NS 3000/iX NMMGR Screens Reference Manual HP 3000 MPE/iX Computer Systems Edition 8 36922-90038 E1098 Printed in: U.S.A.
Notice The information contained in this document is subject to change without notice. Hewlett-Packard makes no warranty of any kind with regard to this material, including, but not limited to, the implied warranties of merchantability or fitness for a particular purpose. Hewlett-Packard shall not be liable for errors contained herein or for direct, indirect, special, incidental or consequential damages in connection with the furnishing or use of this material.
Contents 1. Overview Using The Command Window. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Using The Path Name . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Getting Help. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Using This Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Screen Numbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents 4 Internet Protocol Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Dial ID Protocol Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Security String(s) Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . Point-to-Point Network Interface Links . . . . . . . . . . . . . . . . . . . . . . . Direct Connect Link Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . Point-to-Point Dial Link Configuration . . . . . . . . .
Contents 10. 100VG-AnyLAN Network Interface Configuration Screens Network Interface Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100VG-AnyLAN Network Interface Configuration . . . . . . . . . . . . . . Protocol Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Internet Protocol Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Probe Protocol Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Contents 15. Network Directory What a Network Directory Provides. . . . . . . . . . . . . . . . . . . . . . . . . . When a Network Directory is Required . . . . . . . . . . . . . . . . . . . . . Probe and Proxy Servers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Path Report Lists . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Planning the Network Directory. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Figures Figure 2-1 . NMMGR Screen Flow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21 Figure 2-2 . Open Configuration/Directory Screen. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22 Figure 2-3 . Main Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .25 Figure 2-4 . NS Configuration Screen . . . . . . . . . . . . . . . . . . . . . . . . . .
Figures Figure 7-4 . Protocol Configuration Screen. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .136 Figure 7-5 . General X.25 Protocol Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .137 Figure 7-6 . X.25 User Facility Sets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .139 Figure 7-7 . X.25 user Facility Set Parameters Screen . . . . . . . . . . . . . . . . . . . .
Figures Figure 12-1 . Gateway Half Network Interface Configuration Screen Flow . . . . . . . . . . . . . . . . . . Figure 12-2 . Network Interface Configuration Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 12-3 . Gateway Half Network Interface Configuration Screen . . . . . . . . . . . . . . . . . . . . . . Figure 12-4 . Protocol Configuration Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Figure 12-5 .
Figures 10
Tables
Preface This manual documents functionality for the MPE/iX 6.0 release, as well as later releases for HP 3000 Series 900 systems. This reference manual assumes that you are familiar with your network topology. NMMGR is an interface used to configure Local Area Networks (LANs), point-to-point (router) networks, token ring networks, FDDI, 100VG-AnyLAN, 100Base-T, and X.25 networks.
An introduction to the generic use of the NMMGR utility, including discussions of the first levels of selection menus and of the utility screen branch, can be found in Using the Node Management Services (NMS) Utilities. The NMMGR screens that are associated with configuring the terminal, printer, and other serial device connections made through the Datacommunications and Terminal Controller (DTC) are described in Configuring Systems for Terminals, Printers, and Other Serial Devices.
1 Overview NS 3000/iX network subsystems on HP 3000 Series 900 computers are configured using a utility called the node management configuration manager (NMMGR). NMMGR uses a series of VPLUS screens to display and accept configuration data. Configuration data is stored in a hierarchically structured file, of file type NCONF, called NMCONFIG.PUB.SYS. The network services, network transport, data communications configurator, and logging services use NMCONFIG.PUB.
Overview Using The Command Window Using The Command Window The command window at the top of each NMMGR screen is used to enter NMMGR or MPE commands. The command window is the third line from the top of an NMMGR screen and has Command: on the left-hand side. You type a command in the command window and execute it by pressing the [Enter] key. The [Enter] key is the block mode enter key, different from the carriage return key.
Overview Using The Path Name Using The Path Name The path name is used to go directly to a given screen. A path name may include one or more of the following variables: • NIname is the name of the network interface you want to modify. • linkname is the name of the link you want to modify. • gatewayn is the name of the gateway you want to modify. • mapentry is the name of the entry you want to modify in the router mapping table. • fsetname is the name of the X.25 facility set you want to modify.
Overview Getting Help Getting Help Help is available for all the NMMGR screens described in this manual. It is also available for the screens used to configure the distributed terminal subsystem and those used for guided configuration. There are two ways to access NMMGR help: • The simplest way to use the help facility is to press the [Help] function key while at the screen for which you need information.
Overview Using This Manual Using This Manual This manual is organized so that you can find information on specific screens in any of the following ways: • If you know the name of the screen you need information about, you can refer to the index for an alphabetical listing of screens by name. • Screens are arranged in this manual by screen type. If you know both the screen’s name and its type you can locate screens easily using the Table of Contents.
Overview Software Configuration Maximums (MPE/iX 6.0) Software Configuration Maximums (MPE/iX 6.0) The following are the software maximums in Table 1-1 that must be adhered to when configuring a supported link. These maximums may be further limited by the system hardware (number of available slots). Maximums are also documented throughout the manual for the appropriate screen.
2 Introductory Screens The introductory screens are the first few screens that are displayed when you configure a node using NMMGR. Figure 2-1 shows the screen flow of the introductory screens. [FUNCTION] denotes the function key used at a screen to invoke the next screen on the screen flow. This Chapter describes the introductory screens relevant to configuring NS using unguided configurations.
Introductory Screens Open Configuration Directory File Open Configuration Directory File The Open Configuration/Directory File screen (#1) shown in Figure 2-2 is the first screen displayed when you run NMMGR. Figure 2-2 Open Configuration/Directory Screen To create or modify a configuration, enter the configuration file name and press the [Open Config] key. If the configuration file does not already exist, NMMGR will ask you to press the [Open Config] key again to confirm creation.
Introductory Screens Open Configuration Directory File NOTE The write access password is optional. If you do not choose to assign a password, you will be able to update the configuration file at any time it is opened. For information on how to assign a write access password, refer to the information about the password maintenance mode command in Using the Node Management Services (NMS) Utilities.
Introductory Screens Open Configuration Directory File Network directory screens are discussed in Chapter 15, “Network Directory,” of this manual. Write access password The password is an optional feature. If a password has been assigned, you must enter the password in the write access password field in order to update the configuration file. It is still possible to open the file without using an assigned password, but the file will be in read only mode and NMMGR will accept no changes to the file.
Introductory Screens Main Main If you create or modify a configuration file and press the [Open Config] key from the Open Configuration/Directory File, the Main screen (#2) shown in Figure 2-3 appears. Figure 2-3 Main Screen At the Main screen you configure the local node name of the HP 3000 host system. Before you can proceed beyond the Main configuration screen you will need to enter a valid local node name, answer the questions asked on the screen, and press the [Save Data] key.
Introductory Screens Main The name portion of each node name must be unique within the node’s network. The name.domain portion of each node name must be unique within the internetwork. HP recommends that all nodes on the same network be assigned the same domain and organization. Assign meaningful node names. For example, MKTG.IND.HP and LAB.IND.HP are meaningful names for two nodes on the same Local Area Network within Hewlett-Packard. One node (MKTG.IND.HP) is used by the marketing department.
Introductory Screens Main NMMGR Configuration Subbranches To select one of the NMMGR configuration subbranches (DTS, NS, OSI, IBM and Utility), press the appropriate function key. To configure Datacommunications and Terminal Controllers (DTCs) and the devices attached to them, press the [DTS] function key and refer to Configuring Systems for Terminals, Printers, and Other Serial Devices.
Introductory Screens NS Configuration NS Configuration If you press the [NS] function key from the Main screen, the NS Configuration screen (#166) shown in Figure 2-4 appears. You have a choice of selecting guided or unguided configurations. Figure 2-4 NS Configuration Screen Guided/Unguided Configuration Use the function keys on this screen to select the guided or the unguided configuration branch for NS configuration.
Introductory Screens NS Configuration If you need to modify configuration values that are not available on the guided screens, press the [Unguided Config] key to select the unguided configuration branch. This manual provides information on every screen available to you through unguided NS configuration. Fields Local domain name If you are not using domain names for network access, leave the local node name in this field.
Introductory Screens Network Transport Configuration Network Transport Configuration If you press the [Guided Config] function key from the NS Configuration screen, the Network Transport Configuration screen (#42) shown in Figure 2-5 appears. This is the first guided configuration screen. For information specific to the guided configuration screens (including the screen shown here), refer to the HP 3000/iX Network Planning and Configuration Guide.
Introductory Screens Unguided Configuration Unguided Configuration If you press the [Unguided Configuration] function key from NS Configuration screen (#166), the Unguided Configuration screen (#80) shown in Figure 2-6 appears. Figure 2-6 Unguided Configuration To configure or update a link, press the [Go To LINK] function key and refer to Chapter 3, “Link Configuration Screens,” in this manual.
Introductory Screens Unguided Configuration 32 Chapter 2
3 Link Configuration Screens Link configuration screens are used to define a link from the HP 3000 to a network. The first screen, Link Selection, allows you to define a link of type LAN, LAP-B (point-to-point), X.25, TOKEN, FDDI, 100VG-AnyLAN, or 100Base-T. A screen is then displayed that allows you to configure operating parameters for the link type that you select.
Link Configuration Screens Link Selection Link Selection The Link Selection screen (#85) in Figure 3-2 is displayed when you press the [Go To LINK] function key at the Unguided Configuration screen (#80). It is also displayed when you type the path name: @LINK in the command window of any screen and press the [Enter] key. NOTE Fields described as “HP modifiable” should be changed only upon the recommendation of your HP representative.
Link Configuration Screens Link Selection • To modify an existing link configuration, specify the linkname; then press the [Modify] function key. The data screen that contains information for the specified link name is displayed. • To change the name of an existing link configuration, specify the link name and a new name; then press the [Rename] function key. The previously configured link name is replaced and the screen displays the new name in the display fields labeled Configured Link Interfaces.
Link Configuration Screens Link Selection New name 36 (Required only when renaming a link.) Enter a new link name. The new name can contain as many as eight alphanumeric characters, and the first character must be alphabetic. The link name must match the link name configured in the corresponding NETXPORT.NI.NIname.LINK screen.
Link Configuration Screens LAN Link Configuration LAN Link Configuration The LAN Link Configuration screen (#82) in Figure 3-3 is displayed when you select a link name of type LAN at the Link Selection screen (Figure 3-2) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @LINK.linkname in the command window of any screen and press the [Enter] key, where linkname is the name of a configured LAN link.
Link Configuration Screens LAN Link Configuration For some HP systems, you must specify a channel number (ccc) and subchannel number (sss) in the form ccc.sss while others require a bus converter number followed by a slash (/) and then a channel number (ccc) and subchannel number (sss) in the form b/ccc.sss. If you are unsure of the slot location or of the physical path number to configure for your system, see your system documentation or consult your Hewlett-Packard service representative.
Link Configuration Screens Link Configuration: LAP-B Link Data Link Configuration: LAP-B Link Data The Link Configuration: LAP-B Link Data screen (#81) in Figure 3-4 is displayed when you select a link name of type LAP-B at the Link Selection screen (Figure 3-2) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @LINK.linkname in the command window of any screen and press the [Enter] key, where linkname is a configured LAP-B link.
Link Configuration Screens Link Configuration: LAP-B Link Data where (a) PathNumber is a number corresponding to the card cage the PSI is in: Card cage 0: PathNumber = 2 Card cage 1: PathNumber = 6 (b) / is the slash character (not the division sign), (c) the parentheses are used to set off an arithmetic formula (they are not entered as part of the Physical Path value), (d) X is the multiplication sign (not the character X), and (e) SlotNumber is the number of the slot, within the card cage, the PSI is in.
Link Configuration Screens Link Configuration: LAP-B Link Data LAP-B parameter T1 (HP modifiable.) Response timeout in hundredths of a second. This is the maximum amount of time that the transmitter should wait for an acknowledgment before initiating a recovery procedure. This delay must account for three frame transmissions and two frame-processing delays.
Link Configuration Screens Link Configuration: LAP-B Link Data Buffer size Layer 3 through 7 frame size. This is the amount of data that a user of OSI Levels 3 through 7 can put in that frame. It does not include Level 2 header or trailer information. This parameter is used to configure memory buffers. Default value: 1024 Range: 32–1024 Bytes Local mode If the node you are configuring is a Hewlett-Packard computer operating across a point-to-point link, enter 11 (the default).
Link Configuration Screens Link Configuration: LAP-B Link Data Trace file name (HP modifiable.) Required if link trace is enabled. Name of the disk file where you want to record tracing. Must be a valid file name. Enter the file name in the format filename.groupname.acctname. The fully qualified file name can be as many as 26 characters. Lockwords are not allowed for trace files. Do not specify the same file name with the NMMGR configuration as specified with the LINKCONTROL command.
Link Configuration Screens X.25 Link Configuration X.25 Link Configuration The X.25 Link Configuration Screen (#84) in Figure 3-5 is displayed when you add a link of type X.25 at the Link Selection Screen (Figure 3-2) and press the [Add] or [Modify] function key. This screen is also displayed when you type the path name: @LINK.linkname in the command window of any screen and press the [Enter] key, where linkname is a configured X.25 link. Figure 3-5 X.
Link Configuration Screens X.25 Link Configuration Each DTC must have a unique name within the local network, and the name.domain portion of the DTC name must be unique for each DTC within the internetwork. HP recommends that all nodes on the same network be assigned the same domain and organization. The DTC node name must match the name configured at the DTC Node Name screen under DTS configuration.
Link Configuration Screens Token Ring Link Configuration Token Ring Link Configuration The Token Ring Link Configuration screen (#87) in Figure 3-6 is displayed when you select a link name of type TOKEN at the Link Selection screen (Figure 3-2) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @LINK.linkname in the command window of any screen and press the [Enter] key, where linkname is the name of a configured token ring link.
Link Configuration Screens Token Ring Link Configuration CAUTION If the SNA token ring link product is already configured for the IBM subsystem, the values that initially appear in the Token Ring Link Configuration screen fields reflect the SNA configuration. If the same token ring card is being used for both NS and SNA communications, certain fields in the Token Ring Link Configuration screen must match the values of the SNA token ring link configuration. (See the following field descriptions.
Link Configuration Screens Token Ring Link Configuration NOTE If the same token ring card is being used for both NS and SNA communications, you must specify the local station address that is configured for the SNA token ring link. Local station address This field is to be used only with specific instructions from your network administrator or your Hewlett-Packard representative. It allows you to enter a station address to replace the factory configured address.
Link Configuration Screens FDDI Link Configuration FDDI Link Configuration The FDDI Link Configuration screen (#203) in Figure 3-7 is displayed when you select a link name of type FDDI at the Link Selection screen (Figure 3-2) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @LINK.linkname in the command window of any screen and press the [Enter] key, where linkname is the name of a configured FDDI link.
Link Configuration Screens FDDI Link Configuration If you are unsure of the slot location or of the physical path number to configure for your system, see your system documentation or consult your Hewlett-Packard service representative. Use factoryconfigured local station address? The FDDI adapter is supplied with a 48-bit station address. These are guaranteed to be unique.
4 Network Transport Configuration Screens This section contains information about the NMMGR configuration screens that are common to all network interfaces. The network transport configuration branch of NMMGR begins with a screen called the Network Transport Configuration Selection screen. Figure 4-1 shows the screen flow for configuring the Network Transport Configuration screens. Screens unique to the Network Transport Configuration are indicated by bold boxed screens.
Network Transport Configuration Screens The Network Transport Configuration Selection screen allows you to define global parameters for the node as well as network interfaces of type LAN, ROUTER (point-to-point), X.25, SNA, TOKEN (token ring), FDDI, 100VG-AnyLAN, 100Base-T, Gateway Half, or Loopback. To reach the network transport configuration screens, run NMMGR, and refer to the following pages of this section for a step-by-step process. Step-by-Step Process: Step 1. Run NMMGR.
Network Transport Configuration Screens Network Transort Configuration Selection Network Transort Configuration Selection The Network Transport Configuration Selection screen (#154) shown in Figure 4-2 is displayed when you press the function key for [Go To NETXPORT] at the Unguided Configuration screen (#80). It is also displayed when you type the path name: @NETXPORT in the command window of any screen and press the [Enter] key.
Network Transport Configuration Screens Global Transport Configuration Global Transport Configuration The Global Transport Configuration screen (#86) in Figure 4-3 is displayed when you press the [Go To GLOBAL] function key at the Network Transport Configuration Selection screen (Figure 4-2). It is also displayed when you type the path name: @NETXPORT.GLOBAL in the command window of any screen and press the [Enter] key.
Network Transport Configuration Screens Global Transport Configuration The home network name is required when configuring a gateway half to determine the source IP address for packets originating from the node over the gateway half link. The source IP address that will be used will be the one configured for the home network IP protocol. Related screen: • NETXPORT.NI NI names are configured here.
Network Transport Configuration Screens Global Transport Configuration Default value: 2, 3, 1 (Probe, Probe Proxy, Network Directory) Range: 0–3 NOTE If you are using domain names, the domain name can be resolved via either the domain name resolver or host tables. See the HP 3000/iX Network Planning and Configuration Guide for more information on domain names. Maximum inbound buffer memory (in kilobytes) This configures the amount of memory used to store incoming data.
Network Transport Configuration Screens General Protocol Configuration General Protocol Configuration The General Protocol Configuration screen (#153) in Figure 4-4 is displayed when you press the [Go To GPROT] function key at the Network Transport Configuration Selection screen (Figure 4-2). It is also displayed when you type the path name: @NETXPORT.GPROT in the command window of any screen and press the [Enter] key.
Network Transport Configuration Screens Packet Exchange Protocol (PXP) Configuration Packet Exchange Protocol (PXP) Configuration The Packet Exchange Protocol (PXP) Configuration screen (#93) in Figure 4-5 is displayed when you press the [Go To PXP] function key at the General Protocol Configuration screen (Figure 4-4). It is also displayed when you type the path name: @NETXPORT.GPROT.PXP in the command window of any screen and press the [Enter] key.
Network Transport Configuration Screens Packet Exchange Protocol (PXP) Configuration Fields Checksum enabled (Y/N) Checksumming is a method of error checking. Enter a Y (yes) to enable checksumming for all sockets for this protocol. Enter an N (no) to allow individual sockets to choose checksumming for themselves. PXP checksumming causes significant overhead, and is not normally needed for this protocol. Also, error checking is provided for at the link level.
Network Transport Configuration Screens Packet Exchange Protocol (PXP) Configuration would cause unacceptably long delays before IPCLookup would fail under normal conditions such as the remote node failing.
Network Transport Configuration Screens Transmission Control Protocol (TCP) Configuration Transmission Control Protocol (TCP) Configuration The Transmission Control Protocol (TCP) Configuration screen (#94) in Figure 4-6 is displayed when you press the [Go To TCP] function key at the General Protocol Configuration screen (Figure 4-4). It is also displayed when you type the path name: @NETXPORT.GPROT.TCP in the command window of any screen and press the [Enter] key.
Network Transport Configuration Screens Transmission Control Protocol (TCP) Configuration The algorithm used for congestion and flow control is based on the Van Jacobson algorithm which uses the initial retransmission timeout for most calculations.
Network Transport Configuration Screens Transmission Control Protocol (TCP) Configuration Connections may be prematurely aborted if you set retransmission interval lower bound low and you set maximum time to wait for remote response or maximum retransmissions per packet low. All of these retransmission fields are configurable to optimize connection performance.
Network Transport Configuration Screens Transmission Control Protocol (TCP) Configuration flow control and retransmissions. TCP connections and NetIPC have a one-to-one correspondence for calls to IPCCONNECT, and therefore between each Network Service invoked by each user. There is no multiplexing of user or Network Services data over TCP connections. The number of connections configured should reflect an estimation of the number of Network Services and NetIPC users that will be active simultaneously.
Network Transport Configuration Screens Transmission Control Protocol (TCP) Configuration Initial retransmission interval (secs) This field sets the initial amount of time that TCP will wait for a reply from a remote node before attempting to retransmit a packet. This value is used for connection setup when the retransmission interval has not yet been calculated. It should be greater than the retransmission interval lower bound.
Network Transport Configuration Screens Transmission Control Protocol (TCP) Configuration Maximum connection assurance retransmissions This is the maximum number of times that TCP will transmit a connection assurance packet to a non-responding remote system. Together with the connection assurance interval, this value defines the time it will take for an idle connection to abort if the remote TCP fails to respond. Unlike the retransmission timer, a backoff algorithm is not used.
Network Transport Configuration Screens Network Interface Configuration Network Interface Configuration Network Interface Configuration The Network Interface Configuration screen (#112) in Figure 4-7 is displayed when you press the [Go To NI] function key at the Network Transport Configuration Selection screen (Figure 4-2). It is also displayed when you type the path name: @NETXPORT.NI in the command window of any screen and press the [Enter] key.
Network Transport Configuration Screens Network Interface Configuration 100VG-AnyLAN Chapter 10, “100VG-AnyLAN Network Interface Configuration Screens.” 100Base-T Chapter 11, “100Base-T Network Interface Configuration Screens.” GATEHALF Chapter 12, “Gateway Half Network Interface Configuration Screens.” LOOP Chapter 13, “Loopback Network Interface Configuration Screens.” NS/SNA is no longer offered as a product and has been removed from the Corporate Price List.
5 LAN Network Interface Configuration Screens The screens in this chapter are those you would see when configuring an IEEE 802.3/Ethernet LAN network. Figure 5-1 shows the screen flow for configuring the IEEE 802.3/Ethernet LAN screens. Screens unique to the LAN are indicated by bold boxed screens. [FUNCTION] denotes the function key used at a screen to invoke the next screen on the screen flow.
LAN Network Interface Configuration Screens Network Interface Configuration Network Interface Configuration The Network Interface Configuration screen (#112) in Figure 5-2 is displayed when you press the [Go To NI] function key at the Network Transport Configuration Selection screen (Figure 4-1). It is also displayed when you type the path name: @NETXPORT.NI in the command window of any screen and press the [Enter] key.
LAN Network Interface Configuration Screens Network Interface Configuration • To change the name of an existing NI configuration, specify the NI name and a new name; then press the [Rename] function key. The previously configured NI name is replaced and the screen displays the new name in a display field under the label Configured Network Interfaces. • To delete an existing NI configuration, specify the NI name; then press the [Delete] function key.
LAN Network Interface Configuration Screens LAN Network Interface Configuration LAN Network Interface Configuration The LAN Network Interface Configuration screen (#89) in Figure 5-3 is displayed when you select an NI name and the NI type LAN at the Network Interface Configuration screen (Figure 5-2) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @NETXPORT.NI.
LAN Network Interface Configuration Screens LAN Network Interface Configuration Fields Network segment size (bytes) (HP modifiable.) This field specifies the largest packet (including all data, protocol headers, and link level headers) that will be sent by the LAN device. The only reason for entering a value smaller than 1514 is to make better use of memory for those systems where it is known that upper layer services will always send shorter messages.
LAN Network Interface Configuration Screens LAN Network Interface Configuration Load network directory mapping? (Y/N) If you have non-HP nodes on the LAN (nodes that do not support either ARP or probe protocols,) you must enter these nodes into the network directory and set load network directory mapping to Y. HP recommends the default unless non-HP nodes are on the LAN and the network directory has been configured. Refer to Chapter 15, “Network Directory,” for information about the network directory.
LAN Network Interface Configuration Screens Protocol Configuration Protocol Configuration The Protocol Configuration screen (#113) in Figure 5-4 is displayed when you press the [Go To PROTOCOL] function key at the LAN Network Interface Configuration screen (Figure 5-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL in the command window of any screen and press the [Enter] key, where NIname is a configured LAN NI.
LAN Network Interface Configuration Screens Internet Protocol Configuration Internet Protocol Configuration The IP Protocol Configuration screen (#156) in Figure 5-5 is displayed when you press the [Go To IP] function key at the Protocol Configuration screen (Figure 5-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.IP in the command window of any screen and press the [Enter] key, where NIname is a configured LAN NI.
LAN Network Interface Configuration Screens Internet Protocol Configuration Fields Store & forward buffers This field allocates buffers to support store-and-forward over the network interface being configured. You must allocate store and forward buffers if you are configuring an internet gateway and packets from another network will be forwarded over this network interface. You can modify the number of store-and-forward buffers to allow performance tuning for different network types.
LAN Network Interface Configuration Screens Internet Protocol Configuration Class B: B nnn.nnn xxx.xxx Class A: A nnn xxx.xxx.xxx where nnn is a value ranging from 000 to 255, representing eight bits of the network portion of an address and where xxx is a value ranging from 000 to 255, representing the node portion of the address.
LAN Network Interface Configuration Screens Probe Protocol Configuration Probe Protocol Configuration The Probe Protocol Configuration screen (#92) in Figure 5-6 is displayed when you press the [Go To PROBE] function at the Protocol Configuration screen (Figure 5-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.PROBE in the command window of any screen and press the [Enter] key, where NIname is a configured LAN NI.
LAN Network Interface Configuration Screens Probe Protocol Configuration Fields Proxy enabled (Y/N) Proxy nodes exist on LANs to provide node name and address mapping facilities for nodes that do not have local network directories. Proxy requests are multicast on the LAN to request information about a third-party node from a proxy node. Y means this node may be a proxy server and to answer all proxy requests on the LAN. N means this node will ignore all proxy requests on the LAN.
LAN Network Interface Configuration Screens Probe Protocol Configuration Proxy requests retransmission timeout (seconds) The time interval in seconds that the probe protocol will wait for a reply before attempting to retransmit a proxy request. The value should be set sufficiently large to avoid retransmissions in a temporarily overloaded environment, yet small enough to get a timely failure report when failure is inevitable.
LAN Network Interface Configuration Screens Address Resolution Protocol (ARP) Configuration Address Resolution Protocol (ARP) Configuration The Address Resolution Protocol (ARP) Configuration screen (#111) in Figure 5-7 is displayed when you press the [Go To ARP] function key at the Protocol configuration screen (Figure 5-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.ARP in the command window of any screen and press the [Enter] key, where NIname is a configured LAN NI.
LAN Network Interface Configuration Screens Address Resolution Protocol (ARP) Configuration Fields Retransmission maximum This is the maximum number of times that an ARP request packet will be retransmitted. If an ARP reply packet for this request is not received after this number of retransmissions, the attempted address resolution is considered to have failed. This value is bound closely to the retransmission timeout value as described.
LAN Network Interface Configuration Screens LAN Network Interface Link LAN Network Interface Link The LAN Network Interface Link screen (#107) in Figure 5-8 is displayed when you press the [Go To LINK] function key at the LAN Network Interface Configuration screen (Figure 5-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.LINK in the command window of any screen and press the [Enter] key, where NIname is a configured LAN NI.
LAN Network Interface Configuration Screens LAN Network Interface Link To change an existing link name, enter the new name in the Link name field and press the [Save Data] function key.
LAN Network Interface Configuration Screens Neighbor Gateways Neighbor Gateways The Neighbor Gateways screen (#152) in Figure 5-9 is displayed when you press the [Go To INTERNET] function key at the LAN Network Interface Configuration screen (Figure 5-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.INTERNET in the command window of any screen and press the [Enter] key, where NIname is a configured LAN NI.
LAN Network Interface Configuration Screens Neighbor Gateways • To change the gateway name of an existing gateway, specify the gateway name and a new name; then press the [Rename] function key. The previously configured name is replaced, and the screen displays the new name in a display field under the label Configured Gateways. • To delete an existing gateway, specify the gateway name; then press the [Delete] function key. Press the [Delete] function key again to confirm the deletion.
LAN Network Interface Configuration Screens Neighbor Gateway Reachable Networks Neighbor Gateway Reachable Networks The Neighbor Gateway Reachable Networks screen (#158) in Figure 5-10 is displayed when you select a gateway name at the Neighbor Gateways screen (Figure 5-9) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @NETXPORT.NI.NIname.INTERNET.
LAN Network Interface Configuration Screens Neighbor Gateway Reachable Networks NOTE The information configured in this screen can extend to more than one page, if necessary, to allow configuration of up to 2550 reachable networks per link (255 pages and 10 reachable nets per page). Press [Next Page] to proceed to a new page. Press [Prev Page] to display a prior page.
LAN Network Interface Configuration Screens Neighbor Gateway Reachable Networks where nnn is a value ranging from 000 to 255, representing eight bits of the network portion of an address and xxx is a value ranging from 000 to 255, representing the node portion of the address. Note that network and node values of all zeros or all ones are not allowed. These are special values.
LAN Network Interface Configuration Screens Neighbor Gateway Reachable Networks To allow this node to communicate with other subnets on the local network, enter the decimal equivalent of the subnet in the IP network address field and enter the subnet mask in the IP mask field. If you do not enter a subnet mask one of the following occurs: • If the IP address is the same as the node you are configuring, the IP mask entered in the IP Protocol Configuration screen (Figure 5-5) is used.
LAN Network Interface Configuration Screens Neighbor Gateway Reachable Networks count value is configured for multiple gateways, the network transport will choose internally from among the routes with equal hop counts. Range: 1–32767 NOTE To delete a reachable network entry, fill the field to be deleted with blanks and press the [Save Data] function key.
6 Point-to-Point (Router) Network Interface Configuration Screens The screens in this chapter are those you would see when configuring a Point-to-Point (router) network. The Point-to-Point Network Interface Configuration branch of NMMGR begins with a screen called the Network Interface Configuration screen. Figure 6-1 shows the screen flow for configuring the Point-to-Point (router) screens. Screens unique to Point-to-Point are indicated by bold boxed screens.
Point-to-Point (Router) Network Interface Configuration Screens Network Interface Configuration Network Interface Configuration The Network Interface Configuration screen (#112) in Figure 6-2 is displayed when you press the [Go To NI] function key at the Network Transport Configuration Selection screen (Figure 4-2). It is also displayed when you type the path name: @NETXPORT.NI in the Command window of any screen and press the [Enter] key.
Point-to-Point (Router) Network Interface Configuration Screens Network Interface Configuration • To change the name of an existing NI configuration, specify the NI name and a new name; then press the [Rename] function key. The previously configured NI name is replaced and the screen displays the new name in a display field under the label Configured Network Interfaces. • To delete an existing NI configuration, specify the NI name; then press the [Delete] function key.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Network Interface Configuration Point-to-Point Network Interface Configuration The point-to-point network interface (NI) allows the upper layers of the transport protocol to communicate with the data link layer.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Network Interface Configuration Fields Network hop count This is the maximum number of hops that a packet entering the network can make. It is the distance between the two most remotely separated nodes on the network. Distance is measured in terms of hops, where each intermediate node between two end nodes is counted as a hop.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Network Interface Configuration Number of outbound buffers This field specifies the number of buffers to be allocated for outbound data. Outbound buffers are used for outbound data packets and are held by the transport until they are acknowledged by the destination node. Underallocation may adversely affect TCP throughput. Overallocation may waste core memory. Related screen: • NETXPORT.GPROT.
Point-to-Point (Router) Network Interface Configuration Screens Protocol Configuration Protocol Configuration The Protocol Configuration screen (#113) in Figure 6-4 is displayed when you press the [Go To PROTOCOL] function key at the Point-to-Point Network Interface Configuration screen (Figure 6-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL in the Command window of any screen and press the [Enter] key, where NIname is a configured point-to-point (router) NI name.
Point-to-Point (Router) Network Interface Configuration Screens Internet Protocol Configuration Internet Protocol Configuration Internet protocol information must be supplied for each configured NI. The key field in the IP Protocol Configuration screen (#156) shown in is the IP internet address, which is used in IP routing and datagram delivery algorithms. Data in the other fields are used for internal resource allocation and performance tuning.
Point-to-Point (Router) Network Interface Configuration Screens Internet Protocol Configuration Fields Store & forward buffers This field allocates buffers to support store-and-forward over the network interface being configured. You do not need to allocate store-and-forward buffers if you are configuring a non-gateway node on this network. You must allocate store and forward buffers if you are configuring an internet gateway and packets from another network will be forwarded over this network interface.
Point-to-Point (Router) Network Interface Configuration Screens Internet Protocol Configuration Class B: B nnn.nnn xxx.xxx Class A: A nnn xxx.xxx.xxx where xxx is a value ranging from 000 to 255, representing the node portion of the address and nnn is a value ranging from 000 to 255, representing eight bits of the network portion of an address. Note the network and node values of all zeros or all ones are not allowed. These are special value.
Point-to-Point (Router) Network Interface Configuration Screens Dial ID Protocol Configuration Dial ID Protocol Configuration Along with other information, the Dial ID Protocol Configuration screen (#103) provides a means of verifying that the remote node is the intended remote node and that both local and remote nodes have proper security access. This screen, shown in Figure 6-6, is displayed when you press the function key for [Go To DIAL] at the Protocol Configuration screen (Figure 6-4).
Point-to-Point (Router) Network Interface Configuration Screens Dial ID Protocol Configuration Fields Maximum retransmissions per packet (HP modifiable.) This is the maximum number of times that a dial ID protocol packet will be retransmitted. If the expected response to a packet is not received after this number of retransmissions, the connection is closed. This value is related to the retransmission timeout value discussed.
Point-to-Point (Router) Network Interface Configuration Screens Dial ID Protocol Configuration When a dial connection is initiated by a remote node, the security string sent by the remote node is checked against the list of valid security strings configured for the dial ID protocol for this network interface. (See “Related screens”). When a dial connection is initiated by this node, the local dial ID protocol sends the destination’s security string (as configured on this node) to that node.
Point-to-Point (Router) Network Interface Configuration Screens Security String(s) Configuration Security String(s) Configuration The Security String(s) Configuration screen (#110) supplies the security string required by the Dial ID protocol for the node you are configuring. (Note that the security string is not required if dial ID protocol is not enabled.
Point-to-Point (Router) Network Interface Configuration Screens Security String(s) Configuration Fields Configured security strings Enter the security string that the remote nodes must use to gain dial link access to the node you are configuring. The string can contain up to eight alphanumeric characters, left justified, with no embedded blanks. To delete a security string, blank out the field that contains the string you want deleted, then press the [Save Data] function key.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Network Interface Links Point-to-Point Network Interface Links The Point-to-Point Network Interface Links screen (#119) in Figure 6-8 is displayed when you press the [Go To LINK] function key at the Point-to-Point Network Interface Configuration screen (Figure 6-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Network Interface Links • To change the link name of an existing NI link configuration, specify the link name and a new name; then press the [Rename] function key. The previously configured name is replaced, and the screen displays the new name in a display field under the label Configured Network Links. • To delete an existing NI link configuration, specify the link name; then press the [Delete] function key.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Network Interface Links Related screen: • NETXPORT.NI.NIname.MAPPING.mapentry This screen allows up to 1024 mappings of point-to-point links to destination nodes. If multiple destinations are mapped to a single link, the link must be configured as a shared dial (SD) link in the current screen. New name (Required only when renaming an existing point-to-point link.) Enter a link name.
Point-to-Point (Router) Network Interface Configuration Screens Direct Connect Link Configuration Direct Connect Link Configuration The Direct Connect Link Configuration screen (#105) supplies the information required to interface a point-to-point NI to a direct-connect link (that is, a private line, leased line or other non-switched link).
Point-to-Point (Router) Network Interface Configuration Screens Direct Connect Link Configuration Fields Start device on network initialization (Y/N) A Y (Yes) value means that the device is to begin startup when a NETCONTROL START command is issued for the network interface being configured. The physical layer is activated when NETCONTROL START is issued, but the data link layer on the first remote device is not activated until the first REMOTE HELLO using that device is issued.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Dial Link Configuration Point-to-Point Dial Link Configuration Dial link configuration provides the information necessary to interface the point-to-point NI to a dial link.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Dial Link Configuration Fields Enable dial ID protocol (Y/N) (HP modifiable.) A Y (Yes) value activates the dial ID protocol for a dial link.The dial ID protocol verifies the identity of a remote node and ensures that both local and remote nodes have the required security access.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Dial Link Configuration Enable idle device timer (Y/N) This field specifies whether the device is to be disconnected automatically if no packets have been received or transmitted over the link during a specified time period. It is relevant only if a timeout value has been entered in the point-to-point NI screen (see “Related screens”). Related screen: • NETXPORT.NI.NIname Configures point-to-point network interface information.
Point-to-Point (Router) Network Interface Configuration Screens Neighbor Gateways Neighbor Gateways The Neighbor Gateways screen (#152) in Figure 6-11 is displayed when you press the [Go To INTERNET] function key at the Point-to-Point Network Interface Configuration screen (Figure 6-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.INTERNET in the Command window of any screen and press the [Enter] key, where the NIname is a configured point-to-point NI.
Point-to-Point (Router) Network Interface Configuration Screens Neighbor Gateways • To change the gateway name of an existing gateway identification, specify the gateway name and a new name; then press the [Rename] function key. The previously configured name is replaced, and the screen displays the new name in a display field under the label Configured Gateways. • To delete an existing gateway identification, specify the gateway name, then press the [Delete] function key.
Point-to-Point (Router) Network Interface Configuration Screens Neighbor Gateway Reachable Networks Neighbor Gateway Reachable Networks The Neighbor Gateway Reachable Networks screen (#158) is used to enter internet routing information. It supplies the internet address of a neighbor internet gateway, lists addresses of remote networks which are reachable through that gateway, and indicates the distances to those remote networks.
Point-to-Point (Router) Network Interface Configuration Screens Neighbor Gateway Reachable Networks NOTE The information configured in this screen can extend to more than one page, if necessary, to allow configuration of up to 2550 reachable networks per link (255 pages and 10 reachable nets per page). Press [Next Page] to proceed to a new page. Press [Prev Page] to display a prior page.
Point-to-Point (Router) Network Interface Configuration Screens Neighbor Gateway Reachable Networks representing node portion of the address. Note the network and node portions of all zeros or all ones are not allowed. These are special values. The leftmost group of nnn has the following ranges for each address class: Class C: 192–223 Class B: 128–191 Class A: 001–126 Default value: None Related screen: • NETXPORT.NI.NIname.PROTOCOL.
Point-to-Point (Router) Network Interface Configuration Screens Neighbor Gateway Reachable Networks To allow this node to communicate with other subnets on the local network, enter the decimal equivalent of the subnet in the IP network address field and enter the subnet mask in the IP mask field. If you do not enter a subnet mask one of the following occurs: • If the IP address is the same as the node you are configuring, the IP mask configured in the IP Protocol Configuration screen (Figure 6-5) is used.
Point-to-Point (Router) Network Interface Configuration Screens Neighbor Gateway Reachable Networks count value is configured for multiple gateways, the network transport will choose internally from among the routes with equal hop counts. Default value: None Range: 1–32767 NOTE To delete a reachable network entry, fill the field to be deleted with blanks and press the [Save Data] function key.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Mapping Configuration Point-to-Point Mapping Configuration The Point-to-Point Mapping Configuration screen (#115) in Figure 6-13 is displayed when you press the [Go To MAPPING] function key at the Point-to-Point Network Interface Configuration screen (Figure 6-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Mapping Configuration There may be multiple routes to a destination node; if the routes are through different adjacent nodes, a mapping may be configured for each of them. For example, Figure 6-14 shows a point-to-point network that could have eight mappings configured for node A.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Mapping Configuration Note that you do not need to configure alternate routes to nodes B and C; however, you can configure the routes listed above (A-C-D-B and A-B-D-C) to provide alternate paths if the link used for the primary route fails.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Reachable Nodes Point-to-Point Reachable Nodes The Point-to-Point Reachable Nodes screen (#99) shown in Figure 6-15 is used to configure the route characteristics to a destination node on the point-to-point network. You must configure one mapping (i.e., one entry in this screen) for each node that you want to reach.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Reachable Nodes Press the [Save Data] function key to transfer the data displayed on the screen to the configuration file you are creating or updating. Verify that the data record has been created by checking that the Data flag is set to Y. Fields Destination IP internet address This is the internet address of the destination node to which a route is being defined.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Reachable Nodes Class A: 001–126 If the link specified in the Link Name field is the only link configured for this network interface and is not a shared dial link, you can enter a “wildcard” symbol by specifying an “at sign” (@) in place of the IP address. The @ in this field indicates that multiple non-adjacent point-to-point nodes on this network can be reached via the link specified in the link name field.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Reachable Nodes List name The name of the link on this node over which packets to the destination node must be sent. The name of the link is configured separately (see related screens). Related screens: • NETXPORT.NI.NIname.LINK This screen configures the link name. • LINK.linkname This screen configures link attributes.
Point-to-Point (Router) Network Interface Configuration Screens Point-to-Point Reachable Nodes # Defined by local phone system. * Defined by local phone system. Enter ! to disable outbound dialing. A ! is required if the destination node is a personal computer. You can have 4096 unique phone numbers in your NM configuration file. Default value: None Security string This is the security string of the destination node.
7 X.25 Network Interface Configuration Screens The screens in this chapter are those you would see when configuring an X.25 network. The X.25 Network Interface Configuration branch of NMMGR begins with a screen called the Network Interface Configuration screen. Figure 7-1 shows the screen flow for configuring the X.25 screens. Screens unique to X.25 are indicated by bold boxed screens. [FUNCTION] denotes the function key used at a screen to invoke the next screen on the screen flow. Figure 7-1 X.
X.25 Network Interface Configuration Screens Network Interface Configuration Network Interface Configuration The Network Interface Configuration screen (#112) in Figure 7-2 is displayed when you press the [Go To NI] function key at the Network Transport Configuration Selection screen (Figure 4-2). It is also displayed when you type the path name: @NETXPORT.NI in the Command window of any screen and press the [Enter] key.
X.25 Network Interface Configuration Screens Network Interface Configuration • To change the name of an existing NI configuration, specify the NI name and a new name; then press the [Rename] function key. The previously configured NI name is replaced and the screen displays the new name in a display field under the label Configured Network Interfaces. • To delete an existing NI configuration, specify the NI name; then press the [Delete] function key.
X.25 Network Interface Configuration Screens X.25 Network Interface Configuration X.25 Network Interface Configuration The X.25 Network Interface Configuration screen (#102) in Figure 7-3 is displayed when you add an X.25 interface to the Network Interface Configuration screen (Figure 7-2) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @NETXPORT.NI.NIname in the Command window of any screen and press the [Enter] key, where NIname is a configured X.25 NI.
X.25 Network Interface Configuration Screens X.25 Network Interface Configuration Fields Number of outbound buffers (Required.) Enter the number of buffers that are allocated to the X.25 network interface. If direct level 3 access is being used, or large (over 5000 bytes) blocks of data are being sent, or multiple no-wait sends are being issued, then more buffers may be needed. Logging location code 174, CLAS0003, tells you that the X.
X.25 Network Interface Configuration Screens Protocol Configuration Protocol Configuration The Protocol Configuration screen (#113) in Figure 7-4 is displayed when you press the [Go To Protocol] function key at the X.25 Network Interface Configuration screen (Figure 7-3). This screen is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL in the Command window of any screen and press the [Enter] key, where NIname is a configured X.25 NI.
X.25 Network Interface Configuration Screens General X.25 Configuration General X.25 Configuration The General X.25 screen (#159) in Figure 7-5 is displayed when you press the [Go To X25] function key at the Protocol Configuration screen (Figure 7-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.X25 in the Command window of any screen and press the [Enter] key, where NIname is a configured X.25 NI. Figure 7-5 General X.
X.25 Network Interface Configuration Screens General X.25 Configuration Fields Inactivity timer for IP connections (in seconds) (Required.) Enter a number of seconds after which any inactive switched virtual circuits (SVC) being used for TCP/IP connections are automatically disconnected. If no inactivity timer is to be set, enter a 0 in this field. It is best to set this timer at more than two times the value of the TCP connection assurance timer. This keeps the X.
X.25 Network Interface Configuration Screens X.25 User Facility Sets X.25 User Facility Sets The X.25 User Facility Sets screen (#164) in Figure 7-6 is displayed when you press the [Go To FACSET] function key at the General X.25 Configuration screen (Figure 7-5). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.X25.FACSET in the Command window of any screen and press the [Enter] key, where NIname is a configured X.25 NI. Figure 7-6 X.
X.25 Network Interface Configuration Screens X.25 User Facility Sets New name This field is used to rename a facility set. Enter the current name in the set name field. Enter the new name in the new name field and press the [Rename] function key. The name can contain as many as eight alphanumeric characters. The first character must be alphabetic.
X.25 Network Interface Configuration Screens X.25 User Facility Set Parameters X.25 User Facility Set Parameters The X.25 User Facility Set Parameters screen (#161) in Figure 7-7 is displayed when you press the [Add] or [Modify] function key at the X.25 User Facility Sets screen (Figure 7-6). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.X25.FACSET.fsetname in the Command window of any screen and press the [Enter] key, where NIname is a configured X.
X.25 Network Interface Configuration Screens X.25 User Facility Set Parameters Packet size negotiation values These are the packet sizes that will be negotiated for incoming and outgoing packets if packet size negotiation is set to Y. Default: 128 Range: 16, 32, 64, 128, 256, 512, 1024, 2048, 4096 Window size negotiation (Required.) Enter Y if you want to implement window size negotiation. Enter N if you do not wish to implement window size negotiation.
X.25 Network Interface Configuration Screens X.25 User Facility Set Parameters Table 7-1 CAUTION Throughput Class and Line Speed Throughput Class Line Speed 7 1200 8 2400 9 4800 10 9600 11 19200 12 48000 Answer Y (Yes) to negotiation only if you subscribed for negotiation. Some networks will reject a call with negotiation if you did NOT subscribe for negotiation.
X.25 Network Interface Configuration Screens X.25 User Facility Set Parameters Closed user group (CUG) (Required.) The closed user group (CUG) facility enables a group of DTE devices to communicate only with other members of the same CUG and prevents access from any device or user that is not in this CUG. Answer Y if you subscribed to a CUG using the basic format and if you want to use this CUG with this SVC set.
X.25 Network Interface Configuration Screens X.25 SVC Address Key Paths X.25 SVC Address Key Paths The X.25 SVC Address Key Paths screen (#162) in Figure 7-8 is displayed when you press the [Go To SVCPATH] function key at the General X.25 Configuration screen (Figure 7-5). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.X25.SVCPATH in the Command window of any screen and press the [Enter] key, where NIname is a configured X.25 NI. Figure 7-8 X.
X.25 Network Interface Configuration Screens X.25 SVC Address Key Paths POOL is the X.25 address key reserved for calls to and from nodes whose addresses are not defined in this X.25 SVC Address Key Path screen. When a POOL X.25 address key is used, any system, even one that is not identified in this screen, can access this node. HP recommends that you use the name portion of the formal node name (name.domain.organization) as the X.25 address key.
X.25 Network Interface Configuration Screens X.25 SVC Address Key Paths • IO is the level of security you assign to accept both incoming and outgoing calls. • LK is the level of security you assign to lock this entry so that no calls, incoming or outgoing, are accepted. LK is useful if you are using POOL to accept calls from all nodes, but you want to exclude a few nodes from accessing this node. Enter the nodes you want to restrict in this screen and specify LK as the security.
X.25 Network Interface Configuration Screens X.25 PVC Address Key Paths X.25 PVC Address Key Paths The X.25 PVC Address Key Paths screen (#163) in Figure 7-9 is displayed when you press the [Go To PVCPATH] function key at the General X.25 Configuration screen (Figure 7-5). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.X25.PVCPATH in the Command window of any screen and press the [Enter] key, where NIname is a configured X.25 NI. Figure 7-9 X.
X.25 Network Interface Configuration Screens X.25 PVC Address Key Paths range you defined in the OpenView DTC Manager configuration. This is a required field if you defined a corresponding X.25 address key.
X.25 Network Interface Configuration Screens Internet Protocol Configuration Internet Protocol Configuration The IP Protocol Configuration screen (#156) in Figure 7-10 is displayed when you press the [Go To IP] function key at the Protocol Configuration screen (Figure 7-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.IP in the command window of any screen and press the [Enter] key, where NIname is a configured X.25 NI.
X.25 Network Interface Configuration Screens Internet Protocol Configuration Fields Store & forward buffers This field allocates buffers to support store-and-forward over the network interface being configured. You do not need to allocate store-and-forward buffers if you are configuring a non-gateway node on this network. You must allocate store and forward buffers if you are configuring an internet gateway and packets from another network will be forwarded over this network interface.
X.25 Network Interface Configuration Screens Internet Protocol Configuration Class C: C nnn.nnn.nnn xxx Class B: B nnn.nnn xxx.xxx Class A: A nnn xxx.xxx.xxx where nnn is a value ranging from 000 to 255, representing eight bit of the network portion of an address and xxx is a value ranging from 000 to 255, representing the node portion of an address.
X.25 Network Interface Configuration Screens X.25 Network Interface Links X.25 Network Interface Links The X.25 Network Interface Links screen (#151) in Figure 7-11 is displayed when you press the [Go To LINK] function key at the X.25 Network Interface Configuration screen (Figure 7-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.LINK in the command window of any screen and press the [Enter] key, where NIname is a configured X.25 NI. Figure 7-11 X.
X.25 Network Interface Configuration Screens X.25 Network Interface Links • To change the link name of an existing link configuration, specify the link name and a new name; then press the [Rename] function key. The previously configured name is replaced, and the screen displays the new name in a display field under the label Configured Network Links. • To delete an existing link configuration, specify the link name; then press the [Delete] function key.
X.25 Network Interface Configuration Screens X.25 Link Configuration X.25 Link Configuration The X.25 Link Configuration screen (#106) shown in Figure 7-12 is displayed when you select an NI link name and press the [Add] or [Modify] function key at the X.25 Network Interface Link screen (Figure 7-11). It is also displayed when you type the path name: @NETXPORT.NI.NIname.LINK.linkname in the Command window of any screen and press the [Enter] key, where NIname is a configured X.
X.25 Network Interface Configuration Screens X.25 Link Configuration Fields Start device on network initialization (Y/N) Answer Y (Yes) if you want the device connected over this link to be started when the network is first initialized. Answer N (No) if you do NOT want the device started when the network is first initialized.
X.25 Network Interface Configuration Screens Neighbor Gateways Neighbor Gateways The Neighbor Gateways screen (#152) in Figure 7-13 is displayed when you press the [Go To INTERNET] function key at the X.25 Network Interface Configuration screen (Figure 7-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.INTERNET in the command window of any screen and press the [Enter] key, where NIname is a configured X.25 NI.
X.25 Network Interface Configuration Screens Neighbor Gateways • To change the gateway name of an existing gateway, specify the gateway name and a new name; then press the [Rename] function key. The previously configured name is replaced, and the screen displays the new name in a display field under the label Configured Gateways. • To delete an existing gateway, specify the gateway name; then press the [Delete] function key. Press the [Delete] function key again to confirm the deletion.
X.25 Network Interface Configuration Screens Neighbor Gateway Reachable Networks Neighbor Gateway Reachable Networks The Neighbor Gateway Reachable Networks screen (#158) in Figure 7-14 is displayed when you select a gateway name at the Neighbor Gateways screen (Figure 7-13) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @NETXPORT.NI.NIname.INTERNET.gatewayn in the command window of any screen and press the [Enter] key, where NIname is a configured X.
X.25 Network Interface Configuration Screens Neighbor Gateway Reachable Networks NOTE The information configured in this screen can extend to more than one page, if necessary, to allow configuration of up to 2550 reachable networks per link (255 pages and 10 reachable nets per page). Press [Next Page] to proceed to a new page. Press [Prev Page] to display a prior page.
X.25 Network Interface Configuration Screens Neighbor Gateway Reachable Networks where nnn is a value ranging from 000 to 255, representing eight bits of the network portion of an address and xxx is a value ranging from 000 to 255, representing the node portion of the address. Note that network and node values of all zeros or all ones are not allowed. These are special values.
X.25 Network Interface Configuration Screens Neighbor Gateway Reachable Networks To allow this node to communicate with other subnets on the local network, enter the decimal equivalent of the subnet in the IP network address field and enter the subnet mask in the IP mask field. If you do not enter a subnet mask, one of the following occurs: • If the IP address is the same as the node you are configuring, the IP mask configured in the IP Protocol Configuration screen (Figure 7-10) is used.
X.25 Network Interface Configuration Screens Neighbor Gateway Reachable Networks count value is configured for multiple gateways, the network transport will choose internally from among the routes with equal hop counts. Range: 1–32767 NOTE To delete a reachable network entry, fill the field to be deleted with blanks and press the [Save Data] function key.
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8 Token Ring Network Interface Configuration Screens The screens in this chapter are those you would see when configuring a Token Ring network. The Token Ring Network Interface Configuration branch of NMMGR begins with a screen called the Network Interface Configuration screen. Figure 8-1 shows the screen flow for configuring the Token Ring screens. Screens unique to Token Ring are indicated by bold boxed screens.
Token Ring Network Interface Configuration Screens Network Interface Configuration Network Interface Configuration The Network Interface Configuration screen (#112) in Figure 8-2 is displayed when you press the [Go To NI] function key at the Network Transport Configuration Selection screen (Figure 4-2). It is also displayed when you type the path name: @NETXPORT.NI in the Command window of any screen and press the [Enter] key.
Token Ring Network Interface Configuration Screens Network Interface Configuration • To change the name of an existing NI configuration, specify the NI name and a new name; then press the [Rename] function key. The previously configured NI name is replaced and the screen displays the new name in a display field under the label Configured Network Interfaces. • To delete an existing NI configuration, specify the NI name; then press the [Delete] function key.
Token Ring Network Interface Configuration Screens Token Ring Network Interface Configuration Token Ring Network Interface Configuration The Token Ring Network Interface Configuration screen (#88) in Figure 8-3 is displayed when you select an NI name and the NI type TOKEN at the Network Interface Configuration screen (Figure 8-2) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @NETXPORT.NI.
Token Ring Network Interface Configuration Screens Token Ring Network Interface Configuration Fields Network segment size This field specifies the largest packet that will be sent by the token ring device. The only reason for entering a value smaller than 1984 is to make better use of memory for those systems where it is known that upper layer services will always send shorter messages.
Token Ring Network Interface Configuration Screens Protocol Configuration Protocol Configuration The Protocol Configuration screen (#113) in Figure 8-4 is displayed when you press the [Go To Protocol] function key at the Token Ring Network Interface Configuration screen (Figure 8-3). This screen is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL in the Command window of any screen and press the [Enter] key, where NIname is a configured token ring NI.
Token Ring Network Interface Configuration Screens Internet Protocol Configuration Internet Protocol Configuration The IP Protocol Configuration screen (#156) in Figure 8-5 is displayed when you press the [Go To IP] function key at the Protocol Configuration screen (Figure 8-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.IP in the command window of any screen and press the [Enter] key, where NIname is a configured token ring NI.
Token Ring Network Interface Configuration Screens Internet Protocol Configuration Fields Store & forward buffers This field allocates buffers to support store-and-forward over the network interface being configured. You do not need to allocate store-and-forward buffers if you are configuring a non-gateway node on this network. You must allocate store and forward buffers if you are configuring an internet gateway and packets from another network will be forwarded over this network interface.
Token Ring Network Interface Configuration Screens Internet Protocol Configuration Class C: C nnn.nnn.nnn xxx Class B: B nnn.nnn xxx.xxx Class A: A nnn xxx.xxx.xxx where nnn is a value ranging from 000 to 255, representing eight bits of the network portion of an address and xxx is a value ranging from 000 to 255, representing the node portion of an address.
Token Ring Network Interface Configuration Screens Address Resolution Protocol (ARP) Configuration Address Resolution Protocol (ARP) Configuration The Address Resolution Protocol (ARP) Configuration screen (#111) in Figure 8-6 is displayed when you press the [Go To ARP] function key at the Protocol Configuration screen (Figure 8-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.
Token Ring Network Interface Configuration Screens Address Resolution Protocol (ARP) Configuration Fields Retransmission maximum This is the maximum number of times that an ARP request packet will be retransmitted. If an ARP reply packet for this request is not received after this number of retransmissions, the attempted address resolution is considered to have failed. This value is bound closely to the retransmission timeout value.
Token Ring Network Interface Configuration Screens Token Ring Network Interface Links Token Ring Network Interface Links The Token Ring Network Interface Links screen (#90) in Figure 8-7 is displayed when you press the [Go To LINK] function key at the Token Ring Network Interface Configuration screen (Figure 8-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.LINK in the command window of any screen and press the [Enter] key, where NIname is a configured token ring NI.
Token Ring Network Interface Configuration Screens Token Ring Network Interface Links This screen associates the link data with the token ring network interface data. The link name is used by the network transport when establishing connections. The link name can contain as many as eight alphanumeric characters, and the first character must be alphabetic. To change an existing link name, enter the new name in the Link name field and press the [Save Data] function key.
Token Ring Network Interface Configuration Screens Neighbor Gateways Neighbor Gateways The Neighbor Gateways screen (#152) in Figure 8-8 is displayed when you press the [Go To INTERNET] function key at the Token Ring Network Interface Configuration screen (Figure 8-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.INTERNET in the command window of any screen and press the [Enter] key, where NIname is a configured token ring NI.
Token Ring Network Interface Configuration Screens Neighbor Gateways • To change the gateway name of an existing gateway, specify the gateway name and a new name; then press the [Rename] function key. The previously configured name is replaced, and the screen displays the new name in a display field under the label Configured Gateways. • To delete an existing gateway, specify the gateway name; then press the [Delete] function key. Press the [Delete] function key again to confirm the deletion.
Token Ring Network Interface Configuration Screens Neighbor Gateway Reachable Networks Neighbor Gateway Reachable Networks The Neighbor Gateway Reachable Networks screen (#158) in Figure 8-9 is displayed when you select a gateway name at the Neighbor Gateways screen (Figure 8-8) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @NETXPORT.NI.NIname.INTERNET.
Token Ring Network Interface Configuration Screens Neighbor Gateway Reachable Networks NOTE The information configured in this screen can extend to more than one page, if necessary, to allow configuration of up to 2550 reachable networks per link (255 pages and 10 reachable nets per page). Press [Next Page] to proceed to a new page. Press [Prev Page] to display a prior page.
Token Ring Network Interface Configuration Screens Neighbor Gateway Reachable Networks where nnn is a value ranging from 000 to 255, representing eight bits of the network portion of an address and xxx is a value ranging from 000 to 255, representing the node portion of the address. Note that network and node values of all zeros or all ones are not allowed. These are special values.
Token Ring Network Interface Configuration Screens Neighbor Gateway Reachable Networks To allow this node to communicate with other subnets on the local network, enter the decimal equivalent of the subnet in the IP network address field and enter the subnet mask in the IP mask field. If you do not enter a subnet mask, one of the following occurs: • If the IP address is the same as the node you are configuring, the IP mask configured in the IP Protocol Configuration screen (Figure 8-5) is used.
Token Ring Network Interface Configuration Screens Neighbor Gateway Reachable Networks count value is configured for multiple gateways, the network transport will choose internally from among the routes with equal hop counts. Range: 1–32767 NOTE To delete a reachable network entry, fill the field to be deleted with blanks and press the [Save Data] function key.
9 FDDI Network Interface Configuration Screens The screens in this chapter are those you would see when configuring a FDDI network. The FDDI Network Interface Configuration branch of NMMGR begins with a screen called the Network Interface Configuration screen. Figure 9-1 shows the screen flow for configuring the FDDI screens. Screens unique to FDDI are indicated by bold boxed screens. [FUNCTION] denotes the function key used at a screen to invoke the next screen on the screen flow.
FDDI Network Interface Configuration Screens Network Interface Configuration Network Interface Configuration The Network Interface Configuration screen (#112) in Figure 9-2 is displayed when you press the [Go To NI] function key at the Network Transport Configuration Selection screen (Figure 4-2). It is also displayed when you type the path name: @NETXPORT.NI in the Command window of any screen and press the [Enter] key.
FDDI Network Interface Configuration Screens Network Interface Configuration • To change the name of an existing NI configuration, specify the NI name and a new name; then press the [Rename] function key. The previously configured NI name is replaced and the screen displays the new name in a display field under the label Configured Network Interfaces. • To delete an existing NI configuration, specify the NI name; then press the [Delete] function key.
FDDI Network Interface Configuration Screens FDDI Network Interface Configuration FDDI Network Interface Configuration The FDDI Network Interface Configuration screen (#100) in Figure 9-3 is displayed when you select an NI name and the NI type FDDI at the Network Interface Configuration screen (Figure 9-2) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @NETXPORT.NI.
FDDI Network Interface Configuration Screens FDDI Network Interface Configuration Fields Network segment size This field specifies the largest packet that will be sent by the FDDI device. The only reason for entering a value smaller than 4032 is to make better use of memory for those systems where it is known that upper layer services will always send shorter messages.
FDDI Network Interface Configuration Screens Protocol Configuration Protocol Configuration The Protocol Configuration screen (#113) in Figure 9-4 is displayed when you press the [Go To Protocol] function key at the FDDI Network Interface Configuration screen (Figure 9-3). This screen is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL in the Command window of any screen and press the [Enter] key, where NIname is a configured FDDI NI.
FDDI Network Interface Configuration Screens Internet Protocol Configuration Internet Protocol Configuration The IP Protocol Configuration screen (#156) in Figure 9-5 is displayed when you press the [Go To IP] function key at the Protocol Configuration screen (Figure 9-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.IP in the command window of any screen and press the [Enter] key, where NIname is a configured FDDI NI.
FDDI Network Interface Configuration Screens Internet Protocol Configuration Fields Store & forward buffers This field allocates buffers to support store-and-forward over the network interface being configured. You do not need to allocate store-and-forward buffers if you are configuring a non-gateway node on this network. You must allocate store and forward buffers if you are configuring an internet gateway and packets from another network will be forwarded over this network interface.
FDDI Network Interface Configuration Screens Internet Protocol Configuration Class C: C nnn.nnn.nnn xxx Class B: B nnn.nnn xxx.xxx Class A: A nnn xxx.xxx.xxx where nnn is a value ranging from 000 to 255, representing eight bits of the network portion of an address and xxx is a value ranging from 000 to 255, representing the node portion of an address.
FDDI Network Interface Configuration Screens Address Resolution Protocol (ARP) Configuration Address Resolution Protocol (ARP) Configuration The Address Resolution Protocol (ARP) Configuration screen (#111) in Figure 9-6 is displayed when you press the [Go To ARP] function key at the Protocol Configuration screen (Figure 9-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.
FDDI Network Interface Configuration Screens Address Resolution Protocol (ARP) Configuration Fields Retransmission maximum This is the maximum number of times that an ARP request packet will be retransmitted. If an ARP reply packet for this request is not received after this number of retransmissions, the attempted address resolution is considered to have failed. This value is bound closely to the retransmission timeout value.
FDDI Network Interface Configuration Screens FDDI Network Interface Links FDDI Network Interface Links The FDDI Network Interface Links screen (#200) in Figure 9-7 is displayed when you press the [Go To LINK] function key at the FDDI Network Interface Configuration screen (Figure 9-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.LINK in the command window of any screen and press the [Enter] key, where NIname is a configured FDDI NI.
FDDI Network Interface Configuration Screens FDDI Network Interface Links This screen associates the link data with the FDDI network interface data. The link name is used by the network transport when establishing connections. The link name can contain as many as eight alphanumeric characters, and the first character must be alphabetic. To change an existing link name, enter the new name in the Link name field and press the [Save Data] function key.
FDDI Network Interface Configuration Screens Neighbor Gateways Neighbor Gateways The Neighbor Gateways screen (#152) in Figure 9-8 is displayed when you press the [Go To INTERNET] function key at the FDDI Network Interface Configuration screen (Figure 9-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.INTERNET in the command window of any screen and press the [Enter] key, where NIname is a configured FDDI NI.
FDDI Network Interface Configuration Screens Neighbor Gateways • To change the gateway name of an existing gateway, specify the gateway name and a new name; then press the [Rename] function key. The previously configured name is replaced, and the screen displays the new name in a display field under the label Configured Gateways. • To delete an existing gateway, specify the gateway name; then press the [Delete] function key. Press the [Delete] function key again to confirm the deletion.
FDDI Network Interface Configuration Screens Neighbor Gateway Reachable Networks Neighbor Gateway Reachable Networks The Neighbor Gateway Reachable Networks screen (#158) in Figure 9-9 is displayed when you select a gateway name at the Neighbor Gateways screen (Figure 9-8) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @NETXPORT.NI.NIname.INTERNET.
FDDI Network Interface Configuration Screens Neighbor Gateway Reachable Networks NOTE The information configured in this screen can extend to more than one page, if necessary, to allow configuration of up to 2550 reachable networks per link (255 pages and 10 reachable nets per page). Press [Next Page] to proceed to a new page. Press [Prev Page] to display a prior page.
FDDI Network Interface Configuration Screens Neighbor Gateway Reachable Networks where nnn is a value ranging from 000 to 255, representing eight bits of the network portion of an address and xxx is a value ranging from 000 to 255, representing the node portion of the address. Note that network and node values of all zeros or all ones are not allowed. These are special values.
FDDI Network Interface Configuration Screens Neighbor Gateway Reachable Networks To allow this node to communicate with other subnets on the local network, enter the decimal equivalent of the subnet in the IP network address field and enter the subnet mask in the IP mask field. If you do not enter a subnet mask, one of the following occurs: • If the IP address is the same as the node you are configuring, the IP mask configured in the IP Protocol Configuration screen (Figure 9-5) is used.
FDDI Network Interface Configuration Screens Neighbor Gateway Reachable Networks count value is configured for multiple gateways, the network transport will choose internally from among the routes with equal hop counts. Range: 1–32767 NOTE To delete a reachable network entry, fill the field to be deleted with blanks and press the [Save Data] function key.
10 100VG-AnyLAN Network Interface Configuration Screens The screens in this chapter are those you would see when configuring an 100VG-AnyLAN network. Figure 10-1 shows the screen flow for configuring the 100VG-AnyLAN screens. Screens unique to the 100VG-AnyLAN network are indicated by bold boxed screens. [FUNCTION] denotes the function key used at a screen to invoke the next screen on the screen flow.
100VG-AnyLAN Network Interface Configuration Screens Network Interface Configuration Network Interface Configuration The Network Interface Configuration screen (#112) in Figure 10-2 is displayed when you press the [Go To NI] function key at the Network Transport Configuration Selection screen (Figure 4-2). It is also displayed when you type the path name: @NETXPORT.NI in the command window of any screen and press the [Enter] key.
100VG-AnyLAN Network Interface Configuration Screens Network Interface Configuration • To change the name of an existing NI configuration, specify the NI name and a new name; then press the [Rename] function key. The previously configured NI name is replaced and the screen displays the new name in a display field under the label Configured Network Interfaces. • To delete an existing NI configuration, specify the NI name; then press the [Delete] function key.
100VG-AnyLAN Network Interface Configuration Screens 100VG-AnyLAN Network Interface Configuration 100VG-AnyLAN Network Interface Configuration The 100VG-AnyLAN Network Interface Configuration screen (#288) in Figure 10-3 is displayed when you select an NI name and the NI type VG100LAN at the Network Interface Configuration screen (Figure 10-2) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @NETXPORT.NI.
100VG-AnyLAN Network Interface Configuration Screens 100VG-AnyLAN Network Interface Configuration Fields Network segment size (bytes) (HP modifiable.) This field specifies the largest packet (including all data, protocol headers, and link level headers) that will be sent by the 100VG-AnyLAN device. The only reason for entering a value smaller than 1514 is to make better use of memory for those systems where it is known that upper layer services will always send shorter messages.
100VG-AnyLAN Network Interface Configuration Screens 100VG-AnyLAN Network Interface Configuration Load network directory mapping? (Y/N) If you have non-HP nodes on the network(nodes that do not support either ARP or probe protocols,) you must enter these nodes into the network directory and set load network directory mapping to Y. HP recommends the default unless non-HP nodes are on the network and the network directory has been configured.
100VG-AnyLAN Network Interface Configuration Screens Protocol Configuration Protocol Configuration The Protocol Configuration screen (#113) in Figure 10-4 is displayed when you press the [Go To PROTOCOL] function key at the VG100LAN Network Interface Configuration screen (Figure 10-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL in the command window of any screen and press the [Enter] key, where NIname is a configured VG100LAN NI.
100VG-AnyLAN Network Interface Configuration Screens Internet Protocol Configuration Internet Protocol Configuration The IP Protocol Configuration screen (#156) in Figure 10-5 is displayed when you press the [Go To IP] function key at the Protocol Configuration screen (Figure 10-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.IP in the command window of any screen and press the [Enter] key, where NIname is a configured VG100LAN NI.
100VG-AnyLAN Network Interface Configuration Screens Internet Protocol Configuration Fields Store & forward buffers This field allocates buffers to support store-and-forward over the network interface being configured. You must allocate store and forward buffers if you are configuring an internet gateway and packets from another network will be forwarded over this network interface. You can modify the number of store-and-forward buffers to allow performance tuning for different network types.
100VG-AnyLAN Network Interface Configuration Screens Internet Protocol Configuration Class B: B nnn.nnn xxx.xxx Class A: A nnn xxx.xxx.xxx where nnn is a value ranging from 000 to 255, representing eight bits of the network portion of an address and where xxx is a value ranging from 000 to 255, representing the node portion of the address.
100VG-AnyLAN Network Interface Configuration Screens Probe Protocol Configuration Probe Protocol Configuration The Probe Protocol Configuration screen (#92) in Figure 10-6 is displayed when you press the [Go To PROBE] function at the Protocol Configuration screen (Figure 10-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.PROBE in the command window of any screen and press the [Enter] key, where NIname is a configured VG100LAN NI.
100VG-AnyLAN Network Interface Configuration Screens Probe Protocol Configuration Fields Proxy enabled (Y/N) Proxy nodes exist on networks to provide node name and address mapping facilities for nodes that do not have local network directories. Proxy requests are multicast on the network to request information about a third-party node from a proxy node. Y means this node may be a proxy server and to answer all proxy requests on the network. N means this node will ignore all proxy requests on the network.
100VG-AnyLAN Network Interface Configuration Screens Probe Protocol Configuration Proxy requests retransmission timeout (seconds) The time interval in seconds that the probe protocol will wait for a reply before attempting to retransmit a proxy request. The value should be set sufficiently large to avoid retransmissions in a temporarily overloaded environment, yet small enough to get a timely failure report when failure is inevitable.
100VG-AnyLAN Network Interface Configuration Screens Address Resolution Protocol (ARP) Configuration Address Resolution Protocol (ARP) Configuration The Address Resolution Protocol (ARP) Configuration screen (#111) in Figure 10-7 is displayed when you press the [Go To ARP] function key at the Protocol configuration screen (Figure 10-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.
100VG-AnyLAN Network Interface Configuration Screens Address Resolution Protocol (ARP) Configuration Fields Retransmission maximum This is the maximum number of times that an ARP request packet will be retransmitted. If an ARP reply packet for this request is not received after this number of retransmissions, the attempted address resolution is considered to have failed. This value is bound closely to the retransmission timeout value as described.
100VG-AnyLAN Network Interface Configuration Screens 100VG-AnyLAN Network Interface Link 100VG-AnyLAN Network Interface Link The 100VG-AnyLAN Network Interface Link screen (#108) in Figure 10-8 is displayed when you press the [Go To LINK] function key at the VG100LAN Network Interface Configuration screen (Figure 10-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.LINK in the command window of any screen and press the [Enter] key, where NIname is a configured VG100LAN NI.
100VG-AnyLAN Network Interface Configuration Screens 100VG-AnyLAN Network Interface Link To change an existing link name, enter the new name in the Link name field and press the [Save Data] function key.
100VG-AnyLAN Network Interface Configuration Screens Neighbor Gateways Neighbor Gateways The Neighbor Gateways screen (#152) in Figure 10-9 is displayed when you press the [Go To INTERNET] function key at the VG100LAN Network Interface Configuration screen (Figure 10-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.INTERNET in the command window of any screen and press the [Enter] key, where NIname is a configured VG100LAN NI.
100VG-AnyLAN Network Interface Configuration Screens Neighbor Gateways • To change the gateway name of an existing gateway, specify the gateway name and a new name; then press the [Rename] function key. The previously configured name is replaced, and the screen displays the new name in a display field under the label Configured Gateways. • To delete an existing gateway, specify the gateway name; then press the [Delete] function key. Press the [Delete] function key again to confirm the deletion.
100VG-AnyLAN Network Interface Configuration Screens Neighbor Gateway Reachable Networks Neighbor Gateway Reachable Networks The Neighbor Gateway Reachable Networks screen (#158) in Figure 10-10 is displayed when you select a gateway name at the Neighbor Gateways screen (Figure 10-9) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @NETXPORT.NI.NIname.INTERNET.
100VG-AnyLAN Network Interface Configuration Screens Neighbor Gateway Reachable Networks NOTE The information configured in this screen can extend to more than one page, if necessary, to allow configuration of up to 2550 reachable networks per link (255 pages and 10 reachable nets per page). Press [Next Page] to proceed to a new page. Press [Prev Page] to display a prior page.
100VG-AnyLAN Network Interface Configuration Screens Neighbor Gateway Reachable Networks where nnn is a value ranging from 000 to 255, representing eight bits of the network portion of an address and xxx is a value ranging from 000 to 255, representing the node portion of the address. Note that network and node values of all zeros or all ones are not allowed. These are special values.
100VG-AnyLAN Network Interface Configuration Screens Neighbor Gateway Reachable Networks To allow this node to communicate with other subnets on the local network, enter the decimal equivalent of the subnet in the IP network address field and enter the subnet mask in the IP mask field. If you do not enter a subnet mask one of the following occurs: • If the IP address is the same as the node you are configuring, the IP mask entered in the IP Protocol Configuration screen (Figure 10-5) is used.
100VG-AnyLAN Network Interface Configuration Screens Neighbor Gateway Reachable Networks count value is configured for multiple gateways, the network transport will choose internally from among the routes with equal hop counts. Range: 1–32767 NOTE To delete a reachable network entry, fill the field to be deleted with blanks and press the [Save Data] function key.
11 100Base-T Network Interface Configuration Screens The screens in this chapter are those you would see when configuring an I100Base-T network. Figure 11-1 shows the screen flow for configuring the 100Base-T screens. Screens unique to the 100Base-T network are indicated by bold boxed screens. [FUNCTION] denotes the function key used at a screen to invoke the next screen on the screen flow.
100Base-T Network Interface Configuration Screens Network Interface Configuration Network Interface Configuration The Network Interface Configuration screen (#112) in Figure 11-2 is displayed when you press the [Go To NI] function key at the Network Transport Configuration Selection screen (Figure 4-2). It is also displayed when you type the path name: @NETXPORT.NI in the command window of any screen and press the [Enter] key.
100Base-T Network Interface Configuration Screens Network Interface Configuration • To change the name of an existing NI configuration, specify the NI name and a new name; then press the [Rename] function key. The previously configured NI name is replaced and the screen displays the new name in a display field under the label Configured Network Interfaces. • To delete an existing NI configuration, specify the NI name; then press the [Delete] function key.
100Base-T Network Interface Configuration Screens 100Base-T Network Interface Configuration 100Base-T Network Interface Configuration The 100Base-T Network Interface Configuration screen (#298) in Figure 11-3 is displayed when you select an NI name and the NI type BT100 at the Network Interface Configuration screen (Figure 11-2) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @NETXPORT.NI.
100Base-T Network Interface Configuration Screens 100Base-T Network Interface Configuration Fields Network segment size (bytes) (HP modifiable.) This field specifies the largest packet (including all data, protocol headers, and link level headers) that will be sent by the 100Base-T device. The only reason for entering a value smaller than 1514 is to make better use of memory for those systems where it is known that upper layer services will always send shorter messages.
100Base-T Network Interface Configuration Screens 100Base-T Network Interface Configuration Load network directory mapping? (Y/N) If you have non-HP nodes on the network (nodes that do not support either ARP or probe protocols,) you must enter these nodes into the network directory and set load network directory mapping to Y. HP recommends the default unless non-HP nodes are on the network and the network directory has been configured.
100Base-T Network Interface Configuration Screens Protocol Configuration Protocol Configuration The Protocol Configuration screen (#113) in Figure 11-4 is displayed when you press the [Go To PROTOCOL] function key at the BT100 Network Interface Configuration screen (Figure 11-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL in the command window of any screen and press the [Enter] key, where NIname is a configured BY100 NI.
100Base-T Network Interface Configuration Screens Internet Protocol Configuration Internet Protocol Configuration The IP Protocol Configuration screen (#156) in Figure 11-5 is displayed when you press the [Go To IP] function key at the Protocol Configuration screen (Figure 11-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.IP in the command window of any screen and press the [Enter] key, where NIname is a configured BT100 NI.
100Base-T Network Interface Configuration Screens Internet Protocol Configuration Fields Store & forward buffers This field allocates buffers to support store-and-forward over the network interface being configured. You must allocate store and forward buffers if you are configuring an internet gateway and packets from another network will be forwarded over this network interface. You can modify the number of store-and-forward buffers to allow performance tuning for different network types.
100Base-T Network Interface Configuration Screens Internet Protocol Configuration Addresses are made up of a network portion and a node portion. The supported classes of network addresses have the following forms: Class C: C nnn.nnn.nnn xxx Class B: B nnn.nnn xxx.xxx Class A: A nnn xxx.xxx.xxx where nnn is a value ranging from 000 to 255, representing eight bits of the network portion of an address and where xxx is a value ranging from 000 to 255, representing the node portion of the address.
100Base-T Network Interface Configuration Screens Probe Protocol Configuration Probe Protocol Configuration The Probe Protocol Configuration screen (#92) in Figure 11-6 is displayed when you press the [Go To PROBE] function at the Protocol Configuration screen (Figure 11-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.PROBE in the command window of any screen and press the [Enter] key, where NIname is a configured BT100 NI.
100Base-T Network Interface Configuration Screens Probe Protocol Configuration Fields Proxy enabled (Y/N) Proxy nodes exist on networks to provide node name and address mapping facilities for nodes that do not have local network directories. Proxy requests are multicast on the network to request information about a third-party node from a proxy node. Y means this node may be a proxy server and to answer all proxy requests on the network. N means this node will ignore all proxy requests on the network.
100Base-T Network Interface Configuration Screens Probe Protocol Configuration Proxy requests retransmission timeout (seconds) The time interval in seconds that the probe protocol will wait for a reply before attempting to retransmit a proxy request. The value should be set sufficiently large to avoid retransmissions in a temporarily overloaded environment, yet small enough to get a timely failure report when failure is inevitable.
100Base-T Network Interface Configuration Screens Address Resolution Protocol (ARP) Configuration Address Resolution Protocol (ARP) Configuration The Address Resolution Protocol (ARP) Configuration screen (#111) in Figure 11-7 is displayed when you press the [Go To ARP] function key at the Protocol configuration screen (Figure 11-4). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL.
100Base-T Network Interface Configuration Screens Address Resolution Protocol (ARP) Configuration Fields Retransmission maximum This is the maximum number of times that an ARP request packet will be retransmitted. If an ARP reply packet for this request is not received after this number of retransmissions, the attempted address resolution is considered to have failed. This value is bound closely to the retransmission timeout value as described.
100Base-T Network Interface Configuration Screens 100Base-T Network Interface Link 100Base-T Network Interface Link The 100Base-T Network Interface Link screen (#109) in Figure 11-8 is displayed when you press the [Go To LINK] function key at the BT100 Network Interface Configuration screen (Figure 11-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.LINK in the command window of any screen and press the [Enter] key, where NIname is a configured BT100 NI.
100Base-T Network Interface Configuration Screens 100Base-T Network Interface Link To change an existing link name, enter the new name in the Link name field and press the [Save Data] function key.
100Base-T Network Interface Configuration Screens Neighbor Gateways Neighbor Gateways The Neighbor Gateways screen (#152) in Figure 11-9 is displayed when you press the [Go To INTERNET] function key at the BT100 Network Interface Configuration screen (Figure 11-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.INTERNET in the command window of any screen and press the [Enter] key, where NIname is a configured BT100 NI.
100Base-T Network Interface Configuration Screens Neighbor Gateways • To change the gateway name of an existing gateway, specify the gateway name and a new name; then press the [Rename] function key. The previously configured name is replaced, and the screen displays the new name in a display field under the label Configured Gateways. • To delete an existing gateway, specify the gateway name; then press the [Delete] function key. Press the [Delete] function key again to confirm the deletion.
100Base-T Network Interface Configuration Screens Neighbor Gateway Reachable Networks Neighbor Gateway Reachable Networks The Neighbor Gateway Reachable Networks screen (#158) in Figure 11-10 is displayed when you select a gateway name at the Neighbor Gateways screen (Figure 11-9) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @NETXPORT.NI.NIname.INTERNET.
100Base-T Network Interface Configuration Screens Neighbor Gateway Reachable Networks NOTE The information configured in this screen can extend to more than one page, if necessary, to allow configuration of up to 2550 reachable networks per link (255 pages and 10 reachable nets per page). Press [Next Page] to proceed to a new page. Press [Prev Page] to display a prior page.
100Base-T Network Interface Configuration Screens Neighbor Gateway Reachable Networks where nnn is a value ranging from 000 to 255, representing eight bits of the network portion of an address and xxx is a value ranging from 000 to 255, representing the node portion of the address. Note that network and node values of all zeros or all ones are not allowed. These are special values.
100Base-T Network Interface Configuration Screens Neighbor Gateway Reachable Networks To allow this node to communicate with other subnets on the local network, enter the decimal equivalent of the subnet in the IP network address field and enter the subnet mask in the IP mask field. If you do not enter a subnet mask one of the following occurs: • If the IP address is the same as the node you are configuring, the IP mask entered in the IP Protocol Configuration screen (Figure 11-5) is used.
100Base-T Network Interface Configuration Screens Neighbor Gateway Reachable Networks count value is configured for multiple gateways, the network transport will choose internally from among the routes with equal hop counts. Range: 1–32767 NOTE To delete a reachable network entry, fill the field to be deleted with blanks and press the [Save Data] function key.
12 Gateway Half Network Interface Configuration Screens The screens in this chapter are those you would see when configuring a Gateway Half network. The Gateway Half Network Interface Configuration branch of NMMGR begins with a screen called the Network Interface Configuration screen. Figure 12-1 shows the screen flow for configuring the Gateway Half screens. Screens unique to Gateway Half are indicated by bold boxed screens.
Gateway Half Network Interface Configuration Screens Network Interface Configuration Network Interface Configuration The Network Interface Configuration screen (#112) in Figure 12-2 is displayed when you press the [Go To NI] function key at the Network Transport Configuration screen (Figure 4-2). It is also displayed when you type the path name: @NETXPORT.NI in the Command window of any screen and press the [Enter] key.
Gateway Half Network Interface Configuration Screens Network Interface Configuration • To change the name of an existing gateway NI, specify the NI name and a new name and press the [Rename] function key. The old NI name is replaced and the screen displays the new name in a display field under the label Configured Network Interfaces. • To delete an existing gateway NI, specify the NI name and press the [Delete] function key. Press the [Delete] function key again to confirm the deletion.
Gateway Half Network Interface Configuration Screens Gateway Half Network Interface Configuration Gateway Half Network Interface Configuration The gateway half network interface (NI) interfaces the upper layers of the transport protocol to the data link layer. The Gateway Half Network Interface Configuration screen (#98) shown in Figure 12-3 supplies the information required for that interface.
Gateway Half Network Interface Configuration Screens Gateway Half Network Interface Configuration Fields Idle device timeout value (seconds) If the idle device timer has been enabled (see related screens), and if there is no activity during this time interval, the device is considered to be inactive and will be closed. A timeout value of zero disables the idle device timer for the link on this network interface. The idle device timer is useful for shutting down dial links that have become idle.
Gateway Half Network Interface Configuration Screens Protocol Configuration Protocol Configuration The Protocol Configuration screen (#113) in Figure 12-4 is displayed when you press the [Go To PROTOCOL] function key at the Gateway Half Network Interface Configuration screen (Figure 12-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.PROTOCOL in the command window of any screen and press the [Enter] key, where NIname is the configured gateway half NI.
Gateway Half Network Interface Configuration Screens Internet Protocol Configuration Internet Protocol Configuration Internet Protocol information must be supplied for each configured NI. The key field in the IP Protocol Configuration screen (#156) shown in Figure 12-5 is the IP internet address, which is used in IP routing and datagram delivery algorithms. The IP subnet mask field allows you to identify an IP subnet mask for the NI named in the path.
Gateway Half Network Interface Configuration Screens Internet Protocol Configuration Fields Store & forward buffers This field allocates buffers to support store-and-forward over the network interface being configured. You do not need to allocate store-and-forward buffers if you are configuring a non-gateway node on this network. You must allocate store and forward buffers if you are configuring an internet gateway and packets from another network will be forwarded over this network interface.
Gateway Half Network Interface Configuration Screens Internet Protocol Configuration Addresses are made up of a network portion and a node portion. The supported classes of network addresses have the following forms: Class C: C nnn.nnn.nnn xxx Class B: B nnn.nnn xxx.xxx Class A: A nnn xxx.xxx.xxx where nnn is a value ranging from 000 to 255, representing eight bit of the network portion of an address and xxx is a value ranging from 000 to 255, representing the node portion of an address.
Gateway Half Network Interface Configuration Screens Dial ID Protocol Configuration Dial ID Protocol Configuration Along with other protocol information, the Dial ID Protocol Configuration screen (#103) provides a means of verifying that the remote node is indeed the intended remote node and that both local and remote nodes have proper security access. This screen, shown in Figure 12-6, is displayed when you press the [Go To DIAL] function key at the Protocol Configuration screen (Figure 12-4).
Gateway Half Network Interface Configuration Screens Dial ID Protocol Configuration Fields Maximum retransmissions per packet (HP modifiable.) This is the maximum number of times that a dial ID protocol packet will be retransmitted. If the expected response to a packet is not received after this number of retransmissions, the link device it is using is closed. This value is related to the retransmission timeout.
Gateway Half Network Interface Configuration Screens Dial ID Protocol Configuration When a dial connection is initiated by a remote node, the security string sent by the remote node is checked against the list of valid security strings configured for the dial ID protocol for this network interface. (See Related screens). When a dial connection is initiated by this node, the local dial ID protocol sends the destination’s security string (as configured on this node) to that node.
Gateway Half Network Interface Configuration Screens Security String(s) Configuration Security String(s) Configuration The Security String(s) Configuration screen (#110) supplies the security string required by the dial ID protocol for the node you are configuring. Note that the security string is not required if dial ID protocol is not enabled.
Gateway Half Network Interface Configuration Screens Security String(s) Configuration Fields Configured security strings Enter the security string that remote nodes must use to gain dial link access to the node you are configuring. The string can contain up to eight alphanumeric characters, left justified, with no embedded blanks. Default value: HP Related screen: • NETXPORT.NI.NIname.LINK.linkname The dial ID protocol is enabled/disabled on this screen.
Gateway Half Network Interface Configuration Screens Gateway Half Network Interface Link Gateway Half Network Interface Link The Gateway Half Network Interface Link screen (#117) in Figure 12-8 is displayed when you press the [Go To LINK] function key at the Gateway Half Network Interface Configuration screen (Figure 12-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.
Gateway Half Network Interface Configuration Screens Gateway Half Network Interface Link • To change the link name of an existing NI link configuration, specify the link name and a new name, then press the [Rename] function key. The previously configured name is replaced, and the screen displays the new name in a display field under the label Configured Network Links. • To delete an existing link configuration, specify the link name, then press the [Delete] function key.
Gateway Half Network Interface Configuration Screens Direct Connect Link Configuration Direct Connect Link Configuration The Direct Connect Link Configuration screen (#105) supplies the information required to interface a gateway-half NI to a non-dial link (that is, a leased line or a hardwired connection).
Gateway Half Network Interface Configuration Screens Direct Connect Link Configuration Fields Start device on network initialization (Y/N) A Y (Yes) value means that the device is to be started when a NETCONTROL START command is issued for the network interface being configured. An N (No) means that a NETCONTROL ADDLINK command must be used to start the device.
Gateway Half Network Interface Configuration Screens Gateway Half Dial Link Configuration Gateway Half Dial Link Configuration Dial link configuration provides the information necessary to interface the gateway-half NI to a dial link. The Gateway Half Dial Link Configuration screen (#109), shown in Figure 12-10, is displayed when you select an NI link name and link type DD at the Gateway Half Network Interface Link screen (Figure 12-8) and press the [Add] or [Modify] function key.
Gateway Half Network Interface Configuration Screens Gateway Half Dial Link Configuration Fields Enable dial ID protocol (Y/N) A Y (Yes) value activates the dial ID protocol for a dial link. The dial ID protocol verifies the identity of a remote node and ensures that both local and remote nodes have the required security access. The dial ID protocol should be disabled (by entering N) only to connect a dial link to a remote node that does not support the dial ID protocol (that is, a non-HP node).
Gateway Half Network Interface Configuration Screens Gateway Half Dial Link Configuration Related screens: • NETXPORT.NI.NIname.LINK Dial ID protocol is enabled/disabled here • NETXPORT.NI.NIname.PROTOCOL.DIAL Security validation is enabled/disabled here. Default value: HP Start device on gateway half initialization (Y/N) A Y (Yes) value means that the device is to be started when a NETCONTROL START command is issued for this network interface.
Gateway Half Network Interface Configuration Screens Neighbor Gateways Neighbor Gateways The Neighbor Gateways screen (#152) in Figure 12-11 is displayed when you press the [Go To INTERNET] function key at the Gateway Half Network Interface Configuration screen (Figure 12-3). It is also displayed when you type the path name: @NETXPORT.NI.NIname.INTERNET in the command window of any screen and press the [Enter] key, where the NIname is the configured gateway-half NI name.
Gateway Half Network Interface Configuration Screens Neighbor Gateways • To change the gateway name of an existing gateway configuration, specify the gateway name and a new name; then press the [Rename] function key. The previously configured name is replaced, and the screen displays the new name in a display field under the label Configured Gateways. • To delete an existing gateway configuration specify the gateway name, then press the [Delete] function key.
Gateway Half Network Interface Configuration Screens Neighbor Gateway Reachable Networks Neighbor Gateway Reachable Networks The Neighbor Gateway Reachable Networks screen (#158) is used to enter internet routing information. It supplies the internet address of a neighbor internet gateway, lists addresses of remote networks which are reachable through that gateway, and gives the distances to those remote networks. For the gateway half NI there is only one neighbor gateway: the partner gateway half.
Gateway Half Network Interface Configuration Screens Neighbor Gateway Reachable Networks NOTE The information configured in this screen can extend to more than 1 page, if necessary, to allow configuration of up to 2550 reachable networks per link (255 pages and 10 reachable nets per page). Press [Next Page] to proceed to a new page. Press [Prev Page] to display a prior page.
Gateway Half Network Interface Configuration Screens Neighbor Gateway Reachable Networks The leftmost group of nnn has the following ranges for each address class: Class C: 192–223 Class B: 128–191 Class A: 001–126 Default value: None Related screen: • NETXPORT.NI.NIname.PROTOCOL.IP The network address (network portion of the IP address) configured in this screen must match the neighbor gateway IP internet address configured in the current screen.
Gateway Half Network Interface Configuration Screens Neighbor Gateway Reachable Networks • If the IP address is the same as the node you are configuring, the IP Mask configured in the IP Protocol Configuration screen (Figure 6-4) is used. • If the IP address is different from the node you are configuring, NMMGR assumes no subnets. Related screen: • NETXPORT.NI.NIname.INTERNET This path name corresponds to the Neighbor Gateways screen.
Gateway Half Network Interface Configuration Screens Neighbor Gateway Reachable Networks Range: 1–32767 NOTE To delete a reachable network entry, fill the field to be deleted with blanks and press the [Save Data] function key.
13 Loopback Network Interface Configuration Screens The screens in this chapter are those you would see when configuring a Loopback network. The Loopback Network Interface Configuration branch of NMMGR begins with a screen called the Loopback Network Interface Configuration screen. Figure 13-1 shows the screen flow for configuring the Loopback screens. Screens unique to Loopback are indicated by bold boxed screens.
Loopback Network Interface Configuration Screens Network Interface Configuration Network Interface Configuration The Network Interface Configuration screen (#112) in Figure 13-2 is displayed when you press the [Go To NI] function key at the Network Transport Configuration screen (Figure 4-2). It is also displayed when you type the path name: @NETXPORT.NI in the Command window and press the [Enter] key.
Loopback Network Interface Configuration Screens Network Interface Configuration Fields Network interface name (Required.) This is the name of the network interface you want to configure or modify. The name can contain as many as eight alphanumeric characters. The first character must be alphabetic. Type (GATEHALF, LAN, LOOP, ROUTER, X.25, SNA, TOKEN, FDDI, VG100LAN, or BT100) This field is required if you are adding a network interface. If you are configuring a loopback NI, select LOOP.
Loopback Network Interface Configuration Screens Loopback Network Interface Configuration Loopback Network Interface Configuration The Loopback Network Interface Configuration screen (#97) in Figure 13-3 is displayed when you select an NI name and the NI type LOOP at the Network Interface Configuration screen (Figure 13-2) and press the [Add] or [Modify] function key. It is also displayed when you type the path name: @NETXPORT.NI.
Loopback Network Interface Configuration Screens Loopback Network Interface Configuration Fields Network segment size (bytes) (HP modifiable.) This is the size of the physical buffer for the loopback network interface. No fragmenting or fragment assembly is performed on the loopback NI. There is no limitation that only single physical buffers (not chained buffers, for example) can be passed across the I/O interface to the board, because outbound data is turned around at the NI layer.
Loopback Network Interface Configuration Screens Loopback Network Interface Configuration 286 Chapter 13
14 Logging Configuration Screens The screens in this chapter are those you would see when configuring logging. The Logging Configuration branch of NMMGR begins with a screen called the Netxport Log Configuration screen. Figure 14-1 shows the screen flow for configuring the logging screens. Screens unique to logging are indicated by bold boxed screens. [FUNCTION] denotes the function key used at a screen to invoke the next screen on the screen flow.
Logging Configuration Screens Logging is configured for the purpose of recording events such as errors and console commands. You configure logging for each of the network subsystems and links. Each subsystem includes different classes of events (such as internal errors). You can record logging to a disk file for later analysis, to the system console so that the system operator receives the messages, or both. You can also display logging events at individual users’ list devices.
Logging Configuration Screens Activating Logging Activating Logging NetIPC logging is automatically activated at system startup. Network Services logging is activated when the Network Services are initiated (i.e., when the NSCONTROL START command is issued). Link manager logging and network transport logging are activated when you initiate the network transport (NETCONTROL START).
Logging Configuration Screens NETXPORT Log Configuration NETXPORT Log Configuration The Netxport Log Configuration (1) screen (#61) in Figure 14-2 is displayed when you press the function key for [Go To Logging] at the Unguided Configuration screen (#80) shown in Figure 2-6. Figure 14-2 Netxport Log Configuration (1) Screen Use the fields and the function keys of the screen to configure logging for the subsystems represented on the screen.
Logging Configuration Screens NETXPORT Log Configuration Fields Console logging Disk logging The value entered in this field specifies whether or not logging events for the subsystem and class listed beside the field will be logged to the system console. A value must be entered for each subsystem and class listed. A Y (yes) enables logging to the console, N (no) disables logging to the console.
Logging Configuration Screens NETXPORT Log Configuration Use the fields and the function keys of the screen to configure logging for the subsystems represented on the screen. If the subsystem for which you want to enable logging does not appear on this screen, press the [Next Screen] function key to go to the next Netxport Log Configuration screen. There are a total of six logging configuration screens. Enable or disable logging classes (or accept HP-recommended defaults).
Logging Configuration Screens NETXPORT Log Configuration Figure 14-4 Netxport Log Configuration (3) Screen Use the fields and the function keys of the screen to configure logging for the subsystems represented on the screen. If the subsystem for which you want to enable logging does not appear on this screen, press the [Next Screen] function key to go to the next Netxport Log Configuration screen. There are a total of six logging configuration screens.
Logging Configuration Screens NETXPORT Log Configuration The file name that NMS uses is NMLGnnnn.PUB.SYS, where nnnn is a number from 0000 to 9999. All logging classes in all subsystems are logged to this file. At each system startup, or when a file is full, NMS creates a new NMLGnnnn.PUB.SYS file, naming each successive logging file by incrementing nnnn. When NMLG9999.PUB.SYS is full, NMS names the next logging file NMLG0000.PUB.SYS.
Logging Configuration Screens NETXPORT Log Configuration Fields Console logging Disk logging The value entered in this field specifies whether or not logging events for the subsystem and class listed beside the field will be logged to the system console. A value must be entered for each subsystem and class listed. A Y (yes) enables logging to the console, N (no) disables logging to the console.
Logging Configuration Screens NETXPORT Log Configuration Use the fields and the function keys of the screen to configure logging for the subsystems represented on the screen. If the subsystem for which you want to enable logging does not appear on this screen, press the [Next Screen] function key to go to the next Netxport Log Configuration screen. There are a total of six logging configuration screens. Enable or disable logging classes (or accept HP-recommended defaults).
Logging Configuration Screens NETXPORT Log Configuration Figure 14-7 Netxport Log Configuration (6) Screen Use the fields and the function keys of the screen to configure logging for the subsystems represented on the screen. If the subsystem for which you want to enable logging does not appear on this screen, press the [Next Screen] function key to go to the next Netxport Log Configuration screen. There are a total of six logging configuration screens.
Logging Configuration Screens NETXPORT Log Configuration entered for each subsystem and class listed. A Y (yes) enables logging to a file, N (no) disables logging to a file. The file name that NMS uses is NMLGnnnn.PUB.SYS, where nnnn is a number from 0000 to 9999. All logging classes in all subsystems are logged to this file. At each system startup, or when a file is full, NMS creates a new NMLGnnnn.PUB.SYS file, naming each successive logging file by incrementing nnnn. When NMLG9999.PUB.
Logging Configuration Screens Enabling Users for Individual Logging Classes Enabling Users for Individual Logging Classes The logging screens described in this chapter make it possible to completely configure logging for all subsystems by traversing only six screens. However, using these screens, it is not possible to configure logging so that messages generated by specific logging classes are sent to an individual user’s list device.
Logging Configuration Screens Enabling Users for Individual Logging Classes Step 2. To enable console logging for this subsystem logging class, enter a Y in the enable console logging field. To disable console logging, enter an N. Be aware that changing the value in this field will override the previous setting for the logging class you are configuring. Step 3. To enable disk logging for this subsystem logging class, enter a Y in the enable disk logging field. To disable console logging, enter an N.
15 Network Directory The screens in this chapter are those you would see when configuring the Network Directory. The Network Directory branch of NMMGR begins with a screen called the Network Directory Main screen. Figure 15-1 shows the screen flow for configuring the Directory screens. Screens unique to the Network Directory are indicated by bold boxed screens. [FUNCTION] denotes the function key used at a screen to invoke the next screen on the screen flow.
Network Directory You use NMMGR to perform the following network directory functions: • Add, modify, and delete entries in the directory. • Review and inspect directory information. • Merge a remote directory with a directory on the local node. • Automatically update directories on a group of remote nodes by using a background stream job, controlled from a central administrative node. Central administrative nodes are described in more detail later in this chapter.
Network Directory What a Network Directory Provides What a Network Directory Provides A network directory is used by the node for internetwork routing. Each entry in a network directory consists of a node name associated with an IP address, the network type, and an additional address, if necessary. The network directory uses the internet protocol (IP) address to transfer data between networks. When a Network Directory is Required A network directory must be configured on nodes with X.25 links.
Network Directory What a Network Directory Provides request for an internet address from the proxy server. For backup purposes, you should designate at least two nodes on a LAN to be proxy servers. A node is configured as a proxy server in the Probe Protocol Configuration screen, (path name NETXPORT.NI.NIname.PROTOCOL.PROBE). Path Report Lists A path report is an internal structure containing all configured paths to a given IP address in the internet.
Network Directory Planning the Network Directory Planning the Network Directory There are two schools of thought on how network directories should be planned and configured on a network, as follows: • Centralized network directories. • Decentralized network directories. The centralized school of thought requires each node on the internet to have the same network directory. This means that every node in the network must have an entry in the network directory.
Network Directory Planning the Network Directory Once a network directory has been established on each node in the internet, you can set up a job stream to automate network directory updates. The MERGEDIR command is part of a maintenance interface provided primarily to support the updating of directories using a batch job. Using this method, a job or series of jobs can be scheduled at regular intervals to copy and then merge remote directories into the local-system directory.
Network Directory Open Configuration/Directory File Open Configuration/Directory File The Open Configuration/Directory File screen (#1) shown in Figure 15-2 is the first screen displayed when you run NMMGR. Figure 15-2 Open Configuration/Directory File Screen To create or modify a network directory, enter the network directory file name (and write access password, if one is required) and press the appropriate function key. The name NSDIR.NET.SYS is used by the network subsystems.
Network Directory Network Directory Main Network Directory Main The Network Directory Main screen (#8) shown in Figure 15-3 is displayed when you press the [Open Directry] or the [Create Directry] function key at the Open Configuration/Directory File screen (#1) as shown in Figure 2-2. This screen is also displayed if a network directory has already been opened and you type NETDIR in the command window of any screen and press the [Enter] key.
Network Directory Network Directory Main Press the [Maint Mode] function key to enter the command interface to perform directory merging or to expand the size of your directory. Refer to Using the Node Management Services (NMS) Utilities for details on maintenance mode. Within the maintenance mode interface, command input is read from the formal designator NMMGRCMD, which defaults to $STDINX. Type EXIT and press the [Return] key to leave maintenance mode.
Network Directory Network Directory Select Node Name Network Directory Select Node Name The Network Directory Select Node Name screen (#9) shown in Figure 15-4 is displayed when you press the function key for [Update Dir] at the Network Directory Main screen (Figure 15-3). The function of this screen is to display node names that are currently configured in the directory, and to allow you to delete, rename, add, or modify information about a node.
Network Directory Network Directory Select Node Name • To change the name of a node in the directory, specify the node name and a new name; then press the [Rename] function key. The previously configured node name is replaced and the screen displays the new name in a display field under the label Configured Entries. Fields Node name The name of the node for which you want network directory information.
Network Directory Network Directory Select Node Name Other uses of local entries include restricting certain nodes from communicating with the internet, or being able to direct which way to access remote nodes depending on your configuration of local entries. When both local and global entries exist for the same node, the network transport uses the local entry. Default value: Y Range: Y or N New name (Required only when renaming an existing node name.
Network Directory Network Directory Data Network Directory Data The Network Directory Data screen (#10) shown in Figure 15-5 is displayed when you press the [Add] or [Modify] function key at the Network Directory Select Node Name screen (Figure 15-4). Figure 15-5 Network Directory Data Screen The function of this screen is to configure path report data for the node name listed at the top of the screen. One path report is configured for each NI on a node.
Network Directory Network Directory Data Checksum for TCP PXP The checksum setting indicates whether checksumming is optional (N) or required (Y) for TCP. If this field is set to N, then the use of checksums is not requested when communicating with this node. If this field is set to Y then checksums are used when communicating with this node. Checksumming is required for communication to non-HP systems. The default is N. PXP must be Y (yes) for all nodes. The default is Y.
Network Directory Network Directory Data Table 15-1 5 Select this path type when the NI type is LAN, the destination node does not support ARP, and Ethernet framing is to be used. 6 Select this path type when the NI type is TOKEN and the destination node does not support ARP. 7 Select this path type when the NI type is FDDI and the destination node does not support ARP.
Network Directory Network Directory Data NETPORT.NI.NIname.X25.PVCPATH screen may contain up to 128 X.25 address keys. No address key may be used more than once per system. Type 4 requires the destination node’s LU name. The LU name is taken from the host generation file of the IBM computer to which this HP 3000 is connected.
Glossary A access port A special interface card in the system cabinet through which the system console is connected. address A numerical identifier defined and used by a particular protocol and associated software to distinguish one node from another. address key See X.25 address key. address resolution In NS networks, the mapping of node names to IP addresses and the mapping of IP addresses to link level addresses.
Glossary backup configuration file A file that contains a copy of the information contained in the configuration file. The backup file, called NMCBACK.group.account by default, is updated each time the configuration file is successfully validated. banner A welcome message displayed on your screen. On the local OpenView workstation a banner appears when a remote connection is established with the OpenView DTC Manager. A banner also can appear when you log on to MPE.
Glossary the sending node. The address of the sending node is the calling address. carrier A continuous wave that is modulated by an information-bearing signal. catenet See internetwork. CCITT Consultative Committee for International Telephony and Telegraphy. An international organization of communication carriers, especially government telephone monopolies, responsible for developing telecommunication standards by making recommendations.
Glossary through use of NMMGR. Access to X.25 is configured in two parts. The X.25 MPE/iX System Access software is configured on the host through use of NMMGR. The DTC/X.25 Network Access software residing on the DTC is configured at the OpenView Windows Workstation through use of the OpenView DTC Manager. configuration file The configuration file contains the information that the network needs in order to operate. This file also contains information necessary for link- level and NetIPC logging.
Glossary therefore allows the choice between local and end-to-end acknowledgment. DCE Data circuit-terminating equipment. The interfacing equipment required in order to interface to data terminal equipment (DTE) and its transmission circuit. Synonyms: data communications equipment, dataset. A modem is an example of a DCE. DDX The national public PSN of Japan.
Glossary dial link A connection made through public telephone lines. direct-connect device An asynchronous device that is connected directly to a DTC through an RS-232-C or RS-422 cable, with no intervening communications equipment. Also referred to as a “local connection.” direct connection A leased line, private line, or other non-switched link in a network. direct dial A dial link through which only one remote node can be reached.
Glossary DTC node name A unique name used to identify a DTC on a LAN. The node name format is nodename.domain.organization, with each of the three parts having up to 16 characters. The name begins with either a letter or a digit. DTC station address (802.3 address) A 12-digit hexadecimal number used to identify the DTC as a node belonging to the network configuration. Also called the LAN address or node address.
Glossary DTS restart The startup of the DTS subsystem using the DTCCNTRL command file after DTS has been shut down. DTS shutdown The shutdown of the DTS subsystem, including the release of all TIO-related resources, using the DTCCNTRL command file. duplex A transmission method that allows two-way communication. If both ends of the transmission link can transmit simultaneously, it is called full duplex. If only one end can transmit at a time, it is half-duplex transmission.
Glossary facility set A facility set defines the various X.25 connection parameters and X.25 facilities that can be negotiated for each virtual circuit on a per-call basis. fast select An optional packet-switching network facility by which user data can be transmitted as part of the control packets that establish and clear a virtual connection. FCS Frame Check Sequence. A sequence of bits generated by X.25 at Level 2 that forms part of the frame and guarantees the integrity of its frame’s contents.
Glossary store and forward to transfer packets between each network that it belongs to. G gateway A node that connects two dissimilar network architectures. A gateway can be either a single node (full gateway) or two gateway halves. gateway half A node that works in conjunction with another node on another network to form an internetwork. The only protocol used by gateway halves is the NS Point-to-Point 3000/iX Link. See also full gateway.
Glossary host computer The primary or controlling computer on a network. The computer on which the network control software resides. For HP purposes, it can also be used to distinguish the HP 3000 Series 900 system (host) from the DTC. IEEE 802.3 A standard for a broadcast local area network published by the Institute for Electrical and Electronics Engineers (IEEE). This standard is used for both the ThinLAN and ThickLAN implementations of the LAN.
Glossary internet communication Communication that occurs between networks. internet hop count The number of full gateways plus the number of gateway-half links that a packet must pass through in moving from source node to destination. internet protocol A protocol used to provide routing between different local networks in an internetwork, as well as among nodes in the same local network. The Internet Protocol corresponds to Layer 3, the Network Layer, of the OSI model. See also IP address.
Glossary developing international standards, including communication standards. LAP-B must also be used over direct-connect NS Point-to-Point 3000/iX Links. L LCI Logical Channel Identifier. Local value on a network node which identifies the channel used to establish a virtual circuit (SVC or PVC) through an X.25 network. LAN Local Area Network. A collection of data communication systems sharing a common cable whereby each system can communicate directly with another LAN address See station address.
Glossary local node The computer that you are configuring or that you are logged on to. local switching A feature of the DTC which permits back-to-back configuration (for connections to an HP 3000 MPE/V host), using two ports of the same DTC. See also closed user group. local user group A list defined for a particular DTC and card that specifies which remote nodes this DTC can send data to and also which remote nodes this DTC can receive data from.
Glossary capability provided with the management software. A network map is also a hardcopy drawing used when planning a network. It shows network topology, node and network names, addresses, network boundaries (for an internetwork map), and link types. mapping A set of characteristics that describe a route taken by messages to reach a destination node. This set of characteristics is configured with NMMGR at every node on a point-to-point network.
Glossary N nailed device A device with a permanently assigned ldev. The assignment is established through the system configuration of the MPE/iX host system. Nailed devices can be accessed programmatically through their ldev number. Nailed devices can also be assigned to more than one host. native mode The run-time environment of MPE/iX. In Native Mode, source code has been compiled into the native instruction set of the HP 3000 Series 900 computer.
Glossary network boundaries (for an internetwork map), and link types. backup file is updated each time the configuration file is successfully validated. Network Services NS. Software application products that can be used to access data, initiate processes, and exchange information among nodes in the network. The HP 3000/iX Network Services include RPM, VT, RFA, RDBA, and NFT. NMCONFIG.PUB.
Glossary NMSAMP1.PUB.SYS A sample configuration file supplied with FOS that can be used as a template for DTS configuration. NMSTART.PUB.SYS The file which contains maintenance mode commands executed during NMMGR startup. node A computer that is part of a network. The DTC is also considered to be a node and has its own address. node address The node portion of an IP address. The IP address consists of a node portion and a network portion. node management services configuration manager See NMMGR.
Glossary NS 3000/iX Network Services Software applications that can be used to access data, initiate processes, and exchange information among nodes in a network. The services are RPM, VT, RFA, RDBA, and NFT. NS Point-to-Point 3000/iX Link Hardware and software necessary to create networks in which data is transmitted from node to node over a defined route until it reaches it destination. This technique is referred to as store and forward.
Glossary on this workstation is called the OpenView DTC Manager software. into packets that can be transmitted over a packet switching network (PSN). OSI model Open Systems Interconnection model. A model of network architecture devised by the International Standards Organization (ISO). The OSI model defines seven layers of a network architecture with each layer performing specified functions. PAD name A name of up to eight characters that is associated with a configured PAD device.
Glossary port An outlet through which a device can be connected to a computer, consisting of a physical connection point and controlling hardware, controlling software, and configurable port characteristics. Ports can be thought of as data paths through which a device communicates with the computer. Precision Architecture The hardware design structure for the HP 3000 Series 900 computer family.
Glossary depending on the device and how it is opened by the controlling program. protocol A set of rules that enables two or more data processing entities to exchange information. In networks, protocols are the rules that govern each layer of network architecture. They define which functions are to be performed and how messages are to be exchanged. PSN Packet-Switching Network.
Glossary RFA Remote file access. A network service that allows users to access file and devices on remote nodes. used for direct device connection up to a distance of 1500 meters (4000 feet). S router network See point-to-point. routing The path that packets or fragments of a message take through a network to reach a destination node. RMP Remote Maintenance Protocol. HP proprietary protocol used in DTC management. RPM Remote Process Management.
Glossary shared-line access The feature that allows two or more HP 3000 Series 900 hosts to use the same DTC/X.25 Network Access card on a DTC to access an X.25 network. SIC Serial Interface Card. A card installed in the front of the DTC that acts as an interface between a corresponding Connector Card (CC) and the DTC’s processor. slaved device A device that shares the same DTC port as another device and is connected, to the other device, referred to as its master, by a cable.
Glossary switching See DTC switching. Switching user interface The user interface available when DTC switching is enabled that allows terminal users to choose the HP 3000 Series 900 computer with which they want to establish a communication link. synchronous A mode of operation or transmission in which a continuous data stream is generated without intervals between characters. The data stream is synchronized by clock signals at the receiver and transmitter.
Glossary ThinLAN 3000/iX Link Hardware and software necessary to create a broadcast network, which uses the IEEE 802.3 LAN cable to transmit messages to all the nodes on the network. The messages are then accepted only by the node or nodes to which they are addressed. Also includes the ThickLAN and StarLAN 10 options. throughput class A value assigned to a given virtual circuit that defines how many network resources should be assigned to a given call.
Glossary transport, network Software that corresponds to layers 4 and 3 of the OSI network architecture model. It sends data out over the communications link, receives incoming data, and routes incoming or outgoing data to the appropriate destination node. TTUTIL Also known as the Workstation Configurator. A program, TTUTIL.PUB.SYS, on the HP 3000 that is used to create and modify terminal and printer type files. Tymnet A proprietary public data network in the USA.
Glossary V-Series (V.##) CCITT A set of CCITT recommendations related to data communication over a voice-grade telephone network. X.25 address The X.25 address provided by the network administration if you are connected to a public data network (PDN). VT See virtual terminal. W WAN Wide Area Network. A data communications network of unlimited size, used for connecting localities, cities, and countries.
Glossary packet assembly/disassembly (PAD) facility over a packet-switching network. XON/XOFF protocol The flow control used by MPE/iX systems to protect against data overruns. XON/XOFF protocol is controlled by the data recipient who sends an XOFF character (ASCII DC3) to the sender if it is unable to continue to receive data. The sender suspends transmission until it receives an XON character (ASCII DC1). X.Series (X.
Index A accept reverse charge (collect) call field, 143 activating logging, 289 add directory entry, 310 gateway, 86, 116, 157, 178, 198, 222, 246 gateway half, 274 link, 34 network interface for FDDI, 186 network interface for gateway, 254 network interface for LAN, 70, 206, 230 network interface for point-to-point, 94 network interface for token ring, 166 network interface for X.25, 132 NI link configuration, 108, 153, 267 point-to-point mapping configuration, 125 X.
Index network interface for gateway, 255 network interface for LAN, 71, 207, 231 network interface for point-to-point, 95 network interface for token ring, 167 network interface for X.
Index local timeout, 40 make reverse charge (collect) call, 143 maximum connection assurance retransmissions, 66 maximum inbound buffer memory, 56 maximum number of connections, 64 maximum retransmissions per packet, 65, 104, 263 maximum retransmissions per request, 59 maximum time to wait for remote response, 64 modulo count, 40 name search methods and order, 55 neighbor gateway IP internet address, 89, 119, 160, 181, 201, 225, 249, 277 network hop count, 97 Network interface name, 283 network interface n
Index fields Address Resolution Protocol (ARP) Configuration screen, 83, 219, 243 Dial ID Protocol Configuration screen, 104, 263 Direct Connect Link Configuration screen, 112 Direct Connect Link configuration screen, 270 FDDI Link Configuration screen, 49 FDDI Network Interface Configuration screen, 189 FDDI Network Interface Links screen, 197 Gateway Half Dial Link configuration screen, 272 Gateway Half Network Interface Configuration screen, 257 Gateway Half Network Interface Link screen, 268 General X.
Index IP internet address field, 77, 101, 151, 172, 192, 213, 237, 260 IP mask field, 91, 121, 162, 183, 203, 227, 251, 261, 279 IP Protocol Configuration screen, 76, 100, 150, 171, 191, 212, 236, 259 IP subnet mask field, 78, 152, 173, 193, 214, 238 L LAN internet configuration, 86, 222, 246 link configuration screen, 37 link data fields, 37 network directory, 303 LAN Link Configuration screen, 37 LAN network interface configuration, 69, 205, 229 LAN Network Interface Configuration screen, 72, 208, 232 LA
Index for LAN, 303 for point-to-point networks, 303 for X.
Index probe requests retransmission timeout field, 80, 216, 240 Programmable Serial Interface card, 39 protocol configuration, 258 Protocol Configuration screen, 75, 99, 136, 170, 190, 211, 235, 258 proxy enabled field, 80, 216, 240 proxy requests retransmission maximum field, 80, 216, 240 proxy requests retransmission timeout field, 81, 217, 241 proxy server, 304 PSI, 39 PVC number field, 149 PXP field for network directory, 314 R read only mode, 22 redirect output, 308 REMOTE HELLO command, 112, 114 rena
Index X.25 User Facility Set Parameters, 141 X.25 User Facility Sets, 139 security field for X.