HP (Hewlett-Packard) 600 manual

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Table of contents for the manual

  • Page 1

    Operator’ s Reference Dictionary of Configuring, Operating, and Reporting Features HP AdvanceStack Routers[...]

  • Page 2

    Hewlett-Packard Series 200, 400, and 600 Routers Operator’ s Reference[...]

  • Page 3

    © Copyright Hewlett- Packard Company 19 9 4. All rights reserve d. This document contai ns pro- prietary informatio n, which is protected by copy right. No par t of t his doc ume nt may be photocopied, repro- duced, or translated int o an- other language without the prior writte n consent of Hewlett-Packard. Publication Number 5962-8305 E0794 Edit[...]

  • Page 4

    Preface When T o Use This Guide Part I of this guide provides an alphabetical listing of Configuration Editor parameters and their descriptions, gr ouped according to their corresponding entries in the Configuratio n Menu of the Configuration E ditor . Refer to Part I w hen you need information on a parame ter in order to better understand how to u[...]

  • Page 5

    Refer to Part II when you need to learn the meanings of features in these areas. (T o learn how to use statistics screens, NCL commands, the Event Log, and the MIB variables, refer to the Use r’ s Guide .) Coverage Note This manual addresses the entire range of parameters and other soft- ware features found in He wlett-Packa rd rout ers, includin[...]

  • Page 6

    Chapter 10, ‘ ‘Xerox Network System (XNS) Pa rameters’ ’ Chapter 11, ‘ ‘IPX Protocol Parameters’ ’ Chapter 12, ‘ ‘AppleT alk Parameters’ ’ Chapter 13, ‘ ‘X.25 Service Parameters’ ’ Chapter 14, ‘ ‘V .25 bis Network Mapping Parameters’ ’ Part II: General Operating Referen ce provides detailed reference informat[...]

  • Page 7

    Operator’s Refer ence Preface 6[...]

  • Page 8

    Contents Operator’ s Reference Preface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 When T o Use This Guide . . . . . . . . . . . . . . . . . . . . . . . 3 Audience . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Organization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Other HP Router[...]

  • Page 9

    7 Internet Protocol (IP) Parameters Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-2 Parameters and Options . . . . . . . . . . . . . . . . . . . . . . . . . 7-6 8 DECnet Parameters Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8-2 Parameters and Options . . . . . . . . . . . . . . . . [...]

  • Page 10

    Part II General Operating Reference 15 Using the Statistic Screens AppleT alk Router Statistics Screen . . . . . . . . . . . . . . . . . . . 15-4 Bridge Statistics Screen . . . . . . . . . . . . . . . . . . . . . . . . . 15-6 Buffers Usage Statistics Screen . . . . . . . . . . . . . . . . . . . . . 15-8 Circuit Statistics Screen . . . . . . . . . .[...]

  • Page 11

    dev: Device Event Messages . . . . . . . . . . . . . . . . . . . . . . 17-60 dls: Data Link Services Event Messages . . . . . . . . . . . . . . . . 17-69 drs: DECnet Event Messages . . . . . . . . . . . . . . . . . . . . . . 17-74 egp: Exterior Gateway Protocol Event Messages . . . . . . . . . . . 17-79 ip: IP Event Messages . . . . . . . . . . . .[...]

  • Page 12

    decnet: DECnet Configuration Information Base . . . . . . . . . . . 18-53 dls: Data Link Services Information Base . . . . . . . . . . . . . . . 18-55 drs: DECnet Cir cuit Group Information Base . . . . . . . . . . . . . 18-58 echo: Echo Service Information Base . . . . . . . . . . . . . . . . . 18-60 egp: EGP Information Base . . . . . . . . . . .[...]

  • Page 13

    A Parameter Finder How T o Use the Parameter Finder . . . . . . . . . . . . . . . . . . . A-2 1. System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-4 2. Software & 3. Lines . . . . . . . . . . . . . . . . . . . . . . . . . . A-5 4. Circuits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . A-6 5. Circui[...]

  • Page 14

    Introduction: How T o Use the Dictionary of Configuration Parameters Introduction[...]

  • Page 15

    Part I is a dictionary reference of the Parameters found in the Configuration Editor , which is accessable from the Main menu (or by using the [/] [M] hot- key combination in Quick Configuration). Access to the Configuration Editor Accessing the Configur ation Editor from the M ain Menu Operator’s Refer ence 2[...]

  • Page 16

    Part I is divided into fo urte en chapters corres p on ding to the options listed in the Configuration me nu: Figure 1-1. The Configuration Menu Operator’s Reference 3[...]

  • Page 17

    T o find a par ameter description, tur n to the chapter correspond ing to the Configuration me nu option containing tha t parameter . The n locate the pa- rameter by finding it in its alphabetic order . (Y ou can also locate the parame- ter description by using the page/par ameter listing at the beginning of each chapter .) W i thin each chapter , [...]

  • Page 18

    Example of Dictionary Entries in Operator’ s Reference Quality of Serv ice Specifies the li nk-level control. It al ways must remain set to L LC1, the default, for 802.3, 802.5, and PPP circuits. Default: LLC1 LLC1 Datagram service; best-effort delivery . LLC2 Reliable service, provides link-level control that includes error detection and error r[...]

  • Page 19

    [...]

  • Page 20

    Part I Dictionary of Configuration Parameters Pa rt I[...]

  • Page 21

    Part I[...]

  • Page 22

    1 Global and Session Parameters[...]

  • Page 23

    Overview Global Parameters: These specify how th e router initializes it s services. Page Global Paramet ers 1-4 Auto Enable 1-4 Automatic Reboot 1-5 Daylight T ime Rule 1-8 Screen Refresh Rate 1-9 System Contact 1-9 System Name 1-9 System Location 1-9 T imezone Access to Global an d Session Parameters Figure 1-1. Ac cess to Global Parame ters in t[...]

  • Page 24

    Session Parameters: Define the interface between the router and I/O devices, such as a console, modem, and T elnet. Page Session Par ameters 1-4 Baud Rate 1-5 Bit / Char . 1-5 Connection inactivity time (min) 1-6 Event Filter L evel 1-7 Flow Control 1-7 Modem connection time (sec) 1-7 Modem disconnection time (sec) 1-8 Modem lost receive ready time[...]

  • Page 25

    Parameters and Options Auto Enab le Determines whether various system services and application modules initialize automatically when the router bo ots . Default: Yes No Disables all protocol-specific Auto Enable parameters for all software modules and system services. Y ou will need to enable each service or software module with the NCL (Network Co[...]

  • Page 26

    Options: Sunday , Monday , T uesday , W ednesday , Thursday , Friday , Saturday Note: If Beginning Day is set to Sunday , the router compensates for daylight savings time at 2 a.m. on that Sunday . If Beginning day is not set to Sunday , the router makes the time correction at 2 a.m. on the first Sunday following the specified day . Beginning month[...]

  • Page 27

    Canada and Continen tal US Applies the daylight savings time rule observed in Canada and the continental U.S.A.. Middle Europe and Portugal Applies the daylight savings rule observed in middle Europe and Portugal. Southern Hemisphere Applies the daylight savings time rule observed in the southern hemisphere. User defined Displays a screen with four[...]

  • Page 28

    Drop All Sends no event messages. Just MAJOR Sends major event messages only . Not INFO Sends major , performance, and warning event messages. PERF and MAJOR Sends major and performance event messages. Show All Events Sends major , performance, warning, and information event messages. Flow Control Enables XON/XOF F flow control and sets the type of[...]

  • Page 29

    Default: 0.5 Options 0.5, 1, 5, 10, 15, 20, 30, 6 0 Modem Lost Receive Ready T ime Sets the number of milliseconds the receiver ready signal drops before the router disconnects the modem attached to the Console port. This is a form of debouncing the receiver ready sig na l. Default: 400 Options 0. 25, 50, 100, 200, 400, 800, 16 00, 2550 Note: The m[...]

  • Page 30

    Options 1, 1.5, 2 System Contact Accepts an ASCII characte r s tring identifyi ng the person responsible for the router . For example: John Smith, Building 6. System Location Accepts an ASCII character s tring identifyi ng the physical locatio n of the route r . For example: T echnology Center , Engineering Lab. System Name Accepts a 15 character s[...]

  • Page 31

    [...]

  • Page 32

    2 Software Parameters[...]

  • Page 33

    Overview Software Parameter: Enables the application modules--the bridging and specific routing services on the router . Y ou must enable each application to be used. Any service that you enable can be u s ed on any port. Page Software Parameter 2-3 Protocol Access to Software Param eters Figure 2-1. Ac cess to Software Par ameters in the Config ur[...]

  • Page 34

    Parameters and Options Protocol Adds or deletes the protocol (service) you want to enable or disable on the router . Default: Bridge Options Bridg e, DoD IP Router , DECnet Router , Xerox (XNS) Route r , IPX Router , AppleT alk Router Software Parameters 2 Software Parameters Parameters and Options 2-3[...]

  • Page 35

    [...]

  • Page 36

    3 Lines Parameters[...]

  • Page 37

    Overview Line Parameters: Describe the physical (level 1) connections between the router and local area networks and/or long-haul transmis- sion facilities. The lines for the ports are initially established with default attribute s config ured. Page Line Parameters 3-3 Bridge T ype 3-3 Circuit Name 3-3 Clock Source 3-4 Clock Speed 3-4 Connector 3-4[...]

  • Page 38

    Parameters and Options Bridge T ype Specifies the FDDI bridge type when FDDI is selected as the Physical Access Method. Default: Encapsulating Encapsulating T ranslating Circuit Name Identifies the circuit fo r the associated connector . T he default startup and defa ult Quick Configuration set this parameter to the name of the connector . This nam[...]

  • Page 39

    Clock Speed Sets the speed on the internal clock if the Clock Source parameter is set to Internal . Choose one of the following options: Default: 56 K (bits per second) Options 1.2 K, 2.4 K, 4.8 K, 7.2 K, 9.6 K, 19.2 K, 32 K, 38.4 K, 56 K, 64 K, 125 K, 230.4 K 420 K, 625 K, 833 K, 1.2 5 M Note: The Clock Speed limi t for RS -232 cables connected to[...]

  • Page 40

    SYNC Specifies a synchronous W AN port. Results in these additional parameters: Connector Clock Speed Clock Source FDDI Specifies an FDDI dual-attach port. For additional information, refer to the Bridge T ype parameter . X.25 Directs the router to use the link-level control associated with X.25. This should be set in conjunction with a circuit typ[...]

  • Page 41

    [...]

  • Page 42

    4 Circuit Parameters[...]

  • Page 43

    Overview Circuit Paramete rs: Describe the data-link layer (level 2) transmis- sion channels between the router and the extended network. Circuits condition the bandwidth provided by lines to provide a reliable transmis- sion medium. Access to Circuits Parameter s Figure 4-1. Access to Circuit Parameters Circuit Parameters Overview 4-2[...]

  • Page 44

    Page Circu i ts Para met e rs 4-5 AppleT alk multicast DLCI 4-5 ARP multicast DLCI 4-5 Auto Enable 4-6 Bridg e Flood multicast DLCI 4-7 Cir cuit Name 4-7 Cir cuit T ype 4-10 Conne ct Retry 4-11 Data Link Lay er protocol 4-11 DECNet multicast DLCI 4-12 De sired Link Quality 4-14 Echo Request T ime (secs) 4-14 Extended (3 2-bit) CRC 4-15 General mult[...]

  • Page 45

    Page Circu i ts Para met e rs — Continued From Previou s Page — 4-26 Retry Ti mer (T1) 4-28 Use UP AP 4-28 Window Siz e 4-29 XCVR signal polling Circuit Parameters Overview 4-4[...]

  • Page 46

    Parameters and Options Adapter Record Displays a screen with parameters for configuring a V .25bis circuit. For additional information, refer to Connect When. Alarm T imer Set s the time interval between issuing a Status Enquiry or Full Status Enquiry message and the receipt of a Link V erification or Full Status Repor t fr om a Frame Relay DCE. Th[...]

  • Page 47

    Bandwidth Re servation Reserves percentages of the to tal available bandw i dth on a W AN circuit for the transmission o f hig h, normal, and low prior ity packets. Use this feature to prevent any one priority from taking over the entire bandwidth of a circuit. Default: High Priority (34%) High Priority Reserves 34% of the total available bandwidth[...]

  • Page 48

    Not Used T ells the terminal adapter to operate on its preprogrammed channel management parameters. (Refer to the ma nua l for your adapter .) Use this option if your terminal adapter doesn’t have v .25 bis extension features or hasn’t been configured to use them. Circuit Name Identifies the circuit for the associated connector . The default st[...]

  • Page 49

    HP Point-to-Poin t Provides a transmission channel over a s ingle long-haul medium terminated by a router peer at a remote site. Uses HDLC (High-level Data Link Control) protocol to exchange data and control pa cket s. Di splays a screen with parameters for configuring an HP Point-to-Point Protocol circuit. Results in these additional parameters : [...]

  • Page 50

    SMDS Provides a transmission channel over V .35 (synchronous media) between the router and an SMDS (Switched Multi-megabit Data Service) data service unit (DSU) or switch. Displays a screen with parameters for configuring an SMDS (Switched Multi- megabit Data Service) circuit. Results in these additional parameters: ARP Group Address Extended (32-b[...]

  • Page 51

    Connect ina ctivity time (sec) Sets a time interval, in seconds, for determining how long to incrementally maintain a connection after no activity is detected in ei the r d irection. This pa ramet er is typically set to the incremental charge rate of the local phone system. The parameter does not become active until the Minimum connect duration (se[...]

  • Page 52

    Connect wh en Determines when to attempt a connection with the remote router via V .25 bis. Default: Data is available or on incoming calls Circuit is enabled Initiates a call attempt w hen the circuit i s enabled (that is, either when the subject circuit is configured and the router reboots or when the subject circuit is a backup circuit that will[...]

  • Page 53

    Delay after connect failure (min) Sets the time, in minutes, elapsing before the router attempts to make another outbound connection. This time interval come s into effect only when the router fails to establish a connection, and only after the Connect retry count has been exhausted. The pa rameter has no effe ct on a connection failing afte r s uc[...]

  • Page 54

    Desired Link Quality Value “Acc eptab le” Loss Percentage 250 0.4 300 0.3 500 0.2 999 0.1 00 DLCI Encoding Length Sets the l ength of the Frame Relay address field. Default: T wo Bytes Four Bytes Sets the DCLI encoding length for four -byte extended address fields. Use this value only if your Frame Re la y service supports extende d four -byte [...]

  • Page 55

    Q922 November Identical to Q922 encoding except in the extended forms (three-byte and four -byte address fields). Q922 No vember encoding lacks a contr ol indicator (D/ C) b it in the least s igni ficant byte . Ye s Disables the circuit when a connect failure occurs. No Allows the circuit to continue operating when a connect failure occurs. Echo Re[...]

  • Page 56

    Note: T o use the 32-bit encapsulation scheme, all interfaces on the network must have sufficient memory resources to handle 32-bit encapsulation. An interface with sufficient memory resources to handle 32-bit encapsulation can unpack packets with 16-bit and 32-bit encapsulation. An interface that supports only 16-bit encapsulation cannot unpack 32[...]

  • Page 57

    Every HP router is shipped with a unique universally-administered 48-bit station address for each port written in read-only memory (ROM). The first 24 bits are always 080009 (hexadecimal) from Hewlett-Packard, and the second 24 bits are unique to each port on each unit manufactured by He wl ett-Packard. Becaus e each LAN device w ith in your networ[...]

  • Page 58

    LCP Active-Open Determines whether Point-to-Point establishes the LCP connection. Note: At least one of the Point-to-Point peers must be configured to “actively” open the LCP connection. Default: Y es Ye s The Po int- to- Point circuit atte mpts to establish the LCP connec ti on as soon as the physic al link is ready. No The Point-to-Point circ[...]

  • Page 59

    Link-quality-monitoring (a Point-to-Point initial configuration option described in RFC 1172) is the process where Point-to-Point determines the frequency and magnitude of data loss across the circuit. W ith link-quality-monitoring enabled, both ends of a Point-to-Point circuit can exchange Link-Quality-Report packets. These packets serve two funct[...]

  • Page 60

    ANSI Annex D Displays a screen with parameters for specifyi ng interface management pr oc edures defined in Annex D to ANSI Standard T1617-1991. Results in these additional parameters : Alarm T imer Bandwidth Reservation Events for Error Intervals Between Full Polls Monitored Events Multicast Support Permanent Virtual Circuits Poll Interval LMI The[...]

  • Page 61

    Note: Because this parameter uses the ‘ ‘Clock Speed’ ’ of the W AN circuit configured in the Lines configuration to calculate the maximum number of bytes queued to the W AN circuit, be sure to enter the Clo ck Speed accurately ev en when an External Clock source is used. During router boot sequence, an event is logged to show the calculate[...]

  • Page 62

    Minimum conne ct duratio n (sec) Sets the total time to keep the connection open even if no further data is expected. (This parameter is al so di sabled when you set the Connec t when parameter to Circuit is enabled.) Default: 180 Disable: 0 Range: 0 to 64800 (seconds) This paramete r lets you keep a l i ne open for the mini mum pe ri od that you a[...]

  • Page 63

    Flag ... Flag Address Control I FCS Flag Key: Flag 8-bit sequence (01111110) Address 8/16 bits in length Control 16 bits if Modulus is 123; 8 bits if Modulus is 8 I (Information) Contains n bytes of data FPS 16-bit or 32-bit frame check sequence Monitored Events W orks in conjunction with the Events for Error parameter to define the quality of serv[...]

  • Page 64

    OSI multicast DLCI Refer to ‘ ‘Multicast Support’ ’, above. Password of Remote Station Accepts the password used by the remote Point-to-Point peer when logging into the local router . Enter the password as an ASCII string of less than 16 characters. Percent of queu e reserved for high priority pack ets Default: 34 Percent of queu e reserved[...]

  • Page 65

    Note: The remote device must be either an HP router configured as a HP Point-to-Point circuit for an HP Remote Bridge. DCE DCE is the required choice for a circuit connecting to an HP Remote Bridge. T o use this option, configure the remote device with the address ‘ ‘DTE’ ’. DTE T o use this option, configure the remote device with the addr[...]

  • Page 66

    LLC1 Datagram service; best-effort delivery . LLC2 Reliable service, provides link-level control that includes error detection and error recovery by retransmission. For more information, refer to these parameters : Retry Counter Retry T imer Connect Retries Link Idle T imer Modulus X.25 Directs the router to use the link-level control associated wi[...]

  • Page 67

    Remote signal & sense timeout (sec) Sets the timeout range for the Remote signal & sense fe ature. Smaller values allow quicker detection of disabled lines and larger values reduce the amount of line bandwidth needed. Default: 50-60 Range: 5-6 to 165-198 (seconds) Note: For the specified circuit, set Remote signal & sense timeout (sec) [...]

  • Page 68

    Here are the required CIC setti ng s for some V .25 bis devices: Device Required CIC Setting Ascend Multiband Adapters Y e s or No General Datacom 914 ADR Y es Hitachi ISDN Adapter No Motorola DU170 Y es NEC ISDN No Northern T elecom NT4X25AG Y es, if device not set for auto answer Server Passw ord Assigns the password used by the router when it lo[...]

  • Page 69

    No Disables heartbeat polling. Ye s Enables heartbeat polling. Use SNAP Identifies the version of IEEE 802.6 to be used. Default: Y es Ye s Enables the approved version of IEEE 802.6 (D15). W ith 802.6 (D15), encapsulation as specified by Internet RFC 1209, IP Over SMDS. No Enables IEEE version(s) D9 and D11. W ith IEE 802.6 (D9/D11), an At&T p[...]

  • Page 70

    Xcvr Signal Polling Enables the transmission of periodic self-addressed messages by the router software. Messages are sent at 5-second intervals to verify proper transceiver operation on the LAN port. When signal polling is enabled, the port’ s Net Fail LED indicates the loss of the transceiver connection even if no packets are bei ng transmitted[...]

  • Page 71

    [...]

  • Page 72

    5 Circuit Group Parameters[...]

  • Page 73

    Overview Circuit Gro u p P aramete rs: Complet e the co mmunication chan nels between multiprotocol routers and network devices by forming collec- tions of circuits us ed by the application modul es to brid ge an d rout e packets. A circuit group comprises circuits of the same type (such as LAN, W AN, and Frame Relay) that originate at a common poi[...]

  • Page 74

    Parameters and Options Circuit Group Name Accepts a maximum of 12 alphanumeric characters to identify the circuit group. ETHER1 G The default when configuring an Ethernet LAN port. W AN1G T he default when configuri ng a W AN port. Circuit Group Speed Used for W AN ports to enable the setti ng of the MIB interface (‘ ‘if ’ ’) Speed entry in[...]

  • Page 75

    [...]

  • Page 76

    6 Bridge Parameters[...]

  • Page 77

    Overview Bridge Parameters: Describe the means for filtering and relaying frames at the data-link layer between network and/or point-to-point con- nections using station (MAC, or Media Access Control) addressing. Page Bridge Parameters 6-5 Action 6-5 Aging T imer (min) 6-5 Auto Enable 6-6 Block STE 6-6 Bridg e ID (hex) 6-7 Circuit Group Name 6-7 Ci[...]

  • Page 78

    Page Bridge Parameters — Continued From P reviou s Page — 6-7 Default Conversion T ype 6-7 DL Format 6-8 DSAP (high) 6-8 DSAP (low) 6-9 Effect 6-9 Ethernet T ype (high) 6-10 Ethernet T ype (low) 6-10 Flood Interval (sec) 6-10 Forward Delay 6-11 Forwarding T able Size 6-11 Group LAN ID 6-11 Header 6-12 Hello T ime 6-12 High V alue (hex) 6-12 Hop[...]

  • Page 79

    Page Bridge Parameters — Continued From P reviou s Page — 6-18 Protocol T ype 6-18 SAP (high) 6-18 SAP (low) 6-18 Set Hop Count Reduction 6-19 Spanning T ree Enable 6-20 Src Rte 6-20 SSAP (high) 6-20 SSAP (low) 6-21 STP Priority 6-21 T able Age Interval 6-22 T raffic Priority 6-22 T ransitional Bridge 6-22 T ype (high) 6-23 T ype (low) Bridge P[...]

  • Page 80

    Parameters and Options Action Determines the disposition of frames meeting the filter rule. Default: Drop Drop Discards a frame meeting the filter rule. Accept Relays a fra me mee ti ng the filter rule. High Priority Assigns the first priority to all incoming bridged packets from the LAN circuit meeting the filter rule. This gives packets a higher [...]

  • Page 81

    When the global Auto Enable parameter is set to No, the bridge (as are all other application software modules) is unconditionally disabled. The bridge- specific Auto Enable parameter is disabled when the global Auto Enable parameter is di sabled. When the global Auto Enable parameter is set to Yes, the bridge (as are all other application software [...]

  • Page 82

    Note: Parallel source routing bridges require unique Bridge ID (hex) values. Non- parallel bridges do not need unique identifiers. Circuit Group Name Identifies the circuit group connecting the bridge and the attached LAN or network device. Enter the name of the circuit group providing the connection. Circuit Name Identifies the circuit (not the ci[...]

  • Page 83

    Ethernet Prepares Ethernet filte rs. Etherne t filters drop a fra me on the basis o f its Ethernet type. Ethe rnet fi lters filter Ether ne t typ e val ue s onl y , or some specified combination of Ethernet type values in conjunction with MAC-level source and destination addresses. 802.2 LLC Prepares of 802.2 LLC fi lters. 802.2 LLC filters drop o [...]

  • Page 84

    Enter a the lowest DSAP in this field and the highest DSAP in the DSAP (high) field if you are filtering a range of destination service access points. Enter the name of a SAP lis t in this field and leave the DSAP (h igh) field bla n k if you are establishing a range of destination service access points with a filter list. For more information, ref[...]

  • Page 85

    Enter the highest Ethernet Type in the range if you are filtering a range of Ethernet Types. Leave this field bl an k and ente r the name of a Ethernet Type li st if you want to establish the range of Ethernet Types using a filter list. For more inf orma tion, refer to “Etherne t T ype (low)” later in this chapter . T o learn how to create an E[...]

  • Page 86

    As the algorithm operates, it eventually places all circuit groups in either a forwarding (en abled) or blocking (di sabled) state. Late r , in response to network topology changes, the algorithm can change the state of specific circuit groups. In order to prevent network looping caused by sudden state changes, the algorithm does not transi tion ci[...]

  • Page 87

    Hello T i me Sets the time interval in seconds between BPDUs transmitted by the bridge. Default: 2 (seconds) Range: 1 to 10 Options Skip this field if the spanning tre e algorithm is not enabled. Enter the Hello Time in seconds. If the spanning tree algorithm is enabled, Hello Time sets the ti me i nterval between BP DUs. BPD U s ar e pe riod ic, f[...]

  • Page 88

    LAN ID (Hex) Sets the LAN ID of a particular interface. Y ou must assign a unique LAN ID to each bridge interface that uses source routing (including non-token ring interfaces ). Default: 1 Disable: Leave blank Range: 0 to fff (hexadecimal) Options Lea ve this field blank if you don’t want to enable source routing. Enable source routing by enteri[...]

  • Page 89

    Options If you are filtering a single MAC or data- link header, ente r the MAC or dat a- link header in this field and leave the High Value (hex) field blank. If you are filter in g a range of MAC or data- link header s, ente r the l owest MAC or data-link he ader in this field an d enter highest MAC or data -link header in the High Value (hex) fie[...]

  • Page 90

    For more information, refer to “MAC dest (low).” T o learn how to create a MAC Address list, refer to “MAC Address (low)” and “MAC Address (high).” MAC dest (low) Sets the lower bou ndary of the range for filtering a fr ame ba sed on the contents of its MAC-level destination address field. Options Leave this field blank if you do not wa[...]

  • Page 91

    Enter the MAC source address in this field and leave the MAC source (high) field blank if you are filtering a single MAC source address. Enter the lowest MAC source address in this field and enter the highest MAC source address in the MAC source (high) field if you are filtering a range of MAC source addresses. Leave this field blank and enter the [...]

  • Page 92

    Precedence Assi gns a priority val ue s to a fi l ter—the higher the precede nce , the greate r the priority . Y ou can construct up to 31 filters per bridge circuit group. The Precedence value is used when an incoming packet meets multiple filter rules. In such an instance, the filter with the highest priority i s applied to the frame. Default: [...]

  • Page 93

    If you are filtering a range of Protocol ID/Organization Codes, enter the lowest Protocol ID/Organization Code in this field and enter the highest Protocol ID/Organization Code in the Protocol ID/Org. Code (high) field . If you are establishing the range of P rotocol ID/Organiz ation Codes with a filter list, enter the name of a Protocol ID/Organiz[...]

  • Page 94

    Spanning T ree Enable Enables or disables the spanning tr ee algorithm. Default: No Ye s Enables the spanning tree algorithm if your network topology contains redundant bridge/LAN connections. No Disables the spanning tree algorithm if your network topology contains a single bridge or multiple, non-redundant bridges. If you enable source routing, t[...]

  • Page 95

    T o specify forwarding table size, refer to your network topology drawing and estimate the number of end-stations serviced by the bridge; then double this figure. Final ly , select the next highest value from the ava i lable respons es. (F or more information on the Forwarding T able parameter , refer to page 6-11.) Src Rte Enables or disables sour[...]

  • Page 96

    For more information, refer to “SSAP (high)” earlier in this chapter . T o learn how to create a SAP list, refer to “SAP (low)” and “SAP (high)” earlier in this chapter . STP Priority Sets the bridge priority for the spanning tree algorithm. Default: 32768 Options Skip this field if you have not enabled the sp anning tree algori thm. If[...]

  • Page 97

    The aging algorithm consumes CPU bandwidth that could otherw ise be used to forward pa cke ts. Therefore, ex cessive ag i ng of the table can caus e oc cas ional dropping of frames. The default should provide the most appropriate time interval for aging in most installat ions . T raffic Priorit y P rioritizes packets received for bridging to other [...]

  • Page 98

    Enter the highest Ethernet Type in the range if you are filtering a range of Ethernet Types. For more information, refer to “T ype (low)” below . T o learn how to apply an Ethernet T ype filter list, refer to “Ethernet T ype (low)” (page 6-10) and “Ethernet T ype (high)” (page 6-9). T ype (lo w) Sets the low e r bou ndary of the range f[...]

  • Page 99

    [...]

  • Page 100

    7 Internet Protocol (IP) Parameters[...]

  • Page 101

    Overview IP Parameters: Enable use of the Internet TCP /IP protocol s uite for establishing routing for IP dat agrams from a source to a d es tination over one of several available paths. Page IP Paramet e r 7-6 Action 7-6 Action on circuit group enable/ disable 7-6 Acquisition Mode 7-6 Address Mask Reply 7-7 Address Resolution 7-8 Allow Router to [...]

  • Page 102

    Page IP Paramet e r 7-8 ASB Flood 7-8 Authentication T ype 7-9 Auto Enable 7-9 Circuit Group 7-9 Connection Close T ime Out 7-9 Conditional Circuit Group 7-9 Cost 7-9 Dead Interval 7-10 Default Route Listen 7-10 Default Route Supply 7-10 Dest IP Addre ss 7-10 DLCI 7-10 D rop If Next Hop is Down 7-10 Effect 7-11 Encapsulation 7-11 Export Action 7-12[...]

  • Page 103

    Page IP Paramet e r 7-16 IP Port (high) 7-16 IP Port (low) 7-16 IP Sou rce (high) 7-17 IP Source (low) 7-17 LAN Addre ss 7-17 Length 7-17 List Name 7-17 Load Balancing 7-18 Local ASN 7-18 Local Addre ss 7-18 Low V alue (hex) 7-18 Make route conditional on an alternate circuit group 7-18 Manag ement Priority 7-19 Max Relay Hops 7-19 Max Retransmissi[...]

  • Page 104

    Page IP Paramet e r 7-23 Propagate to EGP 7-23 Propagate to RIP 7-23 Propagate to OSPF 7-23 Protocol 7-24 Proxy ARP 7-24 Receive Broadcas t 7-24 Relay Auto Enable 7-25 Remote Address 7-25 Remote ASN 7-25 Retransmission T ime Out 7-25 Retransmit Interval 7-25 RIP Interface Cost 7-25 RIP Network Diameter 7-26 RIP Li sten 7-26 RIP Supply 7-26 Router I[...]

  • Page 105

    Parameters and Options Action Determines the disposition of IP datagrams, UDP datagrams, or TCP segments meeting the filter rule. Default: Drop Accept Relays a packet meeting the filter rule. Drop Discards a packet meeting the filter rule. Action on circuit group enable/d isable Determines the action taken with the Conditional Circuit Group. Defaul[...]

  • Page 106

    Ye s Enable s ad dress mask reply mes sages to be generated i n co mpl iance with the relevant sections of RFCs 950 and 1009 . Address Resol ut i on Enables or disable s address resolution, the mapping of 32-bit IP addresses to 48-bit station addresses. This parameter setting also influences the data-link encapsulation method used at address resolu[...]

  • Page 107

    Allow Router to Accept Files Enables inbound TFTP by allow ing router to accept files via TF TP from other sources. Default: No Ye s No Enables router to accept files vi a TFTP fro m oth er sources. Disables acceptance of fil es via TFTP fro m oth er sources. Area ID Identifies an OSPF area in dotted-decimal notation. Note: The area ID value of 0.0[...]

  • Page 108

    Simple Password Enables password authentication. Note: If the Area ID is not specified or is a value other than 0.0.0.0., the Stub Area parameter i s dis p layed. Auto Enable Determines the i nitial state of the IP router . This IP-specific Auto Enable parameter works in conjunction with the global Auto Enable parameter found on the Global Paramete[...]

  • Page 109

    Note: All routers on the OSPF backbone must be configured with the same values for Hello Interval and Dead Interval. Default Route L isten Determines whether the IP router adds network and subnet default route information, received in RIP updates from neighboring routers, to its internal routing table. Default: No No Prevents the router from adding[...]

  • Page 110

    Packet Field IP Parameters IP Destination IP Dest (low) and IP Dest (high) IP Source IP Source (low) and IP Source (high) Default: Ignore Don’t Match Applies the filtering action (drop/a ccept/log) i f the contents of the packet field do not fall w ithin the range established by the matching set of (low) and (high) filter parameters . Ignore Appl[...]

  • Page 111

    Note: The Metric fiel d ap pears after s electing PROP AGA TE. Metric lets you assign a RIP cost to the propagate d rout e. F or more information, re fe r to “Metr ic ” later in this chapter . From Autonomo us System Lets you identify a specific autonomous system from which RIP updates are received. Options Lea ve this field blank if you want t[...]

  • Page 112

    Global Broadca st Determines whether the router accepts or discards a global broadcast message, a message with an IP destination address consisting entirely of 1 digits. Default: Y es No Allows the router to discard global broadcast messages, effectively disabling the Routing Information Protocol (RIP). Note: Routers use the Routing Information Pro[...]

  • Page 113

    Options Leave this field blank and enter the bit pattern in the Low Value (hex) field if you are filtering a single bit pattern. Enter the highest bit pa tter n in the range if you are filte ri ng a range of bit patterns. For more information, refer to “Low V alue (hex)” later in this chapter . Host Cache Enables or disables the aging of physic[...]

  • Page 114

    Non-Broadcast Multi- Access Supports multiple (more than two) routers, but does not provide the ability to address a single physical message to all routers. An example is a public switched packet netw ork . Internet Address Accepts the IP (Internet Protocol) address of the remote router port for the destination networ k. Enter the addre ss i n dott[...]

  • Page 115

    For more information, refer to “IP Dest (low)” later in this chapter . T o learn how to create an IP Address list, refer to “IP Address (low)” and “IP Address (high)” earlier in this chapter . IP Dest (low) Sets the lower boundary of the range for filtering a packet based on the contents of its IP destination field. Options Leave this f[...]

  • Page 116

    Options Leave this field blank if you do not want to filter an IP packet based on the contents of its IP source field. Leave this field blank and enter the IP source address in the IP Source (low) field if you are filtering a single IP source address. Enter the highest IP source address in this field if you are filtering a range of IP source addres[...]

  • Page 117

    No Disables load balancing. When disabled, then for a given source IP and destination IP address, the same circuit is us ed for all packets. Ye s Enables load bal anci ng. When enabled, a circuit i s randomly selected from the circuit group for each packet. Local ASN The NIC-assigned decimal number that identifies the local autonomous system. Enter[...]

  • Page 118

    Max Relay Hops Determines the maximum number of router hops allowed to reach a destination. Default: 4 Range: 1 to 16 (hops) Max Retransm i ssi on s Determines the number of times TFTP retransmits an unacknowledged data message before abandoni ng the transfer attempt. Default: 5 Metric Assigns a cost to the propagated route. Mode (normal or end-no [...]

  • Page 119

    Ye s Enables MTU dis covery . Neighbor ID Identifies the remote en d of the virtual link. Ente r the router ID of the remote end in dotted-decimal notation. Network Addres s Accepts the filtered IP network address, in dotted-decimal notation, when creating an import or export route filter . If you want to filter all destination networks, leave this[...]

  • Page 120

    Normal ARP Enables or disables the Address Resolution Protocol (ARP). ARP maps 32-bit IP addresses to 48-bit station addre sses. Fo r enab li ng to take effect, Addres s Res olution must also be set to ARP or to ARP & HP Probe. Default: Yes No Disables ARP Ye s Enables ARP . Offset Use to positi on the filtered bit patte rn within the selected [...]

  • Page 121

    Passive Place the local router in Passive mode. Polling T imer Specifies the time interval, in seconds, between EGP Poll commands. Default: 120 (seconds) Options 120 , 150, 180, 210, 240, 270, 3 00, 330, 360, 390, 420, 450, 48 0 (seconds) Poll Interval Allows the router to send additional Hello packets at a reduced rate even though no Hello packets[...]

  • Page 122

    Priority Specifies a weighted value used in the designated router and backup designated router selection algorithm. When two routers attached to the backbone both attempt to become the designated router , the one with the high est P r ior i ty value takes precedence. In the case of equal Priority values, the router with the highest Router ID takes [...]

  • Page 123

    UDP Enables filtering of UDP ports and displays additional parameters on the screen. TCP Enables filtering of TCP ports and displays additional parameters on the screen. Note: For more information about the parameters appearing on the screen when selecting UDP or TCP Proxy ARP Enable s or disables the P roxy ARP protocol. P roxy ARP lets the IP rou[...]

  • Page 124

    Note: The BOOTP relay agent does not need to be turned on in all routers between the client and server . The router adjacent to the client must be a relay ag ent. If the router adjacent to the client has a configured set of BOOTREQUEST destinations that are specific server addresses o r sub net addr esses, then the adjacent route r i s the only rou[...]

  • Page 125

    Default= 15 Maximum = 127 (hops) Note: It is strongly recommended that you accept the default value of 15 for RIP Network Diameter . Proper operation of RIP requires that every router within the network us e the same network dia meter value. Hosts also us e the RIP netw ork diameter to d etermine re achability . RIP Listen Determines whether the IP[...]

  • Page 126

    Note: When configuring a stub area, all routers within the stub area should configure the area as a stub. The router connecting to the backbone typically defines the default route onto the backbone. Subnet Mask Sets the bit mask for determining which portion of the IP address identifies the subnetwork. Subnetworks (called subnets) are two or more p[...]

  • Page 127

    EGP Exterior Gateway Protocol (EGP). RIP Routing Information Protocol (RIP). OSPF Open Shortest Path First Protocol (OSPF). T ransit Area Identifies the OSPF area through whic h traffic to Neighbo r ID is fo rw arded. Enter the area ID in dotted-decimal notation. T ransmit Broa dcast Identifies the interface-specific (network and/or subnet) transmi[...]

  • Page 128

    Adjacent Host Displays a screen for defining an adja cent host route. Adjacent hosts are systems on a locally-atta ch ed ne twork. Select Adja cent Hos t when the network or a particular host does not respond to ARP requests. UDP Checksum Off Enables or disables UDP checksum processing for the network interface. Default: No No Enables checksum proc[...]

  • Page 129

    For more inf orma tion, refer to “UDP /T CP Dest Port (high)” earli er in this chapter . T o learn how to create a Port list, refer to “Port (low)” and “Port (high)” earlier in this chapter . UDP/TCP Source Port (high) Sets the upper boundary of the range for filtering a UDP or TCP source port. Options Set the Protocol parameter to Igno[...]

  • Page 130

    8 DECnet Parameters[...]

  • Page 131

    Overview DECnet Parameters: Implements the Digital Netwo rk Arch itecture (DNA) session-control layer , which corresponds to the session layer of the Internati on al Standards Org anization’ s Open Systems In terconnect (OSI) refer ence model. (Supports Phase IV DECne t.) Page DECnet Parameters 8-4 Action 8-4 Area 8-4 Are a (high) 84- Area (low) [...]

  • Page 132

    Page DECnet Parameters — Continued From Previous Page — 8-6 Circuit Group Name 8-6 Cost 8-6 Dest Area (high) 8-7 Dest Area (low ) 8-7 Dest Node (high) 8-8 Dest Node (low) 8-8 Effect 8-9 Hello T imer 8-9 List Name 8-9 Max. Area 8-9 Max. Bcast End Nodes 8-9 Max Cost 8-9 Max Hops 8-9 Max. Nodes 8-10 Max. Visits 8-10 Node 8-10 Node (high) 8-10 Node[...]

  • Page 133

    Parameters and Options Action Determines the disposition of DECnet packets meeting the conditions set for a filter . Default: Drop Drop Discards a packet meeting the filter rule. Accept Relays a packet meeting the filter rule. Area Determines the DECnet ID number of the local area. Default: 1 Range: 1 to 63 Area (high) Sets the upper boundary of th[...]

  • Page 134

    Area Max. Cost Sets the maximum cost of a path to any area in the network. DECnet determines path costs by summing the individual sequential circuit costs. Circuit costs are decimal values reflecting the relative spe ed of the transmission media: the faster the media, the low er the cost. Refer to T able 8-1 at the end of this chapter for sugges te[...]

  • Page 135

    Bcast Routing T imer Sets the maximum number of seconds between routing topology message s issued by the router . Default: 180 Options 15, 30, 45, 60, 75, 90, 105, 120, 135, 1 50, 165, 180 Circuit Group Name Identifies the name of a circuit group for DECnet routing. This is one of the circuit groups configured for the Circuit Group menu. For more i[...]

  • Page 136

    Enter the DECnet ID of the highest destination area in the range if you are filtering a range of DECnet destination areas. Leave this field blank and enter the name of the Area list in the Dest Area (low) field if you want to use an Area lis t to establis h the up per and lower ra ng e of DECnet destination areas. For additional information, refer [...]

  • Page 137

    For additional information, refer to “Dest Node (low)” later in this chapter . For more information about Node lists, refer to “Node (high)” and “Node (low)” later in this chapter . Dest Node (low) Sets the lower boundary of the range for filtering a DECnet packet based on the contents of its destination node fi eld. Options Leave this [...]

  • Page 138

    Match Applies the filtering action (drop/accept) if the contents of the packet field falls within the range established by the matching set of (low) and (high) filter parameters . Hello T imer Sets the interval in seconds between Hello messages transmitted across the circuit group. Default: 15 Options 15, 30, 45, 60, 600, 1800, 2400, 3600 List Name[...]

  • Page 139

    Note: All routers within the extended (Phase IV) network must be configured with the same Max. Area and Max. Nodes values. Max. Visits Determines packet lifetime by specifying the number of times a packet can pass through the DECnet router . Such a limitation prevents a corrupted packet, or a packet whose destination node has somehow become unreach[...]

  • Page 140

    For more inf orma tion, refer to “Node (hig h)” earlier i n thi s chapter . T o learn how to assign an Node list to a filter , refer to “Dest Node (low)” and ”Source Node (low).” Number of Rout ers Identifies the number of adjac ent DECnet routers associated with this circuit group. Refer to your network map to determine this number . D[...]

  • Page 141

    Note: In the event of two filters with equal precedence, the first configured filter takes precedence over the second filter . Remote Area Identifies the area address of the remote target. Default: 63 Range: 1 to 63 Remote Node Identifies the no de addr ess of the remote target. Default = 1023 Range: 1 to 1023 Remote WAN Address Identifies the prot[...]

  • Page 142

    Enter the DECnet ID of the source are a in thi s fi el d an d leave the Source Area (high) field blank if you are filtering a single DECnet source area. Enter the DECnet ID of the lowest source area in this field and enter the DECnet ID of the highest s ourc e area in the Source Area (high) fi eld if you are filtering a range of DECne t source area[...]

  • Page 143

    Enter the Area list name in this field and leave the Source Node (high) field blank if you want to use an Area list to establish the upper and lower range of DECnet source nodes. For more information, refer to “Source Node (high)” earlier in this chapter . For more information about Area lists, refer to “Area (high)” and “Area (low)” ea[...]

  • Page 144

    9 SNMP Agent Parameters[...]

  • Page 145

    Overview SNMP Parameters Enable the Simple Networ k Management Proto- col (SNMP) agent, which allows the router to respond to queries from a network manager , and to report certain router events such as reinitializa- tions and disabled interfaces. Page SNMP Parameters 9-3 Community Name 9-3 Event Filter Level 9-3 Node Address 9-4 Send Event Message[...]

  • Page 146

    Parameters and Options Community N ame Serves as a password for network managers (“application entities” in SNMP terminology) to have access to the SNMP agent on this router . The SNMP application running on the network management node configures one or more community names the node may us e in i ts queries to agents . Ea ch query uses one name[...]

  • Page 147

    Options Leave this field blank if no ac cess of any type is allowed by either this console or any remote network managers, even if other parameters are set to “enable” the agent. You must enter an address to have access. Enter the address of a networ k mana gement s tati on in dotted-deci mal no tati on. To have access to this router’s agent,[...]

  • Page 148

    Regular Allows the router’ s agent to respond to queries. Tr a p Allows the router’ s agent to generate unsolicited asynchronous notifications of significant events, such as booting and enabling or disabling interfaces. Note: Additional fields are displayed when you select the Session T ype. For more information about the additional fields, ref[...]

  • Page 149

    [...]

  • Page 150

    10 Xerox Network Systems (XNS) Router Parameters[...]

  • Page 151

    Overview XNS Parameters: Enable use of the Xerox Network Systems Internet T ransport Protocols (XNS) suite for establishing routing over Ethernets and across point-to-point lines. Page XNS Parameters 10-4 Action 10-4 Auto Enable 10-4 Circuit Group 10- Che cksums On 10-5 Dest Host (high) 10-5 Dest Host (low) 10-5 Dest Network (high) 10-6 Dest Networ[...]

  • Page 152

    Page XNS Parameters — Continued from preceeding page — 10-7 Effect 10-8 Host lists 10-8 Host (high) 10-8 Host (low) 10-8 Host Number 10-8 Network Number (high) 10-9 Network Number (low) 10-9 Network lists 10-9 Network Number 10-9 Next Hop Host 10-9 Next Hop Net 10-9 Packet T ype (high) 10-10 Packet T ype (low ) 10-10 Precedence 10-10 RIP Interf[...]

  • Page 153

    Parameters and Options Action Determines the disposition of packets meeting the filter rule: Default: Drop Accept Relays a packet meeting the filter rule. Accept and Log Relays a packet meeting the filter rule and records an event message in the event log. Drop Discard a packet meeting the fi l ter rule. Drop and Log Drop Discards a packet meeting [...]

  • Page 154

    No Disables check summing. Ye s Enables check summing. Dest Host (high) Sets the high boundary of the range for filtering an XNS packet based on the contents of its destination host fie l d. Options Leave this field blank if you do not want to filter XNS destination hosts. Leave this field blank and enter the XNS host number in the Dest Host (low) [...]

  • Page 155

    Leave this field blank and enter the XNS network number in the Dest Network (low) field if you are filtering a single XNS destination network numbers. Enter the highest XNS network number in the range if you are filtering a range of XNS destination network number. Leave this field blank and enter the name of the Network list in the Dest Network (lo[...]

  • Page 156

    Leave this field blan k and ente r the na me of the Socket lis t in the Dest Socke t (low) field if you want to use a Socket list to establish the upper and lower range of XNS destination socket numbers. For additional information, refer to “Dest Socket (low)” later in this chapter . For more information about Socket lists, refer to “Socket ([...]

  • Page 157

    Ignore Applies no filtering action if the contents of the packet field falls within the range established by the matching set of (low) and (high) parameters.. Match Applies the filtering action (drop/accept/log) if the contents of the packet field falls within the rang e esta bl is hed by the matching set of (l ow ) and (high) paramete rs. Host lis[...]

  • Page 158

    Options Leave this field blank and enter the XNS network number in the Network Number (low) field if you are fil te ri ng a single XN S sour ce or de sti nation network. Enter the XNS highest network number in the range if you are filtering a range of XNS source or destination networks. For additional information, refer to “Network Number (low)?[...]

  • Page 159

    Enter the highest XNS packet type number in the range if you are filtering a range of XNS packet type numbers. Enter the list name in the Packet Type (low) field and leave this field blank if you are creating an XNS Packet Type filter and want to create a range of packet type numbers with a filter list. For additional information, refer to “Packe[...]

  • Page 160

    Ye s Sets th e route r to add routes received in RIP update s from neighboring ro uter s to its own internal routing table. RIP Supply Enables or disables the RIP supply function, determining whether the XNS router transmits periodic RIP updates to neighboring routers across the Circuit Group. Default: Y es No Prevents the router from transmitting [...]

  • Page 161

    No Disables source routing over token ring media. Ye s Enables source routing over token ring media. Note: If the router does not have a token rin g port, al ways set this paramete r to No. Source Host ( high) Sets the upper boundary of the range for filtering an XNS packet ba sed on the contents of its sou rce host field. Options Leave this field [...]

  • Page 162

    Options Leave this field blank if you do not want to filter XNS source networks. Leave this field blank and enter the XNS network number in the Source Network (low) field if you are filtering a single XNS source network. Enter the highest XNS host number in the range if you are filtering a range of XNS source networks. Leave this field blank and en[...]

  • Page 163

    Leave this field blank and enter the name of the Socket list in the Source Socket (low) field if you want to use a Socket list to establish the upper and lower range of XNS socket numbers. For additional information, refer to “Source Socket (low)” later in this chapter . For more information about Socket lists, refer to “Socket (high)” and [...]

  • Page 164

    11 IPX Protocol Parameters[...]

  • Page 165

    Overview IPX Parameters: Enable use of the Internet Packet Exchange Protocol (IPX) in support of a wide variety of LAN topologies and media. Page IPX Parameters 11-5 Accept NETBIOS Bcasts from net 11-5 Action 11-5 Auto Enable 11-6 Circuit Group 11-6 Deliver NETBIOS Bcasts to net 11-6 Dest Host (high) 11-6 Dest Host (low) 11-7 Dest Netw ork (Hex) 11[...]

  • Page 166

    Page IPX Parameters — Continued fr om previous page — 11-8 Dest Socket (high) 11-8 Dest Socket (low) 11-9 Effect 11-9 Encapsulation T ype 11-10 Host lists 11-10 Host Number (high) 11-10 Host Number (low) 11-11 Internal Network Number 11-11 Internal Router Name 11-11 IPXW AN 11-11 List Nam e 11-11 Network lists 11-11 N etwork Number 11-11 N etwo[...]

  • Page 167

    Page IPX Parameters —Continued From Previous Pag e— 11-16 Sourc e Host (high) 11-16 Sourc e Host (low) 11-17 Source Network (high) 11-17 Sourc e Network (low) 11-18 Source Route (T oken Ring) 11-18 Sourc e Socket (high) 11-18 Sourc e Socket (low) 11-19 T arget Net 11-19 W AN SAP Period IPX Protocol Parameters Overview 11-4[...]

  • Page 168

    Parameters and Options Accept NETBIOS Bcasts from net Enables or disables “local” client acc ess to remote NETBIOS servers. Default: Y es No Disables cli ent access to the int er net and effectively restricts NE TBI OS clients to those services offere d by local servers. Ye s Enables NETBIOS client access to the interne t; NETBIOS broadcasts ge[...]

  • Page 169

    When the global Auto Enable i s set to Yes, the IPX router (a s are all other application software modules) is conditionally enabled—the IPX router can be enabled or disabled by setting the IPX-spec ifi c Au to Enable parameter. Default: Y es No Disables the IPX router . Y ou will need to re-enable the IPX router manually with the NCL Interprete [...]

  • Page 170

    Options Leave this field blank if you do not want to filter IPX destination hosts. Enter the IPX host number in this field and leave the Dest Host (high) field blank if you are filtering a single IPX destination host. Enter the lowest IPX host number in this fi eld and enter the highest host nu mbe r in the Dest Host (high) field if you are filteri[...]

  • Page 171

    Enter the lowest IPX network number in this field and enter the highest network number in the Dest Network (high) field if you are filtering a range of IPX destination networks. Enter the Network list name in this field and leave the Dest Network (high) field blank if you want to use a Network l ist to establish the upper and lower range of destina[...]

  • Page 172

    For additional i nformation, refe r to “D est Socket (high)” earl ier in this chapter . For more information about Socket lists, refer to “Socket (high)” and “Socket (low)” later in this cha pter . Effect Determines whether packets are dropped or relayed (filtered) based on the contents of packet fields and a range establishe d by a mat[...]

  • Page 173

    802.2 Enables IEEE 802.2 logical link control encapsulation. The 802.2 encapsulation method prefixes one octet of destination service access point identification, one octet of source service access point identification, and one octet of control information to the IPX packet. The 802.2 packet, in turn, will be encapsulated within a packet specific t[...]

  • Page 174

    For additional information, refer to “Host Number (high)” earlier in this chapter . T o learn how to assign a Host list to a filter , refer to “Dest Host (low)” and “Source Host (low).” Internal Network Number Required if IPXW AN is set to "Y es". Must be unique within the relevant routing area, and is distinct from the networ[...]

  • Page 175

    Options Leave this field blank and enter the IPX netw ork number in the Network Number (low) field if you are filtering a single IPX source or destination network. Enter the highest IPX network number in the range if you are filtering a range of IPX source or destination netw orks. For additional information, refer to “Network Number (low)” lat[...]

  • Page 176

    Options Leave this field blank and enter the IPX packet type number in the Packet Type (low) field if you are filtering a single IPX packet type number. Enter the highest IPX packet type number in the range if you are filtering a range of IPX packet type numbers. Enter the list name in the P acket Type (low ) fi eld and leave this fi eld blank if y[...]

  • Page 177

    Ye s Enables random load balancing and disables Host ID load balancing—the router evenly distribute s IPX network traffic among all circuits wi thi n a cir cuit group to carry all network traffi c (packets) between the sour ce and destination. Note: In some cases, random l oad balancing can interfere with Novell burs t mode NLM. RIP Interface Cos[...]

  • Page 178

    SAP driven RIP supply Decreases the amount of RIP traffic advertised by the IPX router over specified interfaces. S AP dri ven RIP s upply works in conjunction with any SAP filters that you may have enabl ed on an i nterface to determi ne which servers are advertised by the interface. If SAP-driven RIP supply is configured on the interface, then on[...]

  • Page 179

    Socket (low) Sets the lower boundary of the range for filtering IPX source or destination sockets when creating a Socket lis t. Options Enter the IPX socket number in this field and lea ve the Socket (high) field blank if you are filtering a single IPX source or destination socket. Enter the lowest IPX socket number in this field and enter the high[...]

  • Page 180

    For additional information, refer to “Source Host (high)” earlier in this chapter . For more information about Host lists, refer to “Host Number (high)” and “Host Number (low)” earlier in this chapter . Source Net work (hi gh) Sets the upper boundary of the range for filtering an IPX packet based on the contents of its source network fi[...]

  • Page 181

    Source Route (T oken Ring) Enables or disables source routing over token ring media for the interface you are defining. Because the HP Router PR does not have a token ring port, this option should always be set to No. Default: No No Disables token ring source routing. Source Socket (high) Sets the upper boundary of the range for filtering an IPX pa[...]

  • Page 182

    T arget Net Identifies a specific network in an internet. WAN SAP Period Sets the time interval elapsing when the IPX router transmits GSRs across any W AN link. Default: 1 (minute) Range: 0 to 99 (minutes) IPX Protocol Parameters 11 IPX Protocol Parameters Parameters and Options 11-19[...]

  • Page 183

    [...]

  • Page 184

    12 AppleT alk Parameters[...]

  • Page 185

    Overview AppleT alk Parameters: Implement the AppleT alk Phase 2 protocol to operate with Ethernet and T oken Ring networ ks. Note The AppleT alk router does not support AppleT alk Phase 1. Phase 1 traffic cannot be routed through the AppleT alk router . However , such traffic can be relayed through a bridge. Access to Ap pleT alk parameters Figure[...]

  • Page 186

    Page AppleT alk Par ameters 12-6 AARP Mapping T able Size 12-6 Checksum 12-6 Cir cuit Group Name 12-6 Cost 12-6 DDP T yp e Lis ts 12-6 DDP T yp e (high) 12-7 DDP T ype (low) 12-7 Default Zone Name 12-7 DDP T ype (low) 12-7 Default Zone Name 12-7 Dest Net (high) 12-8 De st Net (low) 12-8 De st Node (high) 12-9 De st Node (low ) 12-9 Dest Sock (high)[...]

  • Page 187

    Page AppleT alk Par ameters — Continued From Previous Page — 12-15 Socket (low) 12-15 Source Net (high) 12-15 Source Net (low) 12-16 Source Node (high) 12-16 Source Node (low) 12-17 Source Route (T oken Ring) 12-17 Source Sock (high) 12-17 Source Sock (low) 12-18 Zone Filter 12-18 Zone Name 12-18 Zone T able Size AppleTalk Parameters Overview 1[...]

  • Page 188

    Parameters and Options Action Determines the filtering action taken when the contents of a AppleT alk datagram field meet the crit eria established for a filter rule. Default: Drop and Log Accept Relays a datagra m meeting the f i lter rule. Accept and Log Relays a datagram meeting the filter rule and reco rds th e action in the event log . Drop Di[...]

  • Page 189

    AARP Mapping T able Size Specifies the number of entries in the AppleT alk router’ s address-resolution mapping table. Estimate the number of end nodes on the attached local network. Then select the next highest number from one of the following toggle options: Default: 887 Options 53, 211, 523, 887, 1327, 3327, 9551. Checksum Enables or disables [...]

  • Page 190

    Enter the list name in the DDP Type (low) field and leave this field blank. if you are creating an DDP Type filter, and want to specify one or more ranges of DDP Types with a DDP Type list. For additional information, refer to “DDP T ype (low)” later in this chapter . Note: The creation of DDP T ype filters and DDP T ype lists is similar—the [...]

  • Page 191

    Leave this field blank and enter the name of the Network list in the Dest Net (low) field if you want to use a Network list to establish the upper and lower range of AppleTalk destination network numbers. For additional information, refer to “Dest Net (low)” later in this chapter . For more information about Network lists, refer to “Network N[...]

  • Page 192

    Dest Node (low) Sets the l ower boundary of the range for filtering a datagram based on the contents of its destination node field. Options Leave this field blank if you do not want to filter AppleTalk destination nodes. Enter the AppleTalk node identifier in this field and leave the Dest Node (high) field blank if you are filtering a single AppleT[...]

  • Page 193

    Enter the lowest AppleTalk socket number in this field and enter the highest socket number in the Dest Sock (high) field if you are filtering a range of AppleTalk destination sockets. Enter the Socket list name in this field and leave the Dest Sock (high) field blank if you want to use a Socket list to establish the upper and lower range of destina[...]

  • Page 194

    Note: Lists can simplify the process of creating filters. For example, you could enter the name of a Node list in the Dest Node (low) field rather than creating a range of nodes to filter by entering a range of nodes in the Dest Node (low) and Dest Node (high) fields. Lists save time when you need to filter the same range of source or destination p[...]

  • Page 195

    Network Min Functional when Seed Router set to ‘ ‘Y es’ ’. Operates in conjunction with Network Max to specify the range of network numbers available to nodes on the directly- connected AppleT alk network. In order to increase the number of nodes residing on a local netw o rk, AppleT alk Phase 2 mandates that the seed router provide a rang [...]

  • Page 196

    For additional information, refer to “Node (low)” later in this chapter . T o learn how to assign a Node list to a filter , refer to “Dest Node (low)” and “Source Node (low).” Node ID Assigns the circuit-group-specific node identifier portion of the AppleT alk address. The AppleT alk router uses multiple AppleT alk addresses (one addres[...]

  • Page 197

    Probe W orks in conjunction with the Node ID parameter and, in the case of seed routers, the Network parameter to enable or disable the generation of AARP Probe datagrams and their subsequent transmi ssion across Circuit Group Name. Note: It is recommended that you enable Probe, even if you plan to assign an explic it node identifier . Enabling Pro[...]

  • Page 198

    Socket (high) Sets the upper boundary of the range for filtering AppleT alk source or destination sockets when creating a Socket lis t. Options Lea ve this field blank and enter the AppleTalk socket number in the Socket (low) field if you are filtering a single AppleTalk source or destination socket. Enter the highest AppleTalk socket number in the[...]

  • Page 199

    Options Leave this field blank if you do not want to filter AppleTalk source networks. Enter the AppleTalk network number in this field and leave the Source Net (high) field blank if you are filtering a single AppleTalk source network. Enter the lowest AppleTalk network number in this field and enter the highest network number in the Source Net (hi[...]

  • Page 200

    Enter the Node list name in this field and leave the Source Node (high) field blank if you want to use a Node list to establish the upper and lower range of source node identifiers. For additional information, refer to “Source Node (high)” earlier in this chapter . For more information about Node lists, refer to “Node (high)” and “Node (l[...]

  • Page 201

    Enter the lowest AppleTalk socket number in this field and enter the highest socket number in the Source Sock (high) field if you are filtering a range of AppleTalk source sockets . Enter the Socket list name in this field and leave the Source Sock (high) field blank if you want to use a Socket list to establish the upper and lower range of source [...]

  • Page 202

    13 X.25 Service Parameters[...]

  • Page 203

    Overview X.25 Paramete rs: Use LAPB circuits to operate X.25 DDN, X.25 PDN, and X.25 Point to Point services. Access to X.25 parameters Figure 13-1 . Access to X.25 Parameters X.25 Service Parameters Overview 13-2[...]

  • Page 204

    Page X.25 Parameters 13-4 Auto Enable 13-4 Broadcast 13-4 Call Retry T imer (secs) 13-5 Circuit Name 13-5 Circuit T ype 13-5 Closed User Group 13-5 Connection ID 13-6 Flow Control 13-6 Group Number 13-6 High PVC LCN 13-6 High SVC LCN 13-7 Internet Address 13-7 IP Address 13-8 Local DTE Address 13-8 Lower Circuit Name 13-8 Low PVC LCN 13-8 Low SVC L[...]

  • Page 205

    Parameters and Options Auto Enab le Determines the initial state of the LAPB circuit. The LAPB-specific Auto Enable parameter works in conjunction wi th the global Auto Enable parameter based on the following criteria: When global Auto Enable is No, the LAPB circuit identified by Circuit Name is unconditionally disabled—the LAPB-specific Auto Ena[...]

  • Page 206

    Call Retry T imer (secs) is activated in th e eve nt of an failed call atte mpt and prevents a potential “thrashi ng ” situation that ma y oc cu r when the IP router dir ects a stre am of datagrams to a busy or unreachable destination. W ith the timer enabled (set at a non- zero value), the X.25 PDN service drops received datagrams and transmit[...]

  • Page 207

    Flow Ctrl Enables or disables Flow Control Parameter Negotiation. Flow Control Parameter Negotiation is available as a subscription option from most service providers. Default: Negot Deflt Disables flow control negotiation. W ith negotiation disabled, the configured value s for Pkt W indow and Pkt Size serve as the defaults ac ro ss the ci rc ui t.[...]

  • Page 208

    High SVC LCN = [254 / N ] + Low SVC LCN - 1 where: N is the number of LAPB circuits on the slot. [254 / N ] is the integer quotient of 254 divided by N . Low SVC LCN is the value as signed to the Low SVC LCN p arameter. If you are configuring a combination of X.2 5 DDN, X.25 PDN or X.2 5 Switch service in conjunction with X.25 Point-to-Point servic[...]

  • Page 209

    Local DT E Address Sets the network-supplied decimal number (X.121 Address) identifying the interfac e between the route r and th e X. 25 network. After assi gning the local DTE addr ess, the screen prompts for X.25 address map data. Lowexxr Circuit Name Assigns the cir cu it providing the LAPB servi ce. Enter the name of the pr evio usly configure[...]

  • Page 210

    Max Link Latency (m s) (0=none) Determines how many byte s can be qu eued on a W AN link (expressed i n milliseconds). For a detailed descri ption, refer to ‘ ‘Max Link Latency (ms) (0=none)’ ’ on page -. Max Queue Size Sets the maximum size (in packets) of the transmit queue of each individual X.25 virtual circ ui t. If the value specified[...]

  • Page 211

    N2 Determines the number of times a frame is retransmi tted before the circuit is res et. If a frame remains unacknowledged at the expiration of the T1 timer , X.25 retransmits the outstanding frame u p to N2 times, with each retrans mittal requesting an immediate ackn owledgment. If the frame remains unacknowledg ed after N2 retrie s, the router r[...]

  • Page 212

    TRANSP AC PDN subscription service. Use Bitmap Displays the Bitmap (hex) field and allows you to construct a 32-bit status word for specifying certa i n low-level attribu tes of th e i nterface between the route r and the X.25 service pro vider . T able 13-1 (page 13-13), “X.2 5 PDN Parameter Bitm ap Argument V a lues ”, shows you how to cons t[...]

  • Page 213

    SVC Enables or disables switched virtual circuits (SVCs). Default: Y es No Disables switc hed vi rtual circui ts . Ye s Enables switched virtual circ ui ts. When SVC i s enabled, the Low SVC LCN and High SVC LCN parameter s take effect. T1 Sets the T1 time i nterval, in tenths of a secon d, d etermining how long a fr ame can remain unacknowledged. [...]

  • Page 214

    T able 13-1. X.25 PDN Parameter Bitmap Argu ment V alu es Bit Number Function ON (logical 1) OFF (logical 0) 20 to 31 Reserved for future use n/a n/a 19 LINE_MODE X.25 line behaves as a DCE at network and data- link layers, but remains DTE at physical lay er . X.25 line behaves as a DTE at network, data-link, and physical layers. 18 FRAME LEVEL KEE[...]

  • Page 215

    T able 13-1. X.25 PDN Parameter Bitmap Argu ment V alu es Bit Number Function ON (logical 1) OFF (logical 0) 10 COLLISION REJECT If a Clear Collision occurs, and the received CLEAR packet has a bad length, a new CLEAR packet is sent with a diagnostic code. If a Clear Collision oc curs, and the received CLEAR packe t has a bad length, a new CLEAR pa[...]

  • Page 216

    T able 13-1. X.25 PDN Parameter Bitmap Argu ment V alu es Bit Number Function ON (logical 1) OFF (logical 0) 3 DISC ANSWER If X.25 sends an SABM (or is waiting for one), and receives a DISC, it responds with a UA. If X.25 sends an SABM (or is waiting for one), and receives a DISC, it responds with a DM. 2 CLEAR P/F Rec eiving an unknown frame cause[...]

  • Page 217

    [...]

  • Page 218

    14 V .25 bis Network Mapping[...]

  • Page 219

    Overview V .25 bis Network Mappin g Parameters: Enab le th e ro uter to choose an available port for establishing a v .25 bis connection with a remote router . Used when you want the router to be able to contact more than one next-hop router . Page Circu its P arameters 14-3 Connect Retry 14-3 Connect wait time 14-3 Hold down time 14-4 IP Next Hop [...]

  • Page 220

    Parameters and Options Connect retry co unt Sets the number of times per phone number that the router tries to establish a connection if the initial call attempt fails. The range i s 1 (try only once) to 30. Where multiple phone numbers are specified, they will be used in a circular fashion. For example, if you set Connect retry count to 3, the rou[...]

  • Page 221

    IP Next Hop Designates the router through which to access the target network. This is the next hop router address configured under IP static routes. Enter the IP address of the next hop router in do tted decimal notation. Remote Station Num ber Is the phone number to the next-hop router . Y ou can assign up to 15 numbers to the same router . If the[...]

  • Page 222

    Part II General Operating Reference Pa rt I I[...]

  • Page 223

    Part II[...]

  • Page 224

    15 Using the Statistic Screens[...]

  • Page 225

    This chapter provides a reference to the statistics screen outputs available in Hewlett-Packard router s. For information on how t o operate the statistics screens, refer to the Us er’ s Guide . The range of statistics available in most Hewlett-Packard routers includes: AppleT alk Router statistics (page 15-4) Summarizes for each AppleT alk route[...]

  • Page 226

    In the factory defaul t state, the Circuit, Per Second, Bridge, and Buf fers Usage statistics are ava ilable. The indivi dual routing service s t at istics are available when the corres ponding routing se rvices are e nabled by the Protocol parameter in the Software menu in your router’ s configuration. Note All of the above-listed statistics are[...]

  • Page 227

    AppleT alk Router Statistics Screen The AppleT alk Router Statistics screen is availab le if the AppleT alk routin g service is enabled in your configuration. This screen summarizes AppleT alk traffic volume for each circuit grou p. T o see more detailed AppleT alk statistics maintained by the r outer , you can use the NCL Get com mand. Figure 15-1[...]

  • Page 228

    Categories on the AppleT alk Router Statistics screen are the following: NAME Lists each AppleT a lk circuit group by name. Receive Lists the number of AppleT alk packets received on the circuit gro up. Forward Lists the number of AppleT alk packets transmitted. Drop Lists the number of received AppleT alk packets dropped by the App leT alk Router [...]

  • Page 229

    Bridge Statistics Screen The Bridge Statistics screen is available if the bridge service is enabled in your configuration. This screen summarizes bridge traffic volume for each circuit group. Figure 15 -2. Bridge Statistics Sc reen Using the Statistic Screens Bridge Statistics Screen 15-6[...]

  • Page 230

    Categories on the Bridge Statistics screen are the following: NAME Lists each individual circuit group by name. Receive Lists the number of frames received by the circuit gr oup. Forward Lists the nu mber of received frames th at were forwarded by the bridge. Forwarding requires that the bridge “lear ned” the destination address. Flood Lists th[...]

  • Page 231

    Buffers Usage Statistics Screen The Buffers Usage Statistics screen, always available, summarizes the allocation, usage, and availability of global memory buffers within the router . Global memory contains two types of buffers: message and packet. Message buffers are used for inter -process communications internal to the router . Packet buffers are[...]

  • Page 232

    Categories on the Buffers Usage Statistics screen are the following: MSG: miss Lists the number of times the router was unable to obtain a message buffer (that is, all buffers were in use). MSG: init Lists the number of message buffers allocated when the router booted. MSG: free Lists the number of message buffers available for use. Due to overhead[...]

  • Page 233

    Circuit Statistics Screen The Circuit Statistics screen summarizes traffic volume for each cir cuit on the router . For more detailed circu it statis tics maintained by th e router , use the NCL Get command. Figure 15-4 . Circuit Statistics Screens Using the Statistic Screens Circuit Statistics Screen 15-10[...]

  • Page 234

    Categories on the Circuit Statistics screen are the following: NAME Lists each in dividual con figu red circuit by nam e. Rx: Bytes Lists the number of bytes of data received by the circuit. Rx: Frames Lists the number of frames received by the circuit. Rx: Err Lists the number of f au lty frames (frames that contai ned an error) received by the ci[...]

  • Page 235

    DECnet Router Statistics Screen The DECnet Router Statistics screen is available if the DE Cnet routing service is enabled in your configuration. This screen summarizes DE Cnet traffic volume for each circuit grou p. T o see more detailed DECnet s tat istics maintained by the router , you can use the NCL Get command. Figure 15-5 . DECnet Router Sta[...]

  • Page 236

    Categories on the DECnet Router Statistics screen ar e the following: NAME Lists each DECnet circuit group by name. Receive Lists the number of data frames received on the circuit group. Forward Lists the number of data frames transmitted on the circuit group. Drop Lists the number of data frames dropped by the router . TOT AL Lists the total for e[...]

  • Page 237

    DoD IP Router Statistics Screen The DoD IP Router Statistics sc reen is av ailable if DoD Internet (IP) routin g is enabled in your configuration. This screen summarizes traffic volume for each IP network interface. Figure 15-6 . DoD IP Router Statistics S creen Using the Statistic Screens DoD IP Router Stat istics Screen 15-14[...]

  • Page 238

    Categories on the DoD IP Router Statistics screen are the following: NAME Lists each network interface address in dotted decimal notation. Receive Lists the number of IP datagrams received by the network interface. T ransmit Lists the number of IP datagrams transmitted by the network interface. Deliver Lists the number of IP datagrams addressed to [...]

  • Page 239

    IPX Router Statistics Screen The IPX Router Statistics screen is available if IPX routing is enabled in your configuration. This screen summarizes traffic volume for each IPX network interface. Figure 15 -7. IPX Router Statist ics Screen Using the Statistic Screens IPX Router Statistics Screen 15-16[...]

  • Page 240

    Categories on the IPX Router Statistics screen are the following: NAME Lists the network interface address in 8-digit hexadecimal format. Receive Lists the number of IPX datagrams received by the network interface. T ransmit Lists the number of IPX datagrams transmitted by the network interface. Deliver Lists the number of IPX datagrams delivered b[...]

  • Page 241

    Per Second Statistics Screen The Per Second Statistics screen summarizes traffic volume per second for each circuit on the router . Figure 15-8 . Per Second Statistics Screen Using the Statistic Screens Per Second Statistics Screen 15-18[...]

  • Page 242

    Categories on the Per Second Statistics screen ar e the following: NAME Lists the circuit name(s). RX: Bytes Lists the number of bytes per second of data received by the circuit. RX: Frames Lists the number of frames per second received by the circuit. TX: Bytes Lists the number of bytes per second of data transmi tted by the circuit. TX: Frames Li[...]

  • Page 243

    XNS Router Statistics Screen The XNS Router Statistics screen is available if the XNS routing service is enabled in your configuration. This screen summarizes traffic volume for each XNS network interface. Figure 15-9 . XNS Router Statistics Screen Using the Statistic Screens XNS Router Statistics Screen 15-20[...]

  • Page 244

    Categories on the XNS Router Statistics screen are the following: NAME Lists the network interface address in 8-digit hexadecimal f ormat. Receive Lists the number of XNS datagrams received by the network interface. T ransmit Lists the number of XNS datagrams transmitted by the network interface. Deliver Lists the number of XNS datagrams delivered [...]

  • Page 245

    [...]

  • Page 246

    16 Using the Network Control Language[...]

  • Page 247

    Managing Router Operations and Resources The commands available in this category are the following. Command Function [!] [repetitions] Repeat the last NCL command (page 16-4). Atping x.x [wait] Send an AppleT alk Echo Proto col request to another AppleT al k node (page 16-4). Boot Reboot the rout er (page 16-5) . Browse Display the entire current c[...]

  • Page 248

    Command Function Repeat Continually rep eat the last NCL command until another key is pressed (page 16-22). Stamp Display software version information (page 16-23). Stats Invoke the Statistics Screens menu witho ut leaving NCL (page 16-24). Summary Display the Quick Configuration summ ary without leaving NCL (page 16-25). T elnet X.X.X.X Establish [...]

  • Page 249

    ! Repeating the Previous NCL Command Use the exclamatio n mark (the [!] key) to repeat the previous NCL command once or a number of times. Syntax ! [repetitions] [repetitions] (optional) specifies how many times to repeat the previous command. If you do not specify a number , it is repeated only once. Example get lb.ether1g.recv ! Repeats the Get c[...]

  • Page 250

    Boot: Rebooting the Router Use NCL ’ s Boot command to reboot the router . Any changes in configuration or password will take effect, and the console session is restarted. Note If you see “ NCL ERR- - invalid command (ig nored) ” in response to the Boot command, it is possible you did not use the manager pass- word when starting this console [...]

  • Page 251

    Browse: Displaying the Formatted Configuration Use NCL ’ s Browse command to display all of the configuration screens that the Configuration Editor presents, as if you had chosen the Br owse action for each screen. The configuration is displayed in its entirety on the console s creen, no t divid ed into th e same inte rac tive screens as th e Con[...]

  • Page 252

    Crash: Displaying the Crash and Reboot History Use NCL ’ s Crash command to display the times and reasons for the last four occasions the router was rebooted or restarted. For the HP Router 650, Crash also displays this information for each of the interface modules. (T o output the display to a printer or file instead of your console screen, see [...]

  • Page 253

    Disable: Disabling Configured Enti ties Use NCL ’ s Disable command to remove a routing service, a circuit, an X.25 point-to-poi nt virtual circuit, or another configured soft ware o bject from service. (Y ou cannot use Disable to disable a line.) On the HP Router 650, you can also enable a previously disabled interface module slot.Y ou need to i[...]

  • Page 254

    Enable: Enabling Configured Entities Use NCL ’ s Enable com mand to place a configured protoc ol application, circuit, an X.25 point-to-point virtual circuit, or other configured software object into ser vice. Y ou would do this f or: Entities previously disabled using the Disable command Entities con figured not to be au to-enabled w hen the rou[...]

  • Page 255

    Exit: Leaving NCL, Back to the Main Menu Use NCL ’ s Exit command to exit NCL and return to the Main menu (see figure 1-2 in chapter 1). Syntax exit Help: Listing the NCL Commands Use NCL ’ s Help command to display a summar y of syntax and functions of NCL commands. (T o output the display to a printer or file instead, see the Print command on[...]

  • Page 256

    Log: V iewing the Entire Event Log or Selected Message Categories Use NCL ’ s Log command to display any of the following: The event log messages generated since the last boot. The entire event log that is stored in RAM (up to 1000 lines) The events whose severity is W arning, Performance, or Major The events that contain a search string that you[...]

  • Page 257

    log ’ string ’ log -a log -a filter log -a ‘ string ’ Examples of Log ‘‘string” log ‘mgr’ Displays all messages in the event log (since the last boot)that have the string ‘ ‘mgr’‘. log ‘rok’ Displays all messages in the event log (since the last boot) that have the string ‘ ‘rok’ ’. log -a ‘mgr’ Displays al[...]

  • Page 258

    Logi: Invoking the Automatically Updating Event Log Use NCL ’ s Logi command to switch to the event log view , as if you had chosen “Event Log” fr om the Main menu. The function of Lo gi is to allow you to go to the event log without leaving NCL. Refer to chapter 17 for information on interpreting the contents of the event log. (If you need t[...]

  • Page 259

    Page: T oggle Page Mode Use NCL ’ s Page command to enable or disable page mode. Wi th page mode enabled (the default), output is displayed on the console one page (twenty lines) at a time. W ith page mode disabled, output is displayed continuously . Syntax page More: Continuing the Display When page mode is enabled (as i t is by default), and mo[...]

  • Page 260

    Password: Implementing Password Protection Use NCL ’ s Password command to assign, change, or remove the passwords protecting console access to the router . Such access may be local, through a modem, or through T elnet. The router is shipped from the factory wit h no passwords set and thus no password protection. T wo types of password can be set[...]

  • Page 261

    Syntax T o assign an initial password: password The console displays “ Whi ch password is changing? ”. type type is either M for manager or U for user password. The console displays “ Ent er current manager password ”, if a manager password already exists . mgr mgr is the current manager password required, if existing, to assign the user pa[...]

  • Page 262

    Syntax T o remove a password from protecting the router: password The console displays "Which password is changing?”. type type is either M for manager or U for user password. The console displays “ Enter c urrent manager password ” if a manager password exists. mgr mgr is the current manager password requir ed, if assigned, to remove ei[...]

  • Page 263

    Ping: Sending an ICMP Echo Request Message Use NCL ’ s Ping c ommand to send an Internet Control M essage Protocol (ICMP) echo request message to a specific IP address, as a network-layer test of the reachability of the node. Ping does not support loopback (pinging this router) or broadcast addr esses. This router must have IP routing configured.[...]

  • Page 264

    Print: Outputting a Display Command to a File or Printer Use NCL ’ s Print command to redirect the output of any NCL command that displays data on the console screen to a printer or a file. Each line of output is terminated with carriage return and line feed. Y ou can use Print with the commands Help , T ime and Date (with no arguments), Summary [...]

  • Page 265

    print list [i dentifier] print log ’ string ’ print get identi fier print rget... (Commands beginning with rget and print ospf... with o spf are de scribed in later sectio ns of this chapt er .) Quick: Invoking Quick Configuration Use NCL ’ s Quick command to switch to Quick Configuration, as if you had chosen “Quick Configuration” from t[...]

  • Page 266

    Rboot: Rebooting a Remote Router Use the NCL Rboot command to reboot a remote router having version A.08 or later operating code. Any changes made in the configuration or password since the remote router was last booted will take effect. Syntax rboot X.X.X.X [community] X.X.X.X is the IP address (in dotted decimal notation) of a port on the remote [...]

  • Page 267

    Repeat: Continuing to Repeat the Previous NCL Command Use NCL ’ s Repeat command to repeat the previous NCL command over and over until you press any key to stop. The frequency interval is configurable using the Screen Refresh Rate parameter in the Configuration Editor; the default is three seconds. Syntax repeat Example get cct.ether1.octets_tx_[...]

  • Page 268

    Stamp: Displaying the Operating Code V ersion Use NCL ’ s Stamp command to display the router’ s operating code version and date. (T o output the display to a printer or file instead of your console screen, see the Print command on page 16-19.) For example, “A.08.01” is a full version number , which has three fields. The character in the fi[...]

  • Page 269

    Stats: Invoking the Statistics Screens Use NCL ’ s S tats command to switch to the Stat istics Screen menu, as if you had chosen “Statistics Screen Menu ”from the Main menu, as described in chapt er 1. The function of S t at s is to allow you to vi ew the statistics screens without leaving NCL. Refer to chapter 15 for information on how to in[...]

  • Page 270

    Summary: Displaying the Quick Configuration Summary Use NCL ’ s Summary command to display the summary table that Quick Configuration prese nts at the top of the screen. Y ou remain in NCL; you do not actually go into Quick Configuration as selected from the Main menu. (T o output the display to a pri nter or file instead of your console screen, [...]

  • Page 271

    If you enter ‘ ‘y’ ’ (for ‘ ‘ Y es’ ’) you will then see the configuration with the conflict ing informat ion. If you enter ‘ ‘n’ ’ (for ‘ ‘No’ ’) the router exits from Summary and displays the NCL prompt. Note The above hotswap operation applies only to the HP Router 650. Continue/E xit prompt Figure 16-1 . The &quo[...]

  • Page 272

    T elnet: Establishing a Virtual T erminal Connection Use NCL ’ s T elnet command to establish a T ransmission Control Protocol (TCP) virtual terminal connection to a remote node, allow ing you to interact with the remote nodes interface. This router must have IP routing and a T elnet session configured. This router supports a maximum of four simu[...]

  • Page 273

    T est: Sending an IEEE 802.2 T est Packet Use NCL ’ s T est command to perform a link-layer test of a directly connected network or a bridged link. T est sends an IEE E 802.2 test packet to a specified target node on a network directly attached to a port on this router , or on a network bridged from a W AN port on this router (for example, using [...]

  • Page 274

    T ime: Setting or Displaying the Date and T ime Use NCL ’ s T ime command to set the router’ s clock and/or calendar . Using the T ime command without any arguments simply displays the current date and ti me. (T o output the da te and time display to a printer or file instead, see the Print command on page 16-19.) The current date and time also[...]

  • Page 275

    Accessing the Management Information Base The management information base (the MIB) is the repository of all variables gathered and used by the router , as well as accessible to the router’ s console and to other devices in the network using SNMP . The MIB’ s hierarchical structure can be represented as an inverted tree, such as the one shown o[...]

  • Page 276

    The Get, List, and Reset commands use MIB pathnames for access to the MIB structure. Fo r more det ails on th e MI B s tructure itself and how to specify a pathname to a MIB variable, refer to ‘ ‘Accessing the Management Informa ti on Base’ ’ in chapter 7 of the User’ s Guide. The router’ s “managed objects” defi ne the major MIB ca[...]

  • Page 277

    Managed Objects T able Managed Object s T able (co ntinued) Nam e Alarms (u ses slot # ) alarm AppleT alk router at AppleT alk router MIB atmib Bridge lb Bridge addres s table lbmib Buffers (uses slot #) buf Chassis in formation b ase chassis Circuits cct Configura tion config Data link services dls DECnet router drs DECnet routing table decnet Dev[...]

  • Page 278

    Managed Object s T able (co ntinued) Nam e TCP echo service echo T rivial File T r ansfer Protocol tftp V .25 bis isdn XNS router xrx X.25 x25 The MIB commands are: Command Function Get identifier Display on the console the value of a MIB variable (page 16-34). List [identifier] Display on the console a variable or pa rt of the MIB s tructure ( pag[...]

  • Page 279

    Get: Displaying the V alue of a MIB V ariable Use NCL ’ s Get command to display the value of a MIB variable on the router . Y ou need to specify the path to the variab le. Y ou can obtain the pathname using the List command (see page 16-35). T o output the display to a printer or file instead of the screen, place the get command within the Print[...]

  • Page 280

    List: Displaying the MIB Use NCL ’ s List command to display all or any part of the structure of the router’ s management information base. List tells you what specific variables that part of the MIB contains, showing their pathnames. T o output the display to a printer or file instead of the screen, place the List command within the Print comm[...]

  • Page 281

    Examples list Displays a list of router -resident managed objects (the items in the “Man aged Ob jects T a ble ”, page 16-32). list ip.* Displays the “ip“ (IP router) MIB branch. (See the “Managed Objects T able”, page 16-32, for others.) list buf[2] Displays a list of the MIB variables for buffers for slot 2 of a Router 650. list 11.2 [...]

  • Page 282

    The following paragraphs describe how to use the List command to step through branches of the MIB, using the “buf” information base as an example (see figure 16-2 above). T o begin with “buf” after displaying the objects shown in figure 16-3, you would enter a t the NCL prompt: list buf or list 11 Note in figure 16- 3 that 11i s the object [...]

  • Page 283

    As shown in figure 16-2, those six items are the lowest-level variables in the buffers MIB. If you attempted to use List to display more variables, for example, by entering the following: list 11.1.1.1 In response, the console would display no data and simply return you to the NCL prompt. T o see the contents o f variab le 11.1.1.1 (“init”), s [...]

  • Page 284

    Reset: Setting the V alue of a MIB V ariable to Zero Use NCL ’ s Reset command to set the value of one or more MIB variables to zero. Y ou can obtain the pathname using the List comma nd (see page 16-35). Syntax reset identifier identifier is the pathname identifying a specific variable. Y ou must provide the pathname from the rout er’ s highes[...]

  • Page 285

    Accessing the Internet Management Information Base Internet Request for Comments 1156 defines the variable set required for monitoring and controlling various components of the IP Internet. The router’ s MIB implementatio n is fully compliant w it h all requirements of RFC 1156. Some of the NCL commands work in conjunction with th e Simple Networ[...]

  • Page 286

    Rgeta: Displaying the MIB IP Address T ranslation T able Use NCL ’ s Rg eta command to format and display the Inter net MIB IP address translation (ARP) table (also termed the ‘ ‘ARP cache table’ ’) for a local or a remote network node. Syntax rgeta [X.X.X.X] [community] [X.X.X.X] (optional) is the IP address of the local or r emote node [...]

  • Page 287

    Rgeti: Displaying the MIB IP Address T able Use NCL ’ s Rgeti command to format and display the Internet MIB IP address table for a local or remote network node. Syntax rgeti [X.X.X.X] [community] [X.X.X.X] (optional) is the IP address of the local or r emote node in dotted decimal notati on. If you omit this field, an IP address on the local rou[...]

  • Page 288

    Rgetms: Displaying the V alues of a MIB V ariable Class Use NCL ’ s Rgetms command to display the values of the variables in a branch of the standard Internet MIB, for either a local or remote network node. Y ou can also use Rgetms to display the values of Internet standard MIB variables on this (local) router . Rgetms defaults the standard Inter[...]

  • Page 289

    rgetms 6.13 192.32.2. 194 Displays the Internet MIB T ransmission Control Protocol ( TCP) connection table from the node whose IP address is 192.32.2.194: 1.3.6.1.2.1.6.13 .1.1.192.32.2.194.23.192.32 .1.167.1665 = (TCP connectio n state) 1.3.6.1.2.1.6.13 .1.2.192.32.2.194.23.192.32 .1.167.1665 = (local IP address f or the TCP connection) 1.3.6.1.2.[...]

  • Page 290

    Rgetr: Displaying the MIB IP Routing T able Use NCL ’ s Rgetr command to format and display the Internet MIB IP routing table for a local or remote network node. Syntax rgetr [X.X.X.X] [community] [X.X.X.X] (optional) is the IP address of the local or r emote node in dotted decimal notati on. If you omit this field, an IP address on the local rou[...]

  • Page 291

    The fields in the table are as follows: – Destination lists the destination subnetwork address (in dotted decimal notation). – Mtr lists the hop count pl us cost to Destination . – Next Hop lists the ad dress (in dotted decimal no tation) of the next hop. – T lists the route type as follows: D a (local) route to a directly connected subnetw[...]

  • Page 292

    Rgets: Displaying the V alue of an Internet MIB Va r i a b l e Use NCL ’ s Rgets command to display the value of an individual Internet MIB variable for a remote network node (not this router). Y ou can also use Rgets to dis p lay the val ue of an individual Internet standard MIB variable on this (local) router . Rgets defaults the standard Inter[...]

  • Page 293

    Accessing a Remote Management Information Base T wo NCL commands work wit h the Simple Network Management Protocol (SNMP) agent and th e IP routing applicatio n to provid e acces s to the W ellfleet enterprise-specif ic section of the MIB of a rem ote HP or W ellfleet router . Hewlett-Packard Company and W ellfleet Communications, Inc., share this [...]

  • Page 294

    Rgetmw: Displaying the V alues of a Remote V ariable Class Use NCL ’ s Rgetmw command to display the values of the variables in a branch of the enterprise-specific section of the MIB of a remote HP or W ellfleet router . Syntax rgetmw identifier [X.X .X.X] [community] identifier is the object identification pat h identifying a branch of MIB varia[...]

  • Page 295

    Rgetw: Displaying the V alue of a Remote Va r i a b l e Use NCL ’ s Rgetw command to display the value of an individual variable from the enterprise-specific section of the MIB of a remote HP or W ellfleet router . Syntax rgetw identifier [X.X. X.X] [community] identifier is the object identification pat h identifying a specific MIB variable. Do [...]

  • Page 296

    Accessing a Foreign Management Information Base T wo NC L commands work in conjunction with the SNMP agent and the IP routing applicat io n to provide access to the en terpris e-specific section of the M I B o f an y remote node— other than a n HP or W ellfleet router—that provides a standard SNMP/MIB implementation. Y ou must use a complete MI[...]

  • Page 297

    Rget: Displaying the V alue of a Foreign Va r i a b l e Use NCL ’ s Rget co mmand to display the valu e o f an individ ual variable from a foreign enterprise-specific section of the MIB of a remote node. Syntax rget identifier [X.X.X.X] [communi ty] identifier is the complete object id ent ification path identifying a specific MIB variable. [X.X.[...]

  • Page 298

    Rgetm: Displaying the V alues of a Foreign V ariable Class Use NCL ’ s Rgetm command to display the values of the variables in a branch of a foreign enterprise-specific section of the MIB of a remote node. Syntax rgetm identifier [X.X. X.X] [community] identifier is the complete object id ent ification path identifying a branch of foreign MIB var[...]

  • Page 299

    Accessing Bridging and Routing Ta b l e s Some NCL commands work with the SNMP agent and the IP routing application to p rovid e acces s to applicat ion- specific brid ging, routing, and configuration tables maintained by local or remote HP routers. The commands available in this category are the following. Command Function Ospf Rtab* Display IP’[...]

  • Page 300

    Rgetat: Displaying the AppleT alk Configuration T able Use NCL ’ s Rgetat command to fo rmat an d display th e Appl eT alk router configuration table for a local or remote HP router . Syntax rgetat [X.X.X.X] [communi ty] [X.X.X.X] (optional) is the IP address of the local or remote router in dotted decimal not at i on . If yo u om it this field, [...]

  • Page 301

    Local Zone T able IF Zon e Name 3 Bldg 12 3 Administra tion 3 Corporate 2 Sales Dept 1 Printer zone 1 Laser W orld The fields in the table are as follows: IF lists the number the router assigned to the network interface for Net.Node. Net.Node lists the AppleT alk node address (the network number and node identifier pair) of each AppleT alk router p[...]

  • Page 302

    Rgetata: Displaying the AARP T able Use NCL ’ s Rgetat a command to format and dis play the AppleT alk Address Resolution Protocol (AARP) table for a local or remote HP router . Syntax rgetata [X.X.X.X] [co mmunity] [X.X.X.X] (optional) is the IP address of the local or remote router in dotted decimal not at i on . If yo u om it this field, an IP[...]

  • Page 303

    Rgetatr: Displaying the AppleT alk Routing T able Use NCL ’ s Rgetatr command to format and display the AppleT alk routing table for a local or remote HP or W ellfleet router . Syntax rgetatr [X.X.X.X] [co mmunity] [X.X.X.X] (optional) is the IP address of the local or remote router in dotted decimal not at i on . If yo u om it this field, an IP [...]

  • Page 304

    Rgetb: Displaying the Bridge Forwarding/Filtering T able Use NCL ’ s Rgetb command to format and display the bridge forwarding/filtering table for a local or remote HP or W ellfleet router . Syntax rgetb [X.X.X.X] [community] [X.X.X.X] (optional) is the IP address of the local or r emote router in dotted decimal n otat i on. If you omit this fi e[...]

  • Page 305

    Rgetd: Displaying the DECnet Router Configuration T able Use NCL ’ s Rgetd command to format and display the DEC net router configuration table for a local or remote HP router . Syntax rgetd [X.X.X.X] [community] [X.X.X.X] (optional) is the IP address of the local or remote router in dotted decimal not at i on . If yo u om it this field, an IP ad[...]

  • Page 306

    Rgetda: Displaying the DECnet Router Level 2 Routing T able Use NCL ’ s Rg etda command to format and display the DEC net router level 2 (inter -area) routing table for a local or remote HP router . Syntax rgetda [X.X.X.X ] [community] [X.X.X.X] (optional) is the IP address of the local or remote router in dotted decimal not at i on . If yo u om [...]

  • Page 307

    Rgetdn: Displaying the DECnet Router Level 1 Routing T able Use NCL ’ s Rgetdn command to format and display the DEC net router level 1 (node or intra-area) routing table for a local or remote HP router . Syntax rgetdn [X.X.X.X] [comm unity] [X.X.X.X] (optional) is the IP address of the local or remote router in dotted decimal not at i on . If yo[...]

  • Page 308

    Rgetir: Displaying the IPX Routing T able Use NCL ’ s Rgetir command to format and display the IPX r outing table for a local or remote HP or W ellfleet router . Syntax rgetir [X.X.X.X] [comm unity] [X.X.X.X] (optional) is the IP address of the local or r emote router in dotted decimal n otat i on. If you omit this fi eld, an IP address on the lo[...]

  • Page 309

    – Age lists the number of seconds since the route was learned. – IF lists the number the router assigned to the network interface for Next Hop. Using the Network C ontrol Language Accessing Bridging and Routing Tables 16-64[...]

  • Page 310

    Rgetis: Displaying the IPX Servers (SAP) T able Use NCL ’ s Rgetis command to format and display the IPX Service Advertising Protocol (SAP) table for either this router or a remote HP or W ellfleet router that is runnin g IPX. Syntax rgetis [X.X.X.X] [comm unity] [X.X.X.X] (optional) is the IP address of the local or r emote router in dotted deci[...]

  • Page 311

    – Ty p e lists the ser vice type supplied by the named server , as follows: 0 Unknown 3 Print Server 4 File Server 5 Job Server 9 Archive Server 24 Remote Bridge Server 47 Advertising Print Server • IF lists the number the router assigned to the circuit group used to reach the server . Using the Network C ontrol Language Accessing Bridging and [...]

  • Page 312

    Rgetrif: Displaying the Source Routing RIF Cache Use NCL ’ s Rgetrif co mmand to format and dis pl ay th e source routing Routing Information F ield (RIF) cac he. Syntax rgetrif X.X.X.X X.X.X.X is the IP address of the local or remote router in dotted decim al notati on. Example rgetrif 15.2.1.94 Displays the source routing RIF cache for the node[...]

  • Page 313

    10 =Spanning Tree Explorer 11 =All Routes Explorer 1 bit reserved. 5 bits for the length i n bytes (up to 18) of the RIF field. 1 directio n bi t: 0 =frame moves forward 1 =frame moves in reverse 4 bits for largest frame size in bytes handled (up to 4472). 3 bits reserved. Each subsequent series of two bytes (such as 0011 h and 7001 h in the exampl[...]

  • Page 314

    Rgetxr: Displaying the XNS Routing T able Use NCL ’ s Rgetxr command to format and display the Xer ox XNS routing table for a local or remote HP router . Syntax rgetxr [X.X.X.X] [comm unity] [X.X.X.X] (optional) is the IP address of the local or remote router in dotted decimal notation. If you omit this fiel d, an address on the local router will[...]

  • Page 315

    The fields in the table are as follows: Dst lists the XNS network number at the destination, in 8-digit hexadecimal format. Next Hop lists the station address of the next hop router . Hop lists the hop count to Dst . T lists the route type as fo llows: D direct (local) route I an invalid route R a remote route P lists how the route type was learne [...]

  • Page 316

    Managing the Open Shortest Path First Protocol OSPF, an IP internal gateway routing protocol, has an openly available protocol specificat io n that is not proprietary to any singl e vend or . Y ou can display the s tatus of various OSPF elements on this router using the NCL commands listed below . Y ou must use a complete MIB pathname with each of [...]

  • Page 317

    Ospf Errs: Displaying OSPF Error Counts Use NCL ’ s Ospf Errs command to format and display the number of errors accrued by OSPF . Syntax ospf errs Example ospf errs Displays the number of errors, a colon, and the type and name of each error , in two columns. Some of the possible OSPF errors in this table may also appear as event messages in the [...]

  • Page 318

    Ospf Intf: Displaying the Status of the OSPF Interfaces Use NCL ’ s Ospf Intf command to format and display the status of the interfaces on this router over which OSPF is running. Syntax ospf intf Example Area: 0.0.0.0 IP Address T ype State Cost Pri DR BDR 190.190.190.10 Bcast DR 1 5 190.190.190.10 190.190.190.13 The fields in the table are as f[...]

  • Page 319

    State is the functional level of the interface between adjacent neighbors, as follo ws: Down Inoperable interface. Loopback Self-referential interface: not attached to a network. W aiting An initial packet has been sent, and the interface is waiting to hear from other routers before s electing the design ated router . Point-to-Poin t A point -t o -[...]

  • Page 320

    Ospf Lsdb: Displaying the OSPF Link State Database Use NCL ’ s Ospf Lsd b command to format and display the database OSPF of link state advertisements. Syntax ospf lsdb Example LS Database: Area: 0.0.0.0 T ype Link ID Adv Rtr Age Len Seq # Metric LS_STUB 10.0.0.0 10.0.0.0 236 24 0 0 The fields in the table are as follows: Area lists the area ID o[...]

  • Page 321

    Link ID is the object attached to the router’ s link. The value de- pends on the T ype, as follows: LS_ASE The destination IP network number . LS_NET The designated router ’ s IP interface address. LS_RTR The neighbor’ s OSPF router ID. LS_SUM_ASB The AS boundary router’ s OSPF router ID. LS_SUM_NET The destin ation IP network nu mber . LS_[...]

  • Page 322

    Ospf Nbrs: Displaying the Status of the OSPF Neighbors Use NCL ’ s Ospf Nbrs command to format and display the status of the OSPF neighbors. Syntax ospf nbrs Example Area: 0.0.0.0 Interface Router ID Nbr IP Ad dr State Mode Priority 190.190.190.10 13.13.13.13 190.190.190.13 Full Slave 5 190.190.190.10 12.12.12.12 190.190.190.12 Full Slave 5 The f[...]

  • Page 323

    State is the functional level of the interface with the neighbor , as fol- lows: Down No recent information received from the neighbor , or the initial state of a neighbor conversation. Attempt No recent information received from the neighbor , but keep trying. (For neighbors attached to nonbroadcast networks.) Init A Hello packet recently seen fro[...]

  • Page 324

    Ospf Rtab: Displaying the OSPF Routing T able Use NCL ’ s Ospf Rtab command to format and display the OSPF routing table. Syntax ospf rtab Example Dest D Mask Area Cost E Path Ne xthop Advrtr AS Border Routes: 14.14.14.14 0.0.0.0 0.0.0.0 2 EXT 190.190.190.13 14.14.14.14 13.13.13.13 0.0.0.0 0.0.0.0 1 EXT 190.190.190.13 14.14.14.14 Area Border Rout[...]

  • Page 325

    Path is the type of path, as follows: EXT1 A utonomous system (AS) external path, of type 1. EXT2 A utonomous system (AS) external path, of type 2. INTER Inter -area path, to destinations in other ar eas. INTRA Intra-ar ea path, to destinations on one of the rou ter’ s attached areas. Next hop lists the next hop to t he destination. Advrtr lists,[...]

  • Page 326

    Ospf Tq: Displaying the OSPF T imer Use NCL ’ s Ospf Tq command to format and display the top ten times on OSPF’ s timer queue. Syntax ospf tq Example T ype Minutes Sec onds USeconds TQLsaLock 0 5 0 TQAck 0 5 0 TQHelloT imer 0 10 0 TQRetrans 0 10 0 TQSumLsdbA ge 7 37 0 TQAseLsdbA ge 9 11 0 TQIntLsa 10 19 0 TQLsa 12 27 0 NCL Commands 16 Using th[...]

  • Page 327

    The fields in the table are as follows: T ype is the type of timer , as follows: TQAck Used to send delayed ackn owl edge mes s ages. TQAseLsa When the Dijkstra algorithm will be run on external link state advertisements (recalculating the shortest path fir st tree using the exter nal link information). TQAseLsdbAge When the external link state dat[...]

  • Page 328

    Blocking and Unblocking Spanning T ree Explorer Frames Because the spanning tree does not operate automatically on source-routing br idging circuits, it is necessary to “ manually” build the spanning tree in the se circuits. T wo NCL commands allow yo u to block and unblock forwarding of spanning tree explorer frames on source-routing bridging [...]

  • Page 329

    Blockste: Block Spanning T ree Explorer Frames Use NCL ’ s Blockste command to block forwarding of spanning tree explorer frames on source-routin g brid gin g circuit groups , overriding the current setting of the Block STE configuration parameter . Syntax blockste all blockste circuit-group circuit-group is the name of a so urce-routing bridging[...]

  • Page 330

    Unblockste: Unblock Spanning T ree Explorer Frames Use NCL ’ s Unblockste command to restore forwarding of spanning tree explorer frames on source-routin g brid gin g circuit groups , overriding the current setting of the Block STE configuration parameter . Syntax unblockste all unblockste circu it-group circuit-group is the name of a so urce-rou[...]

  • Page 331

    Controlling IP-Mapped Circuits for V. 2 5 b i s Mapped data is IP data from an IP switched vi rtual circuit , which is configured by defining an IP static route and a phone number to IP to V .25 bis map entry . Individual map entries can be disabled while leaving others enabled. Three NCL commands are provided for disabling, enabling, and checking [...]

  • Page 332

    Disipmap: Disabling an IP Map for V .25 bis Switched V irtual Circuits Use NCL ’ s Disipmap command to disable an IP map entry—a specific location—while leaving the other mappings enabled. Then the IP next hop address configur ed with this map will remain unr eachable as will all of the static routes wit h w hich it is associat ed. Syntax dis[...]

  • Page 333

    Enipmap: Re-enabling an IP Map for V .25 bis Switched V irtual Circuits Use NCL ’ s Enipmap command to enable an IP map that was disabled earlier by using Disipmap. Syntax enipmap X.X.X.X X.X.X.X is the next hop IP address, in dotted decimal notation, of the map to enable. Using the Network C ontrol Language Controlling IP-Mapp ed Circuits for V.[...]

  • Page 334

    Ipmap: Displaying an IP Map for V .25 bis Switched V irtual Circuits Use NCL ’ s Ipmap command to display the status of an IP map. Syntax ipmap [X.X.X.X] [X.X.X.X] (optional) is the next hop IP address, in dotted deci- mal notation, of the map to sho w . If you omit this field, all cur - rently configured IP maps are shown. Before using the comma[...]

  • Page 335

    The display of Ipmap informatio n will vary , based on the state of the map when you execute Ipmap. In all cases, the map will show the following data: Next hop address of the map. Map state lists one of the foll owing: disconnected The map is disconnected; the circuit is available. disabled The circuit has been disabled by the Disipmap command. co[...]

  • Page 336

    Connection time th is connectio n instance shows the amount of time the map has been connected for the currently alive connection. Non-mapped d ata shows wh ether such data is ALLOWED or DISALLOWED for the currently alive connection (refer to the discussion above on page 16-87). Hold down time left shows the amount of time this map will remain in t[...]

  • Page 337

    Using TFTP T o T ransfer Operating Code, Configuration, and NCL Display T wo NC L commands work in conjunction with the T rivial File T ransfer Protocol (TFTP) and IP routing to provide TFTP serv er and client capability . Using the commands on this router , you can download the router’ s operating code or configuration from another router or hos[...]

  • Page 338

    TFTP Security Features The router provides some security measures to control access to and use of the TFTP facility . Initial TFTP connection requests are made on the well-known User Datagram Protocol (UDP) port 69. Access to TFTP on a specific network interface can be blocked, therefore, by constructing a T CP /UDP port filter to drop incomi ng d [...]

  • Page 339

    Fget: Loading the Operating Code or Configuration Use NCL ’ s Fget command with TFTP to download router operating code or a configuration fr om another HP router on an attached network, using TFTP . The router s must have IP routing and TFTP configured and enabled. See the TFTP security notes on page 16-94. Note The following limitations apply to[...]

  • Page 340

    Before operating code is downloaded, you will be asked to enter the current manager password if one exists, and to verify that you want the operating system changed (see page 16-15). If download- ing operating code fails, the router will be operating but most of the protocols and circ uits will be disabled; only the circuit used for TFTP will remai[...]

  • Page 341

    NCL-command is an NCL disp lay command string on this router . Possible commands are listed above and described earlier in this chapter . If the command has parameter s and thus includes a space, then enclose the command stri ng in double quotes. Examples fput 15.3.0.97 o s rok fput 15.3.0.97 c onfig account.cfg fput 15.3.0.97 " browse"?[...]

  • Page 342

    Using ZModem to T ransfer Configuration and NCL Display W ith an IBM-compatible personal computer (PC host) connected to the router’ s console port, two NCL commands use the Zmodem protocol to do the following: Copy a router configuration to the PC host for storage. Copy a router configuration from the PC host to the origin al router or to other [...]

  • Page 343

    Zget: Loading the Configuration to a Router Use NCL ’ s Zget command to upload t he router configurati on previous ly stored as a file on the PC connected to the router as a console. Note Zget overwrites the router’ s current configuration with the uploaded configuration. Preparation: Y ou must have previously used Zput to download the configur[...]

  • Page 344

    Zput: Storing the Configuration or NCL Command Output to a PC Host File Use NCL ’ s Zput c ommand to download the router configurat ion or NCL command output to a file on a PC connected to the router as a console. Preparation: 1. Star t PROCOMM PLUS . 2. Ensure that the PROCOMM PLUS “Auto downloading” feature for the Zmodem protocol is se t t[...]

  • Page 345

    8. Press [Esc ] three times to r eturn to the router ’ s Main menu (see figure 1-2). 9. Select the “Network Control Language Inter preter” in the router’ s Main menu. The procedure to download the confi guration or NCL command display to a PC host file (at the NCL prompt) is shown by the synt ax and examples on the following pages. Using th[...]

  • Page 346

    Syntax zput config file name [overwrite] [ format] transfer router configuration zput NCL-command filen ame [overwrite] [format] store display command output filename is the n ame of a file on the remote PC host to stor e the output from this router . NCL-command is an NCL disp lay command string on this router . Possible commands are listed above [...]

  • Page 347

    When the downlo ad is complete d, a flashing “COM P LETED” message appears briefly in the status window . Then the window closes and control returns to the NCL prompt. If the PC host does not respond within approximately 60 seconds after you execute Zpu t, the command times o u t an d co ntrol returns to the NCL prompt. Note If the “Auto down[...]

  • Page 348

    17 Event Log Messages[...]

  • Page 349

    How T o Use This Chapter The event log is a first-in, first-out buffer in RAM. Each entry is a single line composed of five fields: severity date time object event message I 08/05/94 10:52:13 c ct.wan1: ’WAN1 - ca rrier lost’ The event log messages listed in this chapter are organized alphabeticall y within subs ections corres p onding to th e [...]

  • Page 350

    T o Locate Event Messages by Managed O bject Name Subsection Page at: AppleT alk Event M essages 17-4 boot: Boot E vent Messa ges 17-1 5 bootp: Network Boot Protocol Event Messages 17-16 cct: Circuit Event Messages 17-18 dev: Device Event Messages 17-60 dls: Da ta Li nk Serv ices E vent Me ssage s 17-69 drs: DECnet Event Messages 17-74 egp: Exterio[...]

  • Page 351

    at: AppleT alk Event Messages These event messages are generated by the system variable “at”, the AppleT alk router . AARP mapping table is full Meaning: The AppleT alk router cannot add an address resolution pair (AppleT alk node address and an associated station a ddress) to its address mapping table; the table contains its maximum number of [...]

  • Page 352

    at_amt_alloc: out of memory Meaning: The AppleT alk router cannot obtain sufficient memory to allocate the AARP address mapp ing table. Action: Reduce the AARP Mapping T able parameter to place a lesser demand on memory . at_cg_cb_alloc: out of memory Meaning: The AppleT alk router cannot obtain sufficient memory to allocate a circuit group control[...]

  • Page 353

    Cfg: cannot get zone name list for ccg Meaning: This message is generated only if the circuit group specified by ccg is a nonseed port. After a no nseed port obtains the default zone name fr om a seed router , it issues a query to obtain a list of zone names associa ted with the network. This message is generated if the port fails to receive a resp[...]

  • Page 354

    already in service. The default zone names conveyed by these seed routers are inconsistent. Action: One of the seed routers must be reconfigured to ensure the consistency of the default zone names. If you reconfigure the AppleT alk router to match the default zone name of the in-service router , no further changes are necessary . If you reconfigure[...]

  • Page 355

    Cfg: No config summary record Meaning: There is a serious prob lem in the router’ s co nfiguration file, affecting the system configuration and no t just the AppleT alk configuration. ( In this case, the ‘ ‘/CFG_SUMMARY’ ’ record is missing.) Action: Ensure that the rout er’ s configuratio n is valid. Cfg: No BOOTLOAD record Meaning: Th[...]

  • Page 356

    Cfg: number zone names incorrect for ccg Meaning: The circuit group specified by ccg has been configured as a seed port. The directly connected network is serviced not only by this seed, but also by another seed router already in service. The zone name lists conveyed by these seed routers are inconsistent; each list contains a different number of z[...]

  • Page 357

    ccg enabled with network range X - Y Meaning: The circuit group specified by ccg is enabled and con nected to the attached medium whose range o f network numbers is X to Y . ccg enabled with node address X.Y Meaning: The circuit group specified by ccg is enabled with the node address X.Y , where X is the network number and Y is the node iden tifier[...]

  • Page 358

    Illegal network number for ccg Meaning: The network number configured for ccg is ou tside of the range s pecified by the Network Min and Network Max par ameters. Action: Reconfigure the network number to within the range. Illegal network range for ccg Meaning: Either the Network Min or Network Max parameter for ccg is outside the range of legal App[...]

  • Page 359

    Invalid AARP event X , AARP state Y for cg ccg Meaning: The circuit group specified by ccg was in AARP state Y , and thus unable to process AARP event X . Possible values for X and Y : X value E vent Code 0 xmit AARP PROBE 1 xmit AARP REQUEST 2 rcv AARP PROBE 3 rcv AARP REQUEST 4 rcv AARP RESPONSE 5 t imer expired/ cancelled Y value AARP State Code[...]

  • Page 360

    No AppleT alk software configur ed Meaning: The portion of the configuration file that contains AppleT alk configuration data is faulty . One or more of the following requir ed records may be missing: AppleT alk record, configuration summary record, entity records, or boot-load record. Action: V erify and recon figure the AppleT alk router . No cir[...]

  • Page 361

    No msg buffers for ZIP background alarm Meaning: The Appletalk router cannot obt ai n a message buffer t o create its ZIP background timer . Action: Contact your HP support pr ovider . Rcv’d zone name(s) on port #; cannot distribute Meaning: A list of zone names received on port # could not be sent to the other ports running AppleT alk. Zone name[...]

  • Page 362

    boot: Boot Event Messages This event message is generated by the system variable "boot". System went down: day/month/hh:mm:ss/year Meaning: Identifies the last time t he system went down. Event Log Messages 17 Event Log Messages boot: Boot Event Messages 17-15[...]

  • Page 363

    bootp: Network Boot Protocol Event Messages These event messages are generated by the system variable "bootp", the network boot pr oto col. buffer for timer msg can’t be allocated Meaning: Buffer memory ran out, so the Bootp request or reply could not be serviced. can’t allocate any msg buffers Meaning: Buffer memory ran out, so the B[...]

  • Page 364

    illegal action for boop_act Meaning: Internal messaging error . Action: Call your local product support provider . received BOOTP reply from server Meaning: Reply received from Bootp server . received BOOTP request from client Meaning: Request received from Bootp c lient. received unknown BOOTP pkt type Meaning: Some node is generating bad packets.[...]

  • Page 365

    cct: Circuit Event Messages These event message are generated by the system variable "cct", for circuits. A TCP is down Meaning: For the in dicated PPP circuit, Appletalk Cont rol Protocol (A TCP) has gone down . A TCP is up Meaning: For the indicated PPP circu it , Applet alk Control Protocol (A TCP) is up. Adapter accepted CIC command M[...]

  • Page 366

    Adapter did not accept CRN command Meaning: The terminal adapter rejected the router CRN command. The router will bring down the circ uit and not allow an d more connectio ns on this circuit. Action: This error indicates ei ther a configuration error on the router or on the terminal adapter , or an incompatablity between them. Y ou must change the [...]

  • Page 367

    Attempt to init FR on inactive cct Meaning: The indicated frame relay cir cuit is not active, yet there was an attempt to initialize the circuit. This is an internal problem and cannot be corrected by the user . Bad Address option combination Meaning: In the indicated frame relay circuit, the s elected combinat io n o f addressing encoding and addr[...]

  • Page 368

    Action: Modify the configuration so that the polling interval is within the proper range. Bad interface discriminator found <xxx > Meaning: For the indicated frame relay circuit, a packet was received on the management interfac e Da ta Link Connection Iden tifier (DLCI), but the protocol discriminator field did not contain the proper value fo[...]

  • Page 369

    BUD Failed, SIFSTS = XXXX Meaning: The token ring device Bring Up Diagnostic (BUD) failed, indicating a possible hardware failur e. Action: Note the code number in the event message and contact your Hewlett-Packard representative. Call collision will rcv inbound call Meaning: The router received an incoming call after sending a connect request (CRN[...]

  • Page 370

    Carrier detected on WAN # Meaning: Carrier Detect has been received, either initially or after being lost, on the indicated W AN port. Circuit has been brought down Meaning: This is indicates th at the V .25 bis circuit has been brought do wn . Action: See other logged events for futher information. Circuit has been brought up Meaning: The V .25 bi[...]

  • Page 371

    config needs phone # to connect Meaning: The V .25 bis cir cuit has been configured to be enabled when the circuit first comes up. However no ou tbo und phon e nu mber has been configured. Therefore this circuit will only be able to connect when a call comes in. Action: No user action is required unless you did not intend to configure the circuit t[...]

  • Page 372

    Action: Check other event messages to see why the connection failed. Connection timeout, retry in progress Meaning: An outbound connect a ttempt has timed ou t waiting for the termina l adapter to respond. The re try count has not expired so the router will try again. Action: Check the connection between the adapter and the router . Also check the [...]

  • Page 373

    Data pkt received on downed connection Meaning: The adapter sent data packets on a link that was not connected. (The DSR line was down.) This is not expected when the router is in manual adapter mode. Action: Check the adapter configuration. Make sure that it raises DSR when the phone call is established. DCE set DSR TRUE before DTE sent XXX Meanin[...]

  • Page 374

    Action: No user action required. The router will try to re-syncronize the connection. If this happens frequently , check the terminal adapter’ s configuration. DCE set DSR while waiting for IND Meaning: While the router was waiting for an indication from the terminal adapter , the adapter unex pectedly pul led up DSR. This in dicat es that th e r[...]

  • Page 375

    DEV CCT : cct - Not enough memory for compression Meaning: Compression is configured on the circuit, but there is not enough free memory to allocate the co mpression table. Action: Either remove configured fun ctionality that is un necessary , or replace the router with another one having more memory . DEV CCT : cct - transmit congestion Meaning: T[...]

  • Page 376

    DLCI XXX not within range; not added Meaning: For the indicated frame relay circuit, a DLCI value was added that was not within the range of valid values for the specified type and length. XXX identifies the DLCI in error . DRSCP is down Meaning: For the indicated PPP circuit, DECnet Routing Service Control Protocol (DRSCP) is down. DRSCP is up Mea[...]

  • Page 377

    entity already disabled Meaning: An already disabled circuit, identified in the object field of the event message, has received NCL ’ s Disable command. entity already enabled Meaning: An already enabled circuit, identified in the object field of the event message, has received NCL ’ s Enable command. entity disabled Meaning: The circuit named [...]

  • Page 378

    interface is considered unstable and is taken down. This message indicates that this situ at io n ha s occurred. Free pkt buffs available V .25 bis clipping disabled Meaning: The the backlog has been relieved. Packet buffers can again be queued on V .25 bis circuits as necessary . Free pkt buffs low V .25 bis clipping enabled Meaning: The amount of[...]

  • Page 379

    Action: Reduce the overall size of memory resour es allocated by the configuration. (For example, reduce table sizes on other configuration parameters wher e possible.) insufficient mem on cct X for phone # Meaning: There is no system memory available for the given V .25 bis circuit ( cct ) to allocate storage for phone numbers. This circuit is not[...]

  • Page 380

    Invalid MFS, dflt=2 Meaning: The configuration record for circuit: cct contains a faulty value in the Minimum Frame Spacin g field . Th e s yst em has defaulted to a value of 2. Action: Modify Minimum Fr ame Spacing in the configuration. Invalid N2, dflt=16 Meaning: The configuration record for circuit: cct contains a faulty value in the Retry Coun[...]

  • Page 381

    IPCP is down Meaning: For the indicated PPP circuit, a packet was received which did not conform to standard PPP format. The packet was dropped. Nofurther action is necessary . IPCP is up Meaning: For the indicated PPP circui t, IP Control Protocol (IPCP) is up. IP packets may now be sent and received on the link. IP next hop X.X.X.X assoc w/ YYY M[...]

  • Page 382

    LCP is down Meaning: For the indi cated PPP circuit, Link Control Protocol (LCP) has gone down. If the LCP Auto-Restar t option was configured as Y es, then the system attempts to restart LCP . LCP is up Meaning: For the indicated PP P circuit, Link Control Protocol (LCP) is up. The system now attempts to b rin g up th e appropriate network lay er [...]

  • Page 383

    LQM negotiation rejected by remote station Meaning: For the indicated PPP circui t, the remote station refuses to accept negotiation of the Lin k Quality Monito r (LQM) paramet e r . The system cannot bring up the Link Control Protocol (LCP) until the remote station is willing to accept negotiation of th e LQM parameter . Action: If it is not consi[...]

  • Page 384

    min channel number > max (min set to X ) Meaning: The router configuration has the minimum channel number greater than the maximum channel number . The router will correct this. Action: Correct the router configuration. Minimum Latency cap being used Meaning: A minimum latency cap of 3100 bytes is being used because the latency cap time is too s[...]

  • Page 385

    Net sequence num receive recovery Meaning: The network is now properly sending keep-alive sequence numbers for the identified circuit. Next hop IP X.X.X.X has no ph # Meaning: All map items must have at least one configured phone number . The map record with with IP next-hop address X.X.X.X has no configured phone #. Action: Add a phone number to t[...]

  • Page 386

    Not receiving seq num on MI enquiry Meaning: For the indicated frame relay circuit, the other side of the frame relay interface is issuing sta tu s enquiry messages wit h last received keep-a live sequence numbers that are not as expected. That is, this sequence number is not the las t sequence number w e sent. This indicat es that the other side i[...]

  • Page 387

    Providing quality of service to remote Meaning: Follows the “circuit in auto-detect mode” message and indicates the Quality of Service pa ra meter settin g in the loca l rou ter for the indicated circuit. Pkts rcvd while waiting for outbound data Meaning: The router was waiting for outbound data so that it could establish a connection when inbo[...]

  • Page 388

    Action: Modify the configurati on . protocol 0x YY not supported Meaning: For the indicated PPP circui t, the peer (remote) station se nt a packet with a PPP protocol value of YY (hex), but the system does n ot support PPP protocol YY . Providing LLC1 service Meaning: The circuit named in the obj ect field of the event message is enabled and provid[...]

  • Page 389

    PVC XXX received xoff indication Meaning: A PVC informatio n element in dicat ed that th is PVC has rece ived an Xoff indication. Data wil l not be transmitt ed over this particu lar PVC until it receives an xon in dication. T his message i s only relevant if the Data Link Connection Managem ent type is LMI. Anne x D d oes not use the Xoff/Xon indi[...]

  • Page 390

    QOS = quality of service , addr = DCE /BIDTE, compression = Ye s / No Meaning: Follows the “circuit in auto-detect mode” message and indicates the current Quality of Service, Point-to-Point Address, and Compression parameter se ttings. Received a connect delay indication (DLC) Meaning: The terminal terminal adapter issued a delay call to the ro[...]

  • Page 391

    received indication too short, len = X Meaning: The terminal adapter indicat ion is too short. The route r will ignore i t. Action: Check the terminal adapter configuration. Received packets while in the down state Meaning: The router has received packets from the terminal adapter while the conection is down. These packets will be dropped. Action: [...]

  • Page 392

    Receiver overflow detected Meaning: The Local Area Network Controller , or the Link Level Controller for the circuit identi fied in the object field of the event message has dropped a received packet because of lack of space in the Receiver FIFO buffer . Remote clearing Meaning: The remote end of a point- to-point circuit is in the process of rese [...]

  • Page 393

    Remote disconnected local Meaning: The router has received (and processed) a disconnect request from the remote end. Remote reset to local Meaning: The router has received a reset request from the remote end. remote station has logged in to Server Meaning: For the indicated PPP circuit, the remote station has successfully logged in to the s yst em.[...]

  • Page 394

    remote station rejected IPCP Meaning: For the indicated PPP circuit, the remote station has rejected the IP Control Protocol (IPCP). No IP traffic may occur over the link until the remote station is ready to accept the IP Control Protocol. remote station rejected IPXCP Meaning: For the indicated PPP circuit, the remote station has rejected the IPX [...]

  • Page 395

    remote station’ s LQM time > configuration time Meaning: For the indicated PPP circu it , the Lin k Quality Monito r (LQM) time that the remote stat ion is willing t o n ego tiate for is great er tha n the LQM time configured for the PPP circuit. The higher LQM time is accepted, but it means that the remote station will be sending Link Quality[...]

  • Page 396

    Server’ s login attempt failed Meaning: For the indicated PPP circu it , the s ystem fail ed in its attem pt to login to the remote station. The system User ID or the System Password (or both) were i ncorrect. Action: Modify system User ID and/or System Password in the configuration. SQE absent (non 802.3 XCVR) Meaning: The circuit named in the o[...]

  • Page 397

    SR max hops exceeded in Specifically Routed Frames Meaning: The maximum number of hops for a source-routed packet, seven, was exceeded in a specifically routed frame (SRF). The packet is dropped. SR max RDs exceeded in explorer packet Meaning: The maximum number of route descriptors (RDs) for a source-routed packet, eight, was exceeded in an all-ro[...]

  • Page 398

    SR Rif_table out of space Meaning: The routing informati on field (RIF) table, which contains the RIFs used to route source-routed packets between the router and the remote token ring nodes, is out of space. It contains RIFs used for both end-station source routing for IP as well as intermediate-station sour ce routing for bridging. SR sr_es_find: [...]

  • Page 399

    SR Sr_is_srf_rif_insert: no rif entry Meaning: A specifically routed frame was received, bu t th e appropriate entry in the source-routing intermediate-station table (sr_is_table) does not contain a routing information field for the destination stat ion. The packet is dropped. SR Sr_is_table out of space Meaning: The sr_is_table, the source-routing[...]

  • Page 400

    Action: Check for a loose or disconnected cable, and verify other hardware. T oken SRA Programming Failure Meaning: The token ring device failed SRA progr amming, indicating a possible hardware failure. Source route bridging will not function properly . Action: Contact your Hewlett-Packard support provider . too many bytes lost: link unreliable Mea[...]

  • Page 401

    packets. When desired l ink quality is re-estab lished, the Network Control Protocols will be brought up again. T oo many V .25 bis maps defined, limit = %d Meaning: T oo many V .25 bis map records have been defined. The maximum number allowed is 255. Action: Check your configuration file and reduce the number of configured items. T oo many V .35 c[...]

  • Page 402

    TR Open Failed Meaning: The token ring device failed in its attempt to insert into the ring. This usually results from trying to insert to a ring at the wrong speed (4 or 16 Mbits). Action: V erify and select the proper ring interface speed for this line. Unable to perform update for dlci Meaning: For the indicated frame r elay circuit, an operator[...]

  • Page 403

    specified call restrictions placed on inbound calls. This is an unlikely event and may indicate an error by the connected adapter . Note: In V .25 bis mode, the W AN Net Fail LED lights if the connected adapt er does not respond with CTS T rue wi thin 20 seconds of the router raising DTR. The Net Fail LED t u rns off if the adap ter s ubsequent ly [...]

  • Page 404

    Unsupported IE value XXX found Meaning: For the indicated frame re lay circuit, a valid status update or full status message was received with an unrecognized or unsupported Information Element (IE). XXX identifies Information Element identifier co de in qu estion. Unsupported NLPID found XXX Meaning: For the indicated frame relay circuit, a receiv[...]

  • Page 405

    X - High priority transmit congestion Meaning: This message is reported when the data packets that were prioritized as high can’t be sent over the W AN link due to congestion. This message is reported on the first instance of dropping a packet due to congestion and the first time a pack et i s dropped after the tx_congestio n or total_tx_error st[...]

  • Page 406

    XNSCP is down Meaning: For the indicated PPP circuit, XNS Control Protocol (XNSCP) has gone down. XNSCP is up Meaning: For the indicated PPP circuit, XNS Control Protocol (XNSCP) is up. XNS packets may now be sent and received on the link. X - PPP/FR High Pri Tx congestion Meaning: When PPP is configured over slow W AN links (<=64K), the PPP con[...]

  • Page 407

    dev: Device Event Messages These event messages are generated by the system variable “dev” in one of the following formats, depending on the router model you are using: Series 200 and 40 0: dev: ’ device event message Router 650: dev[ slot number ]: ’ device event message Bad module ID Meaning: The adapter card (module) ID cannot be identif[...]

  • Page 408

    CCT cct : T oken cable connection fault Meaning: The router detected a cable fault on this token ring circuit. The circuit is no longer in o peration. Action: Check that the cable is still attached to the router and also to the token ring hub. If the connections are proper , then the cable itself may be bad. CCT cct : T oken Ring circuit recor d mi[...]

  • Page 409

    Connected module is non-link: nn Meaning: The adapter card cannot be identified by the dr iver . These ID s are listed in table A-1 in the “hw: Hardware Information Base” section in chapter 18. Action: V erify the adapter card har dware. Connector nn not on this module Meaning: The configuration record reflects a non-existent physical connector[...]

  • Page 410

    Ethernet Port # carrier sense lost Action: Check the transceiver and connection to router port # . Ethernet Port # failed self-test Meaning: Hardware error . Action: HP series 200 or 400 router: Replace the router . HP Router 650: Replace the interface card. Ethernet Port # transmit failure Action: Check the LAN cable and connection to the transcei[...]

  • Page 411

    Action: Reconfigure both lines to have the same clock speed. Internal clock must be the same on all ports Meaning: On all HP series 200 and 400 routers, all synchronous lines share the same clock sign al generator . Thus, whe n us ing internal clocking o n more than one line, the Clock Speed par ameter in the lines configurati on must have the same[...]

  • Page 412

    No buffers available for deadlock processing Meaning: Indicates a degenerative line condition resulting in the lack of receive buffers at both the line source and termination. No circuits configured Meaning: No circuits are configured. Action: Modify the configuration to include required circuit records. No configuration summary record Meaning: A c[...]

  • Page 413

    Action: Modify the configuration to ensure that it includes circuit records for all circuits. No T oken Ring circuits configur ed Meaning: This is a possible error condition in that no circuits have been configured for a router having one or more token ring ports. None of the circuits will be used. Action: Check your network topology to see if any [...]

  • Page 414

    T oo many Ethernet circuits configur ed Meaning: The configuration contains more Ethernet circuit records than can be accommodated. Action: Modify the configuration to ensure that no more than the maximu m Ethernet/802.3 circuit records are assigned. T oo many lines assigned to Ethernet connector Meaning: The same Ethernet/802.3 l ine has been assi[...]

  • Page 415

    T oo many V .35 circuits configured Meaning: The configuration contains an excessive number of V .35 line records. Action: Modify the line configur a tion. T otal bandwidth reserved not 100% ( XXX % cfg’ed) Meaning: The bandwidth reserved for each of the priorities for the W AN cir cuit does not add up to 100%. Action: Make sure the three percent[...]

  • Page 416

    dls: Data Link Services Event Messages Bad action Meaning: Internal DLS state machine er ror . Action: Contact your HP support repr esentative. Bad cct type configured Meaning: The cir cuit type configured is not a valid type. It can only beone of: Ether/802.3 , 802.5, FDDI, HP Point to Point, LAPB, PPP , SMDS, Frame relay , V .25 bis adaptor , Man[...]

  • Page 417

    Action: Reconfigure the circuit. CGM misconfigured Meaning: DLS was un able to notify the upper layer protocols that the circuit has come up. The Circuit Group Manager module is not active. Action: Disable the circuit and re-enable it via NC L. If the symptom persists, call your HP support representative. Clock recovered Meaning: The router has det[...]

  • Page 418

    Invalid Configuration: Pt-to-Pt address must be DCE Meaning: Auto-configuring has de tected a remote bridge, but the router ’ s Pt-to-Pt address configuration option is not set to DCE or auto-configure. Action: Use DC E or auto-configure as the Pt-to-Pt address for the Point-to-Point W AN circuit. Invalid Configuration: Mismatching QOS Meaning: T[...]

  • Page 419

    Invalid Configuration detected by remote side Meaning: A Point-to -Point configuration option that was not using auto-c onfigure is incompatible with the remote device. Action: Use t he auto-configure option to configure the Point-to-Point W AN circuit on either the local or the remote device. Lost carrier , disabling cct Meaning: The ro uter has d[...]

  • Page 420

    SR sr_es_find: Madr_table out of space Meaning: The table that stores station addr esses of end nodes on a token ring network is full. The router uses a Least-Recently-Used policy to replace entries in this table, so no c onnectivity is lost. The rep lacement of entries may only affect the forwarding performance to those nodes that have been replac[...]

  • Page 421

    drs: DECnet Event Messages These event messages are generated by the system variable “drs”, the DEC net routing service. Adj Down CG ccg , Bad Pkt, Adj= aa.nnnn Meaning: An adjacent node (accessible through circuit group ccg ), whose area and node address is aa.nnnn , is declared down because the node transmitte d an erroneous pa cke t. Adj Dow[...]

  • Page 422

    Adj Down CG ccg , Sync lost, Adj= aa.nnnn Meaning: The circuit group manager has declar ed circuit group ccg (which accesses node aa.nnnn ) to be disabled. Consequently , the DEC net router declares aa.nnnn down. Adj Down CG ccg , T imeout, Adj= aa.nnnn Meaning: An adjacent node (accessible through circuit group ccg ), whose area and node address i[...]

  • Page 423

    Area Reach Chg Area aa , Unreachable Meaning: The previously reachable area, whose area address is aa , has become unreachable. CG Down CG ccg , Sync lost, node= aa.nnnn Meaning: The circuit group manager has declar ed circuit group ccg (which accesses node aa.nnnn ) to be unavailable. CG Up CG ccg , Adj= aa.nnnn Meaning: The circuit group manager [...]

  • Page 424

    entity enabled Meaning: DEC net successfully initialized, or has been enabled with the NCL ’s Enable command. Init Fail CG ccg , Block size small, V er= nn.nn.nn Meaning: An adjacent host (accessible over circuit group ccg ) failed to compl ete initialization because of an insufficient configured block size. No DECnet Record configured Meaning: T[...]

  • Page 425

    Routing Pkt CG ccg , Highest= aa.nnnn , Adj= aa.nnnn Meaning: An adjacent router is configured with an area and/or node number greater than the values for which the router is configured. Adj= contains the source address of the packet. Highest= contains the faulty address data contain ed in the packet. Event Log Messages drs: DECnet Event Messages 1[...]

  • Page 426

    egp: Exterior Gateway Protocol Event Messages These event messages are generated by the system variable “egp”, the Exterior Gateway Protocol. Already enabled Meaning: An already enabled EGP has received NCL ’ s Enable command. Already disabled Meaning: An already disabled EGP has received NCL ’ s Disable command. Bad AS, local ip-address re[...]

  • Page 427

    Action: Modify the configuration. Configuration inconsistency repaired Meaning: EGP has noted a minor discrepancy in the configuration. It has initialized using default values. Configuration record not found Meaning: The configuration does not include an EGP record. Action: Modify the configuration. Enable failed Meaning: EGP failed to enable in re[...]

  • Page 428

    Entity not initialized Meaning: EGP has received an NCL command before it has complet ed in itializat ion . Error nnnn attaching to ip-address Meaning: EGP has encountere d an error attemp ting to at tach the nei ghbor designated by ip-address . nnnn designates the error listed in table 17-1 on page 17-83. Error nnnn detaching from ip-address Meani[...]

  • Page 429

    Invalid number of neighbors Meaning: While checking its neighbor table, EGP found too few or too many entries. Action: Modify the configuration to ensure that the number of neighbor s is greater than 1, b ut less than 20. IP entity not available Meaning: The IP entity is not available. EGP cannot function in the absence of IP . Action: Check if IP [...]

  • Page 430

    T able 17-1. Error Codes Code Explana tion 320 321 322 323 324 325 326 327 328 329 32a 32b 32c 32d 32e 32f 320 330 331 332 333 334 335 336 337 338 339 33a 33b 33c 33d 33e 33f 340 Interface not foun d Reques te d res ource unavailable Router out of memory Router ou t of buffe rs Necess ary param eter uns pecified Option or comma nd not supported Inv[...]

  • Page 431

    IP entity not ready Meaning: The IP entity is not currently available. Action: W ait for IP to initialize. Neighbor ip-address acquired Meaning: EGP has acquired a new neighbor . Neighbor ip-address down Meaning: The EGP neighbor reachability algorithm has declared ip-address in the down state. In this state, EGP allocates res ource s to the neigh [...]

  • Page 432

    Source address equal to destination Meaning: The configuration contains identical values for the Local Address and Remote Address parameters. Action: Modify the configuration to ensure the accuracy of local and remote addresses. Event Log Messages 17 Event Log Messages egp: Exterior Gateway Protocol Event Messages 17-85[...]

  • Page 433

    ip: IP Event Messages These event messages are generated by the system variable “ip”, the DoD Internet Router . arp: ip-address1 / ip-address2 Meaning: IP has added a new entry , lear ned through the Address Resolution Protocol (ARP), to it s address t ran slation tab le. ip-address1 is the host address; ip-a ddre ss2 is the network inter face [...]

  • Page 434

    Bad rx bcast bcast on ip address Meaning: The configuration contains an invalid receive broadcast address on the interface designated by ip address . Action: No action is required as IP will use a default broadcast address. Note that the Configuration Editor guards against this error . This message should be seen only if a user has attempted to mod[...]

  • Page 435

    entity enabled Meaning: IP has been enabled in response to NCL ’ s Enable command. entity reset Meaning: IP has reinitialized. filters configured Meaning: IP has configured source ad dress, destinati on address, an d/or T CP/UDP port filters. global broadcasts will not be received Meaning: The Global Broadcast parameter has been set to No. Action[...]

  • Page 436

    icmp: redirect from ip-address Meaning: IP has received an Internet Control Message Protocol (ICMP) redirect message from ip-address . icmp: Unsolicited Echo Reply from X.X.X.X Meaning: Indicates a reply from IP address X.X.X.X to a Ping that was not sent by the local router . A packet may have been duplicated on the network. Action: If this messag[...]

  • Page 437

    no network interfaces configured Meaning: The configuration contains no network interface records. Action: Modify the configuration to include network definitions for all network interfaces. resolved: ip-address1 / ip-address2 Meaning: IP has added a new entry , lear ned through the Address Resolution Protocol (ARP), to it s address t ran slation t[...]

  • Page 438

    SR sr_es_find: Madr_table out of space Meaning: The MAC address table (Madr_table) is out of space. The station address table contains station addresses that are used for both end station (ES) source routing over IP as well as intermediate station (IS) source routing over the bridge. SR Sr_es_table out of space Meaning: The source routing end stati[...]

  • Page 439

    ipx: IPX Router Event Messages These event messages are generated by the the system variable "ipx", the IPX router . CG ccg : Del Rt to dest net via next hop net : next hop Meaning: ccg is the name of the circuit group the route was learned on. dest net is t he destination network the route r eferred to. next hop net is the dir ectly conn[...]

  • Page 440

    CG ccg : New Rt to ipxnet via ipx-address Meaning: The IPX routing module generates a new event message whenever it learns a new route or updates an existing route. The new rout e is specified by ipxnet , which is the destination network to which the new or updated route refer s, and by ipx-address , which is the full IPX address of the next hop ro[...]

  • Page 441

    ipx: ipxwan - Internal Network Number not unique Meaning: IPXW AN detected the same Internal N etwork Number configured on both sides of the link. Action: Modify the configuratio n. Change t he IPX Internal Network Nu mber to be unique. ipx: ccg: ipxwan is up Meaning: IPXW AN exchange was successful and IPXW AN is up on this interface. ipx: ipxwan [...]

  • Page 442

    ipx: ccg : New Rt to ipxnet via ipx-address Meaning: The IPX routing module gen erates a new event mes sa ge whenever it learns a new route or updates an existing route. The new route is specified by ipxnet , which is the destination network to which the new or updated route refer s, and by ipx-address , which is the full IPX address of the next ho[...]

  • Page 443

    lb: Bridge Event Messages The event messages are generated by the system varaible "lb", the learning bridge. Circui t Gr oup ccg Blocking Meaning: The spanning tree algorithm has placed circuit group ccg in the blockin g state. A circuit group in this state does not participate in frame relay . The spanning tree algorithm, however , does [...]

  • Page 444

    entity disabled Meaning: The bridge has been disabled in response to NCL ’ s Disable command. entity enabled Meaning: The bridge successfully initialized, or has been enabled with NCL ’ s Enable command. fwd dlay should be >= XXX Meaning: The Forward Delay configuration parameter was misconfigured. Action: For the Forward Delay parameter , c[...]

  • Page 445

    No Bridge Software configured Meaning: The bridge protocol has not been loaded. Action: Modify the configuration to include a bridge record. SR internal LAN ID not in RIF route Meaning: A specifically rout ed frame (SRF) was recei ved that did not include th e Internal LAN ID of th e brid ge. The fram e cannot be forwarded an d must be dropped. SR [...]

  • Page 446

    SR out of buffers Meaning: An attempt was made to allocate a packet buffer to flood an All Routes Explorer (ARE) packet out of a par ticular interface. However , no packet buffer was available. The ARE cannot be flooded out of the inter face. SR possible ARE loop Meaning: A possible All Routes Explorer (ARE) loop has been de tected. This can occur [...]

  • Page 447

    SR sr_is_table: out cct’ s cg is 0, sending ARE Meaning: The specifically routed frame (SRE) was received and the appropriate entry in the source route intermediate station table (Sr_is_table) for the source des tination pair does n ot yet in clude the route to the destin ation station. The bridge will now send an All Routes Explorer (ARE) packet[...]

  • Page 448

    line: Lines Event Messages Connector nn not on this module Meaning: The configuration record reflects a non-existent physical connector . Action: Modify Connector in the line record in the configuration. Invalid MFS, dflt=2 Meaning: The configuration record for circuit cct # contains a faulty value in the Minimum Frame Spacin g field . Th e rout er[...]

  • Page 449

    Sync circuit assigned to multiple lines Meaning: One or more line records contains references to the same point-to-point circuit. Action: Modify the configuration to ensure that all line and circuit records are consistent. T oo many lines assigned to V .35 connector Meaning: The configuration contains an excessive number (greater than two) of line [...]

  • Page 450

    mgr: Manager Event Messages These event messages are generated by the system variable "mgr". auto enabling entity Meaning: The manager is auto-enabling the specified device or service. entity can be any of the following: a circui t of any type, the IP router , the bridge, the IPX router , EGP , SNMP , TCP , and T elnet. Config file conver[...]

  • Page 451

    cct.circuit name reserved as a backup circuit Meaning: The specified circuit was not auto-enabled because it was reserved as a backup circuit. No memory for session startup Meaning: There is insufficient mem ory ava ilable for the indic ated activity . Action: Contact your HP Service provider . No memory for temp session Meaning: There is insuffici[...]

  • Page 452

    ospf: OSPF Event Messages These event messages are generated by the system variable “ospf”, the Open Shortest Path Fir st internet routing protocol. DD: Extern option mismatch Meaning: The Hello external/stub option specified does not match the configured option. DD: Nbr’ s rtr = my rtrid Meaning: The OSPF entity has detected another OSPF rou[...]

  • Page 453

    Hello: IF dead timer mismatch Meaning: The dead timer value specified in an incoming Hello packet does not match the configured va lue. Hello: IF hello timer mismatch Meaning: The hello timer value s pecified in an in coming Hello packet does not match the configured va lue. Hello: IF mask mismatch Meaning: The mask value specified in an incoming H[...]

  • Page 454

    LS Req: Bad pkt Meaning: OSPF has received a bad link state request. LS Req: Empty request Meaning: OSPF has received an empty link state update request. LS Req: Nbr state low Meaning: The state of a neighbor sending a link state request is too low to honor . That is, the router will drop the Ls Req and Ls Update packets from the neighbor whose sta[...]

  • Page 455

    LS Update: Nbr state low Meaning: The OSPF e nt it y has received a l in k state update from a neighbor in a state too low to be processed. That is, the router will drop the Ls Req and Ls Update packets from the neighbor whose state is below Exchange in the following list: Full Loading Exchange Exch Start 2 Way Init Attempt Down LS Update: Newer se[...]

  • Page 456

    OSPF: Bad intf area id Meaning: The interface area identification specified in this packet does not match the one configured for this OSPF interface. Or , the packet was received on an interface belo nging to another area. OSPF: Bad OSPF checksum Meaning: The checksum calculated for this packet does not agree with the value specified in the pack et[...]

  • Page 457

    OSPF: Packet is too small Meaning: OSPF has received a packet that is too small. OSPF: Packet size > IP length Meaning: OSPF has received a packet exceeding the allowable IP datagram length. OSPF: Received on down IF Meaning: OSPF has received a packet on an interface that was considered to be down. OSPF: TQ_IFCHECK: Interface if_name ( ip-addre[...]

  • Page 458

    OSPF: TRANS [IF/NBR] ID = ip-address Event: X States: Y -> Z Meaning: The transit interface or neighbor ( ip-address ) has received an event ( X ) that caused it to pass through a s tate change from st at e Y to state Z . The following events can cause state machine changes for interfaces or neighbors: Events Received by Neighbors : Events Recei[...]

  • Page 459

    pm: Port Module Manager Event Messages These event messages are generated by the system variable ‘ ‘pm’ ’, which is the port module manager for the HP Router 650. Can’t allocate re-boot message, restart impossible Meaning: The router software was unable to allocate a message needed to initiate the reboot process of a port module. The port[...]

  • Page 460

    If the condition persists, contact you HP support provider . Downloading Port Module type type # in slot slot # Meaning: The softwar e for the port module in slot # is being downloaded. The port module type # is a numeric identifier (1, 2, etc.). Enabling Port Module Meaning: The NCL Enable command was s uccessful and th e proc ess of enabling the [...]

  • Page 461

    Port Module inserted in slot slot # Meaning: The router software has detected the insertion of a port module in the specified slot. Port Module in slot slot # ready for hot swap Meaning: The port module in the specified slot has been successfully shut down and is ready to be removed. Action: T o restart a module in slot # , extract the shut down po[...]

  • Page 462

    Port Module slot slot # state state incorrect for enable Meaning: The port module in the specified slot is no t in th e co rrect state to be enabled. It may already be enabled. Action: Attempt to disable the port module or perform a hot swap. Port Module slot slot # state mismatch Meaning: The router software has detected an inconsistency with stat[...]

  • Page 463

    Selftest failed on slot slot # Meaning: The port module in the speci fied slot of an HP Router 650 has failed selftest. Action: Determine the source of the failure by using the procedure described under ‘ ‘Card/Slot Failure During Self-T est’ ’ in the ‘ ‘T roubleshooting’ ’ chapter of the router installation manual. If the test indi[...]

  • Page 464

    ppp: Point-to-Point Protocol These event messages are generated by the PPP managed object. bad configuration file Meaning: PPP detected an inconsistency in the configur ation. Action: Modif y the configuration. XXX is up Meaning: The PPP protocol XXX has been successfully negotiated with the peer PPP . XXX is down Meaning: The PPP protocol XXX has [...]

  • Page 465

    missed NN Echo Replies: link is down Meaning: The local PPP has not received a response for NN echo replies. The link is going down. PPP will automatically retry opening the PPP link. nissed NN LQRs: link is down. Meaning: The link quality of the W AN is not conducive to data transfers. possible loop-back has been detected Meaning: It is possible t[...]

  • Page 466

    remote station rejected XXX Meaning: The peer PPP reject PPP pr otocol XXX . Action: There is a configuration mismatch between the local router’ s PPP and the peer PPP . For example, the local router may be configured for Appletalk on the PPP link while the peer PPP is not configured for Appletalk. In this example you would ei th er delete the Ap[...]

  • Page 467

    rok : Router Operating Kernel Event Messages These event messages are generated by the system variable "rok", the router operating kernel. Boot count = nnn Meaning: The router has been booted nnn ti mes. connection dropped due to inactivity Meaning: No console input has been received for the time set for the Connection Inactivity T ime co[...]

  • Page 468

    lost DSR/DM signal Meaning: Data Set Ready or Data M ode l ine dropped and modem disconnected . momentary drop in CD/RR line Meaning: Carrier Detect/Receiver Ready line lost, for less than the time set for the Modem Lost Receive Ready configuration parameter . Action: Check the phone lines. Event Log Messages 17 Event Log Messages rok : Router Oper[...]

  • Page 469

    SMDS Event Messages This section contains an apphabetical list of event messages generated by the SMDS managed object. Each message is followed by an explanation of the message contents and a recommended action (if any is required). bad configuration file Meaning: SMDS detected an inco nsistency in th e configurat i on . Action: Modify the configur[...]

  • Page 470

    invalid SMDS individual address for cct # Meaning: The individual address in the SMDS circuit record f or cct # is invalid. An SMDS address is ten digits in length, and each digit must be in the range of 0 to 9. Action: Modify the configurati on . Madr_table is full Meaning: The station Address T able (Madr_table) is out of space. The station addre[...]

  • Page 471

    tcp: T ransmission Control Protocol Event Messages These messages are generated by the system variable "tcp". bad configuration, using defaults Meaning: TCP has rejected user -supplied protocol parameters; TCP will initialize using default parameters. Action: Modify the configuration to accept default parameters. configuration complete Me[...]

  • Page 472

    telnet: T elnet Event Messages These messages are generated by the system variable "telnet". port 23 connected to ip-address Meaning: A T elnet vir tual terminal connection between the router and ip-address has been established throug h the well-known T elnet port. port 23 disconnected from ip-address Meaning: A T elnet vir tual terminal [...]

  • Page 473

    tftp: TFTP and Fget Event Messages These event messages are generated by the system variable "tftp", the T rivial File T ransfer Protocol. An FGET is already in progress, request denied Meaning: Only one Fget command can be satisfied at a time. Action: T ry the command again. Ensure that no other session is using TFTP . Can’t allocate a[...]

  • Page 474

    could not disable entity for FGET OS Meaning: In order to receive the operating system image, we disable all the entities other th an IP and the ci rcuit over which the file w ill be transferred. This frees up enough memory to store the image in memory before burning into no n-volatile memory . I n this case, one of the configured entities named en[...]

  • Page 475

    entity already disabled Meaning: An already disabled TFTP entity has received NCL ’ s Disable command. entity already enabled Meaning: An already enabled TFTP entity has received NCL ’ s Enable command. entity disabled Meaning: The TFTP entity was disabled in response to NCL ’ s Disable command. entity enabled Meaning: The TFTP entity was ena[...]

  • Page 476

    FGET Waiting for route to destination IP_address Meaning: The destination IP address was unavailable. The system is retrying the request. GET remote-filename from ip-address , file local-filename GET CONFIG from ip-address , file CONFIG Meaning: Echoes the Fget command request. Insufficient resources for Enable Meaning: Couldn’t allocate a messag[...]

  • Page 477

    No pkt buffers for TFTP data send, transfer aborted Meaning: Ran out of packet buffers during TFTP transfer . No such action Meaning: Internal entity action error . Action: Call your local product support provider . OS file checksum failed, GET failed Meaning: The operating system image has a CRC in it that is checked after the Fget transfer has co[...]

  • Page 478

    REBOOTI NG THE SYSTEM FOR FG ET OS MEMO RY Meaning: The oper ating system needs more memory than the current configuration can supply . TFTP is rebooting to reclaim memory and try again. receipt of filename file complete Meaning: The file filename specified in the Fget co mmand has been su ccessfully received. received pkt on deleted connection Mea[...]

  • Page 479

    Action: Check that IP is configured correctly and is enabled. TFTP REBOOTING THE SYSTEM FOR FGET OS MEMOR Y ... Meaning: The oper ating system needs more memory than the current configuration can supply . TFTP is rebooting to reclaim memory and try again. TFTP: Received pkt on deleted connection Meaning: A stray , duplicate, or retransmitted packet[...]

  • Page 480

    timep: T ime Protocol Event Messages These messages are generated by the system variable "timep". can’t reach time server ip-address Meaning: The client cannot reach the se rver wit h the ip-address . The normal cause is that the subnet of the server is not yet known by IP . However , if the condition persists for several minutes, it in[...]

  • Page 481

    entity enabled Meaning: T ime Pr otocol has been enabled in response to NCL ’ s Enable command. new time set Meaning: The time fields in front of this event message indicate what the time was before it was changed by a reque st from the T imep server , and to what the time was changed. (See the description of the message entry at the beginning of[...]

  • Page 482

    X.25 Event Messages These event messages are generated by the system variable “x25”, that is, X.25. bad configuration Meaning: X.25 had detected an inconsistency in the configuration. Action: Examine and modify the X.25 configuration. bad LAPB packet window value Meaning: The Pkt W i ndow parameter in the ‘Circui ts’configuration is outside[...]

  • Page 483

    call attempt: cct . ip-address Meaning: A call has been made to the destination with IP addr ess ip -address on circuit cct . call attempt on virtual-cct Meaning: A call has been made on the virtual circuit named virtual-cct . call: cct . ip-address . # Meaning: A DDN or PDN call has been established with the remote host or gateway identified b y i[...]

  • Page 484

    clr: cct . ip-address . # (C= mm ) (D= nn ) Meaning: An established DDN or PDN call to the remote host or gateway identified by ip-address has been cleared. cct identifies the X.25 DDN or PDN circuit and # identifies the logical connection number . C ( mm ) contains the decimal contents of the Cause field (octet 4) of the supervisory header of the [...]

  • Page 485

    clr call from DTE x121-address (no idle circuits) Meaning: The incoming call from DTE address x121- addres s has been cleared because an idle circuit is not available to receive the incoming call. clr: cct . ip_addr .# (C= nn ) (D= nn ) Meaning: An established DDN or PDN call to the remote host or gateway identified b y ip_addr has been cleared. cc[...]

  • Page 486

    packet. The values are listed in tables 17-2 and table 17-3, at the end of this X.25 section. high lcn ( xx ) < low lcn ( yy ); using ( yy ) for both Meaning: The high LCN (logical channel number) is lower than the low LCN configured for an X.25 circuit. The value given by the low LCN ( yy ) will be used for both LCN s. Action: Modify the config[...]

  • Page 487

    read error xx occurred in state xx Meaning: A read of the packet-level interface has generated an error . switch call - xxx to xxx Meaning: An incoming Call Request has been switched. switched call reset slot n . cir = clearing code diag = diagnostic Meaning: A virtual circuit has been reset. switched VC clear requested Meaning: A switched virtual [...]

  • Page 488

    T able 17-2. Cause Field Codes Code DCE-generated 1 3 5 9 11 13 17 19 21 25 33 41 57 Number busy Invalid facility request Network conge stion Out of o rder Access ba rred Not obtainable Remote proc edure error Local procedu re erro r RPOA out of order Reverse ch arging not av ailable Incompatible destination Fast select n ot available Ship absent C[...]

  • Page 489

    T able 17-3. Diagnostic Field Codes Code Point-to-Po int Servic e 0 1 2 3–15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30–31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46–47 No addition al information Invalid P(S) Invalid P(R) Not ass igned Packet type invalid For state r1 For state r2 For state r3 For state p1 For state p2 For state p3 For st[...]

  • Page 490

    T able 17-3. Diagnostic Field Codes (Continued) Code Point-to-Point Service (Continued) 48 49 50 51 52 53–63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78–79 80 81 82 83 84–111 112 113 T ime expired for incoming call for clear indica tion for reset indicat ion for restart indication Not assigned Call setup, call c learing, or regist ration pro[...]

  • Page 491

    T able 17-3. Diagnostic Field Codes (Continued) Code Point-to-Po int Service (Continued) 114 115 116 117 118 119 120 121 122 123–127 241 242 Internat ional protocol pro blem Internat ional link out-of -order Internation al link busy T ransit network facility problem Remote network facility problem Internat ional routing problem T emporary routing[...]

  • Page 492

    T able 17-3. Diagnostic Field Codes (Continued) Code DDN Service (Continued) 145 146 147 148 149 150 151 152 153 154 155 156 157 160 161 162 163 164 165 166 167 Called logical name has no effective translations Invalid address; logical addressing not used in this netwo rk Declared logic al name is n ow enable d Declared logic al name was already en[...]

  • Page 493

    T able 17-3. Diagnostic Field Codes (Continued) Code Network-Specific informa tion (Continued) 180 181 192 193 194 195 196 197 198 199 200 201 202 205 Invalid packet received during NAS select Call opened while the local DCE was waiting for a reply to a CALL REQUEST from DT E and a RESET CONFIRMA TION from the local DTE Call cleared because of loca[...]

  • Page 494

    xrx: XNS Router Event Messages These event messages are generated by the system variable “xrx”, the Xerox XNS router . xrx: ccg : New Rt to xrxnet via ipx-address Meaning: The XNS routing module generates a new event message whenever it learns a new route or updates an existing route. The new route is specified by xrxnet , which is t h e d esti[...]

  • Page 495

    xrx: ccg : Rcvd Err Pkt – err# , Param = errparam Meaning: An error packet has been received by the XNS router . ccg is the circuit group on which the error packet was received. err# is the error number (in decimal) of th e error pack et . errparam is the error parameter ( in decimal) of the error pa cket. V alid error numbers are: 0 1 2 3 512 51[...]

  • Page 496

    zmodem: Zmodem Event Messages These event messages are NCL error codes that can occur when using the Zmodem comman ds Zput and Zget. Display-Only Zmodem Event Messages These messages are not listed in the event log. They appear only on the console display . For messages that ar e also logged, see page 17-150. Command only allowed from the Console P[...]

  • Page 497

    Missing remote file name Meaning: The remote file name was n ot included with the Zput command. Action: The remote file name to transfer into must be entered. NCL ERR — invalid command (ignored) Meaning: This is a generic error i nd icat ing that either the command was mis typed or that manager capability is required to use the command. For Zmode[...]

  • Page 498

    CONFIG transfer aborted, no ID string found Meaning: The router rejected the reception of a n ew co nfi guration file because it lacked the proper conf iguration ID at th e be ginning of the fil e. This e rror only can occur with the Zget command. Action: T ry again with the proper configuration file. Data subpacket too long from remote Meaning: In[...]

  • Page 499

    T erminal connection broken Meaning: Indicates that the ser ial port between the router and the host has been disconnected. T imeout on initialization response Meaning: The router issued an initialization response and did not receive an acknowledgement w ithin ten seconds . Action: Check that the host is running the Zmodem protocol. T imeout waitin[...]

  • Page 500

    T ransfer terminated due to timeout Meaning: Indicates that the router did not receive a Zmodem message from the host for 10 seconds. This message also occurs if the host did not respond to the r outer when it attempte d to connect using the Zget command. (Zget tries for up to 70 secon ds before timing out). Action: Check the host configuration. Un[...]

  • Page 501

    [...]

  • Page 502

    18 Management Information Base V ariables[...]

  • Page 503

    This chapter provides descriptions of all variables contained in the enterprise-specific management in formation bas e (MIB) on the router . Routers from Hewlett-Packard use the W ellfleet private-enterprise branch of the MIB: “iso.org.d od.internet. private.enterpris es.wellfleet .commServer .wfmib” or 1.3.6.1.4.1.18.1.1. At the next level dow[...]

  • Page 504

    alarm: Alarm Information Base The “alarm” information base contains variables that describe the scheduling and issuance of router -generated alar ms. The structure is the following: alarm [ slot # ] variables listed below The pathname is constructed as follows: alarm [ slot # ] .variable The variables are listed alphabetically: cancel_cnt conta[...]

  • Page 505

    at: AppleT alk Information Base The “at” information base contains variables that describe transmission and reception a ctivities acros s each AppleT alk circuit group and rejection of certain packets by the AppleT alk router . The structure is the following: at ccg AppleT alk circuit group name protocol specific App leT alk protocol (see subhe[...]

  • Page 506

    rsp_rx contains the number of AARP RESPONSE packets received by circuit group ccg . rsp_tx contains the number of AA RP RESP ONSE packets transm itted by circuit group ccg . AppleT alk Echo Protocol (AEP) reply_tx contains the number of AEP REPL Y packets tran smitted by circuit group ccg . req_rx contains the number o f AEP REQUEST packets receive[...]

  • Page 507

    ddp_rx contains the number of valid AppleT alk packets received by circuit group ccg . ddp_total_drop contains the total number of AppleT alk packets dropped by circ uit group ccg . ddp_unknown_netwk contains the number of AppleT a lk packets dropped by circ uit group ccg because the destination network was unknown. ddp_upper_protocol contains the [...]

  • Page 508

    network_type_conflicts contains the number of RTMP DA T A packets (received by circuit group ccg ) whose routing tuples (a target network and a hop count) confli cted with network entries in the AppleT alk routing table. nonextended_netwk contains the number of no nextended routing tuples (a target network and a hop count) received by circuit gr ou[...]

  • Page 509

    getnetinfo_tx contains the number of ZIP GETNETINFO packets transmitted by circuit group ccg . getzonelist_rx contains the number of ZIP GETZONELIST packets received by circuit group ccg . getzonelistreply_tx contai ns the number of ZIP GETZONELISTRE- PL Y packets transmitted by circuit group ccg . netinforeply_rx contain s the numbe r of ZIP NETIN[...]

  • Page 510

    atmib: AppleT alk MIB Information Base The “atmib” information base contains variables that describe transmission and reception activities of the AppleT alk router . The structure is the foll owing: atmib protocol stands fo r the s pecific AppleT alk protocol (see subheadings) variables listed below The pathname is constructed as follows: atmib[...]

  • Page 511

    ddp_rx contains the total number of AppleT alk packets received by the AppleT alk router . ddp_total_drop contains the total number of AppleT alk packets dropped by the Appl eT al k router . ddp_tx contains the total number of AppleT alk packets transmitted by the AppleT alk router . ddp_unknown_netwk contains the total number of AppleT alk packets[...]

  • Page 512

    Zone Information Protocol (ZIP) zip_getlclzones_rx contains the total number of ZIP GETLOCALZONES packets received by the AppleT alk router . zip_getlclz ones_tx contains the total number of ZIP GETLOCALZONES p ackets trans mitted by the AppleT alk router . zip_getlclzonesreply_rx contains the total number of ZIP GETLOCALZONESREPL Y packets receive[...]

  • Page 513

    buf: Buffers Information Base The buffers “buf” information base contains variables that describe the router’ s use of two types of global memory buffer s: message buffers, which facilitate internal process-to-process communication, and packet buffers, which facilitate external communications by temporarily storing incoming or out going data [...]

  • Page 514

    miss contains the number of times that the router was unable to obtain either a message buffer or a packe t buffer . Failure to obtain a buffer indicates that all buffers were busy . This parameter is directly related to min . If mis s is greater than 0, min must equal 0. Conversely , if miss equals 0, then min must be greater than 0. size contains[...]

  • Page 515

    cct: Circuits Information Base The circuits “cct” information base contains variables that describe transmission and reception activities across each LAN and point-to-point circu it. The structure is the following: cct cct stands for the circuit name, usually indicating circuit type (see subheadings) variables for each type of circuit, as liste[...]

  • Page 516

    multiplexing/demultiplexing and encapsulation/deencapsulation. DLS can return frames for numerous reasons (many of which are application- specific): for example, because of unknown internal service-access points (ISAPs), because of user -specified filtering requirements contained within the configuration, or because of lack of enabled entities (for[...]

  • Page 517

    lack_resc_error_rx contains the number of instances that circuit cct lost a frame because it could not obtain a receive buffer . latency_tx contains the number of packets (of all priorities) dropped due to exceeding the maximum link latency configured by the user . Link_SetUps contains the number of times the li nk has been set up. Link_UpT ime con[...]

  • Page 518

    octets_tx_per_sec contains the number of octets that this circuit has transmitted in the last second. oflo_rx contains the total number of over flows on circuit cct . An overflow occurs when the receiver FIFO buffer is full when the link level controller was ready to input data. peak_frames_rx contains the peak number of frames that this circuit ha[...]

  • Page 519

    total_rx_error contains the total number of receive errors on circuit cct . This value equals the sum of bad_frames_rx, frams_incomp_rx, frmr _frames_rx, lack_re sc_error_rx, oflo_rx, rejects_rx, an d runts_tx . total_tx_error contains the total number of transmission errors, which is the sum of uflo_tx , latency_tx , an d tx_c ongestion . tx_conge[...]

  • Page 520

    FDDI Circuit canonical_addr Contains the address of this station in canonical form. cfm_state Contains the state of the configurati on management state machine. downstream_mac Contains the 48-bit address of the FDDI downstream neighbor . elm_a_pcm Contains the state of ELM A ’ s physical connection machine (PCM). elm_b_pcm Contains the state of E[...]

  • Page 521

    err_rx_crc Contains the number of received frames with a faulty FCS value. err_rx_mac_status Contains a count of receive frame indication errors (those th at are not pari ty or overrun erro rs ). err_rx_overrun Contains the number of circuit overruns. An overrun occurs when the FDDI receive circuitry cannot keep pace with the incoming flow of traff[...]

  • Page 522

    missed_cmd Contains a count of commands issue d to the FSI that were missed (not execu ted). missed_crf Contains a count of commands not executed because the FSI register did not become free. net_fail Indicates whether n et fail LED is li t for the circuit . octets_rx_ok Contains the number of error - free octets received. octets_rx_per_sec contain[...]

  • Page 523

    tx_congestion Contains the number of times where a buffer wasn’t available to transm it a frame. upstream_mac Contain s the 48-b it address of the FDDI upstream neighbor . Frame Relay Management Information Base The Frame Relay MIB tables are organized under the experimental MIB (“exmib”--number 26) in a six-level tree (instead of under the c[...]

  • Page 524

    Figure 18-1 . Frame Relay Exmib Managment Information Base 18 Management Information Bas e Variables cct: Circuits Information Bas e 18-23[...]

  • Page 525

    Each frame relay MIB item can be accessed through the Network Command Language (NCL) from the console screen. Us e the NCL list command to display a ll or a portion of the frame relay informat ion base. Use the NCL get command to obtain the value of any variable within the information base. There are two methods of access, one using the names of th[...]

  • Page 526

    exmib.fr.dlctble.entry.active. cct # 36.26.1.1.2. cct # where cct # indicates the circuit. addr States that address format are in use on th is fram e relay interface. There are four possible values: Q921 (1) specifies use of the first frame relay address format with support for a 13-bit DLCI with no DE, FECN, or BECN bit support. It is mostly obsol[...]

  • Page 527

    exmib.fr.dlctble.entry.errthr. cct # 36.26.1.1.7. cct # where cct # indicates the circuit. index Is the index in to the Dlcmi tab le. It correspo nds to the fram e relay circuit for which table information is requested. exmib.fr.dlctble.entry.index. cct # 36.26.1.1.1. cct # where cct # indicates the circuit. enqlnt Is the number of status enquiry i[...]

  • Page 528

    exmib.fr.dlctble.entry.multcast. cct # 36.26.1.1.10. cct # where cct # indicates th e circuit. pollint Is the number of seconds between successive status enquiry messages.The default value is ten seconds . exmib.fr.dlctble.entry.pollint. cct # 36.36.1.1.5. cct # where cct # indicates the circuit. Frame Relay Circuit T able V ariables (ccttbl) The c[...]

  • Page 529

    exmib.fr.ccttbl.entry.fecn. cct # . ddd 36.26.2.1.4. cct # . ddd where cct # indicates the circuit an d dd d indicates the dlci. f_rcvd Is the number of frames received over this circuit since it w as created. exmib.fr.ccttbl.entry.f_rcvd. cct # . ddd 36.26.2.1.8. cct # . ddd where cct # indicates the circuit an d dd d indicates the dlci. f_sent Is[...]

  • Page 530

    o_sent Indicat es the number of oc tet s sent from this circ ui t since it was created. exmib.fr.ccttbl.entry.o_sent. cct # . ddd 36.26.2.1.7 cct # . ddd where cct # indicat es th e circuit and ddd indicates the dlci. state Indicates wh ether the particul ar circuit is operational. These entries are created by the Data Link Connection Ma nage ment [...]

  • Page 531

    time Is the value of sysUpT ime at which the error was detected. exmib.fr.errtbl.entry.time. cct # 36.26.3.1.4. cct # where cct # indicates the circuit. type Is the type of error that was last seen on this interface. The fol- lowing value s are valid for th is field: • unknownErr ( 1) • receiveShort (2) • receiveLong (3) • illegalDLCI (4) ?[...]

  • Page 532

    byte_cnt_mismatch contains the number of times a packet is dropped due to the transmit packet size field not being equal to the transmit packet fragment size field. cerr contains the number of transceiver self-test failures on circuit cct . Some transceivers assert the collision signal during the interpacket delay period to verify the channel betwe[...]

  • Page 533

    fcs_error _rx contains the number of frames received by circuit cc t that contained an erroneous checksum. frames_rx_per_se c contains th e number of frames that this c ircuit has received in the last second. frames_tx_per_sec contains the number of frames that this cir cuit has transmitted in the last second. frames_rx_ok contains the number of fr[...]

  • Page 534

    octets_tx_per_sec contains the number of octets that this circuit has transmitted in the last second. octets_rx_ok contains the number of octets (bytes) received without error by circ uit cct . octets_tx_ok contains the number of octets (bytes) transmitted without error by circuit cct . oflo_rx contains the total number of overflows on circuit cct [...]

  • Page 535

    uflo_tx contains the total number of underflows on cir cuit cct . An underflow occurs when the transmitter portion of the local area controller (SONIC) truncates a frame because of the late receipt of data from memory . Management Information B ase Variables cct: Circuits Information Base 18-34[...]

  • Page 536

    PPP (Industry-Standard Point-to-Point Protocol) Circuits The PPP information contains the PPP MIB Link Quality T able and PPP circuit event messages. The PPP MIB variables for the Link Quality T able are organized under exmib.ppp.link_ quality_table.entry and are separate from the general W AN Circuits variables (page 18-14). Use NCL ’ s List com[...]

  • Page 537

    in_tx_lqrs Is an eight-bit state variab le indicatin g the numbe r of Link Quality Report (LQR) packets that the rem o te peer remote stat io n had to transmit so that the local end could receive exactly one LQR. The in_tx_lqrs variab le defines the l engt h of the perio d over wh ich in_tx_packets , in_tx_bytes , in_rx_packets , and in_rx_bytes we[...]

  • Page 538

    T oken Ring Circuits adpt_bad_dio_par contains the number of times the token-ring adapter detected a bad par ity value on data passed to the adapter through a direct I/O access. adpt_dma_rd_abort contains the number of times the token-ring adapter aborted a direct-memory-access read operation. This could be caused by excessive parity errors, excess[...]

  • Page 539

    log_dma_bus_err contains the number of direct-memor y-access bus errors that do not exceed the abort threshold. log_dma_par_err contains the number of direct-memory-access parity errors that do not exceed the abor t threshold. log_frm_cpy_err contains the number of times the token-ring adapt- er (while in the receive/repeat mode) recognized a frame[...]

  • Page 540

    octets_tx_per_sec contains the number of octets that this circuit has transmitted in the last second. peak_frames_rx contains the peak number of frames that this circuit has received in any given second since reboot. peak_frames_tx contains the peak number of frames that this circuit has transmitted in any given second since reboot. peak_octets_rx [...]

  • Page 541

    claim token frame when it detects th at the ring does not contain an active monitor , or that the active monitor is no t fu nc ti oning properly . ring_rem_station contains the nu mber of times the token-ring adapter remov ed itself from the rin g after receiving a remove ring station frame. A remove r ing station frame is issued from the netw ork [...]

  • Page 542

    total_log_error contains the aggregate count of token-ring adapter log errors, the sum of the counts of log_ari_fci_err, log_burs t_err , log_dma_bus_err , log_dma_par_err , log_frm_cpy_err , log_line_err , log_lost_frm, log_rx_congest, and log_token_err variables. total_ring_error contains the aggregate count o f ring errors, the sum of the counts[...]

  • Page 543

    tx_ill_frm_fmt contains the num b er of times the t o ke n- ring adapter recorded an illegal frame format error . An illegal frame format er ror occurs when bit 0 of the frame control ( FC ) field is equal to 1. tx_list_err contains the number of times the token-ring adapter recorded an error in one of the lists that compose the frame. The token-ri[...]

  • Page 544

    chassis: Chassis Information Base The chassis information base contains variables that describe various chassis el ements in th e HP Router 650. The struct ure is the follow ing: chassis id[0] slots[0] slot_table.entry variables instance entity_table.e ntry variables instance slotmap_table.e ntry variables instanc e sensor_table.entry variables ins[...]

  • Page 545

    ID[0] contains a uniqu e identifi er fo r thi s chassis. slots[0] contains the number of slots in this chassis. Slot_T able Example: get chassis.slot_table.en try .objectid .slot# descr[ slot# ] contains a texual description of the card plugged into slot# . index[ slot# ] contains the in dex number for slot# . lastchange[ slot# ] contains a time st[...]

  • Page 546

    timestamp[1] should always be 0. Slotmap_T able Example: get chassis.slotmap_table.entry .slot[ slot# ][1] entity[ slot# ][1] contains the enti ty number for slot# on th e HP Router 650. slot[ slot# ][1] contains the slot number for slot# on the HP Router 650. Sensor_T able These variables report the status of the power supply , fan, and internal t[...]

  • Page 547

    • 1: UNKNOWN Status of the object mon itored by the sens or is unknown. • 2: BAD The objec t monitored by the sensor may be inoper able or operating outside of the proper range. • 3: W ARNING The object monitored by the sensor is operat in g close to the limit of the proper range. • 4: GOOD The object mon it o red by the sensor is wit hi n [...]

  • Page 548

    config: Configuration Information Base The “config” information base contains variables identifying router hardware and software. The majo r s tructure for config (excluding variables) is: version[0] the version variable, listed first below key Key to available services cct_table Circuit branch cct_tbl_entry cgr_table Circuit Group branch cgr_t[...]

  • Page 549

    Pathnames for t he List a nd Get commands are con structed as shown in the following examples: get config.version .0 list config.key .* list config.cct _table.* get config.ip_table.ip_iftbl_entry .* get 35.14.1.3. cct # V ersion version[0] contains the operating code version number (also known as software or firmware). For example, a software versi[...]

  • Page 550

    lb Bridge service osi OSI routing smds SMDS services x25 X.25 circuit services xns XNS routing service Circuit T able cct_indx[ cct # ] circuit number cct_type[ cct # ] circuit type. cct_name[ cct # ] circuit name, such as ‘ ‘Ether 1’ ’ cct_slot[ cct # ] slot number cct_pam[cct #] physical access method cct_port[ cct # ] physical port numbe[...]

  • Page 551

    AppleT alk T able at_indx[ interface #] AppleT alk interface index at_cgr_num[ interface # ] AppleT alk interface index at_if_addr[ interface # ] address for interface DECnet T able drs_indx[ interface # ] DECnet interface number drs_cgr_num[ interface #] circuit group number adrsif_addr[ interface #] address for interface IP T able ip_if_indx[ int[...]

  • Page 552

    IPX T able px_if_indx[ interface] IPX interface number ipx_cgr_num[ interface] circuit group number ipx_if_addr[ interface] address for interface Managment Information Base 18 Management Information Bas e Variables config: Configuration Infor mation Base 18-51[...]

  • Page 553

    dev: Device Information Base The “dev” information base contains a single control object whose sole function is to gen erate s ys tem management mess ages. The single- level structure is the foll owing: dev Management Information B ase Variables dev: Device Informati on Base 18-52[...]

  • Page 554

    decnet: DECnet Configuration Information Base The DEC net configuration “decnet” information base contains variables that describe DECnet global and inte rface-s pecific configurat io n parameters. The structure is the following: decnet variables the global variables, listed below (see “Global” subheading) iftab.if the interface-specific br[...]

  • Page 555

    maxnode contains the maximum number of nodes per network area. maxvisi t contains the maximum number of ti mes a packet can pass through the same router . nmaxcst contains the maximum node-to-node transit cost. nmaxhop contains the maximum number of hops that a packet can transit from source to destination. node contains the router’ s DEC net nod[...]

  • Page 556

    dls: Data Link Services Information Base The Data Link Services information base contains variables that access the data link statistics for configured circuits. The structure is: dls cct name circuit na me variables listed below The pathnames are construc ted as shown in the following examples: dls. variable dls. cct name . variable re_rx_dma_ring[...]

  • Page 557

    test_rsp_rx contains the number of 802.2 Logical Link Control (LLC) T est responses received by cir cuit cct. Receipt of a T est response requires the previous transmission of a T est command. The value contained in this variable should be 0, as should the value of test_cmd_tx . test_rsp_tx contains the number of 802.2 Logical Link Control (LLC) T [...]

  • Page 558

    xid_rsp_rx contains the number of 802.2 Logical Link Control (LLC) XID responses received by circuit cct. Receipt of an XID response requires the previous transmission of an XID command. The value contained in this variable should be 0, as should the value of xid_cmd_tx. xid_rsp_tx contains the number of 802.2 Logical Link Control (LLC) XID respons[...]

  • Page 559

    drs: DECnet Circuit Group Information Base The DEC net routing service “drs” information base contains variables that describe transmission and reception activities across each DEC net circuit group; it also contains variables that describe the rejection of certain packets by the DEC net router . The structure is the foll owing: drs cg circuit-[...]

  • Page 560

    Aggregate Rejection aged_pkt_loss contai ns the number of packets droppe d by the DEC net router because the packet had transited too many routers prior to reaching its destination. The maximum n umber of routers that a packet can transit is determined by the Area Max. Hops and Max. Hops parameters. Area Max. Hops sp ecif ies the number of rout ers[...]

  • Page 561

    echo: Echo Service Information Base The TCP “echo” information base contains variables that describe the T ransmission Control Protocol echo service. The structure is the following: echo variables listed below The pathname is constructed as follows: echo. variab le The variables are listed alphabetically: mem_err contains the number of memory e[...]

  • Page 562

    egp: EGP Information Base The Exterior Gateway Protocol “egp” information base contains variables that describe the transmission and reception of messages by the EGP protocol. The structure is t he following: egp variables listed below The pathname is constructed as follows: egp. variable The variables are listed alphabetically: bad_asn contain[...]

  • Page 563

    cmdoos contains the number of ti mes EGP received an out-of-se- quence command mes sage. An out-of-s equ ence message indicat es that a prior message, issued by an EGP peer , has been missed. cmdrej contains the number of times EGP refuse d to respond to a received command. Such refusal could be generated by receipt of a neighbor acquisition messag[...]

  • Page 564

    hw: Hardware Information Base The structure of the hardware “hw” information base is the following: hw [ slot # ] always ‘ ‘1’ ’ for HP Series 200 and 400 routers ‘ ‘1’ ’ through ‘ ‘5’ ’ for the HP Router 650 variables listed below The pathname is constructed as follows: hw[ slot # ]. variable The variables are listed al[...]

  • Page 565

    ip: IP Information Base The IP router “ip” information base contains variables that describe transmission and reception activities across each IP interface; it also contains variables descri bing the IP routing table. The structure is t he following: ip ip_interface the interface-specific branch (see subheading) ip-address the IP address in dot[...]

  • Page 566

    drop.frag_error contains the number of IP datagrams dropped by interface ip-interf ace because of its inability to fragment a datagram. ip-interface forwards datagrams up to 1500 bytes in length; longer datagrams must be fragmented. Should the datagram originator forbid fragmenting (by setting the DF bit--Do Not Fragment-- in the IP header), interf[...]

  • Page 567

    icmp_rx.redirect contains the number of ICMP redirect messages received by interface ip-a ddress . Such me ssages inform the re cipient of a more optimum IP route. icmp_rx.ttl contains the number of ICMP time exceeded mess ages received by interface ip-a ddress . Such messages are generated when a datagram’ s hop count reaches 0. icmp_rx.xsum_err[...]

  • Page 568

    rx contains the total number of IP datagrams received by interface ip-address . tx contains the total number of IP datagrams transmitted by interface ip-addres s . ulp contains the total number of IP datagrams delivered by the router to one of three upper -level protocols (Internet Control Message Protocol, T ransmission Control Protocol, or User D[...]

  • Page 569

    ipx: IPX Information Base The “ipx” information base is a composed of: (1) a set of variables that describe transmiss ion and reception of p ackets acros s each IPX interface, (2) a set of variables that describe aggregate Internet Datagram Protocol (IDP) activity , (3) an IPX addressing table, (4) a SAP table, and (5) an IPX routing table. Y o[...]

  • Page 570

    Internet Datagram Protocol (IDP) forwarding contains an integer switch indicating the node’ s function within the extended IPX networ k. A value of 1 indicates that the no de is acting as a gateway (routes and forwards datagrams); a value of 2 indicates that th e node is acting as a host (does no t route an d forward datagrams). forwdatagrams con[...]

  • Page 571

    isdn: ISDN (V .25 bis) Information Base The “isdn” information base contains variables for V .25 bis lines through a terminal adapter (manual or automati c dialing). The structure is th e following: isdn V .25 bis adapter the terminal adapter branch (see subheading) ccttbl V .25 bis cir cuit table variables the terminal adapter variables, liste[...]

  • Page 572

    ccttype[ cc t# ] contains the circuit type defined in the V .25 bis circuit group definition,either Circuit Group Mem ber , Backup Member , Pool Member , or Misconfigured Circuit . connecttime[ cct# ] conta ins the value indicating the time in seconds that the current V .25 bis connection has been alive. If there is no current connection, the n thi[...]

  • Page 573

    subaddr[ cct# ] co ntains the last subaddress sent on an ou tbound connection or received on an inbound connection. If not known, the value is set to Unk nown . If no connection has been established since the router was booted, the value is set to Never used . IP Mapping ip_networks[ IP-addr-f or-hop ] contains the IP networ k map to the circuit. E[...]

  • Page 574

    ipmapstate[ map# ] indicates the state of the I P map. The possible states are the follo wing: disconn ected means the ma p is disconnected; the circui t is available. disabled means the circuit has been disabled by NCL ’ s Disipmap command. connecting means the map is in the process of making a V .25 bis connectio n. connected means the map is c[...]

  • Page 575

    key: Key Information Base The “key” infor mation base indicates whether specific HP rout er services are available to be configured on this model router . A value of 1 means the service can be configured. A value of 0 means the service is not available. key variables listed below The pathname is constructed as follows: key . variable The variab[...]

  • Page 576

    lb: Bridge Information Base The bridge “lb” information base contains variables that descri be the reception and transmission of packets across each bridging circuit group. The structure is the following: lb ccg bridge circuit group name variables listed below The pathname is constructed as follows: lb. ccg.variable The variables are listed alp[...]

  • Page 577

    Interval time, those packets are dropped if the destination of the first packet has not yet replied. The router will not flood packets more than once wihin the Flood Interval time if the Flood inter val time is set to a value other than zero. drop_invalid_ringid increments when an explorer frame is received and the last ring ID in the RIF does n ot[...]

  • Page 578

    fwd_load_bal contains the number of packets forwarded by circuit group ccg in accordance with load balancing options specified by the configuration. fwd_mcast_addr contains the number of packets forwarded by circuit group ccg in accordance with global multicast-address filters specified by the configuration. fwd_protocol contains the number of pack[...]

  • Page 579

    xmit contains the number of packets transmitted by circuit group ccg . xmit_cfg contains the number of config uration BPDUs sent by circuit group ccg . xmit_tcn contains the nu mber of topo logy-change notificatio n BPDUs sent by circuit group ccg . Management Information B ase Variables lb: Bridge Inf ormation Base 18-78[...]

  • Page 580

    lbmib: Bridge Address T able Information Base The bridge address table “ lbmib” information base contains data o n the forwarding and filtering of bridge frames. Use NCL ’ s Rgetb command to access the “lbmib” address table. The structure is the followi ng: lbmib fwdtable entry variables listed below count riftable rifentry variables list[...]

  • Page 581

    rif describes the path used to source route packets between the source route and the destination. The first two bytes contain the routing control (RC) field th at describes the routing type, field len gth, direction bit, and largest fra me size, as follows: bits 1-2: RIF type 00: Specifically Routed Frame (SRF) 11: Spanning T ree Explorer (STE) 10:[...]

  • Page 582

    log: Event Log Information Base The event log information base contains data on the event log and enables access to certain events. Y ou can use the NCL List command to diaplay all or a part of the event log information base, and the NCL Get command to obtain the value of any variable within the information base. The MIB number fo r l og is 57. The[...]

  • Page 583

    mem: Memory Information Base The memory “mem” infor mation base contains variables that descri be system memo ry man agement. The structure is the following: mem [ slot # ] always ‘ ‘1’ ’ for an HP Series 200 or 400 router; ‘ ‘1’ ’ to ‘ ‘5’ ’ on an HP Router 650 type either local or global , both with the same variables [...]

  • Page 584

    mgr: Manager Information Base The System manager “mgr” information base contains a single control object whose function is to generate system management and entity enabling messag es. NCL ’ s List and Get com mands provide no additional information regarding the “mgr” information base. Managment Information Base 18 Management Information [...]

  • Page 585

    mib: Internet MIB This IP routing information base, the “mib” branch, within the private- enterprise section, contains the same variables as the standard Internet MIB I section, as defined in Internet Request for Comments (RFC) 1156. The variables in the private-ent erprise sect ion have different names but have the same identificat io n codes [...]

  • Page 586

    name: Name Information Base The “name” information base contains variables that describe the operations and structure of the name server . The structure is the following: name [ slot # ] always ‘ ‘1’ ’ for an HP Series 200 or 400 router; ‘ ‘1’ ’ to ‘ ‘5’ ’ on an HP Router 650 variables listed below The pathname is constr[...]

  • Page 587

    pm: Port Module Manager Information Base The ‘ ‘pm’ ’ port module manager information base contains var iables that describe port interface modules that may be installed in the HP Router 650. pm total_ports_modules slot # variables module-specific bran ch and variables Examples of pathnam e constructions are: pm. slot # . var iable pm.total[...]

  • Page 588

    Module Example: get pm.slot2.state state The current state of the port module. The following values are possible. 0 = Dead 1 = Absent 2 = Hard Re set 3 = Soft Reset 4 = Selftest Pass 5 = Selftest Fail 6 = Downlo ading 7 = Booting 8 = Alive 9 = Running hwid the type of port module i n the slot. The following values are possible. 0 = Empty Slot (i. e[...]

  • Page 589

    proprietary: Proprietary Information Base This is a proprieta ry Information Bas e used by HP netw ork man agement applications . If further informat io n is desired, pleas e con tact your HP representitive. Management Information B ase Variables proprietary: Proprietary Information Base 18-88[...]

  • Page 590

    rok: Router Operating Kernel Information Base The structure of the router operating system “rok” information base is the followi ng: rok [ slot # ] always ‘ ‘1’ ’ for an HP Series 200 or 400 router; ‘ ‘1’ ’ to ‘ ‘5’ ’ on an HP Router 650 variables listed below The pathname is constructed as follows: rok[ slot # ]. variab[...]

  • Page 591

    snmp: SNMP Information Base The Simple Net work Management Protoc ol “snmp” inform ation base contains variables that describe the transmission and reception of User Data Protocol (UDP) datagrams delivered to or originated by the SNMP management agent. The structure is the fol lowing: snmp variables listed below The pathname is constructed as f[...]

  • Page 592

    svc: System Services Information Base The system services “svc” information base contains variables that describe the private memory management function of system management. This func tion maintain s dynam ic i nformation on the memory space availab le to active tasks . The next level identi fies the memory management instance ( sm e ). The ne[...]

  • Page 593

    tcp: TCP Information Base The T ransmission Control Protocol “tcp” information base contains variables that describe the exchange of TCP segments between communicating TCP peer entities . The structure is the follow in g: tcp variables listed below The pathname is constructed as follows: tcp. variable The variables are listed alphabetically: ac[...]

  • Page 594

    dupack contains the number of duplicate acknowledgment segments. dupseg contains the number of duplicate received TCP segments. erract contains the total number of error messages sent by TCP . hashcolls contains the number of times hashing of th e TCP port information produced a collision with a previous port. hashhits contains the number of times [...]

  • Page 595

    rehashes contains the number of times the TCP port table was rehashed. This happens wh en a connection is closed, or w hen the control block hash table requires rehashing. reseq contains the number of packets resequenced by the router . reseq_drop contains th e number of elements dropped b ecau s e of resequencing. reseq_full contains the number of[...]

  • Page 596

    telnet: T elnet Information Base The “telnet” information base contains variables that describe virtual- terminal connections between the router and a remote device. The structure is the foll owing: telnet variables listed below The pathname is constructed as follows: telnet. variable The variables are listed alphabetically: inp.bad_opt contain[...]

  • Page 597

    out.no_if c ontains the number of outgoing TCP segments tha t were dropped for lack of an interface. out.too_big contains the number of outgoing TCP segments that were dropped because they exceeded the MTU. rx_bytes contains the number of bytes received by the router while connected to a remote terminal by means of T elnet. sess_cur contains the cu[...]

  • Page 598

    tftp: TFTP Information Base The T rivial File T ransfer Protocol “tftp” information base contains variables that describe file transfers between the router and a remote device. The structure is the following: tftp variables listed below [ n ] the inter face number assigned by the router The pathnames are construc ted as follows: tftp. var iable[...]

  • Page 599

    wrqin contains the number of received TFTP WRITE REQUEST packets (Opcode=2). wrqout contains the number of transmitted TFTP WRITE REQUEST packets (Opcode=2). Management Information B ase Variables tftp: TFTP Information B ase 18-98[...]

  • Page 600

    timep: T ime Protocol Information Base The “timep” information base contains variables that count two T i me Protocol events. The structure of the information base is the following: timep variables listed below The pathname is constructed as follows: timep. variable The variables are listed alphabetically: requests contains the number of times [...]

  • Page 601

    timer: T imer Information Base The “timer” information base contains variables that describe the scheduling and issuance of rout er -generated timers. The str ucture of the information base is the following: timer [ slot # ] always ‘ ‘1’ ’ for an HP Series 200 or 400 router; ‘ ‘1’ ’ to ‘ ‘5’ ’ on an HP Router 650 variabl[...]

  • Page 602

    xrx: Xerox XNS Information Base The “xns” information base is a composed of: (1) a set of variables that describe transmiss ion and reception of p ackets acros s each XNS interface, (2) a set of variables that describe aggregate Internet Datagram Protocol ( IDP )/Error Pro t oco l activity , (3) an XNS addressing table, and (4) an XNS routing t[...]

  • Page 603

    ulp contains the total number of IDP datagrams delivered by the router to an upper -level protocol (for example, RIP , Echo, Erro r) for processing. Protocol errsdestbadsock contains the numb er of destinat io n-h ost- generated Error Protocol packets, with an Error Number of 2, that were relayed by the router . This error number i ndicates that th[...]

  • Page 604

    errsxithopcnt contains the number of rou ter -generated Error Protocol packets with an Error Number of 1003. This er ror number indicates that the packet ha d pass ed through more th an the maxim u m number of routers before arriving at its destination. errsxittoobig contains the number of router -generated Error Protocol packets with an error numb[...]

  • Page 605

    inunknownprotos contains the number of IDP datagrams discarded because of an in correct or corrupt ed value in the Prot oco l T ype field in the IDP header . outdiscards contains the number of valid output IDP datagrams discarded because of insufficient router resources (lack of buffer space). outnorou tes contains the number of IDP datagrams disca[...]

  • Page 606

    x25: X.25 Information Base The “x25” information base contains variables that describe frame-level and packet-level transmission and reception activities across each X.25 circuit; it also contains variables that describe packet-level transmission and reception a ctivities acros s each X.25 poin t-t o-point dedica ted switched virtual cir cuit. [...]

  • Page 607

    Circuit Frame Level bad_len_rx contains the number of supervisory FRMR (Frame Reject) frames received by X.25 circuit cct that contained W and X bits set to 1. Th is bit patte rn in dicat es that th e rem ote end has reject ed a supervisory or unnumb ered fram e i ssued by X.25 circuit cct beca use the frame length was fa ulty . bad_len_tx contains[...]

  • Page 608

    frmr_rx contains the aggregate number of FRMR (Frame Reject ) frames received by X.25 circuit cct. FRMR frames report specific error conditions . frmr_tx contains the aggregate number of FRMR (Frame Reject) frames transmitted by X.25 circuit cct. FRMR frames rep ort specific error conditions. ignore_rx contains the aggregate number frames, received[...]

  • Page 609

    rr_rx contains th e nu mber of RR (Receiver Ready) frames received by X.25 circuit cct. An RR frame either indicates th e readiness to rec eive I frames, or acknowledges the receipt of I frames. rr_tx contains the number of RR (Receiver Ready) frames transmit- ted by X.25 circuit cc t. An RR frame either i ndicates the readines s to receive I frame[...]

  • Page 610

    Circuit Packet Level call_cfm_rx contains the number of CALL CONNECTED packets received by X.25 circuit cct. A CALL CONNECTED packet completes the call- setup procedure. call_cfm_tx contains the nu mber of CALL ACCEPTED pa ckets transmitte d by X.25 circuit cct. A CALL ACCEPTED pa cket indicates readiness to accept an incoming call, and generates a[...]

  • Page 611

    data_rx contains the number o f DA T A packets received by X.25 circuit cct. DA T A packets contain user da ta . data_tx contains the number of DA T A packets transmitted by X.25 circuit cct. DA T A packets contain user data. dropped_tx contains the count of IP datagrams dropped by the circuit because of X.25 failures or queue clipping. error_rx co[...]

  • Page 612

    packet acknowledges that the previously requested restart action has been implemented . restart_rx contains the number of REST ART INDICA TION packets received by X.25 circuit cct. A REST ART INDICA TION packet informs the recipient that the remote node has cleared all switched virtual circuits. restart_tx contains the number of REST ART RE QUEST p[...]

  • Page 613

    t22_tmout contains the number of T2 2 timer expirations. The T22 timer starts when a RESET REQUEST packet is issued, and terminates when a RESET CONFIRMA TION or RESET INDICA TION packet is received. If such a packet is not received within T22 seconds (typically 180 sec- onds), the RESET REQUEST is reissued. t23_tmout contains the number of T2 3 ti[...]

  • Page 614

    reset_tx contains the number of RESET REQUEST packets transmit- ted by X.25 virtual circuit svc. A RESET REQUEST packet sets the send and receive packet sequences to 0, and generates a RESET INDICA TION packet at the remote end of the circuit. rnr_rx contains the number of RNR (Receiver Not Ready) packets received by X.25 virtual circuit svc. An RN[...]

  • Page 615

    After verifying that a call has been established, scan the log to ensure that the call (and switched virtual circuit) is still active (has not been cleared). Cleared calls are indicated by an event log entry that takes the following format: clr: cct_name.ip_addr.#(C=nn)(D=nn) where: cct_name is the name of the X.25 DDN or PDN circuit. ip_addr is th[...]

  • Page 616

    A Parameter Finder[...]

  • Page 617

    How T o Use the Parameter Finder The parameter finder is a tool you can use to help deter mine the menu path to any parameter in the Configuration Editor by listing each parameter according to its position in the Configuration Editor hierarchy . The parameters are grouped according to the menu items under which they occur in the main screen of the [...]

  • Page 618

    1. System (1) System Name Auto En able Automatic Re boot Ti m e z o n e Daylight T ime Rule Daylight T ime Rule = User d efined Beginning month Ending month Beginning day Ending day System Contact System Location 1. System Session Event Filter Level Session Mod e (User , T elnet) T ypographic al Conventions Parameter names appear as: System Name Au[...]

  • Page 619

    1. System 1. System System Name Auto En able Automatic Re boot Ti m e z o n e Daylight T ime Rule Daylight T ime Rule = User d efined Beginning month Ending month Beginning day Ending day System Contact System Location 1. System Session Event Filter Level Session Mod e T erminal Screen Ref resh Rate Session Mode = Us er Baud Rate Flow Control Parit[...]

  • Page 620

    2. Software 3. Lines 2. Software Protocol 3. Lines Physical Access Method Physical Access Method = CSMA/CD Connector Physical Access Metho d = FDDI Bridge T ype Physical Access Method = SYNC Connector Clock Sou rce Clock Speed Physical Access Method = T OKEN RING Connector Ring Interface 1. Circuit Name Circuit Name Parameter Finder A A: Parameter [...]

  • Page 621

    4. Circuits 4. Circuits Circuit Name Auto En able Quality of Service Circuit T yp e Circuit T ype = Ether/802.3 LAN Address XCVR signal polling Circuit T ype = PPP over V .25 bis LQM T im e (secs) Echo Requiest T ime (secs) Desired Link Qu ality Min Frame Spacing Extended (32-bit) CRC Max Pkt Size IP Address LCP Active-Open LCP Auto-Restart Max Lin[...]

  • Page 622

    4. Circuits (Con tinued) Circuit T ype = PPP over V .25 bis ( Continued) 1. Adapter re cord (Cont inued) Min channels to ag gregate Max channels to agg regate Channel Management 1. Outbound call number Remote st ation Number Subaddres s 2. Allowed inbound call numbers Allowed Number Subaddres s 3. Local number (Used for collision avoidance) Remote [...]

  • Page 623

    4. Circuits (Con tinued) Circuit T ype = V .25 bis adapter ( C ontinued) 1. Adapter record Connect when Minimum connect duration (sec) Connect retr y count Connect wait time (sec) Connect inac tivity time (sec) Send CIC on all allowed INC’ s Delay after connect failure (min) Per ch annel B andw idth Min channels to ag gregate Max channels to agg [...]

  • Page 624

    4. Circuits (Con tinued) Circuit T ype = Frame Relay ( Co ntinued) Management T ype = ANSI Annex D or LMI Poll Interval (seconds) Intervals between Full Polls Monitored Events Events for Error Alarm T i me r Management T ype = LMI Switch or Annex D Switch Provide Update Status Maximum Poll Interval (seconds) Monitored Events Events for Error 1. Per[...]

  • Page 625

    4. Circuits (Con tinued) Circuit T ype = SMDS ( Contin ued) Use Heartbeat Poll Heartbeat Polling Interval Heartbeat Do wn Count Max Link Latency (ms) (0=non e) 1. Bandwidth Reservation Percent of queue reserved for high priority pkts Percent of q ueue reserved for no rmal priority pk ts Percent of queue reserved for low priority pkts Circuit T ype [...]

  • Page 626

    4. Circuits (Con tinued) Circuit T ype = LAPB (X.25) (Continued) SVC Low SVC LCN High SVC LCN PVC Low PVC LCN High PVC LCN Max Link Latency (ms) (0=non e) 1. Bandwidth Reservation Percent of queue reserved for high priority pkts Percent of q ueue reserved for no rmal priority pk ts Percent of queue reserved for low priority pkts Circuit T ype = HP [...]

  • Page 627

    5. Circuit Groups 5. Circuit Groups Circuit Group Name Circuit Group Speed 1. Circuit Group Members Circuit Name 2. Circuit Group Backup Members Circuit Name 3. Circuit Group Pool Members Circuit Name A: Parameter Fin der A-12[...]

  • Page 628

    6. Bridge 6. Bridge Auto En able Forwarding T able Size STP Priority Max Age Flood Interval (sec) Bridge ID (Hex) Hop Count Re duction T able Age Interval (min) Spanning T ree Enable Hello T ime Forward Delay Internal LAN ID (He x) Loop Detection T ime (ms) Group LAN ID 1. Lists 1. MAC Address Lists List Name 1. List Members MAC Address (low) MAC A[...]

  • Page 629

    6. Bridge (Continue d) 1. Lists (Continued) 4. Protocol ID/Org. Code Lists List Name 1. List Members Protocol ID/Org. Code (low) Protocol ID/Org. Code (high) 2. Circuit Groups Circuit Grou p Name Cost LAN ID (Hex) Max hops Learning B ridge T ranslational Bridge STP Priority Src Rte Block STE T raffic Priority 1. T raffic Filters Precedence MAC dest[...]

  • Page 630

    6. Bridge (Continue d) 2. Circuit Groups (Continu ed) 1. T raffic Filters (Continued) DL Format = 802.2 LLC DSAP (low)/(high)/Effect SSAP (low)/(high)/Effect DL Fo rmat = Et hernet T ype (low)/(high)/Effect Action 1. User Defined Fi elds Header Offset Length Effect 1. V alues Low Value (hex) High Value (hex) 2. Outgoing Circuit Group Assignment Cir[...]

  • Page 631

    7. DoD Internet Router 7.DoD Intern et Router Auto Enable RIP Network Diameter Management Priority Global Broadca st Mode Drop Non-Local Ar p Suppress Auth entication T ra ps 1. Lists 1. IP Address Lists List Name 1. List Members IP Address (low) IP Address (high) 2. IP Port Lists List Name IP Port (low) IP Port (high) 2. Network Interface Definiti[...]

  • Page 632

    7. DoD Internet Router (Continued) 2. Network Interface Definition (Continued) Default Route Supply Default Route Listen Poisoned Rever se RIP Interface Cost Address Mask Reply MTU Discovery Option Load Balancing ASB Flood Source Route (T oken Ring) 1. T raffic Filters Preceden ce IP Dest (low) IP Dest (high) Effect IP Source (low) IP Source (high)[...]

  • Page 633

    7. DoD Internet Router (Continued) 2. Network Interface Definition (Continued) 1. T ra ffic Filters (Continued) 2. Next Hop Assignment Next Hop Address Drop if Next Hopis Down 3. Static Rout es Internet Addr ess T ype (Static Route, Static Adjacency , Adjacent Host) T ype = Static Route Subnet Mask Next Hop Cost Preference Propagate to RIP Propagat[...]

  • Page 634

    7. DoD Internet Router (Continued) 4. OSPF ( Continued) 1. Areas (Continued) 1. Network Su mmaries IP Address Network Map 2. Interfaces Circuit Group Name Password 1. Interface Definition Interface T ype IP Addre ss Metric Interface T ype = Broadcast 1. Broadcast Definition Hello Interval Dead Interval Retransmit Inter val Priority Interface T ype [...]

  • Page 635

    7. DoD Internet Router (Continued) 5. EGP Configuration Auto En able 1. EGP Neighbors Local Mode local Address Remote ASN Remote Addr ess Aquisition Mode Polling Mode Hello T imer Polling T imer 6. TCP Configuration Number of Connections T ransmit Window Size Receive Windo w Size Open/Close T imeout (ms) Activity T imeo ut (ms) Minimum Retransmit I[...]

  • Page 636

    7. DoD Internet Router (Continued) 9. BOOTP Configuration (Continued) 1. BOOTP Reques t Destinat ions Dest IP Address 10. Import Route Filters Network Address Network Mask Import Action From Protocol (RIP , OSPF , EGP) From Protocol = RIP From Gateway From Interface Preference (If Import Action = Ac cept) From Protocol = OSPF Ty p e Ta g Preference[...]

  • Page 637

    7. DoD Internet Router (Continued) 11. Export Route Filters (Continued ) T o Protocol = EGP T o Peer T o Au tonomous System Metric A: Parameter Fin der A-22[...]

  • Page 638

    8. DECNET IV Routing Service 8. DECNET IV Routin g Service Auto En able Max Nodes Max. Area Node Area Max. Hops Area Max. Hops Max. Cost Area Max. Cos t Max. Bcast Endnodes Max. Visits Bcast. Rout ing T imer 1. Lists 1. Area Lists List Name 1. List Members Area (low) Area (high ) 2. Node Lists List Name 1. List Members Node (low) Node (high) 3. Pac[...]

  • Page 639

    8. DECNET IV Rout ing Service ( Continued) 2. Circuit Groups Circuit Group Name Cost Hello T imer Router Priority Number of Routers 1. T ra ffic Filt ers Preceden ce Dest Area (low) / (high) / Effect Dest Node (low) / (high) / Effect Source Area (low) / (hi gh) / Effect Source Node (low) / (hi gh) / Effect Packet T ype (low) / (high) / Eff ect Acti[...]

  • Page 640

    9. SNMP Sessions 9. SNMP Sessions Community Name Session mode Session type Session type = T ra p Send Ev ent Me ssages As T raps Event Filter Level 1. Node Addresses Node Addre ss Parameter Finder A A: Parameter Finder A-25[...]

  • Page 641

    10. Xerox Routing Service 10. Xerox Routing Service Host Number Auto En able 1. Lists 1. Network Lists List Name 1. List Member s Network Number (low) Network Number (high) 2. Host Lists List Name 1. List Member s Host (low) Host (high) 3. Socket Lists List Name 1. List Member s Socket (low) Socket (hig h) 3. Packet T ype Lists List Name 1. List Me[...]

  • Page 642

    10. Xerox Routing Service (Continued) 2. Network Interface Definitions Network Number Circuit Group RIP Supply RIP Listen RIP Interface Cost Checksums On Source Route (T oken Ring) RIP and SAP split horizon Random load balan cing 1. T ra ffic Filt ers Preceden ce Dest Network (low) / (high) / Eff ect Dest Host (low)/(high)/ Effect Dest Socket (low)[...]

  • Page 643

    11. IPX Routing Service 11. IPX Routing Service Auto En able 1. Lists 1. Network Lists List Name 1. List Member s Network Number (low) Network Number (high) 2. Host Lists List Name 1. List Member s Host (low) Host (high) 3. Socket Lists List Name 1. List Member s Socket (low) Socket (hig h) 4. Packet T ype Lists List Name 1. List Member s Packet T [...]

  • Page 644

    11. IPX Routing Service (Continu ed) 2. Network Interface Definitions (Continued) Accept NETBIOS Bcasts from net Deliver NETBI OS Bcasts to n et Source Route (T oken Ring) SAP driven RIP supply RIP and SAP split horizon Random load balan cing IPXWAN 1. SAP Network Level Filter Definitions Action Network Number (He x) Server T ype (Hex) 2.SAP Server[...]

  • Page 645

    11. IPX Routing Service (Continu ed) 4. Intern al Network Number and Router Na me Internal Network Number Internal Router Name A: Parameter Fin der A-30[...]

  • Page 646

    12. AppleT alk Router 12. AppleT alk Rout er Auto En able AARP Mapping T able Size Routing T able Size Zone T able Size 1. Lists 1. Network Lists List Name 1. List Member s Network (low) Network ( hig h) 2. Node Lists List Name 1. List Member s Node (low ) Node (hig h) 3. Socket Lists List Name 1. List Member s Socket (low) Socket (hig h) 4. DDP T [...]

  • Page 647

    12. AppleT alk Rout er (Continued) 2. Circuit Groups Circuit Group Name Probe Checksum Node ID Source Route (T oken Ring) Seed Router Seed Rout er = Y es Network Min Network Max Network Default Zone Name Zone Filter Cost Seed Rout er = Y es 1. Zone Name List Zone Name 2. T ra ffic Filters (Same as ‘‘1. T raffic Filters’’, below) 1. T ra ffi[...]

  • Page 648

    13. X.25 Network Service 13. X.25 Network Service Auto En able 1. PDN Service Lower Circuit Name Max Queue Size MTU Size Upper Circuit Name Local DTE Addr ess Closed User Group Closed User Group = Y es Outgoing Access Group Number 1. X.25 Address Map IP Addre ss X.121 Address Broadcast Max Conns Min Idle T ime (secs) Max Idle T ime (secs) Call Retr[...]

  • Page 649

    13. X.25 Network Service (Continued) 2. DDN IP Service Lower Circuit Name Precedence Max Queue Size Max Conns/Dest Min Idle T ime (secs) Max Idle T ime (secs) Upper Circuit Name Internet A ddress 3. HP Point to Point Service Lower Circuit Name Max Queue Size Local DTE Addr ess 1. X.25 Virtual Circuits Circuit Name Remote DTE Ad dr Connection ID Flo[...]

  • Page 650

    14. V .25 bis Network Mapping 14. V .25 bis Network Mapping 1. Phone # to IP mapping IP Next Hop Connect re try coun t Connect wait time (sec) Hold down time (sec) VC inactivity time (sec) 1. Outbound call number Remote Stat ion Number Subaddr ess Parameter Finder A A: Parameter Finder A-35[...]

  • Page 651

    [...]

  • Page 652

    Index ! !...16-4 32-bit encapsulation...4-15 802.2 LLC...6-8 802.2 SNAP ...6-8 A A.08 code...16-21, 16-23 AARP Mapping T able Size...12-6 Accept NETBIOS Bcasts from net...11-5 Acquisition Mode...7-6 Action...6-5, 7-6, 8-4, 10-4, 11-5 Action on circuit group enable/disable...7-6 Adapter Record...4-5, A-6, A-8 Address Mask Reply ...7-6 Address Resolu[...]

  • Page 653

    Area...8-4 Area (high)...8-4 Area (low)...8-4 area list, DECnet...8-4 Area Max. Cost...8-5 Area Max. Hops...8-5 ...8-5 ARP Group Address...4-5 Circuits...4-5 multicast DLCI...4-5 table...16-41 unpredictable results...7-20 ASB Flood...7-8 at (AppleT alk)...16-32 atmib...16-32 Atping...16-4 authentication key ...7-21 Authentication T ype...7-8 Auto E[...]

  • Page 654

    Bridge parameters Action...6-5 Aging T imer ...6-5 Block STE...6-6 Bridge ID (Hex)...6-6 Circuit Group N ame...6-7 Default Conversion T ype...6-7 DSAP (low)...6-8 Flood Interval (sec)...6-10 Forward Delay ...6-10 Hello...6-12 High V alue (hex)...6-12 Hop Count Reduction...6-12 LAN ID (Hex)...6-13 Length...6-13 List Name...6-13 Loop Detection T ime [...]

  • Page 655

    Checksum...12-6 checksum, faulty ...15-15 Checksums On...10-4 Circuit Group...7-9, 10-4, 11-6, 12-6 Circuit Group Name...6-7, 8-6,12-14 Circuits...5-3 Circuit Group Speed...5-3 Circuit Name...6-7, 13-5 Circuits...3-3, 4-7, 5-3 Circuit T ype...4-7, 13-5 Circuits ARP Group Address...4-5 Auto Enable...4-5 Call restrictions...4-6 Channel Management.. .[...]

  • Page 656

    Maximum Packet Size...4-20 Min Frame Spacing...4-20 Minimum connect du ration (sec). . .4- 21 Modulus...4-21 Monitored Events...4-22 Multicast Support...4-22 Password of Remote Station...4-23 Perchannel bandwidth...4-23 Permanent Virtual Circuit...4-23 Point-to-Point Address...4-23 Poll Interval (seconds)...4-24 Provide InARP ...4-24 Quality of Ser[...]

  • Page 657

    Connect Retries...4-10 Connect retry count...4-10, 4-12, 14-3 Connect wait time (sec)...4-10, 14-3 Connect when...4-11 Connection Close T ime Out...7-9 Connection ID...13-5 Connection Inac tivity T ime...1-5 connector ...3-3 - 3-4 connector na me, default...3-4 console port, connecting...1-5 Cost...6-7, 7-9, 8-6 Crash...16-7 crash, software...1-4 C[...]

  • Page 658

    Bcast Routing T i mer ...8-6 Circuit Group N ame...8-6 Dest Network (low)...8-7 Dest Node (high)...8-7 Max. Area...8-9 Max. Bcast End nodes...8-9 Max. Cost...8-9 Max. Hops...8-9 Max. Nodes...8-9 Node...8-10 Node (high)...8-10 Node (low)...8-10 Packet T ype (low)...8-11 Precedence...8-11 Remote W AN Address...8-12 Source Area (low)...8-12 Source Nod[...]

  • Page 659

    DLCI...4-23 - 4-24, 7-10 DLCI Encoding Length... 4-13 DLCI Encoding T ype...4-13 dls...16-32 driver ...16-32 Drop If Next Hop is Down...7-10 drs...16-32 DSAP (high)...6-8 - 6-9 DSAP (low)... 6-8 DSU...4-15 DSU/CSU...4-27 DTR...4-10 duplicate station address...4-16 DXI...4-27 E echo...16-33 Echo Request T i mes (sec)...4-14 Edit...16-8 Effect...6-9,[...]

  • Page 660

    Extended (32-bit) CRC...4-14 external clock source...3-3 F F1047-80002 cable...16-100 factory default...15-3 FDDI bridge type...3-3 file NCL command output...16-100 print to...16-19 upload...16-99 filter rule...6-5 filter , priority values...6-17 filtering, frames...6-9 filtering, IP ...7-17 filters, in bridging...6-7 Flood Interval (sec)...6-10 fl[...]

  • Page 661

    G General Multicast DLCI...4-15 Get...16-34 global auto enable...1-4 Global Broadcast...7-13 GMT ...1-9 Grenwich Mean T i me...1-9 Group Address...4-15 Group LAN ID...6-11 Group Number ...13-6 H HDLC...4-8, 4-20 - 4-21 Header ...6-11, 7-13 Heartbeat Down Count...4-15 heartbeat polling...4-27 Heartbeat Polling Interval...4-15 heartbeat polling messa[...]

  • Page 662

    I ICMP address mask reply message...7-6 ICMP datagram...15-15 IEEE 802.2 test packet...16-28 IHU response...7-21 Import Action...7-14 Individual Address...4-15 Information (event log) ...1-6 interface module...4-27 Interface T ype (OSPF)...7-14 internal clock source...3-3 Internal LAN ID (Hex)...6-12 Internal Network Number ...11-11 Internal Router[...]

  • Page 663

    Metric...7-19 MTU Discovery Option...7-19 Next Hop...7-20 Offset...7-21 Poisoned Reverse/Split Horizon...7-21 Preference...7-22 Propagate to RIP ...7-23 Receive Broadcast...7-24 RIP Interface Cost...7-25 RIP Supply ...7-26 SNAP ...7-11 Source Route (T oken Ring)...7-26 T o Interface...7-27 T o Protocol...7-27 T ransmit Broadcast...7-28 T ype...7-28[...]

  • Page 664

    SAP driven RIP supply ...11-15 Socket (low)...11-16 Source Route (T oken Ring)...11-18 Source Socket (low)...11-18 IPXW AN...11-11 isdn...16-33 See v .25 bis K - L key ...16-32 LAN Address...4-15, 7-17 LAN ID (Hex)...6-13 latency ...4-19 lb...16-32 lbmib...16-32 LCO Auto Restart...4-17 LCP Active-Open...4-17 LCP connection...4 -17 Learning Bridge..[...]

  • Page 665

    Low V alue (hex)...6-13, 7-18 Lower Circui t Name...13-8 LQM T i me...4-18 LQM T ime (secs)...4-17 M MAC address See also station address MAC Address (high)...6-14 MAC Address (low)...6-14 MAC data link header ...6-14 MAC dest (high)...6-14 MAC dest (low)...6-15 MAC source (high)...6-15 MAC source (low)...6-15 Major (event log)...1-6 Make route con[...]

  • Page 666

    Max. Visits...8-10 Maximum Packet Size... 4-20 mem...16-32 Menu path...A-2 Metric...7-19 mgr ...16-32 MIB...16-32, 16-36 variables...16-31 foreign...16-51 remote...16-48 Min Channels to Aggregate...4-20 Min Frame Spacing...4-20, 13-9 Min Idle T ime (secs)...13-9 Minimum connect duration (secs)...4-21 Minimum Frame Spacing...4-21 Mode...7-19 Mode (n[...]

  • Page 667

    Network...12-11 Network Address...7-20 Network lists...10-9, 11-11, 12-10,12-11 Network Mask...7-20 Network Max...12-11 Network Min...12-12 Network Number ...10-9, 11-11 Network Number (Hex)...11-12 Network Number (high)...10-8, 11-11 Network Number (low)...10-9, 11-12, 12-12 Next Hop...7-20 Next Hop Address...7-20 Next Hop Host...11-12 Next Hop Ne[...]

  • Page 668

    Ospf Rtab...16-80 Ospf Tq...16-82 Outgoing Access...13-10 P Packet T ype (high)...8-11, 10-9, 11-12 Packet T ype (low)...8-11, 10-10, 11-13 Packet type lists specify ...11-12 Page...16-14 parameter finder ...A-2 Parameter finder , how to use...A-2 Parity ...1-8 pass-thru...4-11 Password...7-21, 16-15 incorrect...16-21 manager ...16-96 of Remote Sta[...]

  • Page 669

    print to file...16-19 priorities for different packet types...6-22 Priority ...6-17, 7-23 Probe...12-14 Procomm Plus...16-98 - 16-100 Propagate to OSPF ...7-23 Propagate to RIP ...7-23 propagated route...7-12 Protocol...2-3, 7-23 Protocol ID/Org. Code (high)...6-17 Protocol ID/Org. Code (low)...6-17 Protocol T ype...6-18 Provide InARP ...4-24 Proxy[...]

  • Page 670

    RFC 1156...16-40 Rget...16-52 Rgeta...16-41 Rgetat...16-55 Rgetata...16-57 Rgetatr ...16-58 Rgetb...16-59 Rgetd...16-60 Rgetda...16-61 Rgetdn...16-63 Rgeti...16-42 Rgetif...16-68 Rgetir ...16-64 Rgetis...16-66 Rgetm...16-53 Rgetms...16-43 Rgetmw ...16-49 Rgetr ...16-45 Rgets...16-47 Rgetw ...16-50 Rgetxr ...16-70 rif...18-80 Ring Interface...3-5 RI[...]

  • Page 671

    Send Event Messages As T raps...9-4 Server Name...11-15 Server Password...4-27 Server T ype Server T ype (Hex)...11-15 Server User ID...4-27 services, routing...1-4 Session mode...1-8, 9-4, A-4 Session type...9-4 severity , event log...16-11 severity , event log message...17-2 single-route explorer frames...6-6 Slot Number ...4-27 slot number , HP [...]

  • Page 672

    Source Socket (high)...10-13, 11-18 Source Socket (low)...10-14 source socket field...12-10 source-route bridging...16-84, 16-86 source-route packets...18-80 spanning tree...16-84 - 16-85 spanning tree algorithm...6-7, 6-21 Spanning T ree Enable...6-19 spanning tree parameter values...6-19 speed sense...1-4 Split horizon...7-21 Src Rte...6-20 SRF .[...]

  • Page 673

    TELENET ...13-10 T elnet...16-27, 16-32 T elnet Mode...1-8 T erminal...1-9 terminal emulation...1-9 terminal, ANSI...16-98 terminal, VT100...16-98 T est...16-28 TFTP ...7-9, 16-33, 16-93, 16-95 - 16-96 T ime...16-29 time rule...1-4 - 1-6 T ime out...16-21 timep...16-32 timer ...16-32 timer , OSPF ...16-82 T imezo ne...1-9 TIP T able Cost...11-14 T [...]

  • Page 674

    UDP/TCP Source Port (low)...7-30 UK-PSS...13-10 UP AP ...4-28 Upper Circuit Name...13-12 Use Bitmap...13-11 Use DXI v3.2...4-27 Use Heartbeat Poll...4-27 Use SNAP ...4-28 Use UP AP ...4-28 User ID of Remote Station...4-28 user password See Password V - W v .25 bis map entry ...16-87 - 16-90 v .25 bis, net fail LED...17-56 V alue (hex)...7-13 VC ina[...]

  • Page 675

    Dest Network (low)...10-6 Dest Socket (high)...10-6 Dest Socket (low)...10-7 Effect...10-7 Host (low)...10-8 Network Number ...10-9 Network Number (high)...10-8 Next Hop Host...10-9 Next Hop Net...10-9 Packet T ype (high)...10-9 RIP Interface Cost...10-10 RIP Listen...10-10 RIP Supply ...10-11 Socket (high)...10-11 Source Network (low)...10-13 Sour[...]

  • Page 676

    ©Copyright 1994 Hewlett-Packard Company Printed in Singapore 7/94 Manual Part Number 5962-8305[...]