2006.

7.2. Informative References

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

Appendix A. Acknowledgements

The authors wish to acknowledge the following for their review and constructive criticism of this proposal: Frank Ellerman, J.D. Falk, Scott Kitterman, John Levine, Mike Markley, Kelly Wanser, Murray Kucherawy and Alessandro Vesely.

Appendix B. Example

This section contains an example of the use of the extension defined by this memo.

Appendix B.1. Example Use of ARF Extension Headers

An ARF-formatted report using the proposed ARF extension fields:

Message-ID: <433689.81121.example@mta.mail.receiver.example>
From: "SomeISP Antispam Feedback" <feedback@mail.receiver.example>
To: arf-failure@sender.example
Subject: FW: You have a new bill from your bank
Date: Sat, 8 Oct 2011 15:15:59 -0500 (CDT)
MIME-Version: 1.0
Content-Type: multipart/report;
  boundary="------------Boundary-00=_3BCR4Y7kX93yP9uUPRhg";
  report-type=feedback-report
Content-Transfer-Encoding: 7bit

--------------Boundary-00=_3BCR4Y7kX93yP9uUPRhg
Content-Type: text/plain; charset="us-ascii"
Content-Disposition: inline
Content-Transfer-Encoding: 7bit

This is an authentication failure report for an email message
received from a.sender.example on 8 Oct 2011 20:15:58 +0000 (GMT).
For more information about this format please see [this memo].

--------------Boundary-00=_3BCR4Y7kX93yP9uUPRhg
Content-Type: message/feedback-report
Content-Transfer-Encoding: 7bit

Feedback-Type: auth-failure
User-Agent: Someisp!Mail-Feedback/1.0
Version: 1
Original-Mail-From: anexample.reply@a.sender.example
Original-Envelope-Id: o3F52gxO029144
Authentication-Results: mta1011.mail.tp2.receiver.example;
 dkim=fail (bodyhash) header.d=sender.example
Auth-Failure: bodyhash
DKIM-Canonicalized-Body: VGhpcyBpcyBhIG1lc3NhZ2UgYm9ke
 SB0aGF0IGdvdCBtb2RpZmllZCBpbiB0cmFuc2l0Lgo=
DKIM-Domain: sender.example
DKIM-Identity: @sender.example
DKIM-Selector: testkey
Arrival-Date: 8 Oct 2011 20:15:58 +0000 (GMT)
Source-IP: 192.0.2.1
Reported-Domain: a.sender.example
Reported-URI: http://www.sender.example/

--------------Boundary-00=_3BCR4Y7kX93yP9uUPRhg
Content-Type: text/rfc822-headers
Content-Transfer-Encoding: 7bit

Authentication-Results: mta1011.mail.tp2.receiver.example;
 dkim=fail (bodyhash) header.d=sender.example;
 spf=pass smtp.mailfrom=anexample.reply@a.sender.example
Received: from smtp-out.sender.example
 by mta1011.mail.tp2.receiver.example
 with SMTP id oB85W8xV000169;
 Sat, 08 Oct 2011 13:15:58 -0700 (PDT)
DKIM-Signature: v=1; c=relaxed/simple; a=rsa-sha256;
 s=testkey; d=sender.example; h=From:To:Subject:Date;
 bh=2jUSOH9NhtVGCQWNr9BrIAPreKQjO6Sn7XIkfJVOzv8=;
 b=AuUoFEfDxTDkHlLXSZEpZj79LICEps6eda7W3deTVFOk4yAUoqOB
 4nujc7YopdG5dWLSdNg6xNAZpOPr+kHxt1IrE+NahM6L/LbvaHut
 KVdkLLkpVaVVQPzeRDI009SO2Il5Lu7rDNH6mZckBdrIx0orEtZV
 4bmp/YzhwvcubU4=
Received: from mail.sender.example
 by smtp-out.sender.example
 with SMTP id o3F52gxO029144;
 Sat, 08 Oct 2011 13:15:31 -0700 (PDT)
Received: from internal-client-001.sender.example
 by mail.sender.example
 with SMTP id o3F3BwdY028431;
 Sat, 08 Oct 2011 13:15:24 -0700 (PDT)
Date: Sat, 8 Oct 2011 16:15:24 -0400 (EDT)
Reply-To: anexample.reply@a.sender.example
From: anexample@a.sender.example
To: someuser@receiver.example
Subject: You have a new bill from your bank
Message-ID: <87913910.1318094604546@out.sender.example>

--------------Boundary-00=_3BCR4Y7kX93yP9uUPRhg--


				

Example 1: Example ARF report using these extensions

This example ARF message is making the following assertion:

Author's Address

Hilda L. Fontana 3579 E. Foothill Blvd., suite 282 Pasadena, CA 91107 US Phone: +1 626 676 8852 EMail: hilda@hfontana.com