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Avaya Configuring XNS Services User's Manual
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1. 1 A serious inconsistency such as an incorrect checksum is detected at the destination 2 The destination socket specified in the incorrect packet does not exist in the destination host 3 The destination dropped the packet because of resource limitations 1000 An unspecified error occurred before reaching the destination 1001 A serious inconsistency such as an incorrect checksum occurred before reaching the destination 1002 The destination host cannot be reached from here 1003 The packet s hop count reached its upperbound threshold without reaching its destination 1004 The packet is too large for an intermediate network The Error Parameter field of the Error Protocol packet contains the maximum packet length allowed Echo Protocol The Echo Protocol is a Level 2 protocol It provides a relatively simple means to verify the existence and correct operation of a host s IDP implementation and a path to a host The Echo Protocol packet contains an Operation field which indicates whether the packet is a request 1 or a response 2 The Bay Networks router running XNS software generates responses only to echo requests it receives on the well known error socket Socket 2 It does not generate echo request packets When the destination host receives an echo request packet it generates a response packet and copies the data from the Data field of the request packet to the Data field of the response packet The destination h
2. 4 23 Index E E 164 address 4 9 Echo Protocol 1 7 Error Protocol description 1 6 numbers 1 7 external server 1 8 F filters 4 27 Frame Relay 1 11 2 1 4 12 4 23 fully meshed network 1 13 non fully meshed network 1 13 fully meshed network 1 13 to 1 14 G getting help from a Bay Networks Technical Response Center xiii through CompuServe xii through InfoFACTS service xiii through World Wide Web xiii implementation notes 2 1 indiscriminate mode 2 2 InfoFACTS service xiii Index 1 media access control MAC 2 2 N non fully meshed network 1 13 to 1 14 O OSI protocol stack 1 2 P Packet Exchange Protocol 1 8 parameters adjacent host DLCI 4 20 4 22 Enable 4 21 Host ID 4 19 Next Hop Interface 4 19 4 21 Target Host Network 4 19 editing adjacent host 4 16 editing global 4 3 editing RIP interface 4 12 editing static route 4 22 global Host Number 4 5 interface Checksum on 4 8 Cost 4 8 Enable 4 7 External Server Enable 4 9 External Server Host ID 4 10 External Server Network 4 10 External Server Packet Type 4 11 External Server Socket Number 4 11 MAC Address 4 8 SMDS Group Address 4 9 Split Horizon Algorithm 4 13 WAN Broadcast 4 12 WAN Multicast 4 12 Xsum on 4 8 RIP interface Enable 4 15 Listen 4 15 Supply 4 15 static route Cost 4 26 Enable 4 26 Next Hop Host 4 26 Next Hop Network 4 25 Target Network 4 25 XNS Base Host
3. level 2 services 1 4 MAC address on a Token Ring 2 2 Packet Exchange Protocol 1 8 parameters Configure RIP 3 3 description See parameters Implementation 3 4 Network Address hex 3 2 protocol stack 1 2 Routing Information Protocol RIP 1 4 Routing Information Protocol configuring without 2 1 Sequenced Packet Protocol 1 8 static routes description 1 9 Index 3
4. Disable forces every XNS interface existing on the node into the down inoperative state Enable reinitializes every XNS interface existing on the node with each interface maintaining the most recent setting of its own Interface Enable Disable parameter The actual up down operating state of each interface at the time of global reinitialization further depends on the current up down state of the associated circuit Select Disable to force every XNS interface existing on the node into the down inoperative state Select Enable to globally reinitialize all XNS interfaces configured on the node with each interface maintaining the most recent setting of its own Interface Enable Disable parameter 1 3 6 1 4 1 18 3 5 10 1 2 4 4 Parameter Default Options Function Instructions MIB Object ID Editing XNS Parameters Host Number The Configuration Manager automatically generates a unique 6 byte host number from the Bay Networks router s serial number if you do not enter a value This automatically generated number does not appear Any host number Sets a host ID and source MAC address for all slots By means of this parameter XNS interfaces configured on any slot in the node share the same host ID and source MAC address Do not enter a number in this box if you want the Configuration Manager to generate a host number automatically or if the interface is on a Token Ring circuit and you are
5. and disclosure are as set forth in the Commercial Computer Software Restricted Rights clause at FAR 52 227 19 Trademarks of Bay Networks Inc ACE AEN BCN BLN BN CN FRE LN Optivity SynOptics SynOptics Communications Wellfleet and the Wellfleet logo are registered trademarks and AN ANH ASN BaySIS BayStack BCNX BLNX BNX EZ Internetwork EZ LAN FN PathMan PhonePlus PPX Quick2Config RouterMan SPEX Bay Networks Bay Networks Press the Bay Networks logo and the SynOptics logo are trademarks of Bay Networks Inc Third Party Trademarks All other trademarks and registered trademarks are the property of their respective owners Statement of Conditions In the interest of improving internal design operational function and or reliability Bay Networks Inc reserves the right to make changes to the products described in this document without notice Bay Networks Inc does not assume any liability that may occur due to the use or application of the product s or circuit layout s described herein Portions of the code in this software product are Copyright 1988 Regents of the University of California All rights reserved Redistribution and use in source and binary forms of such portions are permitted provided that the above copyright notice and this paragraph are duplicated in all such forms and that any documentation advertising materials and other materials related to such distribution and use acknowledge that suc
6. any adjacent host record you disable Select Disable to make the adjacent host record inactive in the XNS routing table the router will not consider this adjacent host Select Enable to make the adjacent host record active again in the XNS routing table 1 3 6 1 4 1 18 3 5 10 5 1 2 Next Hop Intf None Configured network address of the next hop Specifies the network address of the next hop interface Enter a network address of up to 8 hexadecimal characters 1 3 6 1 4 1 18 3 5 10 5 1 5 4 21 Configuring XNS Services Parameter DLCI Default None Options Data Link Control Identifier Function Identifies the virtual circuit in a Frame Relay or SMDS network Instructions Enter a locally significant DLCI of up to 16 hexadecimal characters if the interface is on a Frame Relay or SMDS network Leave blank if the interface is not on a Frame Relay or SMDS network MIB Object ID 1 3 6 1 4 1 18 3 5 10 5 1 6 Caution The router cannot pass traffic through an interface to an adjacent host on a Frame Relay or SMDS network if the adjacent host is configured without the correct DLCI Deleting an Adjacent Host To delete an adjacent host proceed as follows 1 From the XNS Adjacent Hosts window select the adjacent host you want to delete from the node configuration Refer to Figure 4 5 2 Click on Delete The system software deletes the Adjacent Host entry you selected and the entry disappears from the list of adjace
7. for use by any third party Neither title nor ownership to Software passes to licensee Licensee shall not provide or otherwise make available any Software in whole or in part in any form to any third party Third parties do not include consultants subcontractors or agents of licensee who have licensee s permission to use the Software at licensee s facility and who have agreed in writing to use the Software only in accordance with the restrictions of this license Third party owners from whom Bay Networks has acquired license rights to software that is incorporated into Bay Networks products shall have the right to enforce the provisions of this license against licensee Licensee shall not remove or obscure any copyright patent trademark trade secret or similar intellectual property or restricted rights notice within or affixed to any Software and shall reproduce and affix such notice on any backup copy of Software or copies of software resulting from modification or combination performed by licensee as permitted by this license Bay Networks Inc 4401 Great America Parkway Santa Clara CA 95054 8 Federal Street Billerica MA 01821 Bay Networks Software License continued 10 11 12 Licensee shall not reverse assemble reverse compile or in any way reverse engineer the Software Note For licensees in the European Community the Software Directive dated 14 May 1991 as may be amended from time to time sha
8. interface parameters Edit XNS RIP interface parameters Add edit and delete adjacent hosts Add edit and delete static routes Edit XNS traffic filters Delete XNS services from the router After you successfully enable an XNS interface on the router you can use Site Manager to edit XNS parameters and customize XNS services as described in this chapter We assume that you have already added one or more XNS default interfaces to a router configuration file that you now want to edit Refer to Configuring Routers if you need to add XNS interfaces to the configuration file For each XNS parameter this chapter provides information about default settings valid parameter options the parameter function instructions for setting the parameter and the Management Information Base MIB object ID 4 1 Configuring XNS Services The Technician Interface allows you to modify parameters by issuing set and commit commands with the MIB object ID This process is equivalent to modifying parameters using Site Manager For more information about using the Technician Interface to access the MIB refer to Using Technician Interface Software Caution The Technician Interface does not verify that the value you enter for a parameter is valid Entering an invalid value can corrupt your configuration Accessing XNS Parameters You can access all XNS operational parameters from the Configuration Manager window Figure 4 1 Refer to Configuring
9. the option of purchasing direct support from Bay Networks through a variety of service programs The programs include priority access telephone support on site engineering assistance software subscription hardware replacement and other programs designed to protect your investment To purchase any of these support programs including PhonePlus for 24 hour telephone technical support call 1 800 2LANWAN Outside the U S and Canada call 408 764 1000 You can also receive information on support programs from your local Bay Networks field sales office or purchase Bay Networks support directly from your reseller Bay Networks provides several methods of receiving support and information on a nonpriority basis through the following automated systems CompuServe Bay Networks maintains an active forum on CompuServe All you need to join us online is a computer a modem and a CompuServe account We also recommend using the CompuServe Information Manager software available from CompuServe The Bay Networks forum contains libraries of technical and product documents designed to help you manage and troubleshoot your Bay Networks products Software agents and patches are available and the message boards are monitored by technical staff and can be a source for problem solving and shared experiences Customers and resellers holding Bay Networks service contracts can visit the special libraries to acquire advanced levels of support documentation
10. Configuring XNS Services Router Software Version 10 0 Site Manager Software Version 4 0 Part No 112949 Rev A January 1996 a Bay Networks CES Bay Networks 4401 Great America Parkway 8 Federal Street Santa Clara CA 95054 Billerica MA 01821 Copyright 1988 1996 Bay Networks Inc All rights reserved Printed in the USA January 1996 The information in this document is subject to change without notice The statements configurations technical data and recommendations in this document are believed to be accurate and reliable but are presented without express or implied warranty Users must take full responsibility for their applications of any products specified in this document The information in this document is proprietary to Bay Networks Inc The software described in this document is furnished under a license agreement and may only be used in accordance with the terms of that license A summary of the Software License is included in this document Restricted Rights Legend Use duplication or disclosure by the United States Government is subject to restrictions as set forth in subparagraph c 1 Gi of the Rights in Technical Data and Computer Software clause at DFARS 252 227 7013 Notice for All Other Executive Agencies Notwithstanding any other license agreement that may pertain to or accompany the delivery of this computer software the rights of the United States Government regarding its use reproduction
11. For additional information or advice contact the Bay Networks Technical Response Center in your area United States 1 800 2LAN WAN Valbonne France 33 92 966 968 Sydney Australia 61 2 903 5800 Tokyo Japan 81 3 328 005 xiii Configuring XNS Services Conventions This section describes the conventions used in this guide angle brackets lt gt arrow character gt bold text brackets italic text quotation marks Screen text ellipsis points vertical line l Indicate that you choose the text to enter based on the description inside the brackets Do not type the brackets when entering the command Example if command syntax is ping jp address you enter ping 192 32 10 12 Separates menu and option names in instructions Example Protocols AppleTalk identifies the AppleTalk option in the Protocols menu Indicates text that you need to enter and command names in text Example Use the dinfo command Indicate optional elements You can choose none one or all of the options Indicates variable values in command syntax descriptions new terms file and directory names and book titles Indicate the title of a chapter or section within a book Indicates data that appears on the screen Example set Bay Networks Trap Monitor Filters Horizontal and vertical ellipsis points indicate omitted information Indicates that you enter only one of the parts of the com
12. Hop Network parameters for a static route If you want to change these parameters you must delete the static route and add a new route with the proper information However you can reconfigure all other parameters associated with a static route To edit the configurable parameters associated with an existing static route begin at the Configuration Manager window Figure 4 1 and select Protocols gt XNSStatic Routes The XNS Static Routes window appears refer to Figure 4 7 From this window proceed as follows 1 Select the static route you want to edit Click on the appropriate entry in the list of static routes 2 Click on any parameter value you want to change then enter a new value 3 Click on Apply to save your changes 4 Click on Done to exit the XNS Static Routes window 4 25 Configuring XNS Services A description of parameters in the XNS Static Routes window follows Parameter Default Options Function Instructions MIB Object ID Parameter Default Range Function Instructions MIB Object ID Parameter Default Options Function Instructions MIB Object ID Enable The Configuration Manager automatically sets this parameter to Enable when you click on Add in the XNS Static Routes window Enable Disable Specifies the state active or inactive of the static route record in the XNS routing tables Select Disable to make the static route record inactive in the X
13. NS Frame Relay or SMDS Network 3 Pd zt 404 0x194 403 0x193 Pd Generic XNS router Adjacent host Key Static route Route closed to XNS traffic Route not affected Host ID 4 Frame Relay or SMDS Network 5 Generic XNS router Host ID 6 Figure 1 3 Static Adjacent Host in a Sample Network XNS Overview Configurable Split Horizon The purpose of the Split Horizon algorithm is to prevent circular routes and reduce network traffic The Bay Networks implementation of Split Horizon excludes RIPs and SAPs learned from a neighbor when forwarding RIP and SAP updates to that neighbor Split Horizon is enabled by default for each interface Caution We advise you not to disable Split Horizon unless it is absolutely necessary If you have a star or non fully meshed Frame Relay topology you may need to disable Split Horizon on certain interfaces for the routers to learn about the other networks A fully meshed network is a WAN in which all nodes have a logically direct connection to each other In a fully meshed environment all routers will learn about all networks and have complete routing tables Figure 1 4 shows a sample fully meshed network with Split Horizon enabled Network 1 Er n ECE el d Router A Split Horizon enabled on this interface to eliminate all redundant RIP and SAP traffi
14. NS routing table the router will not consider this static route Select Enable to make the static route record active in the XNS routing table 1 3 6 1 4 1 18 3 5 10 6 1 2 Cost 0 router hops 0 to 15 router hops Specifies the number of router hops added to an XNS data packet The router uses this parameter when determining the best route for a datagram to follow The cost is also propagated through RIP The default setting of 0 for static routes gives them priority over RIP learned routes Enter the number of router hops 1 3 6 1 4 1 18 3 5 10 6 1 4 Next Hop Host None Any valid host address in hexadecimal notation Specifies the address of the next host in the static routing path Enter a host address of up to 12 hexadecimal characters 1 3 6 1 4 1 18 3 5 10 6 1 6 4 26 Editing XNS Parameters Deleting a Static Route To delete an XNS static route proceed as follows 1 From the XNS Static Routes window select the static route you want to delete from the node configuration Refer to Figure 4 7 2 Click on Delete The system software deletes the Static Routes entry you selected and the entry disappears from the list of static routes in the XNS Static Routes window Editing XNS Traffic Filters Traffic filters allow you to control network traffic on configured network interfaces You can configure traffic filters to drop inbound protocol specific network packets and datagrams when they arrive at a configure
15. Number 3 3 Configure RIP 3 3 Implementation 3 4 Network Address hex 3 2 PEP 1 8 protocol stack OSI 1 2 XNS 1 2 protocols Level 0 1 2 1 3 Level 1 1 2 1 4 Level 2 1 3 1 4 Level 3 1 3 Level 4 1 3 R RIP broadcasts 1 6 configuring without 2 1 packet type request 1 5 response 1 5 RIP Routing Information Protocol 1 4 Routing Information Protocol XNS description 1 4 Index 2 S Sequenced Packet Protocol 1 8 Site Manager 4 1 SMDS 1 9 1 11 2 1 4 0 4 23 split horizon fully meshed network 1 13 non fully meshed network 1 13 to 1 14 purpose 1 13 support 1 13 to 1 14 SPP 1 8 static route adding 4 23 deleting 4 27 editing 4 25 static routes 1 9 static transmission paths 1 11 T The Gray Book 1 1 Token Ring 2 2 4 5 4 6 traffic filters 4 27 W WAN 1 6 1 11 2 1 Broadcast 4 12 Multicast 4 12 World Wide Web Bay Networks Home Page on xiii X Xerox Network Systems See XNS XNS 1 1 accessing parameters 4 2 adjacent host description 1 11 Comparison to OSI 1 2 configuring filters for see filtering deleting from the Bay Networks router 4 27 Echo Protocol description 1 7 editing adjacent host parameters 4 16 editing global parameters 4 3 editing static route parameters 4 22 enabling on a circuit 3 2 Error Protocol description 1 6 Error Protocol numbers 1 7 external server description 1 8 level 0 services 1 3 level 1 services 1 4
16. Routers if you need instructions on how to access this window e Configuration Manager LOCAL FILE 2 fextra smer has XNS Interfaces Backbone Link Node BLN Delete XNS RIP Interfaces Adjacent Hosts Description Static Routes 6420 Dual Sync Single Ethern eh Empty Slot Empty Slot Empty Slot System Resource Module CONSO Figure 4 1 Configuration Manager Window Editing XNS Parameters Editing XNS Global Parameters To edit XNS Global parameters begin at the Configuration Manager window Figure 4 1 and proceed as follows 1 Select Protocols2 XNS Global The Edit XNS Global Parameters window appears Figure 4 2 e Edit XNS Global Parameters Confisuration Mode local SNMP Agent LOCAL FILE Enable NABLE Host Number 721908026C21 Implementation XEROX Figure 4 2 Edit XNS Global Parameters Window 2 Edit those parameters you want to change 3 Click on OK to save your changes and exit the window A description follows of the parameters in the XNS Global Parameters window 4 3 Configuring XNS Services Parameter Default Options Function Instructions MIB Object ID Enable Enable Enable Disable Globally enables or disables the system software mechanisms that allow users to add XNS interfaces to the node configuration
17. XNS Adjacent Hosts Window Adding an Adjacent Host To add an adjacent host begin at the XNS Adjacent Hosts window Figure 4 5 and proceed as follows 1 Click on Add The Adjacent Host Configuration window appears Figure 4 6 The reference for each adjacent host in the list appears in the form Both addresses are in hexadecimal format 4 17 Configuring XNS Services IS Adjacent Host Configuration Configuration Mode local SNMP Agent LOCAL FILE Target Host Network hex 2 I va D Qe Next Hop Interface hex 2 DLCI hex 1918 Figure 4 6 Adjacent Host Configuration Window 2 Enter hexadecimal values for the Target Host Network and Host ID parameters Once you enter appropriate values these parameters are available for viewing as statistics only 3 Enter hexadecimal values for the Next Hop Interface and the DLCL if appropriate Refer to the descriptions at the end of this section for information about these parameters 4 Click on OK to save your entries to the configuration file The XNS Adjacent Hosts window refer to Figure 4 5 reappears immediately after you click on OK A description of the parameters in the Adjacent Host Configuration window follows 4 18 Parameter Default Options Function Instructions MIB Object ID Parameter Default Options Function Instructions MIB Object ID Parameter Default Options Function Ins
18. al Parameters Window sese ee seer seer eee neee 4 3 Figure 4 3 ANS Interfaces VVIIGDW uuu esa sedia b ennag naaasar 4 6 Figure 4 4 XNS RIP Interfaces Window sese rere UE 4 14 Figure 4 5 XNS Adjacent Hosts WInODOW co oci Der d ana en m e RR Dang 4 17 Figure 4 6 Adjacent Host Configuration Window sees sees eee eee ee 4 18 Figure d 7 ANS Static Routes WIDUON ucoieisecceciestetesiucieeseeuudercttosiMa use a Md REL s RERUE 4 23 Figure 4 8 XNS Add Static Route Window sese sese sees eee eee 4 24 vii Tables Table 1 1 XNS Error Protocol Numbers sss eee 1 7 Table A 1 XNS Global Parameters EST HE sive rotas RE Dada A 1 Table A 2 ANS Inmemace Paramelels 1 cn ccn tr e x pr ee Yara 2 CR d A 1 Table A 3 XNS RIP Interface Parameters cessisse aient tatnen A 2 Table A 4 ANS Adjacent Host Parameters css istics reccciss d ticker Ero ri erer ker sree A 2 Table A 5 ANS Stalie Haute TGT 4i ie bert Doro b ors A 2 About This Guide Configuring XNS Services Bay Networks Customer Support Bay Networks provides live telephone technical support to our distributors resellers and service contracted customers from two U S and three international support centers If you have purchased your Bay Networks product from a distributor or authorized reseller contact the technical support staff of that distributor or reseller for assistance with installation configuration troubleshooting or integration issues Customers also have
19. all logical connections associated with the XNS interface you are configuring Enter a Frame Relay multicast address to send all multicast traffic through the XNS interface you are configuring 1 3 6 1 4 1 18 3 5 10 3 1 29 4 12 Parameter Default Options Function Instructions MIB Object ID Editing XNS Parameters Split Horizon Algorithm Enable Enable Disable When the interface forwards RIP and SAP updates it can exclude RIP and SAP broadcast updates learned on that interface Select Enable if you previously set this parameter to Disable and now do not want the router to transmit RIP and SAP updates received from the interface over that interface Select Disable only if you want the router to transmit RIP and SAP updates it receives from the interface over that interface 1 3 6 1 4 1 18 3 5 10 3 1 30 Editing RIP Interface Parameters If you enable RIP on an XNS interface you can edit the RIP parameters of that interface by accessing the XNS RIP Interfaces window The following instructions describe a RIP enabled XNS interface as an XNS RIP interface For instructions on how to add an XNS RIP interface to a circuit refer to Configuring Routers To edit the configurable RIP parameters of an XNS interface begin at the Configuration Manager window refer to Figure 4 1 and proceed as follows 1 Select Protocols gt XNS gt RIP Interfaces The XNS RIP Interfaces window appears Figure 4 4 Th
20. and software To open an account and receive a local dial up number call CompuServe at 1 800 524 3388 and ask for Representative No 591 e Inthe United Kingdom call Freephone 0800 289378 Xii About This Guide e In Germany call 0130 37 32 In Europe except for the United Kingdom and Germany call 44 212 760681 e Outside the U S Canada and Europe call 614 529 1349 and ask for Representative No 591 or consult your listings for an office near you Once you are online you can reach our forum by typing the command GO BAYNETWORKS at any prompt InfoFACTS InfoFACTS is the Bay Networks free 24 hour fax on demand service This automated system contains libraries of technical and product documents designed to help you manage and troubleshoot your Bay Networks products The system can return a fax copy to the caller or to a third party within minutes of being accessed World Wide Web The World Wide Web WWW is a global information system for file distribution and online document viewing via the Internet You need a direct connection to the Internet and a Web Browser such as Mosaic or Netscape Bay Networks maintains a WWW Home Page that you can access at http www baynetworks com One of the menu items on the Home Page is the Customer Support Web Server which offers technical documents software agents and an E mail capability for communicating with our technical support engineers How to Get Help
21. appears in the form network address circuit name where s The network address of the interface is in hexadecimal format e The name of the physical circuit supporting that interface is in alphanumeric format Select the interface you want to modify The parameter values associated with that interface appear lower right in the parameter windows Modify the values of those parameters you want to change Click on Apply to save your changes Click on Done to exit the XNS Interfaces window A description of the parameters in the XNS Interfaces window follows Parameter Default Options Function Instructions MIB Object ID Enable The Configuration Manager automatically sets this interface specific parameter to Enable when you add XNS support to this interface Enable Disable Enables or disables XNS routing on this interface Select Enable if you previously set this parameter to Disable and now want the interface to support XNS routing Select Disable only if you want to disable XNS routing over this interface 1 3 6 1 4 1 18 3 5 10 3 1 2 4 7 Configuring XNS Services Parameter Default Range Function Instructions MIB Object ID Parameter Default Options Function Instructions MIB Object ID Parameter Default Options Function Instructions MIB Object ID Cost 0 for each hop 1 to 15 Sets the cost number of hops for this interface This parameter al
22. at d ac db iind d a dai i d OK 4 2 Editing XANG Global Faramele Set 4 3 Editing ANS Interface Parameters ula pe ca i ad e aeri ed vid d 4 6 Editing RIP Interface Parameters T e 4 13 Contiguring Adjacent Host ParaltDGtehg 2 eoo ssaci cse recen rtt ce eren En prepa aude 4 16 Adding a AU Scent POSi arcara endann Fam eoe ganas c bd tarte c Cx ada 4 17 Editing an Adjacent Host EEA P P E GE 4 20 Exe sn P tT HOS ii Un Rr te bo GERD ERA ia RR DD at MU TR cu 4 22 Coniguring Static Route Parameters 3 uice cec atit inre nera gun Lacan un cR 4 22 Adang EI OUTS scans P M 4 23 Bamna ie Siale RONG occa Paterna gcc a aris amas RE 4 25 Deleting a Static Route E ees rer eee rarer eee Gees re 4 27 Baiting XANG Tame Si qe m 4 27 Appendix A Site Manager Default Settings Index vi Figures Figure 1 1 Comparison of OSI and XNS Protocol Stacks see eee 1 2 Figure 1 2 Static Route in a Sample Network Keranna 1 10 Figure 1 3 Static Adjacent Host in a Sample Network see eee ee eee eee eee 1 12 Figure 1 4 Split Horizon Enabled in a Fully Meshed Network 1 13 Figure 1 5 Split Horizon Disabled in a Non Fully Meshed Network 1 14 Figure 3 1 ANS Goniiguration VEIRBION sc eco b e xe rn E aaa ad d a pop dn 3 2 Figure 4 1 Configuration Manager Window sss esse essere eee eee e eee eee eee 4 2 Figure 4 2 Edit XNS Glob
23. c Network Le EE Eee Figure 1 4 Split Horizon Enabled in a Fully Meshed Network Network 3 Configuring XNS Services A non fully meshed network is a WAN in which one or more nodes do not have logically direct connections to all other nodes Figure 1 5 shows a sample non fully meshed network with Split Horizon disabled Network 1 L 3 Split Horizon disabled on this Router A interface so that Router B can learn about Network 3 and Router C can learn about Network 2 J an e Network Network E LI Figure 1 5 Split Horizon Disabled in a Non Fully Meshed Network If you enable Split Horizon on Router A as shown in Figure 1 4 Router B will never learn about Router C s networks and vice versa If users on Network 2 need to communicate with users on Network 3 you must disable Split Horizon on Router A as shown in Figure 1 5 You do not however need to disable Split Horizon on Routers B and C For More Information about XNS The following documents provide technical detail on XNS protocol implementation Xerox System Integration Standard Xerox Corporation December 1981 Xerox Network Systems Architecture General Information Manual Xerox Corporation 1985 Chapter 2 XNS Configuration Notes Refer to this chapter when you are configuring the following XNS services e XNS
24. d Static Route window appears Figure 4 8 9 xus Add Static Route Configuration Mode local OO SNMP Agent LOCAL FILE Target Network hex Next Hop Network hex Next Hop Host hex Figure 4 8 XNS Add Static Route Window 2 Enter values for the Target Network and Next Hop Network parameters Once you enter appropriate values those parameters are available for viewing as statistics only Use the descriptions that follow as a guide 3 Click on OK to save your entries The XNS Add Static Route window Figure 4 8 reappears immediately after you click on OK 4 24 Editing XNS Parameters Parameter Target Network hex Default None Options Any valid network address in hexadecimal notation Function Specifies the address of the network to which you want to configure the static route Instructions Enter a network address of up to 8 hexadecimal characters MIB Object ID 1 3 6 1 4 1 18 3 5 10 6 1 3 Parameter Next Hop Network hex Default None Options Any valid network address in hexadecimal notation Function Specifies the network address of the next hop Instructions Enter a network address of up to 8 hexadecimal characters MIB Object ID 1 3 6 1 4 1 18 3 5 10 6 1 5 Editing a Static Route You can edit the configurable parameters of a static route that you specified earlier in the node configuration The Configuration Manager does not allow you to reconfigure the Target Network and Next
25. d network interface on the router You can also configure these filters to accept outbound traffic and forward it to specific destination nodes on the network XNS traffic filters for example allow to you to drop accept or forward XNS packets on those interfaces that you configure for XNS For information about traffic filters for XNS and other protocols that support this capability refer to Configuring Traffic Filters and Protocol Prioritization To delete XNS from the node begin at the Configuration Manager window refer to Figure 4 1 and complete the following steps 1 Select Protocols XNSDelete XNS A confirmation window appears 2 Select OK The Configuration Manager window appears XNS is no longer configured on the Bay Networks router 4 27 Appendix A Site Manager Default Settings Tables A 1 to A 4 describe the Site Manager default parameter settings for the Xerox Network Systems XNS protocol and for XNS RIP Table A 1 XNS Global Parameters Parameter Default Enable Enable Host Number None Implementation Xerox Table A 2 XNS Interface Parameters Parameter Default Enable Enable Cost 0 Xsum On Enable MAC Address None SMDS Group Address None External Server Disable Ext Serv Network Enable Ext Serv Host ID 0 Ext Serv Packet Type None Ext Serv Socket Num None continued A 1 Configuring XNS Services Table A 2 XNS In
26. dean owe coa uad a adonde Plena agb d o cu a n xii Bol ee 1 acci A E n Lore ciat cu A Rl sua fas AdabO D HR UR nS Rd d tiers xii n gp m C xiii Word Wide WeD M PRIM xiii xu sober d eet ER xiii Mp liL UN xiv Ordering Bay Networks Publications aai seekiees creep ener Recek so De anniina a XV Lee S P L P b P P ice AY Chapter 1 XNS Overview ANS Protacol iN auoucemidieivnpdutete Re din liti edt istius T T T P E 1 2 Fow EE Es Etro pu eR te A EE AAAS 1 3 p 2l m ETE 1 3 BLUNT ERE 1 4 LO c Hr 1 4 ANS CES i MN D DD 1 4 Iz urne eee 1 6 dass oro MU 1 7 Sequenced Packet Protocol E UT eee reer rere mere ae 1 8 Packet Exehnahde I aci e teci cii erem iti cce a ees 1 8 US dC dic ESI D TREO T TER TTE 1 8 ciun e 1 9 Lalee R L arroi faa aad pote cobra hb Gat aqoa eco aeons 1 11 Contigit PUE TAG Ee sieas ie Dd una dadas nl s xu du hl una db lb 1 13 For More Mhiornaton aHoul di eq 1 14 Chapter 2 XNS Configuration Notes Conigurmo ANS murs FIP errosarioa aae ra a E EEE Car 2 1 Configuring a MAC Address on a Token Ring Interface sss sees ee eee 2 2 Chapter 3 Enabling XNS Services Enabling ANS omm H u sonani d eo se che Dates aac Rara p rdc ka 3 1 Enabling XNS Services scccccscscccciscccssssanasserensses EU TER 3 2 Chapter 4 Editing XNS Parameters PCS SII XANG MSIE B ausisasie cnii e ar iis eb
27. e window shows at the upper left a list of all XNS RIP interfaces configured on the selected circuit 4 13 Configuring XNS Services e XNS RIP Interfaces Enable ENABLE In Supply ENABLE i Listen ENABLE lg Figure 4 4 XNS RIP Interfaces Window 2 Select the interface you want to edit by clicking on the appropriate entry in the list of RIP interfaces 3 Click on any parameter value you want to change then enter a new value 4 Click on Apply to save your changes 5 Click on Done to exit the XNS RIP Interfaces window A description of the parameters in the XNS RIP Interfaces window follows 4 14 Parameter Default Options Function Instructions MIB Object ID Parameter Default Options Function Instructions MIB Object ID Editing XNS Parameters Enable Enable Enable Disable Specifies whether you enabled the Routing Information Protocol on this XNS interface Select Enable to enable RIP on this interface Select Disable to disable RIP on this interface 1 3 6 1 4 1 18 3 5 10 4 1 2 Supply Enable Enable Disable Specifies whether the interface transmits all RIP updates to routers in neighboring networks Select Enable to configure the interface to transmit all RIP updates Select Disable to prohibit the interface from transmitting all RIP updates 1 3 6 1 4 1 18 3 5 10 4 1 5 4 15 Configuring XNS Services Parameter Listen Defau
28. er to which to forward service requests Use this setting only if the External Server parameter is set to Enable Leave blank if you are not using external server capabilities or if you are using external server capabilities and you want to forward all packets of the specified type that this interface receives to the specified remote server Otherwise enter the destination socket number of the remote server to which to forward service requests 1 3 6 1 4 1 18 3 5 10 3 1 17 Configuring XNS Services Parameter Default Options Function Instructions MIB Object ID Parameter Default Options Function Instructions MIB Object ID WAN Broadcast ffffff not displayed Default value or a user specified Frame Relay broadcast address Specifies a Frame Relay broadcast address for this XNS interface Leave blank to accept the default value With the default value the router sends all broadcast traffic through all logical connections associated with the XNS interface you are configuring Enter a Frame Relay broadcast address to send all broadcast traffic through the XNS interface you are configuring 1 3 6 1 4 1 18 3 5 10 3 1 28 WAN Multicast ffffff not displayed Default value or a user specified Frame Relay multicast address Specifies a Frame Relay multicast address for this XNS interface Leave blank to accept the default value With the default value the router sends all multicast traffic through
29. fied by the SMDS subscription agreement that you have with your SMDS provider Provides a MAC layer multicast address for this SMDS interface This network level interface parameter overrides the Group Address setting you entered when adding SMDS at the circuit level Leave blank if this interface is not on an SMDS circuit Enter the complete SMDS E 164 group address for example E16175552876FFFF If only one telephone number is assigned to the circuit enter the same telephone number that you entered when you added SMDS to this circuit You can display this number in the SMDS Interface Parameters window Refer to Configuring SMDS Services for more information 1 3 6 1 4 1 18 3 5 10 3 1 11 External Server Disable Enable Disable Specifies whether external server capabilities are active If you select Enable the interface forwards packets of a particular type to a specific destination Select Enable to turn on external server capabilities Select Disable to turn off external server capabilities Use the Ext Serv PacketType parameter to specify the packet type Use the Ext Serv Network Ext Serv Host ID and Ext Serv Socket Num parameters to specify the destination 1 3 6 1 4 1 18 3 5 10 3 1 13 4 9 Configuring XNS Services Parameter Default Options Function Instructions MIB Object ID Parameter Default Options Function Instructions MIB Object ID Ext Serv Network Enable Any valid networ
30. h portions of the software were developed by the University of California Berkeley The name of the University may not be used to endorse or promote products derived from such portions of the software without specific prior written permission SUCH PORTIONS OF THE SOFTWARE ARE PROVIDED AS IS AND WITHOUT ANY EXPRESS OR IMPLIED WARRANTIES INCLUDING WITHOUT LIMITATION THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE In addition the program and information contained herein are licensed only pursuant to a license agreement that contains restrictions on use and disclosure that may incorporate by reference certain limitations and notices imposed by third parties Bay Networks Software License Note This is Bay Networks basic license document In the absence of a software license agreement specifying varying terms this license or the license included with the particular product shall govern licensee s use of Bay Networks software This Software License shall govern the licensing of all software provided to licensee by Bay Networks Software Bay Networks will provide licensee with Software in machine readable form and related documentation Documentation The Software provided under this license is proprietary to Bay Networks and to third parties from whom Bay Networks has acquired license rights Bay Networks will not grant any Software license whatsoever either explicitly or impl
31. icitly except by acceptance of an order for either Software or for a Bay Networks product Equipment that is packaged with Software Each such license is subject to the following restrictions 1 Upon delivery of the Software Bay Networks grants to licensee a personal nontransferable nonexclusive license to use the Software with the Equipment with which or for which it was originally acquired including use at any of licensee s facilities to which the Equipment may be transferred for the useful life of the Equipment unless earlier terminated by default or cancellation Use of the Software shall be limited to such Equipment and to such facility Software which is licensed for use on hardware not offered by Bay Networks is not subject to restricted use on any Equipment however unless otherwise specified on the Documentation each licensed copy of such Software may only be installed on one hardware item at any time Licensee may use the Software with backup Equipment only if the Equipment with which or for which it was acquired is inoperative Licensee may make a single copy of the Software but not firmware for safekeeping archives or backup purposes Licensee may modify Software but not firmware or combine it with other software subject to the provision that those portions of the resulting software which incorporate Software are subject to the restrictions of this license Licensee shall not make the resulting software available
32. iguration The Configuration Manager does not allow you to change the Target Host Network and Host ID parameters you set in any Adjacent Host Configuration window To establish new values for these parameters you must delete that host and configure a new host You can however reconfigure all other parameters associated with an adjacent host To edit the configurable parameters associated with an existing adjacent host begin at the Configuration Manager window refer to Figure 4 1 and select Protocols3XNS2Adjacent Hosts The XNS Adjacent Hosts window appears refer to Figure 4 5 From this window proceed as follows 1 Select the adjacent host you want to edit Click on the appropriate entry in the list of Adjacent Hosts 2 Click on any parameter value you want to change then enter a new value 3 Click on Apply to save your changes 4 Click on Done to exit the XNS Adjacent Hosts window A description of parameters in the XNS Adjacent Hosts window follows 4 20 Parameter Default Options Function Instructions MIB Object ID Parameter Default Options Function Instructions MIB Object ID Editing XNS Parameters Enable The Configuration Manager automatically sets this parameter to Enable when you click on Add in the XNS Adjacent Hosts window Enable Disable Specifies whether the selected adjacent host record is enabled or disabled in the XNS routing tables The router does not consider
33. indicates that the packet is a specific request Routers at the destination network issue RIP response packets RIP response packets contain the network number and the number of hops and ticks required to get to the network A RIP response may be one of the following types A response to a request An informational broadcast from a router issued every 30 seconds An informational broadcast when a change occurs in the routing table examples are changes in cost information changes to routes aging of routes and additions of routes to networks new to the table An informational broadcast when an interface performs an orderly shutdown procedure or initializes 1 5 Configuring XNS Services To limit traffic RIP broadcasts are limited to a router s immediate segments and are not forwarded by receiving routers Note The router running XNS software learns WAN addresses from RIP broadcasts received over WANs and therefore stores XNS address WAN address pairs for future use as next hop destinations So if RIP is not configured for a WAN interface you must configure adjacent hosts for all transmission paths to nodes adjacent to Frame Relay or SMDS circuits when you configure an XNS interface You must then configure static routes from the adjacent hosts to the next hop routers You can enable RIP Listen and RIP Supply functions for each XNS and or XNS interface on the router running XNS software When you enable the Listen function
34. k address Specifies the network of the remote server to supply external server capabilities Use this setting only if you set the External Server parameter to Enable Enter the network address of the remote server to which you want to supply external server capabilities Leave blank if you are not using external server capabilities 1 3 6 1 4 1 18 3 5 10 3 1 14 Ext Serv Host ID 0 Any valid host ID Specifies the host ID of the remote server to supply external server capabilities Use this setting only if the External Server parameter is set to Enable Enter the host ID of the remote server to which you want to supply external server capabilities Leave blank if you are not using external server capabilities 1 3 6 1 4 1 18 3 5 10 3 1 15 4 10 Parameter Default Options Function Instructions MIB Object ID Parameter Default Options Function Instructions MIB Object ID Editing XNS Parameters Ext Serv Packet Type None Any valid packet type Specifies the packet type of the service requests to forward to the remote server Use this setting only if the External Server parameter is set to Enable Enter the packet type of the service requests to forward to the remote server Leave blank if you are not using external server capabilities 1 3 6 1 4 1 18 3 5 10 3 1 16 Ext Serv Socket Num None Any valid destination socket number Specifies the destination socket number of the remote serv
35. ll apply for interoperability purposes Licensee must notify Bay Networks in writing of any such intended examination of the Software and Bay Networks may provide review and assistance Notwithstanding any foregoing terms to the contrary if licensee licenses the Bay Networks product Site Manager licensee may duplicate and install the Site Manager product as specified in the Documentation This right is granted solely as necessary for use of Site Manager on hardware installed with licensee s network This license will automatically terminate upon improper handling of Software such as by disclosure or Bay Networks may terminate this license by written notice to licensee if licensee fails to comply with any of the material provisions of this license and fails to cure such failure within thirty 30 days after the receipt of written notice from Bay Networks Upon termination of this license licensee shall discontinue all use of the Software and return the Software and Documentation including all copies to Bay Networks Licensee s obligations under this license shall survive expiration or termination of this license Bay Networks Inc 4401 Great America Parkway Santa Clara CA 95054 8 Federal Street Billerica MA 01821 Contents About This Guide Lr cc eat ee eee eee Cetera eee rege Onn oH Uia dicdtus serene res ree tea et xi Before You Begin sata TE Bay See Customer SUDDOL na Tra nag
36. lows you to configure the shortest path The cost is added to routes learned on this interface through RIP and is specified in subsequent RIP packets sent to other interfaces XNS disposes of the packet when its hop count surpasses 15 Enter the interface cost value Standard RIP implementation assigns a cost of 1 Increasing this value causes the RIP Network Diameter to reach the upper bound of 15 more quickly 1 3 6 1 4 1 18 3 5 10 3 1 7 Xsum On Enable Enable Disable Performs checksumming and compares the checksum to the number in the Checksum field of each XNS packet However XNS does not perform a checksum on a packet it receives if the value Oxffff is in the Checksum field If XNS performs a checksum on a packet and its value does not match the value in the Checksum field XNS drops the packet Select Enable if you want XNS to perform checksumming Select Disable to bypass checksumming 1 3 6 1 4 1 18 3 5 10 3 1 8 MAC Address None the base host number that you entered when you added XNS to the circuit overrides the MAC Address parameter Any valid MAC address Specifies the MAC address of this interface Leave this parameter blank 1 3 6 1 4 1 18 3 5 10 3 1 10 4 8 Parameter Default Options Function Instructions MIB Object ID Parameter Default Options Function Instructions MIB Object ID Editing XNS Parameters SMDS Group Address None A complete SMDS E 164 address speci
37. lt Enable Options Enable Disable Function Specifies whether this interface listens to RIP updates from neighboring networks Instructions Select Enable to configure this XNS interface to listen to RIP updates and to convey received routing information to its internal routing table Select Disable to configure this XNS interface to ignore RIP updates from neighboring routers Disabling RIP also prevents this interface from conveying any received routing information to its internal routing table MIB Object ID 1 3 6 1 4 1 18 3 5 10 4 1 6 Note f you set this parameter to Enable a route filter can still prohibit the interface from updating its internal routing tables Configuring Adjacent Host Parameters The sections that follow describe how to add edit and delete adjacent host routes in a Bay Networks router configuration You perform these actions via the XNS Adjacent Hosts window To access the Adjacent Hosts window begin at the Configuration Manager window refer to Figure 4 1 and select Protocols9XNSAdjacent Hosts The XNS Adjacent Hosts window appears Figure 4 5 showing a list of all Adjacent Hosts currently associated with a specific Host ID The Host ID is a global parameter for XNS interfaces defined on any slot 4 16 Editing XNS Parameters lel ZNS Adjacent Hosts ET Qx00000002 0x 00000000000 OxQ2dct112 0x0016 38ddc21 Enable ENABLE IR Next Hop Intf 0x00000002 Hl DLCI 0x0191 i Figure 4 5
38. mand The vertical line separates choices Do not type the vertical line when entering the command Example If the command syntax is show at routes nets you enter either show at routes or show at nets but not both Xiv About This Guide Ordering Bay Networks Publications To purchase additional copies of this document or other Bay Networks publications order by part number from Bay Networks Press at the following numbers You may also request a free catalog of Bay Networks Press product publications Phone FAX U S Canada FAX International Acronyms ANSI DLCI IDP MAC OSI PEP RIP SMDS SNAP SNMP SPP WAN XNS 1 800 845 9523 1 800 582 8000 1 916 939 1010 American National Standards Institute Data Link Connection Identifier Internet Datagram Protocol media access control Open Systems Interconnection Packet Exchange Protocol Routing Information Protocol Switched Multimegabit Data Services Subnetwork Access Protocol Simple Network Management Protocol Sequenced Packet Protocol wide area network Xerox Network Systems XV Chapter 1 XNS Overview This chapter provides information on the Bay Networks implementation of the Xerox Network Systems XNS router software The Bay Networks implementation of XNS is based on the Xerox System Integration Standard specification Xerox Corporation December 1981 commonly referred to as The Gray Book This chapter describes the following t
39. n Ring Level 0 corresponds generally to Layers 1 and 2 the physical and data link layers of the OSI model The Level 1 protocol Internet Datagram Protocol IDP determines where each internet packet goes addresses the source and destination of each internet packet and selects the transmission medium Level 1 corresponds generally to Layer 3 the network layer of the OSI model 1 2 XNS Overview e Level 2 protocols provide for the exchange of routing information between routers handle the sequencing of packets within a packet stream report transmission errors retransmit packets in response to errors suppress duplicate packets and adjust the rate of packet transmission flow control Examples of Level 2 protocols are Routing Information Protocol Error Protocol Echo Protocol Sequenced Packet Protocol and the Packet Exchange Protocol Level 2 corresponds to Layer 4 the transport layer of the OSI model e Level 3 protocols are control protocols they determine process interactions that involve remote resources such as printer and file requests and data structuring conventions Level 3 corresponds generally to Layers 5 and 6 the session and presentation layers of the OSI model e Level 4 protocols are application protocols that are implemented for specific platforms Level 4 corresponds to Layer 7 the application layer of the OSI model The following sections describe the involvement of the Bay Networks XNS routing
40. ning over a Token Ring interface you must enter the host ID in the MAC Address Override parameter and set the MAC Address Select parameter to Cnfg for every Token Ring interface on which XNS is running as follows 1 Select Circuits Edit Circuits from the Configuration Manager window 2 Select the Token Ring circuit in the Circuit List window and click on Edit 3 Select Lines in the Circuit Definition window 4 Select the interface from the Edit Lines window and click on Edit 5 Enter the router s XNS host ID in the MAC Address Override parameter box 6 Setthe MAC Address Select parameter to Cnfg in the Token Ring Parameters window 7 Repeat Steps 2 through 6 for every Token Ring circuit on which XNS is running 2 2 Chapter 3 Enabling XNS Services This chapter describes how to enable XNS services It assumes you have read Configuring Routers and that you have 1 Opened a configuration file 2 Specified router hardware if this is a local mode configuration file 3 Selected the link or net module connector on which you are enabling XNS When you enable XNS services you do not have to configure any XNS parameters The Configuration Manager supplies default values for all XNS parameters If you want to edit these default values refer to Chapter 4 Editing XNS Parameters Enabling XNS on an Interface To enable XNS on an interface complete the following steps 1 Select XNS from the WAN Protocols menu thi
41. nt hosts in the XNS Adjacent Hosts window Configuring Static Route Parameters XNS static routes are user specified transmission paths that XNS internet packets follow You configure static routes when you want to restrict the paths that packets can follow Static routes like routes learned through RIP appear in the XNS routing table Unlike routes learned through RIP however static routes do not time out Static routes remain in the XNS routing table until you reconfigure them manually 4 22 Editing XNS Parameters The sections that follow show you how to add edit and delete XNS static routes in a Bay Networks router configuration You perform these functions from the XNS Static Routes window Begin at the Configuration Manager window Figure 4 1 and select Protocols gt XNSStatic Routes The XNS Static Routes window appears Figure 4 7 e XNS Static Routes Asi Enable ENABLE Next Hop Host 000000170043 Figure 4 7 XNS Static Routes Window Caution 7o establish a Data Link layer connection in a Frame Relay or SMDS network which allows the router to send packets over a static route you must configure an adjacent host and edit the DLCI parameter in the XNS Adjacent Hosts window Adding a Static Route To add a static route begin at the XNS Static Routes window Figure 4 7 and proceed as follows 4 23 Configuring XNS Services 1 Click on Add The XNS Ad
42. ocol Note that the Bay Networks router running XNS software bridges packets other than XNS when the bridge is configured XNS RIP Overview XNS Routing Information Protocol RIP lets workstations and routers exchange information dynamically to establish the route with the fewest hops and shortest delay to each network Each router running XNS software maintains a RIP table which contains the following information about every network in the XNS network topology s The network address of each network e The number of hops cost to that network 1 4 XNS Overview The address of the next hop node to which packets destined for that network will be forwarded Routers maintain RIP tables by exchanging request and response packets Routers update their RIP tables with information from incoming response packets The header of each packet indicates the packet operation request or response RIP request packets contain the number of the destination network in the header A RIP request packet may be one of the following types A general request that a router broadcasts to determine the fastest route to all networks on an internetwork The value FFF FFFFF in the network number field within the RIP data indicates that the packet is a general request A specific request that a workstation or router broadcasts to determine the fastest route to a particular network One or more network numbers in the network number field within the RIP data
43. of the interface in hexadecimal notation 1 3 6 1 4 1 18 3 5 10 3 1 6 3 2 Parameter Default Options Function Instructions MIB Object ID Enabling XNS Services Base Host Number The Configuration Manager automatically generates a unique 6 byte host number from the Bay Networks router s serial number if you do not enter a value This automatically generated number is not displayed Any host number Sets a host ID and source MAC address for all slots By means of this parameter XNS interfaces configured on any slot in the node share the same host ID and source MAC address Do not enter a number in this box if you want the Configuration Manager to generate a host number automatically or if the interface is on a Token Ring circuit and you are setting the Token Ring Mac Address Select parameter to Boxwide Enter the MAC address in hexadecimal notation only if the interface is on a Token Ring circuit and you are setting the Token Ring MAC Address Select parameter to Cnfg Refer to the section Configuring a MAC Address on a Token Ring Interface in Chapter 2 for more information about this parameter 1 3 6 1 4 1 18 3 5 10 1 4 Note f you already have XNS configured on the router this field does not appear 3 3 Configuring XNS Services Parameter Default Options Function Instructions MIB Object ID Configure RIP Depends on whether you have RIP configured Yes No Indicate
44. opics e XNS Protocol Stack e Protocol Layer Level Support e XNS Routing Information Protocol RIP e Error Protocol e Echo Protocol e Sequenced Packet Protocol e Packet Exchange Protocol e External Servers e Static Routes e Adjacent Hosts e Configurable Split Horizon The following sections describe the XNS protocol stack and the internetworking services pertaining to the Bay Networks router running XNS software Configuring XNS Services XNS Protocol Stack XNS was developed at the Xerox Palo Alto Research Center PARC Its layered architecture is a predecessor of the OSI architectural model Both architectures are functionally similar Figure 1 1 compares the OSI and XNS protocol stacks OSI XNS Layer 7 Application Level 4 Application Layer 6 Presentation Layer 5 Session Level 3 Control Process Interaction Layer 4 Transport Level 2 Transport Layer 3 Network Level 1 IDP Layer 2 Data Link Layer 1 Physical Level 0 Transmission Media Protocols Figure 1 1 Comparison of OSI and XNS Protocol Stacks A description of each XNS level follows Level 0 protocols handle the physical transmission of data between two points Level 0 protocols are independent of XNS specifications Instead they depend on the transmission medium available between the two points engaged in communication Examples of Level 0 protocols are Ethernet and Toke
45. ost then forwards the response packet to the source socket of the host that sent the echo request This lets the requesting host verify the data 1 7 Configuring XNS Services Sequenced Packet Protocol The Sequenced Packet Protocol SPP is a Level 2 protocol It supports the reliable transmission of sequenced internet packets between clients on the network SPP uses IDP to create a virtual circuit between the source and destination endpoints SPP has an open connection when it knows the address host and socket number and the connection identification for both connection endpoints When packets start passing over a new connection SPP assigns sequence number 0 zero to the first packet transmitted SPP supports extended sessions between connection endpoints as opposed to PEP Packet Exchange Protocol which requires no connection and supports only request response transactions SPP specifications provide information on packet format standard packet sequences and recommendations on how best to use the protocol Packet Exchange Protocol The Packet Exchange Protocol PEP is a Level 2 protocol that XNS uses to send a request and receive a response reliably PEP handles request response transactions without the need to establish a connection between clients The Packet Exchange Protocol can send packets to or from any valid socket address External Servers The Bay Networks XNS routing software features external server suppor
46. s menu appears after you select a link or net module connector that requires a WAN circuit Protocol prioritization is enabled automatically when you select XNS For detailed information on protocol prioritization refer to Configuring Traffic Filters and Protocol Prioritization 2 Click on OK to enable default XNS Services The Configuration Manager displays the Select Protocols window Go to the appropriate protocol specific guide for information on enabling the protocols you want to run on this interface 3 1 Configuring XNS Services Enabling XNS Services You enable XNS services from the XNS Configuration window Figure 3 1 Refer to the parameter descriptions in this section to specify the parameters When you have specified all parameters in the window click on OK to enable default XNS services and to display the next protocol specific pop up window If you want to edit the default values refer to Chapter 4 Editing XNS Parameters for instructions e XNS CONFIGURATION Configuration Mode local OK Network Address 001D0419 Base Host Number 121908D26C218l niens RIP is Implementation XEROX msi SNMP Agent LOCAL FILE Figure 3 1 XNS Configuration Window Parameter Default Options Function Instructions MIB Object ID Network Address None Any valid XNS network address Assigns an XNS address in hexadecimal notation to the interface Enter the XNS address
47. s whether you have RIP configured on this interface The Configuration Manager sets the default value for the Configure RIP parameter based on your selection in the Select Protocols window You can however change the value of this parameter as long as the XNS Configuration window remains in the workstation display 99999 7 3 Note f you already have XNS configured on the router this field does not appear Parameter Implementation Default Xerox Options Xerox Function Specifies the version of XNS you want to add to this circuit At this time Instructions MIB Object ID your only option is Xerox Accept the default value 1 3 6 1 4 1 18 3 5 10 1 6 Note You can change the value of the Network Address Base Host Number and Implementation parameters only as long as the XNS Configuration window remains in the workstation display However once you save the contents of this window these parameters appear only in the list of XNS interfaces in the XNS option configuration screens You cannot edit the Network Address parameter in any option configuration screen To change the network address of a specific XNS interface you must delete the interface from its circuit then add the interface again to the same circuit this time specifying the new network address 3 4 Chapter 4 Editing XNS Parameters Refer to this chapter when you are using Site Manager to Access XNS parameters Edit XNS global parameters Edit XNS
48. setting the Token Ring MAC Address Select parameter to Boxwide Enter the MAC address in hexadecimal notation only if the interface is on a Token Ring circuit and you are setting the Token Ring MAC Address Select parameter to Cnfg 1 3 6 1 4 1 18 3 5 10 1 4 Note Refer to Configuring a MAC Address on a Token Ring Interface in Chapter 2 for more information about this parameter Parameter Default Options Function Instructions MIB Object ID Implementation XEROX None Specifies the implementation of the XNS protocol on the router Use the default setting 1 3 6 1 4 1 18 3 5 10 1 6 4 5 Configuring XNS Services Editing XNS Interface Parameters Any XNS interface you add to a Token Ring circuit acquires from the system a default set of XNS parameter values You can use the Configuration Manager to enable or disable a specific XNS interface To access the XNS Interfaces window begin at the Configuration Manager window refer to Figure 4 1 and proceed as follows 1 Select Protocols XNS Interfaces to display the XNS Interfaces window Figure 4 3 e XNS Interfaces BI Done Add Delete Apply Values Help Enable ENABLE Cost 0 Xsum On ENABLE Mac Address 1A562CF46D1A SIDS Group Address C External Server DISABLE Figure 4 3 XNS Interfaces Window 4 6 Editing XNS Parameters The reference for each interface in the list
49. software in Levels 0 1 and 2 Levels 3 and 4 do not involve routing and are beyond the scope of this document Protocol Layer Level Support Level 0 This section describes in detail the protocol support that Bay Networks XNS routing software provides at Level 0 1 and 2 of the XNS protocol model The XNS Level 0 protocols handle the physical transmission of data between two points The Bay Networks router running XNS software supports the following Level 0 protocols or frame formats encapsulations Ethernet Ethernet II e Token Ring SNAP e FDDI SNAP e Frame Relay Frame Relay SNAP e SMDS SMDS SNAP Configuring XNS Services Level 1 Level 2 Bay Networks implements IDP the only XNS Level 1 protocol IDP determines where each internet packet goes addresses the source and destination of each internet packet and selects the transmission medium IDP is a connectionless datagram protocol In other words it does not need a channel established for delivery Also IDP is unreliable Higher level protocols assume the responsibility for reliability The Level 2 services provide IDP with the information necessary to route internet packets Level 2 protocols correspond to the transport layers of the OSI model The Bay Networks router running XNS software implements the following XNS Level 2 protocols e Routing Information Protocol e Error Protocol e Echo Protocol e Sequenced Packet Protocol e Packet Exchange Prot
50. t External server support provides client access to a service on another network if the service is not available on the client s network You enable external server support from the XNS Interfaces window refer to Editing XNS Interface Parameters in Chapter 4 1 8 XNS Overview When you enable external server support on a particular XNS interface you specify the service request type to be routed and the destination of the service The router then forwards incoming requests for that service type to the remote destination Note You should enable external server support only when a service is not available on the local network The default setting for this feature is Disabled Static Routes Static routes are manually configured routes that specify the next hop in the transmission path a datagram must follow based on the datagram s destination address A static route specifies a transmission path to another network The Bay Networks router running XNS software allows you to configure static routes on each logical XNS interface For example in Figure 1 2 the route from the interface on Router Host ID 1 to Network 5 is a static route Unlike routes learned through RIP static routes remain in the RIP tables until you delete them Static route support for XNS allows you to do the following e Direct all XNS traffic destined to a given network to an adjacent host e Reduce routing traffic by disabling RIP Supply on all or a s
51. terface Parameters continued Parameter Default WAN Broadcast ffffff WAN Multicast ffffff Split Horizon Algorithm Enable Table A 3 XNS RIP Interface Parameters Parameter Default Enable Enable Supply Enable Listen Enable Table A 4 XNS Adjacent Host Parameters Parameter Default Target Host Network hex None Host ID hex None Next Hop Interface hex None DLCI hex None Enable Enable Next Hop Intf None DLCI None Table A 5 XNS Static Route Parameters Parameter Default Target Network hex None Next Hop Network hex None Enable Enable Cost 0 continued Site Manager Default Settings Table A 5 XNS Static Route Parameters continued Parameter Default Next Hop Host None Next Hop Interface None DLCI None A 3 A adjacent host parameters 4 16 adjacent hosts 1 11 adding 4 17 deleting 4 22 editing 4 20 Bay Networks CompuServe forum xii customer support xii Home Page on World Wide Web xiii InfoFACTS service xiii publications ordering xv Technical Response Center xiii broadcasts 1 6 C CompuServe Bay Networks forum on xii configurable split horizon algorithm 1 13 configuration notes 2 1 customer support See getting help D defaults XNS parameters A 1 DLCI Data Link Connection Identifier 1 9 1 11 2 1 4 18 4 20 4 22
52. the router adds routes received in RIP updates from neighboring routers to its own internal routing table When you enable the Supply function the router running XNS software transmits RIP updates to routers on neighboring networks Error Protocol The Error Protocol is an optional Level 2 protocol intended to provide diagnostic and performance information The destination host that detects an error returns an Error Protocol packet to the socket of the host that generated the incorrect packet The Error Protocol packet contains a copy of the first 42 bytes of the incorrect packet so that it can be validated by the source The Packet Type field of the Error Protocol packet identifies the error number Table 1 1 lists the XNS standard Error Protocol numbers Bay Networks routers running XNS software report errors they detect using this standard The host that detected the error discards the incorrect packet after copying its first 42 bytes to the Data field of the Error Protocol packet Because the protocol is optional the host that receives the Error Protocol packet may or may not use the information before dropping the packet The Bay Networks router running XNS software does not use the information in the Error Protocol packets it receives 1 6 XNS Overview Table 1 14 XNS Error Protocol Numbers Error Number coe Octal Description of Error 0 An unspecified error is detected at the destination
53. to adjacent hosts A static transmission path to an adjacent host establishes the data link connection necessary for packet transmission along a static route in a Frame Relay or SMDS network when RIP is not enabled For example in Figure 1 3 the XNS interface on Router Host ID 1 has Host 4 configured as a statically adjacent host This provides a data link connection that allows the static routing to occur between Host ID 1 and Network 5 With adjacent host support you can do the following e Configure the router to map XNS addresses of network devices that are local to adjacent WANs to their associated WAN addresses e Configure many static routes that use a single adjacent host as their next hop node thereby reducing manual configuration tasks Note You must use the locally significant DLCI Data Link Control Identifier parameter to identify a virtual circuit when you configure a static adjacent host in a Frame Relay or SMDS network You must enter the DLCI in hexadecimal format Refer to Configuring Adjacent Host Parameters in Chapter 4 Configuring XNS Services Adjacent host configuration for all XNS traffic to host 4 Parameters Values Target host network 2 Host ID 4 Next hop interface 2 Locally significant DLC 0x191 Router Host ID 1 Frame relay DLC address Decimal Hexadecimal Frame Relay or SMDS Network 2 401 0x191 402 0x192 BN
54. tructions MIB Object ID Editing XNS Parameters Target Host Network hex None Valid network address of the adjacent host Specifies the network address of the adjacent host Enter a network address of up to 8 hexadecimal characters 1 3 6 1 4 1 18 3 5 10 5 1 3 Host ID hex None Valid host ID of the adjacent host Specifies the Host ID of the device you want to configure as an adjacent host Enter a Host ID of up to 12 hexadecimal characters 1 3 6 1 4 1 18 3 5 10 5 1 4 Next Hop Interface hex None Configured network address of the next hop Specifies the network address of the next hop interface Enter a network address of up to 8 hexadecimal characters 1 3 6 1 4 1 18 3 5 10 5 1 5 4 19 Configuring XNS Services Parameter DLCI hex Default None Options Data Link Control Identifier Function Identifies the virtual circuit in a Frame Relay or SMDS network Instructions Enter a locally significant DLCI of up to 16 hexadecimal characters if the interface is on a Frame Relay or SMDS network Leave blank if the interface is not on a Frame Relay or SMDS network MIB Object ID 1 3 6 1 4 1 18 3 5 10 5 1 6 Caution The router cannot pass traffic through an interface to an adjacent host on a Frame Relay or SMDS network if the adjacent host is configured without the correct DLCI Editing an Adjacent Host You can edit the configurable parameters of an Adjacent Host entry in the node conf
55. ubset of attached interfaces and by manually configuring static routes e Eliminate all dynamic routing capabilities and all RIP Supply and listen activities over an XNS interface Caution 7o establish a Data Link layer connection in a Frame Relay or SMDS network with the router sending frames over a static route you must configure an adjacent host and enter a locally significant DLCI Refer to Configuring Adjacent Host Parameters in Chapter 4 Configuring XNS Services Static route configuration for all XNS traffic to network 5 Parameters Values Target network 5 Next hop network 2 Next hop host 4 Router Host ID 1 XN XN ES Frame Relay Frame Relay or SMDS or SMDS Network 2 Network 3 Pd Pd Z Generic XNS Router Host ID 4 Frame Relay or SMDS Key Network 5 Static route Route closed i to XNS traffic i Route not Generic XNS router affected Host ID 6 Figure 1 2 Static Route in a Sample Network XNS Overview Adjacent Hosts An adjacent host is a network device that is local to a directly connected network This device may or may not be a router For example Host ID 4 in Figure 1 3 is an adjacent host to Router Host ID 1 Host ID 6 is not an adjacent host because it is not connected logically to a directly adjacent network The Bay Networks router running XNS software allows you to specify static transmission paths
56. without RIP e XNS ona Token Ring interface Configuring XNS without RIP The router running XNS software learns WAN addresses from RIP broadcasts received over WANS The router stores the XNS address WAN address pairs in its RIP table for future determination of next hop destinations Every router running XNS software on the internetwork learns about all the other routers running XNS software through the propagation of RIP tables These tables can become very large in large internetworks You may want to configure XNS without RIP to control the size of these tables and to reduce bandwidth However you must do the following when you configure an XNS WAN interface without RIP 1 Configure an adjacent host and edit the DLCI parameter in the XNS Adjacent Host Configuration window for each host on an adjacent Frame Relay or SMDS network Refer to Configuring Adjacent Host Parameters in Chapter 4 2 Configure a static route to the next hop router for each adjacent host Refer to Configuring Static Route Parameters in Chapter 4 2 1 Configuring XNS Services Configuring a MAC Address on a Token Ring Interface Any physical interface such as LANCE ILACC and FSI that can run in indiscriminate mode allows multiple protocols to register a media access control MAC address for which the protocol software can listen Therefore XNS can register its host number as the MAC address for each interface However if XNS is run
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