Internet Engineering Task Force (IETF) S. Bosch Request for Comments: 7352 September 2014 Category: Standards TrackAugust 2014ISSN: 2070-1721 Sieve Email Filtering: Detecting Duplicate Deliveries Abstract This document defines a new test command, "duplicate", for the Sieve email filtering language. This test adds the ability to detect duplications. The main application for this new test is handling duplicate deliveries commonly caused by mailing list subscriptions or redirected mail addresses. The detection is normally performed by matching the message ID to an internal list of message IDs from previously delivered messages. For more complex applications, the "duplicate" test can also use the content of a specific header field or other parts of the message. Status of This Memo This is an Internet Standards Track document. This document is a product of the Internet Engineering Task Force (IETF). It represents the consensus of the IETF community. It has received public review and has been approved for publication by the Internet Engineering Steering Group (IESG). Further information on Internet Standards is available in Section 2 of RFC 5741. Information about the current status of this document, any errata, and how to provide feedback on it may be obtained at http://www.rfc-editor.org/info/rfc7352. Copyright Notice Copyright (c) 2014 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. . . . . . . . . . . . . . . . . . . . . . . . 2....................................................2 2. Conventions Used in This Document. . . . . . . . . . . . . . 3...............................3 3. Test "duplicate". . . . . . . . . . . . . . . . . . . . . . 3................................................3 3.1. Arguments ":header" and ":uniqueid". . . . . . . . . . . 4........................5 3.2. Argument ":handle". . . . . . . . . . . . . . . . . . . 6.........................................7 3.3. Arguments ":seconds" and ":last". . . . . . . . . . . . 7...........................8 3.4. Interaction with Other Sieve Extensions. . . . . . . . . 8....................9 4. Sieve Capability Strings. . . . . . . . . . . . . . . . . . 8........................................9 5. Examples. . . . . . . . . . . . . . . . . . . . . . . . . . 8........................................................9 5.1. Example 1. . . . . . . . . . . . . . . . . . . . . . . . 8..................................................9 5.2. Example 2. . . . . . . . . . . . . . . . . . . . . . . . 8.................................................10 5.3. Example 3. . . . . . . . . . . . . . . . . . . . . . . . 9.................................................11 5.4. Example 4. . . . . . . . . . . . . . . . . . . . . . . . 10.................................................12 6. Security Considerations. . . . . . . . . . . . . . . . . . . 11........................................12 7. IANA Considerations. . . . . . . . . . . . . . . . . . . . . 12............................................13 8. Acknowledgements. . . . . . . . . . . . . . . . . . . . . . 12...............................................14 9. References. . . . . . . . . . . . . . . . . . . . . . . . . 12.....................................................14 9.1. Normative References. . . . . . . . . . . . . . . . . . 12......................................14 9.2. Informative References. . . . . . . . . . . . . . . . . 13....................................15 1. Introduction This document specifies an extension to the Sieve filtering language defined by RFC 5228 [SIEVE]. It adds a test to track whether or not a text string was seen before by the delivery agent in an earlier execution of the Sieve script. This can be used to detect and handle duplicate message deliveries. Duplicate deliveries are a common side effect of being subscribed to a mailing list. For example, if a member of the list decides to reply to both the user and the mailing list itself, the user will often get one copy of the message directly and another through the mailing list. Also, if someone crossposts over several mailing lists to which the user is subscribed, the user will likely receive a copy from each of those lists. In another scenario, the user has several redirected mail addresses all pointing to his main mail account. If one of the user's contacts sends the message to more than one of those addresses, the user will likely receive more than a single copy. Using the "duplicate" extension, users have the means to detect and handle such duplicates (e.g., by discarding them, marking them as "seen", or putting them in a special folder). Duplicate messages are normally detected using the Message-ID header field, which is required to be unique for each message. However, the "duplicate" test is flexible enough to use different criteria for defining what makes a message a duplicate (e.g., using the subject line or parts of the message body). Other applications of this new test command are also possible, as long as the tracked unique value is a string. 2. Conventions Used in This Document 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]. Conventions for notations are as in Section 1.1 of [SIEVE], including use of the "Usage:" label for the definition of action and tagged arguments syntax. 3. Test "duplicate" Usage: "duplicate" [":handle" <handle: string>] [":header" <header-name: string> / ":uniqueid" <value: string>] [":seconds" <timeout: number>] [":last"] The "duplicate" test identifies the message by a "unique ID" and, using that unique ID, keeps track of which messages were seen by a "duplicate" test during an earlier Sieve execution. In its basic form, the test gets the unique ID from the content of the message's Message-IDheader.header field. The "duplicate" test evaluates to "true" if the message was seen before, and it evaluates to "false" if it was not. As a side effect, the "duplicate" test adds the unique ID to an internalduplicate trackingduplicate-tracking list once the Sieve execution finishes successfully. The first time a particular unique ID is seen, the message is not a duplicate, and the unique ID is added to the tracking list. If a future Sieve execution sees a message whose unique ID appears in the tracking list, that test will evaluate to "true", and that message will be considered a duplicate. Note that this side effect is performed only when the "duplicate" test is actually evaluated. If the "duplicate" test is nested in a control structure or if it is not the first item of an "allof" or "anyof" test list, its evaluation depends on the result of preceding tests, which may produce unexpected results. Implementations MUST only update the internalduplicate trackingduplicate-tracking list when the Sieve script execution finishes successfully. If failing script executions add the unique ID to theduplicate trackingduplicate-tracking list, all "duplicate" tests in the Sieve script would erroneously yield "true" for the next delivery attempt of the same message. This can -- depending on the action taken for a duplicate -- easily lead to discarding the message without further notice. However, deferring the definitive modification of the tracking list to the end of a successful Sieve script execution is not without problems. It can cause a race condition when a duplicate message is delivered in parallel before the tracking list is updated. This way, a duplicate message could be missed by the "duplicate" test. More complex implementations could use a locking mechanism to prevent this problem. But, irrespective of what implementation is chosen, situations in which the "duplicate" test erroneously yields "true" MUST be prevented. The "duplicate" test MUST only check for duplicates amongst unique ID values encountered in previous executions of the Sieve script; it MUST NOT consider ID values encountered earlier in the current Sieve script execution as potential duplicates. This means that all "duplicate" tests in a Sieve script execution, including those located in scripts included using the "include" [INCLUDE] extension, MUST always yield the same result if the arguments are identical. The Message-ID header field is assumed to be globally unique as required in Section 3.6.4 of RFC 5322 [IMAIL]. In practice, this assumption may not always prove to be true. The "duplicate" test does not deal with this situation, which means that false duplicates may be detected in this case. However, the user can address such situations by specifying an alternative means of message identification using the ":header" or the ":uniqueid" argument, as described in the next section. 3.1. Arguments ":header" and ":uniqueid" Duplicate tracking involves determining the unique ID for a given message and checking whether that unique ID is in theduplicate trackingduplicate-tracking list. The unique ID for a message is determined as follows: o When neither the ":header" argument nor the ":uniqueid" argument is used, the unique ID is the content of the message's Message-ID header field. o When the ":header" argument is used, the unique ID is the content of the specified header field in the message. The header field name is not part of the resulting unique ID; it consists only of the field value. o When the ":uniqueid" argument is used, the unique ID is the string parameter that is specified with the argument. The ":header" and ":uniqueid" arguments are mutually exclusive; specifying both for a single "duplicate" test command MUST trigger an error. The syntax rules for the header name parameter of the ":header" argument are specified in Section 2.4.2.2 of RFC 5228 [SIEVE]. Note that implementations MUST NOT trigger an error for an invalid header name. Instead, the "duplicate" test MUST yield "false" unconditionally in this case. The parameter of the ":uniqueid" argument can be any string. If the tracked unique ID value is extracted directly from a message header field (i.e., when the ":uniqueid" argument is not used), the following operations MUST be performed before the actual duplicate verification: o Unfold the header line as described in Section 2.2.3 of RFC 5322 [IMAIL] (see also Section 2.4.2.2 of RFC 5228 [SIEVE]). o If possible, convert the header value to Unicode, encoded as UTF-8 (see Section 2.7.2 of RFC 5228 [SIEVE]). If conversion is not possible, the value is left unchanged. o Trim leading and trailing whitespace from the header value (see Section 2.2 of RFC 5228 [SIEVE]). Note that these rules also apply to the Message-ID header field used by the basic "duplicate" test without a ":header" or ":uniqueid" argument. When the ":uniqueid" argument is used, any normalization needs to be done in the Sieve script itself as the unique ID is created. If the header field specified using the ":header" argument exists multiple times in the message, extraction of the unique ID MUST use only the first occurrence. This is true whether or not multiple occurrences are allowed by Section 3.6 of RFC 5322 [IMAIL]. If the specified header field is not present in the message, the "duplicate" test MUST yield "false" unconditionally. In that case, theduplicate trackingduplicate-tracking list is left unmodified by this test, since no unique ID value is available. The same rules apply with respect to the Message-ID header field for the basic "duplicate" test without a ":header" or ":uniqueid" argument, since that header field could also be missing or occur multiple times. The string parameter of the ":uniqueid" argument can be composed from arbitrary text extracted from the message using the "variables" [VARIABLES] extension. To extract text from the message body, the "foreverypart" and "extracttext" [SIEVE-MIME] extensions need to be used as well. This provides the user with detailed control over how the message's unique ID is created. The unique ID MUST be matched case-sensitively with the contents of theduplicate trackingduplicate-tracking list, irrespective of how the unique ID was determined. To achieve case-insensitive behavior when the ":uniqueid" argument is used, the "set" command added by the "variables" [VARIABLES] extension can be used to normalize the unique ID value to upper or lower case. 3.2. Argument ":handle" The "duplicate" test MUST track a unique ID value independent of its source. This means that all values in theduplicateduplicate-tracking list should be used for duplicate testing, regardless of whether they were obtained from the Message-IDheader,header field, from an arbitrary header specified using the ":header" argument, or explicitly from the ":uniqueid" argument. The following three examples are equivalent and match the same entry in theduplicate trackingduplicate-tracking list: require "duplicate"; if duplicate { discard; } require "duplicate"; if duplicate :header "message-id" { discard; } require ["duplicate", "variables"]; if header :matches "message-id" "*" { if duplicate :uniqueid "${0}" { discard; } } The ":handle" argument can be used to override this default behavior. The ":handle" argument separates a "duplicate" test from otherduplicate"duplicate" tests with a different or omitted ":handle" argument. Using the ":handle" argument, unrelated "duplicate" tests can be prevented from interfering with each other: a message is only recognized as a duplicate when the tracked unique ID was seen before in an earlier script execution by a "duplicate" test with the same ":handle" argument. NOTE: The necessary mechanism to track duplicate messages is very similar to the mechanism that is needed for tracking duplicate responses for the "vacation" action [VACATION]. One way to implement the necessary mechanism for the "duplicate" test is therefore to store a hash of the tracked unique ID and, if provided, the ":handle" argument. 3.3. Arguments ":seconds" and ":last" Implementations SHOULD let entries in the tracking list expire after a short period of time. The user can explicitly control the length of this expiration time by means of the ":seconds" argument, which accepts an integer value specifying the timeout value in seconds. If the ":seconds" argument is omitted, an appropriate default value MUST be used. A default expiration time of around 7 days is usually appropriate. Sites SHOULD impose a maximum limit on the expiration time. If that limit is exceeded by the ":seconds" argument, the maximum value MUST be silently substituted; exceeding the limit MUST NOT produce an error. If the ":seconds" argument is zero, the "duplicate" test MUST yield "false" unconditionally. When the ":last" argument is omitted, the expiration time for entries in theduplicate trackingduplicate-tracking list MUST be measured relative to the moment at which the entry was first created (i.e., at the end of the successful script execution during which the "duplicate" test returned "false" for a message with that particular unique ID value). This means that subsequent duplicate messages have no influence on the time at which the entry in theduplicate trackingduplicate-tracking list finally expires. In contrast, when the ":last" argument is specified, the expiration time MUST be measured relative to the last script execution during which the "duplicate" test was used to check the entry's unique ID value. This effectively means that the entry in theduplicateduplicate- tracking list will not expire while duplicate messages with the corresponding unique ID keep being delivered within intervals smaller than the expiration time. It is possible to write Sieve scripts where, during a single execution, more than one "duplicate" test is evaluated with the same unique ID value and ":handle" argument but different ":seconds" or ":last" arguments. The resulting behavior is left undefined by this specification, so such constructs should be avoided. Implementations MAY choose to use the ":seconds" and ":last" arguments from the "duplicate" test that was evaluated last. 3.4. Interaction with Other Sieve Extensions The "duplicate" test does not support either the "index" [DATE-INDEX] or "mime" [SIEVE-MIME] extensions directly, meaning that none of the ":index", ":mime", or associated arguments are added to the "duplicate" test when these extensions are active. The ":uniqueid" argument can be used in combination with the "variables" [VARIABLES] extension to achieve the same result indirectly. Normally, Sieve scripts are executed at final delivery. However, with the "imapsieve" [IMAPSIEVE] extension, Sieve scripts are invoked when the IMAP [IMAP] server performs operations on the message store (e.g., when messages are uploaded, flagged, or moved to another location). The "duplicate" test is devised for use at final delivery, and the semantics in the "imapsieve" context are left undefined. Therefore, implementations SHOULD NOT allow the "duplicate" test to be used in the context of "imapsieve". 4. Sieve Capability Strings A Sieve implementation that defines the "duplicate" test command will advertise the capability string "duplicate". 5. Examples 5.1. Example 1 In this basic example, message duplicates are detected by tracking the Message-IDheader.header field. Duplicate deliveries are stored in a special folder contained in the user's Trash folder. If the folder does not exist, it is created automatically using the "mailbox" [MAILBOX] extension. This way, the user has a chance to recover messages when necessary. Messages that are not recognized as duplicates are stored in the user's inbox as normal. require ["duplicate", "fileinto", "mailbox"]; if duplicate { fileinto :create "Trash/Duplicate"; } 5.2. Example 2 This example shows a more complex use of the "duplicate" test. The user gets network alerts from a set of remote automated monitoring systems. Several notifications can be received about the same event from different monitoring systems. The Message-ID header field of these messages is different, because these are all distinct messages from different senders. To avoid being notified more than a single time about the same event, the user writes the following script: require ["duplicate", "variables", "imap4flags", "fileinto"]; if header :matches "subject" "ALERT: *" { if duplicate :seconds 60 :uniqueid "${1}" { setflag "\\seen"; } fileinto "Alerts"; } The subjects of the notification message are structured with a predictable pattern that includes a description of the event. In the script above, the "duplicate" test is used to detect duplicate alert events. The message subject is matched against a pattern, and the event description is extracted using the "variables" [VARIABLES] extension. If a message with that event in the subject was received before, but more than a minute ago, it is not detected as a duplicate due to the specified ":seconds" argument. In the event of a duplicate, the message is marked as "seen" using the "imap4flags" [IMAP4FLAGS] extension. All alert messages are put into the "Alerts" mailbox, irrespective of whether those messages are duplicates or not. 5.3. Example 3 This example shows how the "duplicate" test can be used to limit the frequency of notifications sent using the "enotify" [NOTIFY] extension. Consider the following scenario: a mail user receives Extensible Messaging and Presence Protocol (XMPP) notifications [NOTIFY-XMPP] about new mail through Sieve, but sometimes a single contact sends many messages in a short period of time. Now the user wants to prevent being notified of all of those messages. The user wants to be notified about messages from each person at most once per 30 minutes and writes the following script: require ["variables", "envelope", "enotify", "duplicate"]; if envelope :matches "from" "*" { set "sender" "${1}"; } if header :matches "subject" "*" { set "subject" "${1}"; } if not duplicate :seconds 1800 :uniqueid "${sender}" { notify :message "[SIEVE] ${sender}: ${subject}" "xmpp:user@im.example.com"; } The example shown above uses the message envelope sender rather than the Message-ID header field as the unique ID for duplicate tracking. The example can be extended to allow more messages from the same sender in close succession as long as the discussed subject is different. This can be achieved as follows: require ["variables", "envelope", "enotify", "duplicate"]; if envelope :matches "from" "*" { set "sender" "${1}"; } if header :matches "subject" "*" { set "subject" "${1}"; } # account for 'Re:' prefix if string :comparator "i;ascii-casemap" :matches "${subject}" "Re:*" { set "subject" "${1}"; } if not duplicate :seconds 1800 :uniqueid "${sender} ${subject}" { notify :message "[SIEVE] ${sender}: ${subject}" "xmpp:user@im.example.com"; } This uses a combination of the message envelope sender and the subject of the message as the unique ID for duplicate tracking. 5.4. Example 4 For this example, the mail user uses the "duplicate" test for two separate applications: for discarding duplicate events from a notification system and for marking certain follow-up messages in a software support mailing as "seen" using the "imap4flags" [IMAP4FLAGS] extension. The two "duplicate" tests in the following example each use a different header to identify messages. However, these "X-Event-ID" and "X-Ticket-ID" headers can have similar values in this case (e.g., both based on a time stamp), meaning that one "duplicate" test can erroneously detect duplicates based on ID values tracked by the other. Therefore, the user wants to prevent the second "duplicate" test from matching ID values tracked by the first "duplicate" test and vice versa. This is achieved by specifying different ":handle" arguments for these tests. require ["duplicate", "imap4flags"]; if duplicate :header "X-Event-ID" :handle "notifier" { discard; } if allof ( duplicate :header "X-Ticket-ID" :handle "support", address "to" "support@example.com", header :contains "subject" "fileserver") { setflag "\\seen"; } 6. Security Considerations A flood of unique messages could cause theduplicate trackingduplicate-tracking list to grow indefinitely. Therefore, implementations SHOULD limit the number of entries in theduplicate trackingduplicate-tracking list. When limiting the number of entries, implementations SHOULD discard the oldest ones first. Scripts using theduplicate"duplicate" test evaluation should be aware thatMessage-IDsmessage IDs are not necessarily unique, either through the fault of benign generators or attackers injecting a message with the properties used by the duplicate Sieve filter at some point prior to the Sieve filter. Therefore, scripts are well advised to be conservative with respect to actions taken when duplicate messages are identified only byMessage-ID.message ID. The list of unique IDs used for duplicate tracking can include privacy-sensitive information, such asMessage-IDmessage ID values, content of subject lines, and content extracted from message bodies. Implementations SHOULD protect that information by obscuring it through hashing (see the note at the end of Section 3.2) and/or by storing it with a level of access control equivalent to that of the messages themselves. These measures will not prevent an entity that has access to theduplicate trackingduplicate-tracking list from querying whether messages with certain unique ID values were received. As this operation is the essence of the "duplicate" test, this cannot be prevented and may violate the expectations of the user. For example, a user who deletes a message from the server may expect that no record of it remains on the server, but that will not be true if itsMessage-IDmessage ID is persisted on the server in theduplicate trackingduplicate-tracking list. It's notable, however, that server logs will often store the information present on theduplicate trackingduplicate-tracking list anyway and probably would expose plaintextMessage-IDsmessage IDs for a much longer period than this mechanism would. Users of email services that intentionally delete such logs with the intent of limiting traceability should be made aware that use of theduplicate trackingduplicate-tracking mechanism re-exposes this information for the duration of the expiry interval. Therefore, a shorter default expiry interval may be appropriate in those situations. 7. IANA Considerations The following template specifies the IANA registration of the Sieve extension specified in this document: To: iana@iana.org Subject: Registration of new Sieve extension Capability name: duplicate Description: Adds test 'duplicate' that can be used to test whether a particular message is a duplicate, i.e., whether a copy of it was seen before by the delivery agent that is executing the Sieve script. RFC number: RFC 7352 Contact address: Sieve mailing list <sieve@ietf.org> This information has been added to the list of Sieve extensions given on <http://www.iana.org/assignments/sieve-extensions>. 8. Acknowledgements Thanks to Brian Carpenter, Cyrus Daboo, Arnt Gulbrandsen, Tony Hansen, Kristin Hubner, Barry Leiba, Alexey Melnikov, Subramanian Moonesamy, Tom Petch, Hector Santos, Robert Sparks, Aaron Stone, and Stefan Winter for reviews and suggestions. Special thanks to Ned Freed for his guidance and support. 9. References 9.1. Normative References [DATE-INDEX] Freed, N., "Sieve Email Filtering: Date and Index Extensions", RFC 5260, July 2008. [IMAIL] Resnick, P., Ed., "Internet Message Format", RFC 5322, October 2008. [IMAPSIEVE] Leiba, B., "Support for Internet Message Access Protocol (IMAP) Events in Sieve", RFC 6785, November 2012. [INCLUDE] Daboo, C. and A. Stone, "Sieve Email Filtering: Include Extension", RFC 6609, May 2012. [KEYWORDS] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. [SIEVE] Guenther, P. and T. Showalter, "Sieve: An Email Filtering Language", RFC 5228, January 2008. [SIEVE-MIME] Hansen, T. and C. Daboo, "Sieve Email Filtering: MIME Part Tests, Iteration, Extraction, Replacement, and Enclosure", RFC 5703, October 2009. [VARIABLES] Homme, K., "Sieve Email Filtering: Variables Extension", RFC 5229, January 2008. 9.2. Informative References [IMAP] Crispin, M., "INTERNET MESSAGE ACCESS PROTOCOL - VERSION 4rev1", RFC 3501, March 2003. [IMAP4FLAGS] Melnikov, A., "Sieve Email Filtering: Imap4flags Extension", RFC 5232, January 2008. [MAILBOX] Melnikov, A., "The Sieve Mail-Filtering Language -- Extensions for Checking Mailbox Status and Accessing Mailbox Metadata", RFC 5490, March 2009. [NOTIFY] Melnikov, A., Leiba, B., Segmuller, W., and T. Martin, "Sieve Email Filtering: Extension for Notifications", RFC 5435, January 2009. [NOTIFY-XMPP] Saint-Andre, P. and A. Melnikov, "Sieve Notification Mechanism: Extensible Messaging and Presence Protocol (XMPP)", RFC 5437, January 2009. [VACATION] Showalter, T. and N. Freed, "Sieve Email Filtering: Vacation Extension", RFC 5230, January 2008. Author's Address Stephan Bosch Enschede NL EMail: stephan@rename-it.nl