MARF Working Group | H.F. Fontana |
Internet-Draft | eCert Inc. |
Intended status: Standards Track | August 09, 2011 |
Expires: February 10, 2012 |
Authentication Failure Reporting using the Abuse Report Format
draft-ietf-marf-authfailure-report-01
This memo registers an extension report type to ARF to be used for reporting forensic information about messages that fail one or more message authentication schemes in use by the purported sender of the message.
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[ARF] defines a message format for sending reports of abuse in the messaging infrastructure, with an eye toward automating both the generating and consumption of those reports. This memo presents extensions to the Abuse Reporting Format (ARF) to allow for detailed reporting of message authentication failures.
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].
The ABNF token "qp-section" is imported from [MIME].
base64 is defined in [MIME].
The current report format defined in [ARF] lacks some specific features required to do effective sender authentication reporting. This section defines extensions to ARF to accommodate this requirement.
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:
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]).
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 Section 5 for a discussion of this.
The following new ARF field names are defined as extensions to Section 3.1 of [ARF].
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].
The list of defined authentication failure types, used in the "Auth-Failure:" header (defined above), is as follows:
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 examples.
The ABNF definitions for the new fields are as follows:
auth-failure = "Auth-Failure:" [CFWS] token [CFWS] CRLF ; "token" must be a registered authentication failure type ; as specified elsewhere in this memo delivery-result = "Delivery-Result:" [CFWS] ( "delivered" / "spam" /"policy" / "reject" / "other" ) [CFWS] CRLF dkim-header = "DKIM-Canonicalized-Header:" [CFWS] base64string CRLF ; "base64string" is imported from [DKIM] dkim-domain = "DKIM-Domain:" [CFWS] domain [CFWS] CRLF dkim-identity = "DKIM-Identity:" [CFWS] [ local-part ] "@" domain-name [CFWS] CRLF ; "local-part" is imported from [MAIL] dkim-selector = "DKIM-Selector:" [CFWS] token [CFWS] CRLF dkim-adsp-dns = "DKIM-ADSP-DNS:" [CFWS] quoted-string [CFWS] CRLF ; "quoted-string" is imported from [MAIL] dkim-body = "DKIM-Canonicalized-Body:" [CFWS] base64string CRLF dkim-selector-dns = "DKIM-Selector-DNS:" [CFWS] quoted-string [CFWS] CRLF spf-dns = "SPF-DNS:" [CFWS] quoted-string [CFWS] CRLF
For privacy considerations it might be the policy of a report generator to redact, or obscure, portions of the report that might identify an end user that caused the report to be generated. Precisely how this is done is unspecified in [ARF] as it will generally be a matter of local policy. That specification does admonish generators against being overly zealous with this practice, as obscuring too much data makes the report inactionable.
Previous redaction practices, such as replacing local-parts of addresses with a uniform string like "xxxxxxxx", often frustrated any kind of prioritizing or grouping of reports.
Generally, it is assumed that the recipient fields of a message (i.e. those containing recipient addresses), when copied into a report, are to be obscured to protect the identify of an end user that submitted a complaint about a message. However, it is also presumed that other data will be left intact, data that could be correlated against logs to determine the source of the message that drew a complaint.
See [I-D.IETF-MARF-REDACTION] for further details.
As required by [IANA-CONSIDERATIONS], this section contains registry information for the new tag, and the extension to [ARF].
The following feedback type is added to the Feedback Report Feedback Type Registry:
Feedback Type: auth-failure Description: sender authentication failure report Registration: (this document)
The following headers are added to the Feedback Report Header Names Registry:
Field Name: Auth-Failure Description: Type of authentication 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
Security issues with respect to these reports are similar to those found in [DSN].
Implementors are advised to consider the Security Considerations sections of [DKIM], [ADSP] [SPF] and [ARF].
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:
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.
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 sender 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.
In the case of transmitted reports in the form of a new message, it is necessary to construct the message so as to avoid amplification attacks, deliberate or otherwise. Thus, per Section 2 of [DSN], the envelope sender address of the report SHOULD be chosen to ensure that no delivery status reports will be issued in response to the report itself, and MUST be chosen so that these reports will not generate mail loops. Whenever an [SMTP] transaction is used to send a report, the MAIL FROM command MUST use a NULL return address, i.e. "MAIL FROM:<>".
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.
[DSN] | Moore, K. and G. Vaudreuil, "An Extensible Message Format for Delivery Status Notifications ", RFC 3464, January 2003. |
The authors wish to acknowledge the following for their review and constructive criticism of this proposal: Mike Markley, Kelly Wanser and Murray Kucherawy.
This section contains examples of the use of each the extension defined by this memo.
An ARF-formatted report using some of the proposed ARF extension fields:
From: arf-daemon@example.com To: recipient@example.net Subject: This is a test Date: Wed, 14 Apr 2010 12:17:45 -0700 (PDT) MIME-Version: 1.0 Content-Type: multipart/report; report-type=feedback-report; boundary="part1_13d.2e68ed54_boundary" --part1_13d.2e68ed54_boundary Content-Type: text/plain; charset="US-ASCII" Content-Transfer-Encoding: 7bit This is an email abuse report for an email message received from IP 192.0.2.1 on Wed, 14 Apr 2010 12:15:31 PDT. For more information about this format please see http://www.mipassoc.org/arf/. --part1_13d.2e68ed54_boundary Content-Type: message/feedback-report Feedback-Type: auth-failure User-Agent: SomeDKIMFilter/1.0 Version: 1.0 Original-Mail-From: <randomuser@example.net> Original-Rcpt-To: <user@example.com> Received-Date: Wed, 14 Apr 2010 12:15:31 -0700 (PDT) Source-IP: 192.0.2.1 Authentication-Results: mail.example.com; dkim=fail header.d=example.net Reported-Domain: example.net DKIM-Domain: example.net DKIM-Failure: bodyhash --part1_13d.2e68ed54_boundary Content-Type: message/rfc822 DKIM-Signature: v=1; c=relaxed/simple; a=rsa-sha256; s=testkey; d=example.net; h=From:To:Subject:Date; bh=2jUSOH9NhtVGCQWNr9BrIAPreKQjO6Sn7XIkfJVOzv8=; b=AuUoFEfDxTDkHlLXSZEpZj79LICEps6eda7W3deTVFOk4yAUoqOB 4nujc7YopdG5dWLSdNg6xNAZpOPr+kHxt1IrE+NahM6L/LbvaHut KVdkLLkpVaVVQPzeRDI009SO2Il5Lu7rDNH6mZckBdrIx0orEtZV 4bmp/YzhwvcubU4= Received: from smtp-out.example.net by mail.example.com with SMTP id o3F52gxO029144; Wed, 14 Apr 2010 12:15:31 -0700 (PDT) Received: from internal-client-001.example.com by mail.example.com with SMTP id o3F3BwdY028431; Wed, 14 Apr 2010 12:12:09 -0700 (PDT) From: randomuser@example.net To: user@example.com Date: Wed, 14 Apr 2010 12:12:09 -0700 (PDT) Subject: This is a test Hi, just making sure DKIM is working! --part1_13d.2e68ed54_boundary--
Example 3: Example ARF report using these extensions
This example ARF message is making the following assertion: