Library /sys$common/syshlp/NET$MGMT_HELP.HLB  —  actions  Create

1  –  Alias

    Press the CONTINUE button to create the Alias entity on the node you are
    managing, or press the CANCEL button to cancel this operation.  In either
    case, you will be returned to the main window.

1.1  –  Port

    This window allows the user to create a new Alias Port.  Both the Name
    field and Node ID fields must be set prior to pressing APPLY or OK.
    Name is the full name to be associated with the port, for example,
    DEC:.lkg.bulean.  The Node ID is the LAN address associated with the
    port, for example, AA-00-04-00-45-13.

    The selection weight represents the number of sequential incoming connects
    to be passed to this member node in the round-robin sequence before
    proceeding to the next member node in the sequence.  A value of zero means
    this node is not eligible to receive incoming connections to this alias
    address.  Values between 0 and 10 are suggested.

    Select the Enable Port radio button if you want this node to become an
    active member of the alias you are specifying.

    Pressing the OK button will create the specified Alias Port and return
    you to the main window.   Pressing the APPLY button will create the
    specified alias port and leave the current window up.  Pressing the RESET
    button will reset the values back to what they were when you first
    displayed the window.  Pressing the CANCEL button will cancel this
    operation and return you to the main window.

2  –  CSMA-CD

    Press the CONTINUE button to create a CSMA-CD entity on the node you are
    managing, or press the CANCEL button to cancel this operation.  In either
    case, you will be returned to the main window.

2.1  –  Station

    Creates a CSMA-CD Station.  The required arguments are:

     o  Station Name

        The name of the CSMA-CD Station you wish to create.  For example,
        CSMACD-0.

     o  Communication Port

        The system device name assigned to this station.  The name must be
        in the format ddc, where dd is the device name prefix, and c is the
        controller letter.  The following are examples of device prefixes.
        For example, the Communications Port for the first controller on
        an SGEC would be EZA.  For the second controller it would be EZB, and
        so on.

        Device Type       Prefix

        DEBNA             ET
        DEBNI             ET
        DELQA             XQ
        DELUA             XE
        DEMNA             EX
        DEQTA             XQ
        DESVA             ES
        DEUNA             XE
        PMAD              EC
        SGEC              EZ
        TGEC              TE

    Press CONTINUE to create the CSMA-CD Station, or press CANCEL to cancel
    this operation.  In either case, you will be returned to the main window.

3  –  DDCMP

    Press the CONTINUE button to create the DDCMP entity on the node you are
    managing, or press the CANCEL button to cancel this operation.  In either
    case, you will be returned to the main window.

3.1  –  Link

    Creates a DDCMP Link.  The Name of the DDCMP Link you wish to create is
    a required argument.  Select one of the Protocol modes to be used by the
    local station by single clicking on the associated radio button:

    Point      The local station is one end of a point-to-point link.
               This is the default and only supported value.

    Tributary  The local station acts as a tributary of a multipoint
               link.

    Press CONTINUE to create the DDCMP Link, or press CANCEL to cancel
    this operation.  In either case, you will be returned to the main window.

3.1.1  –  logical_station

    Creates a Logical Station for the DDCMP Link you have selected.  The
    Name of the Logical Station you wish to create is a required argument.

    Press CONTINUE to create the Logical Station, or press CANCEL to cancel
    this operation.  In either case, you will be returned to the main window.

4  –  evd

    Press the CONTINUE button to create the Event Dispatcher entity on the
    node you are managing, or press the CANCEL button to cancel this
    operation.  In either case, you will be returned to the main window.

4.1  –  outbound_stream

    Creates an Event Dispatcher Outbound Stream.  The Outbound Name is
    a required argument.  Maximum Buffer Size is an optional argument
    that specifies the maximum number of octets to be used for event
    processing of this stream. The current value is displayed in the
    buffer size status attribute. You can specify a size smaller than the
    implementation's default, provided it is still sufficient to hold the
    events lost event. It is recommended that you use the default buffer
    size.

    Press CONTINUE to create the Event Dispatcher Outbound Stream, or press
    CANCEL to cancel this operation.  In either case, you will be returned
    to the main window.

4.2  –  Relay

    The Event Dispatcher Relay entity processes events from Phase IV DECnet
    systems.

    Press the CONTINUE button to create an Event Dispatcher Relay entity on
    the node you are managing, or press the CANCEL button to cancel this
    operation.  In either case, you will be returned to the main window.

4.3  –  Sink

    An Event Dispatcher Sink entity represents a sink.  A sink manages
    incoming connections and filters incoming events.  Each sink maintains
    a filter that is applied to all streams that are assigned to that link.

    The Sink Name is a required argument specifying a simple name to be
    assigned to the sink.

    The Maximum Buffer Size is an optional argument that specifies the
    maximum number of octets to be used for event processing of this sink.
    The current value is displayed in the buffer size status attribute.
    You can specify a size smaller than the implementation's default,
    provided it is still sufficient to hold the events lost event. If the
    value specified in this argument is inadequate for the events lost
    event, an insufficient resources exception is returned.

    Press the CONTINUE button to create an Event Dispatcher Sink entity on
    the node you are managing, or press the CANCEL button to cancel this
    operation.  In either case, you will be returned to the main window.

5  –  FDDI

    Press the CONTINUE button to create the FDDI entity on the node you
    are managing, or press the CANCEL button to cancel this operation.
    In either case, you will be returned to the main window.

5.1  –  Station

    Creates an FDDI Station.  The required arguments are:

     o  Station Name

        The name of the FDDI Station you wish to create.  For example,
        FDDI-0.

     o  Communication Port

        The system device name assigned to this station.  The name must be
        in the format ddc, where dd is the device name prefix, and c is the
        controller letter.  Below are some examples of device prefixes.
        For example, the Communications Port for the first controller on
        a DEMFA would be FXA.

        Device Type       Prefix

        DEMFA             fx
        DEFZA             fc

    Press CONTINUE to create the FDDI Station, or press CANCEL to cancel
    this operation.  In either case, you will be returned to the main window.

6  –  FRAME

    Press the CONTINUE button to create the FDDI entity on the node you
    are managing, or press the CANCEL button to cancel this operation.
    In either case, you will be returned to the main window.

6.1  –  Link

    Creates a FRAME Link.  The name of the FRAME Link, the control mode, and
    the protocol are required arguments.

    CONTROL MODE

       Control mode in which the link operates.  This argument determines the
       value of the contol mode characteristic.  The default is point-to-point.

          multipoint master
          multipoint tributary
          point to point

     PROTOCOL
        Framing protocol to be used over the link. This argument determines the
        value of the procotol characteristic.

             bisync                  hdlc
             chips                   sdlc
             ddcmp                   swift
             genbyte

7  –  HDLC

    Press the CONTINUE button to create the HDLC entity on the node you
    are managing, or press the CANCEL button to cancel this operation.
    In either case, you will be returned to the main window.

7.1  –  Link

    Creates an HDLC Link.  The Name of the HDLC Link you wish to create is
    a required argument.

    The profile is an optional argument.  It is a latin1 string of
    information that can be used when the HDLC protocol is dependent on
    network subscription time commitments pertinent to the Data Link layer.
    When specified, the values of some link characteristics may be
    overridden. This argument determines the value of the profile
    characteristic. The default value of this argument is a null string,
    meaning that no profile is used.

    The Link Type specifies the operational mode of the HDLC link,
    determining how the logical station operates. This value is negotiated
    with the remote station.  This argument determines the value of the link
    type characteristic.  Select the appropriate radio button:

    Balanced    The logical station operates in asynchronous response
                balanced mode. This is the default value of the
                argument.

    Primary     The logical station is the primary and operates in
                normal response mode.

    Secondary   The logical station is a secondary and operates in
                normal response mode.

    Press CONTINUE to create the HDLC Link, or press CANCEL to cancel
    this operation.  In either case, you will return to the main window.

7.1.1  –  logical_station

    Creates a Logical Station for the HDLC Link you have selected.  The
    name of the Logical Station you wish to create is a required argument.

    Press CONTINUE to create the Logical Station, or press CANCEL to cancel
    this operation.  In either case, you will be returned to the main window.

8  –  Modem

    Press the CONTINUE button to create the MODEM entity on the node you
    are managing, or press the CANCEL button to cancel this operation.

    In either case, you will be returned to the main window.

8.1  –  Line

    Creates a MODEM Connect Line.  The line name, communications mode,
    communication port, duplex, and profile are required arguments.

    LINE NAME
       Name to associate to this line.

    COMMUNICATIONS MODE
       Communications method used on the link.  This argument determines the
       value of the communications mode characteristic.  The default value is
       taken from the device capability.  If that is unknown the default is
       synchronous.

    COMMUNICATION PORT
       Name of the communications port to which the communications line is
       connected.  This argument determines the value of the communications port
       characteristic.

    DUPLEX
       Specifies whether the line is full-duplex or half-duplex.  This argument
       determines the value of the duplex characteristic.

    MODE
       The method of startloop used on this line.

    Press the CONTINUE button to create the MOP Circuit entity, or press
    the CANCEL button to cancel this operation.  In either case, you will
    return to the main window.

9  –  MOP

    Pressing the CONTINUE button will create the MOP entity on the node you
    are managing.

    A NET$MOP process must already be present on the system before you can
    successfully create the MOP entity.  If a NET$MOP process does not
    exist, you can start MOP using the following command:

    $ @SYS$SYSTEM:STARTUP NETWORK MOP

    The NET$STARTUP_MOP system logical should be defined in
    SYS$MANAGER:NET$LOGICALS.COM if you want to automatically start up MOP
    when the system reboots.  See the SYS$MANAGER:NET$LOGICALS.TEMPLATE
    file if your SYS$MANAGER:NET$LOGICALS.COM file does not already exist.

    Pressing the CANCEL button will dismiss the window with no action taken.

9.1  –  Circuit

    Creates a MOP Circuit entity that represents a data link circuit on
    which MOP services are available.  Both the Circuit Name and the
    Circuit Type are required arguments.  An example of a Circuit Name
    is CSMACD-0.  An example of a Circuit Type is CSMA-CD.

    Press the CONTINUE button to create the MOP Circuit entity, or press
    the CANCEL button to cancel this operation.  In either case, you will
    return to the main window.

9.2  –  Client

    Creates a MOP Client entity.  A MOP Client entity is a set of default
    characteristics used by the MOP functions Dump Server, Load Server, Load
    Requester, Loop Requester and Console Requester.  When a command or
    request for one of these services does not supply all of the required
    arguments, the values stored by in the Client entity are used to
    perform the operation.

    The Client Name argument is a required argument.

    Press the CONTINUE button to create the MOP Client entity with its
    default values, or press the CANCEL button to cancel this operation.
    In either case, you will return to the main window.

10  –  nsp

    Press the CONTINUE button to create the NSP Transport entity on the
    node you are managing, or press the CANCEL button to cancel this
    operation.  In either case, you will be returned to the main window.

11  –  OSAK

     Press the CONTINUE button to create the OSAK Transport entity on the
     node you are managing, or press the CANCEL button to cancel this
     operation.  In either case, you will be returned to the main window.

11.1  –  application

    Creates an OSAK Application. Press the OK button to create the OSAK
    Application entity, or press the CANCEL button to cancel this operation.
    In either case, you will return to the main window.

11.2  –  invocation

    Creates an OSAK Application.  Press the OK button to create the OSAK
    Application Invocation entity, or press the CANCEL button to cancel this
    operation.  In either case, you will return to the main window.

12  –  osi_transport

    Press the CONTINUE button to create the OSI Transport entity on the
    node you are managing, or press the CANCEL button to cancel this
    operation.  In either case, you will be returned to the main window.

12.1  –  Application

    Creates an OSI Transport Application.  An OSI Transport Application
    entity stores information about an end user that is activated for
    receipt of an incoming connection request when the request contains
    that end user's name in its Destination Name field.

    The following is a required argument:

    o   Application Name

        Simple name to be assigned to the application.

    The following arguments are optional:

    o   Filename

        The name of the program to be invoked upon receipt of a connect
        request containing a TSEL matching the "Called TSELS" attribute
        of the Application entity.

    o   Username

        The user name portion of the access control information that
        identifies the account under with the application is to run.
        If invalid information or no user name is specified, system
        defaults are used to select the user.

    Press the OK button to create the OSI Transport Application entity,
    or press the CANCEL button to cancel this operation.  In either case,
    you will return to the main window.

12.2  –  Template

    An OSI Transport Template entity provides a collection of
    characteristics that supply default values for certain parameters that
    influence the operation of a port on a transport connection.

    One template, with the reserved identifier "default", is automatically
    created when the OSI Transport entity is created.  This template is
    used by default when a user does not specify a template identifier
    in a call to establish a connection.  The "default" template is also
    used to determine the initial values for the attributes of any new
    OSI Transport Template entity you create.

    The OSI Template Name is a required argument.

    Press the CONTINUE button to create the OSI Transport Template entity,
    or press the CANCEL button to cancel this operation.  In either case,
    you will return to the main window.

13  –  Routing

    Creates the Routing entity.

    The required arguments are:

     o  Protocols

        Protocols supported by this router. The value of this argument is
        a set containing either or both of the values IP or ISO8473. This
        argument determines the value of the protocols characteristic.
        The default value of this argument depends on the value of the
        type argument.

     o  Type

        Routing type for this node. This argument determines the value
        of the type characteristic attribute.

        endnode    The node is an end system.
        L1router   The node is a level 1 router.
        L2router   The node is a level 2 router.

13.1  –  Circuit

    Creates a Routing Circuit entity that represents a data link to another
    node.  The Circuit Name is a required argument.  Select the Circuit Type
    radio button that describes that circuit.

    Press the CONTINUE button to create the Routing Circuit entity, or press
    the CANCEL button to cancel this operation.  In either case, you will
    return to the main window.

13.1.1  –  Adjacency

    Creates a Routing Circuit Adjacency entity for particular circuit you
    have selected.  A Routing Circuit Adjacency entity describes a
    neighboring node that is accessible through a particular circuit.

    The required arguments for this display are:

    o   Name

        The simple name to be assigned to the adjacency.

    o   Endnode IDs

        A set of source system IDs.  To add new Endnode IDs to this set,
        type the Endnode ID in the "End Node IDs to Add" field and push the
        ADD button.  To remove old Endnode IDs from this set, click on the
        Endnode ID you wish to remove so that it becomes highlighted, then
        push the REMOVE button.  A scroll bar will appear to the right of
        the Endnode IDs field whenever it is necessary to allow you to move
        through the list of Endnode IDs.

    o   LAN address

        The Data Link address from which the adjacency receives end
        system hellos.

    The optional argument is:

    o   Data Format

        This string describes the format of the reachable address.

    Press the CONTINUE button to create the Routing Circuit Adjacency entity,
    or press the CANCEL button to cancel this operation.  In either case, you
    will return to the main window.

13.1.2  –  ip_reachable_address

     create  [node node-id] routing circuit circuit-name ip reachable
             address  destination subnet-address

13.1.2.1  –  Arguments

 o  destination subnet-address

    Specifies the IP address and subnet mask to which this IP
    reachable address corresponds. This argument determines the
    value of the destination characteristic. Note that if the subnet
    address is for an IP host, this argument also determines the
    value of the next hop characteristic.

13.1.3  –  reachable_address

    create  [node node-id] routing circuit circuit-name reachable
            address simple-name address prefix address-prefix

13.1.3.1  –  Arguments

 o  address prefix address-prefix

    Address prefix to which this reachable address corresponds.

13.1.3.2  –  Identifier

 o  name

    Simple name assigned to the reachable address when it is created.

13.2  –  egp_group

    create  [node node-id] routing egp group group-name

 o  name

    Simple name assigned to the EGP group when it is created.

13.2.1  –  egp_neighbor

    create  [node node-id] routing egp group group-name egp neighbor
            neighbor-name  ip address ip-address

13.2.1.1  –  Arguments

 o  ip address ip-address

    The IP address of the EGP neighbor.

13.2.1.2  –  Identifier

 o  name

    Simple name assigned to the EGP neighbor when it is created.

13.3  –  ptd_neighbor

    A Routing Permitted Neighbor entity represents a neighboring node on
    a nonbroadcast circuit that is permitted to connect to this node.
    The Neighbor Name and the Node ID of the permitted neighbor are
    required arguments.

    Press the CONTINUE button to create the Routing Permitted Neighbor entity,
    or press the CANCEL button to cancel this operation.  In either case, you
    will return to the main window.

14  –  session_control

14.1  –  Application

    Creates a Session Control Application.  A Session Control Application
    entity stores information about an end user that is activated for
    receipt of an incoming connection request when the request contains
    that end user's name in its Destination Name field.

    The following is a required argument:

    o   Application Name

        Simple name to be assigned to the application.

    The following values will be set to false by default.  You can set these
    to true by pushing on their associated toggle buttons so that those
    buttons are in the "on" state (filled in):

    o   Incoming Alias

        Specifies how a particular application responds to incoming connect
        requests directed to the alias node address.  The default is to not
        allow the application to receive incoming connect requests that
        have been directed to the alias node address.

    o   Incoming Proxy

        Specifies whether to honor incoming proxy requests.  The default is
        to ignore requests to invoke proxies on incoming requests.  This
        setting on the Session Control Application entity overrides the
        setting of the same attribute on the Session Control entity.

    o   Outgoing Proxy

        Specifies the default action to execute when the user does not
        explicitly specify whether or not to invoke a proxy.  The default
        is not to invoke the proxy.  This setting on the Session Control
        Application entity overrides the setting of the same attribute on
        the Session Control entity.

    o   Outgoing Alias

        Specifies whether a particular application uses the alias node
        identifier in its outgoing connect requests.  The default is not
        to use the alias node address in its outgoing connect requests.

    o   Node Synonym

        Specifies the default form in which the remote node name is
        passed to the application.  The default is to use the fullname.
        If this toggle is turned on (i.e., Node Synonym is set to true)
        when there is no synonym available, then the fullname is used.

    The following arguments are optional:

    o   Client Name

        Identifies the name of the local user that will be activated upon
        receipt of a connect request containing a destination name
        matching one of the values in the destination names attribute.

    o   User Name

        Identifies the default account under which the application is to
        run.  If this is null, then the system defaults are used to
        select the user.

    o   Image Name

        Filename of a program to be invoked upon receipt of a connection
        request containing an address that matches one of the values
        contained in the set described by the Addresses characteristic of
        the Session Control Application entity.

    o   Incoming OSI TSEL

        The TSEL this image will accept connections for.  This is similar
        to the destination names attribute.  However, applications using
        the access point for in-connection matching do not use DNA
        Session Control protocol.

        The TSEL must be entered as a hex octet, Example: '1234'H

    o   Network Priority

    Press the OK button to create the Session Control Application entity,
    or press the CANCEL button to cancel this operation.  In either case,
    you will return to the main window.

14.2  –  transport_service

    Creates a Session Control Transport Service entity that stores
    information about modules in the Transport layer that support
    Session Control.

    If the NSP Transport is selected, then the '04'H Protocol ID should
    be selected, and the TSEL field is not applicable.

    If the OSI Transport is selected, then the '05'H Protocol ID should
    be selected, and the TSEL defaults to DEC0, ('DEC0'H).  The Transport
    selector is used by the OSI Transport Module to bind incoming
    connection requests to session control.

    Press the OK button to create the Session Control Transport Service
    entity, or press the CANCEL button to cancel this operation.  In either
    case, you will return to the main window.

15  –  x25_access

    Creates the X.25 Access entity.  The Maximum Active Ports argument is
    an optional argument.

    o  Maximum Active Ports

       The total number of ports that can be active simultaneously.  You can
       not modify this characteristic, to set it it must be supplied at create
       time.

    Press the CONTINUE button to create the X.25 Access  entity, or press
    the CANCEL button to cancel this operation.  In either case, you will
    return to the main window.

15.1  –  app

    Creates a X.25 Access Application entity.  The Application Name is a
    required argument.

    Press the CONTINUE button to create the X.25 Access Application entity,
    or press the CANCEL button to cancel this operation.  In either case, you
    will return to the main window.

15.2  –  dte

    Creates a X.25 Access DTE Class entity.  The Class Name, and Type values
    are required arguments.  The Profile value is optional.

    o  Class Name
       The name of this new DTE Class

    o  Profile

       The name of the profile that supplies the information to perform X.121
       Mapping to or from a simpel DTE address.  The profile supplies the default
       vaules for the International prefix, Local prefix, DNIC and strip DNIC

    o  Type
       The type of DTE class:

          Local  - The DTE class consists of local DTEs.
          Remote - The DTE class consists of DTEs on a remote gateway system.

    Press the CONTINUE button to create the X.25 Access DTE Class entity,
    or press the CANCEL button to cancel this operation.  In either case, you
    will return to the main window.

15.3  –  filter

    Creates a X.25 Access Filter entity.  The Filter Name is a required
    argument.

    Press the CONTINUE button to create the X.25 Access Filter entity,
    or press the CANCEL button to cancel this operation.  In either case, you
    will return to the main window.

15.4  –  reachable

    Creates a X.25 Access Reachable Address entity.  The Name and Address Prefix
    are required arguments.

    o  Name
       The Name of this new Reachable Address Entity

    o  Address Prefix

       The Address Prefix to trigger the use of DTE class and destination.

    Press the CONTINUE button to create the X.25 Access Reachable Address
    entity, or press the CANCEL button to cancel this operation.  In either
    case, you will return to the main window.

15.5  –  Security

15.5.1  –  Flt

15.5.2  –  rmt

15.6  –  template

16  –  x25_client

17  –  x25_relay

17.1  –  client

17.2  –  pvc

18  –  x25_server

18.1  –  security

18.2  –  client

19  –  x25_protocol

19.1  –  group

19.2  –  dte

19.2.1  –  pvc

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