Network Working Group R. Siemborski
Request for Comments: 3656 Carnegie Mellon University
Category: Experimental December 2003
The Mailbox Update (MUPDATE)
Distributed Mailbox Database Protocol
Status of this Memo
This memo defines an Experimental Protocol for the Internet
community. It does not specify an Internet standard of any kind.
Discussion and suggestions for improvement are requested.
Distribution of this memo is unlimited.
Copyright Notice
Copyright (C) The Internet Society (2003). All Rights Reserved.
Abstract
As the demand for high-performance mail delivery agents increases, it
becomes apparent that single-machine solutions are inadequate to the
task, both because of capacity limits and that the failure of the
single machine means a loss of mail delivery for all users. It is
preferable to allow many machines to share the responsibility of mail
delivery.
The Mailbox Update (MUPDATE) protocol allows a group of Internet
Message Access Protocol (IMAP) or Post Office Protocol - Version 3
(POP3) servers to function with a unified mailbox namespace. This
document is intended to serve as a reference guide to that protocol.
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RFC 3656 MUPDATE Distributed Mailbox Database Protocol December 2003
1. Introduction
In order to support an architecture where there are multiple [IMAP,
POP3] servers sharing a common mailbox database, it is necessary to
be able to provide atomic mailbox operations, as well as offer
sufficient guarantees about database consistency.
The primary goal of the MUPDATE protocol is to be simple to implement
yet allow for database consistency between participants.
The key words "MUST, "MUST NOT", "REQUIRED", "SHOULD", "SHOULD NOT",
"RECOMMENDED", and "MAY" in this document are to be interpreted as
defined in BCP 14, RFC 2119 [KEYWORDS].
In examples, "C:" and "S:" indicate lines sent by the client and
server respectively.
2. Protocol Overview
The MUPDATE protocol assumes a reliable data stream such as a TCP
network connection. IANA has registered port 3905 with a short name
of "mupdate" for this purpose.
In the current implementation of the MUPDATE protocol there are three
types of participants: a single master server, slave (or replica)
servers, and clients. The master server maintains an authoritative
copy of the mailbox database. Slave servers connect to the MUPDATE
master server as clients, and function as replicas from the point of
view of end clients. End clients may connect to either the master or
any slave and perform searches against the database, however
operations that change the database can only be performed against the
master. For the purposes of protocol discussion we will consider a
slave's connection to the master identical to that of any other
client.
After connection, all commands from a client to server must have an
associated unique tag which is an alphanumeric string. Commands MAY
be pipelined from the client to the server (that is, the client need
not wait for the response before sending the next command). The
server MUST execute the commands in the order they were received,
however.
If the server supports an inactivity login timeout, it MUST be at
least 15 minutes.
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MUPDATE uses data formats similar to those used in [ACAP]. That is,
atoms and strings. All commands and tags in the protocol are
transmitted as atoms. All other data is considered to a string, and
must be quoted or transmitted as a literal.
Outside of a literal, both clients and servers MUST support line
lengths of at least 1024 octets (including the trailing CR and LF
characters). If a line of a longer length must be transmitted,
implementations MUST make use of literals to do so.
2.1. Atoms
An atom consists of one or more alphanumeric characters. Atoms MUST
be less than 15 octets in length.
2.2. Strings
As in [ACAP], a string may be either literal or a quoted string. A
literal is a sequence of zero or more octets (including CR and LF),
prefix-quoted with an octet count in the form of an open brace ("{"),
the number of octets, an optional plus sign to indicate that the data
follows immediately (a non-synchronized literal), a close brace
("}"), and a CRLF sequence. If the plus sign is omitted (a
synchronized literal), then the receiving side MUST send a "+ go
ahead" response, and the sending side MUST wait for this response.
Servers MUST support literals of atleast 4096 octets.
Strings that are sent from server to client SHOULD NOT be in the
synchronized literal format.
A quoted string is a sequence of zero or more 7-bit characters,
excluding CR, LF, and the double quote (<">), with double quote
characters at each end.
The empty string is represented as either "" (a quoted string with
zero characters between double quotes) or as {0} followed by CRLF (a
literal with an octet count of 0).
3. Server Responses
Every client command in the MUPDATE protocol may receive one or more
tagged responses from the server. Each response is preceded by the
same tag as the command that elicited the response from the server.
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3.1. Response: OK
A tagged OK response indicates that the operation completed
successfully. There is a mandatory implementation-defined string
after the OK response. This response also indicates the beginning of
the streaming update mode when given in response to an UPDATE
command.
Example:
C: N01 NOOP
S: N01 OK "NOOP Complete"
3.2. Response: NO
A tagged NO response indicates that the operation was explicitly
denied by the server or otherwise failed. There is a mandatory
implementation-defined string after the NO response that SHOULD
explain the reason for denial.
Example:
C: A01 AUTHENTICATE "PLAIN"
S: A01 NO "PLAIN is not a supported SASL mechanism"
3.3. Response: BAD
A tagged BAD response indicates that the command from the client
could not be parsed or understood. There is a mandatory
implementation-defined string after the BAD response to provide
additional information about the error. Note that untagged BAD
responses are allowed if it is unclear what the tag for a given
command is (for example, if a blank line is received by the mupdate
server, it can generate an untagged BAD response). In the case of an
untagged response, the tag should be replaced with a "*".
Example:
C: C01 SELECT "INBOX"
S: C01 BAD "This is not an IMAP server"
C:
S: * BAD "Need Command"
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3.4. Response: BYE
A tagged BYE response indicates that the server has decided to close
the connection. There is a mandatory implementation-defined string
after the BYE response that SHOULD explain the reason for closing the
connection. The server MUST close the connection immediately after
transmitting the BYE response.
Example:
C: L01 LOGOUT
S: L01 BYE "User Logged Out"
3.5. Response: RESERVE
A tagged RESERVE response may only be given in response to a FIND,
LIST, or UPDATE command. It includes two parameters: the name of the
mailbox that is being reserved (in mUTF-7 encoding, as specified in
[IMAP]) and a location string whose contents is defined by the
clients that are using the database, though it is RECOMMENDED that
the format of this string be the hostname of the server which is
storing the mailbox.
This response indicates that the given name is no longer available in
the namespace, though it does not indicate that the given mailbox is
available to clients at the current time.
A tagged MAILBOX response may only be given in response to a FIND,
LIST, or UPDATE command. It includes three parameters: the name of
the mailbox, a location string (as with RESERVE), and a client-
defined string that specifies the IMAP ACL [IMAP-ACL] of the mailbox.
This message indicates that the given mailbox is ready to be accessed
by clients.
RFC 3656 MUPDATE Distributed Mailbox Database Protocol December 2003
3.7. Response: DELETE
A tagged DELETE response may only be given in response to an UPDATE
command, and MUST NOT be given before the OK response to the UPDATE
command is given. It contains a single parameter, that of the
mailbox that should be deleted from the slave's database. This
response indicates that the given mailbox no longer exists in the
namespace of the database, and may be given for any mailbox name,
active, reserved, or nonexistent. (Though implementations SHOULD NOT
issue DELETE responses for nonexistent mailboxes).
Example:
S: U01 DELETE "user.rjs3.sent-mail-jan-2002"
3.8. Server Capability Response
Upon connection of the client to the server, and directly following a
successful STARTTLS command, the server MUST issue a capabilities
banner, of the following format:
The banner MUST contain a line that begins with "* AUTH" and contain
a space-separated list of SASL mechanisms that the server will accept
for authentication. The mechanism names are transmitted as atoms.
Servers MAY advertise no available mechanisms (to indicate that
STARTTLS must be completed before authentication may occur). If
STARTTLS is not supported by the server, then the line MUST contain
at least one mechanism.
If the banner is being issued without a TLS layer, and the server
supports the STARTTLS command, the banner MUST contain the line "*
STARTTLS". If the banner is being issued under a TLS layer (or the
server does not support STARTTLS), the banner MUST NOT contain this
line.
The last line of the banner MUST start with "* OK MUPDATE" and be
followed by four strings: the server's hostname, an implementation-
defined string giving the name of the implementation, an
implementation-defined string giving the version of the
implementation, and a string that indicates if the server is a master
or a slave. The master/slave indication MUST be either "(master)" or
an MUPDATE URL that defines where the master can be contacted.
Any unrecognized responses before the "* OK MUPDATE" response MUST be
ignored by the client.
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The following are valid commands that a client may send to the
MUPDATE server: AUTHENTICATE, ACTIVATE, DEACTIVATE, DELETE, FIND,
LIST, LOGOUT, NOOP, RESERVE, STARTTLS, and UPDATE.
Before a successful AUTHENTICATE command has occurred, the server
MUST NOT accept any commands except for AUTHENTICATE, STARTTLS, and
LOGOUT (and SHOULD reply with a NO response for all other commands).
4.1. Command: ACTIVATE
The ACTIVATE command has 3 parameters: the mailbox name, its
location, and its ACL. This command MUST NOT not be issued to a
slave server.
This command can also be used to update the ACL or location
information of a mailbox. Note that it is not a requirement for a
mailbox to be reserved (or even exist in the database) for an
ACTIVATE command to succeed, implementations MUST allow this behavior
as it facilitates synchronization of the database with the current
state of the mailboxes.
4.2. Command: AUTHENTICATE
The AUTHENTICATE command initiates a [SASL] negotiation session
between the client and the server. It has two parameters. The first
parameter is mandatory, and is a string indicating the desired [SASL]
mechanism. The second is a string containing an optional BASE64
encoded (as defined in section 6.8 of [MIME]) client first send.
All of the remaining SASL blobs that are sent MUST be sent across the
wire must be in BASE64 encoded format, and followed by a CR and LF
combination. They MUST NOT be encoded as strings.
Clients may cancel authentication by sending a * followed by a CR and
LF.
The [SASL] service name for the MUPDATE protocol is "mupdate".
Implementations are REQUIRED to implement the GSSAPI [SASL]
mechanism, though they SHOULD implement as many mechanisms as
possible.
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If a security layer is negotiated, it should be used directly
following the CR and LF combination at the end of the server's OK
response (i.e., beginning with the client's next command) Only one
successful AUTHENTICATE command may be issued per session.
4.3. Command: DEACTIVATE
The DEACTIVATE command takes two parameters, the mailbox name and
location data. The mailbox MUST already exist and be activated on
the MUPDATE server. If the server responds OK, then the mailbox name
has been moved to the RESERVE state. If the server responds NO, then
the mailbox name has not been moved (for example, the mailbox was not
already active). Any ACL information that is known about the mailbox
MAY be lost when a DEACTIVATE succeeds. This command MUST NOT be
issued to a slave.
Example:
C: A01 DEACTIVATE "user.rjs3.new" "mail3.example.org!u4"
S: A01 OK "Mailbox Reserved."
4.4. Command: DELETE
The DELETE command takes only a single parameter, the mailbox name to
be removed from the database's namespace. The server SHOULD give a
NO response if the mailbox does not exist. This command MUST NOT be
issued to a slave server.
4.5. Command: FIND
The FIND command takes a single parameter, a mailbox name. The
server then responds with the current record for the given mailbox,
if any, and an OK response.
Example (mailbox does not exist):
C: F01 FIND "user.rjs3.xyzzy"
S: F01 OK "Search Complete"
RFC 3656 MUPDATE Distributed Mailbox Database Protocol December 2003
4.6. Command: LIST
The LIST command is similar to running FIND across the entire
database. The LIST command takes a single optional parameter, which
is a prefix to try to match against the location field of the
records. Without the parameter, LIST returns every record in the
database.
For each mailbox that matches, either a MAILBOX or a RESERVE response
(as applicable) is sent to the client. When all responses are
complete, an OK response is issued.
Example:
C: L01 LIST
S: L01 RESERVE "user.rjs3" "mail4.example.org!u2"
S: L01 MAILBOX "user.leg" "mail2.example.org!u1" "leg lrswipcda"
S: L01 OK "List Complete"
C: L02 LIST "mail4.example.org!"
S: L02 RESERVE "user.rjs3" "mail4.example.org!u2"
S: L02 OK "List Complete"
4.7. Command: LOGOUT
The LOGOUT command tells the server to close the connection. Its
only valid response is the BYE response. The LOGOUT command takes no
parameters.
4.8. Command: NOOP
The NOOP command takes no parameters. Provided the client is
authenticated, its only acceptable response is an OK. Any idle
timeouts that the server may have on the connection SHOULD be reset
upon receipt of this command.
If this command is issued after an UPDATE command has been issued,
then the OK response also indicates that all pending database updates
have been sent to the client. That is, the slave can guarantee that
its local database is up to date as of a certain time by issuing a
NOOP and waiting for the OK. The OK MUST NOT return until all
updates that were pending at the time of the NOOP have been sent.
4.9. Command: RESERVE
The RESERVE command takes two parameters (just like the RESERVE
response), the mailbox name to reserve and location data. If the
server responds OK, then the mailbox name has been reserved. If the
server responds NO, then the mailbox name has not been reserved (for
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example, another server has reserved it already). This command MUST
NOT be issued to a slave.
The typical sequence for mailbox creation is:
C: R01 RESERVE "user.rjs3.new" "mail3.example.org!u4"
S: R01 OK "Mailbox Reserved."
<client does local mailbox create operations>
C: A01 ACTIVATE "user.rjs3.new" "mail3.example.org!u4" "rjs3 lrswipcda"
S: A01 OK "Mailbox Activated."
4.10. Command: STARTTLS
The STARTTLS command requests the commencement of a [TLS]
negotiation. The negotiation begins immediately after the CRLF in
the OK response. After a client issues a STARTTLS command, it MUST
NOT issue further commands until a server response is seen and the
[TLS] negotiation is complete.
The STARTTLS command is only valid in non-authenticated state. The
server remains in non-authenticated state, even if client credentials
are supplied during the [TLS] negotiation. The [SASL] EXTERNAL
mechanism MAY be used to authenticate once [TLS] client credentials
are successfully exchanged. Note that servers are not required to
support the EXTERNAL mechanism.
After the [TLS] layer is established, the server MUST re-issue the
initial response banner (see Section 3.8). This is necessary to
protect against man-in-the-middle attacks which alter the
capabilities list prior to STARTTLS, as well as to advertise any new
SASL mechanisms (or other capabilities) that may be available under
the layer. The client MUST discard cached capability information and
replace it with the new information.
After the a successful STARTTLS command, the server SHOULD return a
NO response to additional STARTTLS commands.
Servers MAY choose to not implement STARTTLS. In this case, they
MUST NOT advertise STARTTLS in their capabilities banner, and SHOULD
return a BAD response to the STARTTLS command, if it is issued.
Example:
C: S01 STARTTLS
S: S01 OK "Begin TLS negotiation now"
<TLS negotiation, further commands are under TLS layer>
S: * AUTH KERBEROS_V4 GSSAPI PLAIN
S: * OK MUPDATE "mupdate.example.org" "Cyrus" "v2.1.2" "(master)"
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4.11. Command: UPDATE
The UPDATE command is how a slave initializes an update stream from
the master (though it is also valid to issue this command to a
slave). In response to the command, the server returns a list of all
mailboxes in its database (the same results as a parameterless LIST
command) followed by an OK response. From this point forward,
whenever an update occurs to the master database, it MUST stream the
update to the slave within 30 seconds. That is, it will send
RESERVE, MAILBOX, or DELETE responses as they are applicable.
After a client has issued an UPDATE command, it may only issue NOOP
and LOGOUT commands for the remainder of the session.
Example:
C: U01 UPDATE
S: U01 MAILBOX "user.leg" "mail2.example.org!u1" "leg lrswipcda"
S: U01 MAILBOX "user.rjs3" "mail3.example.org!u4" "rjs3 lrswipcda"
S: U01 RESERVE "internet.bugtraq" "mail1.example.org!u5" "anyone lrs"
S: U01 OK "Streaming Begins"
<some time goes by, and another client creates a new mailbox>
S: U01 RESERVE "user.leg.new" "mail2.example.org!u1"
<some more time passes, and the create succeeds>
S: U01 MAILBOX "user.leg.new" "mail2.example.org!u1" "leg lrswipcda"
<much more time passes, and the slave decides to send a NOOP to reset
its inactivity timer>
C: N01 NOOP
S: U01 DELETE "user.leg.new"
S: N01 OK "NOOP Complete"
5. MUPDATE Formal Syntax
The following syntax specification uses the Augmented Backus-Naur
Form (ABNF) notation as specified in [ABNF]. This uses the ABNF core
rules as specified in Appendix A of [ABNF].
Except as noted otherwise, all alphabetic characters are case-
insensitive. The use of upper or lower case characters to define
token strings is for editorial clarity only. Implementations MUST
accept these strings in a case-insensitive fashion.
Note that this specification also uses some terminals from section 8
of [ACAP].
sasl-mech = 1*ATOM-CHAR
; ATOM-CHAR is defined in [ACAP]
string = quoted / literal
; quoted and literal are defined in [ACAP]
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tag = 1*ATOM-CHAR
; ATOM-CHAR is defined in [ACAP]
6. MUPDATE URL Scheme
This document defines the a URL scheme for the purposes of
referencing MUPDATE resources, according to the requirements in
[RFC2717]. This includes both MUPDATE servers as a whole, along with
individual mailbox entries on a given MUPDATE server.
There is no MIME type associated with these resources. It is
intended that a URL consumer would either retrieve the MUPDATE record
in question, or simply connect to the MUPDATE server running on the
specified host. Note that the consumer will need to have
authentication credentials for the specified host.
The MUPDATE URL scheme is similar to the IMAP URL scheme [IMAP-URL].
However, it only takes one of two possible forms:
The first form refers to a MUPDATE server as a whole, the second form
indicates both the server and a mailbox to run a FIND against once
authenticated to the server. Note that part of <iserver> may include
username and authentication information along with a hostname and
port.
6.1. MUPDATE URL Scheme Registration Form
URL scheme name: "mupdate"
URL scheme syntax:
This defines the MUPDATE URL Scheme in [ABNF]. Terminals from the
BNF of IMAP URLs [IMAP-URL] are also used.
mupdateurl = "mupdate://" iserver "/" [ enc_mailbox ]
; iserver and enc_mailbox are as defined in [IMAP-URL]
Character encoding considerations:
Identical to those described in [IMAP-URL] for the appropriate
terminals.
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Intended Usage:
The form of the URL without an associated mailbox is intended to
designate a MUPDATE server only. If a mailbox name is included in
the URL, then the consumer is expected to execute a FIND command
for that mailbox on the specified server.
Applications and/or protocols which use this URL scheme name:
The protocol described in this document.
Interoperability Considerations:
None.
Security Considerations:
Users of the MUPDATE URL Scheme should review the security
considerations that are discussed in [IMAP-URL]. In particular,
the consequences of including authentication mechanism information
in a URL should be reviewed.
Relevant Publications:
This document and [IMAP-URL].
Author, Change Controller, and Contact for Further Information:
Author of this document.
7. Security Considerations
While no unauthenticated users may make modifications or even perform
searches on the database, it is important to note that this
specification assumes no protections of any type for authenticated
users.
All authenticated users have complete access to the database. For
this reason it is important to ensure that accounts that are making
use of the database are well secured.
A more secure deployment might have all read only access go through a
slave, and only have accounts which need write access use the master.
This has the disadvantage of a marginally longer time for updates to
reach the clients.
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The protocol assumes that all authenticated users are cooperating to
maintain atomic operations. Therefore, all new mailboxes SHOULD be
RESERVEd before they are ACTIVATEd, despite the fact that the
protocol does not require this, and it is therefore possible for a
set of participants which do not obey the provided locking to create
an inconsistent database. RESERVEing the mailbox first is not
required to perform an activate because this behavior simplifies
synchronization with the actual location of the mailboxes.
8. IANA Considerations
The IANA has assigned TCP port number 3905 to "mupdate".
The IANA has registered a URL scheme for the MUPDATE protocol, as
defined in section 6.1 of this document.
IANA has registered a GSSAPI service name of "mupdate" for the
MUPDATE protocol in the registry maintained at:
The IETF takes no position regarding the validity or scope of any
intellectual property or other rights that might be claimed to
pertain to the implementation or use of the technology described in
this document or the extent to which any license under such rights
might or might not be available; neither does it represent that it
has made any effort to identify any such rights. Information on the
IETF's procedures with respect to rights in standards-track and
standards-related documentation can be found in BCP-11. Copies of
claims of rights made available for publication and any assurances of
licenses to be made available, or the result of an attempt made to
obtain a general license or permission for the use of such
proprietary rights by implementors or users of this specification can
be obtained from the IETF Secretariat.
The IETF invites any interested party to bring to its attention any
copyrights, patents or patent applications, or other proprietary
rights which may cover technology that may be required to practice
this standard. Please address the information to the IETF Executive
Director.
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10. References
10.1. Normative References
[KEYWORDS] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119, March 1997.
[IMAP] Crispin, M., "Internet Message Access Protocol - Version
4", RFC 3501, March 2003.
[ABNF] Crocker, D., Ed. and P. Overell, "Augmented BNF for
Syntax Specifications: ABNF", RFC 2234, November 1997.
[MIME] Freed, N. and N. Bornstein, "Multipurpose Internet Mail
Extensions (MIME) Part One: Format of Internet Message
Bodies", RFC 2045, November 1996.
[IMAP-ACL] Myers, J., "IMAP4 ACL extension", RFC 2086, January 1997.
[SASL] Myers, J., "Simple Authentication and Security Layer
(SASL)", RFC 2222, October 1997.
[IMAP-URL] Newman, C., "IMAP URL Scheme", RFC 2192, September 1997.
[ACAP] Newman, C. and J. Myers, "ACAP -- Application
Configuration Access Protocol", RFC 2244, November 1997.
[TLS] Dierks, T. and C. Allen, "The TLS Protocol Version 1.0",
RFC 2246, January 1999.
10.2. Informative References
[POP3] Myers, J. and M. Rose, "Post Office Protocol - Version
3", STD 53, RFC 1939, May 1996.
[RFC2717] Petke, R. and I. King, "Registration Procedures for URL
Scheme Names", BCP 35, RFC 2717, November 1999.
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11. Acknowledgments
Lawrence Greenfield and Ken Murchison, for a great deal of input on
both the protocol and the text of the documents.
12. Author's Address
Robert Siemborski
Carnegie Mellon, Andrew Systems Group
Cyert Hall 207
5000 Forbes Avenue
Pittsburgh, PA 15213
RFC 3656 MUPDATE Distributed Mailbox Database Protocol December 2003
13. Full Copyright Statement
Copyright (C) The Internet Society (2003). All Rights Reserved.
This document and translations of it may be copied and furnished to
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or assist in its implementation may be prepared, copied, published
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included on all such copies and derivative works. However, this
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the copyright notice or references to the Internet Society or other
Internet organizations, except as needed for the purpose of
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English.
The limited permissions granted above are perpetual and will not be
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