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diff --git a/doc/rfc/rfc2033.txt b/doc/rfc/rfc2033.txt new file mode 100644 index 0000000..a47433e --- /dev/null +++ b/doc/rfc/rfc2033.txt @@ -0,0 +1,395 @@ + + + + + + +Network Working Group J. Myers +Request for Comments: 2033 Carnegie Mellon +Category: Informational October 1996 + + + Local Mail Transfer Protocol + +Status of this Memo + + This memo provides information for the Internet community. This memo + does not specify an Internet standard of any kind. Distribution of + this memo is unlimited. + +1. Abstract + + SMTP [SMTP] [HOST-REQ] and its service extensions [ESMTP] provide a + mechanism for transferring mail reliably and efficiently. The design + of the SMTP protocol effectively requires the server to manage a mail + delivery queue. + + In some limited circumstances, outside the area of mail exchange + between independent hosts on public networks, it is desirable to + implement a system where a mail receiver does not manage a queue. + This document describes the LMTP protocol for transporting mail into + such systems. + + Although LMTP is an alternative protocol to ESMTP, it uses (with a + few changes) the syntax and semantics of ESMTP. This design permits + LMTP to utilize the extensions defined for ESMTP. LMTP should be + used only by specific prior arrangement and configuration, and it + MUST NOT be used on TCP port 25. + +Table of Contents + + 1. Abstract ................................................ 1 + 2. Conventions Used in this Document ....................... 2 + 3. Introduction and Overview ............................... 2 + 4. The LMTP protocol ....................................... 3 + 4.1. The LHLO, HELO and EHLO commands ........................ 4 + 4.2. The DATA command ........................................ 4 + 4.3. The BDAT command ........................................ 5 + 5. Implementation requirements ............................. 6 + 6. Acknowledgments ......................................... 6 + 7. References .............................................. 7 + 8. Security Considerations ................................. 7 + 9. Author's Address ........................................ 7 + + + + + +Myers Informational [Page 1] + +RFC 2033 LMTP October 1996 + + +2. Conventions Used in this Document + + In examples, "C:" and "S:" indicate lines sent by the client and + server respectively. + +3. Introduction and Overview + + The design of the SMTP protocol effectively requires the server to + manage a mail delivery queue. This is because a single mail + transaction may specify multiple recipients and the final "." of the + DATA command may return only one reply code, to indicate the status + of the entire transaction. If, for example, a server is given a + transaction for two recipients, delivery to the first succeeds, and + delivery to the second encounters a temporary failure condition, + there is no mechanism to inform the client of the situation. The + server must queue the message and later attempt to deliver it to the + second recipient. + + This queuing requirement is beneficial in the situation for which + SMTP was originally designed: store-and-forward relay of mail between + networked hosts. In some limited situations, it is desirable to have + a server which does not manage a queue, instead relying on the client + to perform queue management. As an example, consider a hypothetical + host with a mail system designed as follows: + + + + TCP port 25 +-----------------+ + ---------------------->| | ######### + | Queue |<># Mail # + TCP port 25 | Manager | # Queue # + <----------------------| | ######### + +-----------------+ + Local * ^ Local * Local + IPC * | IPC * IPC + * | * + * | * + * | * + V | V + Non-SMTP +----------+ +----------+ + Protocol | Gateway | | Local | ######### + <==============>| Delivery | | Delivery |>># Mail # + | Agent | | Agent | # Spool # + +----------+ +----------+ ######### + + + The host's mail system has three independent, communicating + subsystems. The first is a queue manager, which acts as a + + + +Myers Informational [Page 2] + +RFC 2033 LMTP October 1996 + + + traditional SMTP agent, transferring messages to and from other hosts + over TCP and managing a mail queue in persistent storage. The other + two are agents which handle delivery for addresses in domains for + which the host takes responsibility. One agent performs gatewaying + to and from some other mail system. The other agent delivers the + message into a persistent mail spool. + + It would be desirable to use SMTP over a local inter-process + communication channel to transfer messages from the queue manager to + the delivery agents. It would, however, significantly increase the + complexity of the delivery agents to require them to manage their own + mail queues. + + The common practice of invoking a delivery agent with the envelope + address(es) as command-line arguments, then having the delivery agent + communicate status with an exit code has three serious problems: the + agent can only return one exit code to be applied to all recipients, + it is difficult to extend the interface to deal with ESMTP extensions + such as DSN [DSN] and ENHANCEDSTATUSCODES [ENHANCEDSTATUSCODES], and + exits performed by system libraries due to temporary conditions + frequently get interpreted as permanent errors. + + The LMTP protocol causes the server to return, after the final "." of + the DATA command, one reply for each recipient. Therefore, if the + queue manager is configured to use LMTP instead of SMTP when + transferring messages to the delivery agents, then the delivery + agents may attempt delivery to each recipient after the final "." and + individually report the status for each recipient. Connections which + should use the LMTP protocol are drawn in the diagram above using + asterisks. + + Note that it is not beneficial to use the LMTP protocol when + transferring messages to the queue manager, either from the network + or from a delivery agent. The queue manager does implement a mail + queue, so it may store the message and take responsibility for later + delivering it. + +4. The LMTP protocol + + The LMTP protocol is identical to the SMTP protocol SMTP [SMTP] + [HOST-REQ] with its service extensions [ESMTP], except as modified by + this document. + + A "successful" RCPT command is defined as an RCPT command which + returns a Positive Completion reply code. + + A "Positive Completion reply code" is defined in Appendix E of STD + 10, RFC 821 [SMTP] as a reply code which "2" as the first digit. + + + +Myers Informational [Page 3] + +RFC 2033 LMTP October 1996 + + +4.1. The LHLO, HELO and EHLO commands + + The HELO and EHLO commands of ESMTP are replaced by the LHLO command. + This permits a misconfiguration where both parties are not using the + same protocol to be detected. + + The LHLO command has identical semantics to the EHLO command of ESMTP + [ESMTP]. + + The HELO and EHLO commands of ESMTP are not present in LMTP. A LMTP + server MUST NOT return a Postive Completion reply code to these + commands. The 500 reply code is recommended. + +4.2. The DATA command + + In the LMTP protocol, there is one additional restriction placed on + the DATA command, and one change to how replies to the final "." are + sent. + + The additional restriction is that when there have been no successful + RCPT commands in the mail transaction, the DATA command MUST fail + with a 503 reply code. + + The change is that after the final ".", the server returns one reply + for each previously successful RCPT command in the mail transaction, + in the order that the RCPT commands were issued. Even if there were + multiple successful RCPT commands giving the same forward-path, there + must be one reply for each successful RCPT command. + + When one of these replies to the final "." is a Positive Completion + reply, the server is accepting responsibility for delivering or + relying the message to the corresponding recipient. It must take + this responsibility seriously, i.e., it MUST NOT lose the message for + frivolous reasons, e.g., because the host later crashes or because of + a predictable resource shortage. + + A multiline reply is still considered a single reply and corresponds + to a single RCPT command. + + EXAMPLE: + + S: 220 foo.edu LMTP server ready + C: LHLO foo.edu + S: 250-foo.edu + S: 250-PIPELINING + S: 250 SIZE + C: MAIL FROM:<chris@bar.com> + S: 250 OK + + + +Myers Informational [Page 4] + +RFC 2033 LMTP October 1996 + + + C: RCPT TO:<pat@foo.edu> + S: 250 OK + C: RCPT TO:<jones@foo.edu> + S: 550 No such user here + C: RCPT TO:<green@foo.edu> + S: 250 OK + C: DATA + S: 354 Start mail input; end with <CRLF>.<CRLF> + C: Blah blah blah... + C: ...etc. etc. etc. + C: . + S: 250 OK + S: 452 <green@foo.edu> is temporarily over quota + C: QUIT + S: 221 foo.edu closing connection + + +NOTE: in the above example, the domain names of both the client and + server are identical. This is because in the example the client and + server are different subsystems of the same mail domain. + +4.3. The BDAT command + + If the server supports the ESMTP CHUNKING extension [BINARYMIME], a + BDAT command containing the LAST parameter returns one reply for each + previously successful RCPT command in the mail transaction, in the + order that the RCPT commands were issued. Even if there were + multiple successful RCPT commands giving the same forward-path, there + must be one reply for each successful RCPT command. If there were no + previously successful RCPT commands in the mail transaction, then the + BDAT LAST command returns zero replies. + + When one of these replies to the BDAT LAST command is a Positive + Completion reply, the server is accepting responsibility for + delivering or relaying the message to the corresponding recipient. + It must take this responsibility seriously, i.e., it MUST NOT lose + the message for frivolous reasons, e.g., because the host later + crashes or because of a predictable resource shortage. + + A multiline reply is still considered a single reply and corresponds + to a single RCPT command. + + The behavior of BDAT commands without the LAST parameter is not + changed; they still return exactly one reply. + + + + + + + +Myers Informational [Page 5] + +RFC 2033 LMTP October 1996 + + +5. Implementation requirements + + As LMTP is a different protocol than SMTP, it MUST NOT be used on the + TCP service port 25. + + A server implementation MUST implement the PIPELINING [PIPELINING] + and ENHANCEDSTATUSCODES [ENHANCEDSTATUSCODES] ESMTP extensions. A + server implementation SHOULD implement the 8BITMIME [8BITMIME] + extension. + + Use of LMTP can aggravate the situation described in [DUP-MSGS]. To + avoid this synchronization problem, the following requirements are + made of implementations: + + A server implementation which is capable of quickly accepting + responsibility for delivering or relaying a message to multiple + recipients and which is capable of sending any necessary notification + messages SHOULD NOT implement the LMTP protocol. + + The LMTP protocol SHOULD NOT be used over wide area networks. + + The server SHOULD send each reply as soon as possible. If it is + going to spend a nontrivial amount of time handling delivery for the + next recipient, it SHOULD flush any outgoing LMTP buffer, so the + reply may be quickly received by the client. + + The client SHOULD process the replies as they come in, instead of + waiting for all of the replies to arrive before processing any of + them. If the connection closes after replies for some, but not all, + recipients have arrived, the client MUST process the replies that + arrived and treat the rest as temporary failures. + +6. Acknowledgments + + This work is a refinement of the MULT extension, which was invented + by Jeff Michaud and was used in implementing gateways to the Mail-11 + mail system. + + Many thanks to Matt Thomas for assisting me in understanding the + semantics of the Mail-11 MULT extension. + + + + + + + + + + + +Myers Informational [Page 6] + +RFC 2033 LMTP October 1996 + + +7. References + + [8BITMIME] Klensin, J., et. al, "SMTP Service Extension for 8bit-MIME + transport", RFC 1652, July 1994. + + [BINARYMIME] Vaudreuil, G., "SMTP Service Extensions for Transmission + of Large and Binary MIME Messages", RFC 1830, August 1995. + + [DSN] Moore, K., Vaudreuil, G., "An Extensible Message Format for + Delivery Status Notifications", RFC 1894, January 1996. + + [DUP-MSGS] Partridge, C., "Duplicate messages and SMTP", RFC 1047, + February 1988. + + [ENHANCEDSTATUSCODES] Freed, N., "SMTP Service Extension for + Returning Enhanced Error Codes", RFC 2034, October 1996. + + [ESMTP] Rose, M., Stefferud, E., Crocker, C., Klensin, J., Freed, N., + "SMTP Service Extensions", RFC 1869, November 1995. + + [HOST-REQ] Braden, R., "Requirements for Internet hosts - application + and support", STD 3, RFC 1123 section 5, October 1989. + + [PIPELINING] Freed, N., Cargille, A, "SMTP Service Extension for + Command Pipelining", RFC 1854, October 1995. + + [SMTP] Postel, J., "Simple Mail Transfer Protocol", STD 10, RFC 821, + August 1982. + + + There are no known security issues with the issues in this memo. + +9. Author's Address + + John G. Myers + Carnegie-Mellon University + 5000 Forbes Ave. + Pittsburgh PA, 15213-3890 + + EMail: jgm+@cmu.edu + + + + + + + + + + + +Myers Informational [Page 7] + |