RFC 2023 IP Version 6 over PPP

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Obsoleted by: 2472 PROPOSED STANDARD

Network Working Group                                         D. Haskin
Request for Comments: 2023                                     E. Allen
Category: Standards Track                            Bay Networks, Inc.
                                                           October 1996

                         IP Version 6 over PPP

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.

Abstract

   The Point-to-Point Protocol (PPP) [1] provides a standard method of
   encapsulating Network Layer protocol information over point-to-point
   links.  PPP also defines an extensible Link Control Protocol, and
   proposes a family of Network Control Protocols (NCPs) for
   establishing and configuring different network-layer protocols.

   This document defines the method for transmission of IP Version 6 [2]
   packets over PPP links as well as the Network Control Protocol (NCP)
   for establishing and configuring the IPv6 over PPP. It also specifies
   the method of forming IPv6 link-local addresses on PPP links.

Table of Contents

   1.     Introduction ..........................................    2
        1.1.  Specification of Requirements ......................   2
   2.     Sending IPv6 Datagrams ................................    3
   3.     A PPP Network Control Protocol for IPv6 ...............    3
   4.     IPV6CP Configuration Options ..........................    4
        4.1.  Interface-Token ...................................    4
        4.2.  IPv6-Compression-Protocol..........................    7
   5.     Stateless Autoconfiguration and Link-Local Addresses ..    9
   A.     IPV6CP Recommended Options .............................   9
   Security Considerations .......................................  10
   References ....................................................  10
   Acknowledgments ...............................................  10
   Authors' Addresses ............................................  10








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1.  Introduction

   PPP has three main components:

      1. A method for encapsulating datagrams over serial links.

      2. A Link Control Protocol (LCP) for establishing, configuring,
         and testing the data-link connection.

      3. A family of Network Control Protocols (NCPs) for establishing
         and configuring different network-layer protocols.

   In order to establish communications over a point-to-point link, each
   end of the PPP link must first send LCP packets to configure and test
   the data link.  After the link has been established and optional
   facilities have been negotiated as needed by the LCP, PPP must send
   NCP packets to choose and configure one or more network-layer
   protocols.  Once each of the chosen network-layer protocols has been
   configured,  datagrams from each network-layer protocol can be sent
   over the link.

   In this document, the NCP for establishing and configuring the IPv6
   over PPP is referred as the IPv6 Control Protocol (IPV6CP).

   The link will remain configured for communications until explicit LCP
   or NCP packets close the link down,  or until some external event
   occurs (power failure at the other end, carrier drop, etc.).

1.1.  Specification of Requirements

   In this document, several words are used to signify the requirements
   of the specification.  These words are often capitalized.

   MUST      This word, or the adjective "required", means that the
             definition is an absolute requirement of the specification.

   MUST NOT  This phrase means that the definition is an absolute
             prohibition of the specification.

   SHOULD    This word, or the adjective "recommended", means that there
             may exist valid reasons in particular circumstances to
             ignore this item, but the full implications must be
             understood and carefully weighed before choosing a
             different course.

   MAY       This word, or the adjective "optional", means that this
             item is one of an allowed set of alternatives.  An
             implementation which does not include this option MUST be



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             prepared to inter-operate with another implementation which
             does include the option.

2. Sending IPv6 Datagrams

   Before any IPv6 packets may be communicated, PPP must reach the
   Network-Layer Protocol phase, and the IPv6 Control Protocol must
   reach the Opened state.

   Exactly one IPv6 packet is encapsulated in the Information field of
   PPP Data Link Layer frames where the Protocol field indicates type
   hex 0057 (Internet Protocol Version 6).

   The maximum length of an IPv6 packet transmitted over a PPP link is
   the same as the maximum length of the Information field of a PPP data
   link layer frame.  PPP links supporting IPv6 must allow at least 576
   octets in the information field of a data link layer frame.

3. A PPP Network Control Protocol for IPv6

   The IPv6 Control Protocol (IPV6CP) is responsible for configuring,
   enabling, and disabling the IPv6 protocol modules on both ends of the
   point-to-point link.  IPV6CP uses the same packet exchange mechanism
   as the Link Control Protocol (LCP).  IPV6CP packets may not be
   exchanged until PPP has reached the Network-Layer Protocol phase.
   IPV6CP packets received before this phase is reached should be
   silently discarded.

   The IPv6 Control Protocol is exactly the same as the Link Control
   Protocol [1] with the following exceptions:

   Data Link Layer Protocol Field

     Exactly one IPV6CP packet is encapsulated in the Information field
     of PPP Data Link Layer frames where the Protocol field indicates
     type hex 8057 (IPv6 Control Protocol).

   Code field

     Only Codes 1 through 7 (Configure-Request, Configure-Ack,
     Configure-Nak, Configure-Reject, Terminate-Request, Terminate-Ack
     and Code-Reject) are used.  Other Codes should be treated as
     unrecognized and should result in Code-Rejects.








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   Timeouts

   IPV6CP packets may not be exchanged until PPP has reached the
   Network-Layer Protocol phase.  An implementation should be prepared
   to wait for Authentication and Link Quality Determination to finish
   before timing out waiting for a Configure-Ack or other response.  It
   is suggested that an implementation give up only after user
   intervention or a configurable amount of time.

   Configuration Option Types

     IPV6CP has a distinct set of Configuration Options, which are
     defined below.

4.  IPV6CP Configuration Options

   IPV6CP Configuration Options allow negotiation of desirable IPv6
   parameters.  IPV6CP uses the same Configuration Option format defined
   for LCP [1], with a separate set of Options.  If a Configuration
   Option is not included in a Configure-Request packet,  the default
   value for that Configuration Option is assumed.

   Up-to-date values of the IPV6CP Option Type field are specified in
   the most recent "Assigned Numbers" RFC [5].  Current values are
   assigned as follows:

    1       Interface-Token
    2       IPv6-Compression-Protocol


4.1.  Interface-Token

   Description

      This Configuration Option provides a way to negotiate a unique
      32-bit interface token to be used for the address
      autoconfiguration [3] at the local end of the link (see section
      5).  The interface token MUST be unique within the PPP link; i.e.
      upon completion of the negotiation different Interface-Token
      values are to be selected for the ends of the PPP link.

      Before this Configuration Option is requested, an implementation
      must choose its tentative Interface-Token.  It is recommended that
      a non-zero value be chosen in the most random manner possible in
      order to guarantee with very high probability that an
      implementation will arrive at a unique token value.  A good way to
      choose a unique random number is to start with a unique seed.
      Suggested sources of uniqueness include machine serial numbers,



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      other network hardware addresses, system clocks, etc. Note that it
      may not be sufficient to use a link-layer address alone as the
      seed, since it will not always be unique.  Thus it is suggested
      that the seed should be calculated from a variety of sources that
      are likely to be different even on identical systems and as many
      sources as possible be used simultaneously.  Good sources of
      uniqueness or randomness are required for the Interface-Token
      negotiation to succeed.  If a good source of randomness cannot be
      found,  it is recommended that a zero value be used for the
      Interface-Token transmitted in the Configure-Request.  In this
      case the PPP peer may provide a valid non-zero Interface-Token in
      its response as described below.  Note that if at least one of the
      PPP peers is able to generate a unique random number, the token
      negotiation will succeed.

      When a Configure-Request is received with the Interface-Token
      Configuration Option and the receiving peer implements this
      option, the received Interface-Token is compared with the
      Interface-Token of the last Configure-Request sent to the peer.
      Depending on the result of the comparison an implementation MUST
      respond in one of the following ways:

      If the two Interface-Tokens are different but the received
      Interface-Token is zero, a Configure-Ack is sent with a non-zero
      Interface-Token value suggested for use by the remote peer.  Such
      a suggested Interface-Token MUST be different from the Interface-
      Token of the last Configure-Request sent to the peer.

      If the two Interface-Tokens are different and the received
      Interface-Token is not zero, the Interface-Token MUST be
      acknowledged, i.e. a Configure-Ack is sent with the requested
      Interface-Token, meaning that the responding peer agrees with the
      Interface-Token requested.

      If the two Interface-Tokens are equal and are not zero, a
      Configure-Nak MUST be sent specifying a different non-zero
      Interface-Token value suggested for use by the remote peer.

      If the two Interface-Tokens are equal to zero,  the Interface-
      Tokens negotiation MUST be terminated by transmitting the
      Configure-Reject with the Interface-Token value set to zero. In
      this case a unique Interface-Token can not be negotiated.

      If a Configure-Request is received with the Interface-Token
      Configuration Option and the receiving peer does not implement
      this option, Configure-Rej is sent.





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      A new Configure-Request SHOULD NOT be sent to the peer until
      normal processing would cause it to be sent (that is, until a
      Configure-Nak is received or the Restart timer runs out).

      A new Configure-Request MUST NOT contain the Interface-Token
      option if a valid Interface-Token Configure-Reject is received.

      Reception of a Configure-Nak with a suggested Interface-Token
      different from that of the last Configure-Nak sent to the peer
      indicates a unique Interface-Token.  In this case a new
      Configure-Request MUST be sent with the token value suggested in
      the last Configure-Nak from the peer.  But if the received
      Interface-Token is equal to the one sent in the last Configure-
      Nak, a new Interface-Token MUST be chosen.  In this case, a new
      Configure-Request SHOULD be sent with the new tentative
      Interface-Token.  This sequence (transmit Configure-Request,
      receive Configure-Request, transmit Configure-Nak, receive
      Configure-Nak) might occur a few times, but it is extremely
      unlikely to occur repeatedly.  More likely, the Interface-Tokens
      chosen at either end will quickly diverge, terminating the
      sequence.

      If negotiation about the Interface-Token is required, and the peer
      did not provide the option in its Configure-Request, the option
      SHOULD be appended to a Configure-Nak.  The tentative value of the
      Interface-Token given must be acceptable as the remote Interface-
      Token; i.e. should be different from the token value selected for
      the local end of the PPP link.  The next Configure-Request from
      the peer may include this option.  If the next Configure-Request
      does not include this option the peer MUST NOT send another
      Configure-Nak with this option included. It should assume that the
      peer's implementation does not support this option.

      By default, an implementation SHOULD attempt to negotiate the
      Interface-Token for its end of the PPP connection.
















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   A summary of the Interface-Token Configuration Option format is
   shown below.  The fields are transmitted from left to right.

    0                   1                   2                   3
    0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
   |     Type      |    Length     |        Interface-Token
   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
         Interface-Token (cont)    |
   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   Type

      1

   Length

      6

   Interface-Token

      The 32-bit Interface-Token which is very likely to  be unique on
      the link or zero if a good source of uniqueness can not be found.

   Default Token Value

      If no valid interface token can be successfully negotiated, no
      default Interface-Token value should be assumed. The procedures
      for recovering from such a case are unspecified. One approach is
      to manually configure the interface token of the interface.

4.2.  IPv6-Compression-Protocol

   Description

      This Configuration Option provides a way to negotiate the use of a
      specific IPv6 packet compression protocol.  The IPv6-Compression-
      Protocol Configuration Option is used to indicate the ability to
      receive compressed packets.  Each end of the link must separately
      request this option if bi-directional compression is desired.  By
      default, compression is not enabled.

      IPv6 compression negotiated with this option is specific to IPv6
      datagrams and is not to be confused with compression resulting
      from negotiations via Compression Control Protocol (CCP), which
      potentially effect all datagrams.





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   A summary of the IPv6-Compression-Protocol Configuration Option
   format is shown below.  The fields are transmitted from left to
   right.

    0                   1                   2                   3
    0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
   |     Type      |    Length     |   IPv6-Compression-Protocol   |
   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
   |    Data ...
   +-+-+-+-+

   Type

      2

   Length

      >= 4

   IPv6-Compression-Protocol

      The IPv6-Compression-Protocol field is two octets and indicates
      the compression protocol desired.  Values for this field are
      always the same as the PPP Data Link Layer Protocol field values
      for that same compression protocol.

      Up-to-date values of the IPv6-Compression-Protocol field are
      specified in the most recent "Assigned Numbers" RFC [5].

      Current values are assigned as follows:

      Value (in hex)          Protocol

      004f                    IPv6 Header Compression

   Data

      The Data field is zero or more octets and contains additional data
      as determined by the particular compression protocol.

   Default

      No IPv6 compression protocol enabled.







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5.  Stateless Autoconfiguration and Link-Local Addresses

   The interface token, which is used for forming IPv6 addresses of a
   PPP interface, SHOULD be negotiated in the IPV6CP phase of the PPP
   connection setup (see section 4.1). If no valid interface token has
   been successfully negotiated, procedures for recovering from such a
   case are unspecified.  One approach is to manually configure the
   interface token of the interface.

   As long as the interface token is negotiated in the IPV6CP phase of
   the PPP connection setup,  it is redundant to perform duplicate
   address detection as a part of the IPv6 Stateless Autoconfiguration
   protocol [3].  Therefore it is recommended that for PPP links with
   the IPV6CP Interface-Token option enabled the default value of the
   DupAddrDetectTransmits autoconfiguration variable [3] be zero.

   Link-local addresses of PPP interfaces have the following format:

   | 10 bits  |              86 bits               |     32 bits     |
   +----------+--------------+---------------------+-----------------+
   |1111111010|              0                     | Interface Token |
   +----------+--------------+---------------------+-----------------+

   The most significant 10 bits of the address is the Link-Local prefix
   FE80::.  86 zero bits pad out the address between the Link-Local
   prefix and the Interface Token fields.

A.  IPV6CP Recommended Options

   The following Configurations Options are recommended:

      Interface-Token

      IPv6-Compression-Protocol

















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Security Considerations

   Security issues are not discussed in this memo.

References


   [1] Simpson, W., "The Point-to-Point Protocol", STD 51, RFC 1661,
       July 1994.

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

   [2] Hinden, R., and  S. Deering, "IP Version 6 Addressing
       Architecture", RFC 1884, December 1995.

   [3] Thomson, S., and T. Narten, "IPv6 Stateless Address
        Autoconfiguration", RFC 1971, August 1996.

   [4] Narten, T., Nordmark, E., and W. Simpson, "Neighbor Discovery
       for IP Version 6 (IPv6)", RFC 1970, August 1996.

   [5] Reynolds, J., and J. Postel, "Assigned Numbers", STD 2, RFC
       1700, October 1994.

Acknowledgments

   This document borrows from the Magic-Number LCP option and as such is
   partially based on previous work done by the PPP working group.

Authors' Addresses

   Dimitry Haskin
   Bay Networks, Inc.
   2 Federal Street
   Billerica, MA 01821
   email: dhaskin@baynetworks.com

   Ed Allen
   Bay Networks, Inc.
   2 Federal Street
   Billerica, MA 01821
   email: eallen@baynetworks.com








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