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Behavior Engineering for Hindrance                        I. van Beijnum
Avoidance                                                 IMDEA Networks
Internet-Draft                                          October 19, 2009
Intended status: Standards Track
Expires: April 22, 2010


              IPv6-to-IPv4 translation FTP considerations
                   draft-van-beijnum-behave-ftp64-06

Status of this Memo

   This Internet-Draft is submitted to IETF in full conformance with the
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   This Internet-Draft will expire on April 22, 2010.

Copyright Notice

   Copyright (c) 2009 IETF Trust and the persons identified as the
   document authors.  All rights reserved.

   This document is subject to BCP 78 and the IETF Trust's Legal
   Provisions Relating to IETF Documents in effect on the date of
   publication of this document (http://trustee.ietf.org/license-info).
   Please review these documents carefully, as they describe your rights
   and restrictions with respect to this document.

Abstract

   The File Transfer Protocol has a very long history, and despite the
   fact that today, other options exist to perform file transfers, FTP



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   is still in common use.  As such, it is important that in the
   situation where some client computers are IPv6-only while many
   servers are still IPv4-only and IPv6-to-IPv4 translators are used to
   bridge that gap, FTP is made to work through these translators as
   best it can.

   FTP has an active and a passive mode, both as original commands that
   are IPv4-specific, and as extended, IP version agnostic commands.
   The only FTP mode that works without changes through an IPv6-to-IPv4
   translator is extended passive.  However, many existing FTP servers
   don't support this mode, and some clients don't ask for it.  This
   document describes server, client and middlebox (if any) behavior
   that minimizes this problem.


Table of Contents

   1.  Introduction . . . . . . . . . . . . . . . . . . . . . . . . .  3
   2.  Notational Conventions . . . . . . . . . . . . . . . . . . . .  4
   3.  Terminology  . . . . . . . . . . . . . . . . . . . . . . . . .  4
   4.  Server requirements  . . . . . . . . . . . . . . . . . . . . .  4
   5.  Client requirements  . . . . . . . . . . . . . . . . . . . . .  5
   6.  ALG functionality  . . . . . . . . . . . . . . . . . . . . . .  6
     6.1.  Control channel translation  . . . . . . . . . . . . . . .  6
     6.2.  EPSV to PASV translation . . . . . . . . . . . . . . . . .  7
     6.3.  EPRT to PORT translation . . . . . . . . . . . . . . . . .  8
       6.3.1.  Stateless EPRT translation . . . . . . . . . . . . . .  8
       6.3.2.  Stateful EPRT translation  . . . . . . . . . . . . . .  9
     6.4.  Default port 20 translation  . . . . . . . . . . . . . . .  9
     6.5.  Both PORT and PASV . . . . . . . . . . . . . . . . . . . . 10
     6.6.  Timeouts . . . . . . . . . . . . . . . . . . . . . . . . . 10
   7.  IANA considerations  . . . . . . . . . . . . . . . . . . . . . 10
   8.  Security considerations  . . . . . . . . . . . . . . . . . . . 10
   9.  References . . . . . . . . . . . . . . . . . . . . . . . . . . 11
     9.1.  Normative References . . . . . . . . . . . . . . . . . . . 11
     9.2.  Informative References . . . . . . . . . . . . . . . . . . 11
   Appendix A.  Acknowledgements  . . . . . . . . . . . . . . . . . . 11
   Appendix B.  Document and discussion information . . . . . . . . . 12
   Author's Address . . . . . . . . . . . . . . . . . . . . . . . . . 12












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1.  Introduction

   [RFC0959] specifies two modes of operation for FTP: active mode, in
   which the server connects back to the client, usually to a client-
   provided port number, and passive mode, where the server opens a port
   for the client to connect to.  Without additional action, active mode
   with a client-supplied port doesn't work through NATs or firewalls.
   And in both cases, an IPv4 address is specified, making both the
   original passive mode and the original active mode incompatible with
   IPv6.  These issues were solved in [RFC2428], which introduces the
   EPSV (extended passive) mode that only specifies a port number and
   the EPRT (extended port) command which allows the client to supply an
   IPv6 address (and a port) to the server.

   A survey done in April of 2009 of 25 randomly picked and/or well-
   known FTP sites reachable over IPv4 showed that only 12 of them
   supported EPSV over IPv4.  Additionally, only 2 of those 12 indicated
   that they supported EPSV in response to the FEAT command ([RFC2389])
   that asks the server to list its supported features.  One supported
   EPSV but not FEAT.  In 5 cases, issuing the EPSV command to the
   server led to a significant delay, in 3 cases followed by a control
   channel reset.  It appears that in these cases, the server did
   support EPSV but a middlebox didn't.  All 25 servers were able to
   successfully complete a transfer in PASV traditional passive mode as
   required by [RFC1123].  More tests showed that the use of an address
   family argument with the EPSV command is widely mis- or unimplemented
   in servers.  The additional tests with more servers showed that
   approximately 65% of FTP servers support EPSV successfully and around
   96% support PASV successfully.  Clients weren't extensively tested,
   but previous experience from the author suggests that most clients
   support PASV, with the notable exception of the command line client
   included with Windows, which only supports active mode.  It uses the
   original PORT command when running over IPv4 and EPRT when running
   over IPv6.

   Based on the tests, this document updates [RFC0959] and [RFC2428] in
   order to disallow certain unusual modes of operation that are
   incompatible with IPv6-to-IPv4 translation as well as requiring the
   EPSV capability from all servers.  All IPv6 FTP clients are required
   to implement EPSV.  Further, it is recommended that IPv6 clients
   retry with PASV when EPSV fails under the assumption that they are
   communicating through an IPv6-to-IPv4 translator.

   Additionally, there are guidelines for operators choosing to
   implement an application layer gateway functionality to provide
   connectivity between unupdated servers and/or clients.  It is not
   required to implement an ALG to conform to this specification.
   Clients that want to engage in more complex behavior, such as server-



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   to-server transfers, may make an FTP ALG go into transparent mode by
   issuing an AUTH command.

   The requirements and recommendations in this document apply to all
   forms of IPv6-to-IPv4 translation, including stateless translation
   such as [RFC2765] and stateful translation such as
   [I-D.bagnulo-behave-nat64].

   The FTP protocol allows for complex interactions, such as the
   situation where a client connects to two servers and directs the
   servers to exchange data between them.  These types of interactions
   are out of scope for this document.


2.  Notational Conventions

   The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
   "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
   document are to be interpreted as described in [RFC2119].


3.  Terminology

   Within the context of this document, the words "client" and "server"
   refer to FTP client and server implementations, respectively.  An FTP
   server is understood to be an implementation of the FTP protocol
   running on a server, waiting for clients to connect and issue
   commands and start data transfers.  Clients are pieces of software
   designed to interact with servers using the FTP protocol, and store
   (upload) or retrieve (download) files to/from one or more servers,
   either interactively under control of a user, or as an unattended
   background process.  Most operating systems provide a web browser
   that implements a basic FTP client, as well as a command line client.
   Third-party FTP clients are also widely available.

   Other terminology is derived from the documents listed in the
   reference section.


4.  Server requirements

   All FTP servers MUST support EPSV mode.  Further, if a server allows
   configuration of any kind, it MUST also be configurable to respond
   with a 502 (command not implemented) error to EPSV and EPRT commands,
   even though the server is capable of EPSV and/or EPRT.  This way, FTP
   servers residing behind firewalls or other middleboxes that break
   EPSV or EPRT functionality can be made to trigger clients to fall
   back to PASV or PORT immediately rather than potentially suffering a



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   timeout.

   All FTP servers MUST only use the local address used for the control
   channel session in PASV responses.  This allows an ALG to translate
   the response to the PASV command to an EPSV response without loss of
   information.  Note that according to tests performed by Dan Wing,
   this requirement is already met in practice.

   All FTP servers that support the FEAT command (which is highly
   RECOMMENDED for all servers) MUST indicate support for EPSV and/or
   EPRT when available in response to the FEAT command and MUST NOT list
   EPSV and/or EPRT in response to the FEAT command when EPSV and/or
   EPRT is administratively disabled as outlined above.


5.  Client requirements

   All FTP clients MUST support EPSV when communicating over IPv6.

   It is highly RECOMMENDED that FTP clients react by retrying with PASV
   or EPRT when the EPSV command fails, either because of an error
   response by the server (40x, 42x, 50x and 52x responses), because the
   data connection couldn't be created or because the control channel
   session was terminated.  In the latter two cases, a client MAY cache
   the name or address of the FTP server and issue PASV rather than EPSV
   in future sessions.  In that case, the cache entry SHOULD be cleared
   if older than 7 days and the server indicates EPSV support in its
   FEAT response where it previously did not indicate EPSV support in
   its FEAT response.  There is always a risk that an error was the
   result of a condition unrelated to IPv6-to-IPv4 translation.
   However, retrying with a PASV request has little potential for harm,
   so unless the error is clearly unrelated, retrying with PASV is the
   appropriate reaction.

   When an FTP client is communicating over IPv6 and it is unable to use
   the EPSV (and possibly EPRT) command successfully, it SHOULD retry
   with PASV.  However, the server will respond to the PASV command with
   an IPv4 address that the client must use to connect to for the data
   connection.  Even if the client has IPv4 reachability, it SHOULD
   ignore the server-supplied address and set up a data connection
   towards the IPv6 address of the server that is used for the control
   channel session.  However, the port number used for the data
   connection is taken from the 227 response to the PASV command.

   Clients MUST NOT use any arguments with the EPSV command; many IPv4
   FTP servers react adversely to "EPSV 1".  Clients SHOULD assume that
   servers are unaware of the IP version used by clients.  This may be
   the result from a server implementation that uses the updated IPv6



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   socket API with IPv4-mapped addresses, or because the server resides
   behind an IPv6-to-IPv4 translator.


6.  ALG functionality

   The author recognizes that FTP application layer gateways for
   compatibility with IPv6-to-IPv4 translators is rejected by many
   within the IETF community.  As such, it is RECOMMENDED to update FTP
   clients and servers as required for IPv6-to-IPv4 translation support
   where possible, to allow proper operation of the FTP protocol without
   the need for ALGs.

   On the other hand, network operators often have little influence over
   the FTP clients their customers run, let alone the FTP servers used
   throughout the Internet.  For those operators, deploying an ALG may
   be the only way to provide a satisfactory customer experience.  So,
   even though not the preferred solution, this document describes the
   functionality of such an ALG in order to promote consistent behavior
   between ALGs in an effort to minimize their harmful effects.
   However, the situation with regard to FTP server and -clients,
   especially in IPv6-heavy deployments, may change fast, so within
   relatively little time it may become feasible to stop running an ALG.
   Operators are encouraged to keep revisiting the issue.

   Note that the translation of EPSV through all translators and EPRT
   through a stateless translator is relatively simple and translation
   of EPRT through a stateful translator relatively difficult.  As such,
   an ALG used with a stateful translator MAY choose to support only
   EPSV.  However, an ALG used with a stateless translator SHOULD also
   support EPRT.

6.1.  Control channel translation

   The IPv6-to-IPv4 FTP ALG intercepts all TCP sessions towards IPv4
   port 21 destinations.  The FTP ALG implements the Telnet protocol
   ([RFC0854]) used for control channel interactions to the degree
   necessary to interpret commands and responses and re-issue those
   commands and responses, modifying them as outlined below.  Option
   negotiation attempts by either the client or the server, except for
   those allowed by [RFC1123], SHOULD be rejected by the FTP ALG without
   relaying those attempts.  This avoids the situation where the client
   and the server negotiate options unknown to the FTP ALG.

   There are two ways to implement the control channel ALG:

   1.  The ALG terminates the IPv6 TCP session, sets up a new IPv4 TCP
       session towards the IPv4 FTP server, and relays commands and



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       responses back and forth between the two sessions.

   2.  Packets that are part of the control channel are translated
       individually.

   In the second case, an implementation must have the ability to track
   and update TCP sequence numbers when translating packets and break up
   packets into smaller packets after translation, as the control
   channel translation may modify the length of the payload portion of
   the packets in question.  Also, FTP commands/responses or Telnet
   negotiations may straddle packet boundaries, so in order to be able
   to perform the ALG function, it may be necessary to reconstitute
   Telnet negotiations and FTP commands and responses from multiple
   packets.

   If the client issues the AUTH command the client is attempting to
   negotiate [RFC2228] security mechanisms which are likely to be
   incompatible with the FTP ALG function.  In this situation, the FTP
   ALG MUST switch to transparently forwarding all data on the control
   channel in both directions until the end of the control channel
   session.  This requirement applies regardless of the response from
   the server.  I.e., it is the fact that the client attempts the AUTH
   negotiation that requires the ALG to become transparent, not whether
   or not the attempt is successful.

   There have been FTP ALGs for the purpose of making active FTP work
   through IPv4 NATs for a long time.  Another type of ALG would be one
   that imposes restrictions required by security policies.  Multiple
   ALGs can be implemented as a single entity.  Should such a multi-
   purpose ALG forbid the use of the AUTH command for policy reasons,
   the side effect of making the ALG stop performing the translations
   described here, as well as other possible interventions related to
   IPv6-to-IPv4 translation, MUST be retained even if the ALG responds
   to the AUTH command with an error and doesn't propagate the command
   to the server.  (Implementers are further advised that IPv6 hosts
   using an IPv6-to-IPv4 translator will normally have the ability to
   execute FTP over IPv6 without interference from the ALG.)

6.2.  EPSV to PASV translation

   Although many IPv4 FTP servers support the EPSV command, some servers
   react adversely to this command, and there is no reliable way to
   detect in advance that this will happen.  As such, an FTP ALG MAY
   translate all occurrences of the EPSV command issued by the client to
   the PASV command, and reformat a 227 response as a corresponding 229
   response.

   For instance, if the client issues EPSV (or EPSV 2 to indicate IPv6



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   as the network protocol), this is translated to the PASV command.  If
   the server with address 192.0.2.31 then responds with:

   227 Entering Passive Mode (192,0,2,31,237,19)

   The FTP ALG reformats this as:

   229 Entering Extended Passive Mode (|||60691|)

   If the server's 227 response contains an IPv4 address that doesn't
   match the destination of the control channel, the FTP ALG SHOULD send
   the following response to the client:

   425 Can't open data connection.

   It is important that the response is in the 4xx range to indicate a
   temporary condition.

   If the client issues an EPSV command with a numeric argument other
   than 2, the ALG MUST NOT pass the command on to the server, but
   rather respond with a 522 error.

   If the client issues EPSV ALL, the FTP ALG MUST NOT pass this command
   to the server, but respond with:

   202 Command not implemented.

   This avoids the situation where an FTP server may react adversely to
   receiving a PASV command after the client indicated that it will only
   use EPSV during this session.

6.3.  EPRT to PORT translation

   Should the IPv6 client issue an EPRT command, the FTP ALG MAY
   translate this EPRT command to a PORT command.  The translation is
   different depending on whether the translator is a stateless one-to-
   one translator or a stateful one-to-many translator.

6.3.1.  Stateless EPRT translation

   If the address specified in the EPRT command is the client's IPv6
   address, then the FTP ALG reformats the EPRT command into a PORT
   command with the IPv4 address that maps to the client's IPv6 address.
   The port number MUST be preserved for compatibility with stateless
   translators.

   If the address specified in the EPRT command is not the client's IPv4
   address, the ALG's response is undefined.  It may pass along the



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   command unchanged, respond with an error, or attempt to perform an
   appropriate translation.

6.3.2.  Stateful EPRT translation

   If the address in the EPRT command is the IPv6 address of the control
   channel client's address, the stateful translator selects an unused
   port number in combination with the IPv4 address used for the control
   channel towards the FTP server, and sets up a mapping from that
   transport address to the one specified by the client in the EPRT
   command.  The PORT command with the IPv4 address and port used on the
   IPv4 side of the mapping is only issued towards the server once the
   mapping is created.  Initially, the mapping is such that either any
   transport address or the FTP server's IPv4 address with any port
   number is accepted as a source, but once the three-way handshake is
   complete, the mapping is narrowed to only match the negotiated TCP
   session.

   If the address in the EPRT command is not the client's IPv6 address,
   the ALG's response is undefined.

6.4.  Default port 20 translation

   If the client doesn't issue an EPSV/PASV or EPRT/PORT command, it is
   invoking the default active FTP behavior where the server sets up a
   TCP session towards the client.  In this situation, the source port
   number is the default FTP data port (port 20) and the destination
   port is the port the client uses as the source port in the control
   channel session.

   In the case of a stateless translator, this doesn't pose any
   problems.  In the case of a stateful translator, the translator
   SHOULD accept incoming connection requests from the server on the
   IPv4 side if the transport addresses match that of an existing FTP
   control channel session, with the exception that the control channel
   session uses port 21 and the new session port 20.  In this case, a
   mapping is set up towards the same transport address on the IPv6 side
   that is used for the matching FTP control channel session.

   So for instance, the client is 2001:db8:31::6 and the server is
   192.0.2.4.  The translator has prefix 2001:db8:ffff:fffff::/96 as its
   translator prefix and 10.0.0.1 as its IPv4 address.  On the IPv6
   side, the transport addresses for an FTP control channel session
   could then be 2001:db8:31::6,49152 to 2001:db8:ffff:ffff::c000:204,21
   on the IPv6 side and 10.0.0.1,60000 to 192.0.2.4,21 on the IPv4 side.
   If then the FTP server initiates a session from 192.0.2.4,20 to
   10.0.0.1,60000, the translator sets up a mapping from those addresses
   to source 2001:db8:ffff:ffff::c000:204,20 destination 2001:db8:31::



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   6,49152.

   If there is no (unambiguous) match for an existing data channel
   session when an incoming session request on port 20 arrives, the
   connection is refused with a TCP RST.

6.5.  Both PORT and PASV

   [RFC0959] allows a client to issue both PORT and PASV to use non-
   default ports on both sides of the connection.  However, this is
   incompatible with the notion that with PASV the data connection is
   made from the client to the server, while PORT reaffirms the default
   behavior where the server connects to the client.  As such, the
   behavior of an ALG is undefined when a client issues both PASV and
   PORT.

6.6.  Timeouts

   Wherever possible, control channels SHOULD NOT time out while there
   is an active data channel.  A timeout of at least 30 seconds is
   recommended for mappings created by the FTP ALG that are waiting for
   initial packets.

   Whenever a command from the client isn't propagated to the server,
   the FTP ALG instead issues a NOOP command in order to keep the
   keepalive state between the client and the server synchronized.  The
   response to the NOOP command is not sent back to the client.


7.  IANA considerations

   None.


8.  Security considerations

   In the majority of cases, FTP is used without further security
   mechanisms.  This allows a passive attacker to obtain the login
   credentials, and an attacker that can modify packets to change the
   data transferred.  However, FTP can be used with TLS in order to
   solve these issues.  IPv6-to-IPv4 translation and the FTP ALG don't
   impact the security issues in the former case nor the use of TLS in
   the latter case.  However, if FTP is used with TLS or another
   authentication mechanism, the ALG function is not performed so only
   passive transfers from a server that implements EPSV or a client that
   supports PASV will succeed.





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9.  References

9.1.  Normative References

   [RFC0854]  Postel, J. and J. Reynolds, "Telnet Protocol
              Specification", STD 8, RFC 854, May 1983.

   [RFC0959]  Postel, J. and J. Reynolds, "File Transfer Protocol",
              STD 9, RFC 959, October 1985.

   [RFC1123]  Braden, R., "Requirements for Internet Hosts - Application
              and Support", STD 3, RFC 1123, October 1989.

   [RFC2119]  Bradner, S., "Key words for use in RFCs to Indicate
              Requirement Levels", BCP 14, RFC 2119, March 1997.

   [RFC2389]  Hethmon, P. and R. Elz, "Feature negotiation mechanism for
              the File Transfer Protocol", RFC 2389, August 1998.

   [RFC2228]  Horowitz, M., "FTP Security Extensions", RFC 2228,
              October 1997.

   [RFC2428]  Allman, M., Ostermann, S., and C. Metz, "FTP Extensions
              for IPv6 and NATs", RFC 2428, September 1998.

9.2.  Informative References

   [RFC2765]  Nordmark, E., "Stateless IP/ICMP Translation Algorithm
              (SIIT)", RFC 2765, February 2000.

   [I-D.bagnulo-behave-nat64]
              Bagnulo, M., Matthews, P., and I. Beijnum, "NAT64: Network
              Address and Protocol Translation from IPv6 Clients to IPv4
              Servers", draft-bagnulo-behave-nat64-03 (work in
              progress), March 2009.

   [I-D.liu-behave-ftp64]
              Liu, D. and Z. Cao, "IPv6 IPv4 translation FTP
              considerations", draft-liu-behave-ftp64-03 (work in
              progress), August 2009.


Appendix A.  Acknowledgements

   Kentaro Ebisawa, Remi Denis-Courmont, Mayuresh Bakshi, Sarat
   Kamisetty, Reinaldo Penno, Alun Jones, Dave Thaler, Mohammed
   Boucadair, Mikael Abrahamsson and Dapeng Liu contributed ideas and
   comments.  Dan Wing ran experiments with a large number of FTP



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   servers that were very illuminating; many of the choices underlying
   this document are based on his results.  Versions -05 and -06 of this
   document adopts several important design decisions from
   [I-D.liu-behave-ftp64].

   Iljitsch van Beijnum is partly funded by Trilogy, a research project
   supported by the European Commission under its Seventh Framework
   Program.


Appendix B.  Document and discussion information

   The latest version of this document will always be available at
   http://www.muada.com/drafts/.  Please direct questions and comments
   to the BEHAVE or apps area mailinglists or directly to the author.


Author's Address

   Iljitsch van Beijnum
   IMDEA Networks
   Avda. del Mar Mediterraneo, 22
   Leganes, Madrid  28918
   Spain

   Email: iljitsch@muada.com

























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