% VAX-11 Librarian V04-00w' kdh 5 NET$CONFIGURE_Help + \ BANKS NET$CONFIGURE_Help+Yxl6 BANKS NET$CONFIGURE_Help+"? BANKS NET$CONFIGURE_Help+`  BANKS NET$CONFIGURE_Help+)U' BANKS NET$CONFIGURE_Help+~+3 BANKS NET$CONFIGURE_Help+-B BANKS NET$CONFIGURE_Help+ ZpZ BANKS NET$CONFIGURE_Help+M;pa BANKS NET$CONFIGURE_Help+ge:i OLSON NET$CONFIGURE_Help+)Q BANKS NET$CONFIGURE_Help+[݁ BANKS NET$CONFIGURE_Help+Bxƙ BANKS NET$CONFIGURE_Help+`n BANKS NET$CONFIGURE_Help+Ҭd BANKS NET$CONFIGURE_Help+1 BANKS NET$CONFIGURE_Help+Я´ ABERDALE NET$CONFIGURE_Help+W ABERDALE NET$CONFIGURE_Help+' L9 ABERDALE NET$CONFIGURE_Help+kndh SANDEEP NET$CONFIGURE_Help  kdh1 NET$CONFIGURE_Helps7 NET$CONFIGURE.COM V3.0 - for DECnet-Plus for OpenVMS? Copyright 2003 Hewlett-Packard Development Company, L.P. h h 2 DMU_helpn/ "Do you want to convert Phase IV databases?"nB If you answer YES to this question, the NET$CONFIGURE procedure? uses the system's existing Phase IV database to generate NCLdD scripts and configure the system. Depending on the content of theC database, NET$CONFIGURE will ask additional questions on  some or  all of the following topics:s# o Node's full name and synonym.s o Node's time zone.r o OSI Transport.< o Any standard applications that are not in the existing$ database such as OpenVMS MAIL.A If you answer NO, the NET$CONFIGURE procedure does not use thexB system's existing Phase IV database to generate NCL scripts andA proceeds to ask all the configuration questions, starting withf your node full name.e N2 Convert_Node_Names_help< "Do you want to convert the Phase IV node name database?"B If you answer YES to this question, the NET$CONFIGURE procedureE uses the system's existing Phase IV node name database to generatemD a local name database. This file is used to translate node namesF if you include "LOCAL" in the list of directory services to be used on this system.H This will provide a flat naming space that is populated with the nodeA names from the existing Phase IV permanent database. This is yE unnecessary if you do not intend to include "LOCAL" in the list ofs0 directory services to be used on this system.2 Node_name_helph( "What is the full name of this node?"E The node full name is the name of your system's node object in thesF directory service. It includes the namespace nickname, and the fullC list of directories leading to the node object name. Examples ofn node full names include:o LOCAL:.TomThumb vbo:.afsg.comms.werners( XYZ_CORP:.sales.w est_coast.WillyLoman< Europe:.Erin.County_Cork.Bantry.Glengarriff_Road.MACotter? The namespace nickname is terminated with a colon (:). If nonC namespace nickname is given or if the namespace nickname "LOCAL"hC is used, then the Local File is used. The node object name must E begin with a dot (.), and no element of the name (namespace name, E directory, or node object name) can be a null string. Please note aB that the namespace nickname "LOCAL" is reserved, and indicates 3  that the Local File will be used on this system.eJ Enter the node full name you want to use. DECnet-Plus node full names G should be planned carefully and must be unique within the directory IE service. If your network administrator has not assigned a unique nI node full name for your system, be sure that you read DECnet-Plus for tC OpenVMS Introduction, Planning, and Glossary before you do so. l@ This manual also contains guidelines for using the directory & services DECdns  and the Local File.2 Node_synonym_help( "What is synonym name for this node?"? The node synonym is an alphanumeric character string betweena@ 1 and 6 characters long that contains at least one alphabetic? character. If this system had previously been running DECnetoB Phase IV software, then the old node name should be used as theD synonym. If this system is joining a DECnet network for the firstB time, any name can be used for the synonym, as long as it meets? the crite ria listed above, and is unique within the network.e* Enter the node synonym you want to use. a2 PhaseIV_address_helps "Enter PhaseIV Address"B A DECnet-Plus system may or may not use a DECnet Phase IV styleB node address. A node address of 0.0 indicates that this system F will be communicating with DECnet-Plus nodes only. If your network B contains some systems running DECnet Phase IV, you may want to C specify a compatible address in order to communicate with them. fF If your network consists solely of DECnet-Plus and/or OSI systems,  this may not be required.> The DECnet Phase IV node address consists of an area numberA (between 1 and 63), and a node number within the area (between1 1 and 1023). A Enter the PhaseIV address you want to use, or enter 0.0 if youw3 want to communicate with DECnet-Plus nodes only. 2 Phaseiv_address_prefix_help "Enter Phase IV prefix"? Having chosen a Phase IV compatible address for this sy stem,yB you may also specify a Phase IV Prefix, which together with theC node address forms the complete network address for this system.AC All nodes within a single addressing domain contain the same IDPiA in their network addresses. The default value of "49::" is the"D "private network" IDP, which is appropriate for a Phase IV DECnetA network that contains some DECnet-Plus systems. Please contacty@ your network manager if you are in doubt as to your network'sC Phase IV Prefix  value, or indeed if you are unsure how to answert this question at all.A DECnet-Plus systems reference all network addresses (includingPC Phase IV addresses) using OSI NSAP address formats. The Phase IVpA prefix and the Phase IV node address are used to construct thecA complete NSAP address. All DECnet-Plus systems within a singler@ routing domain use this Phase IV prefix to form the Phase IV-C compatible NSAP address. This prefix consists of the OSI addressi? initial domai n part (IDP) and possibly the preDSP portion oftD the domain specific part (DSP). DECnet-Plus for VMS Introduction,@ Planning, and Glossary contains more information about NSAPs.= The default value for the prefix is the number 49::, whichs= specifies that your system will be part of a private localnA network. This value is generally appropriate for networks thatw> will not be interconnected with other OSI networks. If your@ network is going to be connected with other OSI network s, you$ must enter a globally unique IDP.& NOTEB If you are using an IDP other than 49::, it must be assigned? by an authorized standards organization, such as ANSI, or > you must construct an IDP that you know will be globally< unique (based on your telephone number, for instance).> DECnet-Plus for VMS Introduction, Planning, and Glossary@ contains a detailed description of how to construct an IDP> and how to apply to a standards organization for an IDP.D If you are in doubt about which prefix value to use, contact your network manager. - Enter the Phase IV prefix you want to use. 2 cdi_dirsvc_help6 "Enter the directory services to use on the system"G You have the option of choosing the following directory services fory your system: E Local File (LOCAL) - A local namespace that uses flat naming. ) DECdns - A distributed namespace. 5 Domain - A naming serv ice that uses DNS/BIND. K The Local file has the capability to hold 100,000 nodes, and it can evensL scale beyond that number. The actual number of nodes that the Local file: can hold depends on the space available on your system.C If you choose to enter more than one directory service for your sG system, the ordering of this list is *very important*, as the first dI directory service entered in this list will be considered the primary dB directory service to use on the syste2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}".( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen.fE For the directory service Domain, you will enter a fully qualifiedtG host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comaJ For the directory services DECdns and Local file, you will enter a nodeJ full na2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}" ( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualified G host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comfJ For the directory services DECdns and Local file, you will enter a nodeJ full na2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}" ( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualified G host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comfJ For the directory services DECdns and Local file, you will enter a nodeJ full na2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}" ( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualified G host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comfJ For the directory services DECdns and Local file, you will enter a nodeJ full na2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}" ( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualified G host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comfJ For the directory services DECdns and Local file, you will enter a nodeJ full na "m. The primary directory H service is considered the first choice to use when looking up naming  information for the system.E Enter an *ordered* list of the directory services you want to use oA on the system. If you enter more than one directory service, s separate them by commas. G For example, if you enter "DECdns,Local,Domain" at the prompt, this mH means that you want to use the directory services DECdns, Local, and A Domain, and that the primary directory service  2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}" ( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualifiedG host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comiJ For the directory services DECdns and Local file, you will enter a nodeJ full na!2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}" ( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualified G host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comfJ For the directory services DECdns and Local file, you will enter a nodeJ full na"2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}" ( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualified G host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comfJ For the directory services DECdns and Local file, you will enter a nodeJ full na#will be DECdns. J If you are configuring a DECdns server for the first time, your primary! naming service must be DECdns. 2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}""( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualifiedhG host name. The fully qualified host name includes the host name andt the domain name. For example: $' Domain - smilee.lkg.dec.com J For the directory services DECdns and Local file, you will enter a nodeJ full name. The node full name is the name of your system's node objectI in the directory service. It includes the namespace nickname, and thefI full list of directories leading to the node object name. Examples ofnL node full names for the directory services DECdns and Local file include:$ Local file - LOCAL:.TomThumb: DECdns - XYZ_CORP:.sales.w %est_coast.WillyLomanG For the Local file, the namespace nickname LOCAL is prepended to thefH full name and is terminated with a colon (:). The namespace nicknameH "LOCAL" means that the Local file is used. The node object name mustG begin with a dot (.), and no element of the name (namespace name,dJ directory, or node object name) can be a null string. Please note thatG the namespace nickname "LOCAL" is reserved, and indicates that theL* Local file will be used on this s &ystem.K The Local file has the capability to hold 100,000 nodes, and it can evensL scale beyond that number. The actual number of nodes that the Local file: can hold depends on the space available on your system.H Enter the node full name you want to use. DECnet-Plus node full namesF should be planned carefully and must be unique within the directoryD service. If your network administrator has not assigned a uniqueD node full name for your system, be sure that you read DECne 't-PlusE for OpenVMS Introduction, Planning, and Glossary before you do so.TI This manual also contains guidelines for using the directory services D DECdns and the Local File.2 Node_synonym_directory_help "Node Synonym Directory" A If you have a large network and would like to use an alternatenD node synonym directory rather than using the default node synonym= directory of ".DNA_NodeSynonym", you may enter one at thispB prompt. The value for the alternate node syno(nym directory must? be a DECdns directory full name(for example: .USA_Synonyms). B If you have the logical DECNET_MIGRATE_DIR_SYNONYM defined, theA default value for the node synonym directory will be the valueyB you defined. If you do not have the logical DECNET_MIGRATE_DIR_< SYNONYM defined, the default value is ".DNA_NodeSynonym". "2 naming_cache_timeout_value_help "Naming cache timeout value?"E A CDI naming cache is used to improve the performance of nodename tF ) address resolution. This cache supersedes the DECdns cache and is H used when looking for addresses in the Domain and Local services, in E addition to DECdns. Note that other applications that use DECdns 1 directly continue to utilize the DECdns cache. H The CDI naming cache includes a mechanism to "timeout" old entries. G In this way, these entries are periodically refreshed to accurately c* reflect the actual network environment.J For example, say that node FOO has addr *ess 1234. After DECnet-Plus hasL looked up node FOO, it will store this address in its cache. If node FOOG were to change it address to 2345, the following events would occur:oA - DECnet-Plus would retrieve address 1234 from the cache.a= - a connection attempt would be made to address 1234.uK - if the connection failed, DECnet-Plus would automatically look up I the address again, bypassing the naming cache. This new lookupmA would find address+ 2345, update the cache, and connect d successfully.tH However, if address 1234 had been reassigned to another node BAR, the following would occur:eA - DECnet-Plus would retrieve address 1234 from the cache.a= - a connection attempt would be made to address 1234.uE - the connection would succeed - DECnet-Plus cannot tell thatD- it has connected to the wrong node.cL To prevent this scenario, network administrators should not reassign node ,I addresses until the naming cache timeout period has passed. This willeE allow these addresses to be automatically flushed from the caches.lL You have the option to set a value for the naming cache timeout interval.E Enter any legal OpenVMS delta time value (the default is 30 days).u(2 naming_cache_checkpoint_interval_help& "Naming cache checkpoint interval?"E A CDI naming cache is used to improve the performance of nodename mF address resolution. This cache supersede -s the DECdns cache and is H used when looking for addresses in the Domain and Local services, in E addition to DECdns. Note that other applications that use DECdns d1 directly continue to utilize the DECdns cache. L Periodically, DECnet-Plus saves a snapshot of the in-memory naming cache I to disk. This allows systems, during startup, to have a naming cache I that is already populated with entries. In other words, the contents a; of the naming cache are preserved across syst.em reboots.tK The frequency of this checkpoint operation can be changed. For example,fJ $ MCR NCL Set Session Control Naming Cache Checkpoint Interval 12:00:00+ changes this interval to every 12 hours.oG You have the option of setting the naming cache checkpoint interval. E Enter any legal OpenVMS delta time value (the default is 8 hours).'2 Autoconfigure_network_addresses_helpt# "Autoconfigure network address?"c? Your system must have at least one unique network / address in?@ order to use DECnet-Plus communications features. DECnet-PlusB systems can be multihomed, that is, they can have more than one+ network address, but no more than three.e? If you answer YES to this prompt, the procedure supplies onee network address for you. A This method is the easiest way to configure a network address,p@ or Network Entity Title (NET), for your system. If you have aC WANrouter adjacent to your system (on the same LAN or connected a= to yo 0ur system by a point-to-point link), the router will e, configure your network addresses for you.& NOTEC Do not choose autoconfiguration unless you know that the OSI F router adjacent to your system uses NETs with a selector of 00. C This restriction applies even if you have a WANrouter on the D LAN. OSI routers that specify NETs differently can cause you B to autoconfigure your network addresses incorrectly. If you E have 1 such a router, you must choose to manually configure your = NETs by answering NO to the autoconfiguration question. > If you answer NO to the autoconfiguration question, you canB manually enter multiple addresses for your system. Your network; manager can supply them to you or you can construct themgA yourself. Having multiple addresses allows your system to haveqD both an OSI address and a Phase IV-compatible address, so you canE communicate with both Phase IV and DECnet-P 2lus systems on the sametA network. It also allows your system to belong to more than onehD OSI network. This feature is particularly useful when you want toC combine two (or more) networks. Rather than have all the systemseC in both networks get new addresses that reflect the new combined C network, those systems that need to participate in both networksn# can have an address in each one.kB If you choose not to autoconfigure your network addresses (alsoA known as Network Enti4ty Titles [NETs]), the procedure displayst the following prompt:( * Enter Manual Network Entity Titles? e2 Manual_net_help( "Enter Manual Network Entity Titles?"B You can assign a maximum of three network addresses to a system? including the Phase IV address (if you assigned one). If youiB entered a Phase IV address and a Phase IV prefix in response toD the previous prompts, the Phase IV NET is automatically generated and assigned for you.? If you know which N4D If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECnetoB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. n2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?" B Specify6ETs to use, enter them at this prompt. IfaB you are entering more than one NET, separate them with a comma.B You can obtain them from your network manager or construct them yourself.D To create an NET manually, you need to know your system's Network( IDP, network local area, and Node ID.0 For example, given the following information: A network IDP of 41:45436192: A network local area of 43  A node ID of 258d% The NET is constructed as follows:e: IDP and s6D If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECneteB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. e2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?" B Specify 8elector = 41:45436192:local-area:node-id:007 43 decimal = 2B hexadecimal (local area)& (43 * 1024) + 258 = 44290 decimal* 44290 decimal = AD02 hexadecimal4 AD02 swapped = 02AD hexadecimal (node ID)> The resulting NET is 41:45436192:00-2B:AA-00-04-00-02-AD:00& NOTE> NETs must be entered in DNA format, which uses colons to= separate fields and dashes to separate pairs of digits.TB Make sure that you8D If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECneteB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. e2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?" B Specify: include the 00 selector when you manually specify a NET. 2 dna_address_format_help "DNA Address Format?"I You have the option of setting the value of the Routing characteristicsJ "DNA Address Format" to either TRUE or FALSE. Answering YES indicatesJ that NSAP addresses are DNA structured. Enter TRUE if you want to set " the DNA Address Format to TRUE.2 Async_support_help / "Do you want Asynchronous datalink support?"AB If you have installed and con:D If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECneteB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. e2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?" B Specify <figured the VAX WAN Device DriversD software on this system, you have the option of configuring it to$ support asynchronous connections.B Support for asynchronous connections is provided by the VAX WAN@ device driver software. This software gives you the option ofA connecting your OpenVMS system to another system by means of aoB low-cost, low-speed asynchronous line. Asynchronous connections? are implemented in software and can be run over any directlyt@ connected terminal li<D If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECneteB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. e2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?" B Specify =ne that the OpenVMS system supports. The> asynchronous protocol provides for a full-duplex connection@ and can be used for remote asynchronous communications over a telephone line using a modem.& NOTE@ Asynchronous connections are not supported for maintenance4 operations or for controller loopback testing.B Normally, the OpenVMS operating system controls lines connected@ to terminal ports, as in interactive login. You can, however,C ? switch the line so that the DECnet-Plus for OpenVMS software can A use the line for an asynchronous connection to another system.sE Refer to the DECnet-Plus Network Management manual for informationeC on the OpenVMS DCL SET TERMINAL commands used to switch terminal  lines to DECnet lines.nB You can establish two types of asynchronous DECnet connections:A o A static asynchronous connection, which creates a permanent B DECnet link to a single remote node. Two nodes are c?D If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECneteB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. m2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?"cB Specify Aonnected? by either a dialup line or by a physical line attached too? a terminal port at each end. Before the DECnet connectione= is made, the terminal lines must be converted to staticn asynchronous DDCMP lines.eC o A dynamic asynchronous connection, which provides a temporaryr? DECnet link. This type of line is usually switched on fort> network use only for the duration of a dialup connection@ between two nodes. When the telephone is disconnected, theAD If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECneteB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. e2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?" B Specify C= line reverts to being a terminal line. The advantage ofa? this type of connection is that you can use a single lineaC to establish dynamic connections to different remote nodes ats different times.D Also, when creating a dynamic asynchronous connection, you areA given the option of creating an explicit dynamic connectionhA or a floating dynamic connection. The difference is that an A explicit line is tied to a specific terminal device while ao@ CD If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECneteB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. e2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?" B SpecifyD floating line is not. When using a dynamic connection, youC can have the terminal line switched automatically to a DECneti0 line, or you can switch the line manually.@ If you answer YES, the procedure asks the following question:3 * Do you want to configure static lines? [YES] :  e2 Async_static_help+ "Do you want to configure static lines?"hD If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a perEmanent DECnetB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. d2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?"B Specify the device name of the terminal port to be used for the permanent DECnet link.  t2 Async_dynamic_helpe, "Do you F want to configure dynamic lines?"> If you want to establish a dynamic asynchronous connection,; answer YES. A dynamic asynchronous connection provides aCA temporary DECnet link. A dynamic asynchronous line is normallyu@ switched on for network use only for the duration of a dialup? connection between two nodes. When the telephone is hung up,iC the line reverts to being a terminal line. The advantage of this D type of connection is that you can use a single line to establishD G dynamic connections to different remote nodes at different times. l 2 Async_support_more_lines_help4 "Do you want to configure any more Asynch lines?"D If you want to establish lines for more asynchronous connections,; answer YES. If you answer YES, the procedure repeats they< questions regarding configuring static and dynamic lines. 2 Async_static_lines_yn_helpt3 "Do you want to continue configuring this line?"C This prompt is displayed if you failed to specify aHn appropriateo> terminal device name at the previous prompt. If you want toD terminate the configuration of a static asynchronous line, answer NO. 2 Async_dynamic_setup_helpy5 "Do you want to configure explicit dynamic lines?"eA If you want to configure a terminal port for use as a switchedu@ DECnet link so that explicit Dynamic connections can be made, answer YES. l2 Async_dynamic_lines_helpe0 "Terminal device name(s) (ex:TXA0,TXA2... )?"> Specify the dIevice name of terminal port to be used for the dynamic DECnet link.n i2 Async_dynamic_lines_yn_help3 "Do you want to continue Configuring this line?"cC This prompt is displayed if you failed to specify an appropriatel> terminal device name at the previous prompt. If you want to? terminate the configuration of an dynamic asynchronous line, answer NO. T/2 Async_floating_lines_number_modem_lines_help B "Number of floating 'line speed' bps 'modem control type' modemJ ctrl lines?"i@ This is the maximum number of terminal ports that can be usedB as dynamically allocated full modem control asynchronous DECnet? links. It should not exceed the number of available terminalc ports.a 2 Async_floating_lines_yn_helpr5 "Do you want to configure floating dynamic lines?"eC If you want to configure a terminal port that can be dynamicallyd> allocated for use as a switched DECnet link so that Dynamic' connections can be made, answer YES.oK n+2 Async_floating_lines_configure_more_helpa6 "Do you want to configure any more floating lines?"< If you want to configure more floating lines, answer YES. 2 Async_line_speed_help+ "Line speed for 'terminal device name'?"f9 Specify the line speed in Bits per Second at which thei: asynchronous link will run (for example, 2400 or 9600). a2 Async_modem_control_help_/ "Will this line require full modem control?"aA If you want the full DEC Standard 52 ModeLm control to be used, answer YES. k2 Data_link_protocol_help7 "Data Link protocol for 'datalink name' ('device')?"iB Specify either HDLC, DDCMP, or NONE for the point-to-point data' link protocol. The default is DDCMP.aC o DDCMP (Digital Data Communications Message Protocol) providesrD synchronous point-to-point connections and asynchronous static, or dynamic point-to-point connections.B o HDLC (High-Level Data Link Control protocol) conforms to theC M ISO standards. HDLC provides synchronous point-to-point linkst1 that function like DDCMP synchronous links.t? o Enter NONE if either of the following statements is true.p7 - You do not want to run DECnet over this devices, - You are using X.25 over this device t2 Data_link_name_help( "Data Link name to use for 'device'?"@ This prompt allows you to specify a data link name for one ofA the following data links depending on the type of device being = cNonfigured. If you do not want this device configured for  DECnet-Plus, enter NONE.m o CSMACD o DDCMP o HDLC= Ethernet devices can only be configured to run over CSMACDc? datalinks. Synchronous devices can be configured to run overd< DDCMP or HDLC datalinks. Asynchronous devices can only be* configured to run over DDCMP datalinks.D Specify the simple-name that you want to use for the data link or= accept the system-supplied default. HP recommends that yoOu B take the default name even if you configure multiple data links of the same type. e!2 fddi_large_packet_support_help  "FDDI Large Packet Support"E If an FDDI-type circuit has been found on the system, you have the C option of enabling FDDI large packet support. FDDI large packet= support allows you to fully utilize the bandwidth of FDDI. G If you choose not to enable FDDI large packet support on the system,v> the FDDI circuit will use the bandwidth of CSMA-CD Pinstead.D Note that a Phase V router on the LAN (preferably on the FDDI) is= required in order to enable the FDDI large packet support.t2 segregated_mode_routing_help  "Segregated Mode Routing"C If you are using the ADVANCED configuration, you have the option > of using segregated mode routing or integrated mode routing, (integrated mode routing is the default).6 Segregated mode routing works in the following way:F A special check is made on the packet to determQine if the packet isJ Phase IV translatable. If the packet is Phase IV translatable, it willJ translate the packet. It will then send the translated Phase IV packetJ (or the Phase V packet if it couldn't be translated) to the appropriateG router if the Phase IV or Phase V router is present. If no suitablesI router is present, then the packet is sent directly to the destinationtH end system. (Essentially, Phase IV compatible packets are routed viaI the Phase IV backbone, and ex Rtended address packets are routed via thee Phase V backbone.)p6 Integrated mode routing works in the following way:F If a Phase V router is present, then the packet will be sent to it.C If a Phase V router is not present, then a check will be made toV2 determine if the packet is Phase IV compatible.F If the packet is Phase IV compatible then it will check to see if aG Phase IV router is present and if it is then the packet will be sent G to the Phase IV router. If the Sre is no Phase IV router present then I the packet will be sent directly in Phase IV format to the destinationaA end system and multicast to all end systems in Phase V format.G If the packet is not Phase IV compatible and a Phase V router is not C present, then the packet will be multicast to all end systems ino Phase V format.2 integrated_mode_routing_helph "Integrated Mode Routing"C If you are using the ADVANCED configuration, you have the optiont> of using segreg Tated mode routing or integrated mode routing, (integrated mode routing is the default).6 Integrated mode routing works in the following way:F If a Phase V router is present, then the packet will be sent to it.C If a Phase V router is not present, then a check will be made tos2 determine if the packet is Phase IV compatible.F If the packet is Phase IV compatible then it will check to see if aG Phase IV router is present and if it is then the packet will be sent G to the Ph Uase IV router. If there is no Phase IV router present then I the packet will be sent directly in Phase IV format to the destinationaA end system and multicast to all end systems in Phase V format.G If the packet is not Phase IV compatible and a Phase V router is not C present, then the packet will be multicast to all end systems ino Phase V format.2 Routing_circuit_name_help/ "Routing Circuit Name for Data Link 'type'?" ? Specify the simple-name that you want to use Vfor the routingc? circuit or accept the system-supplied default. HP recommends@ that you take the default name even if you configure multiple lines of the same type.A If you decide not to accept the default response, keep in mindoA that the name you specify for the data link should reflect theoC type of routing circuit you are configuring. The following typesh may be configured:o o CSMACDD Carrier Sense, Multiple Access with Collision Detect (CSMA/CD)A prWotocol is the data link protocol used by Ethernet and ISOy( 8802-3 local area networks (LANs). o DDCMPg= Digital Data Communications Message Protocol (DDCMP) ist> the data link protocol use by wide area networks (WANs).< It supports synchronous point-to-point connections and@ asynchronous static or dynamic point-to-point connections.D DECnet software can use this protocol to make connections over WANs.s o HDLCB High-level Data Link Con Xtrol (HDLC) is an ISO, bit-oriented,? Data Link layer (OSI layer 2) protocol that operates overt? synchronous, switched or unswitched communications links.AD DECnet software can use this protocol to make connections over WANs.n ,2 X25_configure_yes_no_help/ "Do you want to configure DECnet over X.25?"nA If you want to configure DECnet over X.25 (data link mapping),w; answer YES. This question will only be asked if the X.25sD software (or the VAX P.S.I. sofYtware) is installed on the system.2 X25_Routing_circuit_helpt3 "Which type of X.25 circuit do you want to use?"C This prompt allows you to select the type of routing circuit your7 want to use over X.25. The menu offers four choices:.< o A dynamically assigned Routing circuit (menu option 1)> operates over a number of X.25 switched virtual circuits) (SVCs); both incoming and outgoing. @ o A static incoming Routing circuit (menu option 2) operatesA overZ a single incoming X.25 switched virtual circuit (SVC). @ o A static outgoing Routing circuit (menu option 3) operatesA over a single outgoing X.25 switched virtual circuit (SVC).p? o A Permanent Routing circuit (menu option 4) simply uses al8 Permanent Virtual Circuit (PVC) instead of an SVC. m 2 X25_routing_circuit_name_help! "Routing Circuit Name to use?"u? Specify the simple-name that you want to use for the routingnA circuit. You can use the default or you[ can supply a name (forf example, X25-0).5 u2 X25_template_name_helpo "Template name?" ? Specify the simple-name of an X25 Access template. A defaulto@ name is provided or you may enter your own name (for example, X25-DA-1).aA All X.25 Routing circuits use an X25 Access template to either5' make or accept a network connection.A= For a static outgoing circuit the X25 Access template musty@ specify DTE class, destination DTE address and call data. TheB X25 A \ccess template may also specify other call characteristics+ to make the outbound network connection.i@ For a static incoming Routing circuit the X25 Access templateA may specify call characteristics to accept the inbound networka connection.A For a dynamic assigned Routing circuit the X25 Access templateD must specify DTE class and call data. The X25 Access template mayB also specify other call characteristics to make the outbound or* accept the inbound network connection]s.6 X25 Access templates are configured using the X.25  configuration program.X A2 X25_filter_name_help  "Filter name?"c: If you chose to configure an X.25 Dynamic Assigned (DA)? circuit or an X.25 Static Incoming (IN) circuit, this promptiA is displayed. Specify the simple-name of an X25 Access filter.hA You may accept the default or you may enter your own name (forn example, X25-IN-0).D Static incoming and dynamically assigned X.25 circuits use an X258 A_ccess filter to receive inbound network connections.C For a static incoming circuit the X25 Access filter must specifyeC inbound DTE class, sending DTE address, call data value and call5 data mask.nD For a dynamic assigned circuit the X25 Access filter must specify9 inbound DTE class, call data value and call data mask.f4 X25 Access filters are configured using the X.25  configuration program.a 2 X25_reachable_address_yn_help6 "Do you want to configure any reach_! 1. CLNS with Internet/ES-ISn@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the samel> subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols,IC which route packets from the end system to an intermediatefD system on the same subnetwork. The intermediate systeaable addresses?"C If you chose to configure an X.25 Dynamic Assigned (DA) circuit,oC this prompt is displayed. If you want to configure any ReachableaD Address sub-entities, answer YES. If you answer NO, the procedureB skips to the prompt "Configure another X.25 routing circuit for DECnet?". t"2 X25_reachable_address_name_help "Reachable address name?"C Specify the simple-name of the reachable address sub-entity thats3 you want to create (for example, ACCOUNTS_DEPT)a? Enter the number of the transport protocol class you want tot? use for this template. DECnet/OSI for OpenVMS supports threetA transport protocol classes: 0, 2, and 4. If you select CONS asu@ the network service type, the default is 0,2,4. If you select? CLNS, the default is 4. If you select RFC1006 as the network A service type, the default is 0,4. However, you can configure E multiple OSI templates.B The features of the transport service provided by each of these# proc.r t$2 X25_reachable_address_prefix_help "Reachable address prefix?"> The reachable address sub-entity name is used to select the< remote DTE address to where a routing packet is sent. TheC selection is done by finding a reachable address sub-entity thatcA has an address prefix that matches the beginning of the remotei NSAP in the routing packet.@ Specify the address prefix for this reachable address entity.? The address prefix is a string of characters that is a vac! 1. CLNS with Internet/ES-ISm@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the same > subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols,oC which route packets from the end system to an intermediateeD system on the same subnetwork. The intermediate syste dlidd@ beginning of an NSAP (for example, 41:45436192:). The address prefix will match all NSAPs.y e&2 X25_reachable_address_dte_list_help "Reachable address dte list?"> The reachable address sub-entity name is used to select theD remote DTE address to where a routing packet is sent. A reachable< address sub-entity may be configured with one or more DTEB addresses. If more than one DTE address is configured then onlyA one is selected each time a packet is sent. All thef remote DTEeB addresses must be accessible by the DTE class configured in theD X25 Access template already configured for the associated dynamic assigned circuit.> Specify the list of remote DTE addresses for this reachable< address entity. A DTE address consists of 1 to 15 decimal@ characters. The DTE addresses in the list should be separated" by commas (for example, 2,3,4). y#2 X25_reachable_address_again_helph8 "Any more reachable addresses you want to configure?"f! 1. CLNS with Internet/ES-ISm@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the same > subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols,oC which route packets from the end system to an intermediateeD system on the same subnetwork. The intermediate systegD If you want to configure another reachable address sub-entity for this circuit, answer YES. m2 X25_configure_another_helpb7 "Configure another X.25 routing circuit for DECnet?"y@ If you want to configure another X.25 routing circuit, answer> YES. If you answer YES, the procedure repeats the questions6 regarding configuring another X.25 routing circuit. r2 Transport_NSP_help?! "Configure the NSP Transport?"nD If you want the system to communicate with DECneti Phase IV nodes, answer YES. e2 Transport_OSI_helpi4 "Configure the OSI Transport or run over TCP/IP?"G Answer YES if you want the system to communicate with Phase V nodes,eG you want to run DECnet and/or OSI applications over TCP/IP (RFC1859 aH and/or RFC1006), or if you plan to install any OSI applications such  as OSAK, FTAM, or VT.& NOTEB If you answer NO to this question, the procedure still loads> the OSI transport imi! 1. CLNS with Internet/ES-ISm@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the same > subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols,oC which route packets from the end system to an intermediateeD system on the same subnetwork. The intermediate syste jages. However, OSI Transport is notA configured or usable until either you run the NET$CONFIGURE ? procedure and answer YES to the OSI Transport question ore5 you create an NCL script for OSI Transport use.  e2 No_transport_help "Are you sure?"> If this question is asked, it means that you elected not to? configure both the NSP Transport and the OSI Transport. Thisa@ is not recommended. If you plan to run over TCP/IP, then at . least the OSI Transport must kbe configured.D If you are sure that you do not want either transport configured,B answer YES. If you want to change your decision, answer NO. TheA procedure will then repeat the NSP Transport and OSI TransportaA questions, thus allowing you to select one or both transports.p 2 Config_multi_protocol_network: "Is this system operating in a multi-protocol network?" A One feature of Transport is the ability to use the "Congestion B Experienced" field in the ConnectionLes ms Network Service (CLNS)F routing header, and to implement a "Congestion Avoidance" scheme inG heavily congested networks. The CLNS Congestion Experienced field isaH used by routers that support this feature (such as DECnis) to give anD early indication of congestion. When Transport receives data thatG passed through a network path where the "Congestion Experienced" bitdH is set, Transport reduces the transmit rate of the sending end system( to help alieviate network congestion.m! 1. CLNS with Internet/ES-ISO@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the samea> subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols,dC which route packets from the end system to an intermediateeD system on the same subnetwork. The intermediate syste nH While this feature works well in networks where all network protocolsG support "Congestion Avoidance" mechanisms, it has been noted that ineC some heavily congested multi- protocol networks this feature can"E negatively impact the performance of DECnet-Plus compared to othere protocols. B Therefore, HP recommends that Transport Congestion Avoidance beG disabled when using DECnet-Plus in heavily congested, multi-protocol,B networks, if other network protocols do not implemepnt a similar mechanism.g? Answering "Yes" to this question will disable the congestion  avoidance algorithm.o&2 Config_nsp_pt_to_pt_line_speed_help@ "Are the point-to-point lines utilizing line speeds less than 9600BPS?"B This question will only be asked if you have any point-to-point= lines (that is, any synchronous and/or asynchronous lines)" configured.B If you have any point-to-point lines running at low line speeds> (that is, lower than 9600 bps), ansp! 1. CLNS with Internet/ES-ISm@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the same > subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols,oC which route packets from the end system to an intermediateeD system on the same subnetwork. The intermediate syste qwer YES. This will place@ additional NSP NCL commands into the NSP Transport NCL script? in order to accommodate the lower line speeds. If you do notaC have any point-to-point lines being utilized at low line speeds, answer NO.a m!2 Config_OSI_ivp_applic_usernamed7 "Username for OSI loopback test application to use?"tC Press Return to accept the default user name for the applicationnA loopback test account. A message will be displayed to indicate 4 that the default OS sI templates have been created. l'2 Config_OSI_template_create_more_helpg4 "Do you want to create additional OSI templates?"B If you configure the OSI Transport, the NET$CONFIGURE procedureD automatically creates the default OSI templates that are required@ by the OSAK and FTAM installation and verification proceduresB (IVPs) to perform loopback testing. However, if you plan to useA OSI applications to make connections to other OSI systems, youB must create OSI templates is! 1. CLNS with Internet/ES-ISm@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the same > subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols,oC which route packets from the end system to an intermediateeD system on the same subnetwork. The intermediate systeun addition to those that are created> by default. The default OSI templates are used for loopback? testing only and cannot be used to make connections to othere> OSI systems. Answer YES to create additional OSI templates. k 2 Config_OSI_template_name_help "Name of the template?"D Press Return to accept the default OSI template name (do not type "Return")D Enter the name you want to use for the OSI template (for example,< OSI_TEMPLATE_1) or press Return to accept theuD The first prompt displayed concerning sink configuration when you/ select menu option 6 is "Configure a Sink?".> If you want to customize information pertinent to the sink,B answer YES (for example, the sink name and where you would like: to send the output: a terminal, a printer, or a file?).? After you have configured a sink, the procedure displays the$ prompt "Configure another Sink?".= If you do not want to configure another sink, enter NO and? proceed to the v default OSI( template name (do not type "Return"). '2 Config_OSI_template_net_service_help_1 "Type of network service (CLNS/CONS/RFC1006)?"mB If you want to use Connectionless Network Service (CLNS), enter? CLNS. If you want to use Connection Oriented Network ServiceB (CONS), enter CONS. If you want to use RFC1006, enter RFC1006. o CLNS NETWORK SERVICEA There are two forms of the CLNS network service. Both formsw< support only one class of transport prot wocol: class 4.! 1. CLNS with Internet/ES-ISe@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the sameI> subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols, C which route packets from the end system to an intermediate D system on the same subnetwork. The in xtermediate system willC ensure that packets reach their final destination. Two end @ systems that implement ES-IS on the same subnetwork may@ communicate without an intervening intermediate system. 2. CLNS with Null InternetD A transport connection may use CLNS with Null Internet onlyA when the two end systems are on the same 802.3 LAN. This B network service is provided by the inactive subset of theA Internet protocol. No interymediate system is involved in the network connection. o CONS NETWORK SERVICE= A transport connection can use CONS when the underlyingdD network connection is an X.25 connection. This type of networkF service is provided by the X.25 software in the DECnet-Plus for  OpenVMS product.< CONS supports transport connections using any class ofA transport protocol (that is, class 0, class 2, or class 4).c4 The underlying X.25 network connectionz can be:D - A connection between two systems attached to an X.25 PacketA Switching Data Network (PSDN), either directly or via an  X.25 gatewaywC - A point-to-point connection using the LAPB protocol as thew data link protocolrA - A direct connection between two systems on the same IEEEi+ 802.3 LAN, using the LLC2 protocoldL In each of these cases the two end systems are on the same subnetwork. o RFC1006 NETWORK SERVICEn{A The network service type RFC1006 tells the OSI transport toeE run over the TCP/IP protocol stack. The network service type is - specified in an OSI Transport template.IC When using DECnet applications over RFC1006 the OSI transporte? template osit$rfc1006 is used for the inbound connection.= For outbound connections, the default template is used.p #2 Config_OSI_template_classes_help " "Transport Classes to support?"? Enter the number of the tra |nsport protocol class you want ton@ use for this template. DECnet-Plus for OpenVMS supports threeA transport protocol classes: 0, 2, and 4. If you select CONS asN@ the network service type, the default is 0,2,4. If you select? CLNS, the default is 4. If you select RFC1006 as the networkaA service type, the default is 0,4. However, you can configure t multiple OSI templates.B The features of the transport service provided by each of these# protocol classes are as follows:} o Class 0eC Class 0 is the most basic type of transport service, in whichf@ there is no flow control, multiplexing, or error recovery. o Class 2t? A class 2 transport service provides all the functions ofn@ a class 0 service, and also provides multiplexing and flowB control. The OSI Transport Service software always uses flow> control measures on class 2 connections, even though the? transport protocol standard defines this feature as being ~ optional within class 2. o Class 4nA A class 4 transport service provides all the functions of aaD class 2 service and, in addition, provides error detection and recovery.n r#2 Config_OSI_template_X25_template  "X25 template name?" 0 Enter the X.25 template name you want to use. e"2 Config_OSI_template_x_data_help! "Allow use of expedited data?"m@ If you want to support the use of expedited data, answer YES. i%2 Config_OSI_template_checksums_help  "Allow use of Checksums?"? If you want to use the error correction feature, answer YES.  n'2 Config_OSI_template_routing_protocol $ "Use Full CLNP or Null Internet?"B A CLNS OSI Transport template can specify use of Internet/ES-IS@ routing protocols or Null Internet routing protocol. The Null= Internet protocol only operates over LAN Routing circuits.ED A CLNS OSI Transport template for use with Internet/ES-IS routingA protocols may use any Routing c ircuits configured; the Routing < module will determine the most suitable circuit to use. AA CLNS OSI Transport template for use with Null Internet routingtD protocol can only use one Routing circuit; the Routing circuit is/ selected based on its inactive area address.t e+2 Config_OSI_template_routing_circuit_nameg> "Which routing circuit is this Null Internet template for?"= Enter the routing circuit you want to use for the CLNS OSInD Transport template (for use with Null Internet routing protocol). )2 Config_OSI_template_inactive_area_helpr% "Which CLNS Inactive Area to use?"fD A CLNS OSI Transport template specifying use of the Null InternetC routing protocol selects the Routing circuit to be used based onA4 the inactive area address of the Routing circuit.D If Null Internet routing is to be supported then an inactive area@ address must be configured for the circuit. The inactive areaB address for the circuit must be different to any area addresses@ used by DECnet-Plus routers on the same LAN. If more than oneB LAN Routing circuit is to be configured on this system and NullA Internet is required on each circuit, then each circuit should* have a different inactive area address.A The CLNS inactive area should be the same as the inactive area 8 set in routing, or else Null Internet cannot be used.+2 CONFIG_OSI_TEMPLATE_INBOUND_PACKETS_HELP 4 "Will this template be used for inbound packets?"F If you want to use this template for inbound packets enter YES. If@ you want to use this template for outbound packets, enter NO.$2 CONFIG_OSI_TEMPLATE_CONS_TEMPLATE "CONS template name?"F If the CONS template is being used for inbound or outbound packets,C the CONS template name should be the same as the name being used @ for the X.25 Access template, or else you will not be able to make any CONS connections.d7 Enter the name of the CONS template you want to use.s"2 CONFIG_OSI_TEMPLATE_CONS_FILTER "CONS filter name?"> If the CONS template is being used for inbound packets, you> will be prompted for the CONS filter name. The CONS filter> name should be the same as the name being used for the X.25? Access filter, or else you will not be able to make any CONSi connections.u5 Enter the name of the CONS filter you want to use.c-2 CONFIG_OSI_TEMPLATE_RFC1006_LOCALPORT_HELPy "Local RFC1006 port number?"tF Enter the outgoing port number to use when establishing a transport connection at the TCP level.o02 CONFIG_OSI_TEMPLATE_RFC1006_LISTENERPORT_HELP" "RFC1006 listener port number?"A If the RFC1006 template is being used for inbound packets, youAF will be prompted for the RFC1006 listener port number. This numberC should be the same as the Local RFC1006 port number, or else thel1 template will not be used for inbound traffic. D Enter the incoming port number used when establishing a transport= Specify the sink session control end user specification of> the sink associated with this outbound stream (for example, number=82). k2 Evd_obs_sink_address_help "Sink address?"B Specify the sink address tower of the sink associated with this outbound stream.a e2 Event_relay_helpp "Configure Phase IV Relay?"B Answer YES to use the Phase IV Relay. This allows you to recordB and process events that occur on an OpenVMS VAX systems runningC DECnet-VAX # Number Mnemonic Description$ 0 Task User program0 1-16 Reserved for Digital use@ 17 FAL File Access Listener for remote file and% record access= 18 HLD Host loader for RSX-11S downline task( loading requests: 19 NML Network Management Listener Object> 20 RSTS/E media transfer program (NETCPY)0 21-22 Reserved for Dig connection at the TCP level.b 2 EVD_helpt3 "Do you want to customize the Event Dispatcher?"e< Answer YES, if you want to customize the Event Dispatcher: configuration. Answer NO, if you want the default Event! Dispatcher configuration only.  t2 Applic_config_helpiC "Do you want to use a default account for the 'application name' application?"D The procedure creates the DECnet-Plus default application objectsA to include in the application database. You h ave the option of A creating default user accounts for the following applications:* FAL, CML, MAIL, VPM, MIRROR, and PHONE.A This prompt is displayed for the standard OpenVMS applicationsl, most commonly used. The applications are: o File Access Listener: File Access Listener (FAL) is an image that provides> authorized access to the file system of a DECnet node on= behalf of processes executing on any DECnet node in therA network. FAL communicates with the initiating node by means C of the Data Access Protocol (DAP). If you want an account set % up or used for FAL, answer YES.i o CMIP Management ListenerB CMIP Management Listener (CML) is the DECnet-Plus management> module that implements the Common Management InformationA Protocol (CMIP). It is a utility that enables the system toeC respond to remote management commands. If you want an account ) set up or used for CML, answer YES.n o MAIL> If you want to use the OpenVMS MAIL utility, answer YES.$ o VMScluster Performance MonitorA If the system is to be a member of a VMScluster, you shouldM? answer YES to this question. An account is needed for VPMA (VMScluster Performance Monitor) for your system to support.D the OpenVMS Monitor Utility command MONITOR CLUSTER. Answer NO6 if the system is to be a non-cluster end system. o MIRRORA MIRROR is used for particular forms of loopback testing. If ) you want to use MIRROR, answer YES.s o PHONEI= The PHONE utility allows users on the same or differentt@ OpenVMS systems to communicate interactively. Unlike MAIL,D where messages are received and held for your attention, PHONEA requires an immediate reply to a call (connection request). A The reply makes the connection and the interactive exchange@ of messages begins. If you intend to use the OpenVMS PHONE utility, answer YES. n2 Start_network_helpe& "Do you want to start the network?"< Enter YES if you want to proceed to start the network and0 complete your system's network configuration.@ If for some reason you want to postpone starting the network,> answer NO. However, answering NO will prevent completion of? your network configuration and you will have to perform somew= additional steps later when you are ready to complete youro< system's network configuration. Answering NO displays the  following message: G ********************************************************************g? You have decided not to start the network. NET$CONFIGURE.COM*? cannot complete your system's network configuration since it*@ needs the network to be partially started in order to performA certain operations. As a result, your system may be left in anp@ inconsistent state if you try to startup the network manually= or if you decide to reboot your system. Once you are readyn< to start the network, please invoke the NET$CONFIGURE.COMA procedure and choose menu option 2 (Change node name/namespacee< name) so that the configuration procedure can finish your> system's network configuration before starting the network.G ********************************************************************  Network Startup Incompletee e2 Config_basic_adv_help "Do you want to continue?"*B The two configuration options are BASIC and ADVANCED. Enter YESC if you want to continue with the particular configuration option B you have chosen. If you prefer at this time to choose the other? configuration option instead, enter NO and the configurationo procedure will exit.y p2 Config_option_helpo+ "Which configuration option to perform?",D Choose the option you want to perform. Selecting an option allows@ you to modify either the entire configuration or a particular portion.  i2 Satisfied_helpm6 "Do you want to generate NCL config uration scripts"D If you answer YES, the configuration program uses the information< you entered to generate modified NCL scripts and, in some> cases, automatically modify the system's configuration. The> configuration program then returns you to the configuration> options menu. If you answer NO, the configuration procedure= returns you to the configuration options menu and does notu% generate any modified NCL scripts.N t2 Applic_supercede_help% "Replace application script file?"i; If you want to create a new NCL script file, answer YES. 2 MOP_supercede_helpp$ "Replace MOP Client script file?"F If you want to create a new MOP Client NCL script file, answer YES. M2 Nodevice_help& "Should devices be autoconfigured?"7 If you answer YES, the NET$CONFIGURE procedure will a; autoconfigure to find the devices. On VAX, this is doneo< using the SYSGEN AUTOCONFIGURE ALL command. On an Alpha,= this is done using the SYSMAN IO AU TO command. If you are > performing the initial configuration of your system and you@ answer NO, then there will be no devices to configure. If youA are reconfiguring devices (that is, you selected Option 3 fromuB the NET$CONFIGURE main menu) and you answer NO, then there will6 be no devices to configure and the procedure exits. 3*2 Config_osi_template_replace_script_help< "Do you want to replace the existing NSP or OSI Transport script?"rC If you reconfigure the NSP < Specify the files to be loaded when the client requests a: diagnostic image during a downline load operation. File? identifications are interpreted according to the file system of the local system. 2 Mop_management_image_help( "Management Image for 'client name'?"< Specify the files to be loaded when the client requests a: management image during a downline load operation. File? identifications are interpreted according to the file system of the local systemor OSI Transport, you have the optionwB of accepting the existing transport script or replacing it withC a new one. Answer YES if you want to replace the existing NSP or  OSI transport script. a2 Event_supercede_helpi. "Replace Event Dispatcher NCL script file?"@ If you want to create a new Event Dispatcher NCL script file,A answer YES. If you want to keep the previously generated Event) Dispatcher NCL script file, answer NO.a e2 evd_see_block_events_help> "DiB Specify the address of the files to write to when the client is upline dumped. 2 Mop_verification_help$ "Verification for 'Client name'?"B Specify the verification string to be sent in a boot message to the specified client. 2 Mop_iv_client_address_help= "Phase IV Client Address (aa.nnnn) for 'mop client name'?"> Specify the Phase IV node address to be given to the client= system when it is loaded. This address is passed in a load? characteristics splay the events logged to the console of this machine?"F You have the option of displaying the events that are logged to theH console of this machine. If you do not want to see the events loggedF to the console of this machine, NET$CONFIGURE will block the events for you.iB Answer YES if you want to see the events that are logged to the@ console of this machine. If you do no want to see the eventsE logged to the console of this machine, answer NO and NET$CONFIGURE ! will block the events for you.o2 EVD_custom_config_sink_help# "Configure a (or another) Sink?"wD The first prompt displayed concerning sink configuration when you/ select menu option 6 is "Configure a Sink?".t> If you want to customize information pertinent to the sink,B answer YES (for example, the sink name and where you would like: to send the output: a terminal, a printer, or a file?).? After you have configured a sink, the procedure displays thel$ prompt "Configure another Sink?".= If you do not want to configure another sink, enter NO andn? proceed to the next prompt. If you want to configure another?? sink, enter YES. The procedure then returns you to the "Sinkn> name?" prompt and repeats the prompts required to configure another sink. Y2 Evd_sink_name_helpt "Sink name?"SB Specify the name of the sink you want to use for the local node (for example, local_sink).s _2 Event_sink_maxbuff_help "Maximum buffer size?"e? Specify the maximum number of octets that the sink allows ton' process events (for example, 16384).  a2 Evd_sink_object_name_help "Object name?"e; Specify the full DECdns name of the object for which thea> sink accepts incoming connections. Unless the value of this? characteristic is null, the sink employs the Session Control C layer's Keep me Here function to maintain the object name in the namespace.i s2 Evd_sink_end_user_helpe "End user specification?"C Specify the DNA session control local address for which the sink9 accepts incoming connections (for example, number=82).n !2 Evd_sink_catch_all_filter_helpl "Catch all filter action?"SD Specify the action to take if neither the specific filter setting@ nor the global filter setting matches an event or if a filterA setting that does match an event is set to Ignore. The choicesg are:t o BLOCK - Discard the event. o PASS - Report the event. 2 Event_sink_description_help "Description?" C Specify an informational string that can be used to describe thev sink. 2 Event_sink_displayuids_help "Display UIDs?"B Answering YES displays the entity's unique identifier, which is( generated when the entity is created. 2 Evd_sink_client_helps "Client type?" B Specify how the application is to accept the events received by the sink. The choices are:_9 o CONSOLE - Events go the operator's console (OPCOM).a% o DEVICE - Events go to a device.! o FILE - Events go to a file.o O2 Evd_sink_file_name_help "File name?")? Enter the file specification that you want to use to capture 4 events (for example, SYS$MANAGER:EVD_EVENTS.LOG). e2 Evd_sink_device_name_help "Device name?"u? Enter the device that you want to use to capture events (forV example, TWA1:).E s 2 Evd_custom_configure_obs_help/ "Configure an (or another) Outbound Stream?"t 68 The first prompt displayed concerning outbound stream? configuration when you select menu option 6 is "Configure anSB Outbound Stream?". If you want to configure an outbound stream, answer YES.> After you have configured an outbound stream, the procedure< displays the prompt "Configure another Outbound Stream?".D If you do not want to configure another outbound stream, enter NOC and proceed to the next prompt. If you want to configure anotherID outbound stream, enter L91 NET$CONFIGURE_Help7 NET$CONFIGURE.COM V3.0 - for DECnet-Plus for OpenVMS? Copyright 2003 Hewlett-Packard Development Company, L.P. h 2 DMU_helpn/ "Do you want to convert Phase IV databases?"nB If you answer YES to this question, the NET$CONFIGURE procedure? uses the system's existing Phase IV database to generate NCLdD scripts and configure the system. Depending on the content of theC database, NET$CONFIGURE will ask additional questions on some or  all of the following topics:s# o Node's full name and synonym.s o Node's time zone.r o OSI Transport.< o Any standard applications that are not in the existing$ database such as OpenVMS MAIL.A If you answer NO, the NET$CONFIGURE procedure does not use thexB system's existing Phase IV database to generate NCL scripts andA proceeds to ask all the configuration questions, starting withf your node full name.e N2 Convert_Node_Names_help< "Do you want to convert the Phase IV node name database?"B If you answer YES to this question, the NET$CONFIGURE procedureE uses the system's existing Phase IV node name database to generatemD a local name database. This file is used to translate node namesF if you include "LOCAL" in the list of directory services to be used on this system.H This will provide a flat naming space that is populated with the nodeA names from the existing Phase IV permanent database. This is yE unnecessary if you do not intend to include "LOCAL" in the list ofs0 directory services to be used on this system.2 Node_name_helph( "What is the full name of this node?"E The node full name is the name of your system's node object in thesF directory service. It includes the namespace nickname, and the fullC list of directories leading to the node object name. Examples ofn node full names include:o LOCAL:.TomThumb vbo:.afsg.comms.werners( XYZ_CORP:.sales.west_coast.WillyLoman< Europe:.Erin.County_Cork.Bantry.Glengarriff_Road.MACotter? The namespace nickname is terminated with a colon (:). If nonC namespace nickname is given or if the namespace nickname "LOCAL"hC is used, then the Local File is used. The node object name must E begin with a dot (.), and no element of the name (namespace name, E directory, or node object name) can be a null string. Please note aB that the namespace nickname "LOCAL" is reserved, and indicates 3 that the Local File will be used on this system.eJ Enter the node full name you want to use. DECnet-Plus node full names G should be planned carefully and must be unique within the directory IE service. If your network administrator has not assigned a unique nI node full name for your system, be sure that you read DECnet-Plus for tC OpenVMS Introduction, Planning, and Glossary before you do so. l@ This manual also contains guidelines for using the directory & services DECdns and the Local File.2 Node_synonym_help( "What is synonym name for this node?"? The node synonym is an alphanumeric character string betweena@ 1 and 6 characters long that contains at least one alphabetic? character. If this system had previously been running DECnetoB Phase IV software, then the old node name should be used as theD synonym. If this system is joining a DECnet network for the firstB time, any name can be used for the synonym, as long as it meets? the criteria listed above, and is unique within the network.e* Enter the node synonym you want to use. a2 PhaseIV_address_helps "Enter PhaseIV Address"B A DECnet-Plus system may or may not use a DECnet Phase IV styleB node address. A node address of 0.0 indicates that this system F will be communicating with DECnet-Plus nodes only. If your network B contains some systems running DECnet Phase IV, you may want to C specify a compatible address in order to communicate with them. fF If your network consists solely of DECnet-Plus and/or OSI systems,  this may not be required.> The DECnet Phase IV node address consists of an area numberA (between 1 and 63), and a node number within the area (between1 1 and 1023). A Enter the PhaseIV address you want to use, or enter 0.0 if youw3 want to communicate with DECnet-Plus nodes only. 2 Phaseiv_address_prefix_help "Enter Phase IV prefix"? Having chosen a Phase IV compatible address for this system,yB you may also specify a Phase IV Prefix, which together with theC node address forms the complete network address for this system.AC All nodes within a single addressing domain contain the same IDPiA in their network addresses. The default value of "49::" is the"D "private network" IDP, which is appropriate for a Phase IV DECnetA network that contains some DECnet-Plus systems. Please contacty@ your network manager if you are in doubt as to your network'sC Phase IV Prefix value, or indeed if you are unsure how to answert this question at all.A DECnet-Plus systems reference all network addresses (includingPC Phase IV addresses) using OSI NSAP address formats. The Phase IVpA prefix and the Phase IV node address are used to construct thecA complete NSAP address. All DECnet-Plus systems within a singler@ routing domain use this Phase IV prefix to form the Phase IV-C compatible NSAP address. This prefix consists of the OSI addressi? initial domain part (IDP) and possibly the preDSP portion oftD the domain specific part (DSP). DECnet-Plus for VMS Introduction,@ Planning, and Glossary contains more information about NSAPs.= The default value for the prefix is the number 49::, whichs= specifies that your system will be part of a private localnA network. This value is generally appropriate for networks thatw> will not be interconnected with other OSI networks. If your@ network is going to be connected with other OSI networks, you$ must enter a globally unique IDP.& NOTEB If you are using an IDP other than 49::, it must be assigned? by an authorized standards organization, such as ANSI, or > you must construct an IDP that you know will be globally< unique (based on your telephone number, for instance).> DECnet-Plus for VMS Introduction, Planning, and Glossary@ contains a detailed description of how to construct an IDP> and how to apply to a standards organization for an IDP.D If you are in doubt about which prefix value to use, contact your network manager. - Enter the Phase IV prefix you want to use. 2 cdi_dirsvc_help6 "Enter the directory services to use on the system"G You have the option of choosing the following directory services fory your system: E Local File (LOCAL) - A local namespace that uses flat naming. ) DECdns - A distributed namespace. 5 Domain - A naming service that uses DNS/BIND. K The Local file has the capability to hold 100,000 nodes, and it can evensL scale beyond that number. The actual number of nodes that the Local file: can hold depends on the space available on your system.C If you choose to enter more than one directory service for your sG system, the ordering of this list is *very important*, as the first dI directory service entered in this list will be considered the primary dB directory service to use on the system. The primary directory H service is considered the first choice to use when looking up naming  information for the system.E Enter an *ordered* list of the directory services you want to use oA on the system. If you enter more than one directory service, s separate them by commas. G For example, if you enter "DECdns,Local,Domain" at the prompt, this mH means that you want to use the directory services DECdns, Local, and A Domain, and that the primary directory service 2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}"( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen.E For the directory service Domain, you will enter a fully qualifiedG host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comJ For the directory services DECdns and Local file, you will enter a nodeJ full na2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}" ( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualified G host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comfJ For the directory services DECdns and Local file, you will enter a nodeJ full na2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}" ( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualified G host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comfJ For the directory services DECdns and Local file, you will enter a nodeJ full na2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}" ( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualified G host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comfJ For the directory services DECdns and Local file, you will enter a nodeJ full na2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}" ( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualified G host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comfJ For the directory services DECdns and Local file, you will enter a nodeJ full na2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}" ( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualified G host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comfJ For the directory services DECdns and Local file, you will enter a nodeJ full na2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}" ( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualified G host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comfJ For the directory services DECdns and Local file, you will enter a nodeJ full na2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}" ( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualified G host name. The fully qualified host name includes the host name and the domain name. For example:' Domain - smilee.lkg.dec.comfJ For the directory services DECdns and Local file, you will enter a nodeJ full nawill be DECdns. J If you are configuring a DECdns server for the first time, your primary! naming service must be DECdns. 2 cdi_fullname_help= "Enter the full name for directory service {DECDNS,LOCAL}""( "Enter the fully qualified host name"7 Enter a node name for each directory service chosen. E For the directory service Domain, you will enter a fully qualifiedhG host name. The fully qualified host name includes the host name andt the domain name. For example:' Domain - smilee.lkg.dec.com J For the directory services DECdns and Local file, you will enter a nodeJ full name. The node full name is the name of your system's node objectI in the directory service. It includes the namespace nickname, and thefI full list of directories leading to the node object name. Examples ofnL node full names for the directory services DECdns and Local file include:$ Local file - LOCAL:.TomThumb: DECdns - XYZ_CORP:.sales.west_coast.WillyLomanG For the Local file, the namespace nickname LOCAL is prepended to thefH full name and is terminated with a colon (:). The namespace nicknameH "LOCAL" means that the Local file is used. The node object name mustG begin with a dot (.), and no element of the name (namespace name,dJ directory, or node object name) can be a null string. Please note thatG the namespace nickname "LOCAL" is reserved, and indicates that theL* Local file will be used on this system.K The Local file has the capability to hold 100,000 nodes, and it can evensL scale beyond that number. The actual number of nodes that the Local file: can hold depends on the space available on your system.H Enter the node full name you want to use. DECnet-Plus node full namesF should be planned carefully and must be unique within the directoryD service. If your network administrator has not assigned a uniqueD node full name for your system, be sure that you read DECnet-PlusE for OpenVMS Introduction, Planning, and Glossary before you do so.TI This manual also contains guidelines for using the directory services D DECdns and the Local File.2 Node_synonym_directory_help "Node Synonym Directory" A If you have a large network and would like to use an alternatenD node synonym directory rather than using the default node synonym= directory of ".DNA_NodeSynonym", you may enter one at thispB prompt. The value for the alternate node synonym directory must? be a DECdns directory full name(for example: .USA_Synonyms). B If you have the logical DECNET_MIGRATE_DIR_SYNONYM defined, theA default value for the node synonym directory will be the valueyB you defined. If you do not have the logical DECNET_MIGRATE_DIR_< SYNONYM defined, the default value is ".DNA_NodeSynonym". "2 naming_cache_timeout_value_help "Naming cache timeout value?"E A CDI naming cache is used to improve the performance of nodename tF address resolution. This cache supersedes the DECdns cache and is H used when looking for addresses in the Domain and Local services, in E addition to DECdns. Note that other applications that use DECdns 1 directly continue to utilize the DECdns cache. H The CDI naming cache includes a mechanism to "timeout" old entries. G In this way, these entries are periodically refreshed to accurately c* reflect the actual network environment.J For example, say that node FOO has address 1234. After DECnet-Plus hasL looked up node FOO, it will store this address in its cache. If node FOOG were to change it address to 2345, the following events would occur:oA - DECnet-Plus would retrieve address 1234 from the cache.a= - a connection attempt would be made to address 1234.uK - if the connection failed, DECnet-Plus would automatically look up I the address again, bypassing the naming cache. This new lookupmA would find address 2345, update the cache, and connect d successfully.tH However, if address 1234 had been reassigned to another node BAR, the following would occur:eA - DECnet-Plus would retrieve address 1234 from the cache.a= - a connection attempt would be made to address 1234.uE - the connection would succeed - DECnet-Plus cannot tell thatD- it has connected to the wrong node.cL To prevent this scenario, network administrators should not reassign nodeI addresses until the naming cache timeout period has passed. This willeE allow these addresses to be automatically flushed from the caches.lL You have the option to set a value for the naming cache timeout interval.E Enter any legal OpenVMS delta time value (the default is 30 days).u(2 naming_cache_checkpoint_interval_help& "Naming cache checkpoint interval?"E A CDI naming cache is used to improve the performance of nodename mF address resolution. This cache supersedes the DECdns cache and is H used when looking for addresses in the Domain and Local services, in E addition to DECdns. Note that other applications that use DECdns d1 directly continue to utilize the DECdns cache. L Periodically, DECnet-Plus saves a snapshot of the in-memory naming cache I to disk. This allows systems, during startup, to have a naming cache I that is already populated with entries. In other words, the contents a; of the naming cache are preserved across system reboots.tK The frequency of this checkpoint operation can be changed. For example,fJ $ MCR NCL Set Session Control Naming Cache Checkpoint Interval 12:00:00+ changes this interval to every 12 hours.oG You have the option of setting the naming cache checkpoint interval. E Enter any legal OpenVMS delta time value (the default is 8 hours).'2 Autoconfigure_network_addresses_helpt# "Autoconfigure network address?"c? Your system must have at least one unique network address in?@ order to use DECnet-Plus communications features. DECnet-PlusB systems can be multihomed, that is, they can have more than one+ network address, but no more than three.e? If you answer YES to this prompt, the procedure supplies onee network address for you. A This method is the easiest way to configure a network address,p@ or Network Entity Title (NET), for your system. If you have aC WANrouter adjacent to your system (on the same LAN or connected a= to your system by a point-to-point link), the router will e, configure your network addresses for you.& NOTEC Do not choose autoconfiguration unless you know that the OSI F router adjacent to your system uses NETs with a selector of 00. C This restriction applies even if you have a WANrouter on the D LAN. OSI routers that specify NETs differently can cause you B to autoconfigure your network addresses incorrectly. If you E have such a router, you must choose to manually configure your = NETs by answering NO to the autoconfiguration question. > If you answer NO to the autoconfiguration question, you canB manually enter multiple addresses for your system. Your network; manager can supply them to you or you can construct themgA yourself. Having multiple addresses allows your system to haveqD both an OSI address and a Phase IV-compatible address, so you canE communicate with both Phase IV and DECnet-Plus systems on the sametA network. It also allows your system to belong to more than onehD OSI network. This feature is particularly useful when you want toC combine two (or more) networks. Rather than have all the systemseC in both networks get new addresses that reflect the new combined C network, those systems that need to participate in both networksn# can have an address in each one.kB If you choose not to autoconfigure your network addresses (alsoA known as Network Entity Titles [NETs]), the procedure displayst the following prompt:( * Enter Manual Network Entity Titles? e2 Manual_net_help( "Enter Manual Network Entity Titles?"B You can assign a maximum of three network addresses to a system? including the Phase IV address (if you assigned one). If youiB entered a Phase IV address and a Phase IV prefix in response toD the previous prompts, the Phase IV NET is automatically generated and assigned for you.? If you know which NETs to use, enter them at this prompt. IfaB you are entering more than one NET, separate them with a comma.B You can obtain them from your network manager or construct them yourself.D To create an NET manually, you need to know your system's Network( IDP, network local area, and Node ID.0 For example, given the following information: A network IDP of 41:45436192: A network local area of 43  A node ID of 258d% The NET is constructed as follows:e: IDP and sD If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECnetB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. 2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?"B Specifyelector = 41:45436192:local-area:node-id:007 43 decimal = 2B hexadecimal (local area)& (43 * 1024) + 258 = 44290 decimal* 44290 decimal = AD02 hexadecimal4 AD02 swapped = 02AD hexadecimal (node ID)> The resulting NET is 41:45436192:00-2B:AA-00-04-00-02-AD:00& NOTE> NETs must be entered in DNA format, which uses colons to= separate fields and dashes to separate pairs of digits.TB Make sure that youD If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECneteB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. e2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?" B Specify include the 00 selector when you manually specify a NET. 2 dna_address_format_help "DNA Address Format?"I You have the option of setting the value of the Routing characteristicsJ "DNA Address Format" to either TRUE or FALSE. Answering YES indicatesJ that NSAP addresses are DNA structured. Enter TRUE if you want to set " the DNA Address Format to TRUE.2 Async_support_help / "Do you want Asynchronous datalink support?"AB If you have installed and conD If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECneteB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. e2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?" B Specifyfigured the VAX WAN Device DriversD software on this system, you have the option of configuring it to$ support asynchronous connections.B Support for asynchronous connections is provided by the VAX WAN@ device driver software. This software gives you the option ofA connecting your OpenVMS system to another system by means of aoB low-cost, low-speed asynchronous line. Asynchronous connections? are implemented in software and can be run over any directlyt@ connected terminal liD If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECneteB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. e2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?" B Specifyne that the OpenVMS system supports. The> asynchronous protocol provides for a full-duplex connection@ and can be used for remote asynchronous communications over a telephone line using a modem.& NOTE@ Asynchronous connections are not supported for maintenance4 operations or for controller loopback testing.B Normally, the OpenVMS operating system controls lines connected@ to terminal ports, as in interactive login. You can, however,CD If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECneteB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. e2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?" B Specify switch the line so that the DECnet-Plus for OpenVMS software can A use the line for an asynchronous connection to another system.sE Refer to the DECnet-Plus Network Management manual for informationeC on the OpenVMS DCL SET TERMINAL commands used to switch terminal  lines to DECnet lines.nB You can establish two types of asynchronous DECnet connections:A o A static asynchronous connection, which creates a permanent B DECnet link to a single remote node. Two nodes are cD If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECneteB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. e2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?" B Specifyonnected? by either a dialup line or by a physical line attached too? a terminal port at each end. Before the DECnet connectione= is made, the terminal lines must be converted to staticn asynchronous DDCMP lines.eC o A dynamic asynchronous connection, which provides a temporaryr? DECnet link. This type of line is usually switched on fort> network use only for the duration of a dialup connection@ between two nodes. When the telephone is disconnected, theD If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECneteB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. e2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?" B Specify= line reverts to being a terminal line. The advantage ofa? this type of connection is that you can use a single lineaC to establish dynamic connections to different remote nodes ats different times.D Also, when creating a dynamic asynchronous connection, you areA given the option of creating an explicit dynamic connectionhA or a floating dynamic connection. The difference is that an A explicit line is tied to a specific terminal device while ao@ D If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECneteB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. e2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?" B Specify floating line is not. When using a dynamic connection, youC can have the terminal line switched automatically to a DECneti0 line, or you can switch the line manually.@ If you answer YES, the procedure asks the following question:3 * Do you want to configure static lines? [YES] :  e2 Async_static_help+ "Do you want to configure static lines?"hD If you want to establish a static asynchronous connection, answerC YES. A static asynchronous connection creates a permanent DECnetB link to a single remote node. Two nodes are connected by eitherB a dialup line or by a physical line attached to a terminal portB at each end. Before the DECnet connection is made, the terminal> lines must be converted to static asynchronous DDCMP lines. d2 Async_static_lines_help/ "Terminal device name(s) (ex:TXA0,TXA2...)?"B Specify the device name of the terminal port to be used for the permanent DECnet link.  t2 Async_dynamic_helpe, "Do you want to configure dynamic lines?"> If you want to establish a dynamic asynchronous connection,; answer YES. A dynamic asynchronous connection provides aCA temporary DECnet link. A dynamic asynchronous line is normallyu@ switched on for network use only for the duration of a dialup? connection between two nodes. When the telephone is hung up,iC the line reverts to being a terminal line. The advantage of this D type of connection is that you can use a single line to establishD dynamic connections to different remote nodes at different times. l 2 Async_support_more_lines_help4 "Do you want to configure any more Asynch lines?"D If you want to establish lines for more asynchronous connections,; answer YES. If you answer YES, the procedure repeats they< questions regarding configuring static and dynamic lines. 2 Async_static_lines_yn_helpt3 "Do you want to continue configuring this line?"C This prompt is displayed if you failed to specify an appropriateo> terminal device name at the previous prompt. If you want toD terminate the configuration of a static asynchronous line, answer NO. 2 Async_dynamic_setup_helpy5 "Do you want to configure explicit dynamic lines?"eA If you want to configure a terminal port for use as a switchedu@ DECnet link so that explicit Dynamic connections can be made, answer YES. l2 Async_dynamic_lines_helpe0 "Terminal device name(s) (ex:TXA0,TXA2... )?"> Specify the device name of terminal port to be used for the dynamic DECnet link.n i2 Async_dynamic_lines_yn_help3 "Do you want to continue Configuring this line?"cC This prompt is displayed if you failed to specify an appropriatel> terminal device name at the previous prompt. If you want to? terminate the configuration of an dynamic asynchronous line, answer NO. T/2 Async_floating_lines_number_modem_lines_help B "Number of floating 'line speed' bps 'modem control type' modem ctrl lines?"i@ This is the maximum number of terminal ports that can be usedB as dynamically allocated full modem control asynchronous DECnet? links. It should not exceed the number of available terminalc ports.a 2 Async_floating_lines_yn_helpr5 "Do you want to configure floating dynamic lines?"eC If you want to configure a terminal port that can be dynamicallyd> allocated for use as a switched DECnet link so that Dynamic' connections can be made, answer YES.o n+2 Async_floating_lines_configure_more_helpa6 "Do you want to configure any more floating lines?"< If you want to configure more floating lines, answer YES. 2 Async_line_speed_help+ "Line speed for 'terminal device name'?"f9 Specify the line speed in Bits per Second at which thei: asynchronous link will run (for example, 2400 or 9600). a2 Async_modem_control_help_/ "Will this line require full modem control?"aA If you want the full DEC Standard 52 Modem control to be used, answer YES. k2 Data_link_protocol_help7 "Data Link protocol for 'datalink name' ('device')?"iB Specify either HDLC, DDCMP, or NONE for the point-to-point data' link protocol. The default is DDCMP.aC o DDCMP (Digital Data Communications Message Protocol) providesrD synchronous point-to-point connections and asynchronous static, or dynamic point-to-point connections.B o HDLC (High-Level Data Link Control protocol) conforms to theC ISO standards. HDLC provides synchronous point-to-point linkst1 that function like DDCMP synchronous links.t? o Enter NONE if either of the following statements is true.p7 - You do not want to run DECnet over this devices, - You are using X.25 over this device t2 Data_link_name_help( "Data Link name to use for 'device'?"@ This prompt allows you to specify a data link name for one ofA the following data links depending on the type of device being = configured. If you do not want this device configured for  DECnet-Plus, enter NONE.m o CSMACD o DDCMP o HDLC= Ethernet devices can only be configured to run over CSMACDc? datalinks. Synchronous devices can be configured to run overd< DDCMP or HDLC datalinks. Asynchronous devices can only be* configured to run over DDCMP datalinks.D Specify the simple-name that you want to use for the data link or= accept the system-supplied default. HP recommends that you B take the default name even if you configure multiple data links of the same type. e!2 fddi_large_packet_support_help  "FDDI Large Packet Support"E If an FDDI-type circuit has been found on the system, you have the C option of enabling FDDI large packet support. FDDI large packet= support allows you to fully utilize the bandwidth of FDDI. G If you choose not to enable FDDI large packet support on the system,v> the FDDI circuit will use the bandwidth of CSMA-CD instead.D Note that a Phase V router on the LAN (preferably on the FDDI) is= required in order to enable the FDDI large packet support.t2 segregated_mode_routing_help  "Segregated Mode Routing"C If you are using the ADVANCED configuration, you have the option > of using segregated mode routing or integrated mode routing, (integrated mode routing is the default).6 Segregated mode routing works in the following way:F A special check is made on the packet to determine if the packet isJ Phase IV translatable. If the packet is Phase IV translatable, it willJ translate the packet. It will then send the translated Phase IV packetJ (or the Phase V packet if it couldn't be translated) to the appropriateG router if the Phase IV or Phase V router is present. If no suitablesI router is present, then the packet is sent directly to the destinationtH end system. (Essentially, Phase IV compatible packets are routed viaI the Phase IV backbone, and extended address packets are routed via thee Phase V backbone.)p6 Integrated mode routing works in the following way:F If a Phase V router is present, then the packet will be sent to it.C If a Phase V router is not present, then a check will be made toV2 determine if the packet is Phase IV compatible.F If the packet is Phase IV compatible then it will check to see if aG Phase IV router is present and if it is then the packet will be sent G to the Phase IV router. If there is no Phase IV router present then I the packet will be sent directly in Phase IV format to the destinationaA end system and multicast to all end systems in Phase V format.G If the packet is not Phase IV compatible and a Phase V router is not C present, then the packet will be multicast to all end systems ino Phase V format.2 integrated_mode_routing_helph "Integrated Mode Routing"C If you are using the ADVANCED configuration, you have the optiont> of using segregated mode routing or integrated mode routing, (integrated mode routing is the default).6 Integrated mode routing works in the following way:F If a Phase V router is present, then the packet will be sent to it.C If a Phase V router is not present, then a check will be made tos2 determine if the packet is Phase IV compatible.F If the packet is Phase IV compatible then it will check to see if aG Phase IV router is present and if it is then the packet will be sent G to the Phase IV router. If there is no Phase IV router present then I the packet will be sent directly in Phase IV format to the destinationaA end system and multicast to all end systems in Phase V format.G If the packet is not Phase IV compatible and a Phase V router is not C present, then the packet will be multicast to all end systems ino Phase V format.2 Routing_circuit_name_help/ "Routing Circuit Name for Data Link 'type'?" ? Specify the simple-name that you want to use for the routingc? circuit or accept the system-supplied default. HP recommends@ that you take the default name even if you configure multiple lines of the same type.A If you decide not to accept the default response, keep in mindoA that the name you specify for the data link should reflect theoC type of routing circuit you are configuring. The following typesh may be configured:o o CSMACDD Carrier Sense, Multiple Access with Collision Detect (CSMA/CD)A protocol is the data link protocol used by Ethernet and ISOy( 8802-3 local area networks (LANs). o DDCMPg= Digital Data Communications Message Protocol (DDCMP) ist> the data link protocol use by wide area networks (WANs).< It supports synchronous point-to-point connections and@ asynchronous static or dynamic point-to-point connections.D DECnet software can use this protocol to make connections over WANs.s o HDLCB High-level Data Link Control (HDLC) is an ISO, bit-oriented,? Data Link layer (OSI layer 2) protocol that operates overt? synchronous, switched or unswitched communications links.AD DECnet software can use this protocol to make connections over WANs.n ,2 X25_configure_yes_no_help/ "Do you want to configure DECnet over X.25?"nA If you want to configure DECnet over X.25 (data link mapping),w; answer YES. This question will only be asked if the X.25sD software (or the VAX P.S.I. software) is installed on the system.2 X25_Routing_circuit_helpt3 "Which type of X.25 circuit do you want to use?"C This prompt allows you to select the type of routing circuit your7 want to use over X.25. The menu offers four choices:.< o A dynamically assigned Routing circuit (menu option 1)> operates over a number of X.25 switched virtual circuits) (SVCs); both incoming and outgoing. @ o A static incoming Routing circuit (menu option 2) operatesA over a single incoming X.25 switched virtual circuit (SVC). @ o A static outgoing Routing circuit (menu option 3) operatesA over a single outgoing X.25 switched virtual circuit (SVC).p? o A Permanent Routing circuit (menu option 4) simply uses al8 Permanent Virtual Circuit (PVC) instead of an SVC. m 2 X25_routing_circuit_name_help! "Routing Circuit Name to use?"u? Specify the simple-name that you want to use for the routingnA circuit. You can use the default or you can supply a name (forf example, X25-0).5 u2 X25_template_name_helpo "Template name?" ? Specify the simple-name of an X25 Access template. A defaulto@ name is provided or you may enter your own name (for example, X25-DA-1).aA All X.25 Routing circuits use an X25 Access template to either5' make or accept a network connection.A= For a static outgoing circuit the X25 Access template musty@ specify DTE class, destination DTE address and call data. TheB X25 Access template may also specify other call characteristics+ to make the outbound network connection.i@ For a static incoming Routing circuit the X25 Access templateA may specify call characteristics to accept the inbound networka connection.A For a dynamic assigned Routing circuit the X25 Access templateD must specify DTE class and call data. The X25 Access template mayB also specify other call characteristics to make the outbound or* accept the inbound network connections.6 X25 Access templates are configured using the X.25  configuration program.X A2 X25_filter_name_help  "Filter name?"c: If you chose to configure an X.25 Dynamic Assigned (DA)? circuit or an X.25 Static Incoming (IN) circuit, this promptiA is displayed. Specify the simple-name of an X25 Access filter.hA You may accept the default or you may enter your own name (forn example, X25-IN-0).D Static incoming and dynamically assigned X.25 circuits use an X258 Access filter to receive inbound network connections.C For a static incoming circuit the X25 Access filter must specifyeC inbound DTE class, sending DTE address, call data value and call5 data mask.nD For a dynamic assigned circuit the X25 Access filter must specify9 inbound DTE class, call data value and call data mask.f4 X25 Access filters are configured using the X.25  configuration program.a 2 X25_reachable_address_yn_help6 "Do you want to configure any reachable addresses?"C If you chose to configure an X.25 Dynamic Assigned (DA) circuit,oC this prompt is displayed. If you want to configure any ReachableaD Address sub-entities, answer YES. If you answer NO, the procedureB skips to the prompt "Configure another X.25 routing circuit for DECnet?". t"2 X25_reachable_address_name_help "Reachable address name?"C Specify the simple-name of the reachable address sub-entity thats3 you want to create (for example, ACCOUNTS_DEPT).r t$2 X25_reachable_address_prefix_help "Reachable address prefix?"> The reachable address sub-entity name is used to select the< remote DTE address to where a routing packet is sent. TheC selection is done by finding a reachable address sub-entity thatcA has an address prefix that matches the beginning of the remotei NSAP in the routing packet.@ Specify the address prefix for this reachable address entity.? The address prefix is a string of characters that is a validd@ beginning of an NSAP (for example, 41:45436192:). The address prefix will match all NSAPs.y e&2 X25_reachable_address_dte_list_help "Reachable address dte list?"> The reachable address sub-entity name is used to select theD remote DTE address to where a routing packet is sent. A reachable< address sub-entity may be configured with one or more DTEB addresses. If more than one DTE address is configured then onlyA one is selected each time a packet is sent. All the! 1. CLNS with Internet/ES-ISn@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the samel> subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols,IC which route packets from the end system to an intermediatefD system on the same subnetwork. The intermediate syste remote DTEeB addresses must be accessible by the DTE class configured in theD X25 Access template already configured for the associated dynamic assigned circuit.> Specify the list of remote DTE addresses for this reachable< address entity. A DTE address consists of 1 to 15 decimal@ characters. The DTE addresses in the list should be separated" by commas (for example, 2,3,4). y#2 X25_reachable_address_again_helph8 "Any more reachable addresses you want to configure?"? Enter the number of the transport protocol class you want ton? use for this template. DECnet/OSI for OpenVMS supports threemA transport protocol classes: 0, 2, and 4. If you select CONS asl@ the network service type, the default is 0,2,4. If you select? CLNS, the default is 4. If you select RFC1006 as the network A service type, the default is 0,4. However, you can configure a multiple OSI templates.B The features of the transport service provided by each of these# proD If you want to configure another reachable address sub-entity for this circuit, answer YES. m2 X25_configure_another_helpb7 "Configure another X.25 routing circuit for DECnet?"y@ If you want to configure another X.25 routing circuit, answer> YES. If you answer YES, the procedure repeats the questions6 regarding configuring another X.25 routing circuit. r2 Transport_NSP_help?! "Configure the NSP Transport?"nD If you want the system to communicate with DECnet! 1. CLNS with Internet/ES-ISm@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the same > subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols,oC which route packets from the end system to an intermediateeD system on the same subnetwork. The intermediate syste Phase IV nodes, answer YES. e2 Transport_OSI_helpi4 "Configure the OSI Transport or run over TCP/IP?"G Answer YES if you want the system to communicate with Phase V nodes,eG you want to run DECnet and/or OSI applications over TCP/IP (RFC1859 aH and/or RFC1006), or if you plan to install any OSI applications such  as OSAK, FTAM, or VT.& NOTEB If you answer NO to this question, the procedure still loads> the OSI transport images. However, OSI Transport is notA configured or usable until either you run the NET$CONFIGURE ? procedure and answer YES to the OSI Transport question ore5 you create an NCL script for OSI Transport use.  e2 No_transport_help "Are you sure?"> If this question is asked, it means that you elected not to? configure both the NSP Transport and the OSI Transport. Thisa@ is not recommended. If you plan to run over TCP/IP, then at . least the OSI Transport must ! 1. CLNS with Internet/ES-ISm@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the same > subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols,oC which route packets from the end system to an intermediateeD system on the same subnetwork. The intermediate systebe configured.D If you are sure that you do not want either transport configured,B answer YES. If you want to change your decision, answer NO. TheA procedure will then repeat the NSP Transport and OSI TransportaA questions, thus allowing you to select one or both transports.p 2 Config_multi_protocol_network: "Is this system operating in a multi-protocol network?" A One feature of Transport is the ability to use the "Congestion B Experienced" field in the ConnectionLess Network Service (CLNS)F routing header, and to implement a "Congestion Avoidance" scheme inG heavily congested networks. The CLNS Congestion Experienced field isaH used by routers that support this feature (such as DECnis) to give anD early indication of congestion. When Transport receives data thatG passed through a network path where the "Congestion Experienced" bitdH is set, Transport reduces the transmit rate of the sending end system( to help alieviate network congestion.! 1. CLNS with Internet/ES-ISm@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the same > subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols,oC which route packets from the end system to an intermediateeD system on the same subnetwork. The intermediate systeH While this feature works well in networks where all network protocolsG support "Congestion Avoidance" mechanisms, it has been noted that ineC some heavily congested multi- protocol networks this feature can"E negatively impact the performance of DECnet-Plus compared to othere protocols. B Therefore, HP recommends that Transport Congestion Avoidance beG disabled when using DECnet-Plus in heavily congested, multi-protocol,B networks, if other network protocols do not implement a similar mechanism.g? Answering "Yes" to this question will disable the congestion  avoidance algorithm.o&2 Config_nsp_pt_to_pt_line_speed_help@ "Are the point-to-point lines utilizing line speeds less than 9600BPS?"B This question will only be asked if you have any point-to-point= lines (that is, any synchronous and/or asynchronous lines)" configured.B If you have any point-to-point lines running at low line speeds> (that is, lower than 9600 bps), ans! 1. CLNS with Internet/ES-ISm@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the same > subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols,oC which route packets from the end system to an intermediateeD system on the same subnetwork. The intermediate systewer YES. This will place@ additional NSP NCL commands into the NSP Transport NCL script? in order to accommodate the lower line speeds. If you do notaC have any point-to-point lines being utilized at low line speeds, answer NO.a m!2 Config_OSI_ivp_applic_usernamed7 "Username for OSI loopback test application to use?"tC Press Return to accept the default user name for the applicationnA loopback test account. A message will be displayed to indicate 4 that the default OSI templates have been created. l'2 Config_OSI_template_create_more_helpg4 "Do you want to create additional OSI templates?"B If you configure the OSI Transport, the NET$CONFIGURE procedureD automatically creates the default OSI templates that are required@ by the OSAK and FTAM installation and verification proceduresB (IVPs) to perform loopback testing. However, if you plan to useA OSI applications to make connections to other OSI systems, youB must create OSI templates i! 1. CLNS with Internet/ES-ISm@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the same > subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols,oC which route packets from the end system to an intermediateeD system on the same subnetwork. The intermediate systen addition to those that are created> by default. The default OSI templates are used for loopback? testing only and cannot be used to make connections to othere> OSI systems. Answer YES to create additional OSI templates. k 2 Config_OSI_template_name_help "Name of the template?"D Press Return to accept the default OSI template name (do not type "Return")D Enter the name you want to use for the OSI template (for example,< OSI_TEMPLATE_1) or press Return to accept the default OSI( template name (do not type "Return"). '2 Config_OSI_template_net_service_help_1 "Type of network service (CLNS/CONS/RFC1006)?"mB If you want to use Connectionless Network Service (CLNS), enter? CLNS. If you want to use Connection Oriented Network ServiceB (CONS), enter CONS. If you want to use RFC1006, enter RFC1006. o CLNS NETWORK SERVICEA There are two forms of the CLNS network service. Both formsw< support only one class of transport prot ocol: class 4.! 1. CLNS with Internet/ES-ISe@ Any transport connection can use CLNS with Internet/ES-= IS. The communicating end systems may be on the sameI> subnetwork, or on different subnetworks. This networkD service is provided by the implementation of the ES-IS (endC system to intermediate system) Internet routing protocols, C which route packets from the end system to an intermediate D system on the same subnetwork. The in termediate system willC ensure that packets reach their final destination. Two end @ systems that implement ES-IS on the same subnetwork may@ communicate without an intervening intermediate system. 2. CLNS with Null InternetD A transport connection may use CLNS with Null Internet onlyA when the two end systems are on the same 802.3 LAN. This B network service is provided by the inactive subset of theA Internet protocol. No inter mediate system is involved in the network connection. o CONS NETWORK SERVICE= A transport connection can use CONS when the underlyingdD network connection is an X.25 connection. This type of networkF service is provided by the X.25 software in the DECnet-Plus for  OpenVMS product.< CONS supports transport connections using any class ofA transport protocol (that is, class 0, class 2, or class 4).c4 The underlying X.25 network connection  can be:D - A connection between two systems attached to an X.25 PacketA Switching Data Network (PSDN), either directly or via an  X.25 gatewaywC - A point-to-point connection using the LAPB protocol as thew data link protocolrA - A direct connection between two systems on the same IEEEi+ 802.3 LAN, using the LLC2 protocoldL In each of these cases the two end systems are on the same subnetwork. o RFC1006 NETWORK SERVICEn A The network service type RFC1006 tells the OSI transport toeE run over the TCP/IP protocol stack. The network service type is - specified in an OSI Transport template.IC When using DECnet applications over RFC1006 the OSI transporte? template osit$rfc1006 is used for the inbound connection.= For outbound connections, the default template is used.p #2 Config_OSI_template_classes_help " "Transport Classes to support?"? Enter the number of the transport protocol class you want ton@ use for this template. DECnet-Plus for OpenVMS supports threeA transport protocol classes: 0, 2, and 4. If you select CONS asN@ the network service type, the default is 0,2,4. If you select? CLNS, the default is 4. If you select RFC1006 as the networkaA service type, the default is 0,4. However, you can configure t multiple OSI templates.B The features of the transport service provided by each of these# protocol classes are as follows: o Class 0eC Class 0 is the most basic type of transport service, in whichf@ there is no flow control, multiplexing, or error recovery. o Class 2t? A class 2 transport service provides all the functions ofn@ a class 0 service, and also provides multiplexing and flowB control. The OSI Transport Service software always uses flow> control measures on class 2 connections, even though the? transport protocol standard defines this feature as being  optional within class 2. o Class 4nA A class 4 transport service provides all the functions of aaD class 2 service and, in addition, provides error detection and recovery.n r#2 Config_OSI_template_X25_template  "X25 template name?" 0 Enter the X.25 template name you want to use. e"2 Config_OSI_template_x_data_help! "Allow use of expedited data?"m@ If you want to support the use of expedited data, answer YES. i%2 Config_OSI_template_checksums_help  "Allow use of Checksums?"? If you want to use the error correction feature, answer YES.  n'2 Config_OSI_template_routing_protocol $ "Use Full CLNP or Null Internet?"B A CLNS OSI Transport template can specify use of Internet/ES-IS@ routing protocols or Null Internet routing protocol. The Null= Internet protocol only operates over LAN Routing circuits.ED A CLNS OSI Transport template for use with Internet/ES-IS routingA protocols may use any Routing circuits configured; the Routing < module will determine the most suitable circuit to use. AA CLNS OSI Transport template for use with Null Internet routingtD protocol can only use one Routing circuit; the Routing circuit is/ selected based on its inactive area address.t e+2 Config_OSI_template_routing_circuit_nameg> "Which routing circuit is this Null Internet template for?"= Enter the routing circuit you want to use for the CLNS OSInD Transport template (for use with Null Internet routing protocol). )2 Config_OSI_template_inactive_area_helpr% "Which CLNS Inactive Area to use?"fD A CLNS OSI Transport template specifying use of the Null InternetC routing protocol selects the Routing circuit to be used based onA4 the inactive area address of the Routing circuit.D If Null Internet routing is to be supported then an inactive area@ address must be configured for the circuit. The inactive areaB address for the circuit must be different to any area addresses@ used by DECnet-Plus routers on the same LAN. If more than oneB LAN Routing circuit is to be configured on this system and NullA Internet is required on each circuit, then each circuit should* have a different inactive area address.A The CLNS inactive area should be the same as the inactive area 8 set in routing, or else Null Internet cannot be used.+2 CONFIG_OSI_TEMPLATE_INBOUND_PACKETS_HELP 4 "Will this template be used for inbound packets?"F If you want to use this template for inbound packets enter YES. If@ you want to use this template for outbound packets, enter NO.$2 CONFIG_OSI_TEMPLATE_CONS_TEMPLATE "CONS template name?"F If the CONS template is being used for inbound or outbound packets,C the CONS template name should be the same as the name being used @ for the X.25 Access template, or else you will not be able to make any CONS connections.d7 Enter the name of the CONS template you want to use.s"2 CONFIG_OSI_TEMPLATE_CONS_FILTER "CONS filter name?"> If the CONS template is being used for inbound packets, you> will be prompted for the CONS filter name. The CONS filter> name should be the same as the name being used for the X.25? Access filter, or else you will not be able to make any CONSi connections.u5 Enter the name of the CONS filter you want to use.c-2 CONFIG_OSI_TEMPLATE_RFC1006_LOCALPORT_HELPy "Local RFC1006 port number?"tF Enter the outgoing port number to use when establishing a transport connection at the TCP level.o02 CONFIG_OSI_TEMPLATE_RFC1006_LISTENERPORT_HELP" "RFC1006 listener port number?"A If the RFC1006 template is being used for inbound packets, youAF will be prompted for the RFC1006 listener port number. This numberC should be the same as the Local RFC1006 port number, or else thel1 template will not be used for inbound traffic. D Enter the incoming port number used when establishing a transport connection at the TCP level.b 2 EVD_helpt3 "Do you want to customize the Event Dispatcher?"e< Answer YES, if you want to customize the Event Dispatcher: configuration. Answer NO, if you want the default Event! Dispatcher configuration only.  t2 Applic_config_helpiC "Do you want to use a default account for the 'application name' application?"D The procedure creates the DECnet-Plus default application objectsA to include in the application database. You have the option of A creating default user accounts for the following applications:* FAL, CML, MAIL, VPM, MIRROR, and PHONE.A This prompt is displayed for the standard OpenVMS applicationsl, most commonly used. The applications are: o File Access Listener: File Access Listener (FAL) is an image that provides> authorized access to the file system of a DECnet node on= behalf of processes executing on any DECnet node in therA network. FAL communicates with the initiating node by means C of the Data Access Protocol (DAP). If you want an account set % up or used for FAL, answer YES.i o CMIP Management ListenerB CMIP Management Listener (CML) is the DECnet-Plus management> module that implements the Common Management InformationA Protocol (CMIP). It is a utility that enables the system toeC respond to remote management commands. If you want an account ) set up or used for CML, answer YES.n o MAIL> If you want to use the OpenVMS MAIL utility, answer YES.$ o VMScluster Performance MonitorA If the system is to be a member of a VMScluster, you shouldM? answer YES to this question. An account is needed for VPMA (VMScluster Performance Monitor) for your system to support.D the OpenVMS Monitor Utility command MONITOR CLUSTER. Answer NO6 if the system is to be a non-cluster end system. o MIRRORA MIRROR is used for particular forms of loopback = Specify the sink session control end user specification ofa> the sink associated with this outbound stream (for example, number=82). a2 Evd_obs_sink_address_help "Sink address?"B Specify the sink address tower of the sink associated with this outbound stream.d i2 Event_relay_helpb "Configure Phase IV Relay?"B Answer YES to use the Phase IV Relay. This allows you to recordB and process events that occur on an OpenVMS VAX systems runningC DECnet-VAX testing. If ) you want to use MIRROR, answer YES.s o PHONEI= The PHONE utility allows users on the same or differentt@ OpenVMS systems to communicate interactively. Unlike MAIL,D where messages are received and held for your attention, PHONEA requires an immediate reply to a call (connection request). A The reply makes the connection and the interactive exchange@ of messages begins. If you intend to use the OpenVMS PHONE utility, answer YES. n2 Start_network_helpe& "Do you want to start the network?"< Enter YES if you want to proceed to start the network and0 complete your system's network configuration.@ If for some reason you want to postpone starting the network,> answer NO. However, answering NO will prevent completion of? your network configuration and you will have to perform somew= additional steps later when you are ready to complete youro< system's network configuration. Answering NO displays the following message: G ********************************************************************g? You have decided not to start the network. NET$CONFIGURE.COM*? cannot complete your system's network configuration since it*@ needs the network to be partially started in order to performA certain operations. As a result, your system may be left in anp@ inconsistent state if you try to startup the network manually= or if you decide to reboot your system. Once you are readyn< to st art the network, please invoke the NET$CONFIGURE.COMA procedure and choose menu option 2 (Change node name/namespacee< name) so that the configuration procedure can finish your> system's network configuration before starting the network.G ********************************************************************  Network Startup Incompletee e2 Config_basic_adv_help "Do you want to continue?"*B The two configuration options are BASIC and ADVANCED. Enter YESC if you want t!o continue with the particular configuration option B you have chosen. If you prefer at this time to choose the other? configuration option instead, enter NO and the configurationo procedure will exit.y p2 Config_option_helpo+ "Which configuration option to perform?",D Choose the option you want to perform. Selecting an option allows@ you to modify either the entire configuration or a particular portion.  i2 Satisfied_helpm6 "Do you want to generate NCL config"uration scripts"D If you answer YES, the configuration program uses the information< you entered to generate modified NCL scripts and, in some> cases, automatically modify the system's configuration. The> configuration program then returns you to the configuration> options menu. If you answer NO, the configuration procedure= returns you to the configuration options menu and does notu% generate any modified NCL scripts.N t2 Applic_supercede_help% "Replace application sc#ript file?"i; If you want to create a new NCL script file, answer YES. 2 MOP_supercede_helpp$ "Replace MOP Client script file?"F If you want to create a new MOP Client NCL script file, answer YES. M2 Nodevice_help& "Should devices be autoconfigured?"7 If you answer YES, the NET$CONFIGURE procedure will a; autoconfigure to find the devices. On VAX, this is doneo< using the SYSGEN AUTOCONFIGURE ALL command. On an Alpha,= this is done using the SYSMAN IO AU$TO command. If you are > performing the initial configuration of your system and you@ answer NO, then there will be no devices to configure. If youA are reconfiguring devices (that is, you selected Option 3 fromuB the NET$CONFIGURE main menu) and you answer NO, then there will6 be no devices to configure and the procedure exits. 3*2 Config_osi_template_replace_script_help< "Do you want to replace the existing NSP or OSI Transport script?"rC If you reconfigure the NSP %or OSI Transport, you have the optionwB of accepting the existing transport script or replacing it withC a new one. Answer YES if you want to replace the existing NSP or  OSI transport script. a2 Event_supercede_helpi. "Replace Event Dispatcher NCL script file?"@ If you want to create a new Event Dispatcher NCL script file,A answer YES. If you want to keep the previously generated Event) Dispatcher NCL script file, answer NO.a e2 evd_see_block_events_help> "Di&splay the events logged to the console of this machine?"F You have the option of displaying the events that are logged to theH console of this machine. If you do not want to see the events loggedF to the console of this machine, NET$CONFIGURE will block the events for you.iB Answer YES if you want to see the events that are logged to the@ console of this machine. If you do no want to see the eventsE logged to the console of this machine, answer NO and NET$CONFIGURE ! wil'l block the events for you.o2 EVD_custom_config_sink_help# "Configure a (or another) Sink?"wD The first prompt displayed concerning sink configuration when you/ select menu option 6 is "Configure a Sink?".t> If you want to customize information pertinent to the sink,B answer YES (for example, the sink name and where you would like: to send the output: a terminal, a printer, or a file?).? After you have configured a sink, the procedure displays thel$ prompt "Configu(re another Sink?".= If you do not want to configure another sink, enter NO andn? proceed to the next prompt. If you want to configure another?? sink, enter YES. The procedure then returns you to the "Sinkn> name?" prompt and repeats the prompts required to configure another sink. Y2 Evd_sink_name_helpt "Sink name?"SB Specify the name of the sink you want to use for the local node (for example, local_sink).s _2 Event_sink_maxbuff_help "Maximum buffer siz)e?"e? Specify the maximum number of octets that the sink allows ton' process events (for example, 16384).  a2 Evd_sink_object_name_help "Object name?"e; Specify the full DECdns name of the object for which thea> sink accepts incoming connections. Unless the value of this? characteristic is null, the sink employs the Session Control C layer's Keep me Here function to maintain the object name in the namespace.i s2 Evd_sink_end_user_helpe "End user specifi+cation?"C Specify the DNA session control local address for which the sink9 accepts incoming connections (for example, number=82).n !2 Evd_sink_catch_all_filter_helpl "Catch all filter action?"SD Specify the action to take if neither the specific filter setting@ nor the global filter setting matches an event or if a filterA setting that does match an event is set to Ignore. The choicesg are:t o BLOCK - Discard the event. o PASS - Report the event. +2 Event_sink_description_help "Description?" C Specify an informational string that can be used to describe thev sink. 2 Event_sink_displayuids_help "Display UIDs?"B Answering YES displays the entity's unique identifier, which is( generated when the entity is created. 2 Evd_sink_client_helps "Client type?" B Specify how the application is to accept the events received by the sink. The choices are:_9 o CONSOLE - Events go the operator's con-sole (OPCOM).a% o DEVICE - Events go to a device.! o FILE - Events go to a file.o O2 Evd_sink_file_name_help "File name?")? Enter the file specification that you want to use to capture 4 events (for example, SYS$MANAGER:EVD_EVENTS.LOG). e2 Evd_sink_device_name_help "Device name?"u? Enter the device that you want to use to capture events (forV example, TWA1:).E s 2 Evd_custom_configure_obs_help/ "Configure an (or another) Outbound Stream?"t-8 The first prompt displayed concerning outbound stream? configuration when you select menu option 6 is "Configure anSB Outbound Stream?". If you want to configure an outbound stream, answer YES.> After you have configured an outbound stream, the procedure< displays the prompt "Configure another Outbound Stream?".D If you do not want to configure another outbound stream, enter NOC and proceed to the next prompt. If you want to configure anotherID outbound stream, enter .YES. The procedure then returns you to theB "Outbound Stream name?" prompt and repeats the prompts required( to configure another outbound stream. e2 Evd_obs_name_help "Outbound Stream name?"A Specify the outbound stream name that is to be managed by thisd' command (for example, local_stream)." b2 Evd_sink_maxbuff_help "Maximum buffer size?"m? Specify the number of octets that the outbound stream allowsr< to process events. This value is derived from (but is/ notB necessarily equal to) the value specified in the MAXIMUM BUFFER< SIZE argument of the CREATE command (for example, 16384). t2 Evd_sink_template_helpe "OSI transport template?"? Specify the transport template for this stream's connection.4 #2 Evd_obs_connect_retry_timer_helpS "Connect retry timer?" ; Specify the number of seconds to wait between connection? attempts. The connect retry timer operates continuously frome> the time the outbound stream is e0nabled until the stream is@ disabled or until the CONNECT TIMER ENABLED characteristic isC set to FALSE. If the outbound stream is already connected to theB sink when the timer expires, no connection is attempted at thatC time. The timer resets and connection attempts continue whenever  the timer expires.p s%2 Evd_obs_connect_timer_enabled_helpt "Connect timer enabled?"n? Answer YES to have the connect retry timer operational. A NO  reply disables it.e l 2 Evd1_obs_disconnect_timer_help "Disconnect timer?"@ Specify the number of seconds to wait before shutting down anA idle connection. A 0 value indicates that the disconnect timer@ is not operating and that connections are never automatically disconnected. 2 Evd_obs_catch_all_filter_help "Catch all filter action?" D Specify the action to take if neither the specific filter setting@ nor the global filter setting matches an event or if a filterA setting that does mat2ch an event is set to Ignore. The choicesg are:t o BLOCK - Discard the event. o PASS - Report the event. 2 Evd_obs_sink_object_helpg "Sink object?"= Specify the full DECdns object name of the sink associatedrB with this outbound stream. This object name is used to make the connection with the sink. j2 Evd_obs_sink_node_helpe "Sink node?"oA Specify the full node name (DECdns namespace name included) ofi, the sink associated with outbound str3eam. 2 Evd_obs_sink_end_user_helpf "Sink end user?" = Specify the sink session control end user specification ofd> the sink associated with this outbound stream (for example, number=82). t2 Evd_obs_sink_address_help "Sink address?"B Specify the sink address tower of the sink associated with this outbound stream.d s2 Event_relay_help" "Configure Phase IV Relay?"B Answer YES to use the Phase IV Relay. This allows you to recordA and process e4vents that occur on an OpenVMS VAX system runningC DECnet-VAX Phase IV software. The Phase IV Relay entity receives D the events from a Phase IV node, encapsulates them and posts them. in the DECnet-Plus system event dispatcher. i2 Applic_add_delete_helpr1 "Do you want to ADD or DELETE an Application?"mA Answer ADD to create the application entity on the local node,_D allocate resources for it, and open the service interface. Answer@ DELETE to delete the entity and recla5im associated resources. a2 Applic_name_helpt) "What is the name of the Application?" B When defining an application, you must identify the name of theC object. DECnet object names are descriptive alphanumeric strings  of up to twelve characters. m2 Applic_areyousure_help6 "Are you sure you want to DELETE this application?"5 If you want to delete the application, answer YES.p _2 Applic_destination_type_helpy4 "What is the destination type for 'applicatio>n'?"? The destination type can be either NAME or NUMBER. To selecto@ NAME, simply press Return. To select NUMBER, enter NUMBER and press Return. n2 Applic_destination_name_help @ "What is the destination name (or number) for 'application'?"9 The destination type can be either a name or a number.e> If you selected name as the destination type in response to? the previous prompt, your reply to this prompt can be eitherr> the application name (for example, NOTES), or7YES. The procedure then returns you to theB "Outbound Stream name?" prompt and repeats the prompts required( to configure another outbound stream. e2 Evd_obs_name_help "Outbound Stream name?"A Specify the outbound stream name that is to be managed by thisd' command (for example, local_stream)." b2 Evd_sink_maxbuff_help "Maximum buffer size?"m? Specify the number of octets that the outbound stream allowsr< to process events. This value is derived from (but is8 notB necessarily equal to) the value specified in the MAXIMUM BUFFER< SIZE argument of the CREATE command (for example, 16384). t2 Evd_sink_template_helpe "OSI transport template?"? Specify the transport template for this stream's connection.4 #2 Evd_obs_connect_retry_timer_helpS "Connect retry timer?" ; Specify the number of seconds to wait between connection? attempts. The connect retry timer operates continuously frome> the time the outbound stream is e9nabled until the stream is@ disabled or until the CONNECT TIMER ENABLED characteristic isC set to FALSE. If the outbound stream is already connected to theB sink when the timer expires, no connection is attempted at thatC time. The timer resets and connection attempts continue whenever  the timer expires.p s%2 Evd_obs_connect_timer_enabled_helpt "Connect timer enabled?"n? Answer YES to have the connect retry timer operational. A NO  reply disables it.e l 2 Evd:_obs_disconnect_timer_help "Disconnect timer?"@ Specify the number of seconds to wait before shutting down anA idle connection. A 0 value indicates that the disconnect timer@ is not operating and that connections are never automatically disconnected. 2 Evd_obs_catch_all_filter_help "Catch all filter action?" D Specify the action to take if neither the specific filter setting@ nor the global filter setting matches an event or if a filterA setting that does mat;ch an event is set to Ignore. The choicesg are:t o BLOCK - Discard the event. o PASS - Report the event. 2 Evd_obs_sink_object_helpg "Sink object?"= Specify the full DECdns object name of the sink associatedrB with this outbound stream. This object name is used to make the connection with the sink. j2 Evd_obs_sink_node_helpe "Sink node?"oA Specify the full node name (DECdns namespace name included) ofi, the sink associated with outbound str<eam. 2 Evd_obs_sink_end_user_helpf "Sink end user?" = Specify the sink session control end user specification ofd> the sink associated with this outbound stream (for example, number=82). t2 Evd_obs_sink_address_help "Sink address?"B Specify the sink address tower of the sink associated with this outbound stream.d s2 Event_relay_help" "Configure Phase IV Relay?"B Answer YES to use the Phase IV Relay. This allows you to recordA and process e =vents that occur on an OpenVMS VAX system runningC DECnet-VAX Phase IV software. The Phase IV Relay entity receives D the events from a Phase IV node, encapsulates them and posts them. in the DECnet-Plus system event dispatcher. i2 Applic_add_delete_helpr1 "Do you want to ADD or DELETE an Application?"mA Answer ADD to create the application entity on the local node,_D allocate resources for it, and open the service interface. Answer@ DELETE to delete the entity and reclaAim associated resources. a2 Applic_name_helpt) "What is the name of the Application?" B When defining an application, you must identify the name of theC object. DECnet object names are descriptive alphanumeric strings  of up to twelve characters. m2 Applic_areyousure_help6 "Are you sure you want to DELETE this application?"5 If you want to delete the application, answer YES.p _2 Applic_destination_type_helpy4 "What is the destination type for 'applicatio? a destination@ object name (for example, IAF:.SALES.BOSTON). The destinationD object name is the DECdns full name of the node that provides the application.o; The application name can be from 1 to 16 characters. TheiA destination object name can be a maximum of 512 characters andn is entered in this format:a. NamespaceNickname:.DirectoryPath.NodeObject@ If you selected number as the destination type in response toC the previous prompt, your reply to this prompt mustF be an object number.D DECnet software uses object numbers as unique object identifiers.C Object numbers have a range of 1 to 255. Generic objects such asDB MAIL and FAL have object numbers that are recognized throughoutC the network. User-defined images may have unique object numbers; = numbers between 128 and 255 are reserved for this purpose.tC If you are adding a user-defined application, pick a number from> 128 to 255. If you are adding an application defined by HP,FC If you are adding a user-defined application, pick a number fromuB 128 to 255. If you are adding an application defined by Compaq,: select the appropriate number from Object Type Numbers. Table 1 Object Type Numbers# Number Mnemonic Descriptionf$ 0 Task User program/ 1-16 Reserved for Compaq use@ 17 FAL File Access Listener for remote file and% record accesse= 18 HLD Host loadeBn'?"? The destination type can be either NAME or NUMBER. To selecto@ NAME, simply press Return. To select NUMBER, enter NUMBER and press Return. n2 Applic_destination_name_help @ "What is the destination name (or number) for 'application'?"9 The destination type can be either a name or a number.e> If you selected name as the destination type in response to? the previous prompt, your reply to this prompt can be eitherr> the application name (for example, NOTES), or C a destination@ object name (for example, IAF:.SALES.BOSTON). The destinationD object name is the DECdns full name of the node that provides the application.o; The application name can be from 1 to 16 characters. TheiA destination object name can be a maximum of 512 characters andn is entered in this format:a. NamespaceNickname:.DirectoryPath.NodeObject@ If you selected number as the destination type in response toC the previous prompt, your reply to this prompt must E be an object number.D DECnet software uses object numbers as unique object identifiers.C Object numbers have a range of 1 to 255. Generic objects such asDB MAIL and FAL have object numbers that are recognized throughoutC the network. User-defined images may have unique object numbers; = numbers between 128 and 255 are reserved for this purpose.tC If you are adding a user-defined application, pick a number from> 128 to 255. If you are adding an application defined by HP,EC If you are adding a user-defined application, pick a number fromuB 128 to 255. If you are adding an application defined by Compaq,: select the appropriate number from Object Type Numbers. Table 1 Object Type Numbers# Number Mnemonic Descriptionf$ 0 Task User program/ 1-16 Reserved for Compaq use@ 17 FAL File Access Listener for remote file and% record accesse= 18 HLD Host loadeP: select the appropriate number from Object Type Numbers. Table 1 Object Type Numbers# Number Mnemonic Description2$ 0 Task User program+ 1-16 Reserved for HP usee@ 17 FAL File Access Listener for remote file and% record access = 18 HLD Host loader for RSX-11S downline taskR( loading requests: 19 NML Network Management Listener Object> 20 G: select the appropriate number from Object Type Numbers. Table 1 Object Type Numbers# Number Mnemonic Description2$ 0 Task User program+ 1-16 Reserved for HP usee@ 17 FAL File Access Listener for remote file and% record access = 18 HLD Host loader for RSX-11S downline taskR( loading requests: 19 NML Network Management Listener Object> 20 H RSTS/E media transfer program (NETCPY)+ 21-22 Reserved for HP useS< 23 REMACP Network terminal handler (host side)@ 24 Network terminal handler (terminal side)' 25 MIRROR Loopback mirror & 26 EVL Event receiver, 27 MAIL OpenVMS Mail Utility+ 28 Reserved for HP use @ 29 PHONE OpenVMS Phone Utility and RSX-11M/M-PLUS% Phone UtilityoI+ 30-41 Reserved for HP usee0 42 CTERM Network terminal handler+ 43-62 Reserved for HP usem3 63 DTR DECnet Test Receiver object+ 64-127 Reserved for HP usec1 128-255 Reserved for customer useh w!2 Applic_another_address_yn_help 8 "Do you want to specify another application address?"A If a node has more than one application address, enter YES and) the previous prompts will be repeatedJ.  g2 Applic_client_help"6 "What is the name of the Client for 'application'?"A Specify the name of the local user that will be activated uponmA receipt of the connect request containing the destination nameA matching one of the values in the destination names attribute.c o2 Applic_image_name_helpw. "What is the Image name for 'application'?"A Specify the filename of the program to be invoked upon receiptsD of a Connect Request containing a DestinationName matchKing one of1 the values in the DestinationNames: attribute.e 2 Applic_incoming_alias_helpr. "Incoming Alias for 'application' enabled?"= Specify how the specified application responds to incoming > connect requests directed to the alias node address. If you< specify FALSE, the application does not allow a specifiedB application to receive incoming connect requests that have been& directed to the alias node address. e2 Applic_incoming_proxy_help . "Incoming ProxyL for 'application' enabled?"? Controls whether incoming proxy requests are honored. If youlA specify FALSE, requests to invoke proxies on incoming requestsq will be ignored.i u2 Applic_outgoing_alias_helpP. "Outgoing Alias for 'application' enabled?": Specify whether a particular object uses the alias node> identifier in its outgoing connect requests. If you specifyC FALSE, the specified object is not allowed to use the alias nodeo, address in its outgoing connect rMequests. o2 Applic_outgoing_proxy_help . "Outgoing Proxy for 'application' enabled?"= Specify the default action to execute when a user does nots> explicitly specify whether or not to invoke a proxy. If you2 specify FALSE, there will be no default action. y2 Applic_require_synonym_help4 "Require node synonym for 'application' enabled?"? If you specify TRUE, then by default the remote node name isiA passed to the application in synonym form. If a synonym is noteDN available, then the full name is used. If you specify FALSE, then9 the full name is passed to the application by default.o n2 Applic_osi_tsel_help5 "What is the Incoming OSI TSEL for 'application'?"rC Specify the transport service access point (TSAP) identifier fors; which the specified application will accept connections.c& NOTEA This function is currently not implemented. Press Return toa" continue to the next prompt. aO2 Applic_config_user_name_helpi- "What is the User Name for 'application'?"s= Enter the user name that you want to use when creating thea3 account for the application you are configuring._D If you do not want to create an account for that application, youD can either enter NONE and press Return or press the space bar and press Return. i2 Applic_UIC_help' "What UIC should 'application' use?"_> Specify the UIC allocated upon creation of this application entity [instance.t 2 Applic_rights_id_help* "Rights identifiers for 'application'?"8 Specify the rights identifiers (if any) needed by the< application. If there are two or more rights identifiers, separate them with commas." e2 Mop_add_delete_help/ "Do you want to ADD or DELETE a MOP Client?"lA Answer ADD to create an entity on the specified node, allocaten; resources for it, and open the service interface. AnswerlB DELETE to delete the entity from the specified no Q RSTS/E media transfer program (NETCPY)+ 21-22 Reserved for HP useS< 23 REMACP Network terminal handler (host side)@ 24 Network terminal handler (terminal side)' 25 MIRROR Loopback mirror & 26 EVL Event receiver, 27 MAIL OpenVMS Mail Utility+ 28 Reserved for HP use @ 29 PHONE OpenVMS Phone Utility and RSX-11M/M-PLUS% Phone Utilityo R+ 30-41 Reserved for HP usee0 42 CTERM Network terminal handler+ 43-62 Reserved for HP usem3 63 DTR DECnet Test Receiver object+ 64-127 Reserved for HP usec1 128-255 Reserved for customer useh w!2 Applic_another_address_yn_help 8 "Do you want to specify another application address?"A If a node has more than one application address, enter YES and) the previous prompts will be repeatedS.  g2 Applic_client_help"6 "What is the name of the Client for 'application'?"A Specify the name of the local user that will be activated uponmA receipt of the connect request containing the destination nameA matching one of the values in the destination names attribute.c o2 Applic_image_name_helpw. "What is the Image name for 'application'?"A Specify the filename of the program to be invoked upon receiptsD of a Connect Request containing a DestinationName matchTing one of1 the values in the DestinationNames: attribute.e 2 Applic_incoming_alias_helpr. "Incoming Alias for 'application' enabled?"= Specify how the specified application responds to incoming > connect requests directed to the alias node address. If you< specify FALSE, the application does not allow a specifiedB application to receive incoming connect requests that have been& directed to the alias node address. e2 Applic_incoming_proxy_help . "Incoming ProxyU for 'application' enabled?"? Controls whether incoming proxy requests are honored. If youlA specify FALSE, requests to invoke proxies on incoming requestsq will be ignored.i u2 Applic_outgoing_alias_helpP. "Outgoing Alias for 'application' enabled?": Specify whether a particular object uses the alias node> identifier in its outgoing connect requests. If you specifyC FALSE, the specified object is not allowed to use the alias nodeo, address in its outgoing connect rVequests. o2 Applic_outgoing_proxy_help . "Outgoing Proxy for 'application' enabled?"= Specify the default action to execute when a user does nots> explicitly specify whether or not to invoke a proxy. If you2 specify FALSE, there will be no default action. y2 Applic_require_synonym_help4 "Require node synonym for 'application' enabled?"? If you specify TRUE, then by default the remote node name isiA passed to the application in synonym form. If a synonym is noteDW available, then the full name is used. If you specify FALSE, then9 the full name is passed to the application by default.o n2 Applic_osi_tsel_help5 "What is the Incoming OSI TSEL for 'application'?"rC Specify the transport service access point (TSAP) identifier fors; which the specified application will accept connections.c& NOTEA This function is currently not implemented. Press Return toa" continue to the next prompt. aX2 Applic_config_user_name_helpi- "What is the User Name for 'application'?"s= Enter the user name that you want to use when creating thea3 account for the application you are configuring._D If you do not want to create an account for that application, youD can either enter NONE and press Return or press the space bar and press Return. i2 Applic_UIC_help' "What UIC should 'application' use?"_> Specify the UIC allocated upon creation of this application entity Yinstance.t 2 Applic_rights_id_help* "Rights identifiers for 'application'?"8 Specify the rights identifiers (if any) needed by the< application. If there are two or more rights identifiers, separate them with commas." e2 Mop_add_delete_help/ "Do you want to ADD or DELETE a MOP Client?"lA Answer ADD to create an entity on the specified node, allocaten; resources for it, and open the service interface. AnswerlB DELETE to delete the entity from the specified noZde and reclaim associated resources. e2 Mop_client_name_help  "Name of the MOP Client?"? Specify the simple-name of the client (for example, SUPERX). 2 Mop_client_areyousure1 "Are you sure you want to DELETE this client?"s1 If you want to delete this client, answer YES.p c2 Mop_circuit_help" "Circuit for 'client name'?"'B Specify the name of the MOP circuit to be used for this client. c2 Mop_address_helpd* "Physical addresses for 'client nbame'?"C Specify the set of LAN addresses for the specified client on thet3 circuit specified by the CIRCUIT characteristic.y a2 Mop_secondary_loader_help( "Secondary Loader for 'client name'?"< Specify the files to be loaded when the client requests a: secondary loader during a downline load operation. File? identifications are interpreted according to the file systemm of the local system.e r2 Mop_tertiary_loader_helpt' "Tertiary Loader for 'client name'?"u\de and reclaim associated resources. e2 Mop_client_name_help  "Name of the MOP Client?"? Specify the simple-name of the client (for example, SUPERX). 2 Mop_client_areyousure1 "Are you sure you want to DELETE this client?"s1 If you want to delete this client, answer YES.p c2 Mop_circuit_help" "Circuit for 'client name'?"'B Specify the name of the MOP circuit to be used for this client. c2 Mop_address_helpd* "Physical addresses for 'client n_ame'?"C Specify the set of LAN addresses for the specified client on thet3 circuit specified by the CIRCUIT characteristic.y a2 Mop_secondary_loader_help( "Secondary Loader for 'client name'?"< Specify the files to be loaded when the client requests a: secondary loader during a downline load operation. File? identifications are interpreted according to the file systemm of the local system.e r2 Mop_tertiary_loader_helpt' "Tertiary Loader for 'client name'?"u^: Specify the files to be loaded when the client requests; a tertiary loader during a downline load operation. Filee? identifications are interpreted according to the file system_ of the local system.e r2 Mop_system_image_help$ "System Image for 'client name'?": Specify the files to be loaded when the client requests; a tertiary loader during a downline load operation. File ? identifications are interpreted according to the file systemn of the local system.e I_2 Mop_diagnostic_image_help( "Diagnostic Image for 'client name'?"< Specify the files to be loaded when the client requests a: diagnostic image during a downline load operation. File? identifications are interpreted according to the file systemi of the local system.  2 Mop_management_image_help( "Management Image for 'client name'?"< Specify the files to be loaded when the client requests a: management image during a downline load operation. File? identificat`ions are interpreted according to the file systemi of the local system.o c2 Mop_script_file_helpy# "Script File for 'client name'?"tA Specify the files to be loaded when the client requests a CMIPf? initialization script during a downline load operation. FileeB identifications are interpreted according to the file system of the local system. f2 Mop_dump_file_helpS! "Dump File for 'client name'?"eB Specify the files to write to when the client is upline dumpead. e2 Mop_dump_address_help$ "Dump Address for 'client name'?"B Specify the address of the files to write to when the client is upline dumped.e h2 Mop_verification_help$ "Verification for 'Client name'?"B Specify the verification string to be sent in a boot message to the specified client. e2 Mop_iv_client_address_help = "Phase IV Client Address (aa.nnnn) for 'mop client name'?"m> Specify the Phase IV node address to be given to the client= systehm when it is loaded. This address is passed in a loadi? characteristics message; whether it is needed depends on thei software being loaded.h 2 Mop_iv_client_name_help0 "Phase IV Client Name for 'mop client name'?"B Specify the Phase IV node name to be given to the client systemC when it is loaded. This name is passed in a load characteristicsi> message; whether it is needed depends on the software being loaded. m2 Mop_iv_host_address_helpf1 "Phase IV Host Adc: Specify the files to be loaded when the client requests; a tertiary loader during a downline load operation. Filee? identifications are interpreted according to the file system_ of the local system.e r2 Mop_system_image_help$ "System Image for 'client name'?": Specify the files to be loaded when the client requests; a tertiary loader during a downline load operation. File ? identifications are interpreted according to the file systemn of the local system.e Id2 Mop_diagnostic_image_help( "Diagnostic Image for 'client name'?"< Specify the files to be loaded when the client requests a: diagnostic image during a downline load operation. File? identifications are interpreted according to the file systemi of the local system.  2 Mop_management_image_help( "Management Image for 'client name'?"< Specify the files to be loaded when the client requests a: management image during a downline load operation. File? identificateions are interpreted according to the file systemi of the local system.o c2 Mop_script_file_helpy# "Script File for 'client name'?"tA Specify the files to be loaded when the client requests a CMIPf? initialization script during a downline load operation. FileeB identifications are interpreted according to the file system of the local system. f2 Mop_dump_file_helpS! "Dump File for 'client name'?"eB Specify the files to write to when the client is upline dumpefd. e2 Mop_dump_address_help$ "Dump Address for 'client name'?"B Specify the address of the files to write to when the client is upline dumped.e h2 Mop_verification_help$ "Verification for 'Client name'?"B Specify the verification string to be sent in a boot message to the specified client. e2 Mop_iv_client_address_help = "Phase IV Client Address (aa.nnnn) for 'mop client name'?"m> Specify the Phase IV node address to be given to the client= systegm when it is loaded. This address is passed in a loadi? characteristics message; whether it is needed depends on thei software being loaded.h 2 Mop_iv_client_name_help0 "Phase IV Client Name for 'mop client name'?"B Specify the Phase IV node name to be given to the client systemC when it is loaded. This name is passed in a load characteristicsi> message; whether it is needed depends on the software being loaded. m2 Mop_iv_host_address_helpf1 "Phase IV Host Admdress for 'mop client name'?"oB Specify the Phase IV node address to be passed as the host node? address when a client is loaded. This address is passed in atD load characteristics message; whether it is needed depends on the software being loaded." y2 Mop_iv_host_name_help. "Phase IV Host Name for 'mop client name'?"? Specify the Phase IV node name to be passed as the host nodef> name when a client is loaded. This name is passed in a load? characteristics message; idress for 'mop client name'?"oB Specify the Phase IV node address to be passed as the host node? address when a client is loaded. This address is passed in atD load characteristics message; whether it is needed depends on the software being loaded." y2 Mop_iv_host_name_help. "Phase IV Host Name for 'mop client name'?"? Specify the Phase IV node name to be passed as the host nodef> name when a client is loaded. This name is passed in a load? characteristics message; jwhether it is needed depends on the  software being loaded.  m2 Alias_add_delete_help+ "Do you want to ADD or DELETE an alias?"u> Answer ADD to add the specified node to the cluster. Answer8 DELETE to remove the specified node from the cluster. s2 Alias_name_help "Full name of Cluster Alias"n= Specify the full name that uniquely identifies the clustere* alias (for example, IAF:.SALES.BOSTON). .2 Alias_areyousuren0 "Are you sure you want to DELETE thisk alias?"A If you answer YES to this prompt, the node is removed from thee cluster.- 02 Alias_address_helpxB "Cluster Alias Phase IV Address (aa.nnnn OR AA-00-04-00-xx-xx)"> Specify either the system's DECnet Phase IV node address or physical address./ o The Phase IV node address has the format m4 are_-number.node_number (for example, 63.171).= o The physical address has the format AA-00-04-00-xx-xx, .? where xx-xx is calculated from the Phase IV nodel address.u( To determine the physical address:D 1. Convert the Phase IV node address to its decimal equivalent follows:A@ (area-number * 1024) + node-number = decimal equivalent9 (For example, (63 * 1024) + 171 = 64683 decimal)< 2. Convert the decimal node address to its hexadecimalB equivalent and reverse the order of the bytes to form the" hexadecimal node address.C (For example, 64683 decimal = FCAB hexadecimal, rteversed =n ABFC hexnodeaddress) B 3. Incorporate the hexadecimal node address in the following format:A AA-00-04-00-hexnodeaddress (For example, AA-00-04-00-AB-e FC) e2 Selection_weight_help> "Selection weight for this cluster node [0 for satellites]"D The selection weight determines the number of sequential incoming@ connects to be passed to this alias member node in the round-B robin sequence before proceeding to the next member nnwhether it is needed depends on the  software being loaded.  m2 Alias_add_delete_help+ "Do you want to ADD or DELETE an alias?"u> Answer ADD to add the specified node to the cluster. Answer8 DELETE to remove the specified node from the cluster. s2 Alias_name_help "Full name of Cluster Alias"n= Specify the full name that uniquely identifies the clustere* alias (for example, IAF:.SALES.BOSTON). .2 Alias_areyousuren0 "Are you sure you want to DELETE thiso alias?"A If you answer YES to this prompt, the node is removed from thee cluster.- 02 Alias_address_helpxB "Cluster Alias Phase IV Address (aa.nnnn OR AA-00-04-00-xx-xx)"> Specify either the system's DECnet Phase IV node address or physical address./ o The Phase IV node address has the format m4 are_-number.node_number (for example, 63.171).= o The physical address has the format AA-00-04-00-xx-xx, .? where xx-xx is calculated from the Phase IV nodep address.u( To determine the physical address:D 1. Convert the Phase IV node address to its decimal equivalent follows:A@ (area-number * 1024) + node-number = decimal equivalent9 (For example, (63 * 1024) + 171 = 64683 decimal)< 2. Convert the decimal node address to its hexadecimalB equivalent and reverse the order of the bytes to form the" hexadecimal node address.C (For example, 64683 decimal = FCAB hexadecimal, rqeversed =n ABFC hexnodeaddress) B 3. Incorporate the hexadecimal node address in the following format:A AA-00-04-00-hexnodeaddress (For example, AA-00-04-00-AB-e FC) e2 Selection_weight_help> "Selection weight for this cluster node [0 for satellites]"D The selection weight determines the number of sequential incoming@ connects to be passed to this alias member node in the round-B robin sequence before proceeding to the next member n rode in the? sequence. A value of zero means this node is not eligible to@ receive incoming connections to this alias address. SelectionC Weight is used to apportion incoming alias connections accordingl@ to the capacity of each alias member. For example, nodes withB greater capacity should have larger values of Selection Weight,E while VMScluster satellites should generally have a value of zero.y= Specify a nonzero selection weight if this node is locallyi@ connected to a duals-ported disk, or if it will be serving anyC multihost disks to other cluster members. Values between 5 and  10 are suggested. r2 Pwdlck_help4 "Do you want to continue with the Configuration?"C Password generation is not allowed on your system. If you answersB YES, the configuration will continue and null passwords will be@ used. If you answer NO, the configuration procedure will end.2 Script_Common_helpe* Create a cluster common startup script?G There is no s }tartup script found for the component being configured,C meaning that NET$CONFIGURE will create one. Because this scriptC does not contain node specific information, it may be created to @ be common to all systems in this cluster, or specific to this@ cluster member only. If you answer YES to this question, theD script will be made common to all systems in the cluster, and allE further configuration of this component will affect all members ofu the cluster. 2 Script_Moveuode in the? sequence. A value of zero means this node is not eligible to@ receive incoming connections to this alias address. SelectionC Weight is used to apportion incoming alias connections accordingl@ to the capacity of each alias member. For example, nodes withB greater capacity should have larger values of Selection Weight,E while VMScluster satellites should generally have a value of zero.y= Specify a nonzero selection weight if this node is locallyi@ connected to a dualv-ported disk, or if it will be serving anyC multihost disks to other cluster members. Values between 5 and  10 are suggested. r2 Pwdlck_help4 "Do you want to continue with the Configuration?"C Password generation is not allowed on your system. If you answersB YES, the configuration will continue and null passwords will be@ used. If you answer NO, the configuration procedure will end.2 Script_Common_helpe* Create a cluster common startup script?G There is no swtartup script found for the component being configured,C meaning that NET$CONFIGURE will create one. Because this scriptC does not contain node specific information, it may be created to @ be common to all systems in this cluster, or specific to this@ cluster member only. If you answer YES to this question, theD script will be made common to all systems in the cluster, and allE further configuration of this component will affect all members ofu the cluster. 2 Script_MovexCommon_helpe6 Move the startup script to the cluster common area?H The component being configured has a startup script that is used onlyH by this cluster node. Since this component's startup script containsG no system specific information, it may be made common to all systemsdG in this cluster, so that all systems in the cluster may use a commonnH script. If you answer YES to this question, the existing script fileA will be moved to the cluster common directory, and all furtheyrtA configuration of this component will affect all members of then cluster. 2 Script_OverrideCommon_helpY6 Override the cluster common default startup script?F The component being configured uses a startup script that is commonH to all systems in this cluster. You may create a copy of this scriptG which is specific to this system only. All further configuration oftE this component will affect only this system. If you answer YES toYC this question, a copy of the starztup script will be created thatw/ overrides the cluster common startup script.p2 Script_DeleteOverride_helph# Delete the local startup script? F The component being configured has a system specific startup scriptF that overrides the cluster's default startup script. If you answerD YES to this question, all further configuration of this component* will affect all members of the cluster.2 Script_DeleteCommon_helpt, Delete the cluster common startup script?F The com{ponent being configured has a system specific startup scriptF that overrides the cluster's default startup script. Answering YESH to this question will delete the cluster common startup script. ThisA should not be done unless all members of the cluster have alson? created system specific startup scripts for this component. n2 Autoconfig_RootDevice_helps" Device containing system roots:G Configuring cluster satellites involves finding the system root from,@ which the satel|lite boots. Normally, this is SYS$SYSDEVICE:,A although it is possible to install system roots to a differente volume.E The device given in response to this question will be searched fortA all system roots. Those that are found which do not contain ae> checksum database are assumed to be Phase IV nodes, and are> candidates for being flagged for Phase V autoconfiguration.2 Autoconfigure_Satellite_help Upgrade Phase IV satellite?C A system root was found that does not contain a Phase V checksums? database, and is therefore assumed to be a Phase IV system. yD Answering Yes to this question will cause that cluster node to beA flagged to run a Phase V autoconfiguration on its next reboot.l2 Autoconfigure_FullName_help Enter the full nameH Enter the node full name you want to use. DECnet-Plus node full namesF should be planned carefully and must be unique within the directoryD service. If your network administrator has not assigned a un ~Common_helpe6 Move the startup script to the cluster common area?H The component being configured has a startup script that is used onlyH by this cluster node. Since this component's startup script containsG no system specific information, it may be made common to all systemsdG in this cluster, so that all systems in the cluster may use a commonnH script. If you answer YES to this question, the existing script fileA will be moved to the cluster common directory, and all furthe rtA configuration of this component will affect all members of then cluster. 2 Script_OverrideCommon_helpY6 Override the cluster common default startup script?F The component being configured uses a startup script that is commonH to all systems in this cluster. You may create a copy of this scriptG which is specific to this system only. All further configuration oftE this component will affect only this system. If you answer YES toYC this question, a copy of the startup script will be created thatw/ overrides the cluster common startup script.p2 Script_DeleteOverride_helph# Delete the local startup script? F The component being configured has a system specific startup scriptF that overrides the cluster's default startup script. If you answerD YES to this question, all further configuration of this component* will affect all members of the cluster.2 Script_DeleteCommon_helpt, Delete the cluster common startup script?F The com ponent being configured has a system specific startup scriptF that overrides the cluster's default startup script. Answering YESH to this question will delete the cluster common startup script. ThisA should not be done unless all members of the cluster have alson? created system specific startup scripts for this component. n2 Autoconfig_RootDevice_helps" Device containing system roots:G Configuring cluster satellites involves finding the system root from,@ which the satel lite boots. Normally, this is SYS$SYSDEVICE:,A although it is possible to install system roots to a differente volume.E The device given in response to this question will be searched fortA all system roots. Those that are found which do not contain ae> checksum database are assumed to be Phase IV nodes, and are> candidates for being flagged for Phase V autoconfiguration.2 Autoconfigure_Satellite_help Upgrade Phase IV satellite?C A system root was found that does n ot contain a Phase V checksums? database, and is therefore assumed to be a Phase IV system. yD Answering Yes to this question will cause that cluster node to beA flagged to run a Phase V autoconfiguration on its next reboot.l2 Autoconfigure_FullName_help Enter the full nameH Enter the node full name you want to use. DECnet-Plus node full namesF should be planned carefully and must be unique within the directoryD service. If your network administrator has not assigned a un iqueD node full name for your system, be sure that you read DECnet-PlusE for OpenVMS Introduction, Planning, and Glossary before you do so.eI This manual also contains guidelines for using the directory services i DECdns and the Local File.2 Root_Device_helpo Device for node root:A In configuring a cluster member other than the system on whicheH NET$CONFIGURE executes, the location of the member's system root mustC be specified. The answer to this question is the disk device ond2 which the cluster member's system root resides.2 Root_Directory_Help Directory for node root: A In configuring a cluster member other than the system on which A NET$CONFIGURE executes, the system root directory name must be H specified. The system root directory is of the form "SYSxxxx", whereF "xxxx" is the hexadecimal root number from which that member loads.2 MOP_Run_Help  Load MOP on this system?.H By default, MOP is not started by NET$STARTUP . In order to make thisB system service MOP requests, NET$STARTUP_MOP must be defined toH signal NET$STARTUP to load the MOP software. This symbol is normally+ defined in SYS$STARTUP:NET$LOGICALS.COM.i: Answering YES to this question will modify SYS$STARTUP:D NET$LOGICALS.COM for you, to enable MOP service on this system. < Answering NO will remove the logical name definition fromG SYS$STARTUP:NET$LOGICALS.COM. Note that this will have no effect if , the NET$STARTUP_MOP iiqueD node full name for your system, be sure that you read DECnet-PlusE for OpenVMS Introduction, Planning, and Glossary before you do so.eI This manual also contains guidelines for using the directory services i DECdns and the Local File.2 Root_Device_helpo Device for node root:A In configuring a cluster member other than the system on whicheH NET$CONFIGURE executes, the location of the member's system root mustC be specified. The answer to this question is the disk device ond2 which the cluster member's system root resides.2 Root_Directory_Help Directory for node root: A In configuring a cluster member other than the system on which A NET$CONFIGURE executes, the system root directory name must be H specified. The system root directory is of the form "SYSxxxx", whereF "xxxx" is the hexadecimal root number from which that member loads.2 MOP_Run_Help  Load MOP on this system?.H By default, MOP is not started by NET$STARTUP. In order to make thisB system service MOP requests, NET$STARTUP_MOP must be defined toH signal NET$STARTUP to load the MOP software. This symbol is normally+ defined in SYS$STARTUP:NET$LOGICALS.COM.i: Answering YES to this question will modify SYS$STARTUP:D NET$LOGICALS.COM for you, to enable MOP service on this system. < Answering NO will remove the logical name definition fromG SYS$STARTUP:NET$LOGICALS.COM. Note that this will have no effect if , the NET$STARTUP_MOP is defined elsewhere.!2 enable_phaseiv_addressing_helpN1 Enable Phase-IV Addressing on Routing Circuit?I This allows Phase IV addressing to be enabled on a broadcast circuit. mG There should be only one such circuit enabled for each LAN connected C to the system. If the system is connected to only one LAN, this * should be enabled for only one circuit.H By default, NET$CONFIGURE will only enable Phase IV addressing on the) first broadcast circuit it configures.f2 max_tran_connects Maximum Logical LinksD The maximum number of active transport connections allowed at one time.2 max_tran_rcv_winn4 Transmit/Receive Windows and Receive Buffer countA HP recommends setting a value of 20 for "Maximum Transmit and yH Receive Window" and the value of "Maximum Receive Buffers" to be set G to no more than ("Maximum Window" * "Maximum Transport Connections") A for normal network operation in a typical network environment.,@ Selecting other values than these can significantly alter theF behavior of your system and network and should only be done after a< thorough analysis of your network traffic and application requirements.D High values of "Maximum Receive Buffers" may require considerableG buffering capacity on your node; therefore, non-paged pool should berF allocated accordingly. If your node does not have enough non-paged I pool, "Maximum Receive Buffers" should be set to a smaller value than 8 ("Maximum Window" * "Maximum Transport Connections").D The transport receiver's window is determined by a combination ofC "Maximum Transport Connections", "Maximum Receive Buffers", andiE "Maximum Window". During the life of the connection, the receivere@ quota fluctuates according to the value of ("Maximum ReceiveF Buffers" / "Currently Active Connections"). The credit window sent@ to the remote transmitter may or may not be this quota value,F depending on the value of "Maximum Window". If "Maximum Window" isF set to less than the determined receiver quota, this value is used= instead for the credit granted to the remote transmitter. I The transmitter of a transport connection uses the credit sent by the F remote receiver as its transmit window, unless its "Maximum Window"D is a lower value. In that case, "Maximum Window" is used for the transmitter window.2 eshello_timerB The Default ESHello Timer attribute determines the interval, in/s defined elsewhere.!2 enable_phaseiv_addressing_helpN1 Enable Phase-IV Addressing on Routing Circuit?I This allows Phase IV addressing to be enabled on a broadcast circuit. mG There should be only one such circuit enabled for each LAN connected C to the system. If the system is connected to only one LAN, this * should be enabled for only one circuit.H By default, NET$CONFIGURE will only enable Phase IV addressing on the) first broadcast circuit it configures.f2 max_tran_connects Maximum Logical LinksD The maximum number of active transport connections allowed at one time.2 max_tran_rcv_winn4 Transmit/Receive Windows and Receive Buffer countA HP recommends setting a value of 20 for "Maximum Transmit and yH Receive Window" and the value of "Maximum Receive Buffers" to be set G to no more than ("Maximum Window" * "Maximum Transport Connections") A for normal network operation in a typical network environment.,@ Selecting o ther values than these can significantly alter theF behavior of your system and network and should only be done after a< thorough analysis of your network traffic and application requirements.D High values of "Maximum Receive Buffers" may require considerableG buffering capacity on your node; therefore, non-paged pool should berF allocated accordingly. If your node does not have enough non-paged I pool, "Maximum Receive Buffers" should be set to a smaller value than 8 ("Max imum Window" * "Maximum Transport Connections").D The transport receiver's window is determined by a combination ofC "Maximum Transport Connections", "Maximum Receive Buffers", andiE "Maximum Window". During the life of the connection, the receivere@ quota fluctuates according to the value of ("Maximum ReceiveF Buffers" / "Currently Active Connections"). The credit window sent@ to the remote transmitter may or may not be this quota value,F depending on the value of "Maximum Window". If "Maximum Window" isF set to less than the determined receiver quota, this value is used= instead for the credit granted to the remote transmitter. I The transmitter of a transport connection uses the credit sent by the F remote receiver as its transmit window, unless its "Maximum Window"D is a lower value. In that case, "Maximum Window" is used for the transmitter window.2 eshello_timerB The Default ESHello Timer attribute determines the interval, in/  seconds, when the ES sends out its hello. .H This interval multiplied by three is the amount of time the other endH of a routing adjacency will wait before determining that this system, is no longer able to accept connections.2 addr_update_int+ Session Control Address Update Interval?rI This sets the Session Control Address Update Interval characteristic. sF This characteristic specifies the minimum time (in seconds) allowedG between updates of address information.  This prevents modificationsLD to the set of local towers to be updated more frequently than the! value given by this parameter.  2 routing_circuit_cost_help$ Level n Cost for Routing Circuit?F This sets the Routing Circuit cost for Level 1 or Level 2 traffic. C This question is relevant only to systems that are configured asaE L1ROUTER or L2ROUTER. This cost is used in the computation of theCE optimum network routing of packets originating from the system, orr forwa seconds, when the ES sends out its hello. .H This interval multiplied by three is the amount of time the other endH of a routing adjacency will wait before determining that this system, is no longer able to accept connections.2 addr_update_int+ Session Control Address Update Interval?rI This sets the Session Control Address Update Interval characteristic. sF This characteristic specifies the minimum time (in seconds) allowedG between updates of address information. This prevents modificationsLD to the set of local towers to be updated more frequently than the! value given by this parameter.  2 routing_circuit_cost_help$ Level n Cost for Routing Circuit?F This sets the Routing Circuit cost for Level 1 or Level 2 traffic. C This question is relevant only to systems that are configured asaE L1ROUTER or L2ROUTER. This cost is used in the computation of theCE optimum network routing of packets originating from the system, orr forwarded by the system.e 2 routing_circuit_priority_help/ Level n Router Priority for Routing Circuit? E This sets the priority for becoming a LAN designated router. ThistF attribute is supported only if the circuit's characteristic type isD CSMA-CD, and if the system is configured as L1ROUTER or L2ROUTER.2 routing_type_help) What type of node (Endnode or Router)?oG This sets the routing type for the node; whether the node will be an G end system, or whether it will be capable of routing network trafficsF that originates elsewhere. Answer "Endnode" if the system only hasA one connection to the network, or if there are other dedicatedoH routers accessible to the system. Answer "Router" only if you indend( this system to route network traffic.H If you answer "Router," you must have the proper license for the host& based routing software to function.2 router_type_helpu# Type of routing node (L1 or L2)?rH A routing node may route traffic at two levels; Level 1 refers to theE traffic in the portion of the network that is local to the routingC node. Level 2 refers to traffic between major network segments.a2 maximum_path_splits Maximum path splits?eH A routing node may use multiple paths of equal cost to route traffic.H The answer to this question will be the maximum number of these paths& that traffic will be split between.2 phaseiv_max_address Phase IV Maximum Address?D When forwarding Phaserded by the system.e 2 routing_circuit_priority_help/ Level n Router Priority for Routing Circuit? E This sets the priority for becoming a LAN designated router. ThistF attribute is supported only if the circuit's characteristic type isD CSMA-CD, and if the system is configured as L1ROUTER or L2ROUTER.2 routing_type_help) What type of node (Endnode or Router)?oG This sets the routing type for the node; whether the node will be an G end system, or whether it will be c apable of routing network trafficsF that originates elsewhere. Answer "Endnode" if the system only hasA one connection to the network, or if there are other dedicatedoH routers accessible to the system. Answer "Router" only if you indend( this system to route network traffic.H If you answer "Router," you must have the proper license for the host& based routing software to function.2 router_type_helpu# Type of routing node (L1 or L2)?rH A routing node may route traffic at two levels; Level 1 refers to theE traffic in the portion of the network that is local to the routingC node. Level 2 refers to traffic between major network segments.a2 maximum_path_splits Maximum path splits?eH A routing node may use multiple paths of equal cost to route traffic.H The answer to this question will be the maximum number of these paths& that traffic will be split between.2 phaseiv_max_address Phase IV Maximum Address?D When forwarding Phase  IV packets, a routing system will refuse toA forward any packets for node addresses higher than the routingsE Phase IV Maximum Address. The answer to this question will be thesE maximum Phase IV address that the router will consider; a value oft 1023 is recommended.a2 phaseiv_max_areao Phase IV Maximum Area?iD When forwarding Phase IV packets, a level 2 router will refuse toF forward any packets for node area addresses higher than the routingH Phase IV Maximum Area p IV packets, a routing system will refuse toA forward any packets for node addresses higher than the routingsE Phase IV Maximum Address. The answer to this question will be thesE maximum Phase IV address that the router will consider; a value oft 1023 is recommended.a2 phaseiv_max_areao Phase IV Maximum Area?iD When forwarding Phase IV packets, a level 2 router will refuse toF forward any packets for node area addresses higher than the routingH Phase IV Maximum Area parameter. The answer to this question will beD the maximum Phase IV area number that the router will consider; a value of 63 is recommended.2 nsp_flow_policy+ "NSP flow control policy (SEGMENT, NO)?"eF The NSP flow control policy to be used on this system. The allowedF options are SEGMENT FLOW CONTROL (the default) and NO FLOW CONTROL.2 escache_sizeF The Routing ES Cache Size attribute specifies the maximum number ofE entries in the ES Cache. This parameter may take values from 1 tou" 4096; the default value is 512.2 phasev_not_loadedC HP advises that you reboot before invoking net$configure because 3 the Phase V software is not yet properly loaded.L2 osi_over_tcpipfA If you wish to run OSI applications such as OSAK, VT, FTAM, orA X.25 over TCP/IP using RFC1006, answer YES to this question. oC This will cause net$configure to include port 102 in the set of : osi transport rfc1006 listener ports attribute of your C SYS$MANAGER:NET$OSI_TRANSPORT_STARTUP.NCL script. Execution of (? this script will enable OSI over TCP/IP on the local node. cE However, in order to establish RFC1006 connections, you must also R ensure that: D o TCP/IP for OpenVMS and PWIP software is configured and running- on both the local and remote nodes; andiA o The remote node also has OSI over TCP/IP enabled (i.e., it y, must also be listening on port 102). 2 decnet_over_tcpipD If you wish to run DECnet applications such as CTERM, MAIL, FAL, B etc., over TCP/IP using RFC1859, answer YES to this question. C This will cause net$configure to include port 399 in the set of i: osi transport rfc1006 listener ports attribute of your C SYS$MANAGER:NET$OSI_TRANSPORT_STARTUP.NCL script. Execution of bB this script will enable DECnet over TCP/IP on the local node. E However, in order to establish RFC1859 connections, you must also T ensure that: D o TCP/IP for OpenVMS and PWIP software is configured and running- on both the local and remote nodes; andrD o The remote node also has DECnet over TCP/IP enabled (i.e., it , must also be listening on port 399). 2 new_server_not_dnssF The presence of the SYS$SYSTARTUP:DNS$SERVER_STARTUP.COM procedure F indicates that you want to configure this node to be a DNS server. G The SYS$MANAGER:DNS_FILES.TXT file either is not present or does not E point to a valid directory. Therefore, it appears that you are in E the process of configuring this node as a DNS server for the firstY time. H If you do not wish to enable the DECdns server software at this time,@ answer NO to this question. This will cause your node to be E configured as a DNS Clerk, and the list of the directory services ' that you just provided will be used.rG If you do wish to configure this node as a server, answer YES to be rE prompted for a new list of directory services. The list that you nD provide must begin with DECdns so that the initial DECdns server A configuration can be established. Although HP recommends that D DECdns servers always use DECdns as their primary naming service,G you may later choose to reconfigure the DNS server to use a primary mG naming service other than DECdns by running net$configure again and u selecting Option 2.2 old_server_not_dnstE Answer YES to be prompted for a different list of naming services , which includes DECdns as the first entry.C Answer NO if you wish to ignore the recommendation to use DECdnstC as the primary naming service on this previously configured DNS aE server. If you do this, net$configure will automatically attempt rE to set up access control so that your server can still access its oD DECdns namespace. However, it may still be necessary for you to 4 manually perform some access control adjustments.2 fully_qualified_host_name@ A fully qualified host name is the host name as specified in D DNS/Bind. It consists of a series of simple names starting with . the most specific simple name, for example: mynode.hp.comC Alternatively, you may enter the domain fullname at this prompt.eA The domain fullname consists of the DOMAIN namespace nickname, G followed by a colon, and the fully qualified host name, for example:e DOMAIN:mynode.hp.com a2 decdns_or_local_fullnames> Fullnames in the DECdns or Local namespaces will contain a <  namespace nickname, followed by a colon, then one or more= simplenames each preceded by a period. The initial period.< signifies the root directory. These ordered simplenames @ specify the node's position within the naming heirarchy from > least specific to most specific. The rightmost simplename @ represents the node itself. Here are examples of DECdns and  LOCAL fullnames: THIS_NS:.branch.office.mynode LOCAL:.loc.mynode; Local fullnames always start with the rarameter. The answer to this question will beD the maximum Phase IV area number that the router will consider; a value of 63 is recommended.2 nsp_flow_policy+ "NSP flow control policy (SEGMENT, NO)?"eF The NSP flow control policy to be used on this system. The allowedF options are SEGMENT FLOW CONTROL (the default) and NO FLOW CONTROL.2 escache_sizeF The Routing ES Cache Size attribute specifies the maximum number ofE entries in the ES Cache. This parameter may take values from 1 tou" 4096; the default value is 512.2 phasev_not_loadedC HP advises that you reboot before invoking net$configure because 3 the Phase V software is not yet properly loaded.L2 osi_over_tcpipfA If you wish to run OSI applications such as OSAK, VT, FTAM, orA X.25 over TCP/IP using RFC1006, answer YES to this question. oC This will cause net$configure to include port 102 in the set of : osi transport rfc1006 listener ports attribute of your C SYS$MANAGER:NET$OSI_TRANSPORT_STARTUP.NCL script. Execution of (? this script will enable OSI over TCP/IP on the local node. cE However, in order to establish RFC1006 connections, you must also R ensure that: D o TCP/IP for OpenVMS and PWIP software is configured and running- on both the local and remote nodes; andiA o The remote node also has OSI over TCP/IP enabled (i.e., it y, must also be listening on port 102). 2 decnet_over_tcpipD If you wish to run DE Cnet applications such as CTERM, MAIL, FAL, B etc., over TCP/IP using RFC1859, answer YES to this question. C This will cause net$configure to include port 399 in the set of i: osi transport rfc1006 listener ports attribute of your C SYS$MANAGER:NET$OSI_TRANSPORT_STARTUP.NCL script. Execution of bB this script will enable DECnet over TCP/IP on the local node. E However, in order to establish RFC1859 connections, you must also T ensure that: D o TCP/IP for OpenVMS and PWIP software is configured and running- on both the local and remote nodes; andrD o The remote node also has DECnet over TCP/IP enabled (i.e., it , must also be listening on port 399). 2 decnet_interfaces_helpDD If you wish to run DECnet applications such as CTERM, MAIL, FAL, > etc., over TCP/IP using RFC1006/RFC1859, you can select theB IP-configured interfaces that should be used to receive inbound RFC1006 connection requests.t@ You can either answer ALL to this question, or you can give a< list of comma-separated IP addresses on which the inbound" connections should be received.C Note: Currently this feature works for static IP addresses only.nB Hence if the IP address(es) of the interfaces change then( a re-configuration is required.C This will cause net$configure to include the IP addresses in the B set of osi transport rfc1006 listener ipaddresses attribute of B your SYS$MANAGER:NET$OSI_TRANSPORT_STARTUP.NCL script. However,D in order to receive inbound RFC1006/RFC1859 connections, you must also ensure that: rD o TCP/IP for OpenVMS and PWIP software is configured and running- on both the local and remote nodes; andoB o The local node has DECnet/OSI over TCP/IP enabled (i.e., it E must be listening on port 399/102 on at least one IP-configuredo interface). c2 new_server_not_dns F The presence of the SYS$SYSTARTUP:DNS$SERVER_STARTUP.COM procedure F indicates  that you want to configure this node to be a DNS server. G The SYS$MANAGER:DNS_FILES.TXT file either is not present or does notE point to a valid directory. Therefore, it appears that you are inSE the process of configuring this node as a DNS server for the firstm time. H If you do not wish to enable the DECdns server software at this time,@ answer NO to this question. This will cause your node to be E configured as a DNS Clerk, and the list of the directory services '  that you just provided will be used.eG If you do wish to configure this node as a server, answer YES to be nE prompted for a new list of directory services. The list that you cD provide must begin with DECdns so that the initial DECdns server A configuration can be established. Although HP recommends thattD DECdns servers always use DECdns as their primary naming service,G you may later choose to reconfigure the DNS server to use a primary gG naming service other than DECdn s by running net$configure again and D selecting Option 2.2 old_server_not_dnsrE Answer YES to be prompted for a different list of naming services r, which includes DECdns as the first entry.C Answer NO if you wish to ignore the recommendation to use DECdnsaC as the primary naming service on this previously configured DNS E server. If you do this, net$configure will automatically attempt E to set up access control so that your server can still access its hD DECdns namespace. However, it may still be necessary for you to 4 manually perform some access control adjustments.2 fully_qualified_host_name@ A fully qualified host name is the host name as specified in D DNS/Bind. It consists of a series of simple names starting with . the most specific simple name, for example: mynode.hp.comC Alternatively, you may enter the domain fullname at this prompt.eA The domain fullname consists of the DOMAIN namespace nickname,hG followed by  a colon, and the fully qualified host name, for example:s DOMAIN:mynode.hp.com 2 decdns_or_local_fullnamei> Fullnames in the DECdns or Local namespaces will contain a < namespace nickname, followed by a colon, then one or more= simplenames each preceded by a period. The initial period< signifies the root directory. These ordered simplenames @ specify the node's position within the naming heirarchy from > least specific to most specific. The rightmost simplename @eserved namespace; nickname "local". DECdns namespace nicknames will vary.2 found_server_disabled< Answer YES to configure this node as a DNS Server. This : will rename SYS$STARTUP:DNS$SERVER_STARTUP.COM-DISABLED< to .COM. If this node was configured at one time to be a? DNS Server, then that previous configuration will be used. ? If it has never been configured as a DNS Server, then a new ! configuration will be created.9 Answer NO to this question if you wish to remain a DNS Clerk. 2 found_old_server: If you answer NO to this question, the system will use / the pre-existing DNS server configuration. ; Answer YES to this question if you wish to instead bring! this node up as a DNS clerk. 2 confirm_new_server9 This node has not yet been configured as a DNS server;9 however, the DNS server software has been installed. 9 If you do not wish to configure the server software at8 this time, answer YES to this question to disable the startup of the server.ww represents the node itself. Here are examples of DECdns and  LOCAL fullnames: THIS_NS:.branch.office.mynode LOCAL:.loc.mynode; Local fullnames always start with the reserved namespace; nickname "local". DECdns namespace nicknames will vary.2 found_server_disabled< Answer YES to configure this node as a DNS Server. This : will rename SYS$STARTUP:DNS$SERVER_STARTUP.COM-DISABLED< to .COM. If this node was configured at one time to be a? DNS Server, then that previous configuration will be used. ? If it has never been configured as a DNS Server, then a new ! configuration will be created.9 Answer NO to this question if you wish to remain a DNS Clerk. 2 found_old_server: If you answer NO to this question, the system will use / the pre-existing DNS server configuration. ; Answer YES to this question if you wish to instead bring! this node up as a DNS clerk. 2 confirm_new_server9 This node has not yet been configured as a DNS server;9 however, the DNS server software has been installed. 9 If you do not wish to configure the server software at8 this time, answer YES to this question to disable the startup of the server.ww