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Internet Engineering Task Force                 Jun-ichiro itojun Hagino
INTERNET-DRAFT                                   IIJ Research Laboratory
Expires: January 13, 2002                                  July 13, 2001


                Socket API for IPv6 traffic class field
                  draft-itojun-ipv6-tclass-api-03.txt

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.

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.''

To view the list Internet-Draft Shadow Directories, see
http://www.ietf.org/shadow.html.

Distribution of this memo is unlimited.

The internet-draft will expire in 6 months.  The date of expiration will
be January 13, 2002.


Abstract

The draft outlines a socket API proposal for controlling the traffic
class field in the IPv6 header.  The API uses ancillary data stream to
manipulate the traffic class field, following practice in the IPv6
advanced API.

The draft is, at this moment, written separately from the IPv6
basic/advanced API RFCs [Gilligan, 2000; Stevens, 1999] , as there can
be many discussion items.  The ultimate goal of the draft is to be a
part of the IPv6 basic/advanced API.


1.  Background

The IPv6 traffic class field is a 8bit field in the IPv6 header.  The
field serves just like the IPv4 type of service (TOS) field.  There are
two types of proposed use of the field: (1) topmost 6 bits for the
differentiated services (diffserv) field [Nichols, 1998] , and (2)
lowermost 2 bits for explicit congestion notification (ECN)


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[Ramakrishnan, 1999] .  Those two proposals plan to rewrite the field at
intermediate routers.

There is a certain set of applications which need to manipulate and
inspect the traffic class field.  Here are some examples.

o ECN implementations outside of the kernel (like UDP ECN).

o A diffserv-aware application, which tries to mark low-priority traffic
  (such as non-important packets in a video traffic) on its own.  In
  this case, the application does not need to inspect the field on
  outbound traffic.

o Debugging tools for differentiated services.


2.  Inbound traffic

When an application is interested in inspecting the traffic class field
on packets, the application should set the IPV6_RECVTCLASS socket option
to 1:

     /* enable */
     const int on = 1;
     setsockopt(fd, IPPROTO_IPV6, IPV6_RECVTCLASS, &on, sizeof(on));

Subsequent incoming traffic will be accompanied with an ancillary data
item that carries an unsigned octet value.  The ancillary data item will
be tagged with the level IPPROTO_IPV6 and type IPV6_TCLASS.  An
application can obatain the value of the traffic class field by the
following operation, after the recvmsg(2) system call:

     struct cmsghdr *cm;
     u_int8_t tclass;
     if (cm->cmsg_len == CMSG_LEN(sizeof(u_int8_t)) &&
         cm->cmsg_level == IPPROTO_IPV6 &&
         cm->cmsg_type == IPV6_TCLASS)
          tclass = *(u_int8_t *)CMSG_DATA(cm);
     else
          tclass = 0x00; /* could not obtain traffic class value */

By setting the socket option to 0, the behavior is disabled:

     /* disable */
     const int off = 0;
     setsockopt(fd, IPPROTO_IPV6, IPV6_RECVTCLASS, &off, sizeof(off));

For TCP sockets, an ancillary data item will be present only when the
traffic class value is changed.  See section 4.1 (TCP Implications) of
[Stevens, 1999] for details.




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3.  Outbound traffic

To control the value of the traffic class field for a single packet
transmission, you can use an ancillary data item, just like presented
above, with a sendmsg(2) system call.  The level of the ancillary data
item must be IPPROTO_IPV6, and the type must be IPV6_TCLASS.

     int s;  /* socket */
     u_int8_t tclass;
     struct sockaddr_in6 *dst;
     struct msghdr m;
     struct cmsghdr *cm;
     struct iovec iov[2];
     u_char cmsgbuf[256]; /* must be > CMSG_SPACE(sizeof(tclass)) */

     /* set the data buffer to send */
     memset(m, 0, sizeof(m));
     memset(iov, 0, sizeof(iov));
     m.msg_name = (caddr_t)dst;
     m.msg_namelen = sizeof(dst);
     iov[0].iov_base = buf;
     iov[0].iov_len = len;
     m.msg_iov = iov;
     m.msg_iovlen = 1;

     /* set ancillary data for the traffic class field */
     memset(cmsgbuf, 0, sizeof(cmsgbuf));
     cm = (struct cmsghdr *)cmsgbuf;
     m.msg_control = cm;
     m.msg_controllen = CMSG_SPACE(sizeof(tclass));
     cm->cmsg_len = CMSG_LEN(sizeof(tclass));
     cm->cmsg_level = IPPROTO_IPV6;
     cm->cmsg_type = IPV6_TCLASS;
     memcpy(CMSG_DATA(cm), &tclass, sizeof(tclass));

     sendmsg(s, &m, 0);

If you want to put specific value to the traffic class field on multiple
packets, you can use a "sticky" option:

     u_int8_t tclass;
     setsockopt(fd, IPPROTO_IPV6, IPV6_TCLASS, &tclass, sizeof(tclass));


4.  Conflict resolution

There are two entities which may modify the traffic class field, in the
kernel of the originating node: a kernel IPv6 code with diffserv marking
enabled, and an ECN-capable TCP stack.  Those entities may modify the
traffic class field, even if an application tries to manipulate the
value.  It may present a difficult constraint to the API.  For outbound
traffic, even if an application specifies the value to be put into the


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traffic class field, in-kernel mechanism(s) may need to modify the
field.  The specified value may not be reflected into the packet on the
wire (example: outbound processing in an ECN-capable TCP stack).  For
inbound traffic, even if the kernel presents the value on the field to
the application, the value may not be the same as the value on the
packet on the wire, due to manipulation in the kernel (example: traffic
received by a diffserv egress node itself).

The following text proposes a suggested behavior.  One of the goals of
the suggestion is to allow applications to implement UDP ECN by
themselves.  The behavior may need more discussions:

Outbound traffic
     If there is no conflict (for example, the TCP stack is not ECN-
     capable), the kernel should honor the value an application
     specified, and put the specified value into the traffic class field
     as is.  If there is a conflict, the kernel should override the
     value specified by the application, for the part of the field
     (bits) the kernel is using.  For example, if the kernel has an ECN-
     capable TCP stack but does not support diffserv, the kernel should
     override ECN bits only.

Inbound traffic
     Kernel should present the traffic class value appeared on the wire
     as is to applications.  Note that, in some cases, the kernel may
     want to alter specific bits in the field, before presenting the
     value to the userland.  For example, if the kernel implements TCP
     ECN and would like to make it transparent to the user programs, the
     kernel may want to hide ECN bits

>From diffserv and ECN protocol specifications, the traffic class field
may be rewritten by intermediate routers.  So even if the sender
specifies a value, the value may be altered before the packet reaches
the final destination.


5.  Issues

o Revise conflict resolution rule?


6.  Security consideration

The API could be used for attempted theft of service.  An attacker may
try to inject packets, with some specific value in traffic class field,
into a diffserv cloud.  Refer to RFC2474 [Nichols, 1998] section 7.1 for
detail.  Note that the theft of diffserv service is possible even
without the API.






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References

Gilligan, 2000.
R. Gilligan, S. Thomson, J. Bound, and W. Stevens, "Basic Socket
Interface Extensions for IPv6" in draft-ietf-ipngwg-rfc2553bis-00.txt
(May 2000). work in progress material.

Stevens, 1999.
W. Richard Stevens, Matt Thomas, and Eric Nordmark, "Advanced Sockets
API for IPv6" in draft-ietf-ipngwg-rfc2292bis-01.txt (October 1999).
work in progress material.

Nichols, 1998.
K. Nichols, S. Blake, F. Baker, and D. Black, "Definition of the
Differentiated Services Field (DS Field) in the IPv4 and IPv6 Headers"
in RFC2474 (December 1998). ftp://ftp.isi.edu/in-notes/rfc2474.txt.

Ramakrishnan, 1999.
K. Ramakrishnan and S. Floyd, "A Proposal to add Explicit Congestion
Notification (ECN) to IP" in RFC2481 (January 1999).
ftp://ftp.isi.edu/in-notes/rfc2481.txt.


Acknowledgements

The document was made possible by numerous invaluable comments from
members of WIDE research group and KAME team.  Here are people gave
comments on the draft: Brian Carpenter (in no particular order).


Change history

00 -> 01
     Improve the section on security consideration, based on comments
     from Brian Carpenter.

01 -> 02
     Wording nits.

02 -> 03
     Checked with WIDE diffserv/MPLS guys.


Author's address










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     Jun-ichiro itojun HAGINO
     Research Laboratory, Internet Initiative Japan Inc.
     Takebashi Yasuda Bldg.,
     3-13 Kanda Nishiki-cho,
     Chiyoda-ku, Tokyo 101-0054, JAPAN
     Tel: +81-3-5259-6350
     Fax: +81-3-5259-6351
     Email: itojun@iijlab.net














































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