400 lines
18 KiB
ObjectPascal
400 lines
18 KiB
ObjectPascal
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Network Working Group Craig Partridge
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Request for Comments: 974 CSNET CIC BBN Laboratories Inc
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January 1986
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MAIL ROUTING AND THE DOMAIN SYSTEM
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Status of this Memo
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This RFC presents a description of how mail systems on the Internet
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are expected to route messages based on information from the domain
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system described in RFCs 882, 883 and 973. Distribution of this memo
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is unlimited.
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Introduction
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The purpose of this memo is to explain how mailers are to decide how
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to route a message addressed to a given Internet domain name. This
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involves a discussion of how mailers interpret MX RRs, which are used
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for message routing. Note that this memo makes no statement about
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how mailers are to deal with MB and MG RRs, which are used for
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interpreting mailbox names.
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Under RFC-882 and RFC-883 certain assumptions about mail addresses
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have been changed. Up to now, one could usually assume that if a
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message was addressed to a mailbox, for example, at LOKI.BBN.COM,
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that one could just open an SMTP connection to LOKI.BBN.COM and pass
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the message along. This system broke down in certain situations,
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such as for certain UUCP and CSNET hosts which were not directly
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attached to the Internet, but these hosts could be handled as special
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cases in configuration files (for example, most mailers were set up
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to automatically forward mail addressed to a CSNET host to
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CSNET-RELAY.ARPA).
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Under domains, one cannot simply open a connection to LOKI.BBN.COM,
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but must instead ask the domain system where messages to LOKI.BBN.COM
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are to be delivered. And the domain system may direct a mailer to
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deliver messages to an entirely different host, such as SH.CS.NET.
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Or, in a more complicated case, the mailer may learn that it has a
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choice of routes to LOKI.BBN.COM. This memo is essentially a set of
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guidelines on how mailers should behave in this more complex world.
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Readers are expected to be familiar with RFCs 882, 883, and the
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updates to them (e.g., RFC-973).
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Partridge [Page 1]
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RFC 974 January 1986
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Mail Routing and the Domain System
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What the Domain Servers Know
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The domain servers store information as a series of resource records
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(RRs), each of which contains a particular piece of information about
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a given domain name (which is usually, but not always, a host). The
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simplest way to think of a RR is as a typed pair of datum, a domain
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name matched with relevant data, and stored with some additional type
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information to help systems determine when the RR is relevant. For
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the purposes of message routing, the system stores RRs known as MX
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RRs. Each MX matches a domain name with two pieces of data, a
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preference value (an unsigned 16-bit integer), and the name of a
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host. The preference number is used to indicate in what order the
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mailer should attempt deliver to the MX hosts, with the lowest
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numbered MX being the one to try first. Multiple MXs with the same
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preference are permitted and have the same priority.
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In addition to mail information, the servers store certain other
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types of RR's which mailers may encounter or choose to use. These
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are: the canonical name (CNAME) RR, which simply states that the
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domain name queried for is actually an alias for another domain name,
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which is the proper, or canonical, name; and the Well Known Service
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(WKS) RR, which stores information about network services (such as
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SMTP) a given domain name supports.
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General Routing Guidelines
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Before delving into a detailed discussion of how mailers are expected
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to do mail routing, it would seem to make sense to give a brief
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overview of how this memo is approaching the problems that routing
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poses.
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The first major principle is derived from the definition of the
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preference field in MX records, and is intended to prevent mail
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looping. If the mailer is on a host which is listed as an MX for the
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destination host, the mailer may only deliver to an MX which has a
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lower preference count than its own host.
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It is also possible to cause mail looping because routing information
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is out of date or incomplete. Out of date information is only a
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problem when domain tables are changed. The changes will not be
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known to all affected hosts until their resolver caches time out.
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There is no way to ensure that this will not happen short of
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requiring mailers and their resolvers to always send their queries to
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an authoritative server, and never use data stored in a cache. This
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is an impractical solution, since eliminating resolver caching would
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make mailing inordinately expensive. What is more, the out-of-date
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RR problem should not happen if, when a domain table is changed,
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Partridge [Page 2]
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RFC 974 January 1986
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Mail Routing and the Domain System
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affected hosts (those in the list of MXs) have their resolver caches
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flushed. In other words, given proper precautions, mail looping as a
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result of domain information should be avoidable, without requiring
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mailers to query authoritative servers. (The appropriate precaution
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is to check with a host's administrator before adding that host to a
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list of MXs).
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The incomplete data problem also requires some care when handling
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domain queries. If the answer section of a query is incomplete
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critical MX RRs may be left out. This may result in mail looping, or
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in a message being mistakenly labelled undeliverable. As a result,
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mailers may only accept responses from the domain system which have
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complete answer sections. Note that this entire problem can be
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avoided by only using virtual circuits for queries, but since this
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situation is likely to be very rare and datagrams are the preferred
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way to interact with the domain system, implementors should probably
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just ensure that their mailer will repeat a query with virtual
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circuits should the truncation bit ever be set.
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Determining Where to Send a Message
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The explanation of how mailers should decide how to route a message
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is discussed in terms of the problem of a mailer on a host with
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domain name LOCAL trying to deliver a message addressed to the domain
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name REMOTE. Both LOCAL and REMOTE are assumed to be syntactically
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correct domain names. Furthermore, LOCAL is assumed to be the
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official name for the host on which the mailer resides (i.e., it is
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not a alias).
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Issuing a Query
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The first step for the mailer at LOCAL is to issue a query for MX RRs
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for REMOTE. It is strongly urged that this step be taken every time
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a mailer attempts to send the message. The hope is that changes in
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the domain database will rapidly be used by mailers, and thus domain
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administrators will be able to re-route in-transit messages for
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defective hosts by simply changing their domain databases.
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Certain responses to the query are considered errors:
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Getting no response to the query. The domain server the mailer
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queried never sends anything back. (This is distinct from an
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answer which contains no answers to the query, which is not an
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error).
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Getting a response in which the truncation field of the header is
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Partridge [Page 3]
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RFC 974 January 1986
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Mail Routing and the Domain System
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set. (Recall discussion of incomplete queries above). Mailers
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may not use responses of this type, and should repeat the query
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using virtual circuits instead of datagrams.
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Getting a response in which the response code is non-zero.
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Mailers are expected to do something reasonable in the face of an
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error. The behaviour for each type of error is not specified here,
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but implementors should note that different types of errors should
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probably be treated differently. For example, a response code of
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"non-existent domain" should probably cause the message to be
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returned to the sender as invalid, while a response code of "server
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failure" should probably cause the message to be retried later.
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There is one other special case. If the response contains an answer
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which is a CNAME RR, it indicates that REMOTE is actually an alias
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for some other domain name. The query should be repeated with the
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canonical domain name.
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If the response does not contain an error response, and does not
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contain aliases, its answer section should be a (possibly zero
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length) list of MX RRs for domain name REMOTE (or REMOTE's true
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domain name if REMOTE was a alias). The next section describes how
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this list is interpreted.
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Interpreting the List of MX RRs
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NOTE: This section only discusses how mailers choose which names to
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try to deliver a message to, working from a list of RR's. It does
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not discuss how the mailers actually make delivery. Where ever
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delivering a message is mentioned, all that is meant is that the
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mailer should do whatever it needs to do to transfer a message to a
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remote site, given a domain name for that site. (For example, an
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SMTP mailer will try to get an address for the domain name, which
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involves another query to the domain system, and then, if it gets an
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address, connect to the SMTP TCP port). The mechanics of actually
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transferring the message over the network to the address associated
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with a given domain name is not within the scope of this memo.
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It is possible that the list of MXs in the response to the query will
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be empty. This is a special case. If the list is empty, mailers
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should treat it as if it contained one RR, an MX RR with a preference
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value of 0, and a host name of REMOTE. (I.e., REMOTE is its only
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MX). In addition, the mailer should do no further processing on the
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list, but should attempt to deliver the message to REMOTE. The idea
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Partridge [Page 4]
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RFC 974 January 1986
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Mail Routing and the Domain System
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here is that if a domain fails to advertise any information about a
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particular name we will give it the benefit of the doubt and attempt
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delivery.
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If the list is not empty, the mailer should remove irrelevant RR's
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from the list according to the following steps. Note that the order
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is significant.
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For each MX, a WKS query should be issued to see if the domain
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name listed actually supports the mail service desired. MX RRs
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which list domain names which do not support the service should be
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discarded. This step is optional, but strongly encouraged.
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If the domain name LOCAL is listed as an MX RR, all MX RRs with a
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preference value greater than or equal to that of LOCAL's must be
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discarded.
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After removing irrelevant RRs, the list can again be empty. This is
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now an error condition and can occur in several ways. The simplest
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case is that the WKS queries have discovered that none of the hosts
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listed supports the mail service desired. The message is thus deemed
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undeliverable, though extremely persistent mail systems might want to
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try a delivery to REMOTE's address (if it exists) before returning
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the message. Another, more dangerous, possibility is that the domain
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system believes that LOCAL is handling message for REMOTE, but the
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mailer on LOCAL is not set up to handle mail for REMOTE. For
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example, if the domain system lists LOCAL as the only MX for REMOTE,
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LOCAL will delete all the entries in the list. But LOCAL is
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presumably querying the domain system because it didn't know what to
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do with a message addressed to REMOTE. Clearly something is wrong.
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How a mailer chooses to handle these situations is to some extent
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implementation dependent, and is thus left to the implementor's
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discretion.
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If the list of MX RRs is not empty, the mailer should try to deliver
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the message to the MXs in order (lowest preference value tried
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first). The mailer is required to attempt delivery to the lowest
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valued MX. Implementors are encouraged to write mailers so that they
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try the MXs in order until one of the MXs accepts the message, or all
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the MXs have been tried. A somewhat less demanding system, in which
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a fixed number of MXs is tried, is also reasonable. Note that
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multiple MXs may have the same preference value. In this case, all
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MXs at with a given value must be tried before any of a higher value
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are tried. In addition, in the special case in which there are
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several MXs with the lowest preference value, all of them should be
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tried before a message is deemed undeliverable.
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Partridge [Page 5]
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RFC 974 January 1986
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Mail Routing and the Domain System
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Minor Special Issues
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There are a couple of special issues left out of the preceding
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section because they complicated the discussion. They are treated
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here in no particular order.
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Wildcard names, those containing the character '*' in them, may be
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used for mail routing. There are likely to be servers on the network
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which simply state that any mail to a domain is to be routed through
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a relay. For example, at the time that this RFC is being written, all
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mail to hosts in the domain IL is routed through RELAY.CS.NET. This
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is done by creating a wildcard RR, which states that *.IL has an MX
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of RELAY.CS.NET. This should be transparent to the mailer since the
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domain servers will hide this wildcard match. (If it matches *.IL
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with HUJI.IL for example, a domain server will return an RR
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containing HUJI.IL, not *.IL). If by some accident a mailer receives
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an RR with a wildcard domain name in its name or data section it
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should discard the RR.
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Note that the algorithm to delete irrelevant RRs breaks if LOCAL has
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a alias and the alias is listed in the MX records for REMOTE. (E.g.
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REMOTE has an MX of ALIAS, where ALIAS has a CNAME of LOCAL). This
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can be avoided if aliases are never used in the data section of MX
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RRs.
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Implementors should understand that the query and interpretation of
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the query is only performed for REMOTE. It is not repeated for the
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MX RRs listed for REMOTE. You cannot try to support more extravagant
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mail routing by building a chain of MXs. (E.g. UNIX.BBN.COM is an MX
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for RELAY.CS.NET and RELAY.CS.NET is an MX for all the hosts in .IL,
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but this does not mean that UNIX.BBN.COM accepts any responsibility
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for mail for .IL).
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Finally, it should be noted that this is a standard for routing on
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the Internet. Mailers serving hosts which lie on multiple networks
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will presumably have to make some decisions about which network to
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route through. This decision making is outside the scope of this
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memo, although mailers may well use the domain system to help them
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decide. However, once a mailer decides to deliver a message via the
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Internet it must apply these rules to route the message.
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Partridge [Page 6]
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RFC 974 January 1986
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Mail Routing and the Domain System
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Examples
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To illustrate the discussion above, here are three examples of how
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mailers should route messages. All examples work with the following
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database:
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A.EXAMPLE.ORG IN MX 10 A.EXAMPLE.ORG
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A.EXAMPLE.ORG IN MX 15 B.EXAMPLE.ORG
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A.EXAMPLE.ORG IN MX 20 C.EXAMPLE.ORG
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A.EXAMPLE.ORG IN WKS 10.0.0.1 TCP SMTP
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B.EXAMPLE.ORG IN MX 0 B.EXAMPLE.ORG
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B.EXAMPLE.ORG IN MX 10 C.EXAMPLE.ORG
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B.EXAMPLE.ORG IN WKS 10.0.0.2 TCP SMTP
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C.EXAMPLE.ORG IN MX 0 C.EXAMPLE.ORG
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C.EXAMPLE.ORG IN WKS 10.0.0.3 TCP SMTP
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D.EXAMPLE.ORG IN MX 0 D.EXAMPLE.ORG
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D.EXAMPLE.ORG IN MX 0 C.EXAMPLE.ORG
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D.EXAMPLE.ORG IN WKS 10.0.0.4 TCP SMTP
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In the first example, an SMTP mailer on D.EXAMPLE.ORG is trying to
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deliver a message addressed to A.EXAMPLE.ORG. From the answer to its
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query, it learns that A.EXAMPLE.ORG has three MX RRs. D.EXAMPLE.ORG
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is not one of the MX RRs and all three MXs support SMTP mail
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(determined from the WKS entries), so none of the MXs are eliminated.
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The mailer is obliged to try to deliver to A.EXAMPLE.ORG as the
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lowest valued MX. If it cannot reach A.EXAMPLE.ORG it can (but is
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not required to) try B.EXAMPLE.ORG. and if B.EXAMPLE.ORG is not
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responding, it can try C.EXAMPLE.ORG.
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In the second example, the mailer is on B.EXAMPLE.ORG, and is again
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trying to deliver a message addressed to A.EXAMPLE.ORG. There are
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once again three MX RRs for A.EXAMPLE.ORG, but in this case the
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mailer must discard the RRs for itself and C.EXAMPLE.ORG (because the
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MX RR for C.EXAMPLE.ORG has a higher preference value than the RR for
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B.EXAMPLE.ORG). It is left only with the RR for A.EXAMPLE.ORG, and
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can only try delivery to A.EXAMPLE.ORG.
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In the third example, consider a mailer on A.EXAMPLE.ORG trying to
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deliver a message to D.EXAMPLE.ORG. In this case there are only two
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MX RRs, both with the same preference value. Either MX will accept
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messages for D.EXAMPLE.ORG. The mailer should try one MX first (which
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one is up to the mailer, though D.EXAMPLE.ORG seems most reasonable),
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and if that delivery fails should try the other MX (e.g.
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C.EXAMPLE.ORG).
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Partridge [Page 7]
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