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INTERNET DRAFT		EXPIRES AUGUST 1998		INTERNET DRAFT

DRAFT                                                  P. Newman, Nokia

Network Working Group                                W. Edwards, Sprint

Category: Informational                                R. Hinden, Nokia

                                                      E. Hoffman, Nokia

                                                          F. Ching Liaw

                                                         T. Lyon, Nokia

                                                 G. Minshall, Fiberlane

                                                          February 1998




       Ipsilon's General Switch Management Protocol Specification

                              Version 2.0
		<draft-rfced-info-ipsilon-00.txt>





Status of This Memo

This document is an Internet-Draft.  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 learn the current status of any Internet-Draft, please check
the "1id-abstracts.txt" listing contained in the Internet-
Drafts Shadow Directories on ftp.is.co.za (Africa),  
ftp.nordu.net (Europe), munnari.oz.au (Pacific Rim),
ds.internic.net (US East Coast), or ftp.isi.edu (US West Coast).

Distribution of this document is unlimited.



Abstract


   This memo specifies enhancements to the  General Switch Management
   Protocol (GSMP) [rfc1987]. The major enhancement is the addition of
   Quality of Service (QoS) messages. Other improvements have been made
   to the protocol resulting from operational experience. GSMP is a
   general purpose protocol to control an ATM switch. It allows a
   controller to establish and release connections across the switch;
   add and delete leaves on a multicast connection; manage switch ports;
   request configuration information; and request statistics.


















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Table of Contents


   1. Introduction....................................................3


   2. GSMP Packet Encapsulation.......................................4

      2.1 ATM Encapsulation...........................................4

      2.2 Ethernet Encapsulation......................................6


   3. Common Definitions and Procedures...............................7

      3.1 GSMP Packet Format..........................................8

      3.2 Failure Response Messages..................................11


   4. Connection Management Messages.................................16

      4.1 Add Branch Message.........................................21

      4.2 Delete Tree Message........................................23

      4.3 Verify Tree Message........................................24

      4.4 Delete All Message.........................................24

      4.5 Delete Branches Message....................................25

      4.6 Move Branch Message........................................27


   5. Port Management Messages.......................................29

      5.1 Port Management Message....................................29

      5.2 Label Range Message........................................34


   6. State and Statistics Messages..................................37

      6.1 Connection Activity Message................................38

      6.2 Statistics Messages........................................40

          6.2.1 Port Statistics Message..............................44

          6.2.2 Connection Statistics Message........................44

          6.2.3 QoS Class Statistics Message.........................44

      6.3 Report Connection State Message............................45


   7. Configuration Messages.........................................49

      7.1 Switch Configuration Message...............................50

      7.2 Port Configuration Message.................................51

      7.3 All Ports Configuration Message............................57


   8. Event Messages.................................................59

      8.1 Port Up Message............................................60

      8.2 Port Down Message..........................................60

      8.3 Invalid VPI/VCI Message....................................61

      8.4 New Port Message...........................................61

      8.5 Dead Port Message..........................................61


   9. Quality of Service Messages....................................61

      9.1 Abstract Switch Model......................................62

      9.2 QoS Configuration Message..................................66

      9.3 Scheduler Establishment Message............................74




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      9.4 QoS Class Establishment Message............................78

      9.5 QoS Release Message........................................84

      9.6 QoS Connection Management Message..........................86

      9.7 QoS Failure Response Codes.................................96


   10. Adjacency Protocol............................................97

      10.1 Packet Format.............................................97

      10.2 
Procedure.................................................100

      10.3 Loss of 
Synchronization...................................103


   11. Summary of Failure Response 
Codes.............................103


   12. Summary of Message 
Set........................................105


   
References........................................................107

   Security 
Considerations...........................................107

   Authors' 
Addresses................................................107





1. Introduction


   The General Switch Management Protocol (GSMP), is a general purpose

   protocol to control an ATM switch. GSMP allows a controller to

   establish and release connections across the switch; add and delete

   leaves on a multicast connection; manage switch ports; request

   configuration information; and request statistics. It also allows 
the

   switch to inform the controller of asynchronous events such as a 
link

   going down. GSMP runs across an ATM link connecting the controller 
to

   the switch, on a control connection (virtual channel) established at

   initialization. GSMP operation across an Ethernet link is also

   specified. The GSMP protocol is asymmetric, the controller being the

   master and the switch being the slave. Multiple switches may be

   controlled by a single controller using multiple instantiations of

   the protocol over separate control connections.


   A switch is assumed to contain multiple "ports". Each port is a

   combination of one "input port" and one "output port". Some GSMP

   requests refer to the port as a whole whereas other requests are

   specific to the input port or the output port.  ATM cells arrive at

   the switch from an external communication link on incoming virtual

   paths or virtual channels at an input port. ATM cells depart from 
the

   switch to an external communication link on outgoing virtual paths 
or

   virtual channels from an output port. Virtual paths on a port or 
link

   are referenced by their virtual path identifier (VPI).  Virtual

   channels on a port or link are referenced by their virtual path and

   virtual channel identifiers (VPI/VCI).




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   A virtual channel connection across a switch is formed by connecting

   an incoming virtual channel to one or more outgoing virtual 
channels.

   Virtual channel connections are referenced by the input port on 
which

   they arrive and the virtual path and virtual channel identifiers

   (VPI/VCI) of their incoming virtual channel. A virtual path

   connection across a switch is formed by connecting an incoming

   virtual path to one or more outgoing virtual paths. Virtual path

   connections are referenced by the input port on which they arrive 
and

   their virtual path identifier (VPI).  In a virtual path connection

   the value of the VCI in each cell on that, connection is not used by

   the switch and remains unchanged by the switch.


   GSMP supports point-to-point and point-to-multipoint connections. A

   multipoint-to-point connection is specified by establishing multiple

   point-to-point connections each of them specifying the same output

   branch.  A multipoint-to-multipoint connection is specified by

   establishing multiple point-to-multipoint trees each of them

   specifying the same output branches.


   In general a virtual channel is established with a certain quality 
of

   service (QoS). A rich set of QoS messages is introduced in this

   version of the protocol. However, implementation or operation of 
GSMP

   without any of the messages defined in Section 9, "Quality of 
service

   messages," is permitted.  In this case each virtual channel

   connection or virtual path connection may be assigned a priority 
when

   it is established. It may be assumed that for virtual connections

   that share the same output port, an ATM cell on a connection with a

   higher priority is much more likely to exit the switch before an ATM

   cell on a connection with a lower priority if they are both in the

   switch at the same time. The number of priorities that each port of

   the switch supports may be obtained from the port configuration

   message.


   GSMP contains an adjacency protocol. The adjacency protocol is used

   to synchronize state across the link, to negotiate which version of

   the GSMP protocol to use, to discover the identity of the entity at

   the other end of a link, and to detect when it changes.



2. GSMP Packet Encapsulation


2.1 ATM Encapsulation


   GSMP packets are variable length and for an ATM data link layer they

   are encapsulated directly in an AAL-5 CPCS-PDU [I.363] with an

   LLC/SNAP header as illustrated:






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    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |               LLC (0xAA-AA-03)                |               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+               +

   |                   SNAP (0x00-00-00-88-0C)                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   ~                         GSMP Message                          ~

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                     Pad (0 - 47 octets)                       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   +               AAL-5 CPCS-PDU Trailer (8 octets)               +

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   (The convention in the documentation of Internet Protocols [rfc1700]

   is to express numbers in decimal. Numbers in hexadecimal format are

   specified by prefacing them with the characters "0x".  Data is

   pictured in "big-endian" order. That is, fields are described left 
to

   right, with the most significant octet on the left and the least

   significant octet on the right. Whenever a diagram shows a group of

   octets, the order of transmission of those octets is the normal 
order

   in which they are read in English. Whenever an octet represents a

   numeric quantity the left most bit in the diagram is the high order

   or most significant bit. That is, the bit labeled 0 is the most

   significant bit. Similarly, whenever a multi-octet field represents 
a

   numeric quantity the left most bit of the whole field is the most

   significant bit. When a multi-octet quantity is transmitted, the 
most

   significant octet is transmitted first. This is the same coding

   convention as is used in the ATM layer [I.361] and AAL-5 [I.363].)


   The LLC/SNAP header contains the octets: 0xAA 0xAA 0x03 0x00 0x00

   0x00 0x88 0x0C. (0x880C is the assigned Ethertype for GSMP.)


   The maximum transmission unit (MTU) of the GSMP Message field is 
1492

   octets.


   The virtual channel over which a GSMP session is established between

   a controller and the switch it is controlling is called the GSMP

   control channel.  The default VPI and VCI of the GSMP control 
channel

   for LLC/SNAP encapsulated GSMP messages on an ATM data link layer 
is:


      VPI = 0

      VCI = 15.





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2.2 Ethernet Encapsulation


   GSMP packets may be encapsulated on an Ethernet data link as

   illustrated:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Destination Address                      |

   |                               +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                               |                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+                               |

   |                         Source Address                        |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |     Ethertype (0x88-0C)       |                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+                               |

   |                                                               |

   ~                         GSMP Message                          ~

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                        Sender Instance                        |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                       Receiver Instance                       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                              Pad                              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                       Frame Check Sequence                    |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Destination Address

             For the SYN message of the adjacency protocol the

             Destination Address is the broadcast address

             0xFFFFFFFFFFFF. (Alternatively, it is also valid to

             configure the node with the unicast 48-bit IEEE MAC 
address

             of the destination. In this case the configured unicast

             Destination Address is used in the SYN message.)  For all

             other messages the Destination Address is the unicast

             48-bit IEEE MAC address of the destination. This address

             may be discovered from the Source Address field of 
messages

             received during synchronization of the adjacency protocol.


   Source Address

             For all messages the Source Address is the 48-bit IEEE MAC

             address of the sender.


   Ethertype

             The assigned Ethertype for GSMP is 0x880C.





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   GSMP Message

             The maximum transmission unit (MTU) of the GSMP Message

             field is 1492 octets.


   Sender Instance

             The Sender Instance number for the link obtained from the

             adjacency protocol.  This field is already present in the

             adjacency protocol message. It is appended to all non-

             adjacency GSMP messages in the Ethernet encapsulation to

             offer additional protection against the introduction of

             corrupt state.


   Receiver Instance

             The Receiver Instance number is what the sender believes 
is

             the current instance number for the link, allocated by the

             entity at the far end of the link.  This field is already

             present in the adjacency protocol message. It is appended

             to all non-adjacency GSMP messages in the Ethernet

             encapsulation to offer additional protection against the

             introduction of corrupt state.


   Pad

             The minimum length of the data field of an Ethernet packet

             is 46 octets.  If necessary, padding should be added such

             that it meets the minimum Ethernet frame size. This 
padding

             should be octets of zero and it is not considered to be

             part of the GSMP message.


   After the adjacency protocol has achieved synchronization, for every

   GSMP message received with an Ethernet encapsulation, the receiver

   must check the Source Address from the Ethernet MAC header, the

   Sender Instance, and the Receiver Instance.  The incoming GSMP

   message must be discarded if the Sender Instance and the Source

   Address do not match the values of Sender Instance and Sender Name

   stored by the "Update Peer Verifier" operation of the GSMP adjacency

   protocol. The incoming GSMP message must also be discarded if it

   arrives over any port other than the port over which the adjacency

   protocol has achieved synchronization.  In addition, the incoming

   message must also be discarded if the Receiver Instance field does

   not match the current value for the Sender Instance of the GSMP

   adjacency protocol.



3. Common Definitions and Procedures


   GSMP is a master-slave protocol. The controller issues request

   messages to the switch. Each request message indicates whether a

   response is required from the switch and contains a transaction




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   identifier to enable the response to be associated with the request.

   The switch replies with a response message indicating either a

   successful result or a failure. There are five classes of GSMP

   request-response message: Connection Management, Port Management,

   State and Statistics, Configuration, and Quality of Service.  The

   switch may also generate asynchronous Event messages to inform the

   controller of asynchronous events.  Event messages are not

   acknowledged by the controller. There is also an adjacency protocol

   message used to establish synchronization across the link and

   maintain a handshake.


   For the request-response messages, each message type has a format 
for

   the request message and a format for the success response.  Unless

   otherwise specified a failure response message is identical to the

   request message that caused the failure, with the Code field

   indicating the nature of the failure. Event messages have only a

   single format defined as they are not acknowledged by the 
controller.


   Switch ports are described by a 32-bit port number. The switch

   assigns port numbers and it may typically choose to structure the 32

   bits into subfields that have meaning to the physical structure of

   the switch (e.g. slot, port). In general, a port in the same 
physical

   location on the switch will always have the same port number, even

   across power cycles. The internal structure of the port number is

   opaque to the GSMP protocol. However, for the purposes of network

   management such as logging, port naming, and graphical

   representation, a switch may declare the physical location (physical

   slot and port) of each port. Alternatively, this information may be

   obtained by looking up the product identity in a database.


   Each switch port also maintains a port session number assigned by 
the

   switch. A message, with an incorrect port session number must be

   rejected.  This allows the controller to detect a link failure and 
to

   keep state synchronized.


   Except for the adjacency protocol message, no GSMP messages may be

   sent across the link until the adjacency protocol has achieved

   synchronization, and all GSMP messages received on a link that does

   not currently have state synchronization must be discarded.


3.1 GSMP Packet Format


   All GSMP messages, except the adjacency protocol message, have the

   following format:








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    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   ~                          Message Body                         ~

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Version

             The version number of the GSMP protocol being used in this

             session. It should be set by the sender of the message to

             the GSMP protocol version negotiated by the adjacency

             protocol.


   Message Type

             The GSMP message type. GSMP messages fall into six 
classes:

             Connection Management, Port Management, State and

             Statistics, Configuration, Quality of Service, and Events.

             Each class has a number of different message types. In

             addition, one Message Type is allocated to the adjacency

             protocol.


   Result

             Field in a Connection Management request message, a Port

             Management request message, or a Quality of Service 
request

             message is used to indicate whether a response is required

             to the request message if the outcome is successful. A

             value of "NoSuccessAck" indicates that the request message

             does not expect a response if the outcome is successful,

             and a value of "AckAll" indicates that a response is

             expected if the outcome is successful.  In both cases a

             failure response must be generated if the request fails.

             For Sate and Statistics, and Configuration request

             messages, a value of "NoSuccessAck" in the request message

             is ignored and the request message is handled as if the

             field were set to "AckAll". (This facility was added to

             reduce the control traffic in the case where the 
controller

             periodically checks that the state in the switch is

             correct. If the controller does not use this capability,

             all request messages should be sent with a value of

             "AckAll.")


             In a response message the result field can have three

             values: "Success," "More," and "Failure". The "Success" 
and




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             "More" results both indicate a success response. The 
"More"

             result indicates that the success response exceeds the

             maximum transmission unit of the data link and that one or

             more further messages will be sent to complete the success

             response. All messages that belong to the same success

             response will have the same Transaction Identifier. The

             "Success" result indicates a success response that may be

             contained in a single message or the final message of a

             success response spanning multiple messages.


             The encoding of the result field is:


                  NoSuccessAck:  Result = 1

                  AckAll:        Result = 2

                  Success:       Result = 3

                  Failure:       Result = 4

                  More:          Result = 5.



             The Result field is not used in an adjacency protocol

             message.


   Code

             Field gives further information concerning the result in a

             response message. It is mostly used to pass an error code

             in a failure response but can also be used to give further

             information in a success response message or an event

             message. In a request message the code field is not used

             and is set to zero. In an adjacency protocol message the

             Code field is used to determine the function of the

             message.


   Transaction Identifier

             Used to associate a request message with its response

             message. For request messages the controller may select 
any

             transaction identifier. For response messages the

             transaction identifier is set to the value of the

             transaction identifier from the message to which it is a

             response.  For event messages the transaction identifier

             should be set to zero. The Transaction Identifier is not

             used, and the field is not present, in the adjacency

             protocol.


   The following fields are frequently found in GSMP messages. They are

   defined here to avoid repetition.


   Port

             Gives the port number of the switch port to which the




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             message applies.


   Port Session Number

             Each switch port maintains a Port Session Number assigned

             by the switch. The port session number of a port remains

             unchanged while the port is continuously in the Available

             state and the link status is continuously Up. When a port

             returns to the Available state after it has been

             Unavailable or in any of the Loopback states, or when the

             line status returns to the Up state after it has been Down

             or in Test, or after a power cycle, a new Port Session

             Number must be generated.  Port session numbers should be

             assigned using some form of random number.


             If the Port Session Number in a request message does not

             match the current Port Session Number for the specified

             port, a failure response message must be returned with the

             Code field indicating, "Invalid port session number."  The

             current port session number for a port may be obtained

             using a Port Configuration or an All Ports Configuration

             message.


   Any field in a GSMP message that is unused or defined as "reserved"

   must be set to zero by the sender and ignored by the receiver.


   It is not an error for a GSMP message to contain additional data

   after the end of the Message Body. This is to support development 
and

   experimental purposes. However, the maximum transmission unit of the

   GSMP message, as defined by the data link layer encapsulation, must

   not be exceeded.


   A success response message must not be sent until the requested

   operation has been successfully completed.


3.2 Failure Response Messages


   A failure response message is formed by returning the request 
message

   that caused the failure with the Result field in the header

   indicating failure (Result = 4) and the Code field giving the 
failure

   code. The failure code specifies the reason for the switch being

   unable to satisfy the request message.


   If the switch issues a failure response in reply to a request

   message, no change should be made to the state of the switch as a

   result of the message causing the failure. (For request messages 
that

   contain multiple requests, such as the Delete Branches message, the

   failure response message will specify which requests were successful

   and which failed. The successful requests may result in changed




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   state.)


   If the switch issues a failure response it must choose the most

   specific failure code according to the following precedence:


       Invalid Message


       Failure specific to the particular message type (failure code

           16). (The meaning of this failure is dependent upon the

           particular message type and is specified in the text 
defining

           the message.)


       A failure response specified in the text defining the message

           type.


       Connection Failures


       Virtual Path Connection Failures


       Multicast Failures


       QoS Failures (QoS failures are specified in Section 9.7.)


       General Failures


   If multiple failures match in any of the following categories, the

   one that is listed first should be returned.  The following failure

   response messages and failure codes are defined:


   Invalid Message


       3:  The specified request is not implemented on this switch.

               The Message Type field specifies a message that is not

               implemented on the switch or contains a value that is 
not

               defined in the version of the protocol running in this

               session of GSMP.


       5:  One or more of the specified ports does not exist.

               At least one of the ports specified in the message is

               invalid. A port is invalid if it does not exist or if it

               has been removed from the switch.


       4:  Invalid Port Session Number.

               The value given in the Port Session Number field does 
not

               match the current Port Session Number for the specified

               port.






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   Connection Failures


       8:  The specified connection does not exist.

               An operation that expects a connection to be specified,

               either a virtual channel or a virtual path connection,

               cannot locate the specified connection. A virtual 
channel

               connection is specified by the input port, input VPI, 
and

               input VCI on which it arrives. A virtual path connection

               is specified by the input port and input VPI on which it

               arrives.


       9:  The specified branch does not exist.

               An operation that expects a branch of an existing

               connection to be specified, either a virtual channel or 
a

               virtual path connection, cannot locate the specified

               branch.  A branch of a virtual channel connection is

               specified by the virtual channel connection it belongs 
to

               and the output port, output VPI, and output VCI on which

               it departs. A branch of a virtual path connection is

               specified by the virtual path connection it belongs to

               and the output port and output VPI on which it departs.


       18: One or more of the specified input VPIs is invalid.


       19: One or more of the specified input VCIs is invalid.


       20: One or more of the specified output VPIs is invalid.


       21: One or more of the specified output VCIs is invalid.


       22: Invalid Class of Service field in a Connection Management

               message.

               The value of the Class of Service field is invalid.


       23: Insufficient resources for QoS Profile.

               The resources requested by the QoS Profile in the Class

               of service field are not available.


   Virtual Path Connections


       24: Virtual path switching is not supported on this input port.


       25: Point-to-multipoint virtual path connections are not

               supported on either the requested input port or the

               requested output port.

               One or both of the requested input and output ports is

               unable to support point-to-multipoint virtual path

               connections.




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       26: Attempt to add a virtual path connection branch to an

               existing virtual channel connection.

               It is invalid to mix branches switched as virtual 
channel

               connections with branches switched as virtual path

               connections on the same point-to-multipoint connection.


       27: Attempt to add a virtual channel connection branch to an

               existing virtual path connection.

               It is invalid to mix branches switched as virtual 
channel

               connections with branches switched as virtual path

               connections on the same point-to-multipoint connection.


   Multicast Failures


       10: A branch belonging to the specified point-to-multipoint

               connection is already established on the specified 
output

               port and the switch cannot support more than a single

               branch of any point-to-multipoint connection on the same

               output port.


       11: The limit on the maximum number of point-to-multipoint

               connections that the switch can support has been 
reached.


       12: The limit on the maximum number of branches that the

               specified point-to-multipoint connection can support has

               been reached.


       17: Cannot label each output branch of a point-to-multipoint 
tree

               with a different label.

               Some early designs, and some low-cost ATM switch 
designs,

               require all output branches of a multicast connection to

               use the same value of VPI/VCI.


       28: Only point-to-point bidirectional connections may be

               established.

               It is an error to attempt to add an additional output

               branch to an existing connection with the bidirectional

               flag set.


       13: Unable to assign the requested VPI/VCI value to the 
requested

               branch on the specified point-to-multipoint connection.

               Although the requested VPI and VCI are valid, the switch

               is unable to support the request using the specified

               values of VPI and VCI for some reason not covered by the

               above failure responses. This message implies that a

               valid value of VPI or VCI exists that the switch could

               support. For example, some switch designs restrict the

               number of distinct VPI/VCI values available to a point-




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               to-multipoint connection. (Most switch designs will not

               require this message.)


       14: General problem related to the manner in which point-to-

               multipoint is supported by the switch.

               Use this message if none of the more specific multicast

               failure messages apply.  (Most switch designs will not

               require this message.)


   General Failures


       2:  Invalid request message.

               There is an error in one of the fields of the message 
not

               covered by a more specific failure message.


       6:  One or more of the specified ports is down.

               A port is down if its Port Status is Unavailable.

               Connection Management, Connection State, Port 
Management,

               and Configuration operations are permitted on a port 
that

               is Unavailable. Connection Activity and Statistics

               operations are not permitted on a port that is

               Unavailable and will generate this failure response. A

               Port Management message specifying a Take Down function

               on a port already in the Unavailable state will also

               generate this failure response.


       15: Out of resources.

               The switch has exhausted a resource not covered by a 
more

               specific failure message, for example, running out of

               memory.


       1:  Unspecified reason not covered by other failure codes.

               The failure message of last resort.


   The following failure response messages are only used by the Label

               Range message.


       29: Cannot support requested VPI range.


       30: Cannot support requested VCI range on all requested VPIs.


   The following failure response messages are only used by the Set

               Transmit Cell Rate function of the Port Management

               message.


       31: The transmit cell rate of this output port cannot be 
changed.


       32: Requested transmit cell rate out of range for this output




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               port.



4. Connection Management Messages


   Connection management messages are used by the controller to

   establish, delete, modify and verify virtual channel connections and

   virtual path connections across the switch. The Add Branch, Delete

   Tree, and Delete All connection management messages have the

   following format for both request and response messages:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Port Session Number                      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Input Port                           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |M|Q|B|C|      Input VPI        |          Input VCI            |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Output Port                          |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |x x x x|      Output VPI       |          Output VCI           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |      Number of Branches       |       Class of Service        |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Input Port

             Identifies a switch input port.


   Flags


        M: Multicast

             The Multicast flag is used as a hint for point-to-

             multipoint connections in the Add Branch message. It is 
not

             used in any other connection management messages and in

             these messages it should be set to zero. If set, it

             indicates that the virtual channel connection or the

             virtual path connection is very likely to be a point-to-

             multipoint connection. If zero, it indicates that this

             connection is very likely to be a point-to-point 
connection

             or is unknown.


             The Multicast flag is only used in the Add Branch message




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             when establishing the first branch of a new connection. It

             is not required to be set when establishing subsequent

             branches of a point-to-multipoint connection and on such

             connections it should be ignored by the receiver.  (On

             receipt of the second and subsequent Add Branch messages

             the receiver knows that this is a point-to-multipoint

             connection.) If it is known that this is the first branch

             of a point-to-multipoint connection this flag should be

             set. If it is unknown, or if it is known that the

             connection is point-to-point this flag should be zero. The

             use of this flag is not mandatory. It may be ignored by 
the

             switch.  If unused the flag should be set to zero.  Some

             switches use a different data structure for point-to-

             multipoint connections than for point-to-point 
connections.

             This flag avoids the switch setting up a point-to-point

             structure for the first branch of a point-to-multipoint

             connection which must immediately be deleted and

             reconfigured as point-to-multipoint when the second branch

             is established.


        Q: QoS Profile

             The QoS Profile flag, if set, indicates that the Class of

             Service field contains a QoS Profile Identifier.  If this

             flag is zero, it indicates that the Class of Service field

             contains a Priority or a Scheduler Identifier.


        B: Bidirectional

             The Bidirectional flag applies only to the Add Branch

             message. In all other Connection Management messages it is

             not used. It may only be used when establishing a 
point-to-

             point connection.  The Bidirectional flag in an Add Branch

             message, if set, requests that two unidirectional virtual

             channels or virtual paths be established, one in the

             forward direction, and one in the reverse direction. It is

             equivalent to two Add Branch messages, one specifying the

             forward direction, and one specifying the reverse

             direction. The forward direction uses the values of Input

             Port, Input VPI, Input VCI, Output Port, Output VPI, and

             Output VCI as specified in the Add Branch message. The

             reverse direction is derived by exchanging the values

             specified in the Input Port, Input VPI, and Input VCI

             fields, with those of the Output Port, Output VPI, and

             Output VCI fields respectively. Thus, a virtual connection

             in the reverse direction arrives at the input port

             specified by the Output Port field, on the VPI/VCI

             specified by the Output VPI and Output VCI fields. It

             departs from the output port specified by the Input Port

             field, on the VPI/VCI specified by the Input VPI and Input




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             VCI fields.


             The Bidirectional flag is simply a convenience to 
establish

             two unidirectional virtual connections in opposite

             directions between the same two ports, with identical

             VPI/VCIs, using a single Add Branch message. In all future

             messages the two unidirectional virtual connections must 
be

             handled separately. There is no bidirectional delete

             message. However, a single Delete Branches message with 
two

             Delete Branch Elements, one for the forward connection and

             one for the reverse, may be used.


        C: Congestion Indication

             The Congestion Indication flag, if set, requests that 
cells

             on this connection be marked if congestion is experienced.

             If this connection passes through a queue that the switch

             considers to be congested, the Congestion Experienced bit

             will be set in the Payload Type field of the cell header 
of

             all cells on the connection. GSMP does not specify the

             algorithm or any threshold by which the switch decides 
when

             a queue is congested.


   Input VPI

             Identifies an ATM virtual path arriving at the switch 
input

             port indicated by the Input Port field.


   Input VCI

             Identifies an ATM virtual channel arriving on the virtual

             path indicated by the Input VPI field at the switch input

             port indicated by the Input Port field. For virtual path

             connections the Input VCI field is not used.


   Output Port

             Identifies a switch output port.


   x: Unused


   Output VPI

             Identifies an outgoing virtual path departing from the

             switch output port indicated in the Output Port field.


   Output VCI

             Identifies an outgoing virtual channel departing on the

             virtual path indicated by the Output VPI field from the

             switch output port indicated in the Output Port field. For

             virtual path connections the Output VCI field is not used.


   Number of Branches




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             In a success response message and a failure response

             message, gives the number of output branches on a virtual

             channel connection or a virtual path connection after

             completion of the requested operation.  (A point-to-point

             connection will have one branch, a point-to-multipoint

             connection will have two or more branches.) If the switch

             is unable to keep track of the number of branches on a

             virtual path connection or a virtual channel connection it

             must respond with the value 0xFFFF meaning: "number of

             branches unknown".  This field is not used in the request

             message.


   Class of Service

             This field can contain either a QoS Profile Identifier, a

             Priority, or a Scheduler Identifier.  If the QoS Profile

             flag in the Flags field is set, the Class of Service field

             contains a QoS Profile.  If the QoS Profile flag in the

             Flags field is zero, and the value of the Class of Service

             field is greater than or equal to 0x100, the Class of

             Service field contains a Scheduler Identifier.  If the QoS

             Profile flag in the Flags field is zero, and the value of

             the Class of Service field is less than 0x100, the Class 
of

             Service field contains a Priority. (Values of Scheduler

             Identifier less than 0x100 are interpreted as priorities.)

             The Class of Service field is only used in the Add Branch

             and Move Branch messages.


             A QoS Profile Identifier is an opaque 16-bit value. It is

             used to identify a QoS profile in the switch which

             specifies the Quality of Service required by the

             connection. QoS profiles are established by a mechanism

             external to GSMP.


             A Scheduler Identifier is an alternative method of

             communicating the QoS requirements of a connection. The

             Scheduler Identifier is defined in Section 9, "Quality of

             Service Messages."


             A Priority specifies the priority of the connection for 
Add

             Branch and Move Branch messages that choose not to use a

             QoS profile, or the QoS capabilities defined in Section 9,

             "Quality of Service Messages."  The highest priority is

             numbered zero and the lowest priority is numbered "Q-1"

             where "Q" is the number of priorities that the output port

             can support. The ability to offer different qualities of

             service to different connections based upon their priority

             is assumed to be a property of the output port of the

             switch. It is assumed that for virtual path connections or




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             virtual channel connections that share the same output

             port, an ATM cell on a connection with a higher priority 
is

             much more likely to exit the switch before an ATM cell on 
a

             connection with a lower priority, if they are both in the

             switch at the same time. The number of priorities that 
each

             output port can support is given in the Port Configuration

             message.


   For all connection management messages, except the Delete Branches

   message, the success response message is a copy of the request

   message returned with the Result field indicating success and the

   Number of Branches field indicating the number of branches on the

   connection after completion of the operation. The Code field is not

   used in a connection management success response message.


   The failure response message is a copy of the request message

   returned with a Result field indicating failure and the Number of

   Branches field indicating the number of branches on the connection.


   Fundamentally, no distinction is made between point-to-point and

   point-to-multipoint connections. By default, the first Add Branch

   message for a particular Input Port, Input VPI, and Input VCI will

   establish a point-to-point virtual connection.  The second Add 
Branch

   message with the same Input Port, Input VPI, and Input VCI fields

   will convert the connection to a point-to-multipoint virtual

   connection with two branches. (For virtual path connections the 
Input

   VCI is not required.) However, to avoid possible inefficiency with

   some switch designs, the Multicast Flag is provided. If the

   controller knows that a new connection is point-to-multipoint when

   establishing the first branch, it may indicate this in the Multicast

   Flag.  Subsequent Add Branch messages with the same Input Port, 
Input

   VPI, and Input VCI fields will add further branches to the point-to-

   multipoint connection. Use of the Delete Branch message on a point-

   to-multipoint connection with two branches will result in a 
point-to-

   point connection. However, the switch may structure this connection

   as a point-to-multipoint connection with a single output branch if 
it

   chooses. (For some switch designs this structure may be more

   convenient.) Use of the Delete Branch message on a point-to-point

   connection will delete the point-to-point connection. There is no

   concept of a connection with zero output branches. All connections

   are unidirectional, one input virtual path or virtual channel to one

   or more output virtual paths or virtual channels.


   GSMP supports point-to-point and point-to-multipoint connections. A

   multipoint-to-point connection is specified by establishing multiple

   point-to-point connections each of them specifying the same output

   branch.  (An output branch is specified by an output port and output

   VPI for a virtual path connection and by an output port, output VPI,




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   and output VCI for a virtual channel connection.)  A multipoint-to-

   multipoint connection is specified by establishing multiple 
point-to-

   multipoint trees each of them specifying the same output branches.


   The connection management messages apply both to virtual channel

   connections and virtual path connections. The Add Branch and Move

   Branch connection management messages have two Message Types. One

   Message Type indicates that a virtual channel connection is 
required,

   and the other Message Type indicates that a virtual path connection

   is required. The Delete Branches, Delete Tree, and Delete All

   connection management messages have only a single Message Type

   because they do not need to distinguish between virtual channel

   connections and virtual path connections. For virtual path

   connections, neither Input VCI fields nor Output VCI fields are

   required. They should be set to zero by the sender and ignored by 
the

   receiver.  Virtual channel branches may not be added to an existing

   virtual path connection.  Conversely, virtual path branches may not

   be added to an existing virtual channel connection.  In the Port

   Configuration message each switch input port may declare whether it

   is capable of supporting virtual path switching (i.e. accepting

   connection management messages requesting virtual path connections).


   The connection management messages may be issued regardless of the

   Port Status of the switch port. Connections may be established or

   deleted when a switch port is in the Available, Unavailable, or any

   of the Loopback states. However, all connection state on an input

   port will be deleted when the port returns to the Available state

   from any other state, i.e. when a Port Management message is 
received

   for that port with the Function field indicating either Bring Up, or

   Reset Input Port.


4.1 Add Branch Message


   The Add Branch message is a connection management message used to

   establish a virtual channel connection or a virtual path connection

   or to add an additional branch to an existing virtual channel

   connection or virtual path connection. It may also be used to check

   the connection state stored in the switch. The connection is

   specified by the Input Port, Input VPI, and Input VCI fields. The

   output branch is specified by the Output Port, Output VPI, and 
Output

   VCI fields. The quality of service requirements of the connection 
are

   specified by the Class of Service field. To request a virtual 
channel

   connection the Virtual Channel Connection (VCC) Add Branch message

   is:


      Message Type = 16


   To request a virtual path connection the Virtual Path Connection




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   (VPC) Add Branch message is:


      Message Type = 26


   If a VPC Add Branch message is received and the switch input port

   specified by the Input Port field does not support virtual path

   switching, a failure response message must be returned indicating,

   "Virtual path switching is not supported on this input port."


   If the virtual channel connection specified by the Input Port, Input

   VPI, and Input VCI fields; or the virtual path connection specified

   by the Input Port and Input VPI fields; does not already exist, it

   must be established with the single output branch specified in the

   request message. If the Bidirectional Flag in the Flags field is 
set,

   the reverse connection must also be established.  The output branch

   should have the QoS attributes specified by the Class of Service

   field.


   For the VCC Add Branch message, if a virtual path connection already

   exists on the virtual path specified by the Input Port and Input VPI

   fields, a failure response message must be returned indicating,

   "Attempt to add a virtual channel connection branch to an existing

   virtual path connection."  For the VPC Add Branch message, if a

   virtual channel connection already exists on any of the virtual

   channels within the virtual path specified by the Input Port and

   Input VPI fields, a failure response message must be returned

   indicating, "Attempt to add a virtual path connection branch to an

   existing virtual channel connection."


   If the virtual channel connection specified by the Input Port, Input

   VPI, and Input VCI fields; or the virtual path connection specified

   by the Input Port and Input VPI fields; already exists, but the

   specified output branch does not, the new output branch must be

   added.  The new output branch should have the QoS attributes

   specified by the Class of Service field.


   If the virtual channel connection specified by the Input Port, Input

   VPI, and Input VCI fields; or the virtual path connection specified

   by the Input Port and Input VPI fields; already exists and the

   specified output branch also already exists, the QoS attributes of

   the connection, specified by the Class of Service field, if 
different

   from the request message, should be changed to that in the request

   message.  A success response message must be sent if the Result 
field

   of the request message is "AckAll".  This allows the controller to

   periodically reassert the state of a connection or to change its

   priority. If the result field of the request message is

   "NoSuccessAck" a success response message should not be returned.

   This may be used to reduce the traffic on the control link for




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   messages that are reasserting previously established state. For

   messages that are reasserting previously established state, the

   switch must always check that this state is correctly established in

   the switch hardware (i.e. the actual connection tables used to

   forward cells).


   If the output branch specified by the Output Port, Output VPI, and

   Output VCI fields for a virtual channel connection; or the output

   branch specified by the Output Port and Output VPI fields for a

   virtual path connection; is already in use by any connection other

   than that specified by the Input Port, Input VPI, and Input VCI

   fields, then the resulting output branch will have multiple input

   branches. If multiple point-to-point connections share the same

   output branch the result will be a multipoint-to-point connection. 
If

   multiple point-to-multipoint trees share the same output branches 
the

   result will be a multipoint-to-multipoint connection.


   If the virtual channel connection specified by the Input Port, Input

   VPI, and Input VCI fields, or the virtual path connection specified

   by the Input Port and Input VPI fields, already exists, and the

   Bidirectional Flag in the Flags field is set, a failure response 
must

   be returned indicating: "Only point-to-point bidirectional

   connections may be established."


   It should be noted that different switches support multicast in

   different ways. There will be a limit to the total number of point-

   to-multipoint connections any switch can support, and possibly a

   limit on the maximum number of branches that a point-to-multipoint

   connection may specify.  Some switches also impose a limit on the

   number of different VPI/VCI values that may be assigned to the 
output

   branches of a point-to-multipoint connection. Many switches are

   incapable of supporting more than a single branch of any particular

   point-to-multipoint connection on the same output port. Specific

   failure codes are defined for some of these conditions.


4.2 Delete Tree Message


   The Delete Tree message is a connection management message used to

   delete an entire virtual channel connection or an entire virtual 
path

   connection. All remaining branches of the connection are deleted. A

   virtual channel connection is specified by the Input Port, Input 
VPI,

   and Input VCI fields. A virtual path connection is specified by the

   Input Port and Input VPI fields. The Output Port, Output VPI, and

   Output VCI fields are not used in this message. The Delete Tree

   message is:


      Message Type = 18





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   If the Result field of the request message is "AckAll" a success

   response message must be sent upon successful deletion of the

   specified connection. The success message must not be sent until the

   delete operation has been completed and if possible, not until all

   data on the connection, queued for transmission, has been

   transmitted. The Number of Branches field is not used in either the

   request or response messages of the Delete Tree message.


4.3 Verify Tree Message


   The Verify Tree message has been removed from this version of GSMP.

   Its function has been replaced by the Number of Branches field in 
the

   success response to the Add Branch message which contains the number

   of branches on a virtual channel connection after successful

   completion of an add branch operation.


      Message Type = 19 is reserved.


   If a request message is received with Message Type = 19 a failure

   response must be returned with the Code field indicating: "The

   specified request is not implemented in this version of the

   protocol."


4.4 Delete All Message


   The Delete All message is a connection management message used to

   delete all connections on a switch input port. All connections that

   arrive at the specified input port must be deleted. On completion of

   the operation all dynamically assigned VPI/VCI values for the

   specified port must be unassigned, i.e. there must be no virtual

   connections established in the VPI/VCI space that GSMP controls on

   this port. The Input VPI, Input VCI, Output Port, Output VPI, and

   Output VCI fields are not used in this message.  The Delete All

   message is:


      Message Type = 20


   If the Result field of the request message is "AckAll" a success

   response message must be sent upon completion of the operation.  The

   Number of Branches field is not used in either the request or

   response messages of the Delete All message.  The success response

   message must not be sent until the operation has been completed.


   The following failure response messages may be returned to a Delete

   All request.


         The specified request is not implemented on this switch.





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         One or more of the specified ports does not exist.


         Invalid Port Session Number.


   If any field in a Delete All message not covered by the above 
failure

   codes is invalid, a failure response must be returned indicating:

   "Invalid request message."  Else, the delete all operation must be

   completed successfully and a success message returned. No other

   failure messages are permitted.


4.5 Delete Branches Message


   The Delete Branches message is a connection management message used

   to request one or more delete branch operations. Each delete branch

   operation deletes a branch of a virtual channel connection or a

   virtual path connection, or in the case of the last branch of a

   connection, it deletes the connection. The Delete Branches message

   is:


      Message Type = 17


   The request message has the following format:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |           Reserved            |      Number of Elements       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   ~                    Delete Branch Elements                     ~

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Number of Elements

             Specifies the number of Delete Branch Elements to follow 
in

             the message. The number of Delete Branch Elements in a

             Delete Branches message must not cause the packet length 
to

             exceed the maximum transmission unit defined by the

             encapsulation.


   Each Delete Branch Element specifies an output branch to be deleted

   and has the following structure:






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   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Port Session Number                      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Input Port                           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   | Error |      Input VPI        |          Input VCI            |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Output Port                          |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |x x x x|      Output VPI       |          Output VCI           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Error

             Is used to return a failure code indicating the reason for

             the failure of a specific Delete Branch Element in a 
Delete

             Branches failure response message.  The Error field is not

             used in the request message and must be set to zero.  A

             value of zero is used to indicate that the delete 
operation

             specified by this Delete Branch Element was successful.

             Values for the other failure codes are specified in 
Section

             3.2, "Failure Response Messages."


             All other fields of the Delete Branch Element have the 
same

             definition as specified for the other connection 
management

             messages.


   In each Delete Branch Element, either a virtual channel connection 
is

   specified by the Input Port, Input VPI, and Input VCI fields; or a

   virtual path connection is specified by the Input Port and Input VPI

   fields. The specific branch to be deleted is indicated by the Output

   Port, Output VPI, and Output VCI fields for virtual channel

   connections and by the Output Port and Output VPI for virtual path

   connections.


   If the Result field of the Delete Branches request message is

   "AckAll" a success response message must be sent upon successful

   deletion of the branches specified by all of the Delete Branch

   Elements. The success response message must not be sent until all of

   the delete branch operations have been completed. The success

   response message is only sent if all of the requested delete branch

   operations were successful. No Delete Branch Elements are returned 
in

   a Delete Branches success response message and the Number of 
Elements

   field must be set to zero.


   If there is a failure in any of the Delete Branch Elements a Delete

   Branches failure response message must be returned. The Delete

   Branches failure response message is a copy of the request message

   with the Code field of the entire message set to, "Failure specific




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   to the particular message type," and the Error field of each Delete

   Branch Element indicating the result of each requested delete

   operation. A failure in any of the Delete Branch Elements must not

   interfere with the processing of any other Delete Branch Elements.


4.6 Move Branch Message


   The Move Branch message is used to move a branch of an existing

   connection from its current output port VPI/VCI to a new output port

   VPI/VCI in a single atomic transaction. This operation occurs

   frequently in IP switching, every time a flow is switched from hop-

   by-hop forwarding to a dedicated virtual channel.  The Move Branch

   connection management message has the following format for both

   request and response messages:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Port Session Number                      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                           Input Port                          |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   | Flags |        Input VPI      |           Input VCI           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                        Old Output Port                        |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |x x x x|    Old Output VPI     |        Old Output VCI         |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                        New Output Port                        |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |x x x x|    New Output VPI     |        New Output VCI         |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |       Number of Branches      |       Class of Service        |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   The VCC Move Branch message is a connection management message used

   to move a single output branch of a virtual channel connection from

   its current output port, output VPI, and output VCI, to a new output

   port, output VPI, and output VCI on the same virtual channel

   connection. None of the other output branches are modified.  When 
the

   operation is complete the original output VPI/VCI on the original

   output port will be deleted from the connection.  The VCC Move 
Branch

   message is:





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      Message Type = 22


   For the VCC Move Branch message, if the virtual channel connection

   specified by the Input Port, Input VPI, and Input VCI fields already

   exists, and the output branch specified by the Old Output Port, Old

   Output VPI, and Old Output VCI fields exists as a branch on that

   connection, the output branch specified by the New Output Port, New

   Output VPI, and New Output VCI fields is added to the connection and

   the branch specified by the Old Output Port, Old Output VPI, and Old

   Output VCI fields is deleted. If the Result field of the request

   message is "AckAll" a success response message must be sent upon

   successful completion of the operation. The success response message

   must not be sent until the Move Branch operation has been completed.


   For the VCC Move Branch message, if the virtual channel connection

   specified by the Input Port, Input VPI, and Input VCI fields already

   exists, but the output branch specified by the Old Output Port, Old

   Output VPI, and Old Output VCI fields does not exist as a branch on

   that connection, a failure response must be returned with the Code

   field indicating, "The specified branch does not exist."


   The VPC Move Branch message is a connection management message used

   to move a single output branch of a virtual path connection from its

   current output port and output VPI, to a new output port and output

   VPI on the same virtual channel connection. None of the other output

   branches are modified.  When the operation is complete the original

   output VPI on the original output port will be deleted from the

   connection.  The VPC Move Branch message is:


      Message Type = 27


   For the VPC Move Branch message, if the virtual path connection

   specified by the Input Port and Input VPI fields already exists, and

   the output branch specified by the Old Output Port and Old Output 
VPI

   fields exists as a branch on that connection, the output branch

   specified by the New Output Port and New Output VPI fields is added

   to the connection and the branch specified by the Old Output Port 
and

   Old Output VPI fields is deleted. If the Result field of the request

   message is "AckAll" a success response message must be sent upon

   successful completion of the operation. The success response message

   must not be sent until the Move Branch operation has been completed.


   For the VPC Move Branch message, if the virtual path connection

   specified by the Input Port and Input VPI fields already exists, but

   the output branch specified by the Old Output Port and Old Output 
VPI

   fields does not exist as a branch on that connection, a failure

   response must be returned with the Code field indicating, "The

   specified branch does not exist."




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   If the virtual channel connection specified by the Input Port, Input

   VPI, and Input VCI fields; or the virtual path connection specified

   by the Input Port and  Input VPI fields; does not exist, a failure

   response must be returned with the Code field indicating, "The

   specified connection does not exist."


   If the output branch specified by the New Output Port, New Output

   VPI, and New Output VCI fields for a virtual channel connection; or

   the output branch specified by the New Output Port and New Output 
VPI

   fields for a virtual path connection; is already in use by any

   connection other than that specified by the Input Port, Input VPI,

   and Input VCI fields then the resulting output branch will have

   multiple input branches. If multiple point-to-point connections 
share

   the same output branch the result will be a multipoint-to-point

   connection. If multiple point-to-multipoint trees share the same

   output branches the result will be a multipoint-to-multipoint

   connection.



5. Port Management Messages


5.1 Port Management Message


   The Port Management message allows a port to be brought into 
service,

   taken out of service, looped back, reset, or the transmit cell rate

   changed.  Only the Bring Up and the Reset Input Port functions 
change

   the connection state (established connections) on the input port.

   Only the Bring Up function changes the value of the Port Session

   Number. If the Result field of the request message is "AckAll" a

   success response message must be sent upon successful completion of

   the operation. The success response message must not be sent until

   the operation has been completed. The Port Management Message is:


      Message Type = 32


   The Port Management message has the following format for the request

   and success response messages:















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    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Port                              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Port Session Number                      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                     Event Sequence Number                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |  Event Flags  |   Duration    |          Function             |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Transmit Cell Rate                       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Event Sequence Number

             In the success response message gives the current value of

             the Event Sequence Number of the switch port indicated by

             the Port field. The Event Sequence Number is set to zero

             when the port is initialized. It is incremented by one 
each

             time the port detects an asynchronous event that the 
switch

             would normally report via an Event message. If the Event

             Sequence Number in the success response differs from the

             Event Sequence Number of the most recent Event message

             received for that port, events have occurred that were not

             reported via an Event message. This is most likely to be

             due to the flow control that restricts the rate at which a

             switch can send Event messages for each port. In the

             request message this field is not used.


   Event Flags

             Field in the request message is used to reset the Event

             Flags in the switch port indicated by the Port field. Each

             Event Flag in a switch port corresponds to a type of Event

             message. When a switch port sends an Event message it sets

             the corresponding Event Flag on that port. The port is not

             permitted to send another Event message of the same type

             until the Event Flag has been reset. If the Function field

             in the request message is set to "Reset Event Flags," for

             each bit that is set in the Event Flags field, the

             corresponding Event Flag in the switch port is reset.


             The Event Flags field is only used in a request message

             with the Function field set to "Reset Event Flags." For 
all

             other values of the Function field, the Event Flags field




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             is not used.  In the success response message the Event

             Flags field must be set to the current value of the Event

             Flags for the port, after the completion of the operation

             specified by the request message, for all values of the

             Function field. Setting the Event Flags field to all zeros

             in a "Reset Event Flags" request message allows the

             controller to obtain the current state of the Event Flags

             and the current Event Sequence Number of the port without

             changing the state of the Event Flags.


             The correspondence between the types of Event message and

             the bits of the Event Flags field is as follows:


                 0 1 2 3 4 5 6 7

                +-+-+-+-+-+-+-+-+

                |U|D|I|N|Z|x x x|

                +-+-+-+-+-+-+-+-+


                U: Port Up          Bit 0, (most significant bit)

                D: Port Down        Bit 1,

                I: Invalid VPI/VCI  Bit 2,

                N: New Port         Bit 3,

                Z: Dead Port        Bit 4,

                x: Unused           Bits 5--7.


   Duration

             Is the length of time, in seconds, that any of the 
loopback

             states remain in operation. When the duration has expired

             the port will automatically be returned to service.  If

             another Port Management message is received for the same

             port before the duration has expired, the loopback will

             continue to remain in operation for the length of time

             specified by the Duration field in the new message. The

             Duration field is only used in request messages with the

             Function field set to Internal Loopback, External 
Loopback,

             or Bothway Loopback.


   Function

             Specifies the action to be taken. The specified action 
will

             be taken regardless of the current status of the port

             (Available, Unavailable, or any Loopback state).  If the

             specified function requires a new Port Session Number to 
be

             generated, the new Port Session Number must be returned in

             the success response message.  The defined values of the

             Function field are:


             Bring Up:

                  Function = 1. Bring the port into service. All




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                  connections that arrive at the specified input port

                  must be deleted and a new Port Session Number must be

                  selected using some form of random number. On

                  completion of the operation all dynamically assigned

                  VPI/VCI values for the specified input port must be

                  unassigned, i.e. no virtual connections will be

                  established in the VPI/VCI space that GSMP controls 
on

                  this input port. The Port Status of the port

                  afterwards will be Available.


             Take Down:

                  Function = 2. Take the port out of service. Any cells

                  received at this port will be discarded. No cells 
will

                  be transmitted from this port. The Port Status of the

                  port afterwards will be Unavailable.


                  The behavior is undefined if the port is taken down

                  over which the GSMP session that controls the switch

                  is running. (In this case the most probable behavior

                  would be for the switch either to ignore the message

                  or to terminate the current GSMP session and to

                  initiate another session, possibly with the backup

                  controller, if any.) The correct method to reset the

                  link over which GSMP is running is to issue an RSTACK

                  message in the adjacency protocol.


             Internal Loopback:

                  Function = 3. Cells arriving at the output port from

                  the switch fabric are looped through to the input 
port

                  to return to the switch fabric. All of the ATM

                  functions of the input port above the physical layer,

                  e.g. header translation, are performed upon the 
looped

                  back cells. The Port Status of the port afterwards

                  will be Internal Loopback.


             External Loopback:

                  Function = 4. Cells arriving at the input port from

                  the external communications link are immediately

                  looped back to the communications link at the 
physical

                  layer without entering the input port. None of the 
ATM

                  functions of the input port above the physical layer

                  are performed upon the looped back cells. The Port

                  Status of the port afterwards will be External

                  Loopback.


             Bothway Loopback:

                  Function = 5. Both internal and external loopback are

                  performed. The Port Status of the port afterwards 
will




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                  be Bothway Loopback.


             Reset Input Port:

                  Function = 6. All connections that arrive at the

                  specified input port must be deleted and the input 
and

                  output port hardware re-initialized. On completion of

                  the operation all dynamically assigned VPI/VCI values

                  for the specified input port must be unassigned, i.e.

                  no virtual connections will be established in the

                  VPI/VCI space that GSMP controls on this input port.

                  The range of VPIs and VCIs that may be controlled by

                  GSMP on this port will be set to the default values

                  specified in the Port Configuration message.  The

                  transmit cell rate of the output port must be set to

                  its default value. The Port Session Number is not

                  changed by the Reset Input Port function.  The Port

                  Status of the port afterwards will be Unavailable.


             Reset Event Flags:

                  Function = 7. For each bit that is set in the Event

                  Flags field, the corresponding Event Flag in the

                  switch port must be reset. The Port Status of the 
port

                  is not changed by this function.


             Set Transmit Cell Rate:

                  Function = 8. Sets the transmit cell rate of the

                  output port as close as possible to the rate 
specified

                  in the Transmit Cell Rate field. In the success

                  response message the Transmit Cell Rate must indicate

                  the actual transmit cell rate of the output port.  If

                  the transmit cell rate of the requested output port

                  cannot be changed, a failure response must be 
returned

                  with the Code field indicating: "The transmit cell

                  rate of this output port cannot be changed."  If the

                  transmit cell rate of the requested output port can 
be

                  changed, but the value of the Transmit Cell Rate 
field

                  is beyond the range of acceptable values, a failure

                  response must be returned with the Code field

                  indicating: "Requested transmit cell rate out of 
range

                  for this output port."  In the failure response

                  message the Transmit Cell Rate must contain the same

                  value as contained in the request message that caused

                  the failure. The transmit cell rate of the output 
port

                  is not changed by the Bring Up, Take Down, or any of

                  the Loopback functions. It is returned to the default

                  value by the Reset Input Port function.


   Transmit Cell Rate




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             This field is only used in request and success response

             messages with the Function field set to "Set Transmit Cell

             Rate." It is used to set the output cell rate of the 
output

             port. It is specified in cells/s. If the Transmit Cell 
Rate

             field contains the value 0xFFFFFFFF the transmit cell rate

             of the output port should be set to the highest valid

             value.


5.2. Label Range Message


   The default label range, Min VPI to Max VPI and Min VCI to Max VCI,

   is specified for each port by the Port Configuration or the All 
Ports

   Configuration messages.  When the protocol is initialized, before 
the

   transmission of any Label Range messages, the label range of each

   port will be set to the default label range. (The default label 
range

   is dependent upon the switch design and configuration and is not

   specified by the GSMP protocol.)  The Label Range message allows the

   range of VPIs supported by a specified port, or the range of VCIs

   supported by a specified VPI on a specified port, to be changed.

   Each switch port must declare whether it supports the Label Range

   message in the Port Configuration or the All Ports Configuration

   messages.  The Label Range message is:


      Message Type = 33


   The Label Range message has the following format for the request and

   success response messages:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Port                              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Port Session Number                      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |Q|V|x x|      Min VPI          |x x x x|       Max VPI         |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |            Min VCI            |           Max VCI             |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |        Remaining VPIs         |        Remaining VCIs         |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Flags





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        Q: Query

             If the Query flag is set in a request message, the switch

             must respond with the current range of valid VPIs, or the

             current range of valid VCIs on a specified VPI, according

             to the VPI/VCI flag. The current label range is not 
changed

             by a request message with the Query flag set. If the Query

             flag is zero, the message is requesting a label change

             operation.


        V: VPI/VCI

             If the VPI/VCI flag is set, the message refers to a range

             of VPIs only. The Min VCI and Max VCI fields are unused. 
If

             the VPI/VCI flag is zero the message refers to a range of

             VCIs on either one VPI or on a range of VPIs.


        x: Unused


   Min VPI

   Max VPI

             Specify a range of VPI values, Min VPI to Max VPI

             inclusive.  A single VPI may be specified with a Min VPI

             and a Max VPI having the same value.  In a request 
message,

             if the value of the Max VPI field is less than or equal to

             the value of the Min VPI field, the requested range is a

             single VPI with a value equal to the Min VPI field. Zero 
is

             a valid value.  In a request message, if the Query flag is

             set, and the VPI/VCI flag is zero, the Max VPI field

             specifies a single VPI and the Min VPI field is not used.

             The maximum valid value of these fields for both request

             and response messages is 0xFFF.


   Min VCI

   Max VCI

             Specify a range of VCI values, Min VCI to Max VCI

             inclusive.  A single VCI may be specified with a Min VCI

             and a Max VCI having the same value.  In a request 
message,

             if the value of the Max VCI field is less than or equal to

             the value of the Min VCI field, the requested range is a

             single VCI with a value equal to the Min VCI field. Zero 
is

             a valid value.  (However, VPI=0, VCI=0 is not available as

             a virtual channel connection as it is used as a special

             value in ATM to indicate an unassigned cell.)


   Remaining VPIs

   Remaining VCIs

             These fields are unused in the request message. In the

             success response message and in the failure response

             message these fields give the maximum number of remaining




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             VPIs and VCIs that could be requested for allocation on 
the

             specified port (after completion of the requested 
operation

             in the case of the success response). It gives the switch

             controller an idea of how many VPIs and VCIs it could

             request. The number given is the maximum possible given 
the

             constraints of the switch hardware. There is no 
implication

             that this number of VPIs and VCIs is available to every

             switch port.


   If the Query flag and the VPI/VCI flag are set in the request

   message, the switch must reply with a success response message

   containing the current range of valid VPIs that are supported by the

   port.  The Min VPI and Max VPI fields are not used in the request

   message.


   If the Query flag is set and the VPI/VCI flag is zero in the request

   message, the switch must reply with a success response message

   containing the current range of valid VCIs that are supported by the

   VPI specified by the Max VPI field.  If the requested VPI is 
invalid,

   a failure response must be returned indicating: "One or more of the

   specified input VPIs is invalid."  The Min VPI field is not used in

   either the request or success response messages.


   If the Query flag is zero and the VPI/VCI flag is set in the request

   message, the Min VPI and Max VPI fields specify the new range of 
VPIs

   to be allocated to the input port specified by the Port field.

   Whatever the range of VPIs previously allocated to this port it

   should be increased or decreased to the specified value.


   If the Query flag and the VPI/VCI flag are zero in the request

   message, the Min VCI and Max VCI fields specify the range of VCIs to

   be allocated to each of the VPIs specified by the VPI range.

   Whatever the range of VCIs previously allocated to each of the VPIs

   within the specified VPI range on this port, it should be increased

   or decreased to the specified value.  The allocated VCI range must 
be

   the same on each of the VPIs within the specified VPI range.


   The success response to a Label Range message requesting a change of

   label range is a copy of the request message with the Remaining VPIs

   and Remaining VCIs fields updated to the new values after the Label

   Range operation.


   If the switch is unable to satisfy a request to change the VPI 
range,

   it must return a failure response message with the Code field set to

   "Cannot support requested VPI range." In this failure response

   message the switch must use the Min VPI and Max VPI fields to 
suggest

   a VPI range that it would be able to satisfy.





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   If the switch is unable to satisfy a request to change the VCI range

   on all VPIs within the requested VPI range, it must return a failure

   response message with the Code field set to "Cannot support 
requested

   VCI range on all requested VPIs."  In this failure response message

   the switch must use the Min VPI, Max VPI, Min VCI, and Max VCI 
fields

   to suggest a VPI and VCI range that it would be able to satisfy.


   In all other failure response messages for the label range operation

   the switch must return the values of Min VPI, Max VPI, Min VCI, and

   Max VCI from the request message.


   While switches can typically support all 256 or 4096 VPIs the VCI

   range that can be supported is often more constrained. Often the Min

   VCI must be 0 or 32. Typically all VCIs within a particular VPI must

   be contiguous.  The hint in the failure response message allows the

   switch to suggest a label range that it could satisfy in view of its

   particular architecture.


   While the Label Range message is defined to specify both a range of

   VPIs and a range of VCIs within each VPI, the most likely use is to

   change either the VPI range or the range of VCIs within a single 
VPI.

   It is possible for a VPI to be valid but to be allocated no valid

   VCIs. Such a VPI could be used for a virtual path connection but to

   support virtual channel connections it would need to be allocated a

   range of VCIs.


   A Label Range request message may be issued regardless of the Port

   Status or the Line Status of the target switch port. If the Port

   field of the request message contains an invalid port (a port that

   does not exist or a port that has been removed from the switch) a

   failure response message must be returned with the Code field set 
to,

   "One or more of the specified ports does not exist."



6. State and Statistics Messages


   The state and statistics messages permit the controller to request

   the values of various hardware counters associated with the switch

   input and output ports, virtual path connections, virtual channel

   connections, and QoS Classes.  They also permit the controller to

   request the connection state of a switch input port.  The Connection

   Activity message is used to determine whether one or more specific

   virtual channel connections or virtual path connections have 
recently

   been carrying traffic.  The Statistics message is used to query the

   various port, connection, and QoS class traffic and error counters.

   The Report Connection State message is used to request an input port

   to report the connection state for a single virtual channel

   connection, a single virtual path connection, or for the entire 
input




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   port.


6.1 Connection Activity Message


   The Connection Activity message is used to determine whether one or

   more specific virtual channel connections or virtual path 
connections

   have recently been carrying traffic. The Connection Activity message

   contains one or more Activity Records. Each Activity Record is used

   to request and return activity information concerning a single

   virtual channel connection or virtual path connection.  Each virtual

   channel connection is specified by its input port, input VPI, and

   input VCI. Each virtual path connection is specified by its input

   port and input VPI. These are specified in the Input Port, Input 
VPI,

   and Input VCI fields of each Activity Record.  Two forms of activity

   detection are supported. If the switch supports per connection

   traffic accounting, the current value of the traffic counter for 
each

   specified virtual channel connection or virtual path connection must

   be returned. The units of traffic counted are not specified but will

   typically be either cells or frames.  The controller must compare 
the

   traffic counts returned in the message with previous values for each

   of the specified connections to determine whether each connection 
has

   been active in the intervening period.  If the switch does not

   support per connection traffic accounting, but is capable of

   detecting per connection activity by some other unspecified means,

   the result may be indicated for each connection using the Flags

   field. The Connection Activity message is:


      Message Type = 48


   The Connection Activity request and success response messages have

   the following format:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |       Number of Records       |           Reserved            |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   ~                       Activity Records                        ~

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Number of Records

             Field specifies the number of Activity Records to follow.




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             The number of Connection Activity records in a single

             Connection Activity message must not cause the packet

             length to exceed the maximum transmission unit defined by

             the encapsulation.


   Each Activity Record has the following format:


   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Input Port                           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |V|C|A|x|      Input VPI        |          Input VCI            |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   +                         Traffic Count                         +

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Input Port

             Identifies the port number of the input port on which the

             connection of interest arrives in order to identify the

             connection (regardless of whether the traffic count for 
the

             connection is maintained on the input port or the output

             port).


   Input VPI

   Input VCI

             Fields identify the specific virtual path connection or

             virtual channel connection for which statistics are being

             requested. For a virtual path connection the Input VCI

             field is not used.


   Flags


        V: Valid Record

             In the success response message the Valid Record flag is

             used to indicate an invalid Activity Record. The flag must

             be zero if any of the fields in this Activity Record are

             invalid, if the input port specified by the Input Port

             field does not exist, or if the specified connection does

             not exist. If the Valid Record flag is zero in a success

             response message, the Counter flag, the Activity flag, and

             the VC Traffic Count field are undefined. If the Valid

             Record flag is set, the Activity Record is valid, and the

             Counter and Activity flags are valid. The Valid Record 
flag

             is not used in the request message.


        C: Counter

             In a success response message, if the Valid Record flag is




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             set, the Counter flag, if zero, indicates that the value 
in

             the VC Traffic Count field is valid.  If set, it indicates

             that the value in the Activity flag is valid. The Counter

             flag is not used in the request message.


        A: Activity

             In a success response message, if the Valid Record and

             Counter flags are set, the Activity flag, if set, 
indicates

             that there has been some activity on this connection since

             the last Connection Activity message for this connection.

             If zero, it indicates that there has been no activity on

             this connection since the last Connection Activity message

             for this connection. The Activity flag is not used in the

             request message.


        x: Unused


   Traffic Count

             Field is not used in the request message.  In the success

             response message, if the switch supports per connection

             traffic counting, the Traffic Count field must be set to

             the value of a free running, connection specific, 64-bit

             traffic counter counting traffic flowing across the

             specified connection.  The value of the traffic counter is

             not modified by reading it.  If per connection traffic

             counting is supported, the switch must report the

             Connection Activity result using the traffic count rather

             than using the Activity flag.


   The format of the failure response is the same as the request 
message

   with the Number of Records field set to zero and no VC Activity

   records returned in the message. If the switch is incapable of

   detecting per connection activity, a failure response must be

   returned indicating, "The specified request is not implemented on

   this switch."


6.2 Statistics Messages


   The Statistics messages are used to query the various port,

   connection, and QoS class traffic and error counters.


   The Statistics request messages have the following format:










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    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Port                              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   | zero  |          VPI          |              VCI              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      QoS Class Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   VPI

   VCI

             Fields identify the specific virtual path connection or

             virtual channel connection for which statistics are being

             requested.  For a virtual path connection the Input VCI

             field is not used.  For requests that do not require a

             virtual path connection or virtual channel connection to 
be

             specified, the VPI and VCI fields are not used.


   QoS Class Identifier

             Field identifies the QoS class for which statistics are

             being requested. This field is only used if the QoS Class

             Establishment message defined in section 9.4 is

             implemented.


   The success response for the Statistics message has the following

   format:





















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    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Port                              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   | zero  |          VPI          |              VCI              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      QoS Class Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   +                       Input Cell Count                        +

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   +                       Input Frame Count                       +

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   +                    Input Cell Discard Count                   +

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   +                   Input Frame Discard Count                   +

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   +                     Input HEC Error Count                     +

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   +                  Input Invalid VPI/VCI Count                  +

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   +                       Output Cell Count                       +

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   +                      Output Frame Count                       +

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   +                   Output Cell Discard Count                   +

   |                                                               |




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   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   +                  Output Frame Discard Count                   +

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Port

   VPI/VCI

   QoS Class Identifier

             Fields are the same as those of the request message.


   Input Cell Count

   Output Cell Count

             Give the value of a free running 64-bit counter counting

             cells arriving at the input or departing from the output

             respectively.


   Input Frame Count

   Output Frame Count

             Give the value of a free running 64-bit counter counting

             frames (packets) arriving at the input or departing from

             the output respectively.


   Input Cell Discard Count

   Output Cell Discard Count

             Give the value of a free running 64-bit counter counting

             cells discarded due to queue overflow on an input port or

             on an output port respectively.


   Input Frame Discard Count

   Output Frame Discard Count

             Give the value of a free running 64-bit counter counting

             frames discarded due to congestion on an input port or on

             an output port respectively.


   HEC Error Count

             Gives the value of a free running 64-bit counter counting

             cells discarded due to header checksum errors on arrival 
at

             an input port.


   Invalid VPI/VCI Count

             Gives the value of a free running 64-bit counter counting

             cells discarded because their VPI/VCI is invalid on 
arrival

             at an input port. For a virtual channel connection an

             incoming VPI/VCI is invalid if no connection is currently

             established having that value of VPI/VCI. For a virtual

             path connection an incoming VPI is invalid if no 
connection

             is currently established having that value of VPI.




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6.2.1 Port Statistics Message


   The Port Statistics message requests the statistics for the switch

   port specified in the Port field. The contents of the VPI/VCI and 
the

   QoS Class Identifier fields in the Port Statistics request message

   are ignored. All of the count fields in the success response message

   refer to per-port counts regardless of the connection or QoS class 
to

   which the cells belong.  Any of the count fields in the success

   response message not supported by the port must be set to zero. The

   Port Statistics message is:


      Message Type = 49


6.2.2 Connection Statistics Message


   The Connection Statistics message requests the statistics for the

   virtual channel connection specified in the VPI/VCI field, or the

   virtual path connection specified in the VPI field, that arrives on

   the switch input port specified in the Port field, regardless of the

   QoS class to which the cells belong. All of the count fields in the

   success response message refer only to the specified connection.  
The

   HEC Error Count and Invalid VPI/VCI Count fields are not connection

   specific and must be set to zero. Any of the other count fields not

   supported on a per connection basis must be set to zero in the

   success response message. The Connection Statistics message is:


      Message Type = 50


6.2.3 QoS Class Statistics Message


   The QoS Class Statistics message requests the statistics for the QoS

   class specified by the QoS Class Identifier field that arrives on 
the

   switch input port specified in the Port field, regardless of the

   connection to which the cells belong. The QoS Statistics message is

   only used if the QoS Class Establishment message defined in section

   9.4 is implemented.  The contents of the VPI/VCI fields in the QoS

   Class Statistics request message are ignored. All of the count 
fields

   in the success response message refer only to the specified QoS

   class.  The HEC Error Count and Invalid VPI/VCI Count fields are not

   specific to a QoS class and must be set to zero. Any of the other

   count fields not supported on a per QoS class basis must be set to

   zero in the success response message. The QoS Class Statistics

   message is:


      Message Type = 51







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6.3 Report Connection State Message


   The Report Connection State message is used to request an input port

   to report the connection state for a single virtual channel

   connection, a single virtual path connection, or for the entire 
input

   port. The Report Connection State message is:


      Message Type = 52


   The Report Connection State request message has the following 
format:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Input Port                           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |A|V|x x|       Input VPI       |          Input VCI            |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Input Port

             Identifies the port number of the input port for which the

             connection state is being requested.


   Flags


        A: All Connections

             If the All Connections flag is set, the message requests

             the connection state for all virtual path connections and

             virtual channel connections that arrive at the input port

             specified by the Input Port field. In this case the Input

             VPI and Input VCI fields and the VPI/VCI flag are unused.


        V: VPI/VCI

             If the All Connections flag is zero and the VPI/VCI flag 
is

             set, the message requests the connection state for the

             virtual path connection that arrives at the input port

             specified by the Input Port and Input VPI fields.  If the

             specified Input VPI identifies a virtual path connection

             (i.e. a single switched virtual path) the state for that

             connection is requested.  If the specified Input VPI

             identifies a virtual path containing virtual channel

             connections, the message requests the connection state for

             all virtual channel connections that belong to the

             specified virtual path. The Input VCI field is not used.




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             If the All Connections flag is zero and the VPI/VCI flag 
is

             also zero, the message requests the connection state for

             the virtual channel connection that arrives at the input

             port specified by the Port, Input VPI and Input VCI 
fields.


             x: Unused.


   Input VPI

   Input VCI

             Fields identify the specific virtual path connection, the

             specific virtual path, or the specific virtual channel

             connection for which connection state is being requested.

             For a virtual path connection (switched as a single 
virtual

             path connection) or a virtual path (switched as one or 
more

             virtual channel connections within the virtual path) the

             Input VCI field is not used.  For requests that do not

             require a virtual path connection or virtual channel

             connection to be specified, the Input VPI and Input VCI

             fields are not used.


   The Report Connection State success response message has the

   following format:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Input Port                           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                       Sequence Number                         |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   ~                       Connection Records                      ~

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Input Port

             Is the same as the Input Port field in the request 
message.

             It identifies the port number of the input port for which

             the connection state is being reported.


   Sequence Number

             In the case that the requested connection state cannot be

             reported in a single success response message, each

             successive success response message in reply to the same




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             request message must increment the Sequence Number. The

             Sequence Number of the first success response message, in

             response to a new request message, must be zero.


   Connection Records

             Each success response message must contain one or more

             Connection Records. Each Connection Record specifies a

             single point-to-point or point-to-multipoint virtual path

             connection or virtual channel connection. The number of

             Connection Records in a single Report Connection State

             success response must not cause the packet length to 
exceed

             the maximum transmission unit defined by the 
encapsulation.

             If the requested connection state cannot be reported in a

             single success response message, multiple success response

             messages must be sent. All success response messages that

             are sent in response to the same request message must have

             the same Input Port and Transaction Identifier fields as

             the request message. A single Connection Record must not 
be

             split across multiple success response messages. The More

             flag of the last Connection Record in a success response

             message indicates whether the response to the request has

             been completed or whether one or more further success

             response messages should be expected in response to the

             same request message.


   Each Connection Record has the following format:


   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |A|V|P|M|       Input VPI       |          Input VCI            |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   ~                      Output Branch Records                    ~

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Flags


        A: All Connections

        V: VPI/VCI

             For the first Connection Record in each success response

             message the All Connections and the VPI/VCI flags must be

             the same as those of the request message. For successive

             Connection Records in the same success response message

             these flags are not used.


        P: VPC

             The VPC flag, if set, indicates that the Connection Record

             refers to a virtual path connection.  If zero, it 
indicates




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             that the Connection Record refers to a virtual channel

             connection.


        M: More

             If the More flag is set, it indicates that another

             Connection Record, in response to the same request 
message,

             will follow either in the same success response message or

             in a successive success response message. If the More flag

             is zero it indicates that this is the last Connection

             record in this success response message and that no 
further

             success response messages will be sent in response to the

             current request message. It indicates that the response to

             the request message is now complete.


   Input VPI

   Input VCI

             The input VPI and VCI of the connection specified in this

             Connection Record. If this Connection Record specifies a

             virtual path connection (the VPC flag is set) the Input 
VCI

             field is unused.


   Output Branch Records

             Each Connection Record must contain one or more Output

             Branch Records. Each Output Branch Record specifies a

             single output branch belonging to the connection 
identified

             by the Input VPI and Input VCI fields of the Connection

             Record. A point-to-point connection will require only a

             single Output Branch Record. A point-to-multipoint

             connection will require multiple Output Branch Records. 
The

             last Output Branch Record of each Connection Record is

             indicated by the Last Branch flag of the Output Branch

             Record. If a point-to-multipoint connection has more 
output

             branches than can fit in a single Connection Record

             contained within a single success response message, that

             connection may be reported using multiple Connection

             Records in multiple success response messages.


   Each Output Branch Record has the following format:


   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Output Port                          |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |L|x x x|       Output VPI      |          Output VCI           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Output Port

             The output port of the switch to which this output branch

             is routed.




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   Flags


        L: Last Branch

             The Last Branch flag, if set, indicates that this is the

             last Output Branch Record of this Connection Record. If

             zero, it indicates that one or more further Output Branch

             Records are to follow. If this is the last Output Branch

             Record in the message and the Last Branch flag is zero,

             further output branches belonging to the same connection

             will be given in another Connection Record. This 
Connection

             Record will be the first Connection Record in the next

             success response message. This Connection Record must have

             the same Input VPI and Input VCI values as the current

             Connection Record.


             x: Unused.


   Output VPI

   Output VCI

             The output VPI and VCI of the output branch specified in

             this Output Branch Record.  If this Output Branch Record 
is

             part of a Connection Record that specifies a virtual path

             connection (the VPC flag is set) the Output VCI field is

             unused.


   A Report Connection State request message may be issued regardless 
of

   the Port Status or the Line Status of the target switch port.


   If the Input Port of the request message is valid, and the All

   Connections flag is set, but there are no connections established on

   that port, a failure response message must be returned with the code

   field set to, "Failure specific to the particular message type." For

   the Report Connection State message, this failure code indicates 
that

   no connections matching the request message were found.  This 
failure

   message should also be returned if the Input Port of the request

   message is valid, the All Connections flag is zero, and no

   connections are found on that port matching the specified virtual

   path connection, virtual path, or virtual channel connection.



7. Configuration Messages


   The configuration messages permit the controller to discover the

   capabilities of the switch. Three configuration request messages 
have

   been defined: Switch, Port, and All Ports.


   All configuration request messages have the following format:





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    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Port                              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


7.1 Switch Configuration Message


   The Switch Configuration message requests the global (non port-

   specific) configuration for the switch. The Switch Configuration

   message is:


      Message Type = 64


   The Port field is not used in the request message.


   The Switch Configuration success response message has the following

   format:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Firmware Version Number    |          Window Size          |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |          Switch Type          |                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+                               +

   |                          Switch Name                          |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Firmware Version Number

             The version number of the switch control firmware

             installed.


   Window Size

             The maximum number of unacknowledged request messages that

             may be transmitted by the controller without the

             possibility of loss.  This field is used to prevent 
request

             messages being lost in the switch because of overflow in

             the receive buffer. The field is a hint to the controller.

             If desired, the controller may experiment with higher and




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             lower window sizes to determine heuristically the best

             window size.


   Switch Type

             A 16-bit field allocated by the manufacturer of the 
switch.

             (For these purposes the manufacturer of the switch is

             assumed to be the organization identified by the OUI in 
the

             Switch Name field.) The Switch Type identifies the 
product.

             When the Switch Type is combined with the OUI from the

             Switch Name the product is uniquely identified. Network

             Management may use this identification to obtain product

             related information from a database.


   Switch Name

             A 48-bit quantity that is unique within the operational

             context of the device. A 48-bit IEEE 802 MAC address, if

             available, may be used as the Switch Name. The most

             significant 24 bits of the Switch Name must be an

             Organizationally Unique Identifier (OUI) that identifies

             the manufacturer of the switch.


7.2 Port Configuration Message


   The Port Configuration message requests the switch for the

   configuration information of a single switch port. The Port field in

   the request message specifies the port for which the configuration 
is

   requested.  The Port Configuration message is:


      Message Type = 65.


   The Port Configuration success response message has the following

   format:




















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    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Port                              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                       Port Session Number                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |V|M|L|R|      Min VPI          |Q|x x x|       Max VPI         |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |            Min VCI            |           Max VCI             |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                       Receive Cell Rate                       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Transmit Cell Rate                       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |  Port Status  |   Port Type   |  Line Status  |  Priorities   |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |     Physical Slot Number      |     Physical Port Number      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Port

             The switch port to which the configuration information

             refers. Configuration information relating to both the

             input and the output sides of the switch port is given.

             Port numbers are 32 bits wide and allocated by the switch.

             The switch may choose to structure the 32 bits into

             subfields that have meaning to the physical structure of

             the switch hardware (e.g.  physical slot and port). This

             structure may be indicated in the Physical Slot Number and

             Physical Port Number fields.


   Flags


        V: VP Switching

             The VP Switching flag, if set, indicates that this input

             port is capable of supporting virtual path switching. 
Else,

             if zero, it indicates that this input port is only capable

             of virtual channel switching.


        M: Multicast Labels

             The Multicast Labels flag, if set, indicates that this

             output port is capable of labelling each output branch of 
a

             point-to-multipoint tree with a different label. If zero,

             it indicates that this output port is not able to label




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             each output branch of a point-to-multipoint tree with a

             different label.


        L: Logical Multicast

             The Logical Multicast flag, if set, indicates that this

             output port is capable of supporting more than a single

             branch from any point-to-multipoint connection.  This

             capability is often referred to as logical multicast.  If

             zero, it indicates that this output port can only support 
a

             single output branch from each point-to-multipoint

             connection.


        R: Label Range

             The Label Range flag, if set, indicates that this switch

             port is capable of reallocating its VPI label range or its

             VCI label range and therefore accepts the Label Range

             message. Else, if zero, it indicates that this port does

             not accept Label Range messages.


        Q: QoS

             The QoS flag, if set, indicates that this switch port is

             capable of handling the Quality of Service messages 
defined

             in section 9 of this specification.  Else, if zero, it

             indicates that this port does not accept the Quality of

             Service messages.


        x: Unused


   Min VPI

             The default minimum value of dynamically assigned incoming

             VPI that the connection table on the input port supports

             and that may be controlled by GSMP. This value is not

             changed as a result of the Label Range message.


   Max VPI

             The default maximum value of dynamically assigned incoming

             VPI that the connection table on the input port supports

             and that may be controlled by GSMP.  This value is not

             changed as a result of the Label Range message.


             At power-on, after a hardware reset, and after the Reset

             Input Port function of the Port Management message, the

             input port must handle all values of VPI within the range

             Min VPI to Max VPI inclusive and GSMP must be able to

             control all values within this range.  It should be noted

             that the range Min VPI to Max VPI refers only to the

             incoming VPI range that can be supported by the associated

             port. No restriction is placed on the values of outgoing




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             VPIs that may be written into the cell header. If the

             switch does not support virtual paths it is acceptable for

             both Min VPI and Max VPI to specify the same value, most

             likely zero.


             Use of the Label Range message allows the range of VPIs

             supported by the port to be changed. However, the Min VPI

             and Max VPI fields in the Port Configuration and All Ports

             Configuration messages always report the same default

             values regardless of the operation of the Label Range

             message.


   Min VCI

             The default minimum value of dynamically assigned incoming

             VCI that the connection table on the input port can 
support

             and may be controlled by GSMP. This value is not changed 
as

             a result of the Label Range message.


   Max VCI

             The default maximum value of dynamically assigned incoming

             VCI that the connection table on the input port can 
support

             and may be controlled by GSMP. This value is not changed 
as

             a result of the Label Range message.


             At power-on, after a hardware reset, and after the Reset

             Input Port function of the Port Management message, the

             input port must handle all values of VCI within the range

             Min VCI to Max VCI inclusive, for each of the virtual 
paths

             in the range Min VPI to Max VPI inclusive, and GSMP must 
be

             able to control all values within this range.  It should 
be

             noted that the range Min VCI to Max VCI refers only to the

             incoming VCI range that can be supported by the associated

             port on each of the virtual paths in the range Min VPI to

             Max VPI. No restriction is placed on the values of 
outgoing

             VCIs that may be written into the cell header.


             Use of the Label Range message allows the range of VCIs to

             be changed on each VPI supported by the port.  However, 
the

             Min VCI and Max VCI fields in the Port Configuration and

             All Ports Configuration messages always report the same

             default values regardless of the operation of the Label

             Range message.


             For a port over which the GSMP protocol is operating, the

             VCI of the GSMP control channel may or may not be reported

             as lying within the range Min VCI to Max VCI.  A switch

             should honor a connection request message that specifies

             the VCI value of the GSMP control channel even if it lies




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             outside the range Min VCI to Max VCI.


   Receive Cell Rate

             The maximum rate of cells that may arrive at the input 
port

             in cells/s.


   Transmit Cell Rate

             The maximum rate of cells that may depart from the output

             port in cells/s. (The transmit cell rate of the output 
port

             may be changed by the Set Transmit Cell Rate function of

             the Port Management message.)


   Port Status

             Gives the administrative state of the port. The defined

             values of the Port Status field are:


             Available:

                  Port Status = 1. The port is available to both send

                  and receive cells. When a port changes to the

                  Available state from any other administrative state,

                  all dynamically assigned virtual connections must be

                  cleared and a new Port Session Number must be

                  generated.


             Unavailable:

                  Port Status = 2. The port has intentionally been 
taken

                  out of service. No cells will be transmitted from 
this

                  port.  No cells will be received by this port.


             Internal Loopback:

                  Port Status = 3. The port has intentionally been 
taken

                  out of service and is in internal loopback: cells

                  arriving at the output port from the switch fabric 
are

                  looped through to the input port to return to the

                  switch fabric. All of the ATM functions of the input

                  port above the physical layer, e.g. header

                  translation, are performed upon the looped back 
cells.


             External Loopback:

                  Port Status = 4. The port has intentionally been 
taken

                  out of service and is in external loopback: cells

                  arriving at the input port from the external

                  communications link are immediately looped back to 
the

                  communications link at the physical layer without

                  entering the input port. None of the ATM functions of

                  the input port above the physical layer are performed

                  upon the looped back cells.





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             Bothway Loopback:

                  Port Status = 5. The port has intentionally been 
taken

                  out of service and is in both internal and external

                  loopback.


             The Port Status of the port over which the GSMP session

             controlling the switch is running, must be declared

             Available. The controller will ignore any other Port 
status

             for this port. The Port Status of switch ports after 
power-

             on initialization is not defined by GSMP.


   Port Type

             The type of physical transmission interface for this port.

             The values for this field are defined by the atmIfType

             object specified in the Ipsilon IP Switch MIB 
[IpsilonMIB].


   Line Status

             The status of the physical transmission medium connected 
to

             the port. The defined values of the Line Status field are:


             Up:

                  Line Status = 1. The line is able to both send and

                  receive cells.  When the Line Status changes to Up

                  from either the Down or Test states, a new Port

                  Session Number must be generated.


             Down:

                  Line Status = 2. The line is unable either to send or

                  receive cells or both.


             Test:

                  Line Status = 3. The port or line is in a test mode,

                  for example, power-on test.


   Priorities

             The number of different priority levels that this output

             port can assign to virtual connections.  Zero is invalid 
in

             this field. If an output port is able to support "Q"

             priorities, the highest priority is numbered zero and the

             lowest priority is numbered "Q-1". The ability to offer

             different qualities of service to different connections

             based upon their priority is assumed to be a property of

             the output port of the switch. It may be assumed that for

             connections that share the same output port, an ATM cell 
on

             a connection with a higher priority is much more likely to

             exit the switch before an ATM cell on a connection with a

             lower priority if they are both in the switch at the same

             time.




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   Physical Slot Number

             The physical location of the slot in which the port is

             located. It is an unsigned 16-bit integer that can take 
any

             value except 0xFFFF. The value 0xFFFF is used to indicate

             "unknown." The Physical Slot Number is not used by the 
GSMP

             protocol. It is provided to assist network management in

             functions such as logging, port naming, and graphical

             representation.


   Physical Port Number

             The physical location of the port within the slot in which

             the port is located. It is an unsigned 16-bit integer that

             can take any value except 0xFFFF. The value 0xFFFF is used

             to indicate "unknown." The Physical Port Number is not 
used

             by the GSMP protocol. It is provided to assist network

             management in functions such as logging, port naming, and

             graphical representation.


             There must be a one to one mapping between Port Number and

             the Physical Slot Number and Physical Port Number

             combination. Two different Port Numbers must not yield the

             same Physical Slot Number and Physical Port Number

             combination. The same Port Number must yield the same

             Physical Slot Number and Physical Port Number within a

             single GSMP session.  If both Physical Slot Number and

             Physical Port Number indicate "unknown" the physical

             location of switch ports may be discovered by looking up

             the product identity in a database to reveal the physical

             interpretation of the 32-bit Port Number.


7.3 All Ports Configuration Message


   The All Ports Configuration message requests the switch for the

   configuration information of all of its ports. The All Ports

   Configuration message is:


      Message Type = 66


   The Port field is not used in the request message.


   The All Ports Configuration success response message has the

   following format:










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    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |       Number of Records       |      Port Record Length       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   ~                          Port Records                         ~

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Number of Records

             Field gives the total number of Port Records to be 
returned

             in response to the All Ports Configuration request 
message.

             The number of port records in a single All Ports

             Configuration success response must not cause the packet

             length to exceed the maximum transmission unit defined by

             the encapsulation. If a switch has more ports than can be

             sent in a single success response message it must send

             multiple success response messages. All success response

             messages that are sent in response to the same request

             message must have the same Transaction Identifier as the

             request message and the same value in the Number of 
Records

             field.  All success response messages that are sent in

             response to the same request message, except for the last

             message, must have the result field set to "More." The 
last

             message, or a single success response message, must have

             the result field set to "Success." All Port records within

             a success response message must be complete, i.e. a single

             Port record must not be split across multiple success

             response messages.


   Port Record Length

             Field gives the length of each port record in bytes. This

             is currently 32 but the Port Record Length field allows 
for

             the future definition of further fields at the end of the

             port record while preserving compatibility with earlier

             versions of the protocol.


   Port Records

             Follow in the remainder of the message. Each port record

             has the following format:







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    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Port                              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                       Port Session Number                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |V|M|L|R|      Min VPI          |Q|x x x|       Max VPI         |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |            Min VCI            |           Max VCI             |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                       Receive Cell Rate                       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Transmit Cell Rate                       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |  Port Status  |   Port Type   |  Line Status  |  Priorities   |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |     Physical Slot Number      |     Physical Port Number      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   The definition of the fields in the Port Record is exactly the same

   as that of the Port Configuration message.



8. Event Messages


   Event messages allow the switch to inform the controller of certain

   asynchronous events. Event messages are not acknowledged. The Result

   field and the Code field in the message header are not used and

   should be set to zero. Event messages are not sent during

   initialization. Event messages have the following format:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Port                              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Port Session Number                      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                     Event Sequence Number                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   | zero  |          VPI          |              VCI              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+





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   Event Sequence Number

             The current value of the Event Sequence Number for the

             specified port. The Event Sequence Number is set to zero

             when the port is initialized. It is incremented by one 
each

             time the port detects an asynchronous event that the 
switch

             would normally report via an Event message. The Event

             Sequence Number must be incremented each time an event

             occurs even if the switch is prevented from sending an

             Event message due to the action of the flow control.


   VPI/VCI

             Field gives the VPI/VCI to which the event message refers.

             If this field is not required by the event message it is

             set to zero.


   Each switch port must maintain an Event Sequence Number and a set of

   Event Flags, one Event Flag for each type of Event message.  When a

   switch port sends an Event message it must set the Event Flag on 
that

   port corresponding to the type of the event. The port is not

   permitted to send another Event message of the same type until the

   Event Flag has been reset. Event Flags are reset by the "Reset Event

   Flags" function of the Port Management message. This is a simple 
flow

   control preventing the switch from flooding the controller with 
event

   messages. The Event Sequence Number of the port must be incremented

   every time an event is detected on that port even if the port is

   prevented from reporting the event due to the action of the flow

   control. This allows the controller to detect that it has not been

   informed of some events that have occurred on the port due to the

   action of the flow control.


8.1 Port Up Message


   The Port Up message informs the controller that the Line Status of a

   port has changed from either the Down or Test state to the Up state.

   When the Line Status of a switch port changes to the Up state from

   either the Down or Test state a new Port Session Number must be

   generated, preferably using some form of random number. The new Port

   Session Number is given in the Port Session Number field. The 
VPI/VCI

   field is not used and is set to zero.  The Port Up message is:


      Message Type = 80


8.2 Port Down Message


   The Port Down message informs the controller that the Line Status of

   a port has changed from the Up state to the Down state. This message

   will be sent to report link failure if the switch is capable of

   detecting link failure. The port session number that was valid 
before




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   the port went down is reported in the Port Session Number field. The

   VPI/VCI field is not used and is set to zero. The Port Down message

   is:


      Message Type = 81


8.3 Invalid VPI/VCI Message


   The Invalid VPI/VCI message is sent to inform the controller that 
one

   or more cells have arrived at an input port with a VPI/VCI that is

   currently not allocated to an assigned connection. The input port is

   indicated in the Port field, and the VPI/VCI in the VPI/VCI field.

   The Invalid VPI/VCI message is:


      Message Type = 82


8.4 New Port Message


   The New Port message informs the controller that a new port has been

   added to the switch. The port number of the new port is given in the

   Port field.  A new Port Session Number must be assigned, preferably

   using some form of random number.  The new Port Session Number is

   given in the Port Session Number field.  The state of the new port 
is

   undefined so the VPI/VCI field is not used and is set to zero.  The

   New Port message is:


      Message Type = 83


8.5 Dead Port Message


   The Dead Port message informs the controller that a port has been

   removed from the switch. The port number of the port is given in the

   Port field. The Port Session Number that was valid before the port

   was removed is reported in the Port Session Number field.  The

   VPI/VCI fields are not used and are set to zero. The Dead Port

   message is:


      Message Type = 84



9. Quality of Service Messages


   The GSMP Quality of Service (QoS) messages allow a controller to

   group virtual path connections and virtual channel connections into

   QoS classes, and to allocate QoS resources to both QoS classes and 
to

   individual connections. At initialization, the switch describes its

   QoS capabilities to the controller, in terms of the abstract switch

   model, using the QoS Configuration message. The controller issues




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   Scheduler Establishment messages to configure the scheduler on each

   switch output port. It also issues QoS Class Establishment messages

   to configure QoS classes. Connections may be added to, or deleted

   from, a QoS class using the QoS Connection Management message. QoS

   resources may also be assigned to individual connections using the

   QoS Connection Management message. Connections that only require the

   scheduler may use the simple connection management messages defined

   in Section 3, "Connection Management Messages."


9.1 Abstract Switch Model


   The abstract switch model, fig. 1, is the means by which a switch 
can

   describe its fundamental QoS capabilities to a controller. It

   consists of four main functions: a policer, a classifier, a

   regulator, and a scheduler.  The classifier groups multiple

   connections (VPCs or VCCs) together into a QoS class such that QoS

   resources may be shared by the QoS class as a whole. Within a QoS

   class there is no differentiation between members of the class in

   terms of QoS resources received. However, the ordering of cells

   within each constituent VPC or VCC must be preserved on exit from 
the

   switch. Connections are not required to be aggregated into a QoS

   class with other connections; they may be allocated individual QoS

   resources.





























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   VPC/VCCs  Policer  Classifier   Regulator       Scheduler


             +--+     +----+                       +--------+

    -------->|  |---->|    |                       |        |

             +--+     |    |                       |        |

                      |    |                       |        |

             +--+     |    |       +----+          |        |

    -------->|  |---->|    |       |    |--------->|        |

             +--+     |    |       |    |conforming|        |

                      |    |------>|    |          |        |

             +--+     |    |  QoS  |    |          |        |

    -------->|  |---->|    | Class |    |--------->|        |

             +--+     |    |       +----+  excess  |        |

                      |    |                       |        |

             +--+     |    |                       |        |

    -------->|  |---->|    |                       |        |

             +--+     +----+                       |        |

                                                   |        |

                                                   |        |   Output

                                                   |        |    Port

                                                   |        
|---------->

                                                   |        |

                                                   |        |

             +--+     +----+                       |        |

    -------->|  |---->|    |                       |        |

             +--+     |    |                       |        |

                      |    |                       |        |

             +--+     |    |       +----+          |        |

    -------->|  |---->|    |       |    |--------->|        |

             +--+     |    |       |    |conforming|        |

                      |    |------>|    |          |        |

             +--+     |    |  QoS  |    |          |        |

    -------->|  |---->|    | Class |    |--------->|        |

             +--+     |    |       +----+  excess  |        |

                      |    |                       |        |

             +--+     |    |                       |        |

    -------->|  |---->|    |                       |        |

             +--+     +----+                       |        |

                                                   +--------+


                       Fig. 1: Abstract Switch Model


   The policer is a single input, single output device that can discard

   or tag cells.  A policer may be applied to police each individual

   connection.  A policer may also be applied to police the aggregate

   traffic of a QoS class.  The policer is  used to enforce an upper

   bound on the traffic on a connection or on a QoS class.





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   The regulator follows the policer and classifier. It offers either a

   policing function or a shaping function. The policing function

   evaluates cells as conforming to the rate specified by the regulator

   parameters or as being in excess of that rate. One of three actions

   can be specified to be taken for each cell as a result of this

   evaluation: tagging, discard or differentiated scheduling. Tagging

   sets the CLP bit of cells deemed to be in excess of the rate defined

   by the regulator parameters.  The discard function discards excess

   cells. The differentiated scheduling function allows conforming 
cells

   and excess cells to be scheduled for service at different points in

   the scheduler. This would allow conforming cells, for example, to

   receive service with a QoS guarantee, whereas excess cells receive

   best-effort service.  The implementation of differentiated

   scheduling, however, is complicated by the requirement not to 
reorder

   cells within each connection.


   The shaping function of the regulator paces cells out, on each QoS

   class or individual connection, at the rate specified by the

   regulator parameters. No jitter requirement may be specified, nor is

   any specific guarantee of jitter given. If traffic arrives on any 
QoS

   class or individual connection at a greater rate than the output 
rate

   specified, that traffic will be delayed.  If the delayed traffic for

   any QoS class or individual connection exceeds a bound, discard will

   occur.  Differentiated scheduling is supported by the shaper but its

   application to shaping is somewhat different than its application to

   policing. Conforming traffic is that traffic which leaves the shaper

   as a result of the shaping process.  The conforming pointer 
specifies

   the point in the scheduler structure where such traffic is scheduled

   for output. (This is typically the highest priority of the scheduler

   but the GSMP specification permits other priorities to be 
specified.)

   If an excess pointer is also enabled for a particular QoS class or

   individual connection, traffic in excess of the rate specified by 
the

   shaper may also be transmitted.  The position of the excess pointer

   in the scheduler structure determines the undefined amount of

   additional traffic that will be supported. The excess traffic may be

   tagged if required, if tagging is supported. The excess pointer will

   receive the same share of bandwidth that a best-effort class or

   connection would receive at the same location in the scheduler

   structure.


   The location of the classifier and regulator functions in the switch

   is important. If the classifier is located on an input port, only

   virtual connections that arrive at that input port may be aggregated

   into a QoS class. If the classifier is centralized, or located on an

   output port, virtual connections that arrive at any input port may 
be

   aggregated into the same QoS class. If the regulator is located on 
an

   output port all virtual connections within a QoS class passing

   through that regulator must exit the switch at that output port.




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   However, if the regulator is centralized, or located on an input

   port, virtual connections that are part of the same QoS class may be

   switched to different output ports.  Each switch port must specify

   the location of its classifier and regulator functions.


   The scheduler is located on the output port, fig. 2. It distributes

   the bandwidth of the output link between the QoS classes and

   individual connections.  It is a two-level scheduler: a priority

   scheduler at one level and a FIFO or a weighted scheduler at the

   other.  Up to 255 strict priority levels may be supported. Traffic 
in

   any specific priority level may only be transmitted if no traffic is

   queued for transmission in any higher priority level. Within each

   priority level a weighted scheduler may be defined. Each leaf of the

   scheduler tree is connected to a waiting room. The waiting room has

   two functions. When it receives service from the scheduler, it must

   select a QoS class or individual connection for transmission. When 
it

   is notified of traffic arrival on a QoS class or connection, it must

   decide whether there is enough room left in the waiting room to

   accept the traffic, else that traffic must be discarded. The waiting

   room has a size parameter indicating how much traffic may be

   accepted.  Other queueing parameters may be attached to the waiting

   room. Multiple conforming and excess pointers from the regulators 
may

   point to each waiting room. Within a waiting room, the scheduling of

   multiple connections sharing that waiting room may support weighted

   sharing between the connections.



























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        From      Waiting        FIFO/Weighted        Priority

      Regulator     Room           Scheduler          Scheduler


                           Net       +---+

                  +------+ Weight    |   |

       ---------->|      |-%-------->| 0 |------\

                  +------+           |   |       \

                                     +---+        \

       ---------->+------+                        |

                  |      |-%--\      +---+        |

       ---------->+------+     \---->|   |        |

                                     | 1 |---\    |

                  +------+     /---->|   |    \   \

       ---------->|      |-%--/      +---+     \   \    +---+

                  +------+                      \   \-->|   |

                                                 \----->|   |--------->

       ---------->+------+                          /-->|   |  Output

       ---------->|      |-%-\                     /    +---+   Port

       ---------->+------+    \                   /

                               \     +---+       /

                  +------+      \--->|   |      /

       ---------->|      |-%-------->| 2 |-----/

                  +------+      /--->|   |

                               /     +---+

                  +------+    /

       ---------->|      |-%-/

                  +------+


                           Fig. 2: The Scheduler


9.2 QoS Configuration Message


   The QoS Configuration message permits the controller to discover the

   QoS capabilities of each switch port in terms of the abstract switch

   model. The QoS Configuration message is:


      Message Type = 96



   The QoS Configuration request message has the following format:












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    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Port                              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   The QoS Configuration success response message has the following

   format:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Port                              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                       Port Session Number                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |        Scheduler Flags        |       Regulator Flags         |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |      Excess Capabilities      |            Reserved           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |  Hi Sharing   |  Lo Sharing   |          Max Classes          |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Default Size                         |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                   Default Discard Threshold                   |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Max Buffer                           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                        Max Shaper Buffer                      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                        Scaling Factor                         |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Port

             The switch port to which the QoS configuration information

             refers. QoS configuration information relating to both the

             input and the output sides of the switch port is given.







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   Scheduler Flags


         0                   1

         0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5

        +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

        |W|Q|S|G|D|F|M|B|I|x x x x x x x|

        +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


        W: Weighted Connections

             Bit 0 of the Scheduler Flags field, if set, indicates that

             a weighted service algorithm (such as weighted 
round-robin)

             is available for allocation of service to individual

             connections within at least some waiting rooms.  It means

             that a Connection Weight parameter can be attached to a 
QoS

             Connection Management message.  Not all waiting rooms at

             all priority levels may be able to support this function.

             Whether a particular waiting room can support this 
function

             will be discovered when a QoS Connection Management 
message

             is issued.


        Q: Weighted QoS Classes

             Bit 1 of the Scheduler Flags field, if set, indicates that

             a weighted service algorithm (such as weighted 
round-robin)

             is available for allocation of service to QoS classes

             within at least some waiting rooms.  It means that a QoS

             Class Weight parameter can be attached to a QoS Class

             Establishment message.  Not all waiting rooms at all

             priority levels may be able to support this function.

             Whether a particular waiting room can support this 
function

             will be discovered when a QoS Class Establishment message

             is issued.


        S: Shared Waiting Room

             Bit 2 of the Scheduler Flags field, if set, indicates that

             multiple QoS classes and multiple connections may be

             scheduled within a single waiting room. This is expected 
to

             be the normal case. If Bit 2 of the Scheduler Flags field

             is zero, it indicates that only a single QoS class or a

             single connection may be directed to any single waiting

             room.


        G: Global Max Classes

             Bit 3 of the Scheduler Flags field, if set, indicates that

             the Max Classes field gives the maximum number of QoS

             classes that may be supported by the entire switch. If

             zero, it indicates that the Max Classes field gives the

             maximum number of QoS classes that may be supported by 
this

             switch port.




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        D: Packet Discard

             Bit 4 of the Scheduler Flags field, if set, indicates that

             the scheduler on this output port is capable of packet

             discard. Packet discard indicates a discard algorithm that

             is aware of AAL-5 packet boundaries and attempts to 
discard

             whole packets. No specific algorithm is indicated though

             Early Packet Discard (EPD) is likely to be the most 
common.

             Other algorithms such as "push from front" schemes, 
dynamic

             threshold, or Random Early Detection (RED) are also

             examples of possible packet discard algorithms. The only

             parameters available to the packet discard algorithm, via

             GSMP, are the Size and Discard Threshold of the waiting

             room.


        F: Frame-Based Scheduling

             Bit 5 of the Scheduler Flags field, if set, indicates that

             the scheduler on this output port is capable of 
frame-based

             scheduling. In frame-based scheduling, a connection is 
only

             scheduled for transmission when a complete AAL-5 packet is

             available.  When a connection is scheduled for

             transmission, all cells belonging to one or more complete

             packets from that connection will be transmitted without

             being interleaved with any other cells on that output port

             (regardless of their priority).  Frame-based scheduling is

             a property of the waiting room and is requested in the

             Scheduler Establishment message.  A QoS class may be 
routed

             through a waiting room configured with frame-based

             scheduling.  In this case each component connection of the

             QoS class will receive frame based scheduling. For correct

             distribution of bandwidth, each QoS class that requires

             frame-based scheduling should have its own waiting room.


        M: VC Merging

             Bit 6 of the Scheduler Flags field, if set, indicates that

             the scheduler on this output port is capable of VC merging

             by a mechanism other than frame-based scheduling. VC

             merging indicates that the switch is capable of the

             multipoint-to-point merging of two or more incoming 
virtual

             connections onto a single outgoing virtual connection

             without interleaving cells from different AAL-5 packets

             that bear the same VPI/VCI. VC merging differs from frame-

             based scheduling in that cells with a different VPI/VCI 
may

             be interleaved with those of a multipoint-to-point VC

             merging connection. Thus, higher priority cells may be

             interleaved during the transmission of a packet on a lower

             priority VC merging connection.  Most switches achieve VC

             merging by using frame-based scheduling.  VC merging is a

             property of the waiting room and is requested in the




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             Scheduler Establishment message.  A QoS class may be 
routed

             through a waiting room configured with VC merging.  In 
this

             case each component connection of the QoS class will

             receive VC merging.


        B: Shared Buffer

             Bit 7 of the Scheduler Flags field, if set, indicates that

             at least some of the buffer space specified by the Max

             Buffer field is shared with other ports.  If zero, it

             indicates that the buffer space specified by the Max 
Buffer

             field is not shared with other ports.


        I: Identical Ports

             Bit 8 of the Scheduler Flags field, if set, indicates that

             all ports of the switch have identical QoS capabilities. 
If

             this bit is set the controller does not have to request 
the

             QoS configuration of each port individually as all ports

             have the same capability.


        x: Bits 9--15 of the Scheduler Flags field are not used.


   Regulator Flags


         0                   1

         0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5

        +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

        |C|Q|I O|P|S|H|M|x x x x x x x x|

        +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


        C: Connection Policing

             Bit 0 of the Regulator Flags field indicates that this

             input port supports the policing of individual incoming

             connections. The parameters for the policer are specified

             in the QoS Connection Management message when the

             connection is established.


        Q: QoS Class Policing

             If bit 1 of the Regulator Flags field is set, a policer

             function is available to police each QoS class on output

             from the classifier. The parameters for this policer are

             specified in the QoS Class Establishment message. If this

             bit is zero, no policer function is available to police a

             QoS class.


        IO: QoS Class Location

             Bits 2 and 3 of the Regulator Flags field specify the

             location of the classifier and regulator functions. If 
both

             bits 2 and 3 of the Regulator Flags field are zero, no




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             classifier or regulator function is available to this 
port.


             If bit 2 of the Regulator Flags field is set and bit 3 is

             zero, the classifier and regulator functions are available

             on the input port. This implies that only virtual

             connections arriving at this input port may be grouped 
into

             QoS classes by this classifier. However, connections in a

             QoS class output from this regulator may be switched to 
any

             output port.


             If bit 2 of the Regulator Flags field is zero and bit 3 is

             set, the classifier and regulator functions are available

             on the output port. This implies that virtual connections

             arriving at any input port may be grouped into QoS classes

             by this classifier. However, all connections in any QoS

             class output from this regulator may only be switched to

             this output port.


             If both bits 2 and 3 of the Regulator Flags field are set,

             this switch port has access to centralized classifier and

             regulator functions. This implies that virtual connections

             arriving at any input port may be grouped into a QoS class

             by this classifier. Also, connections in a QoS class 
output

             from this regulator may be switched to any output port.


        Regulator Function


        P: If bit 4 of the Regulator Flags field is set, the regulator

             is able to support the policing function.


        S: If bit 5 of the Regulator Flags field is set, the regulator

             is able to support the shaping function on all priority

             levels of the scheduler.


        H: If bit 5 of the Regulator Flags field is zero and bit 6 is

             set, the regulator is able to support the shaping function

             but only on the highest priority level of the scheduler.

             All connections and QoS classes using this regulator must

             be routed to a waiting room at the highest priority level

             of the scheduler.


        M: QoS Multicast

             If bit 7 of the Regulator Flags field is set, any 
point-to-

             multipoint connection arriving on this input port, with 
QoS

             parameters established by the GSMP Quality of Service

             messages, must use the same QoS parameters for all output

             branches.





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        x: Bits 8--15 of the Regulator Flags field are not used.


   Excess Capabilities


         0                   1

         0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5

        +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

        |D|T|S|A|B|x x x x x x x x x x x|

        +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


        Policer:


        D: If bit 0 of the Excess Capabilities field is set, the 
policer

             function of the regulator is able to support discard.


        T: If bit 1 of the Excess Capabilities field is set, the 
policer

             function of the regulator is able to support tagging.


        S: If bit 2 of the Excess Capabilities field is set, the 
policer

             function of the regulator is able to support 
differentiated

             scheduling.


        Shaper:


        A: If bit 3 of the Excess Capabilities field is set, the shaper

             function of the regulator is able to support tagging.


        B: If bit 4 of the Excess Capabilities field is set, the shaper

             function of the regulator is able to support 
differentiated

             scheduling.


        x: Bits 5--15 of the Excess Capabilities field are not used.


   Hi Sharing

   Lo Sharing

             Defines a range of priority levels that support weighted

             sharing. Each priority level in the range Lo Sharing to Hi

             Sharing inclusive, supports weighted sharing. A priority

             level that supports weighted sharing offers a weighted

             sharing algorithm (for example, weighted round-robin)

             between waiting rooms within that priority level. This

             permits the output link bandwidth available at that

             priority level, to be shared between the waiting rooms

             allocated to that priority level, according to the Net

             Weight parameter of each waiting room.  The value 0xFF for

             both parameters indicates that this output port does not

             support weighted sharing in any priority level.





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   Max Classes

             If bit 3 of the Scheduler Flags field is zero, Max Classes

             gives the maximum number of QoS classes that may be

             supported by this switch port. In this case the maximum

             number of QoS classes that may be supported by this switch

             port is not affected by the number of QoS classes in use 
by

             other switch ports.  If bit 3 of the Scheduler Flags field

             is set, Max Classes gives the maximum number of QoS 
classes

             that may be supported by the entire switch. In this case 
it

             is assumed that use of these QoS classes may be 
distributed

             among the various switch ports.


   Default Size

             The size of waiting room that this output port allocates 
by

             default. The actual size of waiting room may be specified

             in the Scheduler Establishment message. The size of a

             waiting room specifies the maximum number of cells

             permitted to wait for transmission via that waiting room.

             Any further cells arriving at that waiting room beyond 
this

             number will be discarded.


   Default Discard Threshold

             The value of discard threshold that this output port

             allocates by default. The actual value of discard 
threshold

             may be specified in the Scheduler Establishment message.

             The discard threshold specifies the number of cells 
waiting

             for transmission via a waiting room after which further

             arriving cells will be subject to a discard mechanism.


   Max Buffer

             The maximum amount of buffer space, measured in cells,

             available to this port. If bit 7 of the Scheduler Flags

             field is zero this, buffer space is not shared with other

             ports. If bit 7 of the Scheduler Flags field is set, at

             least some of this buffer space is shared with other 
ports.


   Max Shaper Buffer

             The maximum amount of buffer space, measured in cells,

             available to a QoS connection or a QoS class within the

             shaper function of the regulator. This shaper buffer space

             is likely to be shared among all QoS classes and QoS

             connections using the shaper, so there is no guarantee 
that

             the amount of buffer space defined by the Max Shaper 
Buffer

             field will be available to any particular QoS class or QoS

             connection.


   Scaling Factor

             The QoS Class Establishment and QoS Connection Management




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             messages require parameters that describe cell rates in

             cells per second or their reciprocal, cell interarrival

             periods, in seconds per cell. In order that these

             parameters may be specified with a 32-bit unsigned 
integer,

             the switch defines a Scaling Factor to be used in defining

             such parameters. By appropriate choice of the Scaling

             Factor the switch can select the range and granularity of

             rate or time that can be specified with the 32-bit 
unsigned

             integer.  Further details are given in the discussion of

             the UPC Parameters field of the QoS Connection Management

             message.


9.3 Scheduler Establishment Message


   The Scheduler Establishment message is used to configure the

   scheduler on a specified output port. It is used to configure a

   waiting room, attach it to a leaf of the scheduler tree, and return 
a

   Scheduler Identifier to reference the waiting room. The Scheduler

   Establishment message may also be used to modify the parameters of 
an

   already established waiting room.


   Scheduler Identifiers in the range 0--255 represent default values.

   They are used for the priority levels that may be specified in the

   Class of Service field of Connection Management messages without

   requiring explicit establishment via a Scheduler Establishment

   message.  Each of these default values specifies a single waiting

   room with default parameters, configured as a FIFO queue, on each of

   the valid scheduler priority levels. (This permits Connection

   Management messages to continue to specify QoS requirements as a

   priority without requiring the use of any of the QoS messages.) The

   number of priority levels available to the scheduler is specified in

   the Priorities field of the Port Configuration and All Ports

   Configuration messages.


   The Scheduler Establishment Message is:


      Message Type = 97


   The Scheduler Establishment request and success response messages

   have the following format:












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    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Port                              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Port Session Number                      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |     Scheduler Identifier      |          Net Weight           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |           Reserved            |D|F|M|W|x x x x|   Priority    |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                       Waiting Room Size                       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                       Discard Threshold                       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Scheduler Identifier

             The Scheduler Identifier is selected by the controller. It

             is used to identify the waiting room being established or

             modified in future messages. The Scheduler Identifier is

             taken from a namespace that is local to the switch port. A

             Scheduler Identifier in the Scheduler Establishment 
message

             must be greater than 0x00FF but less than 0xFFFF. The

             values 0 -- 0x00FF are reserved for use as default values.

             The default values of the Scheduler Identifier are used to

             specify the default settings for the scheduler. Each of 
the

             default values maps directly to one of the scheduler

             priority levels.  The value 0xFFFF is reserved for use in

             the QoS Connection Management message.


   Net Weight

             The Net Weight specifies the share of the bandwidth

             available to the priority level, specified by the Priority

             field, that should be given to this waiting room.  The Net

             Weight parameter is only valid if the priority level

             specified by the Priority field supports weighted sharing.


             The Net Weight is an unsigned 16-bit field specifying a

             binary fraction.  I.e. the bandwidth share, as a fraction

             of the bandwidth available to the priority level, is given

             by:


                Bandwidth share = Net Weight * 2**(-16)





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             A Net Weight of zero indicates equal sharing between all

             waiting rooms sharing this priority level that request a

             Net Weight of zero.  While a 16-bit field is used to

             specify the Net Weight it is understood that the accuracy

             of the bandwidth sharing is hardware dependent and is not

             specified.


             If weighted sharing is not required at a particular

             priority level, a waiting room with a Net Weight value of

             0xFFFF must be specified for that priority level. A

             priority level that does not support weighted sharing can

             only support a single waiting room.


   Flags


        D: Packet Discard

             Bit 0 of the Flags field, if set, indicates that packet

             discard is required on all connections and QoS classes

             routed through this waiting room.


        F: Frame-Based Scheduling

             Bit 1 of the Flags field, if set, indicates that frame-

             based scheduling is required on all connections and QoS

             classes routed through this waiting room.  In frame-based

             scheduling, a connection is only scheduled for 
transmission

             when a complete AAL-5 packet is available.  When a

             connection is scheduled for transmission, all cells

             belonging to one or more complete packets from that

             connection will be transmitted without being interleaved

             with any other cells on that output port. A QoS class may

             be routed through a waiting room configured with frame-

             based scheduling.  In this case each component connection

             of the QoS class will receive frame based scheduling. For

             correct distribution of bandwidth, each QoS class that

             requires frame-based scheduling should have its own 
waiting

             room.


        M: VC Merging

             Bit 2 of the Scheduler Flags field, if set, indicates that

             VC merging is required on all connections and QoS classes

             routed through this waiting room.  VC merging enables the

             multipoint-to-point merging of two or more incoming 
virtual

             connections onto a single outgoing virtual connection,

             without interleaving cells from different AAL-5 packets

             that bear the same VPI/VCI. VC merging differs from frame-

             based scheduling in that cells with a different VPI/VCI 
may

             be interleaved with those of a multipoint-to-point VC

             merging connection.  Most switches achieve VC merging by




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             using frame-based scheduling.  A QoS class may be routed

             through a waiting room configured with VC merging.  In 
this

             case each component connection of the QoS class will

             receive VC merging.


        W: Weighted Scheduling

             Bit 3 of the Flags field, if set, indicates that weighted

             scheduling is required on all connections and QoS classes

             routed through this waiting room.  All connections and QoS

             classes routed through this waiting room will require a

             Connection Weight or a QoS Class Weight respectively. The

             Connection Weight is specified in the QoS Connection

             Management message. The QoS Class Weight is specified in

             the QoS Class Establishment message. If weighted 
scheduling

             within this waiting room is unavailable, a failure 
response

             message must be returned indicating, "Weighted scheduling

             within this waiting room is unavailable."


             Bit 3 of the Flags field, if zero, indicates that this

             waiting room should be configured as a single FIFO queue.

             All cells arriving at this waiting room will receive 
first-

             in-first-out service. If Frame-Based Scheduling or VC

             Merging are also selected, the strict first-in-first-out

             service discipline will be modified by the requirement to

             support Frame-Based Scheduling or VC Merging.


        x: Bits 4--7 of the Flags field are not used.


   Priority

             Specifies the priority level in the scheduler to which the

             waiting room should be attached. Priorities are numbered

             from zero, with priority level zero being the highest

             priority.


   Waiting Room Size

             The required size of the waiting room.  The size of a

             waiting room specifies the maximum number of cells

             permitted to wait for transmission via that waiting room.

             Any further cells arriving at that waiting room beyond 
this

             number will be discarded. If the switch is unable to grant

             the size requested in the Scheduler Establishment request

             message it may reply with the actual size allocated to the

             waiting room in the Waiting Room Size field of the success

             response message.  A value of zero for the Waiting Room

             Size indicates that the default value should be used.


   Discard Threshold

             The required value of the discard threshold.  The discard




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             threshold specifies the number of cells waiting for

             transmission via a waiting room after which further

             arriving cells will be subject to a discard mechanism. The

             value of the Discard Threshold must be less than or equal

             to the value of the Waiting Room Size parameter for any

             given waiting room. If the switch is unable to grant the

             value of discard threshold requested in the Scheduler

             Establishment request message it may reply with the actual

             value of discard threshold allocated to the waiting room 
in

             the Discard Threshold field of the success response

             message.  A value of zero for the Discard Threshold

             indicates that the default value should be used.



9.4 QoS Class Establishment Message


   The QoS Class Establishment message is used to configure a QoS class

   on a specified port or to modify the parameters of an already

   established QoS class.  It configures the classifier and the

   regulator functions for the QoS class. It also configures the QoS

   class policer if a policing function is available for QoS classes.


   Two styles of QoS class are available. In one style each component

   connection of the QoS class may be routed independently to an output

   port and waiting room specified in its connection management 
message.

   In this case the Scheduler Identifier, and if required, the Excess

   Scheduler Id, are specified in the QoS Connection Management message

   that references this style of QoS class.  In the alternative style 
of

   QoS class, all component connections in the QoS class are routed to

   the same waiting room on the same output port. In this case the

   Output Port, the Scheduler Identifier, and if required, the Excess

   Scheduler Id, are specified in the QoS Class Establishment message.


   The classifier and regulator functions must be located together,

   either on an input port, on an output port, or centralized. Each 
port

   declares the location of its classifier and regulator functions at

   initialization using the QoS Configuration message. If the 
classifier

   and regulator functions are located on an input port, only

   connections that arrive at that input port may join a QoS class

   established on that port. However, each connection that is part of a

   QoS class established on that port may be switched to a different

   output port.  If the classifier and regulator functions are located

   on an output port, connections that arrive at any input port may 
join

   a QoS class established on that port. However, all connections 
within

   a QoS class established on that port must be switched to that output

   port.  For a centralized classifier and regulator function, there is

   no restriction on the input ports on which connections in a QoS 
class

   must arrive, or on the output ports to which connections in a QoS




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   class must be switched.  (For the case of a centralized classifier

   and regulator the actual port specified in the QoS Class

   Establishment message is used only for administrative purposes.  Any

   valid value of Port and Port Session Number, that specifies a

   centralized classifier and regulator function, may be used.)


   The QoS Class Establishment message is:


      Message Type = 98


   The QoS Class Establishment request and success response messages

   have the following format:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Port                              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Port Session Number                      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      QoS Class Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |   Regulator   | Excess Action |       QoS Class Weight        |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |     Scheduler Identifier      |      Excess Scheduler Id      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Output Port                          |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   ~                 QoS Class Policer Parameters                  ~

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   ~                QoS Class Regulator Parameters                 ~

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   QoS Class Identifier

             The QoS Class Identifier is selected by the controller. It

             is used to identify the QoS class being established or

             modified, in future QoS Connection Management and QoS 
Class

             Establishment messages.  It is taken from a namespace that

             is global across the entire switch. No two QoS classes may

             have the same QoS Class Identifier regardless of the 
switch




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             ports on which they are defined. A QoS Class Identifier in

             a QoS Class Establishment message must be greater than 0

             and less than 0xFFFFFFFF.


   Regulator

             The Regulator field specifies which function is required 
of

             the regulator.  Three possible functions are currently

             defined: none, policing, and shaping.


                None:      Regulator = 1

                Policing:  Regulator = 2

                Shaping:   Regulator = 3


             If the Regulator function is specified as none, no

             operations are performed by the regulator on the cells

             output from the classifier. Cells output from the

             classifier are transferred directly to the waiting room

             specified by the Scheduler Identifier.


             If policing is specified, a token bucket policer will be

             applied to the QoS class. The policer determines which

             cells conform to the specified policer traffic parameters

             and which do not. Conforming cells are transferred 
directly

             to the waiting room specified by the Scheduler Identifier.

             The action to be taken by the policer on the excess 
traffic

             is specified by the Excess Action field.  The policer

             traffic parameters are specified in the QoS Class 
Regulator

             Parameters fields.


             If shaping is specified, traffic shaping will be applied 
to

             the QoS class.  Cells in a QoS class should leave the

             regulator spaced evenly apart at a rate defined by the QoS

             Class Regulator Parameters fields.  These cells are

             transferred directly to the waiting room specified by the

             Scheduler Identifier.  The jitter on the conforming cell

             stream on exit from the shaping function of the regulator

             is not specified.


   Excess Action


         0 1 2 3 4 5 6 7

        +-+-+-+-+-+-+-+-+

        |T|D|S|x x x x x|

        +-+-+-+-+-+-+-+-+


        T: Tagging

             If bit 0 of the Excess Action field is set, all cells

             transferred to the waiting room specified by the Excess




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             Scheduler Id will have their CLP bit set. If bit 0 of the

             Excess Action field is zero, the CLP bit of cells

             transferred to the waiting room specified by the Excess

             Scheduler Id will remain unchanged.


        D: Discard

             This function is only available if policing is selected as

             the regulator function.  If the Regulator field specifies

             Policing, and bit 1 of the Excess Action field is set, all

             cells determined by the policer to be in excess of the

             traffic parameters must be discarded. In this case the

             Excess Scheduler Id is not used and bit 0 of the Excess

             Action field should be ignored.


        S: Differentiated Scheduling

             This function operates differently according to whether

             policing or shaping is selected as the regulator function.


             If the Regulator field specifies Policing, and bit 1 of 
the

             Excess Action field is zero, and bit 2 of the Excess 
Action

             field is set, all cells determined by the policer to be in

             excess of the traffic parameters must be transferred to 
the

             waiting room specified by the Excess Scheduler Id.  In 
this

             case care must be taken in the implementation to ensure

             that within each virtual path connection or virtual 
channel

             connection, cells depart in the same order that they

             arrived.  If the Regulator field specifies Policing, and

             bit 1 of the Excess Action field is zero, and bit 2 of the

             Excess Action field is zero, all cells determined by the

             policer to be in excess of the traffic parameters must be

             transferred to the waiting room specified by the Scheduler

             Identifier.  In this case the Excess Scheduler Id is not

             used.


             If the Regulator field specifies Shaping, and bit 2 of the

             Excess Action field is zero, cells will be transferred 
from

             the QoS class to the waiting room pointed to by the

             Scheduler Identifier at a rate defined by the QoS Class

             Regulator Parameters. In this case the Excess Scheduler Id

             is not used.  If the Regulator field specifies Shaping, 
and

             bit 2 of the Excess Action field is set, additional cells

             will be scheduled for transmission by the waiting room

             pointed to by the Excess Scheduler Id. This permits a

             minimum cell rate to be allocated to the QoS class using

             the QoS Class Regulator Parameters and additional 
bandwidth

             to be shared by the QoS class. The additional share of

             bandwidth is determined according to the parameters of the

             waiting room pointed to by the Excess Scheduler Id. If the




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             Excess Scheduler Id is specified in the QoS Class

             Establishment message, the additional bandwidth will be

             shared by the entire QoS class. If the Excess Scheduler Id

             is specified in each individual QoS Connection Management

             message, the additional bandwidth is specific to that

             connection and not shared by the entire QoS class. Care

             must be taken in the implementation to ensure that within

             each virtual path connection or virtual channel 
connection,

             cells depart in the same order that they arrived.


        x: Bits 3--7 of the Excess Action field are not used.


   QoS Class Weight

             If bit 1 of the Scheduler Flags field of the QoS

             Configuration message indicates that weighted service may

             be applied to a QoS class, the QoS Class Weight parameter

             specifies the share of the bandwidth available to the

             waiting room that should be given to this QoS class.


             The QoS Class Weight is an unsigned 16-bit field 
specifying

             a binary fraction.  I.e. the bandwidth share, as a 
fraction

             of the bandwidth available to the waiting room, is given

             by:


                Bandwidth share = QoS Class Weight * 2**(-16)


             A QoS Class Weight of zero indicates equal sharing between

             all QoS classes sharing this waiting room that request a

             QoS Class Weight of zero.  While a 16-bit field is used to

             specify the QoS Class Weight it is understood that the

             accuracy of the bandwidth sharing is hardware dependent 
and

             is not specified.


             If the Regulator field of the QoS Class Establishment

             message indicates None, or Policer, the QoS Class Weight

             should be applied to the waiting room pointed to by the

             Scheduler Identifier. If the Regulator field of the QoS

             Class Establishment message indicates Shaper, the QoS 
Class

             Weight should be applied to the waiting room pointed to by

             the Excess Scheduler Id.


             If the specified waiting room is unable to offer weighted

             sharing for a QoS class, a failure response message should

             be returned with the failure code indicating: "This 
waiting

             room is unable to offer weighted sharing for a QoS class."


   Scheduler Identifier

             If all conforming traffic from this QoS class is directed




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             to the same waiting room, on the same output port, this

             field specifies the Scheduler Identifier for the entire 
QoS

             class. The Scheduler Identifier points to the waiting 
room,

             on the output port specified by the Output Port field, to

             which all conforming traffic should be sent.  If this 
field

             is not used it should be set to 0xFFFF. If each component

             connection of the QoS class specifies its own output port

             and waiting room, the Scheduler Identifier must be

             specified in the QoS Connection Management message and 
this

             field must be set to 0xFFFF.


   Excess Scheduler Id

             If all conforming traffic from this QoS class is directed

             to the same waiting room, on the same output port, this

             field specifies the Excess Scheduler Id for the entire QoS

             class. The Excess Scheduler Id points to the waiting room,

             on the output port specified by the Output Port field, to

             which all excess traffic should be sent.  If this field is

             not used it should be set to 0xFFFF. If each component

             connection of the QoS class specifies its own output port

             and waiting room, the Excess Scheduler Id must be 
specified

             in the QoS Connection Management message and this field

             must be set to 0xFFFF. If the Scheduler Id is specified in

             the QoS Class Establishment message, the Excess Scheduler

             Id must also be specified in the QoS Class Establishment

             message (or not used). If the Scheduler Id is specified in

             the QoS Connection Management message, the Excess 
Scheduler

             Id must also be specified in the QoS Connection Management

             message (or not used). The Excess Scheduler Id must not

             point to the same waiting room on the same output port as

             the Scheduler Identifier.


   Output Port

             If the Scheduler Identifier field in the QoS Establishment

             message is not 0xFFFF the Output Port field specifies the

             Output Port to which traffic from this QoS class should be

             routed. If the Scheduler Identifier field in the QoS

             Establishment message is 0xFFFF, this field is not used.


   QoS Class Policer Parameters

             A policer function may be applied to a QoS class on output

             from the classifier independently of the regulator

             function.  The QoS class policer function is identical to

             the connection policer function defined in the QoS

             Connection Management message with the exception that it

             applies to all cells that belong to the QoS class rather

             than just cells that belong to a single connection.





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             The QoS Class Policer Parameters have the following 
format:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                     QoS Class Increment-1                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                       QoS Class Limit-1                       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                     QoS Class Increment-2                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                       QoS Class Limit-2                       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                  Reserved                     |C|A|x x x x x x|

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


             The definition of these fields is given in the UPC

             Parameters section of the QoS Connection Management

             message.


   QoS Class Regulator Parameters

             The QoS class regulator function is identical to the

             regulator function defined in the QoS Connection 
Management

             message with the exception that it applies to all cells

             that belong to the QoS class rather than just cells that

             belong to a single connection.


             The QoS Class Regulator Parameters have the following

             format:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                QoS Class Regulator Increment                  |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                  QoS Class Regulator Limit                    |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


             The definition of these fields is given in the Regulator

             Parameters section of the QoS Connection Management

             message.


9.5 QoS Release Message


   The QoS Release message is used to delete a Scheduler Identifier or 
a

   QoS Class Identifier and to release all resources associated with 
it.


   The QoS Release message is:




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      Message Type = 99


   The QoS Release request and success response messages have the

   following format:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Port                              |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Port Session Number                      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |           Reserved            |     Scheduler Identifier      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      QoS Class Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Port

             If the QoS Release message contains a Scheduler 
Identifier,

             the Port field must contain the Port Number of the switch

             output port to which the Scheduler Identifier applies. If

             the QoS Release message contains a QoS Class Identifier,

             any valid Port number may be used. (The QoS Class

             Identifier has a global namespace.)


   Port Session Number

             The current Port Session Number for the port specified in

             the Port field.


   Scheduler Identifier

             If the Scheduler Identifier contains the value 0xFFFF the

             QoS Class Identifier specified in the QoS Class Identifier

             field should be released.  Else, if the value of the

             Scheduler Identifier lies in the range 0x0100 -- 0xFFFE

             inclusive, the Scheduler Identifier specified by the

             Scheduler Identifier field should be released.  A 
Scheduler

             Identifier with a value less than 0x0100 is invalid in a

             QoS Release message.  (It specifies a default value which

             may not be released.)


   QoS Class Identifier

             If the Scheduler Identifier contains the value 0xFFFF the

             QoS Class Identifier field specifies the QoS Class

             Identifier to be released.




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   If the QoS Release message requests that a Scheduler Identifier be

   released, and the Scheduler Identifier is still in use by one or 
more

   established connections, a failure response must be returned with 
the

   failure code indicating: "Scheduler Identifier still in use."  If 
the

   QoS Release message requests that a QoS Class Identifier be 
released,

   and the QoS Class Identifier is still in use by one or more

   established connections, a failure response must be returned with 
the

   failure code indicating: "QoS Class Identifier still in use."


9.6 QoS Connection Management Message


   The QoS Connection Management message is used by the controller to

   establish and modify virtual channel connections and virtual path

   connections across the switch which require QoS parameters to be

   specified. The functionality of the QoS Connection Management 
message

   is identical to that of the Add Branch connection management message

   with the additional specification of QoS parameters.  No specific 
QoS

   connection release messages are defined. QoS connections may be

   released with the Delete Tree, Delete All, and Delete Branches

   messages defined in Section 4, "Connection Management Messages." 
When

   a QoS connection is released, all associated QoS resources are

   released.


   There are three styles of connection with specified QoS parameters:


   QoS Connection:

      This connection style specifies its own individual QoS parameters

      and is routed independently to the waiting room and output port

      specified in the QoS Connection Management message. It is not a

      member of a QoS class. Each output branch of a 
point-to-multipoint

      QoS connection may specify its own QoS parameters which may be

      different from all other output branches of that point-to-

      multipoint QoS connection, if the switch supports this 
capability.

      However, all output branches must specify identical connection

      policer parameters. A QoS Connection Management message 
requesting

      this style of connection is identified by a QoS Class Identifier

      with the value 0xFFFFFFFF.


   QoS Class Connection:

      This connection style does not specify its own individual QoS

      parameters. It is a member of a QoS class, and the QoS parameters

      are specified by the QoS class.  It is, however, routed

      independently to the waiting room and output port specified in 
the

      QoS Connection Management message.  Each output branch of a 
point-

      to-multipoint QoS Class Connection must use the same QoS

      parameters. A QoS Connection Management message requesting this

      style of connection will have a valid QoS Class Identifier and a

      valid Scheduler Identifier.




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   QoS Class Member:

      This connection style does not specify its own individual QoS

      parameters. It is a member of a QoS class, and the QoS parameters

      are specified by the QoS class.  The QoS class also specifies the

      waiting room and output port to which all members of the class 
are

      routed. This style of connection does not support point-to-

      multipoint connections. A QoS Connection Management message

      requesting this style of connection will have a valid QoS Class

      Identifier and a Scheduler Identifier with the value 0xFFFF.


   To request a virtual channel connection with specified QoS

   parameters, the Virtual Channel Connection (VCC) QoS Connection

   Management message is:


      Message Type = 100.


   To request a virtual path connection with specified QoS parameters,

   the Virtual Path Connection (VPC) QoS Connection Management message

   is:


      Message Type = 101.


   The QoS Connection Management message has the following format for

   both request and response messages:




























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    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |    Result     |     Code      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                    Transaction Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Port Session Number                      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Input Port                           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |M|Q|B|C|      Input VPI        |          Input VCI            |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Output Port                          |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |x x x x|      Output VPI       |          Output VCI           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |      Number of Branches       |     Scheduler Identifier      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      QoS Class Identifier                     |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |   Regulator   | Excess Action |       Connection Weight       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |S|A|x x x x x x|   Reserved    |      Excess Scheduler Id      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   ~                         UPC Parameters                        ~

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                                                               |

   ~                      Regulator Parameters                     ~

   |                                                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Port Session Number

   Input Port

   Input VPI

   Input VCI

   Output Port

   Output VPI

   Output VCI

   Number of Branches

             The definition of these fields is exactly the same as

             defined for the Add Branch message in Section 4.1,

             "Connection Management Messages."


   M B C Flags

             The definition of the M, B, and C flags is exactly the 
same




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             as defined in Section 4, "Connection Management Messages."

             They apply to the QoS Connection Management message 
exactly

             as defined for the Add Branch message.


   Q: QoS Profile Flag The QoS Profile flag is not used in the QoS

             Connection Management message.


   Scheduler Identifier

             For QoS Connection and QoS Class Connection styles, the

             Scheduler Identifier points to the waiting room, on the

             output port specified by the Output Port field, to which

             all conforming traffic on the connection should be routed.

             The values 0 -- 255 specify the default settings for the

             scheduler. Each of the default values maps directly to one

             of the scheduler priority levels. A Scheduler Identifier 
in

             the range 0 -- 255 may be used without first being

             established by a Scheduler Establishment message. All

             Scheduler Identifiers in the range 0x0100 to 0xFFFE must

             first be established by a Scheduler Establishment message.


             A Scheduler Identifier with a value of 0xFFFF indicates

             that a QoS Class Member connection style is being

             requested. In this connection style, the waiting room and

             output port are specified by reference to the QoS class

             specified by the QoS Class Identifier field. In this case

             the QoS Class Identifier field must contain a valid QoS

             Class Identifier.


   QoS Class Identifier

             For QoS Class Connection and QoS Class Member connection

             styles, the QoS Class Identifier specifies the QoS Class 
to

             which the connection belongs. It must first be established

             by a QoS Class Establishment message and must have a value

             greater than 0 and less than 0xFFFFFFFF.


             A QoS Class Identifier with a value of 0xFFFFFFFF 
indicates

             that a connection of style "QoS Connection" is being

             requested. In this connection style, the connection does

             not belong to a QoS class. All QoS parameters are 
specified

             by the QoS Connection Management message and apply only to

             the specified connection.


   Regulator

   Excess Action

             The Regulator and Excess Action parameters are only used 
in

             connection requests of style "QoS Connection."  The

             definition of these fields in the QoS Connection 
Management

             message is exactly the same as defined for the QoS Class




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             Establishment message with the exception that they apply 
to

             an individual connection rather than to an entire QoS

             class.


   Connection Weight

             This field is only used in connections of style "QoS

             Connection" and "QoS Class Connection."  For QoS Class

             Member style connections, the QoS Class Weight parameter 
of

             the QoS Class Establishment message should be used to

             assign a weight to the QoS Class.


             If bit 0 of the Scheduler Flags field of the QoS

             Configuration message indicates that weighted service may

             be applied to a connection, the Connection Weight 
parameter

             specifies the share of the bandwidth available to the

             waiting room that should be given to this connection.


             The Connection Weight is an unsigned 16-bit field

             specifying a binary fraction.  I.e. the bandwidth share, 
as

             a fraction of the bandwidth available to the waiting room,

             is given by:


                Bandwidth share = Connection Weight * 2**(-16)


             A Connection Weight of zero indicates equal sharing 
between

             all connections in this waiting room that request a

             Connection Weight of zero.  While a 16-bit field is used 
to

             specify the Connection Weight it is understood that the

             accuracy of the bandwidth sharing is hardware dependent 
and

             is not specified.


             For connections of style "QoS Class Connection," if the

             Regulator function of the QoS Class is specified as None,

             or Policer, the Connection Weight should be applied to the

             waiting room pointed to by the Scheduler Identifier field

             in the QoS Connection Management message. If the Regulator

             function of the QoS Class is specified as Shaper, the

             Connection Weight should be applied to the waiting room

             pointed to by the Excess Scheduler Id field in the QoS

             Connection Management message.


             For connections of style "QoS Connection," if the 
Regulator

             field of the QoS Connection Management message specifies

             None, or Policer, the Connection Weight should be applied

             to the waiting room pointed to by the Scheduler Identifier

             field. If the Regulator field of the QoS Connection

             Management message specifies Shaper, the Connection Weight

             should be applied to the waiting room pointed to by the




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             Excess Scheduler Id field.


             If the specified waiting room is unable to offer weighted

             sharing for a connection, a failure response message 
should

             be returned with the failure code indicating: "this 
waiting

             room is unable to offer weighted sharing for a 
connection."


   QoS Flags


        S: Selective Discard

             If the Selective Discard flag is set, only cells with the

             Cell Loss Priority (CLP) bit set will be subject to the

             discard mechanism when the number of cells in the waiting

             room exceeds the Discard Threshold.  If the Selective

             Discard flag is zero, all cells (CLP=0 and CLP=1) will be

             subject to the discard mechanism when the number of cells

             in the waiting room exceeds the Discard Threshold.

             Selective discard can be combined with packet discard. In

             this case only packets in which at least one cell has the

             CLP bit set will be subject to the discard mechanism.


        A: All Branches

             For a QoS Connection Management message that specifies a

             point-to-multipoint connection, if the All Branches flag 
is

             set, all branches of the point-to-multipoint connection

             must be set to the QoS parameters specified in the 
message.

             If the All Branches flag is zero, only the single output

             branch specified in the message should be set to the QoS

             parameters specified in the message. For a QoS Connection

             Management message that specifies a point-to-point

             connection, the All Branches flag is not used.


        x: Unused


   Excess Scheduler Id

             For connections of style "QoS Connection" and "QoS Class

             Connection," the Excess Scheduler Id points to the waiting

             room, on the output port specified by the Output Port

             field, to which all excess traffic should be routed. The

             values 0 -- 255 specify the default settings for the

             scheduler. Each of the default values maps directly to one

             of the scheduler priority levels. An Excess Scheduler Id 
in

             the range 0 -- 255 may be used without first being

             established by a Scheduler Establishment message. All

             values of Excess Scheduler Id in the range 0x0100 to 
0xFFFE

             must first be established by a Scheduler Establishment

             message.





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             If this field is not used it should be set to 0xFFFF.  The

             Excess Scheduler Id must not point to the same waiting 
room

             on the same output port as the Scheduler Identifier.


   UPC Parameters

             All connection styles may be subject to a Usage Parameter

             Control (UPC) function, also known as a connection 
policer.

             The policing function is applied to each individual

             connection before it is combined with other connections

             into a QoS class by the classifier function. A policing

             function applied to an entire QoS class is defined in the

             QoS Class Establishment message.


             The connection policer is defined by reference to the

             Generic Cell Rate Algorithm (GCRA) defined by the ATM 
Forum

             [af-tm-0056], although any equivalent policing algorithm

             may be used. The GCRA takes two parameters, the increment

             (I) and the limit (L). The reciprocal of the increment

             (1/I) specifies the rate being policed. The limit 
specifies

             the burst tolerance. (For comparison with the token bucket

             policer discussed in [Partridge], the size of the token

             bucket is given by L/I.)


             Two policers in series may be specified to permit the

             policing of both peak rate and average rate (also called

             sustainable rate). The parameters for the first policer 
are

             Increment-1 and Limit-1. For comparison with the ATM Forum

             specification these would be used to police the Peak Cell

             Rate (PCR) and Cell Delay Variation Tolerance (CDVT)

             respectively. The parameters for the second policer are

             Increment-2 and Limit-2. For comparison with the ATM Forum

             specification these would be used to police the 
Sustainable

             Cell Rate (SCR), and Burst Tolerance.  (The Burst 
Tolerance

             may be computed from the Maximum Burst Size [af-tm-0056].)


             There are two configurations in which the two policers may

             be connected in series.  In the All Cells configuration,

             all cells (cells with the Cell Loss Priority (CLP) bit set

             to zero and cells with the CLP bit set to one) are subject

             to the policing action of both policers in series. In the

             CLP Selective configuration, all cells, both CLP=0 and

             CLP=1, are policed by the first policer; but only cells

             with CLP=0 are subject to policing by the second policer.

             Either tagging or discard may be specified for each of the

             policer configurations.


             The values of the parameters Increment and Limit in the 
UPC

             Parameters fields are given in terms of a time unit




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             specified by the switch in the QoS Configuration 
Parameters

             message. The time unit is specified by the switch as a

             rate, the Scaling Factor, which gives the rate in cells 
per

             second that would result from an Increment parameter value

             of one. Thus to determine the value of the Increment

             parameter from the desired policed rate given in cells per

             second:


                Increment parameter = (Scaling_Factor)/(policed_rate)


             To determine the value of the Limit parameter from the

             desired Cell Delay Variation Tolerance (CDVT) given in

             seconds:


                Limit parameter = CDVT * Scaling_Factor


             To determine the value of the Limit parameter from the

             desired Burst Tolerance (BT) given in seconds:


                Limit parameter = BT * Scaling_Factor


             The Increment and Limit parameters are specified as 32-bit

             unsigned integers; so the choice of the Scaling Factor

             allows the switch to select the range and granularity of

             the policer parameters with respect to the line rate of 
the

             switch port.  For example, a SONET STS-3c (155.52 Mbps)

             switch port has a line rate of approximately 353 kcells/s.

             With a Scaling Factor value of 353,000,000 we can specify 
a

             policed rate slightly less than the line rate with a

             granularity of 0.1%. For a policed rate of 1 kbps we can

             still support a bucket size of 31 cells.


             The UPC Parameters have the following format:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                           Increment-1                         |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Limit-1                           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                           Increment-2                         |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                             Limit-2                           |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                  Reserved                     |C|A|x x x x x x|

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+





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   Increment-1

             The increment parameter for the first policer, specified 
as

             a 32-bit unsigned integer.  A value of zero for the

             Increment-1 parameter is used to disable the first 
policer.

             In this case all cells will be considered to conform to 
the

             traffic parameters of the first policer.


   Limit-1

             The limit parameter for the first policer, specified as a

             32-bit unsigned integer.


   Increment-2

             The increment parameter for the second policer, specified

             as a 32-bit unsigned integer.  A value of zero for the

             Increment-2 parameter is used to disable the second

             policer.  In this case all cells will be considered to

             conform to the traffic parameters of the second policer.


   Limit-2

             The limit parameter for the second policer, specified as a

             32-bit unsigned integer.


   Flags


        C: Configuration

             If the Configuration flag is set, the policer should be 
set

             to the All Cells configuration. If the Configuration flag

             is zero, the policer should be set to the CLP Selective

             configuration.


             In the All Cells configuration, all cells (both CLP=0 and

             CLP=1) are subject to the policing action of both policers

             in series. In the CLP Selective configuration, all cells,

             both CLP=0 and CLP=1, are policed by the first policer; 
but

             only cells with CLP=0 are subject to policing by the 
second

             policer. Either tagging or discard may be specified for

             each of the policer configurations.


        A: Action

             If the Action flag is zero, discard is required as the

             policing action. If the Action flag is set, tagging is

             required as the policing action.


             If tagging is selected in the All Cells configuration, any

             cell with CLP=0 in either policer, that the policer

             determines to be in excess of the specified policer

             parameters, will be changed to CLP=1. If discard is

             selected in the All Cells configuration, any cell (CLP=0 
or




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             CLP=1) in either policer, that the policer determines to 
be

             in excess of the specified policer parameters, will be

             discarded.


             In the CLP Selective configuration, the first policer is

             always set to discard any cell (CLP=0 or CLP=1) that it

             determines to be in excess of its specified policer

             parameters. If tagging is selected in the CLP Selective

             configuration, the second policer will change the CLP bit

             to CLP=1 of any cell that it determines to be in excess of

             its specified parameters. If discard is selected in the 
CLP

             Selective configuration, the second policer will discard

             any cell that it determines to be in excess of its

             specified parameters.


             To configure the policer for the conformance definitions

             specified by the ATM Forum [af-tm-0056] the following

             configurations are suggested:


                CBR.1:   One policer,     All Cells,        Discard

                VBR.1:   Two policers,    All Cells,        Discard

                VBR.2:   Two policers,    CLP Selective,    Discard

                VBR.3:   Two policers,    CLP Selective,    Tagging

                UBR.1:   One policer,     All Cells,        Discard

                UBR.2:   One policer,     All Cells,        Tagging.


        x: Unused


   Regulator Parameters

             Only connections of style "QoS Connection" require the

             Regulator Parameters to be specified in the QoS Connection

             Management message. For connections of style "QoS Class

             Connection" and "QoS Class Member" the Regulator 
Parameters

             are specified in the QoS Class Establishment message.


             The Regulator Parameters are specified in a similar manner

             to the UPC parameters. If the regulator function is

             specified as Policing, a single GCRA policer is applied to

             all cells (both CLP=0 and CLP=1) on the connection. The

             policer takes two parameters: an increment, the Regulator

             Increment, and a limit, the Regulator Limit. The 
reciprocal

             of the increment (1/I) specifies the rate being policed.

             The limit (L) specifies the burst tolerance. (For

             comparison with the token bucket policer discussed in

             [Partridge], the size of the token bucket is given by 
L/I.)


             The Regulator Increment and Regulator Limit parameters are

             32-bit unsigned integers. Their values are determined in




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             terms of the Scaling Factor specified by the switch in the

             QoS Configuration Parameters message. To determine the

             value of the Regulator Increment parameter from the 
desired

             policed rate given in cells per second:


                Regulator Increment = (Scaling_Factor)/(policed_rate)


             For a policed rate (r) the GCRA policer guarantees that

             over any time period T the amount of traffic determined by

             the policer to be conforming to the traffic parameters 
does

             not exceed:


                rT + L/I


             The value of the Regulator Limit may be determined from

             this relation.


             If the regulator function is specified as Shaping, only 
the

             Regulator Increment parameter is used. The Regulator Limit

             parameter is not used. The value of the Regulator 
Increment

             parameter is determined in terms of the Scaling Factor

             specified by the switch in the QoS Configuration 
Parameters

             message. To determine the value of the Regulator Increment

             parameter from the desired shaper rate, given in cells per

             second, on output from the shaper:


                Regulator Increment = (Scaling_Factor)/(shaper_rate)


             An Increment value of zero is used to disable the policer.

             In this case all cells on that connection will be

             considered to conform to the policer traffic parameters. A

             shaper given a Regulator Increment parameter of zero will

             perform no shaping function on that connection.


   The Regulator Parameters have the following format:


    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                      Regulator Increment                      |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                        Regulator Limit                        |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


9.7 QoS Failure Response Codes


   A failure response message is formed by returning the request 
message

   that caused the failure with the Result field in the header




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   indicating failure (Result = 4) and the Code field giving the 
failure

   code. The failure code specifies the reason for the switch being

   unable to satisfy the request message.  The following additional

   failure codes are defined for use in response to QoS messages.

   General failure codes are specified in Section 3.2, Failure Response

   Messages.


       128: Weighted scheduling within this waiting room is 
unavailable.

       129: This waiting room is unable to offer weighted sharing for a

              QoS class.

       130: This waiting room is unable to offer weighted sharing for a

              connection.

       131: Scheduler Identifier still in use.

       132: QoS Class Identifier still in use.

       133: Invalid QoS parameter.

       134: Insufficient QoS resources.

       135: Any point-to-multipoint connection arriving on this input

              port must use the same QoS parameters for all output

              branches.



10. Adjacency Protocol


   The adjacency protocol is used to synchronize state across the link,

   to agree on which version of the protocol to use, to discover the

   identity of the entity at the other end of a link, and to detect 
when

   it changes. GSMP is a hard state protocol.  It is therefore 
important

   to detect loss of contact between switch and controller, and to

   detect any change of identity of switch or controller.  No GSMP

   messages other than those of the adjacency protocol may be sent

   across the link until the adjacency protocol has achieved

   synchronization.


10.1 Packet Format


   All GSMP messages belonging to the adjacency protocol have the

   following structure:















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    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

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |    Version    | Message Type  |     Timer     |M|     Code    |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Sender Name                          |

   +                               +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                               |                               |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+                               +

   |                         Receiver Name                         |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                          Sender Port                          |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                         Receiver Port                         |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                        Sender Instance                        |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+

   |                       Receiver Instance                       |

   +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+


   Version

             In the adjacency protocol the Version field is used for

             version negotiation.  In a SYN message the Version field

             always contains the highest version understood by the

             sender.  A receiver receiving a SYN message with a version

             higher than understood will ignore that message.  A

             receiver receiving a SYN message with a version lower than

             its own highest version, but a version that it 
understands,

             will reply with a SYNACK with the version from the 
received

             SYN in its GSMP Version field. This defines the version of

             the GSMP protocol to be used while the adjacency protocol

             remains synchronized. All other messages will use the

             agreed version in the Version field.


             The version number for the version of the GSMP protocol

             defined by this specification is Version = 2.


   Message Type

             The adjacency protocol is:


                Message Type = 10


   Timer

             The Timer field is used to inform the receiver of the 
timer

             value used in the adjacency protocol of the sender. The

             timer specifies the nominal time between periodic 
adjacency

             protocol messages. It is a constant for the duration of a

             GSMP session. The timer field is specified in units of




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             100ms.


   M-Flag

             The M-Flag is used in the SYN message to indicate whether

             the sender is a master or a slave. If the M-Flag is set in

             the SYN message, the sender is a master.  If zero, the

             sender is a slave. The GSMP protocol is asymmetric, the

             controller being the master and the switch being the 
slave.

             The M-Flag prevents a master from synchronizing with

             another master, or a slave with another slave. If a slave

             receives a SYN message with a zero M-Flag, it must ignore

             that SYN message. If a master receives a SYN message with

             the M-Flag set, it must ignore that SYN message. In all

             other messages the M-Flag is not used.


   Code

             Field specifies the function of the message. Four Codes 
are

             defined for the adjacency protocol:


                SYN:     Code = 1

                SYNACK:  Code = 2

                ACK:     Code = 3

                RSTACK:  Code = 4.


   Sender Name

             For the SYN, SYNACK, and ACK messages, is the name of the

             entity sending the message. The Sender Name is a 48-bit

             quantity that is unique within the operational context of

             the device. A 48-bit IEEE 802 MAC address, if available,

             may be used for the Sender Name. If the Ethernet

             encapsulation is used the Sender Name must be the Source

             Address from the MAC header.  For the RSTACK message, the

             Sender Name field is set to the value of the Receiver Name

             field from the incoming message that caused the RSTACK

             message to be generated.


   Receiver Name

             For the SYN, SYNACK, and ACK messages, is the name of the

             entity that the sender of the message believes is at the

             far end of the link. If the sender of the message does not

             know the name of the entity at the far end of the link,

             this field should be set to zero. For the RSTACK message,

             the Receiver Name field is set to the value of the Sender

             Name field from the incoming message that caused the 
RSTACK

             message to be generated.


   Sender Port

             For the SYN, SYNACK, and ACK messages, is the local port




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             number of the link across which the message is being sent.

             For the RSTACK message, the Sender Port field is set to 
the

             value of the Receiver Port field from the incoming message

             that caused the RSTACK message to be generated.


   Receiver Port

             For the SYN, SYNACK, and ACK messages, is what the sender

             believes is the local port number for the link, allocated

             by the entity at the far end of the link.  If the sender 
of

             the message does not know the port number at the far end 
of

             the link, this field should be set to zero. For the RSTACK

             message, the Receiver Port field is set to the value of 
the

             Sender Port field from the incoming message that caused 
the

             RSTACK message to be generated.


   Sender Instance

             For the SYN, SYNACK, and ACK messages, is the sender's

             instance number for the link. It is used to detect when 
the

             link comes back up after going down or when the identity 
of

             the entity at the other end of the link changes. The

             instance number is a 32-bit number that is guaranteed to 
be

             unique within the recent past and to change when the link

             or node comes back up after going down. Zero is not a 
valid

             instance number. For the RSTACK message, the Sender

             Instance field is set to the value of the Receiver 
Instance

             field from the incoming message that caused the RSTACK

             message to be generated.


   Receiver Instance

             For the SYN, SYNACK, and ACK messages, is what the sender

             believes is the current instance number for the link,

             allocated by the entity at the far end of the link. If the

             sender of the message does not know the current instance

             number at the far end of the link, this field should be 
set

             to zero. For the RSTACK message, the Receiver Instance

             field is set to the value of the Sender Instance field 
from

             the incoming message that caused the RSTACK message to be

             generated.


10.2 Procedure


   The adjacency protocol is described by the following rules and state

   tables.


   The rules and state tables use the following operations:


    o The "Update Peer Verifier" operation is defined as storing the

      values of the Sender Instance, Sender Port, and Sender Name 
fields




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      from a SYN or SYNACK message received from the entity at the far

      end of the link.


    o The procedure "Reset the link" is defined as:


          1. Generate a new instance number for the link

          2. Delete the peer verifier (set to zero the values of Sender

             Instance, Sender Port, and Sender Name previously stored 
by

             the Update Peer Verifier operation)

          3. Send a SYN message

          4. Enter the SYNSENT state.


    o The state tables use the following Boolean terms and operators:


        A    The Sender Instance in the incoming message matches the

             value stored from a previous message by the "Update Peer

             Verifier" operation.


        B    The Sender Instance, Sender Port, and Sender Name fields 
in

             the incoming message match the values stored from a

             previous message by the "Update Peer Verifier" operation.


        C    The Receiver Instance, Receiver Port, and Receiver Name

             fields in the incoming message match the values of the

             Sender Instance, Sender Port, and Sender Name currently

             sent in outgoing SYN, SYNACK, and ACK messages.


        "&&" Represents the logical AND operation


        "||" Represents the logical OR operation


        "!" Represents the logical negation (NOT) operation.


    o A timer is required for the periodic generation of SYN, SYNACK,

      and ACK messages. The value of the timer is announced in the 
Timer

      field.  The period of the timer is unspecified but a value of one

      second is suggested.


      There are two independent events: the timer expires, and a packet

      arrives. The processing rules for these events are:


         Timer Expires:   Reset Timer

                          If state = SYNSENT Send SYN

                          If state = SYNRCVD Send SYNACK

                          If state = ESTAB   Send ACK


          Packet Arrives:

              If incoming message is an RSTACK:




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                  If (A && C && !SYNSENT) Reset the link

                  Else Discard the message.

              If incoming message is a SYN, SYNACK, or ACK:

                  Response defined by the following State Tables.

              If incoming message is any other GSMP message and state 
!=

                  ESTAB:

                  Discard incoming message.

                  If state = SYNSENT Send SYN (Note 1)

                  If state = SYNRCVD Send SYNACK (Note 1)


              Note 1: No more than two SYN or SYNACK messages should be

              sent within any time period of length defined by the

              timer.


    o State synchronization across a link is considered to be achieved

      when the protocol reaches the ESTAB state. All GSMP messages,

      other than adjacency protocol messages, that are received before

      synchronization is achieved will be discarded.


State Tables


State: SYNSENT


+======================================================================+

|     Condition      |                Action               | New State 
|

+====================+=====================================+===========+

|    SYNACK && C     |  Update Peer Verifier; Send ACK     |   ESTAB   
|

+--------------------+-------------------------------------+-----------+

|    SYNACK && !C    |            Send RSTACK              |  SYNSENT  
|

+--------------------+-------------------------------------+-----------+

|        SYN         |  Update Peer Verifier; Send SYNACK  |  SYNRCVD  
|

+--------------------+-------------------------------------+-----------+

|        ACK         |            Send RSTACK              |  SYNSENT  
|

+======================================================================+


















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State: SYNRCVD


+======================================================================+

|     Condition      |                Action               | New State 
|

+====================+=====================================+===========+

|    SYNACK && C     |  Update Peer Verifier; Send ACK     |   ESTAB   
|

+--------------------+-------------------------------------+-----------+

|    SYNACK && !C    |            Send RSTACK              |  SYNRCVD  
|

+--------------------+-------------------------------------+-----------+

|        SYN         |  Update Peer Verifier; Send SYNACK  |  SYNRCVD  
|

+--------------------+-------------------------------------+-----------+

|   ACK && B && C    |              Send ACK               |   ESTAB   
|

+--------------------+-------------------------------------+-----------+

|  ACK && !(B && C)  |            Send RSTACK              |  SYNRCVD  
|

+======================================================================+



State: ESTAB


+======================================================================+

|     Condition      |                Action               | New State 
|

+====================+=====================================+===========+

|   SYN || SYNACK    |           Send ACK (note 2)         |   ESTAB   
|

+--------------------+-------------------------------------+-----------+

|   ACK && B && C    |           Send ACK (note 3)         |   ESTAB   
|

+--------------------+-------------------------------------+-----------+

|  ACK && !(B && C)  |              Send RSTACK            |   ESTAB   
|

+======================================================================+


   Note 2: No more than two ACKs should be sent within any time period

   of length defined by the timer. Thus, one ACK must be sent every 
time

   the timer expires. In addition, one further ACK may be sent between

   timer expirations if the incoming message is a SYN or SYNACK. This

   additional ACK allows the adjacency protocol to reach 
synchronization

   more quickly.


   Note 3: No more than one ACK should be sent within any time period 
of

   length defined by the timer.


10.3 Loss of Synchronization


   If after synchronization is achieved, no valid GSMP messages are

   received in any period of time in excess of three times the value of

   the Timer field announced in the incoming adjacency protocol

   messages, loss of synchronization may be declared.


   The preferred procedure for a switch to use when it looses

   synchronization with its active controller is to attempt to 
establish




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   synchronization with (one of) its backup controller(s).  However, in

   this preferred approach, it must not reset its state until it

   achieves synchronization with a backup controller.  This means that

   if, before achieving synchronization with a backup controller, it

   regains synchronization with its original controller, it may 
continue

   the original session (and cease attempting to establish

   synchronization with a backup controller). If synchronization with

   the original session is regained it is the responsibility of the

   controller to ensure consistent state between the switch and

   controller.


   While the above is the preferred procedure, it is also the case that

   the simplest procedure when declaring loss of synchronization with

   the active controller is to reset the switch state, and start

   searching for a controller.  This simple procedure is legitimate.


11. Summary of Failure Response Codes


   The following list gives a summary of the failure codes defined for

   failure response messages:


        1: Unspecified reason not covered by other failure codes.

        2: Invalid request message.

        3: The specified request is not implemented on this switch.

        4: Invalid Port Session Number.

        5: One or more of the specified ports does not exist.

        6: One or more of the specified ports is down.

        7: Unused. (This failure code has been replaced by failure 
codes

             18--21.)

        8: The specified connection does not exist.

        9: The specified branch does not exist.

       10: A branch belonging to the specified point-to-multipoint

             connection is already established on the specified output

             port and the switch cannot support more than a single

             branch of any point-to-multipoint connection on the same

             output port.

       11: The limit on the maximum number of point-to-multipoint

             connections that the switch can support has been reached.

       12: The limit on the maximum number of branches that the

             specified point-to-multipoint connection can support has

             been reached.

       13: Unable to assign the requested VPI/VCI value to the 
requested

             branch on the specified point-to-multipoint connection.

       14: General problem related to the manner in which point-to-

             multipoint is supported by the switch.

       15: Out of resources (e.g. memory exhausted, etc.).

       16: Failure specific to the particular message type. (The 
meaning

             of this failure code depends upon the Message Type. It is




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             defined within the description of any message that uses

             it.)

       17: Cannot label each output branch of a point-to-multipoint 
tree

             with a different label.

       18: One or more of the specified input VPIs is invalid.

       19: One or more of the specified input VCIs is invalid.

       20: One or more of the specified output VPIs is invalid.

       21: One or more of the specified output VCIs is invalid.

       22: Invalid Class of Service field in a Connection Management

             message.

       23: Insufficient resources for QoS Profile.

       24: Virtual path switching is not supported on this input port.

       25: Point-to-multipoint virtual path connections are not

             supported on either the requested input port or the

             requested output port.

       26: Attempt to add a virtual path connection branch to an

             existing virtual channel connection.

       27: Attempt to add a virtual channel connection branch to an

             existing virtual path connection.

       28: Only point-to-point bidirectional connections may be

             established.

       29: Cannot support requested VPI range.

       30: Cannot support requested VCI range on all requested VPIs.

       31: The transmit cell rate of this output port cannot be 
changed.

       32: Requested transmit cell rate out of range for this output

             port.

      128: Weighted scheduling within this waiting room is unavailable.

      129: This waiting room is unable to offer weighted sharing for a

             QoS class.

      130: This waiting room is unable to offer weighted sharing for a

             connection.

      131: Scheduler Identifier still in use.

      132: QoS Class Identifier still in use.

      133: Invalid QoS parameter.

      134: Insufficient QoS resources.

      135: Any point-to-multipoint connection arriving on this input

             port must use the same QoS parameters for all output

             branches.



12. Summary of Message Set


   The following table gives a summary of the messages defined in this

   version of the specification. It also indicates which messages must

   be supported in a minimal implementation of the protocol. Those

   messages marked as "Required" must be supported by the switch for an

   implementation to be considered to conform to this specification.

   (While the controller should also implement those messages marked




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   "Required," conformance cannot be tested for the controller due to

   the Master-Slave nature of the protocol.)


       Message Name                Message Type    Status


   Connection Management Messages

       Add Branch VCC....................16        Required

                  VPC....................26

       Delete Tree.......................18

       Delete All........................20

       Delete Branches...................17        Required

       Move Branch VCC...................22

                   VPC...................27


   Port Management Messages

       Port Management...................32        Required

       Label Range.......................33


   State and Statistics Messages

       Connection Activity...............48

       Port Statistics...................49        Required

       Connection Statistics.............50

       QoS Class Statistics..............51

       Report Connection State...........52


   Configuration Messages

       Switch Configuration..............64        Required

       Port Configuration................65        Required

       All Ports Configuration...........66        Required


   Event Messages

       Port Up...........................80

       Port Down.........................81

       Invalid VPI/VCI...................82

       New Port..........................83

       Dead Port.........................84


   Quality of Service Messages

       QoS Configuration.................96

       Scheduler Establishment...........97

       QoS Class Establishment...........98

       QoS Release.......................99

       QoS Connection Management VCC....100

                                 VPC....101


   Adjacency Protocol....................10        Required






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REFERENCES


   [af-tm-0056] ATM Forum Traffic Management Specification 4.0, af-

                tm-0056.000, April 1996.


   [I.361]      "B-ISDN ATM Layer Specification," International

                Telecommunication Union, ITU-T Recommendation I.361,

                Mar. 1993.


   [I.363]      "B-ISDN ATM Adaptation Layer (AAL) Specification,"

                International Telecommunication Union, ITU-T

                Recommendation I.363, Mar. 1993.


   [IpsilonMIB] Ipsilon IP Switch MIB,

                http://www.ipsilon.com/products/ips.mib


   [Partridge]  C. Partridge, "Gigabit Networking," Addison-Wesley,

                1994.


   [rfc1700]    "Assigned Numbers," STD 2, RFC 1700, October 1994.


   [rfc1987]    "Ipsilon's General Switch Management Protocol

                Specification," Version 1.1, RFC 1987, August 1996.



SECURITY CONSIDERATIONS


   Physical security on the control link connecting the controller to

   the switch is assumed. Security issues are not discussed in this

   document.



AUTHORS' ADDRESSES


   Peter Newman                        Phone: +1 (408) 990 2003

   Nokia                               Email: pn@ipsilon.com


   W. L. Edwards, Chief Scientist      Phone: +1 (913) 534 5334

   Sprint                              Email: texas@sprintcorp.com


   Robert M. Hinden                    Phone: +1 (408) 990 2004

   Nokia                               Email: hinden@ipsilon.com


   Eric Hoffman                        Phone: +1 (408) 990 2010

   Nokia                               Email: hoffman@ipsilon.com


   Fong Ching Liaw                     Phone: +1 (408) 873 2688

   Coppercom                           Email: fong@coppercom.com




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   Tom Lyon                            Phone: +1 (408) 990 2001

   Nokia                               Email: pugs@ipsilon.com


   Greg Minshall                       Phone: +1 (650) 237 3164

   Fiberlane Communications            Email: minshall@fiberlane.com


Nokia (Sunnyvale) is located at:


   232 Java Drive

   Sunnyvale, CA 94089

   USA


Sprint is located at:


   Sprint

   Sprint Technology Services - Long Distance Division

   9300 Metcalf Avenue

   Mailstop KSOPKB0802

   Overland Park, KS 66212-6333

   USA


Fiberlane Communications is located at:


   1399 Charleston Road

   Mountain View, CA 94043

   USA


























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