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IETF RFC 1665

Definitions of Managed Objects for SNA NAUs using SMIv2

Last modified on Thursday, July 21st, 1994

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Network Working Group                                    Z. Kielczewski
Request for Comments: 1665                 Eicon Technology Corporation
Category: Standards Track                                  D. Kostick
                                           Bell Communications Research
                                                                K. Shih
                                                                 Novell
                                                                Editors
                                                              July 1994


                     Definitions of Managed Objects
                        for SNA NAUs using SMIv2

 Status of this Memo

   This document specifies an Internet standards track protocol for the
   Internet community, and requests discussion and suggestions for
   improvements.  Please refer to the current edition of the "Internet
   Official Protocol Standards" (STD 1) for the standardization state
   and status of this protocol.  Distribution of this memo is unlimited.

 Table of Contents

   1. Introduction ................................................    2
   2. The SNMPv2 Network Management Framework .....................    2
   2.1 Object Definitions .........................................    2
   3. Overview ....................................................    3
   3.1 Applying MIB II to managing SNA NAUs .......................    4
   3.2 SNANAU MIB Structure .......................................    4
   3.2.1 snaNode group ............................................    5
   3.2.2 snaLu group ..............................................    6
   3.2.3 snaMgtTools group ........................................    7
   3.2.4 Conformance statement ....................................    7
   3.3 SNANAU MIB special feature .................................    7
   3.3.1 Row Creation mechanism ...................................    8
   3.3.2 State Diagrams ...........................................    8
   4. Object Definitions ..........................................    9
   5. Acknowledgments .............................................   66
   6. References ..................................................   66
   7. Security Considerations .....................................   67
   8. Authors' Addresses ..........................................   67










Kielczewski, Kostick & Shih                                  PAGE 1 


RFC 1665 SNANAU MIB July 1994 1. Introduction This memo defines a portion of the Management Information Base (MIB) for use with network management protocols in the Internet community. In particular, it defines objects for managing the configuration, monitoring and control of Physical Units (PUs) and Logical Units (LUs) in an SNA environment. PUs and LUs are two types of Network Addressable Units (NAUs) in the logical structure of an SNA network. NAUs are the origination or destination points for SNA data streams. This memo identifies managed objects for PU Type 1.0, 2.0 and Type 2.1 and LU Type 0, 1, 2, 3, 4, 7. The generic objects defined here can also be used to manage LU 6.2 and any LU-LU session. The SNA terms and overall architecture are documented in [1]. 2. The SNMPv2 Network Management Framework The SNMPv2 Network Management Framework consists of four major components. They are: o RFC 1442 [2] which defines the SMI, the mechanisms used for describing and naming objects for the purpose of management. o STD 17, RFC 1213 [3] defines MIB-II, the core set of managed objects for the Internet suite of protocols. o RFC 1445 [4] which defines the administrative and other architectural aspects of the framework. o RFC 1448 [5] which defines the protocol used for network access to managed objects. The Framework permits new objects to be defined for the purpose of experimentation and evaluation. 2.1. Object Definitions Managed objects are accessed via a virtual information store, termed the Management Information Base or MIB. Objects in the MIB are defined using the subset of Abstract Syntax Notation One (ASN.1) defined in the SMI (RFC 1442 [2]). In particular, each object type is named by an OBJECT IDENTIFIER, an administratively assigned name. The object type together with an object instance serves to uniquely identify a specific instantiation of the object. For human convenience, we often use a textual string, termed the descriptor, to refer to the object type. Kielczewski, Kostick & Shih PAGE 2

RFC 1665 SNANAU MIB July 1994 3. Overview This document identifies the proposed set of objects for managing the configuration, monitoring and control of Physical Units (PUs) and Logical Units (LUs) in an SNA environment. In this document, the name "Node" is used to describe SNA Node Type 1.0, 2.0 and Type 2.1 and the name "LU" is used to describe Logical Unit of Type 0, 1, 2, 3, 4, 7 and 6.2. Note however that only objects common to all PU and LU types are covered here and LU 6.2 specific objects are not included in this MIB module. Highlights of the management functions supported by the SNANAU MIB module include the following: o Creation/deletion of Nodes and LUs via the RowStatus objects in the snaNodeAdminTable and in the snaLuAdminTable. o Creation/deletion of table entries associating Node instances with link instances via the RowStatus object in the snaNodeLinkAdminTable o Activation/Deactivation of Nodes via the AdminState object in the snaNodeAdminTable o Deactivation of sessions via the AdminState object in the snaLuSessnTable o Monitoring and modification of parameters related to Nodes, LUs, and Node/link associations o Monitoring of session operational parameters o PU2.0 operational statistics o Session operational statistics o RTM statistics o Traps for: + Node state change + Node activation failure + LU state change + LU session BIND failure Kielczewski, Kostick & Shih PAGE 3

RFC 1665 SNANAU MIB July 1994 This MIB module does not support: o creation of links - the SNA DLC MIB [6] supports management capabilities for links, o activation or deactivation of LUs, nor o activation of sessions. 3.1. Applying MIB II to managing SNA NAUs This section identifies how MIB II objects, specifically the MIB II system group will be used in SNMP-based management of SNA NAUs. The MIB II system group applies to the SNMP Agent. The following object is from the MIB II system group: sysUpTime: clock in the SNMP Agent/proxy-Agent; expressed in TimeTicks (1/100s of a seconds). This MIB module uses the TimeStamp TEXTUAL-CONVENTION which is defined in the SNMPv2 Textual Conventions (RFC 1443 [7]) as "the value of MIB II's sysUpTime object when a specific occurrence happens." The specific occurrences related to SNA NAU management are defined in this MIB module. 3.2. SNANAU MIB Structure The SNANAU MIB module contains three groups of objects: o snaNode - objects related to Node configuration, monitoring and control. o snaLu - objects related to LU definition, monitoring and control. o snaMgtTools - objects related to specific management tools well known in SNA environment. These groups are described below in more detail. The objects related to PUs and LUs are organized into two types of tables: the Admin and Oper tables. The "Admin" table contains parameters which are used by a Management Station to affect the operation of the SNA service. Some parameters are used to initialize and configure the SNA service at the next startup, while others can take effect immediately. A Management Station can dynamically define SNA resources (PUs, LUs) by creating Kielczewski, Kostick & Shih PAGE 4

RFC 1665 SNANAU MIB July 1994 new entries in the Admin table. It uses a special object, AdminState, to control the desired state of a defined PU or LU Session resource. Note that this MIB does not allow the manipulation of an LU's operational state. The "Oper" table is an extension (augment) of the corresponding Admin table. It contains objects which correspond to the values of parameters currently used by the SNA system. 3.2.1. snaNode group The snaNode group consists of the following tables: 1) snaNodeAdminTable This table contains objects which describe the configuration parameters of an SNA Node. Link-specific configuration objects are contained in a separate MIB module (e.g., the SNA DLC MIB module) corresponding to link type. Entries in this table can be created, modified and deleted by either an Agent or a Management Station. The snaNodeAdminRowStatus object describes the status of an entry and is used to change the status of that entry. The snaNodeAdminState object describes the desired operational state of a Node and is used to change the operational state of a Node. How an Agent or a Management Station obtains the initial value of each object at creation time is an implementation specific issue not addressed in this memo. For each entry in the snaNodeAdminTable, there is a corresponding entry in the snaNodeOperTable. While the objects in this table describe the desired or configured operational values of the SNA Node, the actual runtime values are contained in snaNodeOperTable. 2) snaNodeOperTable - Each row contains runtime and operational state variables for a Node. It is an extension of snaNodeAdminTable and as such uses the same index. The rows in this table are created by an Agent as soon as the entry in the Admin Table become 'active'. The entries in this table cannot be modified by a Management Station. 3) snaPu20StatsTable - Each row contains statistics variables (counters) for a PU 2.0. The entries in this table are indexed by snaNodeAdminIndex. The rows in this table are created by an Agent as soon as the corresponding entry in the snaNodeAdminTable becomes 'active'. Kielczewski, Kostick & Shih PAGE 5

RFC 1665 SNANAU MIB July 1994 4) snaNodeLinkAdminTable - This table contains all references to link- specific tables. If a Node is configured with multiple links, then it will have multiple entries in this table. The entries in this table can be generated initially, after startup of SNA service, by the Agent which uses information from Node configuration file. Subsequent modifications of parameters, creation of new Node link entries and deletion of entries is possible. The modifications to this table can be saved in the Node configuration file for the next startup (i.e., restart or next initialization) of SNA service, but the mechanism for this function is not defined in this memo. Each entry contains the configuration information that associates a Node instance to one link instance. The entries are indexed by snaNodeAdminIndex and snaNodeLinkAdminIndex. 5) snaNodeLinkOperTable - This table contains all references to link- specific tables for operational parameters. If the Node is configured for multiple links, then it will have multiple entries in this table. This table augments the snaNodeLinkAdminTable. 6) snaNodeTraps - Two traps are defined for Nodes. The snaNodeStateChangeTrap indicates that the operational state of a Node has changed. The snaNodeActFailTrap indicates the failure of ACTPU received from host. 3.2.2. snaLu group The snaLu group consists of the following tables: 1) snaLuAdminTable - Table containing LU configuration information. The rows in this table can be created and deleted by a Management Station. Only objects which are common to all types of LUs are included in this table. The entries are indexed by Node and LU indices. 2) snaLuOperTable - Table containing dynamic runtime information and control variables relating to LUs. Only objects which are common to all types of LUs are included in this table. This table augments the snaLuAdminTable. 3) snaLuSessnTable - This is a table containing objects which describe the operational state of LU-LU sessions. Only objects which are common to all types of LU-LU sessions are included in this table. When a session enters the state 'pending-bind (2)', the corresponding entry in the session table is created by the Agent. When the session state becomes 'unbound (1)', then the session will be removed from the session table by the Agent. Entries are indexed by Node, Link, LU and session indices. Kielczewski, Kostick & Shih PAGE 6

RFC 1665 SNANAU MIB July 1994 4) snaLuSessnStatsTable - Table containing dynamic statistics information relating to LU-LU sessions. The entries in this table augment the entries in the snaLuSessnTable and cannot be created by a Management Station. 5) snaLuTraps - Two traps are defined for LUs. The snaLuStateChangeTrap indicates that the operational state of an LU has changed. The snaLuSessnBindFailTrap indicates the failure of a BIND request. 3.2.3. snaMgtTools group This is an optional group. The snaMgtTools group consists of the following table: 1) snaLuRtmTable Each row contains Response Time Monitor (RTM) variables for an LU. The table is indexed by Node and LU indices. Entries correspond to LU 2 entries in the snaLuAdminTable. A Management Station can read collection of RTM statistics for a given LU. 3.2.4. Conformance statement Compliance of the SNMPv2 management entity to the SNANAU MIB is defined in terms of following conformance units called groups. Unconditionally mandatory groups: snaNodeGroup, snaLuGroup, snaSessionGroup. Conditionally mandatory groups: snaPu20Group - mandatory only for those entities which implement PU type 2.0. The snaMgtToolsRtmGroup - mandatory only for those entities which implement LU type 2 and RTM. Refinement of requirements for objects access: an Agent which does not implement row creation for snaNodeAdminTable snaNodeLinkAdminTable and snaLuAdminTable must at least support object modification requests (i.e., read-write access instead of read-create). 3.3. SNANAU MIB special feature This section describes the mechanism used for row creation in the Admin tables and also presents critical state transitions for PUs, LUs and Sessions. Kielczewski, Kostick & Shih PAGE 7

RFC 1665 SNANAU MIB July 1994 3.3.1. Row Creation mechanism The row creation mechanism for the Admin tables in this MIB module is based on the use of the RowStatus object. Restriction of some operations for specific tables are described in each table. In particular, before accepting the 'destroy' value for an entry, an Agent has to verify the operational state of the corresponding entry in the Oper table. 3.3.2. State Diagrams The following state diagram models the state transitions for Nodes. When a row is created by a Management Station, an Agent creates the Oper table entry for that Node with the OperState equal to 'inactive'. An Agent cannot accept any operations for that Node until the RowStatus is set to 'active'. OperState -> inactive active waiting stopping --------------I--------------I--------------I-------------I--------- AdminState: I I I I active I active I active I waiting I no I I I I inactive I inactive I stopping I inactive I stopping I or inactive I The following state diagram models state transitions for Sessions. When a session goes to the 'unbound' state [1], the corresponding entry will be removed from the Session table by the Agent. OperState -> unbound pending-bind bound pending-unbind --------------I--------------I--------------I---------I-------------- AdminState: I I I I bound I no I no I no I no I I I I unbound I unbound I unbound I unbound I unbound Kielczewski, Kostick & Shih PAGE 8

RFC 1665 SNANAU MIB July 1994 4. Object Definitions SNA-NAU-MIB DEFINITIONS ::= BEGIN -- This MIB module contains objects necessary -- for management of the following SNA devices: PU types 1.0, 2.0, 2.1 -- and LU types 0, 1, 2, 3, 4, 7. It also contains generic objects -- which can be used to manage LU 6.2. -- Naming conventions in this document: -- The following names are used in object descriptors according to -- SNA conventions. -- The name 'PU' or 'Node' is used to describe Node type 1.0, 2.0 or -- 2.1. -- The name 'LU' is used to describe Logical Unit of type 0,1,2,3, -- 4,7 or 6.2. IMPORTS DisplayString, RowStatus, TimeStamp, InstancePointer FROM SNMPv2-TC Counter32, Gauge32, Integer32, OBJECT-TYPE, MODULE-IDENTITY, NOTIFICATION-TYPE FROM SNMPv2-SMI MODULE-COMPLIANCE, OBJECT-GROUP FROM SNMPv2-CONF; snanauMIB MODULE-IDENTITY LAST-UPDATED "9402041800Z" ORGANIZATION "IETF SNA NAU MIB Working Group" CONTACT-INFO " Zbigniew Kielczewski Eicon Technology Inc. 2196 32nd Avenue Lachine, Que H8T 3H7 Canada Tel: 1 514 631 2592 E-mail: zbig@eicon.qc.ca Deirdre Kostick Bell Communications Research Red Bank, NJ 07701 Tel: 1 908 758 2642 Kielczewski, Kostick & Shih PAGE 9

RFC 1665 SNANAU MIB July 1994 E-mail: dck2@mail.bellcore.com Kitty Shih (editor) Novell 890 Ross Drive Sunnyvale, CA 94089 Tel: 1 408 747 4305 E-mail: kmshih@novell.com" DESCRIPTION "This is the MIB module for objects used to manage SNA devices." ::= { mib-2 34 } -- The SNANAU MIB module contains an objects part and a conformance part. -- Objects are organized into the following groups: -- (1)snaNode group, -- (2)snaLU group, -- (3)snaMgtTools group. snanauObjects OBJECT IDENTIFIER ::= { snanauMIB 1 } snaNode OBJECT IDENTIFIER ::= { snanauObjects 1 } snaLu OBJECT IDENTIFIER ::= { snanauObjects 2 } snaMgtTools OBJECT IDENTIFIER ::= { snanauObjects 3} -- *************************************************************** -- snaNode group -- -- It contains Managed Objects related to any type of Node and -- some specific objects for Node Type 2.0. -- *************************************************************** -- *************************************************************** -- The following table contains generic Node configuration -- parameters. -- *************************************************************** snaNodeAdminTable OBJECT-TYPE SYNTAX SEQUENCE OF SnaNodeAdminEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains objects which describe the configuration parameters for an SNA Node. Link specific configuration objects are contained in a separate MIB module (e.g., SNA DLC MIB) Kielczewski, Kostick & Shih PAGE 10

RFC 1665 SNANAU MIB July 1994 corresponding to the link type. The table snaNodeAdminLinkTable contains objects which identify the relationship between node instances and link instances. The entries (i.e., rows) in this table can be created by either an Agent or a Management Station. The Management Station can do this through setting the appropriate value in the snaNodeAdminRowStatus. The snaNodeAdminRowStatus object describes the status of an entry and is used to change the status of an entry. The entry is deleted by an Agent based on the value of the snaNodeAdminRowStatus. The snaNodeAdminState object describes the desired operational state of a Node and is used to change the operational state of a Node. For example, such information may be obtained from a configuration file. How an Agent or a Management Station obtains the initial value of each object at creation time is an implementation specific issue. For each entry in this table, there is a corresponding entry in the snaNodeOperTable. While the objects in this table describe the desired or configured operational values of the SNA Node, the actual runtime values are contained in snaNodeOperTable." ::= { snaNode 1 } snaNodeAdminEntry OBJECT-TYPE SYNTAX SnaNodeAdminEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry contains the configuration parameters for one SNA Node instance. The objects in the entry have read-create access. An entry can be created, modified or deleted. The object snaNodeAdminRowStatus is used (i.e., set) to create or delete a row entry." INDEX { snaNodeAdminIndex } ::= { snaNodeAdminTable 1 } SnaNodeAdminEntry ::= SEQUENCE { snaNodeAdminIndex Kielczewski, Kostick & Shih PAGE 11

RFC 1665 SNANAU MIB July 1994 Integer32, snaNodeAdminName DisplayString, snaNodeAdminType INTEGER, snaNodeAdminXidFormat INTEGER, snaNodeAdminBlockNum DisplayString, snaNodeAdminIdNum DisplayString, snaNodeAdminEnablingMethod INTEGER, snaNodeAdminLuTermDefault INTEGER, snaNodeAdminMaxLu Integer32, snaNodeAdminHostDescription DisplayString, snaNodeAdminStopMethod INTEGER, snaNodeAdminState INTEGER, snaNodeAdminRowStatus RowStatus } snaNodeAdminIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "Index used to uniquely identify each Node instance. If an Agent creates the entry, then it will assign this number otherwise a Management Station generates a random number when it reserves the entry for creation." ::= { snaNodeAdminEntry 1 } snaNodeAdminName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..17)) MAX-ACCESS read-create STATUS current DESCRIPTION "The value indicates the desired name of the Node for use during Node activation. In Type 2.1 networks, this is a fully-qualified name, meaning that the Node name is preceded by the NetId (if Kielczewski, Kostick & Shih PAGE 12

RFC 1665 SNANAU MIB July 1994 present) with a period as the delimiter. A write operation to this object will not change the operational value reflected in snaNodeOperName until the Node has been re-activated (e.g., after the next initialization of the SNA services)." ::= { snaNodeAdminEntry 2 } snaNodeAdminType OBJECT-TYPE SYNTAX INTEGER { other(1), pu10(2), pu20(3), t21len(4), endNode(5), networkNode(6) } MAX-ACCESS read-create STATUS current DESCRIPTION "The value indicates the type of SNA Node. A write operation to this object will not change the operational value reflected in snaNodeOperType until the Node has been re-activated (e.g., after the next initialization of the SNA services)." ::= { snaNodeAdminEntry 3 } snaNodeAdminXidFormat OBJECT-TYPE SYNTAX INTEGER { format0(1), format1(2), format3(3) } MAX-ACCESS read-create STATUS current DESCRIPTION "The value indicates the type of XID format used for this Node. Note that there is no format type 2. A write operation to this object will not change the operational value reflected in snaNodeOperAdminXidFormat until the Node has been re-activated (e.g., after the next initialization of the SNA services)." Kielczewski, Kostick & Shih PAGE 13

RFC 1665 SNANAU MIB July 1994 ::= { snaNodeAdminEntry 4 } snaNodeAdminBlockNum OBJECT-TYPE SYNTAX DisplayString (SIZE(3)) MAX-ACCESS read-create STATUS current DESCRIPTION "The value indicates the block number for this Node instance. It is the first 3 hexadecimal digits of the SNA Node id. A write operation to this object will not change the operational value reflected in snaNodeOperBlockNum until the Node has been re-activated (e.g., after the next initialization of the SNA services)." ::= { snaNodeAdminEntry 5 } snaNodeAdminIdNum OBJECT-TYPE SYNTAX DisplayString (SIZE(5)) MAX-ACCESS read-create STATUS current DESCRIPTION "The value indicates the ID number for this Node instance. This is the last 5 hexadecimal digits of the SNA Node id. A write operation to this object will not change the operational value reflected in snaNodeOperIdNum until the Node has been re-activated (e.g., after the next initialization of the SNA services)." ::= { snaNodeAdminEntry 6 } snaNodeAdminEnablingMethod OBJECT-TYPE SYNTAX INTEGER { other (1), startup (2), demand (3), onlyMS (4) } MAX-ACCESS read-create STATUS current DESCRIPTION "The value indicates how the Node should be activated for the first time. The values have the following meanings: Kielczewski, Kostick & Shih PAGE 14

RFC 1665 SNANAU MIB July 1994 other (1) - may be used for proprietary methods not listed in this enumeration, startup (2) - at SNA services' initialization time (this is the default), demand (3) - only when LU is requested by application, or onlyMS (4) - by a Management Station only. A write operation to this object may immediately change the operational value reflected in snaNodeOperEnablingMethod depending on the Agent implementation. If the Agent implementation accepts immediate changes, then the behavior of the Node changes immediately and not only after the next system startup of the SNA services. An immediate change may only apply when the current value `demand (3)' is changed to `onlyMS (4)' and vice versa." ::= { snaNodeAdminEntry 7 } snaNodeAdminLuTermDefault OBJECT-TYPE SYNTAX INTEGER { unbind (1), termself (2), rshutd (3), poweroff(4) } MAX-ACCESS read-create STATUS current DESCRIPTION "The value indicates the desired default method used to deactivate LUs for this Node For LU6.2s, `unbind(1)' is the only valid value. unbind(1) - terminate the LU-LU session by sending an SNA UNBIND request. termself(2) - terminate the LU-LU session by sending an SNA TERM-SELF (Terminate Self) request on the SSCP-LU session. The SSCP will inform the remote session LU partner to send an UNBIND request to terminate the session. rshutd(3) - terminate the LU-LU session by sending an SNA RSHUTD (Request ShutDown) request to the remote session LU partner. The remote LU will then send an UNBIND request to terminate the session. poweroff(4) - terminate the LU-LU session by sending either an SNA LUSTAT (LU Status) request on Kielczewski, Kostick & Shih PAGE 15

RFC 1665 SNANAU MIB July 1994 the LU-LU session or an SNA NOTIFY request on the SSCP-LU session indicating that the LU has been powered off. Sending both is also acceptable. The result should be that the remote session LU partner will send an UNBIND to terminate the session. The default behavior indicated by the value of this object may be overridden for an LU instance. The override is performed by setting the snaLuAdminTerm object instance in the snaLuAdminTable to the desired value. A write operation to this object may immediately change the operational value reflected in snaNodeOperLuTermDefault depending on the Agent implementation." ::= { snaNodeAdminEntry 8 } snaNodeAdminMaxLu OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The maximum number of LUs that may be activated for this Node. For PU2.1, this object refers to the number of dependent LUs. A write operation to this object will not change the operational value reflected in snaNodeOperMaxLu until the Node has been re-activated (e.g., after the next initialization of the SNA services)." ::= { snaNodeAdminEntry 9 } snaNodeAdminHostDescription OBJECT-TYPE SYNTAX DisplayString (SIZE(0..128)) MAX-ACCESS read-create STATUS current DESCRIPTION "The value identifies the remote host associated with this Node. Since SSCP Id's may not be unique across hosts, the host description is required to uniquely identify the SSCP. This object is only applicable to PU2.0 type Nodes. If the remote host is unknown, then the value is the null string. Kielczewski, Kostick & Shih PAGE 16

RFC 1665 SNANAU MIB July 1994 A write operation to this object may immediately change the operational value reflected in snaNodeOperHostDescription depending on the Agent implementation." ::= { snaNodeAdminEntry 10 } snaNodeAdminStopMethod OBJECT-TYPE SYNTAX INTEGER { other (1), normal (2), immed (3), force (4) } MAX-ACCESS read-create STATUS current DESCRIPTION "The value indicates the desired method to be used by the Agent to stop a Node (i.e., change the Node's operational state to inactive(1) ). The values have the following meaning: other (1) - used for proprietary methods not listed in this enumeration. normal(2) - deactivate only when there is no more activity on this Node (i.e., all data flows have been completed and all sessions have been terminated). immed(3) - deactivate immediately regardless of current activities on this Node. Wait for deactivation responses (from remote Node) before changing the Node state to inactive. force(4) - deactivate immediately regardless of current activities on this Node. Do not wait for deactivation responses (from remote Node) before changing the Node state to inactive. A write operation to this object may immediately change the operational value reflected in snaNodeOperStopMethod depending on the Agent implementation." ::= { snaNodeAdminEntry 11 } snaNodeAdminState OBJECT-TYPE SYNTAX INTEGER { inactive (1), active (2) } Kielczewski, Kostick & Shih PAGE 17

RFC 1665 SNANAU MIB July 1994 MAX-ACCESS read-create STATUS current DESCRIPTION "The value indicates the desired operational state of the SNA Node. This object is used by the Management Station to activate or deactivate the Node. If the current value in snaNodeOperState is `active (2)', then setting this object to `inactive (1)' will initiate the Node shutdown process using the method indicated by snaNodeOperStopMethod. If the current value in snaNodeOperState is `inactive (1)', then setting this object to `active (2)' will initiate the Node's activation. A Management Station can always set this object to `active (2)' irrespective of the value in the snaOperEnablingMethod." ::= { snaNodeAdminEntry 12 } snaNodeAdminRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "This object is used by a Management Station to create or delete the row entry in the snaNodeAdminTable following the RowStatus textual convention. Upon successful creation of the row, an Agent automatically creates a corresponding entry in the snaNodeOperTable with snaNodeOperState equal to `inactive (1)'. Row deletion can be Management Station or Agent initiated: (a) The Management Station can set the value to `destroy (6)' only when the value of snaNodeOperState of this Node instance is `inactive (1)'. The Agent will then delete the rows corresponding to this Node instance from the snaNodeAdminTable and the snaNodeOperTable. (b) The Agent detects that a row is in the Kielczewski, Kostick & Shih PAGE 18

RFC 1665 SNANAU MIB July 1994 `notReady (3)' state for greater than a default period of 5 minutes. (c) All rows with the snaNodeAdminRowStatus object's value of `notReady (3)' will be removed upon the next initialization of the SNA services." ::= { snaNodeAdminEntry 13 } -- *************************************************************** -- The following object is updated when there is a change to -- the value of any object in the snaNodeAdminTable. -- *************************************************************** snaNodeAdminTableLastChange OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value indicates the timestamp (e.g., the Agent's sysUpTime value) of the last change made to any object in the snaNodeAdminTable, including row deletions/additions (e.g., changes to snaNodeAdminRowStatus values). This object can be used to reduce frequent retrievals of the snaNodeAdminTable by a Management Station. It is expected that a Management Station will periodically poll this object and compare its current value with the previous one. A difference indicates that some Node configuration information has been changed. Only then will the Management Station retrieve the entire table." ::= { snaNode 2 } -- *************************************************************** -- The following table contains Node operational parameters. -- *************************************************************** snaNodeOperTable OBJECT-TYPE SYNTAX SEQUENCE OF SnaNodeOperEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains the dynamic parameters which have read-only access. These objects reflect the actual status of the Node. The entries in this table cannot be created or modified by a Kielczewski, Kostick & Shih PAGE 19

RFC 1665 SNANAU MIB July 1994 Management Station. This table augments the snaNodeAdminTable." ::= { snaNode 3 } snaNodeOperEntry OBJECT-TYPE SYNTAX SnaNodeOperEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The entry contains parameters which describe the state of one Node. The entries are created by the Agent. They have read-only access." AUGMENTS { snaNodeAdminEntry } ::= { snaNodeOperTable 1 } SnaNodeOperEntry ::= SEQUENCE { snaNodeOperName DisplayString, snaNodeOperType INTEGER, snaNodeOperXidFormat INTEGER, snaNodeOperBlockNum DisplayString, snaNodeOperIdNum DisplayString, snaNodeOperEnablingMethod INTEGER, snaNodeOperLuTermDefault INTEGER, snaNodeOperMaxLu Integer32, snaNodeOperHostDescription DisplayString, snaNodeOperStopMethod INTEGER, snaNodeOperState INTEGER, snaNodeOperHostSscpId OCTET STRING, snaNodeOperStartTime TimeStamp, snaNodeOperLastStateChange TimeStamp, snaNodeOperActFailures Counter32, snaNodeOperActFailureReason INTEGER Kielczewski, Kostick & Shih PAGE 20

RFC 1665 SNANAU MIB July 1994 } snaNodeOperName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..17)) MAX-ACCESS read-only STATUS current DESCRIPTION "The value identifies the current name of the Node. In Type 2.1 networks, this is a fully-qualified name, meaning that the Node name is preceded by the NetId (if present) with a period as the delimiter." ::= { snaNodeOperEntry 1 } snaNodeOperType OBJECT-TYPE SYNTAX INTEGER { other(1), pu10(2), pu20(3), t21LEN(4), endNode(5), networkNode(6) } MAX-ACCESS read-only STATUS current DESCRIPTION "The value identifies the current type of the Node." ::= { snaNodeOperEntry 2 } snaNodeOperXidFormat OBJECT-TYPE SYNTAX INTEGER { format0 (1), format1 (2), format3 (3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The value identifies the type of XID format currently used for this Node. Note that there is no format type 2." ::= { snaNodeOperEntry 3 } snaNodeOperBlockNum OBJECT-TYPE SYNTAX DisplayString (SIZE(3)) MAX-ACCESS read-only STATUS current DESCRIPTION Kielczewski, Kostick & Shih PAGE 21

RFC 1665 SNANAU MIB July 1994 "The value identifies the block number for this Node instance. It is the first 3 hexadecimal digits of the SNA Node id." ::= { snaNodeOperEntry 4 } snaNodeOperIdNum OBJECT-TYPE SYNTAX DisplayString (SIZE(5)) MAX-ACCESS read-only STATUS current DESCRIPTION "The value identifies the ID number for this Node instance. This is the last 5 hexadecimal digits of the SNA Node id." ::= { snaNodeOperEntry 5 } snaNodeOperEnablingMethod OBJECT-TYPE SYNTAX INTEGER { other (1), startup (2), demand (3), onlyMS (4) } MAX-ACCESS read-only STATUS current DESCRIPTION "The value indicates how the Node is activated for the first time. The values have the following meanings: other (1) - not at boot time, LU activation or by a Management Station; startup (2) - at SNA services' initialization time (this is the default), demand (3) - only when LU is requested by application, onlyMS (4) - by a network Management Station only." ::= { snaNodeOperEntry 6 } snaNodeOperLuTermDefault OBJECT-TYPE SYNTAX INTEGER { unbind (1), termself (2), rshutd (3), poweroff (4) } MAX-ACCESS read-only STATUS current Kielczewski, Kostick & Shih PAGE 22

RFC 1665 SNANAU MIB July 1994 DESCRIPTION "The value identifies the default method used to deactivate LUs for this Node. For LU6.2s, 'unbind(1)' is the only valid value. unbind(1) - terminate the LU-LU session by sending an SNA UNBIND request. termself(2) - terminate the LU-LU session by sending an SNA TERM-SELF (Terminate Self) request on the SSCP-LU session. The SSCP will inform the remote session LU partner to send an UNBIND request to terminate the session. rshutd(3) - terminate the LU-LU session by sending an SNA RSHUTD (Request ShutDown) request to the remote session LU partner. The remote LU will then send an UNBIND request to terminate the session. poweroff(4) - terminate the LU-LU session by sending either an SNA LUSTAT (LU Status) request on the LU-LU session or an SNA NOTIFY request on the SSCP-LU session indicating that the LU has been powered off. Sending both is also acceptable. The result should be that the remote session LU partner will send an UNBIND to terminate the session. This object describes the default behavior for this Node; however, it is possible that for a specific LU the behavior indicated by the snaLuOperTerm object is different." ::= { snaNodeOperEntry 7 } snaNodeOperMaxLu OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "This value identifies the current, maximum number of LUs that are activated for this Node. For PU2.1, this object refers to the number of dependent LUs." ::= { snaNodeOperEntry 8 } snaNodeOperHostDescription OBJECT-TYPE SYNTAX DisplayString (SIZE(0..128)) MAX-ACCESS read-only STATUS current DESCRIPTION Kielczewski, Kostick & Shih PAGE 23

RFC 1665 SNANAU MIB July 1994 "This value identifies the remote host currently associated with this Node. Since SSCP Id's may not be unique across hosts, the host description is required to uniquely identify the SSCP." ::= { snaNodeOperEntry 9 } snaNodeOperStopMethod OBJECT-TYPE SYNTAX INTEGER { other (1), normal (2), immed (3), force (4) } MAX-ACCESS read-only STATUS current DESCRIPTION "This value identifies the current Node shutdown method to be used by the Agent to stop the Node. When the Agent changes the Node's state to 'inactive (1)', the Agent must use the shutdown method indicated by this object. The values have the following meaning: other (1) - proprietary method not listed in this enumeration normal(2) - deactivate only when there is no more activity on this Node (i.e., all data flows have been completed and all sessions have been terminated). immed(3) - deactivate immediately regardless of current activities on this Node. Wait for deactivation responses (from remote Node) before changing the Node state to inactive. force(4) - deactivate immediately regardless of current activities on this Node. Do not wait for deactivation responses (from remote Node) before changing the Node state to inactive. Note that a write operation to snaNodeAdminOperStopMethod may immediately change the value of snaNodeOperStopMethod depending on the Agent implementation." ::= { snaNodeOperEntry 10 } snaNodeOperState OBJECT-TYPE SYNTAX INTEGER { Kielczewski, Kostick & Shih PAGE 24

RFC 1665 SNANAU MIB July 1994 inactive (1), active (2), waiting (3), stopping (4) } MAX-ACCESS read-only STATUS current DESCRIPTION "The current state of the Node. The values have the following meanings: inactive (1), a row representing the Node has been created in the AdminTable and, the Node is ready for activation -or- an active Node has been stopped -or- a waiting Node has returned to the inactive state. waiting (3), a request to have the Node activated has been issued, and the Node is pending activation. active (2), the Node is ready and operating. stopping (4), the request to stop the Node has been issued while the StopMethod normal or immediate is used." ::= { snaNodeOperEntry 11 } snaNodeOperHostSscpId OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..6)) MAX-ACCESS read-only STATUS current DESCRIPTION "This value identifies the current SSCP Id associated with the Node. This object is only applicable to PU 2.0s. If the Node is not a PU 2.0 type, then this object contains a zero length string." ::= { snaNodeOperEntry 12 } snaNodeOperStartTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp (e.g, the Agent's sysUpTime value) at the Node activation." ::= { snaNodeOperEntry 13 } snaNodeOperLastStateChange OBJECT-TYPE SYNTAX TimeStamp Kielczewski, Kostick & Shih PAGE 25

RFC 1665 SNANAU MIB July 1994 MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp (e.g., the Agent's sysUpTime value) at the last state change of the Node." ::= { snaNodeOperEntry 14 } snaNodeOperActFailures OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This value identifies the number of failed Node activation attempts." ::= { snaNodeOperEntry 15 } snaNodeOperActFailureReason OBJECT-TYPE SYNTAX INTEGER { other (1), linkFailure (2), noResources (3), badConfiguration (4), internalError (5) } MAX-ACCESS read-only STATUS current DESCRIPTION "The value indicates the reason for the activation failure. The value `other (1)' indicates a reason not listed in the enumeration. This object will be sent in the trap snaNodeActFailTrap." ::= { snaNodeOperEntry 16 } -- *************************************************************** -- The following object is updated when there is a change to -- the value of snaNodeOperState in any row or a row is -- added/deleted from the snaNodeOperTable via the snaNodeAdminTable. -- *************************************************************** snaNodeOperTableLastChange OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp (e.g., the Agent's sysUpTime value) at the last change made to any object in the Kielczewski, Kostick & Shih PAGE 26

RFC 1665 SNANAU MIB July 1994 snaNodeOperTable, including row deletions/additions made as a result of changes to the snaNodeAdminRowStatus object. This object can be used to reduce frequent retrievals of the snaNodeOperTable by a Management Station. It is expected that a Management Station will periodically poll this object and compare its current value with the previous one. A difference indicates that some Node operational information has been changed. Only then will the Management Station retrieve the entire table." ::= { snaNode 4 } -- *************************************************************** -- The following table contains PU 2.0 statistics dynamic parameters. -- *************************************************************** snaPu20StatsTable OBJECT-TYPE SYNTAX SEQUENCE OF SnaPu20StatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains the dynamic parameters which have read-only access. The entries in this table correspond to PU 2.0 entries in the snaNodeOperTable and cannot be created by a Management Station." ::= { snaNode 5 } snaPu20StatsEntry OBJECT-TYPE SYNTAX SnaPu20StatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The entry contains parameters which describe the statistics for one PU 2.0. They have read-only access. The counters represent traffic for all kinds of sessions: LU-LU, SSCP-PU, SSCP-LU. Each Node of PU Type 2.0 from the snaNodeAdminTable has one entry in this table and the index used here has the same value as snaNodeAdminIndex of that PU. The entry is created by the Agent." INDEX { snaNodeAdminIndex } ::= { snaPu20StatsTable 1 } Kielczewski, Kostick & Shih PAGE 27

RFC 1665 SNANAU MIB July 1994 SnaPu20StatsEntry ::= SEQUENCE { snaPu20StatsSentBytes Counter32, snaPu20StatsReceivedBytes Counter32, snaPu20StatsSentPius Counter32, snaPu20StatsReceivedPius Counter32, snaPu20StatsSentNegativeResps Counter32, snaPu20StatsReceivedNegativeResps Counter32, snaPu20StatsActLus Gauge32, snaPu20StatsInActLus Gauge32, snaPu20StatsBindLus Gauge32 } snaPu20StatsSentBytes OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of bytes sent by this Node." ::= { snaPu20StatsEntry 1 } snaPu20StatsReceivedBytes OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of bytes received by this Node." ::= { snaPu20StatsEntry 2 } snaPu20StatsSentPius OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of PIUs sent by this Node." ::= { snaPu20StatsEntry 3 } snaPu20StatsReceivedPius OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only Kielczewski, Kostick & Shih PAGE 28

RFC 1665 SNANAU MIB July 1994 STATUS current DESCRIPTION "The number of PIUs received by this Node." ::= { snaPu20StatsEntry 4 } snaPu20StatsSentNegativeResps OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of negative responses sent by this Node." ::= { snaPu20StatsEntry 5 } snaPu20StatsReceivedNegativeResps OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of negative responses received by this Node." ::= { snaPu20StatsEntry 6 } snaPu20StatsActLus OBJECT-TYPE SYNTAX Gauge32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of LUs on this PU which have received and responded to ACTLU from the host." ::= { snaPu20StatsEntry 7 } snaPu20StatsInActLus OBJECT-TYPE SYNTAX Gauge32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of LUs on this PU which have not received an ACTLU from the host. This is possible if the number of configured LUs exceeds that on the host." ::= { snaPu20StatsEntry 8 } snaPu20StatsBindLus OBJECT-TYPE SYNTAX Gauge32 MAX-ACCESS read-only STATUS current DESCRIPTION Kielczewski, Kostick & Shih PAGE 29

RFC 1665 SNANAU MIB July 1994 "The number of LUs on this PU which have received and acknowledged a BIND request from the host." ::= { snaPu20StatsEntry 9 } -- *************************************************************** -- The following table contains the association between Nodes and -- link identifiers. -- It is used for configuration purposes. -- *************************************************************** snaNodeLinkAdminTable OBJECT-TYPE SYNTAX SEQUENCE OF SnaNodeLinkAdminEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains the references to link specific tables. If a Node is configured for multiple links, then the Node will have multiple entries in this table. The entries in this table can be generated initially, after initialization of SNA service, by the Agent which uses information from Node configuration file. Subsequent modifications of parameters, creation of new Nodes link entries and deletion of entries is possible. The modification to this table can be saved in the Node configuration file for the next initialization of SNA service, but the mechanism for this function is not defined here." ::= { snaNode 6 } snaNodeLinkAdminEntry OBJECT-TYPE SYNTAX SnaNodeLinkAdminEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry contains the configuration information that associates a Node instance to one link instance. The objects in the entry have read-create access. Entry can be created, modified or deleted. The object snaNodeLinkAdminRowStatus is used (set) to create or delete an entry. The object snaNodeLinkAdminSpecific can be set later, after the entry has been created." INDEX { snaNodeAdminIndex, Kielczewski, Kostick & Shih PAGE 30

RFC 1665 SNANAU MIB July 1994 snaNodeLinkAdminIndex } ::= { snaNodeLinkAdminTable 1 } SnaNodeLinkAdminEntry ::= SEQUENCE { snaNodeLinkAdminIndex Integer32, snaNodeLinkAdminSpecific InstancePointer, snaNodeLinkAdminMaxPiu Integer32, snaNodeLinkAdminRowStatus RowStatus } snaNodeLinkAdminIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This value is used to index the instances of objects. If an Agent creates the entry, then it will assign this number otherwise a Management Station generates a random number when it reserves the entry for creation." ::= { snaNodeLinkAdminEntry 1 } snaNodeLinkAdminSpecific OBJECT-TYPE SYNTAX InstancePointer MAX-ACCESS read-create STATUS current DESCRIPTION "This value points to the ifIndex value instance (in the sdlcLSAdminTable of the SNA DLC MIB module) that corresponds to the link. SDLC link-specific information is provided in the SNA DLC MIB." ::= { snaNodeLinkAdminEntry 2 } snaNodeLinkAdminMaxPiu OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "This value identifies the maximum number of octets that can be exchanged by this Node in one Path Information Unit (PIU)." ::= { snaNodeLinkAdminEntry 3 } Kielczewski, Kostick & Shih PAGE 31

RFC 1665 SNANAU MIB July 1994 snaNodeLinkAdminRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "This object is used by a Management Station to create or delete the row entry in the snaNodeLinkAdminTable. To activate a row, a Management Station sets the value to 'active (1)' or 'notReady (3)'. Upon successful creation of the row, the Agent automatically creates a corresponding entry in the snaNodeLinkOperTable. Row deletion can be Management Station or Agent initiated: (a) The Management Station can set the value to `destroy (6)' only when the value of snaNodeLinkOperState of this Link instance is `inactive (1)'. The Agent will then delete the row corresponding to this Link instance from snaNodeLinkOperTable and from snaNodeLinkAdminTable. (b) The Agent detects that a row is in the `notReady (3)' state for greater than a default period of 5 minutes. (c) The Agent will not include a row with RowStatus= `notReady (3)', after SNA system re-initialization (e.g., reboot)." ::= { snaNodeLinkAdminEntry 4 } -- *************************************************************** -- The following object is updated when there is a change to -- the value of any object in the snaNodeLinkAdminTable. -- *************************************************************** snaNodeLinkAdminTableLastChange OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp (e.g., the Agent's sysUpTime value) at the last change made to any object in the snaNodeLinkAdminTable, including row deletions/additions (i.e., changes to the snaNodeLinkAdminRowStatus object). Kielczewski, Kostick & Shih PAGE 32

RFC 1665 SNANAU MIB July 1994 This object can be used to reduce frequent retrievals of the snaNodeLinkAdminTable by a Management Station. It is expected that a Management Station will periodically poll this object and compare its current value with the previous one. A difference indicates that some Node operational information has been changed. Only then will the Management Station retrieve the entire table." ::= { snaNode 7 } -- *************************************************************** -- The following table contains the association between -- Nodes and link identifiers. -- It provides the current status. -- *************************************************************** snaNodeLinkOperTable OBJECT-TYPE SYNTAX SEQUENCE OF SnaNodeLinkOperEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains all references to link specific tables for operational parameters. If a Node is configured for multiple links, then the Node will have multiple entries in this table. This table augments the snaNodeLinkAdminTable." ::= { snaNode 8 } snaNodeLinkOperEntry OBJECT-TYPE SYNTAX SnaNodeLinkOperEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Entry contains all current parameters for one Node link. The objects in the entry have read-only access." AUGMENTS { snaNodeLinkAdminEntry } ::= { snaNodeLinkOperTable 1 } SnaNodeLinkOperEntry ::= SEQUENCE { snaNodeLinkOperSpecific InstancePointer, snaNodeLinkOperMaxPiu Integer32 } Kielczewski, Kostick & Shih PAGE 33

RFC 1665 SNANAU MIB July 1994 snaNodeLinkOperSpecific OBJECT-TYPE SYNTAX InstancePointer MAX-ACCESS read-only STATUS current DESCRIPTION "This is the object identifier representing the instance of the ifIndex object in the sdlcLSOperTable (of the SNA DLC MIB module). The associated sdlcLSOperTable row will contain information on the link instance." ::= { snaNodeLinkOperEntry 1 } snaNodeLinkOperMaxPiu OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "Maximum number of octets that can be exchanged by this Node in one Path Information Unit (PIU)." ::= { snaNodeLinkOperEntry 2 } -- *************************************************************** -- The following object is updated when a row is added/deleted -- from the snaNodeLinkOperTable. -- *************************************************************** snaNodeLinkOperTableLastChange OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp of the last change made to any object in the snaNodeLinkOperTable, including row deletions/additions. This object can be used to reduce frequent retrievals of the snaNodeLinkOperTable by a Management Station. It is expected that a Management Station will periodically poll this object and compare its current value with the previous one. A difference indicates that some Node operational information has been changed. Only then will the Management Station retrieve the entire table." ::= { snaNode 9 } Kielczewski, Kostick & Shih PAGE 34

RFC 1665 SNANAU MIB July 1994 -- *************************************************************** -- Traps -- *************************************************************** snaNodeTraps OBJECT IDENTIFIER ::= { snaNode 10 } snaNodeStateChangeTrap NOTIFICATION-TYPE OBJECTS { snaNodeOperName, snaNodeOperState } STATUS current DESCRIPTION "This trap indicates that the operational state (i.e., value of the snaNodeOperState object) of a Node has changed. The following variables are returned: snaNodeOperName - current name of the Node, with the instance identifying the Node; and, snaNodeOperState - current state after the change." ::= { snaNodeTraps 1 } snaNodeActFailTrap NOTIFICATION-TYPE OBJECTS { snaNodeOperName, snaNodeOperState, snaNodeOperActFailureReason } STATUS current DESCRIPTION "This trap indicates a Node activation failure. The value of snaNodeOperState indicates the current state after the activation attempt. The value of snaNodeOperActFailureReason indicates the failure reason." ::= { snaNodeTraps 2 } -- *************************************************************** -- snaLu group -- -- It contains Managed Objects related to LUs in general and some -- specific for LUs of type 0, 1, 2, 3. -- *************************************************************** -- *************************************************************** -- The following table contains LU configuration parameters. -- *************************************************************** Kielczewski, Kostick & Shih PAGE 35

RFC 1665 SNANAU MIB July 1994 snaLuAdminTable OBJECT-TYPE SYNTAX SEQUENCE OF SnaLuAdminEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains LU configuration information. The rows in this table can be created and deleted by a Management Station. Only objects which are common to all types of LUs are included in this table." ::= { snaLu 1 } snaLuAdminEntry OBJECT-TYPE SYNTAX SnaLuAdminEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Contains configuration variables for an LU." INDEX { snaNodeAdminIndex, snaLuAdminLuIndex } ::= { snaLuAdminTable 1 } SnaLuAdminEntry ::= SEQUENCE { snaLuAdminLuIndex Integer32, snaLuAdminName DisplayString, snaLuAdminSnaName DisplayString, snaLuAdminType INTEGER, snaLuAdminDepType INTEGER, snaLuAdminLocalAddress OCTET STRING, snaLuAdminDisplayModel INTEGER, snaLuAdminTerm INTEGER, snaLuAdminRowStatus RowStatus } snaLuAdminLuIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "This value identifies the unique index for an Kielczewski, Kostick & Shih PAGE 36

RFC 1665 SNANAU MIB July 1994 LU instance within a Node." ::= { snaLuAdminEntry 1 } snaLuAdminName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..48)) MAX-ACCESS read-create STATUS current DESCRIPTION "This value identifies the user configurable name for this LU. If a name is not assigned to the LU, then this object contains a zero length string. A write operation to this object will not change the operational value reflected in snaLuOperName until the Node has been re-activated (e.g., after the next initialization of the SNA services)." ::= { snaLuAdminEntry 2 } snaLuAdminSnaName OBJECT-TYPE SYNTAX DisplayString (SIZE(1..17)) MAX-ACCESS read-create STATUS current DESCRIPTION "This value identifies the SNA LU name used in exchange of SNA data. A write operation to this object will not change the operational value reflected in snaLuOperSnaName until the Node has been re-activated (e.g., after the next initialization of the SNA services)." ::= { snaLuAdminEntry 3 } snaLuAdminType OBJECT-TYPE SYNTAX INTEGER { other(1), lu0(2), lu1(3), lu2(4), lu3(5), lu4(6), lu62(7), lu7(8) } MAX-ACCESS read-create STATUS current DESCRIPTION Kielczewski, Kostick & Shih PAGE 37

RFC 1665 SNANAU MIB July 1994 "This value identifies the LU type. A write operation to this object will not change the operational value reflected in snaLuOperAdminType until the Node has been re-activated (e.g., after the next initialization of the SNA services)." ::= { snaLuAdminEntry 4 } snaLuAdminDepType OBJECT-TYPE SYNTAX INTEGER { dependent(1), independent(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "This value identifies whether the LU is dependent or independent. A write operation to this object will not change the operational value reflected in snaLuOperDepType until the Node has been re-activated (e.g., after the next initialization of the SNA services)." ::= { snaLuAdminEntry 5 } snaLuAdminLocalAddress OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1)) MAX-ACCESS read-create STATUS current DESCRIPTION "The local address for this LU is a byte with a value ranging from 0 to 254.For dependent LUs, this value ranges from 1 to 254 and for independent LUs this value is always 0. A write operation to this object will not change the operational value reflected in snaLuOperLocalAddress until the Node has been re-activated (e.g., after the next initialization of the SNA services)." ::= { snaLuAdminEntry 6 } snaLuAdminDisplayModel OBJECT-TYPE SYNTAX INTEGER { invalid(1), model2A(2), model2B(3), Kielczewski, Kostick & Shih PAGE 38

RFC 1665 SNANAU MIB July 1994 model3A(4), model3B(5), model4A(6), model4B(7), model5A(8), model5B(9), dynamic(10) } MAX-ACCESS read-create STATUS current DESCRIPTION "The value of this object identifies the model type and screen size of the terminal connected to the host. This is only valid for LU Type 2. The values have the following meaning: model2A(2) - Model 2 (24 rows x 80 cols) with base attributes model2B(3) - Model 2 (24 rows x 80 cols) with extended attributes model3A(4) - Model 3 (32 rows x 80 cols) with base attributes model3B(5) - Model 3 (32 rows x 80 cols) with extended attributes model4A(6) - Model 4 (43 rows x 80 cols) with base attributes model4B(7) - Model 4 (43 rows x 80 cols) with extended attributes model5A(8) - Model 5 (27 rows x 132 cols) with base attributes model5B(9) - Model 5 (27 rows x 132 cols) with extended attributes dynamic(10) - Screen size determine with BIND and Read Partition Query. In case this LU is not Type 2, then this object should contain the invalid(1) value." ::= { snaLuAdminEntry 7 } snaLuAdminTerm OBJECT-TYPE SYNTAX INTEGER { unbind (1), termself (2), rshutd (3), poweroff (4) } MAX-ACCESS read-create STATUS current Kielczewski, Kostick & Shih PAGE 39

RFC 1665 SNANAU MIB July 1994 DESCRIPTION "This value identifies the desired method for deactivation of this LU. This value overrides the default method (snaNodeOperLuTermDefault) for this Node. For LU 6.2, only the value 'unbind (1)' applies. unbind(1) - terminate the LU-LU session by sending an SNA UNBIND request. termself(2) - terminate the LU-LU session by sending an SNA TERM-SELF (Terminate Self) request on the SSCP-LU session. The SSCP will inform the remote session LU partner to send an UNBIND request to terminate the session. rshutd(3) - terminate the LU-LU session by sending an SNA RSHUTD (Request ShutDown) request to the remote session LU partner. The remote LU will then send an UNBIND request to terminate the session. poweroff(4) - terminate the LU-LU session by sending either an SNA LUSTAT (LU Status) request on the LU-LU session or an SNA NOTIFY request on the SSCP-LU session indicating that the LU has been powered off. Sending both is also acceptable. The result should be that the remote session LU partner will send an UNBIND to terminate the session. A write operation to this object may immediately change the operational value reflected in snaLuOperTerm depending on the Agent implementation." ::= { snaLuAdminEntry 8 } snaLuAdminRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "This object is used by a Management Station to create or delete the row entry in the snaLuAdminTable. To activate a row, the Management Station sets the value to 'active (1)' or 'notReady (3)'. Upon successful creation of the row, the Agent automatically creates a corresponding entry in the snaLuOperTable with snaLuOperState equal to 'inactive (1)'. Kielczewski, Kostick & Shih PAGE 40

RFC 1665 SNANAU MIB July 1994 Row deletion can be Management Station or Agent initiated: (a) The Management Station can set the value to 'destroy (6)' only when the value of snaLuOperState of this LU instance is 'inactive (1)'. The Agent will then delete the row corresponding to this LU instance from snaLuAdminTable and from snaLuOperTable. (b) The Agent detects that a row is in the 'notReady (3)' state for greater than a default period of 5 minutes. (c) The Agent will not create a row with RowStatus equal to 'notReady (3)', after SNA system re-initialization (e.g., reboot)." ::= { snaLuAdminEntry 9 } -- *************************************************************** -- The following table contains LU state dynamic parameters. -- *************************************************************** snaLuOperTable OBJECT-TYPE SYNTAX SEQUENCE OF SnaLuOperEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains dynamic runtime information and control variables relating to LUs. Only objects which are common to all types of LUs are included in this table. This table augments the snaLuAdminTable." ::= { snaLu 2 } snaLuOperEntry OBJECT-TYPE SYNTAX SnaLuOperEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Contains objects reflecting current information for an LU. Each entry is created by the Agent. All entries have read-only access." AUGMENTS { snaLuAdminEntry } ::= { snaLuOperTable 1 } SnaLuOperEntry ::= SEQUENCE { snaLuOperName DisplayString, Kielczewski, Kostick & Shih PAGE 41

RFC 1665 SNANAU MIB July 1994 snaLuOperSnaName DisplayString, snaLuOperType INTEGER, snaLuOperDepType INTEGER, snaLuOperLocalAddress OCTET STRING, snaLuOperDisplayModel INTEGER, snaLuOperTerm INTEGER, snaLuOperState INTEGER, snaLuOperSessnCount Gauge32 } snaLuOperName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..48)) MAX-ACCESS read-only STATUS current DESCRIPTION "User configurable name for this LU. If a name is not assigned, then this object contains a zero length string." ::= { snaLuOperEntry 1 } snaLuOperSnaName OBJECT-TYPE SYNTAX DisplayString (SIZE(1..17)) MAX-ACCESS read-only STATUS current DESCRIPTION "The value identifies the current SNA LU name." ::= { snaLuOperEntry 2 } snaLuOperType OBJECT-TYPE SYNTAX INTEGER { other(1), lu0(2), lu1(3), lu2(4), lu3(5), lu4(6), lu62(7), lu7(8) } MAX-ACCESS read-only Kielczewski, Kostick & Shih PAGE 42

RFC 1665 SNANAU MIB July 1994 STATUS current DESCRIPTION "The value identifies the current LU type." ::= { snaLuOperEntry 3 } snaLuOperDepType OBJECT-TYPE SYNTAX INTEGER { dependent(1), independent(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "The value identifies whether the LU is currently dependent or independent. A write operation to this object will not change the operational value reflected in snaLuOperDepType until the Node has been re-activated (e.g., after the next initialization of the SNA services)." ::= { snaLuOperEntry 4 } snaLuOperLocalAddress OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1)) MAX-ACCESS read-only STATUS current DESCRIPTION "The local address for this LU is a byte with a value ranging from 0 to 254. For dependent LUs, this value ranges from 1 to 254; for independent LUs this value is always 0. A write operation to this object will not change the operational value reflected in snaLuOperLocalAddress until the Node has been re-activated (e.g., after the next initialization of the SNA services)." ::= { snaLuOperEntry 5 } snaLuOperDisplayModel OBJECT-TYPE SYNTAX INTEGER { invalid(1), model2A(2), model2B(3), model3A(4), model3B(5), model4A(6), Kielczewski, Kostick & Shih PAGE 43

RFC 1665 SNANAU MIB July 1994 model4B(7), model5A(8), model5B(9), dynamic(10) } MAX-ACCESS read-only STATUS current DESCRIPTION "The screen model type of the terminal connected to the host. If this LU is not Type 2, then this object should contain the `invalid(1)' value." ::= { snaLuOperEntry 6 } snaLuOperTerm OBJECT-TYPE SYNTAX INTEGER { unbind (1), termself (2), rshutd (3), poweroff (4) } MAX-ACCESS read-only STATUS current DESCRIPTION "The value identifies the current method for deactivation of this LU. This value overrides the default method (snaNodeOperLuTermDefault) for this Node. For LU 6.2, only the value 'unbind (1)' applies. unbind(1) - terminate the LU-LU session by sending an SNA UNBIND request. termself(2) - terminate the LU-LU session by sending an SNA TERM-SELF (Terminate Self) request on the SSCP-LU session. The SSCP will inform the remote session LU partner to send an UNBIND request to terminate the session. rshutd(3) - terminate the LU-LU session by sending an SNA RSHUTD (Request ShutDown) request to the remote session LU partner. The remote LU will then send an UNBIND request to terminate the session. poweroff(4) - terminate the LU-LU session by sending either an SNA LUSTAT (LU Status) request on the LU-LU session or an SNA NOTIFY request on the SSCP-LU session indicating that the LU has been powered off. Sending both is also acceptable. The result should be that the remote session LU partner will send an UNBIND Kielczewski, Kostick & Shih PAGE 44

RFC 1665 SNANAU MIB July 1994 to terminate the session." ::= { snaLuOperEntry 7 } snaLuOperState OBJECT-TYPE SYNTAX INTEGER { inactive (1), active (2) } MAX-ACCESS read-only STATUS current DESCRIPTION "The value identifies the current operational state of this LU. It has different meanings for dependent and independent LUs. For dependent LUs the values indicate the following: inactive (1) - LU didn't receive ACTLU, or it received DACTLU, or received ACTLU and sent negative response. active (2) - LU received ACTLU and acknowledged positively. For independent LUs the values indicate the following: active (2) - the LU is defined and is able to send and receive BIND. inactive (1) - the LU has a session count equal to 0." ::= { snaLuOperEntry 8 } snaLuOperSessnCount OBJECT-TYPE SYNTAX Gauge32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of currently active LU-LU sessions of this LU. For the independent LU, if this object has value 0, it indicates that LU is inactive." ::= { snaLuOperEntry 9 } -- *************************************************************** -- The following table contains LU-LU session status parameters. -- *************************************************************** snaLuSessnTable OBJECT-TYPE SYNTAX SEQUENCE OF SnaLuSessnEntry MAX-ACCESS not-accessible STATUS current Kielczewski, Kostick & Shih PAGE 45

RFC 1665 SNANAU MIB July 1994 DESCRIPTION "This is a table containing objects which describe the operational state of LU-LU sessions. Only objects which are common to all types of LU sessions are included in this table. When a session's snaLuSessnOperState value changes to 'pending-bind (2)', then the corresponding entry in the session table is created by the Agent. When the session's snaLuSessnOperState value changes to 'unbound (1)', then the session will be removed from the session table by the Agent." ::= { snaLu 3 } snaLuSessnEntry OBJECT-TYPE SYNTAX SnaLuSessnEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry contains dynamic parameters for an LU-LU session. The indices identify the Node, link and LU on which this session has been established." INDEX { snaNodeAdminIndex, snaNodeLinkAdminIndex, snaLuAdminLuIndex, snaLuSessnIndex } ::= { snaLuSessnTable 1 } SnaLuSessnEntry ::= SEQUENCE { snaLuSessnIndex Integer32, snaLuSessnLocalApplName DisplayString, snaLuSessnRemoteLuName DisplayString, snaLuSessnMaxSndRuSize INTEGER, snaLuSessnMaxRcvRuSize INTEGER, snaLuSessnSndPacingSize INTEGER, snaLuSessnRcvPacingSize INTEGER, snaLuSessnActiveTime TimeStamp, snaLuSessnAdminState INTEGER, Kielczewski, Kostick & Shih PAGE 46

RFC 1665 SNANAU MIB July 1994 snaLuSessnOperState INTEGER, snaLuSessnSenseData OCTET STRING, snaLuSessnTerminationRu INTEGER, snaLuSessnUnbindType OCTET STRING } snaLuSessnIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "This value identifies the unique index of the session. It is recommended that an Agent should not reuse the index of a deactivated session for a significant period of time (e.g., one week)." ::= { snaLuSessnEntry 1 } snaLuSessnLocalApplName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..48)) MAX-ACCESS read-only STATUS current DESCRIPTION "The name of the local application using this LU. If the local application is unknown, then this object contains a zero length string." ::= { snaLuSessnEntry 2 } snaLuSessnRemoteLuName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..17)) MAX-ACCESS read-only STATUS current DESCRIPTION "For dependent LUs which are indicated by the snaLuOperDepType object containing the value 'dependent (1)', this object contains the Primary LU (PLU) name. For independent LUs, this object contains the fully-qualified remote LU name of this 6.2 session. A fully qualified name is an SNA NAU entity name preceded by the NetId and a period as the delimiter." ::= { snaLuSessnEntry 3 } snaLuSessnMaxSndRuSize OBJECT-TYPE SYNTAX INTEGER (1..8192) Kielczewski, Kostick & Shih PAGE 47

RFC 1665 SNANAU MIB July 1994 MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum RU size used on this session for sending RUs." ::= { snaLuSessnEntry 4 } snaLuSessnMaxRcvRuSize OBJECT-TYPE SYNTAX INTEGER (1..8192) MAX-ACCESS read-only STATUS current DESCRIPTION "The maximum RU size used on this session for receiving RUs." ::= { snaLuSessnEntry 5 } snaLuSessnSndPacingSize OBJECT-TYPE SYNTAX INTEGER (1..63) MAX-ACCESS read-only STATUS current DESCRIPTION "The size of the send pacing window on this session." ::= { snaLuSessnEntry 6 } snaLuSessnRcvPacingSize OBJECT-TYPE SYNTAX INTEGER (1..63) MAX-ACCESS read-only STATUS current DESCRIPTION "The size of the receive pacing window on this session." ::= { snaLuSessnEntry 7 } snaLuSessnActiveTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp (e.g., the Agent's sysUpTime value) when this session becomes active." ::= { snaLuSessnEntry 8 } snaLuSessnAdminState OBJECT-TYPE SYNTAX INTEGER { unbound (1), bound (3) } MAX-ACCESS read-write Kielczewski, Kostick & Shih PAGE 48

RFC 1665 SNANAU MIB July 1994 STATUS current DESCRIPTION "The value indicates the desired operational state of the session. This object is used to change the operational state of the session. A Management Station can only change the operational state of the session to `unbound (1)'. Session deactivation: If a session is in the operational state `bound (3)' then setting the value of this object to 'unbound (1)' will initiate the session shutdown. If a session is in the operational state `pending-bind (2)' then setting the value of this object to 'unbound (1)' will initiate the session shutdown. If a session is in the operational state `pending-unbind (4)' for an abnormally long period of time (e.g., three minutes) then setting the value of this object to 'unbound (1)' will change the session operational state to 'unbound (1)'. Note: for dependent LUs, deactivating the session is the same as deactivating the LU." ::= { snaLuSessnEntry 9 } snaLuSessnOperState OBJECT-TYPE SYNTAX INTEGER { unbound (1), pending-bind (2), bound (3), pending-unbind (4) } MAX-ACCESS read-only STATUS current DESCRIPTION "The value indicates the current operational state of the session. 'unbound (1)' - session has been unbound; in this state it will be removed from the session table by the Agent. 'pending-bind (2)' - this state has different meanings for dependent and independent LUs; for dependent LU - waiting for BIND from the host, for independent LU - waiting for Kielczewski, Kostick & Shih PAGE 49

RFC 1665 SNANAU MIB July 1994 BIND response. When a session enters this state, the corresponding entry in the session table is created by the Agent. 'bound (3)' - session has been successfully bound. 'pending-unbind (4)' - session enters this state when an UNBIND is sent and before the rsp(UNBIND) is received." ::= { snaLuSessnEntry 10 } snaLuSessnSenseData OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..8)) MAX-ACCESS read-only STATUS current DESCRIPTION "The value identifies the sense code when there is a BIND failure. It is taken from the negative BIND response or UNBIND request. This is displayed as 8 hexadecimal digits." ::= { snaLuSessnEntry 11 } snaLuSessnTerminationRu OBJECT-TYPE SYNTAX INTEGER { other (1), bind-failure (2), unbind (3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The value identifies the SNA RU that terminated the session. If the session is not in the unbound state, this object has a value of 'other (1)'." ::= { snaLuSessnEntry 12 } snaLuSessnUnbindType OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..1)) MAX-ACCESS read-only STATUS current DESCRIPTION "If the session is in the unbound state, and it was terminated by an UNBIND, then this object contains the UNBIND type value (byte 1 of the UNBIND RU); otherwise the string is null." ::= { snaLuSessnEntry 13 } Kielczewski, Kostick & Shih PAGE 50

RFC 1665 SNANAU MIB July 1994 -- *************************************************************** -- The following table contains LU sessions statistics dynamic -- parameters. -- *************************************************************** snaLuSessnStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF SnaLuSessnStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains dynamic statistics information relating to LU sessions. The entries in this table augment the entries in the snaLuSessnTable and cannot be created by a Management Station." ::= { snaLu 4 } snaLuSessnStatsEntry OBJECT-TYPE SYNTAX SnaLuSessnStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Contains statistics information for an LU session. Each entry is created by the Agent. Objects in this table have read-only access. Each session from snaLuSessnTable has one entry in this table." AUGMENTS { snaLuSessnEntry } ::= { snaLuSessnStatsTable 1 } SnaLuSessnStatsEntry ::= SEQUENCE { snaLuSessnStatsSentBytes Counter32, snaLuSessnStatsReceivedBytes Counter32, snaLuSessnStatsSentRus Counter32, snaLuSessnStatsReceivedRus Counter32, snaLuSessnStatsSentNegativeResps Counter32, snaLuSessnStatsReceivedNegativeResps Counter32 } snaLuSessnStatsSentBytes OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only Kielczewski, Kostick & Shih PAGE 51

RFC 1665 SNANAU MIB July 1994 STATUS current DESCRIPTION "The number of bytes sent by the local LU." ::= { snaLuSessnStatsEntry 1 } snaLuSessnStatsReceivedBytes OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of bytes received by the local LU." ::= { snaLuSessnStatsEntry 2 } snaLuSessnStatsSentRus OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of RUs sent by the local LU." ::= { snaLuSessnStatsEntry 3 } snaLuSessnStatsReceivedRus OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of RUs received by the local LU." ::= { snaLuSessnStatsEntry 4 } snaLuSessnStatsSentNegativeResps OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of negative responses sent by the local LU." ::= { snaLuSessnStatsEntry 5 } snaLuSessnStatsReceivedNegativeResps OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of negative responses received by the local LU." ::= { snaLuSessnStatsEntry 6 } Kielczewski, Kostick & Shih PAGE 52

RFC 1665 SNANAU MIB July 1994 -- *************************************************************** -- Traps -- *************************************************************** snaLuTraps OBJECT IDENTIFIER ::= { snaLu 5 } snaLuStateChangeTrap NOTIFICATION-TYPE OBJECTS { snaLuOperName, snaLuOperSnaName, snaLuOperState } STATUS current DESCRIPTION "This trap indicates that the operational state (i.e., snaLuOperState value) of the LU has changed. The value of snaLuOperName indicates the name of the LU. The value of snaLuOperSnaName indicates the SNA name of LU. The value of snaLuOperState indicates the current state after change." ::= { snaLuTraps 1 } snaLuSessnBindFailTrap NOTIFICATION-TYPE OBJECTS { snaLuSessnLocalApplName, snaLuSessnRemoteLuName, snaLuSessnOperState, snaLuSessnSenseData } STATUS current DESCRIPTION "This trap indicates the failure of a BIND. The value of snaLuSessnLocalApplName indicates the local application name. The value of snaLuSessnPartnerName indicates the partner name. The value of snaLuSessnOperState indicates the current state after change. The value of snaLuSessnBindFailureReason indicates the failure reason. The Agent should not generate more than 1 trap of this type per minute to minimize the level of management traffic on the network." ::= { snaLuTraps 2 } -- *************************************************************** -- snaMgtTools group -- -- Currently this group contains only one table. -- *************************************************************** Kielczewski, Kostick & Shih PAGE 53

RFC 1665 SNANAU MIB July 1994 -- *************************************************************** -- The following table contains Response Time Monitoring (RTM) -- configuration information and statistics for LU Type 2s. -- RTM supports the capability to measure and report end-user -- response times for dependent LUs. When the RTM state of an LU -- is 'on', response times for each LU transaction are monitored. -- A set of ranges is defined (e.g., Range 1 includes the number of -- transactions with response times less than 1 second) using the -- "boundary" definitions (e.g., boundary #2 is defined as 3 seconds). -- A set of counters (one per range) identifies -- the number of transactions within each response time range. -- *************************************************************** snaLuRtmTable OBJECT-TYPE SYNTAX SEQUENCE OF SnaLuRtmEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains Response Time Monitoring (RTM) information relating to an LU (Type 2). Each entry corresponds to an LU 2 entry in snaLuAdminTable." ::= { snaMgtTools 1 } snaLuRtmEntry OBJECT-TYPE SYNTAX SnaLuRtmEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Contains RTM information for an LU (Type 2). Each entry is created by the Agent." INDEX { snaLuRtmPuIndex, snaLuRtmLuIndex } ::= { snaLuRtmTable 1 } SnaLuRtmEntry ::= SEQUENCE { snaLuRtmPuIndex Integer32, snaLuRtmLuIndex Integer32, snaLuRtmState INTEGER, snaLuRtmStateTime TimeStamp, snaLuRtmDef INTEGER, snaLuRtmBoundary1 Integer32, snaLuRtmBoundary2 Kielczewski, Kostick & Shih PAGE 54

RFC 1665 SNANAU MIB July 1994 Integer32, snaLuRtmBoundary3 Integer32, snaLuRtmBoundary4 Integer32, snaLuRtmCounter1 Counter32, snaLuRtmCounter2 Counter32, snaLuRtmCounter3 Counter32, snaLuRtmCounter4 Counter32, snaLuRtmOverFlows Counter32, snaLuRtmObjPercent Integer32, snaLuRtmObjRange INTEGER, snaLuRtmNumTrans Integer32, snaLuRtmLastRspTime Integer32, snaLuRtmAvgRspTime Integer32 } snaLuRtmPuIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The value identifies the PU 2.0 with which this LU is associated." ::= { snaLuRtmEntry 1 } snaLuRtmLuIndex OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The value uniquely identifies an LU in a PU 2.0." ::= { snaLuRtmEntry 2 } snaLuRtmState OBJECT-TYPE SYNTAX INTEGER { off(1), on(2) Kielczewski, Kostick & Shih PAGE 55

RFC 1665 SNANAU MIB July 1994 } MAX-ACCESS read-only STATUS current DESCRIPTION "The value indicates the current RTM state of an LU." ::= { snaLuRtmEntry 3 } snaLuRtmStateTime OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The timestamp (e.g., the Agent's sysUpTime value) when this session's RTM state (e.g., snaLuRtmState) changes value." ::= { snaLuRtmEntry 4 } snaLuRtmDef OBJECT-TYPE SYNTAX INTEGER { firstChar(1), kb(2), cdeb(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The value indicates the mode of measurement for this RTM request. The values have following meaning: firstChar(1) - time to first character on screen kb(2) - time to keyboard usable by operator cdeb(3) - time to Change Direction/End Bracket." ::= { snaLuRtmEntry 5 } snaLuRtmBoundary1 OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the value of the first boundary in units of 1/10th of a second." ::= { snaLuRtmEntry 6 } snaLuRtmBoundary2 OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the value of the second boundary Kielczewski, Kostick & Shih PAGE 56

RFC 1665 SNANAU MIB July 1994 in units of 1/10th of a second." ::= { snaLuRtmEntry 7 } snaLuRtmBoundary3 OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the value of the third boundary in units of 1/10th of a second." ::= { snaLuRtmEntry 8 } snaLuRtmBoundary4 OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the value of the fourth boundary in units of 1/10th of a second." ::= { snaLuRtmEntry 9 } snaLuRtmCounter1 OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This value indicates the number of transactions which fall in the range specified by the first boundary." ::= { snaLuRtmEntry 10 } snaLuRtmCounter2 OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This value indicates the number of transactions which fall in the range specified by the second boundary." ::= { snaLuRtmEntry 11 } snaLuRtmCounter3 OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This value indicates the number of transactions which fall in the range specified by the third boundary." ::= { snaLuRtmEntry 12 } Kielczewski, Kostick & Shih PAGE 57

RFC 1665 SNANAU MIB July 1994 snaLuRtmCounter4 OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This value indicates the number of transactions which fall in the range specified by the fourth boundary." ::= { snaLuRtmEntry 13 } snaLuRtmOverFlows OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "This value indicates the number of transactions which exceed the highest range specified by the boundaries." ::= { snaLuRtmEntry 14 } snaLuRtmObjPercent OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "This value indicates the desired percentage of transactions which should be under a designated boundary range indicated by snaLuRtmObjRange." ::= { snaLuRtmEntry 15 } snaLuRtmObjRange OBJECT-TYPE SYNTAX INTEGER { other(1), range1(2), range2(3), range3(4), range4(5), range5(6) } MAX-ACCESS read-only STATUS current DESCRIPTION "This value indicates the designated boundary range to which the snaLuRtmObject refers. The values have the following meanings: other(1) - not specified range1(2) - less than boundary 1 range2(3) - between boundary 1 and 2 range3(4) - between boundary 2 and 3 Kielczewski, Kostick & Shih PAGE 58

RFC 1665 SNANAU MIB July 1994 range4(5) - between boundary 3 and 4 range5(6) - greater than boundary 4." ::= { snaLuRtmEntry 16 } snaLuRtmNumTrans OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "This value indicates the total number of transactions executed since the RTM monitoring began (i.e., snaLuRtmState changed to `on(2)') for this LU." ::= { snaLuRtmEntry 17 } snaLuRtmLastRspTime OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "This value indicates the response time for the last transaction in units of 1/10th of a second." ::= { snaLuRtmEntry 18 } snaLuRtmAvgRspTime OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-only STATUS current DESCRIPTION "This value indicates the average response time for all transactions in units of 1/10th of a second." ::= { snaLuRtmEntry 19 } -- *************************************************************** -- Conformance information -- *************************************************************** snanauConformance OBJECT IDENTIFIER ::= { snanauMIB 2 } snanauCompliances OBJECT IDENTIFIER ::= {snanauConformance 1 } snanauGroups OBJECT IDENTIFIER ::= {snanauConformance 2 } -- Compliance statements snanauCompliance MODULE-COMPLIANCE STATUS current DESCRIPTION Kielczewski, Kostick & Shih PAGE 59

RFC 1665 SNANAU MIB July 1994 "The compliance statement for the SNMPv2 entities which implement the snanau MIB." MODULE -- this module -- Unconditionally mandatory groups MANDATORY-GROUPS { snaNodeGroup, snaLuGroup, snaSessionGroup } -- Conditionally mandatory groups GROUP snaPu20Group DESCRIPTION "The snaPu20Group is mandatory only for those entities which implement PU type 2.0" GROUP snaMgtToolsRtmGroup DESCRIPTION "The snaMgtToolsGroup is mandatory only for those entities which implement LU type 2 and RTM." -- Refinement of requirements for objects access. -- The Agent which does not implement row creation for -- snaNodeAdminTable, snaNodeLinkAdminTable and -- snaLuAdminTable must at least accept -- objects modification (read-write access instead of -- read-create). OBJECT snaNodeAdminName MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaNodeAdminType MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaNodeAdminXidFormat MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaNodeAdminBlockNum Kielczewski, Kostick & Shih PAGE 60

RFC 1665 SNANAU MIB July 1994 MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaNodeAdminIdNum MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaNodeAdminEnablingMethod MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaNodeAdminLuTermDefault MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaNodeAdminMaxLu MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaNodeAdminHostDescription MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaNodeAdminStopMethod MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaNodeAdminState MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaNodeLinkAdminSpecific Kielczewski, Kostick & Shih PAGE 61

RFC 1665 SNANAU MIB July 1994 MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaNodeLinkAdminMaxPiu MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaLuAdminName MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaLuAdminSnaName MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaLuAdminType MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaLuAdminDepType MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaLuAdminLocalAddress MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaLuAdminDisplayModel MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." OBJECT snaLuAdminTerm Kielczewski, Kostick & Shih PAGE 62

RFC 1665 SNANAU MIB July 1994 MIN-ACCESS read-write DESCRIPTION "An Agent is required to implement read-write access to this object." ::= {snanauCompliances 1 } -- Units of conformance snaNodeGroup OBJECT-GROUP OBJECTS {snaNodeAdminIndex, snaNodeAdminName, snaNodeAdminType, snaNodeAdminXidFormat, snaNodeAdminBlockNum, snaNodeAdminIdNum, snaNodeAdminEnablingMethod, snaNodeAdminLuTermDefault, snaNodeAdminMaxLu, snaNodeAdminHostDescription, snaNodeAdminStopMethod, snaNodeAdminState, snaNodeAdminRowStatus, snaNodeAdminTableLastChange, snaNodeOperName, snaNodeOperType, snaNodeOperXidFormat, snaNodeOperBlockNum, snaNodeOperIdNum, snaNodeOperEnablingMethod, snaNodeOperLuTermDefault, snaNodeOperMaxLu, snaNodeOperHostDescription, snaNodeOperStopMethod, snaNodeOperState, snaNodeOperHostSscpId, snaNodeOperStartTime, snaNodeOperLastStateChange, snaNodeOperActFailures, snaNodeOperActFailureReason, snaNodeOperTableLastChange, snaNodeLinkAdminIndex, snaNodeLinkAdminSpecific, snaNodeLinkAdminMaxPiu, snaNodeLinkAdminRowStatus, snaNodeLinkAdminTableLastChange, snaNodeLinkOperSpecific, Kielczewski, Kostick & Shih PAGE 63

RFC 1665 SNANAU MIB July 1994 snaNodeLinkOperMaxPiu, snaNodeLinkOperTableLastChange } STATUS current DESCRIPTION "A collection of objects providing the instrumentation of SNA nodes." ::= { snanauGroups 1 } snaLuGroup OBJECT-GROUP OBJECTS { snaLuAdminLuIndex, snaLuAdminName, snaLuAdminSnaName, snaLuAdminType, snaLuAdminDepType, snaLuAdminLocalAddress, snaLuAdminDisplayModel, snaLuAdminTerm, snaLuAdminRowStatus, snaLuOperName, snaLuOperSnaName, snaLuOperType, snaLuOperDepType, snaLuOperLocalAddress, snaLuOperDisplayModel, snaLuOperTerm, snaLuOperState, snaLuOperSessnCount } STATUS current DESCRIPTION "A collection of objects providing the instrumentation of SNA LUs." ::= { snanauGroups 2 } snaSessionGroup OBJECT-GROUP OBJECTS { snaLuSessnIndex, snaLuSessnLocalApplName, snaLuSessnRemoteLuName, snaLuSessnMaxSndRuSize, snaLuSessnMaxRcvRuSize, snaLuSessnSndPacingSize, snaLuSessnRcvPacingSize, snaLuSessnActiveTime, snaLuSessnAdminState, snaLuSessnOperState, snaLuSessnSenseData, snaLuSessnTerminationRu, snaLuSessnUnbindType, snaLuSessnStatsSentBytes, Kielczewski, Kostick & Shih PAGE 64

RFC 1665 SNANAU MIB July 1994 snaLuSessnStatsReceivedBytes, snaLuSessnStatsSentRus, snaLuSessnStatsReceivedRus, snaLuSessnStatsSentNegativeResps, snaLuSessnStatsReceivedNegativeResps } STATUS current DESCRIPTION "A collection of objects providing the instrumentation of SNA sessions." ::= { snanauGroups 3 } snaPu20Group OBJECT-GROUP OBJECTS { snaPu20StatsSentBytes, snaPu20StatsReceivedBytes, snaPu20StatsSentPius, snaPu20StatsReceivedPius, snaPu20StatsSentNegativeResps, snaPu20StatsReceivedNegativeResps, snaPu20StatsActLus, snaPu20StatsInActLus, snaPu20StatsBindLus } STATUS current DESCRIPTION "A collection of objects providing the instrumentation of PU 2.0." ::= { snanauGroups 4 } snaMgtToolsRtmGroup OBJECT-GROUP OBJECTS { snaLuRtmPuIndex, snaLuRtmLuIndex, snaLuRtmState, snaLuRtmStateTime, snaLuRtmDef, snaLuRtmBoundary1, snaLuRtmBoundary2, snaLuRtmBoundary3, snaLuRtmBoundary4, snaLuRtmCounter1, snaLuRtmCounter2, snaLuRtmCounter3, snaLuRtmCounter4, snaLuRtmOverFlows, snaLuRtmObjPercent, snaLuRtmObjRange, snaLuRtmNumTrans, snaLuRtmLastRspTime, snaLuRtmAvgRspTime } STATUS current Kielczewski, Kostick & Shih PAGE 65

RFC 1665 SNANAU MIB July 1994 DESCRIPTION "A collection of objects providing the instrumentation of RTM for SNA LU 2.0." ::= { snanauGroups 5 } -- end of conformance statement END 5. Acknowledgments The following people greatly contributed to the work on this MIB document: Michael Allen, Robin Cheng, Bill Kwan. Special thanks goes to Dave Perkins for his assistance in reviewing this MIB proposal. 6. References [1] IBM, Systems Network Architecture Technical Overview, GC 30- 3073-3, March, 1991. [2] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Structure of Management Information for version 2 of the Simple Network Management Protocol (SNMPv2)", RFC 1442, SNMP Research, Inc., Hughes LAN Systems, Dover Beach Consulting, Inc., Carnegie Mellon University, April 1993. [3] McCloghrie, K., and M. Rose, "Management Information Base for Network Management of TCP/IP-based internets - MIB-II", STD 17, RFC 1213, Hughes LAN Systems, Performance Systems International, March 1991. [4] Galvin, J., and K. McCloghrie, "Administrative Model for version 2 of the Simple Network Management Protocol (SNMPv2)", RFC 1445, Trusted Information Systems, Hughes LAN Systems, April 1993. [5] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Protocol Operations for version 2 of the Simple Network Management Protocol (SNMPv2)", RFC 1448, SNMP Research, Inc., Hughes LAN Systems, Dover Beach Consulting, Inc., Carnegie Mellon University, April 1993. [6] Hilgeman, J., Nix, S., Bartky, A., Clark, W., "Definitions of Managed Objects for SNA Data Link Control: SDLC", Work in Progress. Kielczewski, Kostick & Shih PAGE 66

RFC 1665 SNANAU MIB July 1994 [7] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Textual Conventions for version 2 of the Simple Network Management Protocol (SNMPv2)", RFC 1443, SNMP Research, Inc., Hughes LAN Systems, Dover Beach Consulting, Inc., Carnegie Mellon University, April 1993. 7. Security Considerations Security issues are not discussed in this memo. 8. Authors' Addresses Zbigniew Kielczewski Eicon Technology Corporation 2196 32nd Avenue Montreal, Quebec, Canada H8T 3H7 Phone: 1 514 631 2592 EMail: zbig@eicon.qc.ca Deirdre Kostick Bell Communications Research Red Bank, NJ 07701 Phone: 1 908 758 2642 EMail: dck2@mail.bellcore.com Kitty Shih Novell 890 Ross Drive Sunnyvale, CA 94089 Phone: 1 408 747 4305 EMail: kmshih@novell.com Kielczewski, Kostick & Shih PAGE 67

Definitions of Managed Objects for SNA NAUs using SMIv2 RFC TOTAL SIZE: 133381 bytes PUBLICATION DATE: Thursday, July 21st, 1994 LEGAL RIGHTS: The IETF Trust (see BCP 78)


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© RFC 1665: The IETF Trust, Thursday, July 21st, 1994
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