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RFC 165 - Proffered Official Initial Connection Protocol


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Network Working Group                                          J. Postel
Request for Comments: 165                                     UCLA - NMC
Obsoletes: 123, 143, 145                                    May 25, 1971
NIC: 6779

           A Preferred Official Initial Connection Protocol*

   This document specifies the their level protocol used to connect a
   user process at one site with a server process at another site.  In
   one instance, the user process will be a Telnet and the server
   process will be a Logger, but there will be other cases.

   This document describes a family of Initial Connection Protocols
   (ICP's) suitable for establishing one pair of connections between any
   user process and any server process, and further to describe the
   parameter values for connecting Telnets and Loggers.  The description
   will be at two levels, the third or user level, and the second or NCP
   level.

Third Level Description

Notation

   There is no standard notation for describing system calls, which
   initiate and close connections or cause data to be sent, so the
   following *ad hoc* notation will be used.

   Init (local = l, foreign = f, size = s)

           Causes the local Host to attempt to establish a connection
           between socket l at the local Host and socket f, with a byte
           size of s for the connection.

           l is a 32 bit local socket number,
           f is a 40 bit foreign socket number, the high-order eight
             bits of which specify the foreign Host, and
           s is an eight bit non-zero byte size.

           The sum of l and f must be odd.

   Listen (local = l, size = s)

           Causes the local Host to wait for a request for connection to
           local socket l with byte size s.  The process will be woken
           when a connection is established.  The parameters l and s are
           the same as for Init.

   Send  (socket = l, data = d)

           The data named by d is sent over the connection attached to
           local socket l.  l must be a send socket attached to a
           connection.  d is the name of a data area.

   Receive (socket = l, data = d)

           The receive side counterpart to send.

   Close (socket = l)

           Any connection currently attached to local socket l is
           closed.

A Family of ICP's

   Briefly, a server process at a site attaches a well-advertised send
   socket L and listens.  A user process initiates connection to L from
   its receive socket U.  The byte size for this connection is 32. The
   server process then transmits a 32-bit even number S and closes the
   connection.  The 32-bit number S and its successor, S+1, are the
   socket numbers the server will use.  The final steps are for sockets
   S and S+1 at the server site to be connected to sockets U+3 and U+2
   respectively at the user site.

   Using the notation, the server executes the following sequence:

      Listen (socket = L, size = 32)
      [Wait until a user connects]
      Send (socket = L, data = S)
      Close (socket = L)
      Init (local = S, Foreign = U+3, size Bu)
      Init (local = S+1, foreign = U+2, size Bs)

   The user executes the following:

      Init (local = U, foreign = L, size = 32)
      Receive (socket = U, data = S)
      Optional Close (socket = U)
      Listen or Init (local U+3, foreign = S, size = Bu)
      Listen or Init (local = U+2, foreign = S+1, size = Bs)

   Note that L is a send socket (odd), while S and U are receive sockets
   (even).  Where L, S, or U are used as values of local, they are 32-
   bit numbers; where they are values of foreign, they are 40-bit
   numbers.  The parameters Bs and Bu are the byte sizes to be sent by

   the server and user, respectively.  If the user side declines to
   close socket U, then it must be handled automatically by the second
   level (see page 4).

   Examination of the above sequences reveals that an ICP is
   characterized by three numbers L, Bs, and Bu, and must meet the
   restrictions that

      a) L is a send socket,
      b) Bs and Bu are legal byte sizes, and
      c) For each L there is only one pair of associated byte sizes.

   This last restriction prevents two district services from being
   available through the same socket and distinguished only by the byte
   sizes.

Second Level Description

Notation

   The following notation will be used for the NCP Control Command used
   in ICP.

           STR (_ls_, _fs_, _s_)
                   _ls_ = local send socket
                   _fs_ = foreign receive socket
                   _s_ = byte size

           RTS (_ls_, _fs_, _l_)
                   _ls_ = local receive socket
                   _fs_ = foreign send socket
                   _l_ = link

           ALL (_l_, _m_, _b_)
                   _l_ = link
                   _m_ = message allocation
                   _b_ = bit allocation

           CLS (_ls_, _fs_)
                   _ls_  = local socket
                   _fs_ = foreign socket

   The same family of ICP's is now described again.

   Server                          User

   S1: listening on socket L.      U1: RTS (U, L, _l1_)

   S2: Wait for match.             U2: Wait for match.

   S3: STR (L, U, _s1_)

   S4: Wait for allocation.        U3: All (_l1_, _m1_, _b1_)

   S5: Send data S in_s1_ bit      U4: Receive data S in s1 bit bytes.
       bytes as allowed by             _s1_ bit bytes.
       allocation m1_, _b1_).

   S6: CLS (L, U)                  U5: CLS (U, L)

   S7: RTS (S, U+3, _l2_)          U6: STR (U+3, S, _s2_)

   S8: STR (S+1, U+2, _s3_)        U7: RTS (U+2, S+1, _l3_)

   The labels here imply no ordering except that ordering required by
   the Host-Host Protocol.  Note that steps S7 and S8 can be reversed as
   can U6 and U7.  Also, notice that at any time after S2 the server
   could initiate steps S7 and S8 in parallel with steps S3 through S6,
   and that at any time after U4 the user could initiate steps U6 and U7
   in parallel with step U5.

   Following the above, exchanges ALL commands would be exchanged and
   data transfers could begin.

   At this level the parameters of the above ICP family are L, _m1_,
   _b1_, _s1_, _s2_, _s3_, _l1_, _l2_, _l3_.

   L is a well known socket number and will be specified for each type
   of service.

   m1 and b1 are allocation quantities for the transfer of a socket
   number.

      _m1_ is specified to be 1.
      _b1_ is specified to be 32.
      _s1_, _s2_, and _s3_ are byte sizes.  Only _s1_ is to be specified
         as _s2_ and _s3_ are to be left to the process involved.
      _s1_ is specified to be 32.

      _l1_, _l2_, and _l3_ are links and are not specified.

   Note: Some hosts currently have difficulty sending 32 bit bytes.
   Thus, it is temporarily allowed to send the socket number S as four 8
   bit bytes in one message.

   It is legal for the NCP to receive RTS or STR before the
   corresponding local Init or Listen is issued.  Therefore, it is
   suggested that requests for connection to idle sockets be queued as
   allowed by time and space limitations.

Telnet - Logger ICP

   For connecting Telnet and Logger processes, the ICP parameters are
   L=1, Bu, _s2_, and Bs = _s3_ = 8. (To clarify the socket number
   required, L = X'00000001').

Formalities

   This proposed official protocol will become official if no serious
   objections are raised before 2 June 71.  A telephone survey of
   Network Liaisons will be conducted by Jon Postel before that date.
   If no objections are raised, this protocol will be declared official
   by the Working Group chairman.

   * This document is based on RFC 123 by S. Crocker and discussions by
     the ICP Committee.

 

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