hush/networking/ftp_ipv6_rfc2428.txt

Network Working Group                                          M. Allman
Request for Comments: 2428                  NASA Lewis/Sterling Software
Category: Standards Track                                   S. Ostermann
                                                         Ohio University
                                                                 C. Metz
                                                           The Inner Net
                                                          September 1998


                    FTP Extensions for IPv6 and NATs

Status of this Memo

   This document specifies an Internet standards track protocol for the
   Internet community, and requests discussion and suggestions for
   improvements.  Please refer to the current edition of the "Internet
   Official Protocol Standards" (STD 1) for the standardization state
   and status of this protocol.  Distribution of this memo is unlimited.

Copyright Notice

   Copyright (C) The Internet Society (1998).  All Rights Reserved.

Abstract

   The specification for the File Transfer Protocol assumes that the
   underlying network protocol uses a 32-bit network address
   (specifically IP version 4).  With the deployment of version 6 of the
   Internet Protocol, network addresses will no longer be 32-bits.  This
   paper specifies extensions to FTP that will allow the protocol to
   work over IPv4 and IPv6.  In addition, the framework defined can
   support additional network protocols in the future.

1.  Introduction

   The keywords, such as MUST and SHOULD, found in this document are
   used as defined in RFC 2119 [Bra97].

   The File Transfer Protocol [PR85] only provides the ability to
   communicate information about IPv4 data connections.  FTP assumes
   network addresses will be 32 bits in length.  However, with the
   deployment of version 6 of the Internet Protocol [DH96] addresses
   will no longer be 32 bits long.  RFC 1639 [Pis94] specifies
   extensions to FTP to enable its use over various network protocols.
   Unfortunately, the mechanism can fail in a multi-protocol
   environment.  During the transition between IPv4 and IPv6, FTP needs
   the ability to negotiate the network protocol that will be used for
   data transfer.



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   This document provides a specification for a way that FTP can
   communicate data connection endpoint information for network
   protocols other than IPv4.  In this specification, the FTP commands
   PORT and PASV are replaced with EPRT and EPSV, respectively.  This
   document is organized as follows.  Section 2 outlines the EPRT
   command and Section 3 outlines the EPSV command.  Section 4 defines
   the utilization of these two new FTP commands.  Section 5 briefly
   presents security considerations.  Finally, Section 6 provides
   conclusions.

2.  The EPRT Command

   The EPRT command allows for the specification of an extended address
   for the data connection.  The extended address MUST consist of the
   network protocol as well as the network and transport addresses.  The
   format of EPRT is:

           EPRT<space><d><net-prt><d><net-addr><d><tcp-port><d>

   The EPRT command keyword MUST be followed by a single space (ASCII
   32).  Following the space, a delimiter character (<d>) MUST be
   specified.  The delimiter character MUST be one of the ASCII
   characters in range 33-126 inclusive.  The character "|" (ASCII 124)
   is recommended unless it coincides with a character needed to encode
   the network address.

   The <net-prt> argument MUST be an address family number defined by
   IANA in the latest Assigned Numbers RFC (RFC 1700 [RP94] as of the
   writing of this document).  This number indicates the protocol to be
   used (and, implicitly, the address length).  This document will use
   two of address family numbers from [RP94] as examples, according to
   the following table:

        AF Number   Protocol
        ---------   --------
        1           Internet Protocol, Version 4 [Pos81a]
        2           Internet Protocol, Version 6 [DH96]

   The <net-addr> is a protocol specific string representation of the
   network address.  For the two address families specified above (AF
   Number 1 and 2), addresses MUST be in the following format:

        AF Number   Address Format      Example
        ---------   --------------      -------
        1           dotted decimal      132.235.1.2
        2           IPv6 string         1080::8:800:200C:417A
                    representations
                    defined in [HD96]



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   The <tcp-port> argument must be the string representation of the
   number of the TCP port on which the host is listening for the data
   connection.

   The following are sample EPRT commands:

        EPRT |1|132.235.1.2|6275|

        EPRT |2|1080::8:800:200C:417A|5282|

   The first command specifies that the server should use IPv4 to open a
   data connection to the host "132.235.1.2" on TCP port 6275.  The
   second command specifies that the server should use the IPv6 network
   protocol and the network address "1080::8:800:200C:417A" to open a
   TCP data connection on port 5282.

   Upon receipt of a valid EPRT command, the server MUST return a code
   of 200 (Command OK).  The standard negative error code 500 and 501
   [PR85] are sufficient to handle most errors (e.g., syntax errors)
   involving the EPRT command.  However, an additional error code is
   needed.  The response code 522 indicates that the server does not
   support the requested network protocol.  The interpretation of this
   new error code is:

        5yz Negative Completion
        x2z Connections
        xy2 Extended Port Failure - unknown network protocol

   The text portion of the response MUST indicate which network
   protocols the server does support.  If the network protocol is
   unsupported, the format of the response string MUST be:

        <text stating that the network protocol is unsupported> \
            (prot1,prot2,...,protn)

   Both the numeric code specified above and the protocol information
   between the characters '(' and ')' are intended for the software
   automata receiving the response; the textual message between the
   numeric code and the '(' is intended for the human user and can be
   any arbitrary text, but MUST NOT include the characters '(' and ')'.
   In the above case, the text SHOULD indicate that the network protocol
   in the EPRT command is not supported by the server.  The list of
   protocols inside the parenthesis MUST be a comma separated list of
   address family numbers.  Two example response strings follow:

        Network protocol not supported, use (1)

        Network protocol not supported, use (1,2)



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3.  The EPSV Command

   The EPSV command requests that a server listen on a data port and
   wait for a connection.  The EPSV command takes an optional argument.
   The response to this command includes only the TCP port number of the
   listening connection.  The format of the response, however, is
   similar to the argument of the EPRT command.  This allows the same
   parsing routines to be used for both commands.  In addition, the
   format leaves a place holder for the network protocol and/or network
   address, which may be needed in the EPSV response in the future.  The
   response code for entering passive mode using an extended address
   MUST be 229.  The interpretation of this code, according to [PR85]
   is:

        2yz Positive Completion
        x2z Connections
        xy9 Extended Passive Mode Entered

   The text returned in response to the EPSV command MUST be:

        <text indicating server is entering extended passive mode> \
            (<d><d><d><tcp-port><d>)

   The portion of the string enclosed in parentheses MUST be the exact
   string needed by the EPRT command to open the data connection, as
   specified above.

   The first two fields contained in the parenthesis MUST be blank.  The
   third field MUST be the string representation of the TCP port number
   on which the server is listening for a data connection.  The network
   protocol used by the data connection will be the same network
   protocol used by the control connection.  In addition, the network
   address used to establish the data connection will be the same
   network address used for the control connection.  An example response
   string follows:

        Entering Extended Passive Mode (|||6446|)

   The standard negative error codes 500 and 501 are sufficient to
   handle all errors involving the EPSV command (e.g., syntax errors).

   When the EPSV command is issued with no argument, the server will
   choose the network protocol for the data connection based on the
   protocol used for the control connection.  However, in the case of
   proxy FTP, this protocol might not be appropriate for communication
   between the two servers.  Therefore, the client needs to be able to
   request a specific protocol.  If the server returns a protocol that
   is not supported by the host that will be connecting to the port, the



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   client MUST issue an ABOR (abort) command to allow the server to
   close down the listening connection.  The client can then send an
   EPSV command requesting the use of a specific network protocol, as
   follows:

        EPSV<space><net-prt>

   If the requested protocol is supported by the server, it SHOULD use
   the protocol.  If not, the server MUST return the 522 error messages
   as outlined in section 2.

   Finally, the EPSV command can be used with the argument "ALL" to
   inform Network Address Translators that the EPRT command (as well as
   other data commands) will no longer be used.  An example of this
   command follows:

        EPSV<space>ALL

   Upon receipt of an EPSV ALL command, the server MUST reject all data
   connection setup commands other than EPSV (i.e., EPRT, PORT, PASV, et
   al.).  This use of the EPSV command is further explained in section
   4.

4.  Command Usage

   For all FTP transfers where the control and data connection(s) are
   being established between the same two machines, the EPSV command
   MUST be used.  Using the EPSV command benefits performance of
   transfers that traverse firewalls or Network Address Translators
   (NATs).  RFC 1579 [Bel94] recommends using the passive command when
   behind firewalls since firewalls do not generally allow incoming
   connections (which are required when using the PORT (EPRT) command).
   In addition, using EPSV as defined in this document does not require
   NATs to change the network address in the traffic as it is forwarded.
   The NAT would have to change the address if the EPRT command was
   used.  Finally, if the client issues an "EPSV ALL" command, NATs may
   be able to put the connection on a "fast path" through the
   translator, as the EPRT command will never be used and therefore,
   translation of the data portion of the segments will never be needed.
   When a client only expects to do two-way FTP transfers, it SHOULD
   issue this command as soon as possible.  If a client later finds that
   it must do a three-way FTP transfer after issuing an EPSV ALL
   command, a new FTP session MUST be started.








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5.  Security Issues

   The authors do not believe that these changes to FTP introduce new
   security problems.  A companion Work in Progress [AO98] is a more
   general discussion of FTP security issues and techniques to reduce
   these security problems.

6.  Conclusions

   The extensions specified in this paper will enable FTP to operate
   over a variety of network protocols.

References

   [AO98]   Allman, M., and S. Ostermann, "FTP Security
            Considerations", Work in Progress.

   [Bel94]  Bellovin, S., "Firewall-Friendly FTP", RFC 1579, February
            1994.

   [Bra97]  Bradner, S., "Key words for use in RFCs to Indicate
            Requirement Levels", BCP 14, RFC 2119, March 1997.

   [DH96]   Deering, S., and R. Hinden, "Internet Protocol, Version 6
            (IPv6) Specification", RFC 1883, December 1995.

   [HD96]   Hinden, R., and S. Deering, "IP Version 6 Addressing
            Architecture", RFC 2373, July 1998.

   [Pis94]  Piscitello, D., "FTP Operation Over Big Address Records
            (FOOBAR)", RFC 1639, June 1994.

   [Pos81a] Postel, J., "Internet Protocol", STD 5, RFC 791, September
            1981.

   [Pos81b] Postel, J., "Transmission Control Protocol", STD 7, RFC 793,
            September 1981.

   [PR85]   Postel, J., and J. Reynolds, "File Transfer Protocol (FTP)",
            STD 9, RFC 959, October 1985.

   [RP94]   Reynolds, J., and J. Postel, "Assigned Numbers", STD 2, RFC
            1700, October 1994.  See also:
            http://www.iana.org/numbers.html







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Authors' Addresses

   Mark Allman
   NASA Lewis Research Center/Sterling Software
   21000 Brookpark Rd.  MS 54-2
   Cleveland, OH  44135

   Phone: (216) 433-6586
   EMail: mallman@lerc.nasa.gov
   http://gigahertz.lerc.nasa.gov/~mallman/


   Shawn Ostermann
   School of Electrical Engineering and Computer Science
   Ohio University
   416 Morton Hall
   Athens, OH  45701

   Phone: (740) 593-1234
   EMail: ostermann@cs.ohiou.edu


   Craig Metz
   The Inner Net
   Box 10314-1954
   Blacksburg, VA  24062-0314

   Phone:  (DSN) 754-8590
   EMail: cmetz@inner.net






















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Full Copyright Statement

   Copyright (C) The Internet Society (1998).  All Rights Reserved.

   This document and translations of it may be copied and furnished to
   others, and derivative works that comment on or otherwise explain it
   or assist in its implementation may be prepared, copied, published
   and distributed, in whole or in part, without restriction of any
   kind, provided that the above copyright notice and this paragraph are
   included on all such copies and derivative works.  However, this
   document itself may not be modified in any way, such as by removing
   the copyright notice or references to the Internet Society or other
   Internet organizations, except as needed for the purpose of
   developing Internet standards in which case the procedures for
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   followed, or as required to translate it into languages other than
   English.

   The limited permissions granted above are perpetual and will not be
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   This document and the information contained herein is provided on an
   "AS IS" basis and THE INTERNET SOCIETY AND THE INTERNET ENGINEERING
   TASK FORCE DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING
   BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION
   HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED WARRANTIES OF
   MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
























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