Network Working Group                                          M. Allman
Request for Comments: 2577                  NASA Glenn/Sterling Software
Category: Informational                                     S. Ostermann
                                                         Ohio University
                                                                May 1999


                      FTP Security Considerations

Status of this Memo

   This memo provides information for the Internet community.  It does
   not specify an Internet standard of any kind.  Distribution of this
   memo is unlimited.

Copyright Notice

   Copyright (C) The Internet Society (1999).  All Rights Reserved.

Abstract

   The specification for the File Transfer Protocol (FTP) contains a
   number of mechanisms that can be used to compromise network security.
   The FTP specification allows a client to instruct a server to
   transfer files to a third machine.  This third-party mechanism, known
   as proxy FTP, causes a well known security problem.  The FTP
   specification also allows an unlimited number of attempts at entering
   a user's password.  This allows brute force "password guessing"
   attacks.  This document provides suggestions for system
   administrators and those implementing FTP servers that will decrease
   the security problems associated with FTP.

1   Introduction

   The File Transfer Protocol specification (FTP) [PR85] provides a
   mechanism that allows a client to establish an FTP control connection
   and transfer a file between two FTP servers.  This "proxy FTP"
   mechanism can be used to decrease the amount of traffic on the
   network; the client instructs one server to transfer a file to
   another server, rather than transferring the file from the first
   server to the client and then from the client to the second server.
   This is particularly useful when the client connects to the network
   using a slow link (e.g., a modem).  While useful, proxy FTP provides
   a security problem known as a "bounce attack" [CERT97:27].  In
   addition to the bounce attack, FTP servers can be used by attackers
   to guess passwords using brute force.





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   This document does not contain a discussion of FTP when used in
   conjunction with strong security protocols, such as IP Security.
   These security concerns should be documented, however they are out of
   the scope of this document.

   This paper provides information for FTP server implementers and
   system administrators, as follows.  Section 2 describes the FTP
   "bounce attack".  Section 3 provides suggestions for minimizing the
   bounce attack.  Section 4 provides suggestions for servers which
   limit access based on network address.  Section 5 provides
   recommendations for limiting brute force "password guessing" by
   clients.  Next, section 6 provides a brief discussion of mechanisms
   to improve privacy.  Section 7 provides a mechanism to prevent user
   identity guessing.  Section 8 discusses the practice of port
   stealing.  Finally, section 9 provides an overview of other FTP
   security issues related to software bugs rather than protocol issues.

2   The Bounce Attack

   The version of FTP specified in the standard [PR85] provides a method
   for attacking well known network servers, while making the
   perpetrators difficult to track down.  The attack involves sending an
   FTP "PORT" command to an FTP server containing the network address
   and the port number of the machine and service being attacked.  At
   this point, the original client can instruct the FTP server to send a
   file to the service being attacked.  Such a file would contain
   commands relevant to the service being attacked (SMTP, NNTP, etc.).
   Instructing a third party to connect to the service, rather than
   connecting directly, makes tracking down the perpetrator difficult
   and can circumvent network-address-based access restrictions.

   As an example, a client uploads a file containing SMTP commands to an
   FTP server.  Then, using an appropriate PORT command, the client
   instructs the server to open a connection to a third machine's SMTP
   port.  Finally, the client instructs the server to transfer the
   uploaded file containing SMTP commands to the third machine.  This
   may allow the client to forge mail on the third machine without
   making a direct connection.  This makes it difficult to track
   attackers.

3   Protecting Against the Bounce Attack

   The original FTP specification [PR85] assumes that data connections
   will be made using the Transmission Control Protocol (TCP) [Pos81].
   TCP port numbers in the range 0 - 1023 are reserved for well known
   services such as mail, network news and FTP control connections
   [RP94].  The FTP specification makes no restrictions on the TCP port
   number used for the data connection.  Therefore, using proxy FTP,



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   clients have the ability to tell the server to attack a well known
   service on any machine.

   To avoid such bounce attacks, it is suggested that servers not open
   data connections to TCP ports less than 1024.  If a server receives a
   PORT command containing a TCP port number less than 1024, the
   suggested response is 504 (defined as "Command not implemented for
   that parameter" by [PR85]).  Note that this still leaves non-well
   known servers (those running on ports greater than 1023) vulnerable
   to bounce attacks.

   Several proposals (e.g., [AOM98] and [Pis94]) provide a mechanism
   that would allow data connections to be made using a transport
   protocol other than TCP.  Similar precautions should be taken to
   protect well known services when using these protocols.

   Also note that the bounce attack generally requires that a
   perpetrator be able to upload a file to an FTP server and later
   download it to the service being attacked.  Using proper file
   protections will prevent this behavior.  However, attackers can also
   attack services by sending random data from a remote FTP server which
   may cause problems for some services.

   Disabling the PORT command is also an option for protecting against
   the bounce attack.  Most file transfers can be made using only the
   PASV command [Bel94].  The disadvantage of disabling the PORT command
   is that one loses the ability to use proxy FTP, but proxy FTP may not
   be necessary in a particular environment.

4   Restricted Access

   For some FTP servers, it is desirable to restrict access based on
   network address.  For example, a server might want to restrict access
   to certain files from certain places (e.g., a certain file should not
   be transferred out of an organization).  In such a situation, the
   server should confirm that the network address of the remote hosts on
   both the control connection and the data connection are within the
   organization before sending a restricted file.  By checking both
   connections, a server is protected against the case when the control
   connection is established with a trusted host and the data connection
   is not.  Likewise, the client should verify the IP address of the
   remote host after accepting a connection on a port opened in listen
   mode to verify that the connection was made by the expected server.

   Note that restricting access based on network address leaves the FTP
   server vulnerable to "spoof" attacks.  In a spoof attack, for
   example, an attacking machine could assume the host address of
   another machine inside an organization and download files that are



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   not accessible from outside the organization.  Whenever possible,
   secure authentication mechanisms should be used, such as those
   outlined in [HL97].

5   Protecting Passwords

   To minimize the risk of brute force password guessing through the FTP
   server, it is suggested that servers limit the number of attempts
   that can be made at sending a correct password.  After a small number
   of attempts (3-5), the server should close the control connection
   with the client.  Before closing the control connection the server
   must send a return code of 421 ("Service not available, closing
   control connection." [PR85]) to the client.  In addition, it is
   suggested that the server impose a 5 second delay before replying to
   an invalid "PASS" command to diminish the efficiency of a brute force
   attack.  If available, mechanisms already provided by the target
   operating system should be used to implement the above suggestions.

   An intruder can subvert the above mechanisms by establishing
   multiple, parallel control connections to a server.  To combat the
   use of multiple concurrent connections, the server could either limit
   the total number of control connections possible or attempt to detect
   suspicious activity across sessions and refuse further connections
   from the site.  However, both of these mechanisms open the door to
   "denial of service" attacks, in which an attacker purposely initiates
   the attack to disable access by a valid user.

   Standard FTP [PR85] sends passwords in clear text using the "PASS"
   command.  It is suggested that FTP clients and servers use alternate
   authentication mechanisms that are not subject to eavesdropping (such
   as the mechanisms being developed by the IETF Common Authentication
   Technology Working Group [HL97]).

6   Privacy

   All data and control information (including passwords) is sent across
   the network in unencrypted form by standard FTP [PR85].  To guarantee
   the privacy of the information FTP transmits, a strong encryption
   scheme should be used whenever possible.  One such mechanism is
   defined in [HL97].

7   Protecting Usernames

   Standard FTP [PR85] specifies a 530 response to the USER command when
   the username is rejected.  If the username is valid and a password is
   required FTP returns a 331 response instead.  In order to prevent a
   malicious client from determining valid usernames on a server, it is
   suggested that a server always return 331 to the USER command and



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RFC 2577              FTP Security Considerations               May 1999


   then reject the combination of username and password for an invalid
   username.

8   Port Stealing

   Many operating systems assign dynamic port numbers in increasing
   order.  By making a legitimate transfer, an attacker can observe the
   current port number allocated by the server and "guess" the next one
   that will be used.  The attacker can make a connection to this port,
   thus denying another legitimate client the ability to make a
   transfer.  Alternatively, the attacker can steal a file meant for a
   legitimate user.  In addition, an attacker can insert a forged file
   into a data stream thought to come from an authenticated client.
   This problem can be mitigated by making FTP clients and servers use
   random local port numbers for data connections, either by requesting
   random ports from the operating system or using system dependent
   mechanisms.

9   Software-Base Security Problems

   The emphasis in this document is on protocol-related security issues.
   There are a number of documented FTP security-related problems that
   are due to poor implementation as well.  Although the details of
   these types of problems are beyond the scope of this document, it
   should be pointed out that the following FTP features has been abused
   in the past and should be treated with great care by future
   implementers:

   Anonymous FTP

      Anonymous FTP refers to the ability of a client to connect to an
      FTP server with minimal authentication and gain access to public
      files.  Security problems arise when such a user can read all
      files on the system or can create files. [CERT92:09] [CERT93:06]

   Remote Command Execution

      An optional FTP extension, "SITE EXEC", allows clients to execute
      arbitrary commands on the server.  This feature should obviously
      be implemented with great care.  There are several documented
      cases of the FTP "SITE EXEC" command being used to subvert server
      security [CERT94:08] [CERT95:16]

   Debug Code

      Several previous security compromises related to FTP can be
      attributed to software that was installed with debugging features
      enabled [CERT88:01].



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   This document recommends that implementors of FTP servers with these
   capabilities review all of the CERT advisories for attacks on these
   or similar mechanisms before releasing their software.

10  Conclusion

   Using the above suggestions can decrease the security problems
   associated with FTP servers without eliminating functionality.

11  Security Considerations

   Security issues are discussed throughout this memo.

Acknowledgments

   We would like to thank Alex Belits, Jim Bound, William Curtin, Robert
   Elz, Paul Hethmon, Alun Jones and Stephen Tihor for their helpful
   comments on this paper.  Also, we thank the FTPEXT WG members who
   gave many useful suggestions at the Memphis IETF meeting.

References

   [AOM98]     Allman, M., Ostermann, S. and C. Metz, "FTP Extensions
               for IPv6 and NATs", RFC 2428, September 1998.

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

   [CERT88:01] CERT Advisory CA-88:01. ftpd Vulnerability. December,
               1988 ftp://info.cert.org/pub/cert_advisories/

   [CERT92:09] CERT Advisory CA-92:09. AIX Anonymous FTP Vulnerability.
               April 27, 1992. ftp://info.cert.org/pub/cert_advisories/

   [CERT93:06] CERT Advisory CA-93:06. Wuarchive ftpd Vulnerability.
               September 19,1997
               ftp://info.cert.org/pub/cert_advisories/

   [CERT94:08] CERT Advisory CA-94:08. ftpd Vulnerabilities. September
               23, 1997.  ftp://info.cert.org/pub/cert_advisories/

   [CERT95:16] CERT Advisory CA-95:16. wu-ftpd Misconfiguration
               Vulnerability.  September 23, 1997
               ftp://info.cert.org/pub/cert_advisories/

   [CERT97:27] CERT Advisory CA-97.27. FTP Bounce.  January 8, 1998.
               ftp://info.cert.org/pub/cert_advisories/




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RFC 2577              FTP Security Considerations               May 1999


   [HL97]      Horowitz, M. and S. Lunt, "FTP Security Extensions", RFC
               2228, October 1997.

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

   [Pos81]     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

Authors' Addresses

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

   EMail: mallman@grc.nasa.gov


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

   EMail: ostermann@cs.ohiou.edu


















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