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A DNS RR for specifying the location of services (DNS SRV)

The information below is for an old version of the document that is already published as an RFC.
Document Type
This is an older version of an Internet-Draft that was ultimately published as RFC 2782.
Authors Arnt Gulbrandsen , Dr. Levon Esibov
Last updated 2021-06-07 (Latest revision 1999-11-16)
RFC stream Internet Engineering Task Force (IETF)
Intended RFC status Proposed Standard
Additional resources Mailing list discussion
Stream WG state (None)
Document shepherd (None)
IESG IESG state Became RFC 2782 (Proposed Standard)
Consensus boilerplate Unknown
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Applications Area                                       Arnt Gulbrandsen
INTERNET-DRAFT                                        Troll Technologies
<draft-ietf-dnsind-rfc2052bis-05.txt>                         Paul Vixie
Obsoletes: RFC 2052                         Internet Software Consortium
                                                            Levon Esibov
                                                         Microsoft Corp.
                                                           November 1999
                                                        Expires May 2000

       A DNS RR for specifying the location of services (DNS SRV)

Status of this Memo

   This document is an Internet-Draft and is in full conformance with
   all provisions of Section 10 of RFC2026.

   Internet-Drafts are working documents of the Internet Engineering
   Task Force (IETF), its areas, and its working groups.  Note that
   other groups may also distribute working documents as

   Internet-Drafts are draft documents valid for a maximum of six months
   and may be updated, replaced, or obsoleted by other documents at any
   time.  It is inappropriate to use Internet-Drafts as reference
   material or to cite them other than as "work in progress."

   The list of current Internet-Drafts can be accessed at

   The list of Internet-Draft Shadow Directories can be accessed at


   This document describes a DNS RR which specifies the location of the
   server(s) for a specific protocol and domain.

Overview and rationale

   Currently, one must either know the exact address of a server to
   contact it, or broadcast a question.  

   The SRV RR allows administrators to use several servers for a single
   domain, to move services from host to host with little fuss, and to
   designate some hosts as primary servers for a service and others as

   Clients ask for a specific service/protocol for a specific domain
   (the word domain is used here in the strict RFC 1034 sense), and get
   back the names of any available servers.

   Note that where this document refers to "address records", it means A
   RR's, AAAA RR's, or their most modern equivalent.

Gulbrandsen, Vixie and Esibov   Proposed                        [Page 1]

RFC 2052bis                    DNS SRV RR                  November 1999


   The key words "MUST", "MUST NOT", "SHOULD", "SHOULD NOT" and "MAY"
   used in this document are to be interpreted as specified in [BCP 14].
   Other terms used in this document are defined in the DNS
   specification, RFC 1034.

Applicability Statement

   In general, it is expected that SRV records will be used by clients
   for applications where the relevant protocol specification indicates
   that clients should use the SRV record. Such specification MUST
   define the symbolic name to be used in the Service field of the SRV
   record as described below. It also MUST include security
   considerations. Service SRV records SHOULD NOT be used in the absence
   of such specification.

Introductory example

   If a SRV-cognizant LDAP client wants to discover a LDAP server that
   supports TCP protocol and provides LDAP service for the domain, it does a lookup of

   as described in [ARM].  The example zone file near the end of this
   memo contains answering RRs for an SRV query.

The format of the SRV RR

   Here is the format of the SRV RR, whose DNS type code is 33:

        _Service._Proto.Name TTL Class SRV Priority Weight Port Target

        (There is an example near the end of this document.)

        The symbolic name of the desired service, as defined in Assigned
        Numbers [STD 2] or locally.  An underscore (_) is prepended to
        the service identifier to avoid collisions with DNS labels that
        occur in nature.

        Some widely used services, notably POP, don't have a single
        universal name.  If Assigned Numbers names the service
        indicated, that name is the only name which is legal for SRV
        lookups.  The Service is case insensitive.

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RFC 2052bis                    DNS SRV RR                  November 1999

        The symbolic name of the desired protocol, with an underscore
        (_) prepended to prevent collisions with DNS labels that occur
        in nature.  _TCP and _UDP are at present the most useful values
        for this field, though any name defined by Assigned Numbers or
        locally may be used (as for Service).  The Proto is case

        The domain this RR refers to.  The SRV RR is unique in that the
        name one searches for is not this name; the example near the end
        shows this clearly.

        Standard DNS meaning [RFC 1035].

        Standard DNS meaning [RFC 1035].   SRV records occur in the IN

        The priority of this target host.  A client MUST
        attempt to contact the target host with the lowest-numbered
        priority it can reach; target hosts with the same priority
        SHOULD be tried in an order defined by the weight field.  The
        range is 0-65535.  This is a 16 bit unsigned integer in network
        byte order.

        A server selection mechanism.  The weight field specifies a
        relative weight for entries with the same priority. Larger
        weights SHOULD be given a proportionately higher probability of
        being selected. The range of this number is 0-65535.  This is a
        16 bit unsigned integer in network byte order.  Domain
        administrators SHOULD use Weight 0 when there isn't any server
        selection to do, to make the RR easier to read for humans (less
        noisy).  In the presence of records containing weights greater
        than 0, records with weight 0 should have a very small chance of
        being selected.

        In the absence of a protocol whose specification calls for the
        use of other weighting information, a client arranges the
        SRV RRs of the same Priority in the order in which target hosts,
        specified by the SRV RRs, will be contacted. The following
        algorithm SHOULD be used to order the SRV RRs of the same
        To select a target to be contacted next, arrange all SRV RRs
        (that have not been ordered yet) in any order, except that all
        those with weight 0 are placed at the beginning of the list.

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RFC 2052bis                    DNS SRV RR                  November 1999

        Compute the sum of the weights of those RRs, and with each RR
        associate the running sum in the selected order. Then choose a
        uniform random number between 0 and the sum computed
        (inclusive), and select the RR whose running sum value is the
        first in the selected order which is greater than or equal to
        the random number selected. The target host specified in the
        selected SRV RR is the next one to be contacted by the client.
        Remove this SRV RR from the set of the unordered SRV RRs and
        apply the described algorithm to the unordered SRV RRs to select
        the next target host.
        Continue the ordering process until there are no unordered SRV
        This process is repeated for each Priority.

        The port on this target host of this service.  The range is
        0-65535.  This is a 16 bit unsigned integer in network byte
        order. This is often as specified in Assigned Numbers but need
        not be.

        The domain name of the target host.  There MUST be
        one or more address records for this name, the name MUST NOT be
        an alias (in the sense of RFC 1034 or RFC 2181).  Implementors
        are urged, but not required, to return the address record(s) in
        the Additional Data section.  Unless and until permitted by
        future standards action, name compression is not to be used for
        this field.

        A Target of "." means that the service is decidedly not
        available at this domain.

Domain administrator advice

   Expecting everyone to update their client applications when the first
   server publishes a SRV RR is futile (even if desirable).  Therefore
   SRV would have to coexist with address record lookups for existing
   protocols, and DNS administrators should try to provide address
   records to support old clients:

      - Where the services for a single domain are spread over several
        hosts, it seems advisable to have a list of address records at
        the same DNS node as the SRV RR, listing reasonable (if perhaps
        suboptimal) fallback hosts for Telnet, NNTP and other protocols
        likely to be used with this name.  Note that some programs only
        try the first address they get back from e.g. gethostbyname(),
        and we don't know how widespread this behavior is.

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RFC 2052bis                    DNS SRV RR                  November 1999

      - Where one service is provided by several hosts, one can either
        provide address records for all the hosts (in which case the
        round-robin mechanism, where available, will share the load
        equally) or just for one (presumably the fastest).

      - If a host is intended to provide a service only when the main
        server(s) is/are down, it probably shouldn't be listed in
        address records.

      - Hosts that are referenced by backup address records must use the
        port number specified in Assigned Numbers for the service.

      - Designers of future protocols for which "secondary servers" is
        not useful (or meaningful) may choose to not use SRV's support
        for secondary servers.  Clients for such protocols may use or
        ignore SRV RRs with Priority higher than the RR with the lowest
        Priority for a domain.

   Currently there's a practical limit of 512 bytes for DNS replies.
   Until all resolvers can handle larger responses, domain
   administrators are strongly advised to keep their SRV replies below
   512 bytes.

   All round numbers, wrote Dr. Johnson, are false, and these numbers
   are very round: A reply packet has a 30-byte overhead plus the name
   of the service ("" for instance); each SRV RR
   adds 20 bytes plus the name of the target host; each NS RR in the NS
   section is 15 bytes plus the name of the name server host; and
   finally each A RR in the additional data section is 20 bytes or so,
   and there are A's for each SRV and NS RR mentioned in the answer.
   This size estimate is extremely crude, but shouldn't underestimate
   the actual answer size by much.  If an answer may be close to the
   limit, using a DNS query tool (e.g. "dig") to look at the actual
   answer is a good idea.

The "Weight" field

   Weight, the server selection field, is not quite satisfactory, but
   the actual load on typical servers changes much too quickly to be
   kept around in DNS caches.  It seems to the authors that offering
   administrators a way to say "this machine is three times as fast as
   that one" is the best that can practically be done.

   The only way the authors can see of getting a "better" load figure is
   asking a separate server when the client selects a server and
   contacts it.  For short-lived services an extra step in the
   connection establishment seems too expensive, and for long-lived
   services, the load figure may well be thrown off a minute
   after the connection is established when someone else starts or
   finishes a heavy job.

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RFC 2052bis                    DNS SRV RR                  November 1999

   Note: There are currently various experiments at providing relative
   network proximity estimation, available bandwidth estimation, and
   similar services.  Use of the SRV record with such facilities, and in
   particular the interpretation of the Weight field when these
   facilities are used, is for further study.
   Weight is only intended for static, not dynamic, server selection.
   Using SRV weight for dynamic server selection would require assigning
   unreasonably short TTLs to the SRV RRs, which would limit the
   usefulness of the DNS caching mechanism, thus increasing overall
   network load and decreasing overall reliability.  Server selection
   via SRV is only intended to express static information such as "this
   server has a faster CPU than that one" or "this server has a much
   better network connection than that one".

The Port number

   Currently, the translation from service name to port number happens
   at the client, often using a file such as /etc/services.

   Moving this information to the DNS makes it less necessary to update
   these files on every single computer of the net every time a new
   service is added, and makes it possible to move standard services out
   of the "root-only" port range on unix.

Usage rules

   A SRV-cognizant client SHOULD use this procedure to locate a list of
   servers and connect to the preferred one:

        Do a lookup for, QCLASS=IN,

        If the reply is NOERROR, ANCOUNT>0 and there is at least one SRV
        RR which specifies the requested Service and Protocol in the

             If there is precisely one SRV RR, and its Target is "."
             (the root domain), abort.

             Else, for all such RR's, build a list of (Priority, Weight,
             Target) tuples

             Sort the list by priority (lowest number first)

             Create a new empty list

             For each distinct priority level
                  While there are still elements left at this priority

Gulbrandsen, Vixie and Esibov   Proposed                        [Page 6]

RFC 2052bis                    DNS SRV RR                  November 1999

                       Select an element as specified above, in the
                       description of Weight in "The format of the SRV
                       RR" Section, and move it to the tail of the new

             For each element in the new list

                  query the DNS for address records for the Target or
                  use any such records found in the Additional Data
                  section of the earlier SRV response.

                  for each address record found, try to connect to the
                  (protocol, address, service).


             Do a lookup for QNAME=target, QCLASS=IN, QTYPE=A

             for each address record found, try to connect to the
             (protocol, address, service)


      - Port numbers SHOULD NOT be used in place of the symbolic service
        or protocol names (for the same reason why variant names cannot
        be allowed: Applications would have to do two or more lookups).

      - If a truncated response comes back from an SRV query, the rules
        described in [RFC2181] shall apply.

      - A client MUST parse all of the RR's in the reply.

      - If the Additional Data section doesn't contain address records
        for all the SRV RR's and the client may want to connect to the
        target host(s) involved, the client MUST look up the address
        record(s).  (This happens quite often when the address record
        has shorter TTL than the SRV or NS RR's.)

      - Future protocols could be designed to use SRV RR lookups as the
        means by which clients locate their servers.

Fictional example

   This example uses fictional service ôfoobarö as an aid in
   understanding SRV records. If ever service ôfoobarö is implemented,
   it is not intended that it will necessarily use SRV records.  This
   is (part of) the zone file for, a still-unused domain:

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RFC 2052bis                    DNS SRV RR                  November 1999

        @               SOA (
                            1995032001 3600 3600 604800 86400 )
        ; foobar - use old-slow-box or new-fast-box if either is
        ; available, make three quarters of the logins go to
        ; new-fast-box.
        _foobar._tcp    SRV 0 1 9
                         SRV 0 3 9
        ; if neither old-slow-box or new-fast-box is up, switch to
        ; using the sysdmin's box and the server
                         SRV 1 0 9
                         SRV 1 0 9
        server           A
        old-slow-box     A
        sysadmins-box    A
        new-fast-box     A
        ; NO other services are supported
        *._tcp          SRV  0 0 0 .
        *._udp          SRV  0 0 0 .

   In this example, a client of the ôfoobarö service in the
   "" domain needs an SRV lookup of
   "" and possibly A lookups of "new-" and/or the other hosts named.  The size of the
   SRV reply is approximately 365 bytes:

      30 bytes general overhead
      20 bytes for the query string, ""
      130 bytes for 4 SRV RR's, 20 bytes each plus the lengths of "new-
        fast-box", "old-slow-box", "server" and "sysadmins-box" -
        "" in the query section is quoted here and doesn't
        need to be counted again.
      75 bytes for 3 NS RRs, 15 bytes each plus the lengths of "server",
        "" and "ns2" - again, "" is
        quoted and only needs to be counted once.
      120 bytes for the 6 address records (assuming IPv4 only) mentioned
        by the SRV and NS RR's.

IANA Considerations

   The IANA has assigned RR type value 33 to the SRV RR.  No other IANA
   services are required by this document.

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RFC 2052bis                    DNS SRV RR                  November 1999

Changes from RFC 2052

   This document obsoletes RFC 2052.   The major change from that
   previous, experimental, version of this specification is that now the
   protocol and service labels are prepended with an underscore, to
   lower the probability of an accidental clash with a similar name used
   for unrelated purposes.  Aside from that, changes are only intended
   to increase the clarity and completeness of the document. This
   document especially clarifies the use of the Weight field of the SRV

Security Considerations

   The authors believe this RR to not cause any new security problems.
   Some problems become more visible, though.

      - The ability to specify ports on a fine-grained basis obviously
        changes how a router can filter packets.  It becomes impossible
        to block internal clients from accessing specific external
        services, slightly harder to block internal users from running
        unauthorized services, and more important for the router
        operations and DNS operations personnel to cooperate.

      - There is no way a site can keep its hosts from being referenced
        as servers.  This could lead to denial of service.

      - With SRV, DNS spoofers can supply false port numbers, as well as
        host names and addresses.   Because this vunerability exists
        already, with names and addresses, this is not a new
        vunerability, merely a slightly extended one, with little
        practical effect.


   STD 2: Reynolds, J., Postel, J., "Assigned Numbers", STD 2, RFC 1700,
        October 1994 (as currently updated by the IANA).

   RFC 1034: Mockapetris, P., "Domain names - concepts and facilities",
        STD 13, RFC 1034, November 1987.

   RFC 1035: Mockapetris, P., "Domain names - Implementation and
        Specification", STD 13, RFC 1035, November 1987.

   RFC 974: Partridge, C., "Mail routing and the domain system", RFC
        974, January 1986.

   BCP 14: Bradner, S., "Key words for use in RFCs to Indicate
        Requirement Levels", BCP 14, RFC 2119, March 1997.

Gulbrandsen, Vixie and Esibov   Proposed                        [Page 9]

RFC 2052bis                    DNS SRV RR                  November 1999
                                                        Expires May 2000

   RFC 2181: Elz, R., Bush, R., "Clarifications to the DNS
        Specification", RFC 2181, July 1997

   RFC 2219: Hamilton, M., Wright, R., "Use of DNS Aliases for Network
        Services", BCP 17, RFC 2219, October 1997
   BCP 14: Bradner, S., ôKey words for use in RFCs to Indicate
        Requirement Levelsö, RFC 2119, March 1997.
   ARM: Armijo, M., Esibov, L., Leach, P., ôDiscovering LDAP Services
        with DNSö, Internet Draft draft-armijo-ldap-locate-00.txt,
        June 1999.
   Hornstein, K., Altman, J., ôDistributing Kerberos KDC and Realm
        Information with DNSö, Internet Draft
        draft-ietf-cat-krb-dns-locate-00.txt, June 1999.


   The algorithm used to select from the weighted SRV RRs of equal
   priority is adapted from one supplied by Dan Bernstein.

Authors' Addresses

   Arnt Gulbrandsen              Paul Vixie
      Troll Tech                    Internet Software Consortium
      Postboks 6133 Etterstad            950 Charter Street
      N-0602 Oslo, Norway                Redwood City, CA 94063
      +47 22646966                       +1 650 779 7001

   Levon Esibov
      Microsoft Corporation
      One Microsoft Way
      Redmond, WA 98052

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