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Network Working Group M. AhmedRequest for Comments: 1695 K. TesinkCategory: Standards Track Editors Bell Communications Research August 1994Definitions of Managed Objectsfor ATM Management Version 8.0using SMIv2Status 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 Contents1. Introduction .............................................22. The SNMPv2 Network Management Framework ..................23. Object Definitions .......................................24. ATM Terminology ..........................................34.1 VCL/VPL and VCC/VPC .....................................34.2 PVC and SVC .............................................54.3 Traffic Management Parameters ...........................54.3.1 Traffic Policing and Traffic Shaping Parameters ......54.3.2 Cell Loss Priority ....................................64.3.3 QoS Class .............................................65. Overview .................................................75.1 Background ..............................................75.2 Structure of the MIB ....................................75.3 ATM Interface Configuration Group .......................75.4 ATM Interface DS3 PLCP and TC Layer Groups ..............85.5 ATM Virtual Link and Cross-Connect Groups ...............86. Application of MIB II to ATM .............................86.1 The System Group ........................................86.2 The Interface Group .....................................86.2.1 Support of the ATM Cell Layer by ifTable ..............97. Support of the AAL3/4 Based Interfaces ...................108. Support of the AAL5 Managed Objects ......................108.1 Managing AAL5 in a Switch ...............................118.2 Managing AAL5 in a Host .................................128.3 Support of AAL5 by ifTable ..............................138.4 Support of Proprietary Virtual Interface by ifT-able ..148.5 AAL5 Connection Performance Statistics Group ............15Ahmed & Tesink [Page 1]
RFC 1695 ATM Management Objects August 19949. ILMI MIB and the ATM Managed Objects .....................1510. Definitions .............................................1811. Acknowledgments .........................................7212. References ..............................................7213. Security Considerations .................................7314. Authors' Addresses ......................................731. 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 describes objects used for managing ATM-based interfaces, devices, networks and services. This memo specifies a MIB module in a manner that is both compliant to the SNMPv2 SMI, and semantically identical to the peer SNMPv1 definitions.2. The SNMPv2 Network Management Framework The SNMPv2 Network Management Framework consists of four major components. They are: 0RFC 1442 [1] which defines the SMI, the mechanisms used for describing and naming objects for the purpose of management. 0 STD 17,RFC 1213 [2] defines MIB-II, the core set of managed objects for the Internet suite of protocols. 0RFC 1445 [3] which defines the administrative and other architectural aspects of the framework. 0RFC 1448 [4] 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.3. 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. 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, weAhmed & Tesink [Page 2]
RFC 1695 ATM Management Objects August 1994 often use a textual string, termed the descriptor, to also refer to the object type.4. ATM Terminology Some basic ATM terminologies are described in this section to facilitate defining the ATM managed objects.4.1. VCL/VPL and VCC/VPC There are two distinct types of ATM virtual connections: Virtual Channel Connections (VCCs) and Virtual Path Connection (VPCs). As shown in Figures 1 and 2, ATM virtual connections consist of concatenated series of virtual links which forms a path between two end points, with each concatenation occurring at an ATM switch. Virtual links of VCCs are called Virtual Channel Links (VCLs). Virtual links of VPCs are called Virtual Path Links (VPLs). The VCI and VPI fields in the ATM cell header associate each cell of a VCC with a particular VCL over a given physical link. The VPI field in the ATM cell header associates each cell of a VPC with a particular VPL over a given physical link. Switches route cells between VCLs (or VPLs) via a cross-connect function according to the cells' VCI/VPI (or VPI) values. <-----------------------VCC--------------------------> ------------ ----------- |ATM | |ATM | |X-Connect | |X-Connect | VCL1 |Point | VCL2 |Point | VCL3 O---------|----X-----|-------|-----|----X-----|-------O | | | | ------------ ------------ ATM Switch ATM Switch Figure 1: Virtual Channel Links and Virtual Channel ConnectionAhmed & Tesink [Page 3]
RFC 1695 ATM Management Objects August 1994 <-----------------------VPC--------------------------> ------------ ----------- |ATM | |ATM | |X-Connect | |X-Connect | VPL1 |Point | VPL2 |Point | VPL3 O---------|----X-----|-------|-----|----X-----|-------O | | | | ------------ ------------ ATM Switch ATM Switch Figure 2: Virtual Path Links and Virtual Path Connection A single ATM end-system or switch does not support the whole end-to- end span of a VCC (or VPC). Rather, multiple ATM end- systems and/or switches each support one piece of the VCC (or VPC). That is, each ATM end-system at one end of the VCC/VPC supports its end of the VCC/VPC plus the VCLs or VPLs on its external interfaces, and each switch through which the VCC/VPC passes, supports the multiple VCLs/VPLs on that switch's external interfaces and the cross- connection of those VCLs/VPLs through that switch. Thus, the end- to-end management of a VCC or VPC is achieved only by appropriate management of its individual pieces in combination. Note that for management purposes, an ATM network may be viewed as a large distributed switch by hiding all the network's internal connectivity as being internal to the distributed switch (as shown in Figure 2a). This model may for example be used for Customer Network Management (CNM) purposes.Ahmed & Tesink [Page 4]
RFC 1695 ATM Management Objects August 1994 <---------------------VCC---------------------------> -------------------------------------- | | | ---------- ---------- | | | ATM | | ATM | | VCL1 | | Switch | | Switch | | VCL3 O-------|-|--------|------/-------|--------|-|------O | | | | | | | ---------- ---------- | | | | ATM Network | -------------------------------------- Figure 2a: ATM Network modeled as a large distributed switch A VCC has a set of traffic characteristics (i.e., bandwidth parameters, QoS Class parameters, etc.). VCLs inherit their traffic characteristics from the VCC of which they are a part. VCCs are bi- directional by definition. However, the traffic parameters in the two directions of a connection can be symmetric or asymmetric, i.e., the two directions can have the same or different traffic flows. A uni-directional traffic flow across a VCC is achieved by assigning a zero bandwidth in one direction. Note that in addition to the bandwidth required by the user traffic flow, bandwidth is also required for OAM cell flows, even for the zero-bandwidth direction of a uni-directional connection. These same principles apply to VPCs.4.2. PVC and SVC A Permanent Virtual Connection (PVC) is a provisioned VCC or VPC. A Switched Virtual Connection (SVC) is a switched VCC or VPC that is set up in real-time via call set-up signaling procedures. A PVC (or an SVC) can be a point-to-point, point-to-multipoint, or multipoint- to-multipoint VCC or VPC.4.3. Traffic Management Parameters4.3.1. Traffic Policing and Traffic Shaping Parameters In order to allocate resources fairly among different users, some networks police traffic at resource access points. The traffic enforcement or policing taken at a UNI is called Usage Parameter Control (UPC) and is activated on an incoming VCL or VPL as shown in Figure 3. The use of the traffic enforcer at the ingress of the connection is to make sure that the user traffic does not exceed theAhmed & Tesink [Page 5]
RFC 1695 ATM Management Objects August 1994 negotiated traffic parameters such as the peak cell rate associated with a specific traffic descriptor type. ---------- ---------- UNI | ATM | NNI | ATM | UNI | | switch | | | switch | | O<---|---->X(UPC) |<----|------>| (UPC)X<-----|--->O | VCL | | | VCL | | VCL | ---------- ---------- Figure 3: An Example of a UPC In addition, traffic shaping may be performed on an outgoing VPL or VCL at a given ATM interface. The function of the ATM traffic shaper either at the source or an egress point of the connection is to smooth the outgoing cell traffic inter-arrival time. If policing or shaping is not performed then the policing or shaping algorithm is not activated. ATM Forum has specified seven traffic descriptor types including one for the best effort traffic [9].4.3.2. Cell Loss Priority To prioritize traffic during resource congestion, ATM cells are assigned one of the two types of Cell Loss Priority (CLP), CLP=0 and CLP=1. ATM cells with CLP=0 have a higher priority in regard to cell loss than ATM cells with CLP=1. Therefore, during resource congestions, CLP=1 cells are dropped before any CLP=0 cell is dropped.4.3.3. QoS Class A VCC or VPC is associated with one of a number of Quality of Service (QoS) classes. The following service classes have been specified: Service Class A: Constant bit rate video and Circuit emulation Service Class B: Variable bit rate video/audio Service Class C: Connection-oriented data Service Class D: Connectionless data Four QoS classes numbered 1, 2, 3, and 4 have been specified with the aim of supporting service classes A, B, C, and D respectively. The VCLs (or VPLs) concatenated to form a VCC (or VPC) will all have the same QoS class as that of the VCC (or VPC). The Cell Loss Ratio (CLR), Cell Delay Variation (CDV), and end-to-end Cell Delay (CD) parameters are defined as part of QoS Class definition. In addition,Ahmed & Tesink [Page 6]
RFC 1695 ATM Management Objects August 1994 an unspecified QoS Class numbered 0 is specified for best effort traffic.5. Overview ATM management objects are used to manage ATM interfaces, ATM virtual links, ATM cross-connects, AAL5 entities and AAL5 connections supported by ATM hosts, ATM switches and ATM networks. This section provides an overview and background of how to use this MIB and other potential MIBs for this purpose. The purpose of this memo is primarily to manage ATM PVCs. ATM SVCs are also represented by the management information in this MIB. However, full management of SVCs may require additional capabilities which are beyond the scope of this memo.5.1. Background In addition to the MIB module defined in this memo, other MIB modules are necessary to manage ATM interfaces, links and cross-connects. Examples include MIB II for general system and interface management (RFC 1213 andRFC 1573), the DS3 or SONET MIBs for management of physical interfaces, and, as appropriate, MIB modules for applications that make use of ATM, such as SMDS. These MIB modules are outside the scope of this specification. The current specification of this ATM MIB is based on SNMPv2.5.2. Structure of the MIB The managed ATM objects are arranged into the following groups: (1) ATM interface configuration group (2) ATM interface DS3 PLCP group (3) ATM interface TC Sublayer group (4) ATM interface virtual link (VPL/VCL) configuration groups (5) ATM VP/VC cross-connect groups (6) AAL5 connection performance statistics group Note that, managed objects for activation/deactivation of OAM cell flows and ATM traps notifying virtual connection or virtual link failures are outside the scope of this memo.5.3. ATM Interface Configuration Group This group contains information on ATM cell layer configuration of local ATM interfaces on an ATM device in addition to the informationAhmed & Tesink [Page 7]
RFC 1695 ATM Management Objects August 1994 on such interfaces contained in the ifTable.5.4. ATM Interface DS3 PLCP and TC Layer Groups These groups provide performance statistics of the DS3 PLCP and TC sublayer of local ATM interfaces on a managed ATM device. DS3 PLCP and TC sublayer are currently used to carry ATM cells respectively over DS3 and SONET transmission paths.5.5. ATM Virtual Link and Cross-Connect Groups ATM virtual link and cross-connect groups model bi-directional ATM virtual links and ATM cross-connects. The ATM VP/VC link groups are implemented in an ATM host, ATM switch and ATM network. The ATM switch and ATM network also implement the ATM VP/VC cross-connect groups. Both link and cross-connect groups are implemented in a carrier's network for Customer Network Management (CNM) purposes. The ATM virtual link groups are used to create, delete or modify ATM virtual links in an ATM host, ATM switch and ATM network. ATM virtual link groups along with the cross-connect groups are used to create, delete or modify ATM cross-connects in an ATM switch or ATM network (e.g., for CNM purposes).6. Application of MIB II to ATM6.1. The System Group For the purposes of the sysServices object in the System Group of MIB II [2], ATM is a data link layer protocol. Thus, for ATM switches and ATM networks, sysServices will have the value "2".6.2. The Interface Group The Interfaces Group of MIB II defines generic managed objects for managing interfaces. This memo contains the media-specific extensions to the Interfaces Group for managing ATM interfaces. This memo assumes the interpretation of the Interfaces Group to be in accordance with [5] which states that the interfaces table (ifTable) contains information on the managed resource's interfaces and that each sub-layer below the internetwork layer of a network interface is considered an interface. Thus, the ATM cell layer interface is represented as an entry in the ifTable. This entry is concerned with the ATM cell layer as a whole, and not with individual virtual connections which are managed via the ATM-specific managed objects specified in this memo. The inter-relation of entries in the ifTable is defined by Interfaces Stack Group defined in [5].Ahmed & Tesink [Page 8]
RFC 1695 ATM Management Objects August 19946.2.1. Support of the ATM Cell Layer by ifTable Some specific interpretations of ifTable for the ATM cell layer follow. Object Use for the generic ATM layer ====== ============================= ifIndex Each ATM port is represented by an ifEntry. ifDescr Description of the ATM interface. ifType The value that is allocated for ATM is 37. ifSpeed The total bandwidth in bits per second for use by the ATM layer. ifPhysAddress The interface's address at the ATM protocol sublayer; the ATM address which would be used as the value of the Called Party Address Information Element (IE) of a signalling message for a connection which either: - would terminate at this interface, or - for which the Called Party Address IE would need to be replaced by the Called Party SubAddress IE before the message was forwarded to any other interface. For an interface on which signalling is not supported, then the interface does not necessarily have an address, but if it does, then ifPhysAddress is the address which would be used as above in the event that signalling were supported. If the interface has multiple such addresses, then ifPhysAddress is its primary address. If the interface has no addresses, then ifPhysAddress is an octet string of zero length. Address encoding is as per [9]. Note that addresses assigned for purposes other than those listed above (e.g., an address associated with the service provider side of a public network UNI) may be represented through atmInterfaceAdminAddress. ifAdminStatus See [5]. ifOperStatus Assumes the value down(2) if the ATM cell layer or any layer below that layer is down.Ahmed & Tesink [Page 9]
RFC 1695 ATM Management Objects August 1994 ifLastChange See [5]. ifInOctets The number of received octets over the interface, i.e., the number of received, assigned cells multiplied by 53. ifOutOctets The number of transmitted octets over the interface, i.e., the number of transmitted, assigned cells multiplied by 53. ifInErrors The number of cells dropped due to uncorrectable HEC errors. ifInUnknownProtos The number of received cells discarded during cell header validation, including cells with unrecognized VPI/VCI values, and cells with invalid cell header patterns. If cells with undefined PTI values are discarded, they are also counted here. ifOutErrors See [5]. ifName Textual name (unique on this system) of the interface or an octet string of zero length. ifLinkUpDownTrapEnable Default is disabled (2). ifConnectorPresent Set to false (2). ifPromiscuousMode Set to false(2). ifHighSpeed See [5]. ifHCInOctets The 64-bit version of ifInOctets; supported if required by the compliance statements in [5]. ifHCOutOctets The 64-bit version of ifOutOctets; supported if required by the compliance statements in [5].7. Support of the AAL3/4 Based Interfaces For the management of AAL3/4 CPCS layer, see [6].8. Support of the AAL5 Managed Objects Support of AAL5 managed objects in an ATM switch and ATM host are described below.Ahmed & Tesink [Page 10]
RFC 1695 ATM Management Objects August 19948.1. Managing AAL5 in a Switch Managing AAL5 in a switch involves: (1) performance management of an AAL5 entity as an internal resource in a switch (2) performance management of AAL5 per virtual connection AAL5 in a switch is modeled as shown in Figures 4 and 5. AAL5 will be managed in a switch for only those virtual connections that carry AAL5 and are terminated at the AAL5 entity in the switch. Note that, the virtual channels within the ATM UNIs carrying AAL5 will be switched by the ATM switching fabric (termed as ATM Entity in the figure) to the virtual channels on a proprietary internal interface associated with the AAL5 process (termed as AAL5 Entity in the figure). Therefore, performance management of the AAL5 resource in the switch will be modeled using the ifTable through an internal (pseudo-ATM) virtual interface and the AAL5 performance management per virtual connection will be supported using an additional AAL5 connection table in the ATM MIB. The association between the AAL5 virtual link at the proprietary virtual, internal interface and the ATM virtual link at the ATM interface will be derived from the virtual channel cross-connect table and the virtual channel link table in the ATM MIB. ___________________________ | | | ============= | | | AAL5 | | | | Entity | | | ============= | | | | | -----Prop. Virtual Interface | | | | ============= | | | ATM | | | | Entity | | | ============= | |_____|__|__|__|__|_______| | | | | | ---------------- ATM UNIs | | | | | | | | | | v v v v v Figure 4 : Model of an AAL5 Entity in a SwitchAhmed & Tesink [Page 11]
RFC 1695 ATM Management Objects August 1994 __________________ | | | AAL5 | |________________| | | | Prop. Virtual | | Interface | |________________| Figure 5 : AAL5 Entity's Interface Stack in a Switch8.2. Managing AAL5 in a Host Managing AAL5 in a host involves managing the AAL5 sublayer interface as shown in Figures 6 and 7. The AAL5 sublayer is stacked directly over the ATM sublayer. The ifTable is applied to the AAL5 sublayer as defined inSection 8.3. ___________________________ | | | ============= | | | AAL5 | | | | Entity | | | ============= | | | ATM | | | | Entity | | | ============= | |___________|_____________| | __|__ ATM UNI | | v Figure 6 : Model of an AAL5 Entity in a Host __________________ | | | AAL5 | |________________| | | | ATM Layer | |________________| | | | Physical Layer| |________________|Ahmed & Tesink [Page 12]
RFC 1695 ATM Management Objects August 1994 Figure 7 : AAL5 Entity's Interface Stack in a Host8.3. Support of AAL5 by ifTable The AAL5 entity in an ATM device (e.g., switch or host) is managed using the ifTable. There are additional counters specified for AAL5 than those specified in the ATM B-ICI document [10]. Specific interpretations of ifTable for the AAL5 CPCS layer are as follows. Object Use for AAL5 CPCS layer entity ====== ============================== ifIndex Each AAL5 entity is represented by an ifEntry. ifDescr Description of the AAL5 entity. ifType The value that is allocated for AAL5 is 49. ifMtu Set to the largest PDU size for the AAL5 CPCS layer that can be processed by the AAL5 entity. ifSpeed Set to 0. ifPhysAddress An octet string of zero length. ifAdminStatus See [5]. ifOperStatus Assumes the value down(2) if the AAL5 or any layer below that layer is down. ifLastChange See [5]. ifInOctets The number of received AAL5 CPCS PDU octets. ifOutOctets The number of AAL5 CPCS PDU octets transmitted. ifInUcastPkts The number of received AAL5 CPCS PDUs passed to a higher-layer. ifOutUcastPkts The number of AAL5 CPCS PDUs received from a higher-layer for transmission. [Note: The number of AAL5 PDUs actually transmitted is the number received from a higher-layer for transmission minus any which are counted by ifOutErrors and ifOutDiscards.]Ahmed & Tesink [Page 13]
RFC 1695 ATM Management Objects August 1994 ifInErrors Number of errored AAL5 CPCS PDUs received. The types of errors counted include CRC-32 errors, SAR time-out errors, and oversized SDU errors. ifInUnknownProtos Set to 0. ifInDiscards Number of received AAL5 CPCS PDUs discarded. Possible reason may be input buffer overflow. ifOutErrors Number of AAL5 CPCS PDUs that could not be transmitted due to errors. ifOutDiscards Number of AAL5 CPCS PDUs received for transmission that are discarded. Possible reason may be output buffer overflow. ifInMulticastPkts Set to 0. ifInBroadcastPkts Set to 0. ifOutMulticastPkts Set to 0. ifOutBroadcastPkts Set to 0. ifName Textual name (unique on this system) of the AAL5 entity or an octet string of zero length. ifHighSpeed Set to 0. ifConnectorPresent Set to false (2). ifPromiscuousMode Set to false(2). ifLinkUpDownTrapEnable Default is disabled (2).8.4. Support of Proprietary Virtual Interface by ifTable Specific interpretations of ifTable for the proprietary virtual, internal interface associated with an AAL5 entity in an ATM switch are as follows. Object Use for proprietary virtual, internal interface associated with AAL entities ====== =============================================== ifIndex Each proprietary virtual, internal interface associated with AAL entities is represented by anAhmed & Tesink [Page 14]
RFC 1695 ATM Management Objects August 1994 ifEntry. ifDescr Description of the proprietary virtual, internal interface associated with AAL entities. ifType The value that is allocated for proprietary virtual, internal interface is 53. ifSpeed See [5]. Set to 0 if the speed is not known. ifPhysAddress See [5]. An octet string of zero length if no address is used for this interface. ifAdminStatus See [5]. ifOperStatus See [5]. ifLastChange See [5]. ifName Textual name (unique on this system) of the interface or an octet string of zero length. ifHighSpeed See [5]. Set to 0 if the speed is not known. ifConnectorPresent Set to false (2). ifLinkUpDownTrapEnable Default is disabled (2).8.5. AAL5 Connection Performance Statistics Group An AAL5 connection table is used to provide AAL5 performance information for each AAL5 virtual connection that is terminated at the AAL5 entity contained within an ATM switch or host.9. ILMI MIB and the ATM Managed Objects The ILMI MIB is specified by the ATM Forum in UNI specification [9], to manage local ATM UNIs. The support of the ATM management functions by the ILMI MIB and those contained in this memo are compared in Table 1. In this table, "yes" in the "ILMI MIB" column indicates that the management functions are supported by the ILMI MIB. The MIB groups in the "This memo" column are the groups listed inSection 5.2. For that subset of management information which the ILMI MIB and this memo have in common, every effort has been made to retain identical semantics and syntax, even though the MIB objects are identifiedAhmed & Tesink [Page 15]
RFC 1695 ATM Management Objects August 1994 using different OBJECT IDENTIFIERs. Table 1 - Structuring of ATM Managed Objects ______________________________________________________________ | |This |ILMI| ATM Mgmt.Inf. |ATM Managed Objects |memo |MIB | ______________|_________________________________|_______|____| Local Interface Information: _____________________________________________________________ ATM interface:| (1) port identifier |ATM MIB| | physical layer| (2) physical transmission types | gr.1*|yes*| configuration | (3) operational status |MIB II | | | (4) administrative status | | | | (5) last change status | | | _____________________________________________________________ ATM interface:| (1) active VPI/VCI fields |ATM MIB| | cell layer | (2) maximum number of VPCs/VCCs | gr.1 |yes | configuration | (3) configured VPCs/VCCs | | ** | | (4) ILMI VPI/VCI values | | | | (5) ATM address type | | | | (6) ATM administrative address | | | _____________________________________________________________ ATM interface:|(1) received/transmitted cells | | | cell layer |(2) cells with HEC error |MIB II |yes | performance |(3) cell header validation errors| | | _____________________________________________________________ ATM interface:|(1)DS3 PLCP severely errored |ATM MIB| | PLCP & TC | framing seconds | gr.2,3| | layer |(2)DS3 PLCP unavailable seconds | |no | performance |(3)DS3 PLCP alarm state | | | |(4)out of cell delineation events| | | |(5)TC alarm state | | | _____________________________________________________________ VP/VC link: |(1)VPI or VPI/VCI value |ATM MIB| | configuration |(2)VCL or VPL operational status | gr. 4|yes | |(3)VCL/VPL administrative status | |*** | |(4)VCL/VPL last change status | | | |(5)transmit/receive traffic/QoS | | | | parameters | | | |(6)AAL type | | | |(7)transmit/receive AAL5 SDU size| | | |(8)AAL5 encapsulation type | | | _____________________________________________________________Ahmed & Tesink [Page 16]
RFC 1695 ATM Management Objects August 1994 _____________________________________________________________ VP/VC |(1)cross-connect identifier | | | Cross-connect:|(2)port identifier of one | | | configuration | end | | | |(3)port identifier of the other |ATM MIB| | | end | gr. 5|no | |(4)VPI or VPI/VCI value | | | | of one end | | | |(5)VPI or VPI/VCI value of | | | | the other end | | | |(6)VC/VP cross-connect | | | | operational status | | | |(7)VC/VP cross-connect | | | | administrative status | | | |(8)VC/VP last change status | | | _____________________________________________________________ VCC AAL5 CPCS |(1)PDUs discarded for CRC errors |ATM MIB| | layer: |(2)PDUs discarded due to | gr.6 | | performance | reassembly time out | |no | |(3)PDUs discarded due to large | | | | SDUs | | | _____________________________________________________________ AAL5 entity: |(1)received/transmitted PDUs | | | |(2)PDUs discarded due to | | | | protocol errors |MIB II |no | |(3)a set of configuration/state | | | | parameters | | | _____________________________________________________________ *The operational, administrative, and last change status of the ATM interface and the physical transmission type shall be supported by the interface table in MIB II (RFC 1213,RFC1573). ILMI does not contain the administrative and last change status of the ATM interface. ** The ILMI MIB does not contain information on the ATM address type and the ATM administrative address assigned at the ATM interface. ***The ILMI MIB contains local and end-to-end operational status of the VPC/VCC segment. However, it does not contain the VPC/VCC administrative and last change status and the VCC AAL information.Ahmed & Tesink [Page 17]
RFC 1695 ATM Management Objects August 199410. Definitions ATM-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, OBJECT-IDENTITY, Counter32, Integer32, IpAddress FROM SNMPv2-SMI TEXTUAL-CONVENTION, DisplayString, TimeStamp, RowStatus FROM SNMPv2-TC MODULE-COMPLIANCE, OBJECT-GROUP FROM SNMPv2-CONF ifIndex, mib-2 FROMRFC1213-MIB; atmMIB MODULE-IDENTITY LAST-UPDATED "9406072245Z" ORGANIZATION "IETF AToM MIB Working Group" CONTACT-INFO " Masuma Ahmed Postal: Bellcore 331 Newman Springs Road Red Bank, NJ 07701 US Tel: +1 908 758 2515 Fax: +1 908 758 4131 E-mail: mxa@mail.bellcore.com Kaj Tesink Postal: Bellcore 331 Newman Springs Road Red Bank, NJ 07701 US Tel: +1 908 758 5254 Fax: +1 908 758 4196 E-mail: kaj@cc.bellcore.com" DESCRIPTION "This is the MIB Module for ATM and AAL5-related objects for managing ATM interfaces, ATM virtual links, ATM cross-connects, AAL5 entities, and and AAL5 connections." ::= { mib-2 37 } atmMIBObjects OBJECT IDENTIFIER ::= {atmMIB 1} -- This ATM MIB Module consists of the following groups:Ahmed & Tesink [Page 18]
RFC 1695 ATM Management Objects August 1994 -- (1) ATM Interface configuration group -- (2) ATM Interface DS3 PLCP group -- (3) ATM Interface TC Sublayer group -- (4) ATM Interface VPL configuration group -- (5) ATM Interface VCL configuration group -- (6) ATM VP Cross Connect group -- (7) ATM VC Cross Connect group -- (8) ATM Interface AAL5 VCC performance statistics -- group IfIndex ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The value of this object identifies the interface for which the entry contains management information. The value of this object for a particular interface has the same value as the ifIndex object, defined inRFC 1213, for the same interface." SYNTAX Integer32 AtmTrafficDescrParamIndex ::= TEXTUAL-CONVENTION STATUS current DESCRIPTION "The value of this object identifies the row in the atmTrafficDescrParamTable." SYNTAX Integer32 atmTrafficDescriptorTypes OBJECT IDENTIFIER ::= {atmMIBObjects 1} -- The following values are defined for use as -- possible values of the ATM traffic descriptor type. -- ATM Forum specified seven types of ATM traffic -- descriptors. atmNoTrafficDescriptor OBJECT-IDENTITY STATUS current DESCRIPTION "This identifies the no ATM traffic descriptor type. Parameters 1, 2, 3, 4, and 5 are not used. This traffic descriptor type can be used for best effort traffic." ::= { atmTrafficDescriptorTypes 1} atmNoClpNoScr OBJECT-IDENTITYAhmed & Tesink [Page 19]
RFC 1695 ATM Management Objects August 1994 STATUS current DESCRIPTION "This traffic descriptor is for no CLP and no Sustained Cell Rate. The use of the parameter vector for this type: Parameter 1: CLP=0+1 peak cell rate in cells per second Parameter 2: not used Parameter 3: not used Parameter 4: not used Parameter 5: not used. This traffic descriptor type can be used for best effort traffic." ::= { atmTrafficDescriptorTypes 2} atmClpNoTaggingNoScr OBJECT-IDENTITY STATUS current DESCRIPTION "This traffic descriptor is for no CLP without tagging and no Sustained Cell Rate. The use of the parameter vector for this type: Parameter 1: CLP=0+1 peak cell rate in cells per second Parameter 2: CLP=0 peak cell rate in cells per second Parameter 3: not used Parameter 4: not used Parameter 5: not used." ::= { atmTrafficDescriptorTypes 3} atmClpTaggingNoScr OBJECT-IDENTITY STATUS current DESCRIPTION "This traffic descriptor is for CLP with tagging and no Sustained Cell Rate. The use of the parameter vector for this type: Parameter 1: CLP=0+1 peak cell rate in cells per second Parameter 2: CLP=0 peak cell rate in cells per second with excess traffic tagged as CLP=1 Parameter 3: not used Parameter 4: not used Parameter 5: not used." ::= { atmTrafficDescriptorTypes 4} atmNoClpScr OBJECT-IDENTITY STATUS currentAhmed & Tesink [Page 20]
RFC 1695 ATM Management Objects August 1994 DESCRIPTION "This traffic descriptor is for no CLP with Sustained Cell Rate. The use of the parameter vector for this type: Parameter 1: CLP=0+1 peak cell rate in cells per second Parameter 2: CLP=0+1 sustained cell rate in cells per second Parameter 3: CLP=0+1 maximum burst size in cells Parameter 4: not used Parameter 5: not used." ::= { atmTrafficDescriptorTypes 5} atmClpNoTaggingScr OBJECT-IDENTITY STATUS current DESCRIPTION "This traffic descriptor is for CLP with Sustained Cell Rate and no tagging. The use of the parameter vector for this type: Parameter 1: CLP=0+1 peak cell rate in cells per second Parameter 2: CLP=0 sustained cell rate in cells per second Parameter 3: CLP=0 maximum burst size in cells Parameter 4: not used Parameter 5: not used." ::= { atmTrafficDescriptorTypes 6} atmClpTaggingScr OBJECT-IDENTITY STATUS current DESCRIPTION "This traffic descriptor is for CLP with tagging and Sustained Cell Rate. The use of the parameter vector for this type: Parameter 1: CLP=0+1 peak cell rate in cells per second Parameter 2: CLP=0 sustained cell rate in cells per second with excess traffic tagged as CLP=1 Parameter 3: CLP=0 maximum burst size in cells Parameter 4: not used Parameter 5: not used." ::= { atmTrafficDescriptorTypes 7} -- ATM Interface Configuration Parameters GroupAhmed & Tesink [Page 21]
RFC 1695 ATM Management Objects August 1994 -- This group contains ATM specific -- configuration information associated with -- an ATM interface beyond those -- supported using the ifTable. atmInterfaceConfTable OBJECT-TYPE SYNTAX SEQUENCE OF AtmInterfaceConfEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains ATM local interface configuration parameters, one entry per ATM interface port." ::= { atmMIBObjects 2 } atmInterfaceConfEntry OBJECT-TYPE SYNTAX AtmInterfaceConfEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This list contains ATM interface configuration parameters and state variables." INDEX { ifIndex } ::= { atmInterfaceConfTable 1} AtmInterfaceConfEntry ::= SEQUENCE { atmInterfaceMaxVpcs INTEGER, atmInterfaceMaxVccs INTEGER, atmInterfaceConfVpcs INTEGER, atmInterfaceConfVccs INTEGER, atmInterfaceMaxActiveVpiBits INTEGER, atmInterfaceMaxActiveVciBits INTEGER, atmInterfaceIlmiVpi INTEGER, atmInterfaceIlmiVci INTEGER, atmInterfaceAddressType INTEGER, atmInterfaceAdminAddress OCTET STRING, atmInterfaceMyNeighborIpAddress IpAddress, atmInterfaceMyNeighborIfName DisplayString } atmInterfaceMaxVpcs OBJECT-TYPE SYNTAX INTEGER (0..4096) MAX-ACCESS read-write STATUS current DESCRIPTION "The maximum number of VPCs (PVCs and SVCs) supported at this ATM interface. At the ATM UNI,Ahmed & Tesink [Page 22]
RFC 1695 ATM Management Objects August 1994 the maximum number of VPCs (PVCs and SVCs) ranges from 0 to 256 only." ::= { atmInterfaceConfEntry 1} atmInterfaceMaxVccs OBJECT-TYPE SYNTAX INTEGER (0..65536) MAX-ACCESS read-write STATUS current DESCRIPTION "The maximum number of VCCs (PVCs and SVCs) supported at this ATM interface." ::= { atmInterfaceConfEntry 2} atmInterfaceConfVpcs OBJECT-TYPE SYNTAX INTEGER (0..4096) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of VPCs (PVCs and SVCs) configured for use at this ATM interface. At the ATM UNI, the configured number of VPCs (PVCs and SVCs) can range from 0 to 256 only." ::= { atmInterfaceConfEntry 3} atmInterfaceConfVccs OBJECT-TYPE SYNTAX INTEGER (0..65536) MAX-ACCESS read-only STATUS current DESCRIPTION "The number of VCCs (PVCs and SVCs) configured for use at the ATM interface." ::= { atmInterfaceConfEntry 4} atmInterfaceMaxActiveVpiBits OBJECT-TYPE SYNTAX INTEGER (0..12) MAX-ACCESS read-write STATUS current DESCRIPTION "The maximum number of active VPI bits configured for use at the ATM interface. At the ATM UNI, the maximum number of active VPI bits configured for use ranges from 0 to 8 only." ::= { atmInterfaceConfEntry 5} atmInterfaceMaxActiveVciBits OBJECT-TYPE SYNTAX INTEGER (0..16)Ahmed & Tesink [Page 23]
RFC 1695 ATM Management Objects August 1994 MAX-ACCESS read-write STATUS current DESCRIPTION "The maximum number of active VCI bits configured for use at this ATM interface." ::= { atmInterfaceConfEntry 6} atmInterfaceIlmiVpi OBJECT-TYPE SYNTAX INTEGER (0..255) MAX-ACCESS read-write STATUS current DESCRIPTION "The VPI value of the VCC supporting the ILMI at this ATM interface. If the values of atmInterfaceIlmiVpi and atmInterfaceIlmiVci are both equal to zero then the ILMI is not supported at this ATM interface." DEFVAL { 0 } ::= { atmInterfaceConfEntry 7} atmInterfaceIlmiVci OBJECT-TYPE SYNTAX INTEGER (0..65535) MAX-ACCESS read-write STATUS current DESCRIPTION "The VCI value of the VCC supporting the ILMI at this ATM interface. If the values of atmInterfaceIlmiVpi and atmInterfaceIlmiVci are both equal to zero then the ILMI is not supported at this ATM interface." DEFVAL { 16 } ::= { atmInterfaceConfEntry 8} atmInterfaceAddressType OBJECT-TYPE SYNTAX INTEGER { private(1), nsapE164(2), nativeE164(3), other(4) } MAX-ACCESS read-only STATUS current DESCRIPTION "The type of primary ATM address configured for use at this ATM interface." ::= { atmInterfaceConfEntry 9 } atmInterfaceAdminAddress OBJECT-TYPEAhmed & Tesink [Page 24]
RFC 1695 ATM Management Objects August 1994 SYNTAX OCTET STRING (SIZE(0..255)) MAX-ACCESS read-only STATUS current DESCRIPTION "An address assigned for administrative purposes, for example, an address associated with the service provider side of a public network UNI. If this interface has no assigned administrative address, or when the address used for administrative purposes is the same as that used for ifPhysAddress, then this is an octet string of zero length." ::= { atmInterfaceConfEntry 10 } atmInterfaceMyNeighborIpAddress OBJECT-TYPE SYNTAX IpAddress MAX-ACCESS read-write STATUS current DESCRIPTION "The IP address of the neighbor system connected to the far end of this interface, to which a Network Management Station can send SNMP messages, as IP datagrams sent to UDP port 161, in order to access network management information concerning the operation of that system. Note that the value of this object may be obtained in different ways, e.g., by manual configuration, or through ILMI interaction with the neighbor system." ::= { atmInterfaceConfEntry 11 } atmInterfaceMyNeighborIfName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "The textual name of the interface on the neighbor system on the far end of this interface, and to which this interface connects. If the neighbor system is manageable through SNMP and supports the object ifName, the value of this object must be identical with that of ifName for the ifEntry of the lowest level physical interface for this port. If this interface does not have a textual name, the value of this object is a zero length string. Note that the value of this object may be obtained in different ways, e.g., by manual configuration, or through ILMI interaction with the neighbor system."Ahmed & Tesink [Page 25]
RFC 1695 ATM Management Objects August 1994 ::= { atmInterfaceConfEntry 12 } -- The ATM Interface DS3 PLCP Group -- This group contains the DS3 PLCP configuration and -- state parameters of those ATM interfaces -- which use DS3 PLCP for carrying ATM cells over DS3. atmInterfaceDs3PlcpTable OBJECT-TYPE SYNTAX SEQUENCE OF AtmInterfaceDs3PlcpEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains ATM interface DS3 PLCP parameters and state variables, one entry per ATM interface port." ::= { atmMIBObjects 3} atmInterfaceDs3PlcpEntry OBJECT-TYPE SYNTAX AtmInterfaceDs3PlcpEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This list contains DS3 PLCP parameters and state variables at the ATM interface." INDEX {ifIndex } ::= { atmInterfaceDs3PlcpTable 1} AtmInterfaceDs3PlcpEntry ::= SEQUENCE { atmInterfaceDs3PlcpSEFSs Counter32, atmInterfaceDs3PlcpAlarmState INTEGER, atmInterfaceDs3PlcpUASs Counter32 } atmInterfaceDs3PlcpSEFSs OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of DS3 PLCP Severely Errored Framing Second (SEFS). Each SEFS represents a one-second interval which contains one or more SEF event." ::= { atmInterfaceDs3PlcpEntry 1} atmInterfaceDs3PlcpAlarmState OBJECT-TYPEAhmed & Tesink [Page 26]
RFC 1695 ATM Management Objects August 1994 SYNTAX INTEGER { noAlarm(1), receivedFarEndAlarm(2), incomingLOF(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "This variable indicates if there is an alarm present for the DS3 PLCP. The value receivedFarEndAlarm means that the DS3 PLCP has received an incoming Yellow Signal, the value incomingLOF means that the DS3 PLCP has declared a loss of frame (LOF) failure condition, and the value noAlarm means that there are no alarms present. Transition from the failure to the no alarm state occurs when no defects (e.g., LOF) are received for more than 10 seconds." ::= { atmInterfaceDs3PlcpEntry 2} atmInterfaceDs3PlcpUASs OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The counter associated with the number of Unavailable Seconds encountered by the PLCP." ::= { atmInterfaceDs3PlcpEntry 3} -- The ATM Interface TC Sublayer Group -- This group contains TC sublayer configuration and -- state parameters of those ATM interfaces -- which use TC sublayer for carrying ATM cells over -- SONET or DS3. atmInterfaceTCTable OBJECT-TYPE SYNTAX SEQUENCE OF AtmInterfaceTCEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains ATM interface TC Sublayer parameters and state variables, one entry per ATM interface port." ::= { atmMIBObjects 4}Ahmed & Tesink [Page 27]
RFC 1695 ATM Management Objects August 1994 atmInterfaceTCEntry OBJECT-TYPE SYNTAX AtmInterfaceTCEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This list contains TC Sublayer parameters and state variables at the ATM interface." INDEX {ifIndex } ::= { atmInterfaceTCTable 1} AtmInterfaceTCEntry ::= SEQUENCE { atmInterfaceOCDEvents Counter32, atmInterfaceTCAlarmState INTEGER } atmInterfaceOCDEvents OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of times the Out of Cell Delineation (OCD) events occur. If seven consecutive ATM cells have Header Error Control (HEC) violations, an OCD event occurs. A high number of OCD events may indicate a problem with the TC Sublayer." ::= { atmInterfaceTCEntry 1} atmInterfaceTCAlarmState OBJECT-TYPE SYNTAX INTEGER { noAlarm(1), lcdFailure(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "This variable indicates if there is an alarm present for the TC Sublayer. The value lcdFailure indicates that a Loss of Cell Delineation (LCD) failure state has been declared for the TC Sublayer. Transition from failure to the no alarm state occurs when 6 consecutive ATM cells are received with valid HEC, followed by about 10 seconds of acceptable working signal." ::= { atmInterfaceTCEntry 2}Ahmed & Tesink [Page 28]
RFC 1695 ATM Management Objects August 1994 -- ATM Traffic Descriptor Parameter Group -- This group contains a set of self-consistent -- ATM traffic parameters including the -- ATM traffic QoS Class. -- The ATM virtual link tables (i.e., VPL and VCL tables) -- will use this ATM Traffic Descriptor table -- to assign traffic parameters and QoS Class -- to the receive and transmit directions of -- the ATM virtual links (i.e., VPLs and VCLs). -- The ATM VPL or VCL table will indicate a row -- in the atmTrafficDescrParamTable -- using its atmTrafficDescrParamIndex value. -- The management application can then compare a set of -- ATM traffic parameters with a single value. -- If no suitable row(s) in the atmTrafficDescrParamTable -- exists, the manager must create a new row(s) in this -- table. If such a row is created, agent checks the -- sanity of that set of ATM traffic parameter values. -- When creating a new row, the parameter values -- will be checked for self-consistency. -- Predefined/template rows may be supported. -- A row in the atmTrafficDescrParamTable is deleted -- by setting the atmTrafficDescrRowStatus to destroy(6). -- The agent will check whether this row is still in use -- by any entry of the atmVplTable or atmVclTable. -- The agent denies the request if the row is still in -- use. -- The ATM Traffic Descriptor Parameter Table atmTrafficDescrParamTable OBJECT-TYPE SYNTAX SEQUENCE OF AtmTrafficDescrParamEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains information on ATM traffic descriptor type and the associated parameters." ::= { atmMIBObjects 5} atmTrafficDescrParamEntry OBJECT-TYPE SYNTAX AtmTrafficDescrParamEntry MAX-ACCESS not-accessibleAhmed & Tesink [Page 29]
RFC 1695 ATM Management Objects August 1994 STATUS current DESCRIPTION "This list contains ATM traffic descriptor type and the associated parameters." INDEX {atmTrafficDescrParamIndex} ::= { atmTrafficDescrParamTable 1} AtmTrafficDescrParamEntry ::= SEQUENCE { atmTrafficDescrParamIndex AtmTrafficDescrParamIndex, atmTrafficDescrType OBJECT IDENTIFIER, atmTrafficDescrParam1 Integer32, atmTrafficDescrParam2 Integer32, atmTrafficDescrParam3 Integer32, atmTrafficDescrParam4 Integer32, atmTrafficDescrParam5 Integer32, atmTrafficQoSClass INTEGER, atmTrafficDescrRowStatus RowStatus } atmTrafficDescrParamIndex OBJECT-TYPE SYNTAX AtmTrafficDescrParamIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "This object is used by the virtual link table (i.e., VPL or VCL table) to identify the row of this table." ::= { atmTrafficDescrParamEntry 1} atmTrafficDescrType OBJECT-TYPE SYNTAX OBJECT IDENTIFIER MAX-ACCESS read-create STATUS current DESCRIPTION "The value of this object identifies the type of ATM traffic descriptor. The type may indicate no traffic descriptor or traffic descriptor with one or more parameters. These parameters are specified as a parameter vector, in the corresponding instances of the objects: atmTrafficDescrParam1 atmTrafficDescrParam2 atmTrafficDescrParam3 atmTrafficDescrParam4 atmTrafficDescrParam5." DEFVAL { atmNoTrafficDescriptor } ::= { atmTrafficDescrParamEntry 2}Ahmed & Tesink [Page 30]
RFC 1695 ATM Management Objects August 1994 atmTrafficDescrParam1 OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The first parameter of the ATM traffic descriptor used according to the value of atmTrafficDescrType." DEFVAL { 0 } ::= { atmTrafficDescrParamEntry 3} atmTrafficDescrParam2 OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The second parameter of the ATM traffic descriptor used according to the value of atmTrafficDescrType." DEFVAL { 0 } ::= { atmTrafficDescrParamEntry 4} atmTrafficDescrParam3 OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The third parameter of the ATM traffic descriptor used according to the value of atmTrafficDescrType." DEFVAL { 0 } ::= { atmTrafficDescrParamEntry 5} atmTrafficDescrParam4 OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS current DESCRIPTION "The fourth parameter of the ATM traffic descriptor used according to the value of atmTrafficDescrType." DEFVAL { 0 } ::= { atmTrafficDescrParamEntry 6} atmTrafficDescrParam5 OBJECT-TYPE SYNTAX Integer32 MAX-ACCESS read-create STATUS currentAhmed & Tesink [Page 31]
RFC 1695 ATM Management Objects August 1994 DESCRIPTION "The fifth parameter of the ATM traffic descriptor used according to the value of atmTrafficDescrType." DEFVAL { 0 } ::= { atmTrafficDescrParamEntry 7} atmTrafficQoSClass OBJECT-TYPE SYNTAX INTEGER (0..255) MAX-ACCESS read-create STATUS current DESCRIPTION "The value of this object identifies the QoS Class. Four Service classes have been specified in the ATM Forum UNI Specification: Service Class A: Constant bit rate video and Circuit emulation Service Class B: Variable bit rate video/audio Service Class C: Connection-oriented data Service Class D: Connectionless data Four QoS classes numbered 1, 2, 3, and 4 have been specified with the aim to support service classes A, B, C, and D respectively. An unspecified QoS Class numbered `0' is used for best effort traffic." DEFVAL { 0 } ::= { atmTrafficDescrParamEntry 8} atmTrafficDescrRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "This object is used to create a new row or modify or delete an existing row in this table." DEFVAL { active } ::= {atmTrafficDescrParamEntry 9} -- ATM Interface Virtual Path Link (VPL) Group -- This group contains configuration and state -- information of a bi-directional Virtual Path Link -- (VPL) -- This table can be used to create, delete or modifyAhmed & Tesink [Page 32]
RFC 1695 ATM Management Objects August 1994 -- a VPL that is terminated in an ATM host or switch. -- This table can also be used to create, delete or -- modify a VPL which is cross-connected to another -- VPL. -- In the example below, the traffic flows on the receive -- and transmit directions of the VPLs are characterized -- by atmVplReceiveTrafficDescrIndex and -- atmVplTransmitTrafficDescrIndex respectively. -- The cross-connected VPLs are identified by -- atmVplCrossConnectIdentifier. -- ________________________________ -- | | -- VPL | ATM Host, Switch, or Network | VPL -- receive | | receive -- ========> X X <======= -- <======== X X ========> -- transmit | | transmit -- |______________________________| -- The ATM Interface VPL Table atmVplTable OBJECT-TYPE SYNTAX SEQUENCE OF AtmVplEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The Virtual Path Link (VPL) table. A bi-directional VPL is modeled as one entry in this table." ::= { atmMIBObjects 6} atmVplEntry OBJECT-TYPE SYNTAX AtmVplEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the VPL table. This entry is used to model a bi-directional VPL. To create a VPL at an ATM interface, either of the following procedures are used:Ahmed & Tesink [Page 33]
RFC 1695 ATM Management Objects August 1994 Negotiated VPL establishment (1) The management application creates a VPL entry in the atmVplTable by setting atmVplRowStatus to createAndWait(5). This may fail for the following reasons: - The selected VPI value is unavailable, - The selected VPI value is in use. Otherwise, the agent creates a row and reserves the VPI value on that port. (2) The manager selects an existing row(s) in the atmTrafficDescrParamTable, thereby, selecting a set of self-consistent ATM traffic parameters and the QoS Class for receive and transmit directions of the VPL. (2a) If no suitable row(s) in the atmTrafficDescrParamTable exists, the manager must create a new row(s) in that table. (2b) The manager characterizes the VPL's traffic parameters through setting the atmVplReceiveTrafficDescrIndex and the atmVplTransmitTrafficDescrIndex values in the VPL table, which point to the rows containing desired ATM traffic parameter values in the atmTrafficDescrParamTable. The agent will check the availability of resources and may refuse the request. (3) The manager activates the VPL by setting the the atmVplRowStatus to active(1). If this set is successful, the agent has reserved the resources to satisfy the requested traffic parameter values and the QoS Class for that VPL. (4) If the VPL terminates a VPC in the ATM host or switch, the manager turns on the atmVplAdminStatus to up(1) to turn the VPL traffic flow on. Otherwise, the atmVpCrossConnectTable must be used to cross-connect the VPL to another VPL(s) in an ATM switch or network. One-Shot VPL EstablishmentAhmed & Tesink [Page 34]
RFC 1695 ATM Management Objects August 1994 A VPL may also be established in one step by a set-request with all necessary VPL parameter values and atmVplRowStatus set to createAndGo(4). In contrast to the negotiated VPL establishment which allows for detailed error checking (i.e., set errors are explicitly linked to particular resource acquisition failures), the one-shot VPL establishment performs the setup on one operation but does not have the advantage of step-wise error checking. VPL Retirement A VPL is released by setting atmVplRowStatus to destroy(6), and the agent may release all associated resources." INDEX {ifIndex, atmVplVpi } ::= { atmVplTable 1} AtmVplEntry ::= SEQUENCE { atmVplVpi INTEGER, atmVplAdminStatus INTEGER, atmVplOperStatus INTEGER, atmVplLastChange TimeStamp, atmVplReceiveTrafficDescrIndex AtmTrafficDescrParamIndex, atmVplTransmitTrafficDescrIndex AtmTrafficDescrParamIndex, atmVplCrossConnectIdentifier INTEGER, atmVplRowStatus RowStatus } atmVplVpi OBJECT-TYPE SYNTAX INTEGER (1..4095) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The VPI value of the VPL. Note that the VPI=0 is not used for a VPL not associated with a VCL. The maximum VPI value cannot exceed the value allowable by the atmInterfaceMaxVpiBits." ::= { atmVplEntry 1}Ahmed & Tesink [Page 35]
RFC 1695 ATM Management Objects August 1994 atmVplAdminStatus OBJECT-TYPE SYNTAX INTEGER { up(1), down(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "This object is implemented only for a VPL which terminates a VPC (i.e., one which is NOT cross-connected to other VPLs). Its value specifies the desired administrative state of the VPL. The up and down states indicate that the traffic flow is enabled and disabled respectively for this VPL." DEFVAL { down } ::= { atmVplEntry 2} atmVplOperStatus OBJECT-TYPE SYNTAX INTEGER { up(1), down(2), unknown(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the current operational status of the VPL. The up and down states indicate that the VPL is currently operational, or not operational, respectively. The unknown state indicates that the status of this VPL cannot be determined." ::= { atmVplEntry 3} atmVplLastChange OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of MIB II's sysUpTime object at the time this VPL entered its current operational state. If the current state was entered prior to the last re-initialization of the agent, then this object contains a zero value." ::= { atmVplEntry 4 }Ahmed & Tesink [Page 36]
RFC 1695 ATM Management Objects August 1994 atmVplReceiveTrafficDescrIndex OBJECT-TYPE SYNTAX AtmTrafficDescrParamIndex MAX-ACCESS read-create STATUS current DESCRIPTION "The value of this object identifies the row in the atmTrafficDescrParamTable which applies to the receive direction of the VPL." ::= { atmVplEntry 5} atmVplTransmitTrafficDescrIndex OBJECT-TYPE SYNTAX AtmTrafficDescrParamIndex MAX-ACCESS read-create STATUS current DESCRIPTION "The value of this object identifies the row in the atmTrafficDescrParamTable which applies to the transmit direction of the VPL." ::= { atmVplEntry 6} atmVplCrossConnectIdentifier OBJECT-TYPE SYNTAX INTEGER (0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "This object is implemented only for a VPL which is cross-connected to other VPLs that belong to the same VPC. All such associated VPLs have the same value of this object, and all their cross-connections are identified by entries in the atmVpCrossConnectTable for which atmVpCrossConnectIndex has the same value. The value of this object is initialized by the agent after the associated entries in the atmVpCrossConnectTable have been created." ::= {atmVplEntry 7} atmVplRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "This object is used to create, delete or modify a row in this table. To create a new VCL, this object is initially set to 'createAndWait' or 'createAndGo'. This object must not beAhmed & Tesink [Page 37]
RFC 1695 ATM Management Objects August 1994 set to 'active' unless the following columnar objects exist in this row: atmVplReceiveTrafficDescrIndex and atmVplTransmitTrafficDescrIndex." DEFVAL { active } ::= {atmVplEntry 8} -- ATM Interface Virtual Channel Link (VCL) Group -- This group contains configuration and state -- information of a bi-directional Virtual Channel -- Link (VCL) at an ATM interface. -- This table can be used to create, delete or modify -- a VCL that is terminated in an ATM host or switch. -- This table can also be -- used to create, delete or modify a VCL that is -- cross-connected to another VCL. -- The ATM Interface VCL Table atmVclTable OBJECT-TYPE SYNTAX SEQUENCE OF AtmVclEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The Virtual Channel Link (VCL) table. A bi-directional VCL is modeled as one entry in this table." ::= { atmMIBObjects 7} atmVclEntry OBJECT-TYPE SYNTAX AtmVclEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the VCL table. This entry is used to model a bi-directional VCL. To create a VCL at an ATM interface, either of the following procedures are used: Negotiated VCL establishment (1) The management application creates a VCL entry in the atmVclTableAhmed & Tesink [Page 38]
RFC 1695 ATM Management Objects August 1994 by setting atmVclRowStatus to createAndWait(5). This may fail for the following reasons: - The selected VPI/VCI values are unavailable, - The selected VPI/VCI values are in use. Otherwise, the agent creates a row and reserves the VPI/VCI values on that port. (2) The manager selects an existing row(s) in the atmTrafficDescrParamTable, thereby, selecting a set of self-consistent ATM traffic parameters and the QoS Class for receive and transmit directions of the VCL. (2a) If no suitable row(s) in the atmTrafficDescrParamTable exists, the manager must create a new row(s) in that table. (2b) The manager characterizes the VCL's traffic parameters through setting the atmVclReceiveTrafficDescrIndex and the atmVclTransmitTrafficDescrIndex values in the VCL table, which point to the rows containing desired ATM traffic parameter values in the atmTrafficDescrParamTable. The agent will check the availability of resources and may refuse the request. (3) The manager activates the VCL by setting the the atmVclRowStatus to active(1). If this set is successful, the agent has reserved the resources to satisfy the requested traffic parameter values and the QoS Class for that VCL. (4) If the VCL terminates a VCC in the ATM host or switch, the manager turns on the atmVclAdminStatus to up(1) to turn the VCL traffic flow on. Otherwise, the atmVcCrossConnectTable must be used to cross-connect the VCL to another VCL(s) in an ATM switch or network. One-Shot VCL Establishment A VCL may also be established in one step by a set-request with all necessary VCL parameter values and atmVclRowStatus set to createAndGo(4).Ahmed & Tesink [Page 39]
RFC 1695 ATM Management Objects August 1994 In contrast to the negotiated VCL establishment which allows for detailed error checking (i.e., set errors are explicitly linked to particular resource acquisition failures), the one-shot VCL establishment performs the setup on one operation but does not have the advantage of step-wise error checking. VCL Retirement A VCL is released by setting atmVclRowStatus to destroy(6), and the agent may release all associated resources." INDEX {ifIndex, atmVclVpi, atmVclVci } ::= { atmVclTable 1} AtmVclEntry ::= SEQUENCE { atmVclVpi INTEGER, atmVclVci INTEGER, atmVclAdminStatus INTEGER, atmVclOperStatus INTEGER, atmVclLastChange TimeStamp, atmVclReceiveTrafficDescrIndex AtmTrafficDescrParamIndex, atmVclTransmitTrafficDescrIndex AtmTrafficDescrParamIndex, atmVccAalType INTEGER, atmVccAal5CpcsTransmitSduSize INTEGER, atmVccAal5CpcsReceiveSduSize INTEGER, atmVccAal5EncapsType INTEGER, atmVclCrossConnectIdentifier INTEGER, atmVclRowStatus RowStatus } atmVclVpi OBJECT-TYPE SYNTAX INTEGER (0..4095) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The VPI value of the VCL. The maximum VPI value cannot exceed the value allowable by the atmInterfaceMaxVpiBits." ::= { atmVclEntry 1} atmVclVci OBJECT-TYPE SYNTAX INTEGER (0..65535)Ahmed & Tesink [Page 40]
RFC 1695 ATM Management Objects August 1994 MAX-ACCESS not-accessible STATUS current DESCRIPTION "The VCI value of the VCL. The maximum VCI value cannot exceed the value allowable by the atmInterfaceMaxVciBits." ::= { atmVclEntry 2} atmVclAdminStatus OBJECT-TYPE SYNTAX INTEGER { up(1), down(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "This object is implemented only for a VCL which terminates a VCC (i.e., one which is NOT cross-connected to other VCLs). Its value specifies the desired administrative state of the VCL. The up and down states indicate that the traffic flow is enabled and disabled respectively for this VCL." ::= { atmVclEntry 3} atmVclOperStatus OBJECT-TYPE SYNTAX INTEGER { up(1), down(2), unknown(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the current operational status of the VCL. The up and down states indicate that the VCL is currently operational, or not operational, respectively. The unknown state indicates that the status of this VCL cannot be determined." ::= { atmVclEntry 4} atmVclLastChange OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTIONAhmed & Tesink [Page 41]
RFC 1695 ATM Management Objects August 1994 "The value of MIB II's sysUpTime object at the time this VCL entered its current operational state. If the current state was entered prior to the last re-initialization of the agent, then this object contains a zero value." ::= { atmVclEntry 5 } atmVclReceiveTrafficDescrIndex OBJECT-TYPE SYNTAX AtmTrafficDescrParamIndex MAX-ACCESS read-create STATUS current DESCRIPTION "The value of this object identifies the row in the ATM Traffic Descriptor Table which applies to the receive direction of this VCL." ::= { atmVclEntry 6} atmVclTransmitTrafficDescrIndex OBJECT-TYPE SYNTAX AtmTrafficDescrParamIndex MAX-ACCESS read-create STATUS current DESCRIPTION "The value of this object identifies the row of the ATM Traffic Descriptor Table which applies to the transmit direction of this VCL." ::= { atmVclEntry 7} atmVccAalType OBJECT-TYPE SYNTAX INTEGER { aal1(1), aal34(2), aal5(3), other(4), unknown(5) } MAX-ACCESS read-create STATUS current DESCRIPTION "An instance of this object only exists when the local VCL end-point is also the VCC end-point, and AAL is in use. The type of AAL used on this VCC. The AAL type includes AAL1, AAL3/4, and AAL5. The other(4) may be user-defined AAL type. The unknown type indicates that the AAL type cannot be determined." ::= { atmVclEntry 8 }Ahmed & Tesink [Page 42]
RFC 1695 ATM Management Objects August 1994 atmVccAal5CpcsTransmitSduSize OBJECT-TYPE SYNTAX INTEGER (1..65535) MAX-ACCESS read-create STATUS current DESCRIPTION "An instance of this object only exists when the local VCL end-point is also the VCC end-point, and AAL5 is in use. The maximum AAL5 CPCS SDU size in octets that is supported on the transmit direction of this VCC." DEFVAL { 9188 } ::= { atmVclEntry 9 } atmVccAal5CpcsReceiveSduSize OBJECT-TYPE SYNTAX INTEGER (1..65535) MAX-ACCESS read-create STATUS current DESCRIPTION "An instance of this object only exists when the local VCL end-point is also the VCC end-point, and AAL5 is in use. The maximum AAL5 CPCS SDU size in octets that is supported on the receive direction of this VCC." DEFVAL { 9188 } ::= { atmVclEntry 10 } atmVccAal5EncapsType OBJECT-TYPE SYNTAX INTEGER { vcMultiplexRoutedProtocol(1), vcMultiplexBridgedProtocol8023(2), vcMultiplexBridgedProtocol8025(3), vcMultiplexBridgedProtocol8026(4), vcMultiplexLANemulation8023(5), vcMultiplexLANemulation8025(6), llcEncapsulation(7), multiprotocolFrameRelaySscs(8), other(9), unknown(10) } MAX-ACCESS read-create STATUS current DESCRIPTION "An instance of this object only exists when the local VCL end-point is also the VCC end-point, and AAL5 is in use. The type of data encapsulation used over the AAL5 SSCS layer. The definitions referenceRFC 1483 Multiprotocol EncapsulationAhmed & Tesink [Page 43]
RFC 1695 ATM Management Objects August 1994 over ATM AAL5 and to the ATM Forum LAN Emulation specification." DEFVAL { llcEncapsulation } ::= { atmVclEntry 11 } atmVclCrossConnectIdentifier OBJECT-TYPE SYNTAX INTEGER (0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "This object is implemented only for a VCL which is cross-connected to other VCLs that belong to the same VCC. All such associated VCLs have the same value of this object, and all their cross-connections are identified by entries in the atmVcCrossConnectTable for which atmVcCrossConnectIndex has the same value. The value of this object is initialized by the agent after the associated entries in the atmVcCrossConnectTable have been created." ::= {atmVclEntry 12} atmVclRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "This object is used to create, delete or modify a row in this table. To create a new VCL, this object is initially set to 'createAndWait' or 'createAndGo'. This object must not be set to 'active' unless the following columnar objects exist in this row: atmVclReceiveTrafficDescrIndex, atmVclTransmitTrafficDescrIndex. In addition, if the local VCL end-point is also the VCC end-point: atmVccAalType. In addition, for AAL5 connections only: atmVccAal5CpcsTransmitSduSize, atmVccAal5CpcsReceiveSduSize, and atmVccAal5EncapsType." DEFVAL { active } ::= {atmVclEntry 13}Ahmed & Tesink [Page 44]
RFC 1695 ATM Management Objects August 1994 -- ATM Virtual Path (VP) Cross Connect Group -- This group contains configuration and state -- information of all point-to-point, -- point-to-multipoint, or multipoint-to-multipoint -- VP cross-connects. -- This table has read-create access and can be used -- to cross-connect the VPLs together in an ATM switch -- or network. The atmVpCrossConnectIndex -- is used to associate the related -- VPLs that are cross-connected together. -- The ATM VP Cross Connect Group -- models each bi-directional VPC -- cross-connect as a set of entries in -- the atmVpCrossConnectTable. A -- point-to-point VPC cross-connect is modeled -- as one entry; a point-to-multipoint (N leafs) VPC -- cross-connect as N entries in this table; and -- a multipoint-to-multipoint (N parties) VPC cross- -- connect as N(N-1)/2 entries in this table. -- In the latter cases, all the N (or N(N-1)/2) entries -- are associated with a single VPC cross-connect by -- having the same value of atmVpCrossConnectIndex. -- _________________________________________ -- | | -- Low | ATM Switch or Network | High -- port| | port -- _____|>> from low to high VPC traffic flow >>|______ -- |<< from high to low VPC traffic flow <<| -- | | -- |_______________________________________| -- -- The terms low and high are chosen to represent -- numerical ordering of the two interfaces associated -- with a VPC cross-connect. That is, the ATM interface -- with the lower value of ifIndex is termed 'low', -- while the other ATM interface associated with the -- VPC cross-connect is termed 'high'. This terminology -- is used to provide directional information; for -- example, the atmVpCrossConnectL2HOperStatus applies -- to the low->high direction, and -- atmVpCrossConnectH2LOperStatus applies to the -- high->low direction, as illustrated above.Ahmed & Tesink [Page 45]
RFC 1695 ATM Management Objects August 1994 atmVpCrossConnectIndexNext OBJECT-TYPE SYNTAX INTEGER (0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains an appropriate value to be used for atmVpCrossConnectIndex when creating entries in the atmVpCrossConnectTable. The value 0 indicates that no unassigned entries are available. To obtain the atmVpCrossConnectIndex value for a new entry, the manager issues a management protocol retrieval operation to obtain the current value of this object. After each retrieval, the agent should modify the value to the next unassigned index." ::= { atmMIBObjects 8 } -- The ATM VP Cross Connect Table atmVpCrossConnectTable OBJECT-TYPE SYNTAX SEQUENCE OF AtmVpCrossConnectEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The ATM VP Cross Connect table. A bi- directional VP cross-connect which cross-connects two VPLs is modeled as one entry in this table." ::= { atmMIBObjects 9 } atmVpCrossConnectEntry OBJECT-TYPE SYNTAX AtmVpCrossConnectEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the ATM VP Cross Connect table. This entry is used to model a bi-directional ATM VP cross-connect which cross-connects two VPLs. Step-wise Procedures to set up a VP Cross-connect Once the entries in the atmVplTable are created, the following procedures are used to cross-connect the VPLs together.Ahmed & Tesink [Page 46]
RFC 1695 ATM Management Objects August 1994 (1) The manager obtains a unique atmVpCrossConnectIndex by reading the atmVpCrossConnectIndexNext object. (2) Next, the manager creates a set of one or more rows in the ATM VP Cross Connect Table, one for each cross-connection between two VPLs. Each row is indexed by the ATM interface port numbers and VPI values of the two ends of that cross-connection. This set of rows specifies the topology of the VPC cross-connect and is identified by a single value of atmVpCrossConnectIndex. Negotiated VP Cross-Connect Establishment (2a) The manager creates a row in this table by setting atmVpCrossConnectRowStatus to createAndWait(5). The agent checks the requested topology and the mutual sanity of the ATM traffic parameters and QoS Classes, i.e., the row creation fails if: - the requested topology is not supported by the agent, - the traffic/QoS parameter values associated with the requested row are incompatible with those of already existing rows for this VP cross-connect. [For example, for setting up a point-to-point VP cross-connect, the ATM traffic parameters in the receive direction of a VPL at the low end of the cross-connect must equal to the traffic parameters in the transmit direction of the other VPL at the high end of the cross-connect, otherwise, the row creation fails.] The agent also checks for internal errors in building the cross-connect. The atmVpCrossConnectIndex values in the corresponding atmVplTable rows are filled in by the agent at this point. (2b) The manager promotes the row in the atmVpCrossConnectTable by setting atmVpCrossConnectRowStatus to active(1). If this set is successful, the agent has reserved the resources specified by the ATM trafficAhmed & Tesink [Page 47]
RFC 1695 ATM Management Objects August 1994 parameter and QoS Class values for each direction of the VP cross-connect in an ATM switch or network. (3) The manager sets the atmVpCrossConnectAdminStatus to up(1) in all rows of this VP cross-connect to turn the traffic flow on. One-Shot VP Cross-Connect Establishment A VP cross-connect may also be established in one step by a set-request with all necessary parameter values and atmVpCrossConnectRowStatus set to createAndGo(4). In contrast to the negotiated VP cross-connect establishment which allows for detailed error checking (i.e., set errors are explicitly linked to particular resource acquisition failures), the one-shot VP cross-connect establishment performs the setup on one operation but does not have the advantage of step-wise error checking. VP Cross-Connect Retirement A VP cross-connect identified by a particular value of atmVpCrossConnectIndex is released by: (1) Setting atmVpCrossConnectRowStatus of all rows identified by this value of atmVpCrossConnectIndex to destroy(6). The agent may release all associated resources, and the atmVpCrossConnectIndex values in the corresponding atmVplTable row are removed. Note that a situation when only a subset of the associated rows are deleted corresponds to a VP topology change. (2) After deletion of the appropriate atmVpCrossConnectEntries, the manager may set atmVplRowStatus to destroy(6) the associated VPLs. The agent releases the resources and removes the associated rows in the atmVplTable.Ahmed & Tesink [Page 48]
RFC 1695 ATM Management Objects August 1994 VP Cross-connect Reconfiguration At the discretion of the agent, a VP cross-connect may be reconfigured by adding and/or deleting leafs to/from the VP topology as per the VP cross-connect establishment/retirement procedures. Reconfiguration of traffic/QoS parameter values requires release of the VP cross-connect before those parameter values may by changed for individual VPLs." INDEX { atmVpCrossConnectIndex, atmVpCrossConnectLowIfIndex, atmVpCrossConnectLowVpi, atmVpCrossConnectHighIfIndex, atmVpCrossConnectHighVpi } ::= { atmVpCrossConnectTable 1 } AtmVpCrossConnectEntry ::= SEQUENCE { atmVpCrossConnectIndex INTEGER, atmVpCrossConnectLowIfIndex IfIndex, atmVpCrossConnectLowVpi INTEGER, atmVpCrossConnectHighIfIndex IfIndex, atmVpCrossConnectHighVpi INTEGER, atmVpCrossConnectAdminStatus INTEGER, atmVpCrossConnectL2HOperStatus INTEGER, atmVpCrossConnectH2LOperStatus INTEGER, atmVpCrossConnectL2HLastChange TimeStamp, atmVpCrossConnectH2LLastChange TimeStamp, atmVpCrossConnectRowStatus RowStatus } atmVpCrossConnectIndex OBJECT-TYPE SYNTAX INTEGER (1..2147483647) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value to identify this VP cross-connect." ::= { atmVpCrossConnectEntry 1 } atmVpCrossConnectLowIfIndex OBJECT-TYPE SYNTAX IfIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "The value of this object is equal to MIB II's ifIndex value of the ATM interface port for this VP cross-connect. The term low impliesAhmed & Tesink [Page 49]
RFC 1695 ATM Management Objects August 1994 that this ATM interface has the numerically lower ifIndex value than the other ATM interface identified in the same atmVpCrossConnectEntry." ::= { atmVpCrossConnectEntry 2 } atmVpCrossConnectLowVpi OBJECT-TYPE SYNTAX INTEGER (1..4095) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The value of this object is equal to the VPI value at the ATM interface associated with the VP cross-connect that is identified by atmVpCrossConnectLowIfIndex. The VPI value cannot exceed the number supported by the atmInterfaceMaxVpiBits at the low ATM interface port." ::= { atmVpCrossConnectEntry 3 } atmVpCrossConnectHighIfIndex OBJECT-TYPE SYNTAX IfIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "The value of this object is equal to MIB II's ifIndex value of the ATM interface port for this VP cross-connect. The term high implies that this ATM interface has the numerically higher ifIndex value than the other ATM interface identified in the same atmVpCrossConnectEntry." ::= { atmVpCrossConnectEntry 4 } atmVpCrossConnectHighVpi OBJECT-TYPE SYNTAX INTEGER (1..4095) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The value of this object is equal to the VPI value at the ATM interface associated with the VP cross-connect that is identified by atmVpCrossConnectHighIfIndex. The VPI value cannot exceed the number supported by the atmInterfaceMaxVpiBits at the high ATM interface port." ::= { atmVpCrossConnectEntry 5 } atmVpCrossConnectAdminStatus OBJECT-TYPEAhmed & Tesink [Page 50]
RFC 1695 ATM Management Objects August 1994 SYNTAX INTEGER { up(1), down(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "The value of this object identifies the desired administrative status of this bi-directional VP cross-connect. The up and down states indicate that the traffic flow is enabled and disabled respectively on this VP cross-connect." DEFVAL { down } ::= { atmVpCrossConnectEntry 6 } atmVpCrossConnectL2HOperStatus OBJECT-TYPE SYNTAX INTEGER { up(1), down(2), unknown(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The value of this object identifies the current operational status of the VP cross-connect in one direction; (i.e., from the low to high direction). The up and down states indicate that this ATM VP cross-connect from low to high direction is operational or not operational respectively. The unknown state indicates that the state of it cannot be determined." ::= { atmVpCrossConnectEntry 7 } atmVpCrossConnectH2LOperStatus OBJECT-TYPE SYNTAX INTEGER { up(1), down(2), unknown(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The value of this object identifies the current operational status of the VP cross-connect in one direction; (i.e., from the high toAhmed & Tesink [Page 51]
RFC 1695 ATM Management Objects August 1994 low direction). The up and down states indicate that this ATM VP cross-connect from high to low direction is operational or not operational respectively. The unknown state indicates that the state of it cannot be determined." ::= { atmVpCrossConnectEntry 8 } atmVpCrossConnectL2HLastChange OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of MIB II's sysUpTime object at the time this VP cross-connect entered its current operational state in the low to high direction. If the current state was entered prior to the last re-initialization of the agent, then this object contains a zero value." ::= { atmVpCrossConnectEntry 9 } atmVpCrossConnectH2LLastChange OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of MIB II's sysUpTime object at the time this VP cross-connect entered its current operational state in the high to low direction. If the current state was entered prior to the last re-initialization of the agent, then this object contains a zero value." ::= { atmVpCrossConnectEntry 10 } atmVpCrossConnectRowStatus OBJECT-TYPE SYNTAX RowStatus MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this entry in the atmVpCrossConnectTable. This object is used to create a cross-connect for cross-connecting VPLs which are created using the atmVplTable or to change or delete an existing cross-connect. This object must be initially set to `createAndWait' or 'createAndGo'. This object cannot be set to `active' unless the following columnar object existsAhmed & Tesink [Page 52]
RFC 1695 ATM Management Objects August 1994 in this row: atmVpCrossConnectAdminStatus. To turn on a VP cross-connect, the atmVpCrossConnectAdminStatus is set to `up'." DEFVAL { active } ::= { atmVpCrossConnectEntry 11 } -- ATM Virtual Channel (VC) Cross Connect Group -- This group contains configuration and state -- information of a bi-directional VC cross-connect. -- This group is used to model a bi-directional -- point-to-point, point-to-multipoint or -- multipoint-to-multipoint VC cross-connects. -- This table has read-create access and is used -- to cross-connect the VCLs together in an ATM switch -- or network that belong to a VC connection. -- The atmVcCrossConnectIndex is used to associate -- the related VCLs that are cross-connected together. -- The step-wise procedures described for setting -- up a VP cross-connect are also used for setting up -- a VC cross-connect. atmVcCrossConnectIndexNext OBJECT-TYPE SYNTAX INTEGER (0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains an appropriate value to be used for atmVcCrossConnectIndex when creating entries in the atmVcCrossConnectTable. The value 0 indicates that no unassigned entries are available. To obtain the atmVpCrossConnectIndex value for a new entry, the manager issues a management protocol retrieval operation to obtain the current value of this object. After each retrieval, the agent should modify the value to the next unassigned index." ::= { atmMIBObjects 10 } -- The ATM VC Cross Connect TableAhmed & Tesink [Page 53]
RFC 1695 ATM Management Objects August 1994 atmVcCrossConnectTable OBJECT-TYPE SYNTAX SEQUENCE OF AtmVcCrossConnectEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The ATM VC Cross Connect table. A bi- directional VC cross-connect which cross-connects two end points (i.e., VCLs) is modeled as one entry in this table." ::= { atmMIBObjects 11 } atmVcCrossConnectEntry OBJECT-TYPE SYNTAX AtmVcCrossConnectEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the ATM VC Cross Connect table. This entry is used to model a bi-directional ATM VC cross-connect cross-connecting two end points. Step-wise Procedures to set up a VC Cross-connect Once the entries in the atmVclTable are created, the following procedures are used to cross-connect the VCLs together to form a VCC segment. (1) The manager obtains a unique atmVcCrossConnectIndex by reading the atmVcCrossConnectIndexNext object. (2) Next, the manager creates a set of one or more rows in the ATM VC Cross Connect Table, one for each cross-connection between two VCLs. Each row is indexed by the ATM interface port numbers and VPI/VCI values of the two ends of that cross-connection. This set of rows specifies the topology of the VCC cross-connect and is identified by a single value of atmVcCrossConnectIndex. Negotiated VC Cross-Connect Establishment (2a) The manager creates a row in this table by setting atmVcCrossConnectRowStatus to createAndWait(5). The agent checks the requested topology and the mutual sanity ofAhmed & Tesink [Page 54]
RFC 1695 ATM Management Objects August 1994 the ATM traffic parameters and QoS Classes, i.e., the row creation fails if: - the requested topology is not supported by the agent, - the traffic/QoS parameter values associated with the requested row are incompatible with those of already existing rows for this VC cross-connect. [For example, for setting up a point-to-point VC cross-connect, the ATM traffic parameters in the receive direction of a VCL at the low end of the cross-connect must equal to the traffic parameters in the transmit direction of the other VCL at the high end of the cross-connect, otherwise, the row creation fails.] The agent also checks for internal errors in building the cross-connect. The atmVcCrossConnectIndex values in the corresponding atmVclTable rows are filled in by the agent at this point. (2b) The manager promotes the row in the atmVcCrossConnectTable by setting atmVcCrossConnectRowStatus to active(1). If this set is successful, the agent has reserved the resources specified by the ATM traffic parameter and QoS Class values for each direction of the VC cross-connect in an ATM switch or network. (3) The manager sets the atmVcCrossConnectAdminStatus to up(1) in all rows of this VC cross-connect to turn the traffic flow on. One-Shot VC Cross-Connect Establishment A VC cross-connect may also be established in one step by a set-request with all necessary parameter values and atmVcCrossConnectRowStatus set to createAndGo(4). In contrast to the negotiated VC cross-connect establishment which allows for detailed error checking i.e., set errors are explicitly linked toAhmed & Tesink [Page 55]
RFC 1695 ATM Management Objects August 1994 particular resource acquisition failures), the one-shot VC cross-connect establishment performs the setup on one operation but does not have the advantage of step-wise error checking. VC Cross-Connect Retirement A VC cross-connect identified by a particular value of atmVcCrossConnectIndex is released by: (1) Setting atmVcCrossConnectRowStatus of all rows identified by this value of atmVcCrossConnectIndex to destroy(6). The agent may release all associated resources, and the atmVcCrossConnectIndex values in the corresponding atmVclTable row are removed. Note that a situation when only a subset of the associated rows are deleted corresponds to a VC topology change. (2) After deletion of the appropriate atmVcCrossConnectEntries, the manager may set atmVclRowStatus to destroy(6) the associated VCLs. The agent releases the resources and removes the associated rows in the atmVclTable. VC Cross-Connect Reconfiguration At the discretion of the agent, a VC cross-connect may be reconfigured by adding and/or deleting leafs to/from the VC topology as per the VC cross-connect establishment/retirement procedures. Reconfiguration of traffic/QoS parameter values requires release of the VC cross-connect before those parameter values may by changed for individual VCLs." INDEX { atmVcCrossConnectIndex, atmVcCrossConnectLowIfIndex, atmVcCrossConnectLowVpi, atmVcCrossConnectLowVci, atmVcCrossConnectHighIfIndex, atmVcCrossConnectHighVpi, atmVcCrossConnectHighVci } ::= { atmVcCrossConnectTable 1 }Ahmed & Tesink [Page 56]
RFC 1695 ATM Management Objects August 1994 AtmVcCrossConnectEntry ::= SEQUENCE { atmVcCrossConnectIndex INTEGER, atmVcCrossConnectLowIfIndex IfIndex, atmVcCrossConnectLowVpi INTEGER, atmVcCrossConnectLowVci INTEGER, atmVcCrossConnectHighIfIndex IfIndex, atmVcCrossConnectHighVpi INTEGER, atmVcCrossConnectHighVci INTEGER, atmVcCrossConnectAdminStatus INTEGER, atmVcCrossConnectL2HOperStatus INTEGER, atmVcCrossConnectH2LOperStatus INTEGER, atmVcCrossConnectL2HLastChange TimeStamp, atmVcCrossConnectH2LLastChange TimeStamp, atmVcCrossConnectRowStatus RowStatus } atmVcCrossConnectIndex OBJECT-TYPE SYNTAX INTEGER (1..2147483647) MAX-ACCESS not-accessible STATUS current DESCRIPTION "A unique value to identify this VC cross-connect." ::= { atmVcCrossConnectEntry 1 } atmVcCrossConnectLowIfIndex OBJECT-TYPE SYNTAX IfIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "The value of this object is equal to MIB II's ifIndex value of the ATM interface port for this VC cross-connect. The term low implies that this ATM interface has the numerically lower ifIndex value than the other ATM interface identified in the same atmVcCrossConnectEntry." ::= { atmVcCrossConnectEntry 2 } atmVcCrossConnectLowVpi OBJECT-TYPE SYNTAX INTEGER (0..4095) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The value of this object is equal to the VPI value at the ATM interface associated with the VC cross-connect that is identified by atmVcCrossConnectLowIfIndex. The VPI value cannot exceed the number supported by the atmInterfaceMaxVpiBitsAhmed & Tesink [Page 57]
RFC 1695 ATM Management Objects August 1994 at the low ATM interface port." ::= { atmVcCrossConnectEntry 3 } atmVcCrossConnectLowVci OBJECT-TYPE SYNTAX INTEGER (0..65535) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The value of this object is equal to the VCI value at the ATM interface associated with this VC cross-connect that is identified by atmVcCrossConnectLowIfIndex. The VCI value cannot exceed the number supported by the atmInterfaceMaxVciBits at the low ATM interface port." ::= { atmVcCrossConnectEntry 4 } atmVcCrossConnectHighIfIndex OBJECT-TYPE SYNTAX IfIndex MAX-ACCESS not-accessible STATUS current DESCRIPTION "The value of this object is equal to MIB II's ifIndex value for the ATM interface port for this VC cross-connect. The term high implies that this VC cross-connect that this ATM interface has the numerically higher ifIndex value than the other ATM interface identified in the same atmVcCrossConnectEntry." ::= { atmVcCrossConnectEntry 5 } atmVcCrossConnectHighVpi OBJECT-TYPE SYNTAX INTEGER (0..4095) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The value of this object is equal to the VPI value at the ATM interface associated with the VC cross-connect that is identified by atmVcCrossConnectHighIfIndex. The VPI value cannot exceed the number supported by the atmInterfaceMaxVpiBits at the high ATM interface port." ::= { atmVcCrossConnectEntry 6 } atmVcCrossConnectHighVci OBJECT-TYPE SYNTAX INTEGER (0..65535) MAX-ACCESS not-accessibleAhmed & Tesink [Page 58]
RFC 1695 ATM Management Objects August 1994 STATUS current DESCRIPTION "The value of this object is equal to the VCI value at the ATM interface associated with the VC cross-connect that is identified by atmVcCrossConnectHighIfIndex. The VCI value cannot exceed the number supported by the atmInterfaceMaxVciBits at the high ATM interface port." ::= { atmVcCrossConnectEntry 7 } atmVcCrossConnectAdminStatus OBJECT-TYPE SYNTAX INTEGER { up(1), down(2) } MAX-ACCESS read-create STATUS current DESCRIPTION "The value of this object identifies the desired administrative status of this bi-directional VC cross-connect. The up and down states indicate that the traffic flow is enabled or disabled respectively on this VC cross-connect." DEFVAL { down } ::= { atmVcCrossConnectEntry 8 } atmVcCrossConnectL2HOperStatus OBJECT-TYPE SYNTAX INTEGER { up(1), down(2), unknown(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The value of this object identifies the current operational status of the VC cross-connect in one direction; (i.e., from the low to high direction). The up and down states indicate that this ATM VC cross-connect from low to high direction is operational or not operational respectively. The unknown state indicates that the state of it cannot be determined." ::= { atmVcCrossConnectEntry 9 }Ahmed & Tesink [Page 59]
RFC 1695 ATM Management Objects August 1994 atmVcCrossConnectH2LOperStatus OBJECT-TYPE SYNTAX INTEGER { up(1), down(2), unknown(3) } MAX-ACCESS read-only STATUS current DESCRIPTION "The value of this object identifies the current operational status of the VC cross-connect in one direction; (i.e., from the high to low direction). The up and down states indicate that this ATM VC cross-connect from high to low direction is operational or not operational respectively. The unknown state indicates that the state of it cannot be determined." ::= { atmVcCrossConnectEntry 10 } atmVcCrossConnectL2HLastChange OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of MIB II's sysUpTime object at the time this VC cross-connect entered its current operational state in low to high direction. If the current state was entered prior to the last re-initialization of the agent, then this object contains a zero value." ::= { atmVcCrossConnectEntry 11 } atmVcCrossConnectH2LLastChange OBJECT-TYPE SYNTAX TimeStamp MAX-ACCESS read-only STATUS current DESCRIPTION "The value of MIB II's sysUpTime object at the time this VC cross-connect entered its current operational state in high to low direction. If the current state was entered prior to the last re-initialization of the agent, then this object contains a zero value." ::= { atmVcCrossConnectEntry 12 } atmVcCrossConnectRowStatus OBJECT-TYPE SYNTAX RowStatusAhmed & Tesink [Page 60]
RFC 1695 ATM Management Objects August 1994 MAX-ACCESS read-create STATUS current DESCRIPTION "The status of this entry in the atmVcCrossConnectTable. This object is used to create a new cross-connect for cross-connecting VCLs which are created using the atmVclTable or to change or delete existing cross-connect. This object must be initially set to `createAndWait' or 'createAndGo'. This object cannot be set to `active' unless the following columnar object exists in this row: atmVcCrossConnectAdminStatus. To turn on a VC cross-connect, the atmVcCrossConnectAdminStatus is set to `up'." ::= { atmVcCrossConnectEntry 13 } -- AAL5 Virtual Channel Connection Performance Statistics -- Group -- This group contains the AAL5 -- performance statistics of a VCC at the -- interface associated with an AAL5 entity in an ATM -- host or ATM switch. aal5VccTable OBJECT-TYPE SYNTAX SEQUENCE OF Aal5VccEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains AAL5 VCC performance parameters." ::= { atmMIBObjects 12 } aal5VccEntry OBJECT-TYPE SYNTAX Aal5VccEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This list contains the AAL5 VCC performance parameters." INDEX { ifIndex, aal5VccVpi, aal5VccVci } ::= { aal5VccTable 1 } Aal5VccEntry ::= SEQUENCE {Ahmed & Tesink [Page 61]
RFC 1695 ATM Management Objects August 1994 aal5VccVpi INTEGER, aal5VccVci INTEGER, aal5VccCrcErrors Counter32, aal5VccSarTimeOuts Counter32, aal5VccOverSizedSDUs Counter32 } aal5VccVpi OBJECT-TYPE SYNTAX INTEGER (0..4095) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The VPI value of the AAL5 VCC at the interface identified by the ifIndex." ::= { aal5VccEntry 1 } aal5VccVci OBJECT-TYPE SYNTAX INTEGER (0..65535) MAX-ACCESS not-accessible STATUS current DESCRIPTION "The VCI value of the AAL5 VCC at the interface identified by the ifIndex." ::= { aal5VccEntry 2 } aal5VccCrcErrors OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of AAL5 CPCS PDUs received with CRC-32 errors on this AAL5 VCC at the interface associated with an AAL5 entity." ::= { aal5VccEntry 3 } aal5VccSarTimeOuts OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of partially re-assembled AAL5 CPCS PDUs which were discarded on this AAL5 VCC at the interface associated with an AAL5 entity because they were not fully re-assembled within the required time period. If the re-assembly timer is not supported, then this objectAhmed & Tesink [Page 62]
RFC 1695 ATM Management Objects August 1994 contains a zero value." ::= { aal5VccEntry 4 } aal5VccOverSizedSDUs OBJECT-TYPE SYNTAX Counter32 MAX-ACCESS read-only STATUS current DESCRIPTION "The number of AAL5 CPCS PDUs discarded on this AAL5 VCC at the interface associated with an AAL5 entity because the AAL5 SDUs were too large." ::= { aal5VccEntry 5 } -- Conformance Information atmMIBConformance OBJECT IDENTIFIER ::= { atmMIB 2 } atmMIBGroups OBJECT IDENTIFIER ::= { atmMIBConformance 1 } atmMIBCompliances OBJECT IDENTIFIER ::= { atmMIBConformance 2 } -- Compliance Statements atmMIBCompliance MODULE-COMPLIANCE STATUS current DESCRIPTION "The compliance statement for SNMP entities including networks which have ATM and AAL5 interfaces." MODULE -- this module MANDATORY-GROUPS {atmInterfaceConfGroup, atmTrafficDescrGroup} OBJECT atmInterfaceMaxVpcs MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmInterfaceMaxVccs MIN-ACCESS read-only DESCRIPTION "Write access is not required."Ahmed & Tesink [Page 63]
RFC 1695 ATM Management Objects August 1994 OBJECT atmInterfaceMaxActiveVpiBits MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmInterfaceMaxActiveVciBits MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmInterfaceIlmiVpi MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmInterfaceIlmiVci MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmInterfaceMyNeighborIpAddress MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmInterfaceMyNeighborIfName MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmTrafficDescrType MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmTrafficDescrParam1 MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmTrafficDescrParam2 MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmTrafficDescrParam3 MIN-ACCESS read-only DESCRIPTIONAhmed & Tesink [Page 64]
RFC 1695 ATM Management Objects August 1994 "Write access is not required." OBJECT atmTrafficDescrParam4 MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmTrafficDescrParam5 MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmTrafficQoSClass MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmTrafficDescrRowStatus SYNTAX INTEGER {active(1)} -- subset of RowStatus MIN-ACCESS read-only DESCRIPTION "Write access is not required, and only one of the six enumerated values for the RowStatus textual convention need be supported, specifically: active(1)." GROUP atmInterfaceDs3PlcpGroup DESCRIPTION "This group is mandatory only for those ATM interfaces which implement the DS3 PLCP layer." GROUP atmInterfaceTCGroup DESCRIPTION "This group is mandatory only for those ATM interfaces which implement the TC Sublayer." GROUP atmVpcTerminationGroup DESCRIPTION "This group is mandatory only for those ATM interfaces which implement ATM VPLs that terminate VPCs (i.e., ones which are NOT cross-connected to other VPLs)." GROUP atmVpCrossConnectGroup DESCRIPTIONAhmed & Tesink [Page 65]
RFC 1695 ATM Management Objects August 1994 "This group is mandatory only for those ATM interfaces which implement ATM VPLs that are not associated with VCLs and are cross-connected to other VPLs." OBJECT atmVplVpi SYNTAX INTEGER (1..255) DESCRIPTION "For ATM UNIs supporting VPCs, the VPI value ranges from 1 to 255." OBJECT atmVplAdminStatus MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmVplReceiveTrafficDescrIndex MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmVplTransmitTrafficDescrIndex MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmVplRowStatus SYNTAX INTEGER {active(1)} -- subset of RowStatus MIN-ACCESS read-only DESCRIPTION "Write access is not required, and only one of the six enumerated values for the RowStatus textual convention need be supported, specifically: active(1)." OBJECT atmVpCrossConnectLowVpi SYNTAX INTEGER (1..255) DESCRIPTION "For ATM UNIs supporting VPCs, the VPI value at the numerically lower ATM interface port index number ranges from 1 to 255." OBJECT atmVpCrossConnectHighVpi SYNTAX INTEGER (1..255) DESCRIPTION "For ATM UNIs supporting VPCs, the VPI value at the numerically higher ATM interface portAhmed & Tesink [Page 66]
RFC 1695 ATM Management Objects August 1994 index number ranges from 1 to 255." OBJECT atmVpCrossConnectAdminStatus MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmVpCrossConnectRowStatus SYNTAX INTEGER {active(1)} -- subset of RowStatus MIN-ACCESS read-only DESCRIPTION "Write access is not required, and only one of the six enumerated values for the RowStatus textual convention need be supported, specifically: active(1)." GROUP atmVccTerminationGroup DESCRIPTION "This group is mandatory only for those ATM interfaces which implement ATM VCLs that terminate VCCs (i.e., ones which are NOT cross-connected to other VCLs)." GROUP atmVcCrossConnectGroup DESCRIPTION "This group is mandatory only for those ATM interfaces which implement ATM VCLs that are cross-connected to other VCLs." OBJECT atmVclVpi SYNTAX INTEGER (0..255) DESCRIPTION "For ATM UNIs supporting VCCs, the VPI value ranges from 0 to 255." OBJECT atmVclAdminStatus MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmVclReceiveTrafficDescrIndex MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmVclTransmitTrafficDescrIndexAhmed & Tesink [Page 67]
RFC 1695 ATM Management Objects August 1994 MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmVccAalType MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmVclRowStatus SYNTAX INTEGER {active(1)} -- subset of RowStatus MIN-ACCESS read-only DESCRIPTION "Write access is not required, and only one of the six enumerated values for the RowStatus textual convention need be supported, specifically: active(1)." OBJECT atmVcCrossConnectLowVpi SYNTAX INTEGER (0..255) DESCRIPTION "For ATM UNIs supporting VCCs, the VPI value at the numerically lower ATM interface port index number ranges from 0 to 255." OBJECT atmVcCrossConnectHighVpi SYNTAX INTEGER (0..255) DESCRIPTION "For ATM UNIs supporting VCCs, the VPI value at the numerically higher ATM interface port index number ranges from 0 to 255." OBJECT atmVcCrossConnectAdminStatus MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmVcCrossConnectRowStatus SYNTAX INTEGER { active(1)} -- subset of RowStatus MIN-ACCESS read-only DESCRIPTION "Write access is not required, and only one of the six enumerated values for the RowStatus textual convention need be supported, specifically: active(1)."Ahmed & Tesink [Page 68]
RFC 1695 ATM Management Objects August 1994 GROUP aal5VccGroup DESCRIPTION "This group is mandatory for the AAL5 virtual connections only." OBJECT aal5VccVpi SYNTAX INTEGER (0..255) DESCRIPTION "For ATM UNIs supporting AAL5 VCCs, the VPI value ranges from 0 to 255." OBJECT atmVccAal5CpcsTransmitSduSize MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmVccAal5CpcsReceiveSduSize MIN-ACCESS read-only DESCRIPTION "Write access is not required." OBJECT atmVccAal5EncapsType MIN-ACCESS read-only DESCRIPTION "Write access is not required." ::= { atmMIBCompliances 1 } -- Units of Conformance atmInterfaceConfGroup OBJECT-GROUP OBJECTS { atmInterfaceMaxVpcs, atmInterfaceMaxVccs, atmInterfaceConfVpcs, atmInterfaceConfVccs, atmInterfaceMaxActiveVpiBits, atmInterfaceMaxActiveVciBits, atmInterfaceIlmiVpi, atmInterfaceIlmiVci, atmInterfaceAddressType, atmInterfaceAdminAddress, atmInterfaceMyNeighborIpAddress, atmInterfaceMyNeighborIfName} STATUS current DESCRIPTION "A collection of objects providing configuration information about an ATM interface." ::= { atmMIBGroups 1 }Ahmed & Tesink [Page 69]
RFC 1695 ATM Management Objects August 1994 atmTrafficDescrGroup OBJECT-GROUP OBJECTS { atmTrafficDescrType, atmTrafficDescrParam1, atmTrafficDescrParam2, atmTrafficDescrParam3, atmTrafficDescrParam4, atmTrafficDescrParam5, atmTrafficQoSClass, atmTrafficDescrRowStatus} STATUS current DESCRIPTION "A collection of objects providing information about ATM traffic descriptor type and the associated parameters." ::= { atmMIBGroups 2 } atmInterfaceDs3PlcpGroup OBJECT-GROUP OBJECTS {atmInterfaceDs3PlcpSEFSs, atmInterfaceDs3PlcpAlarmState, atmInterfaceDs3PlcpUASs} STATUS current DESCRIPTION "A collection of objects providing information about DS3 PLCP layer at an ATM interface." ::= { atmMIBGroups 3 } atmInterfaceTCGroup OBJECT-GROUP OBJECTS { atmInterfaceOCDEvents, atmInterfaceTCAlarmState } STATUS current DESCRIPTION "A collection of objects providing information about TC sublayer at an ATM interface." ::= { atmMIBGroups 4 } atmVpcTerminationGroup OBJECT-GROUP OBJECTS {atmVplOperStatus, atmVplAdminStatus, atmVplLastChange, atmVplReceiveTrafficDescrIndex, atmVplTransmitTrafficDescrIndex, atmVplRowStatus } STATUS current DESCRIPTION "A collection of objects providing information about a VPL at an ATM interface which terminates a VPC (i.e., one which is NOT cross-connected to other VPLs)." ::= { atmMIBGroups 5 } atmVccTerminationGroup OBJECT-GROUPAhmed & Tesink [Page 70]
RFC 1695 ATM Management Objects August 1994 OBJECTS {atmVclOperStatus, atmVclAdminStatus, atmVclLastChange, atmVclReceiveTrafficDescrIndex, atmVclTransmitTrafficDescrIndex, atmVccAalType, atmVclRowStatus } STATUS current DESCRIPTION "A collection of objects providing information about a VCL at an ATM interface which terminates a VCC (i.e., one which is NOT cross-connected to other VCLs)." ::= { atmMIBGroups 6 } atmVpCrossConnectGroup OBJECT-GROUP OBJECTS { atmVplReceiveTrafficDescrIndex, atmVplTransmitTrafficDescrIndex, atmVplOperStatus, atmVplRowStatus, atmVpCrossConnectAdminStatus, atmVpCrossConnectL2HOperStatus, atmVpCrossConnectH2LOperStatus, atmVpCrossConnectL2HLastChange, atmVpCrossConnectH2LLastChange, atmVpCrossConnectRowStatus, atmVplCrossConnectIdentifier, atmVpCrossConnectIndexNext } STATUS current DESCRIPTION "A collection of objects providing information about a VP cross-connect and the associated VPLs that are cross-connected together." ::= { atmMIBGroups 7 } atmVcCrossConnectGroup OBJECT-GROUP OBJECTS { atmVclReceiveTrafficDescrIndex, atmVclTransmitTrafficDescrIndex, atmVclOperStatus, atmVclRowStatus, atmVcCrossConnectAdminStatus, atmVcCrossConnectL2HOperStatus, atmVcCrossConnectH2LOperStatus, atmVcCrossConnectL2HLastChange, atmVcCrossConnectH2LLastChange, atmVcCrossConnectRowStatus, atmVclCrossConnectIdentifier, atmVcCrossConnectIndexNext } STATUS current DESCRIPTION "A collection of objects providingAhmed & Tesink [Page 71]
RFC 1695 ATM Management Objects August 1994 information about a VC cross-connect and the associated VCLs that are cross-connected together." ::= { atmMIBGroups 8 } aal5VccGroup OBJECT-GROUP OBJECTS {atmVccAal5CpcsTransmitSduSize, atmVccAal5CpcsReceiveSduSize, atmVccAal5EncapsType, aal5VccCrcErrors, aal5VccSarTimeOuts, aal5VccOverSizedSDUs } STATUS current DESCRIPTION "A collection of objects providing AAL5 configuration and performance statistics of a VCC." ::= { atmMIBGroups 9 } END11. Acknowledgments This memo is the result of the work of the AToMMIB Working Group. In particular, the contributions of Keith McCloghrie and Ted Brunner were critical to the formulation of this specification.12. References [1] 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. [2] McCloghrie, K., and M. Rose, Editors, "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. [3] 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. [4] 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.Ahmed & Tesink [Page 72]
RFC 1695 ATM Management Objects August 1994 [5] McCloghrie, K. and F. Kastenholz, "Evolution of the Interfaces Group of MIB-II",RFC 1573, Hughes LAN Systems, FTP Software, January 1994. [6] Brown, T., and K. Tesink, "Definitions of Managed Objects for SMDS Interfaces",RFC 1694, Bellcore, August 1994. [7] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Textual Conventions for SNMPv2",RFC 1443, SNMP Research,Inc., Hughes LAN Systems, Dover Beach Consulting, Inc., Carnegie Mellon University, April 1993. [8] Case, J., McCloghrie, K., Rose, M., and S. Waldbusser, "Conformance Statements for SNMPv2",RFC 1444, SNMP Research,Inc., Hughes LAN Systems, Dover Beach Consulting, Inc., Carnegie Mellon University, April 1993. [9] "ATM Forum UNI Specification, Version 3.0", September 1993. [10] "ATM Forum B-ICI Specification, Version 1.0", September 1993.13. Security Considerations Security issues are not discussed in this memo.14. Authors' Addresses Masuma Ahmed Bell Communications Research Room 1F-217 331 Newman Springs Road P.O. Box 7020 Red Bank, NJ 07701-7020 Phone: (908) 758-2515 EMail: mxa@mail.bellcore.com Kaj Tesink Bell Communications Research Room 1A-427 331 Newman Springs Road P.O. Box 7020 Red Bank, NJ 07701-7020 Phone: (908) 758-5254 EMail: kaj@cc.bellcore.comAhmed & Tesink [Page 73]
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