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RFC1382 - SNMP MIB Extension for the X.25 Packet Layer

王朝other·作者佚名  2008-05-31
窄屏简体版  字體: |||超大  

Network Working Group D. Throop, Editor

Request for Comments: 1382 Data General Corporation

November 1992

SNMP MIB Extension for the X.25 Packet Layer

Status of this Memo

This RFCspecifies an IAB standards track protocol for the Internet

community, and requests discussion and suggestions for improvements.

Please refer to the current edition of the "IAB Official Protocol

Standards" for the standardization state and status of this protocol.

Distribution of this memo is unlimited.

Abstract

This memo defines a portion of the Management Information Base (MIB)

for use with network management protocols in TCP/IP-based internets.

In particular, it defines objects for managing the Packet Layer of

X.25. The objects defined here, along with the objects in the "SNMP

MIB Extension for LAPB" [9] and the "Definitions of Managed Objects

for RS-232-like Hardware Devices" [8], combine to allow management of

an X.25 protocol stack.

Table of Contents

1. The Network Management Framework ....................... 2

2. Objects ................................................ 2

2.1 Format of Definitions ................................. 3

3. Overview ............................................... 3

3.1 Informal Overview ..................................... 3

3.2 Textual Conventions ................................... 4

3.3 StrUCture of MIB ...................................... 4

3.4 Tables ................................................ 5

3.5 Table Usage ........................................... 6

3.6 Conformance ........................................... 6

4. Object Definitions ..................................... 7

5. Appendix: Revision History ............................. 62

July 30 1992 ........................................... 62

June 26 1992 ........................................... 62

June 1992 .............................................. 63

April 1992 ............................................. 63

February 1992 .......................................... 65

October 1991 ........................................... 65

June 1991 .............................................. 66

April 1991 ............................................. 66

6. Acknowledgements ....................................... 66

7. References ............................................. 67

8. Security Considerations ................................ 68

9. Author's Address ....................................... 69

1. The Network Management Framework

The Internet-standard Network Management Framework consists of three

components. These components give the rules for defining objects,

the definitions of objects, and the protocol for manipulating

objects.

The network management framework structures objects in an abstract

information tree. The branches of the tree name objects and the

leaves of the tree contain the values manipulated to effect

management. This tree is called the Management Information Base or

MIB. The concepts of this tree are given in STD 16/RFC1155, "The

Structure of Management Information" or SMI [1]. The SMI defines the

trunk of the tree and the types of objects used when defining the

leaves. STD 16/RFC1212, "Towards Concise MIB Definitions" [4],

defines a more concise description mechanism that preserves all the

principals of the SMI.

The core MIB definitions for the Internet suite of protocols can be

found in RFC1156 [2] "Management Information Base for Network

Management of TCP/IP-based internets". STD 17/RFC1213 [5] defines

MIB-II, an evolution of MIB-I with changes to incorporate

implementation eXPerience and new operational requirements.

STD 15/RFC1157 [3] defines the SNMP protocol itself. The protocol

defines how to manipulate the objects in a remote MIB.

The tree structure of the MIB allows new objects to be defined for

the purpose of experimentation and evaluation.

2. Objects

The definition of an object in the MIB requires an object name and

type. Object names and types are defined using the subset of

Abstract Syntax Notation One (ASN.1) [6] defined in the SMI [1].

Objects are named using ASN.1 object identifiers, administratively

assigned names, to specify object types. The object name, together

with an optional object instance, uniquely identifies a specific

instance of an object. For human convenience, we often use a textual

string, termed the OBJECT DESCRIPTOR, to also refer to objects.

Objects also have a syntax that defines the abstract data structure

corresponding to that object type. The ASN.1 language [6] provides

the primitives used for this purpose. The SMI [1] purposely

restricts the ASN.1 constructs which may be used for simplicity and

ease of implementation. The encoding of an object type simply

describes how to represent an object using ASN.1 encoding rules [7],

for purposes of dealing with the SNMP protocol.

2.1. Format of Definitions

Section 4 contains the specification of all object types defined in

this MIB module. The object types are defined using the conventions

defined in the SMI, as amended by the extensions specified in

"Towards Concise MIB Definitions" [4].

3. Overview

3.1. Informal Overview

This section describes how the objects defined below relate with

other MIBs. This section is only informational to help understand

how the pieces fit together.

The objects defined below are used in conjunction with MIB-II and

other MIBs such as the LAPB MIB [9]. A system with a complete X.25

stack running over a synchronous line will have at least two

interfaces in the ifTable defined in MIB-II. There will be an

interface for LAPB and another interface for the packet layer of

X.25. There will also be objects defined in the RS-232-like MIB for

the physical sync line.

Each software interface identifies the layer below it used to send

and receive packets. The X.25 MIB object, defined below,

x25OperDataLinkId, specifies an instance of lapbAdmnIndex for the

LAPB interface under that X.25. The LAPB object, lapbOperPortId,

identifies an instance of the rs232PortIndex for the the Sync line

used by LAPB.

For X.25 running over LAPB over Ethernet, the lapbOperPortId would

identify the instance of ifIndex for the Ethernet interface.

Each X.25 subnetwork will have separate entries in the ifTable. Thus

a system with two X.25 lines would have two ifTable entries for the

two X.25 packet layers and two other entries for the two LAPB

interfaces. Each X.25 Packet Layer MIB would identify the instance of

the LAPB MIB for the interface below it. Each LAPB MIB would identify

the Sync line below it. The system would also have two entries in the

rs232PortTable and rs232SyncPortTable for the two physical lines.

Since the ifTable as defined in MIB-II is device independent, it

doesn't have anything specific for any type of interface. The

objects below define the X.25 packet layer specific information for

an interface of type X.25. Different X.25 interfaces can also be

differentiated by matching the values of ifIndex with x25AdmnIndex.

3.2. Textual Conventions

This MIB introduces a new data type as a textual convention for use

with X.25. This textual convention enhances the readability of the

specification and can ease comparison with other specifications if

appropriate. It should be noted that the introduction of such

textual conventions has no effect on either the syntax nor the

semantics of any managed objects. These conventions are merely an

artifact of the explanatory method used. Objects defined in terms of

one of these methods are always encoded by means of the rules that

define the primitive type. Hence, no changes to the SMI or the SNMP

are necessary to accommodate these textual conventions which are

adopted merely for the convenience of readers and writers in pursuit

of the elusive goal of clear, concise, and unambiguous MIB documents.

This MIB introduces the data type of:

X121Address

3.3. Structure of MIB

Instances of the objects defined below represent attributes of an

X.25 Packet Layer interface. At present these interfaces are

identified by an ifType object in the Internet-standard MIB-II [5]

of:

ddn-x25(4), and

rfc887-x25(5).

For these interfaces, the value of the ifSpecific variable in the

MIB-II [5] has the OBJECT IDENTIFIER value:

x25 OBJECT IDENTIFIER ::= { transmission 5 }

The objects defined below are similar to those defined in a draft ISO

document for X.25 management [11]. Some object definitions also

reference the ISO specification for X.25 [10] to specify the section

that will give the reader additional information about the object.

Access to those documents maybe useful (but isn't essential) to

understand the names and semantics of some objects. The similarity

of these objects with the ISO objects minimizes the instrumentation

required by those systems that support both OSI and TCP/IP management

protocols.

Since the objects defined here are extensions to the Internet

Standard MIB [2] and thus also an extension of the second version,

MIB-II [5], the objects defined here explicitly do not duplicate

objects defined in existing standards. In some instances

clarification of how to apply those objects has been given.

The relationship between an X.25 Packet Layer interface and an

interface in the context of the Internet-standard MIB [5] is one-to-

one. As such, the value of an ifIndex object instance can be directly

used to identify corresponding instances of the objects defined

below.

3.4. Tables

The objects below form several tables. These tables are:

x25AdmnTable

x25OperTable

x25StatTable

x25ChannelTable

x25CircuitTable

x25ClearedCircuitTable

x25CallParmTable

The x25AdmnTable defines objects for the parameters of an X.25

interface which the administrator can read and set. These objects

are used at interface initialization time to start the interface.

Once the interface has started, changes to the objects in the

Administration table may not take affect until the interface is re-

initialized.

The x25OperTable defines objects that report the current parameters

used by a running interface. These objects are read-only.

The x25StatTable defines objects that report operational statistics

for an X.25 interface. These are read-only counters of events that

occurred at the interface.

The x25ChannelTable defines objects to allow the administrator to

manage the division of channel numbers.

The x25CircuitTable defines objects that return information about

existing X.25 circuits. These entries result from calls placed or

answered by the PLE or from PVCs.

The x25ClearedCircuitTable contains objects for recording the

termination information from circuits that cleared abnormally.

The x25CallParmTable defines the call parameters used to call other

systems. This table contains call parameter entries which are

referenced by other tables. For example, the x25AdmnTable has one

object that identifies the entry in the table for the default PLE

parameters. The x25CircuitTable has one object that identifies the

entry in the x25CallParmTable for the parameters in use by that

circuit. Other MIBs may also reference entries to identify call

parameters to use to make X.25 calls.

3.5. Table Usage

Different tables provide different functions. The administrator sets

the starting X.25 parameters in the x25AdmnTable for the X.25 PLE;

these objects include a reference to the x25CallParmTable entry to

identify the default call parameters for the PLE. Once all the

parameters are set, the administrator initializes the interface. As

part of initializing the interface, the operating parameters are

copied into the interface from the x25AdmnTable; these parameters are

viewable by getting the objects in the x25OperTable. (The interface

maybe started by setting the value of ifAdminStatus to up.) If any

PVCs are configured, their parameters can be set in the the

x25CircuitTable before initializing the interface; this should be

done in conjunction with configuring higher layer entities to use the

PVCs via the MIBs for those entities.

Once the PLE completes initialization, it makes additional entries in

the x25circuitTable for calls placed or answered. When a circuit is

cleared, the status of the entry for the circuit is set to closed

and, if the clear is abnormal, an entry will also be made in the

x25ClearedCircuitTable. An entry in the x25CircuitTable with a

status of closed maybe deleted by the agent at its convenience. A

closed entry will always be reused at the time the PLE re-allocates

the channel number of the entry for another call. The call

parameters used for a circuit can be found by looking in the

x25CircuitTable and following the x25CircuitCallParamId pointer to

the entry in the x25CallParmTable that contains the parameters.

There are no mechanisms in the X.25 MIB for telling the PLE to place

an X.25 call. Such mechanisms belong in the MIBs for the higher layer

entities that use the X.25 circuits.

3.6. Conformance

All the objects defined here are mandatory. To claim conformance with

this MIB an implementation must support all objects. However some

objects pertain to features that are optional. There are values

defined for those objects that indicate the implementation does not

support the optional feature. The agent for such an implementation

must support reading the object and return the value that indicates

the optional feature isn't supported and reject set requests to

change the object.

Some optional features have more than one object that pertain to it

(window rotation has a timer, a count, and a counter for timer

runouts). In such case, any object which indicates the optional

feature isn't supported is sufficient to indicate the feature isn't

supported and the values of the other objects relative to that

feature are undefined.

4. Object Definitions

RFC1382-MIB DEFINITIONS ::= BEGIN

IMPORTS

Counter, Gauge, TimeTicks

FROM RFC1155-SMI

OBJECT-TYPE

FROM RFC-1212

DisplayString, transmission

FROM RFC1213-MIB

TRAP-TYPE

FROM RFC-1215

EntryStatus

FROM RFC1271-MIB

PositiveInteger,

IfIndexType

FROM RFC1381-MIB;

x25 OBJECT IDENTIFIER ::= { transmission 5 }

-- Support of the X25 suBTree and all subtrees under it

-- is mandatory for all agents of system that implement X.25.

X121Address ::= OCTET STRING (SIZE(0..17))

-- 0 to 17 bytes in length containing the ASCII

-- characters [0-9], each octet contains one digit

-- of the address.

-- ###########################################################

-- X.25 Administration Table

-- ###########################################################

x25AdmnTable OBJECT-TYPE

SYNTAX SEQUENCE OF X25AdmnEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"This table contains the administratively

set configuration parameters for an X.25

Packet Level Entity (PLE).

Most of the objects in this table have

corresponding objects in the x25OperTable.

This table contains the values as last set

by the administrator. The x25OperTable

contains the values actually in use by an

X.25 PLE.

Changing an administrative value may or may

not change a current operating value. The

operating value may not change until the

interface is restarted. Some

implementations may change the values

immediately upon changing the administrative

table. All implementations are required to

load the values from the administrative

table when initializing a PLE."

::= { x25 1 }

x25AdmnEntry OBJECT-TYPE

SYNTAX X25AdmnEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"Entries of x25AdmnTable."

INDEX { x25AdmnIndex }

::= { x25AdmnTable 1 }

X25AdmnEntry ::= SEQUENCE {

x25AdmnIndex

IfIndexType,

x25AdmnInterfaceMode

INTEGER,

x25AdmnMaxActiveCircuits

INTEGER,

x25AdmnPacketSequencing

INTEGER,

x25AdmnRestartTimer

PositiveInteger,

x25AdmnCallTimer

PositiveInteger,

x25AdmnResetTimer

PositiveInteger,

x25AdmnClearTimer

PositiveInteger,

x25AdmnWindowTimer

PositiveInteger,

x25AdmnDataRxmtTimer

PositiveInteger,

x25AdmnInterruptTimer

PositiveInteger,

x25AdmnRejectTimer

PositiveInteger,

x25AdmnRegistrationRequestTimer

PositiveInteger,

x25AdmnMinimumRecallTimer

PositiveInteger,

x25AdmnRestartCount

INTEGER,

x25AdmnResetCount

INTEGER,

x25AdmnClearCount

INTEGER,

x25AdmnDataRxmtCount

INTEGER,

x25AdmnRejectCount

INTEGER,

x25AdmnRegistrationRequestCount

INTEGER,

x25AdmnNumberPVCs

INTEGER,

x25AdmnDefCallParamId

OBJECT IDENTIFIER,

x25AdmnLocalAddress

X121Address,

x25AdmnProtocolVersionSupported

OBJECT IDENTIFIER

}

x25AdmnIndex OBJECT-TYPE

SYNTAX IfIndexType

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The ifIndex value for the X.25 Interface."

::= { x25AdmnEntry 1 }

x25AdmnInterfaceMode OBJECT-TYPE

SYNTAX INTEGER {

dte (1),

dce (2),

dxe (3)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"Identifies DCE/DTE mode in which the

interface operates. A value of dxe

indicates the mode will be determined by XID

negotiation."

REFERENCE "10733 5.9 interfaceMode"

::= { x25AdmnEntry 2 }

x25AdmnMaxActiveCircuits OBJECT-TYPE

SYNTAX INTEGER (0..4096)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The maximum number of circuits this PLE can

support; including PVCs."

REFERENCE "10733 5.9 maxActiveCircuits;

See ISO 8208, Section 3.7"

::= { x25AdmnEntry 3 }

x25AdmnPacketSequencing OBJECT-TYPE

SYNTAX INTEGER {

modulo8 (1),

modulo128 (2)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The modulus of the packet sequence number

space."

REFERENCE "10733 extendedPacketSequencing;

See ISO 8208 Section 7.1.1"

::= { x25AdmnEntry 4 }

x25AdmnRestartTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The T20 restart timer in milliseconds."

REFERENCE "10733 5.9 restartTime

See ISO 8208 Section 4.1, table 26"

::= { x25AdmnEntry 5 }

x25AdmnCallTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The T21 Call timer in milliseconds."

REFERENCE "10733 callTime;

See ISO 8208 Section 5.2.1, table 26"

::= { x25AdmnEntry 6 }

x25AdmnResetTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The T22 Reset timer in milliseconds."

REFERENCE "10733 resetTime;

See ISO 8208 Section 8.1, table 26"

::= { x25AdmnEntry 7 }

x25AdmnClearTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The T23 Clear timer in milliseconds."

REFERENCE "10733 clearTime;

See ISO 8208 Section 5.5.1, table 26"

::= { x25AdmnEntry 8 }

x25AdmnWindowTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The T24 window status transmission timer in

milliseconds. A value of 2147483647

indicates no window timer in use."

REFERENCE "10733 5.10.1 windowTime (opt);

See ISO 8208 Section 11.2.2, table 26"

::= { x25AdmnEntry 9 }

x25AdmnDataRxmtTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The T25 data retransmission timer in

milliseconds. A value of 2147483647

indicates no data retransmission timer in

use."

REFERENCE "10733 5.10.1 dataRetransmissionTime (opt);

See ISO 8208 Section 11.2.1, table 26"

::= { x25AdmnEntry 10 }

x25AdmnInterruptTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The T26 interrupt timer in milliseconds. A

value of 2147483647 indicates no interrupt

timer in use."

REFERENCE "10733 interruptTime;

See ISO 8208 Section 6.8.1, table 26"

::= { x25AdmnEntry 11 }

x25AdmnRejectTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The T27 Reject retransmission timer in

milliseconds. A value of 2147483647

indicates no reject timer in use."

REFERENCE "10733 5.10.1 dataRejectTime (opt);

See ISO 8208 Section 13.4.1, table 26"

::= { x25AdmnEntry 12 }

x25AdmnRegistrationRequestTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The T28 registration timer in milliseconds.

A value of 2147483647 indicates no

registration timer in use."

REFERENCE "10733 5.8.1 registrationRequestTime (opt)

See ISO 8208 Section 13.1.1.1, table 26"

::= { x25AdmnEntry 13 }

x25AdmnMinimumRecallTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-write

STATUS mandatory

DESCRIPTION

"Minimum time interval between unsuccessful

call attempts in milliseconds."

REFERENCE "10733 5.9 minimum RecallTimer"

::= { x25AdmnEntry 14 }

x25AdmnRestartCount OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The R20 restart retransmission count."

REFERENCE "10733 5.9 restartCount;

See ISO 8208 Section 4.1, table 27"

::= { x25AdmnEntry 15 }

x25AdmnResetCount OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The r22 Reset retransmission count."

REFERENCE "10733 resetCount;

See section ISO 8208 8.1, table 27"

::= { x25AdmnEntry 16 }

x25AdmnClearCount OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The r23 Clear retransmission count."

REFERENCE "10733 clearCount;

See ISO 8208 Section 5.5.1, table 27"

::= { x25AdmnEntry 17 }

x25AdmnDataRxmtCount OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The R25 Data retransmission count. This

value is irrelevant if the

x25AdmnDataRxmtTimer indicates no timer in

use."

REFERENCE "10733 5.10.1 dataRetransmissionCount (opt)

See ISO 8208 Section 11.2.1, table 27"

::= { x25AdmnEntry 18 }

x25AdmnRejectCount OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The R27 reject retransmission count. This

value is irrelevant if the

x25AdmnRejectTimer indicates no timer in

use."

REFERENCE "10733 5.10.1 dataRejectCount (opt)"

::= { x25AdmnEntry 19 }

x25AdmnRegistrationRequestCount OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The R28 Registration retransmission Count.

This value is irrelevant if the

x25AdmnRegistrationRequestTimer indicates no

timer in use."

REFERENCE "10733 5.8.1 registrationRequestCount (opt);

See ISO 8208 Section 13.1.1.1, table 27"

::= { x25AdmnEntry 20 }

x25AdmnNumberPVCs OBJECT-TYPE

SYNTAX INTEGER (0..4096)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The number of PVC configured for this PLE.

The PVCs use channel numbers from 1 to this

number."

::= { x25AdmnEntry 21 }

x25AdmnDefCallParamId OBJECT-TYPE

SYNTAX OBJECT IDENTIFIER

ACCESS read-write

STATUS mandatory

DESCRIPTION

"This identifies the instance of the

x25CallParmIndex for the entry in the

x25CallParmTable which contains the default

call parameters for this PLE."

::= { x25AdmnEntry 22 }

x25AdmnLocalAddress OBJECT-TYPE

SYNTAX X121Address

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The local address for this PLE subnetwork.

A zero length address maybe returned by PLEs

that only support PVCs."

REFERENCE "10733 5.9 localDTEAddress"

::= { x25AdmnEntry 23 }

x25AdmnProtocolVersionSupported OBJECT-TYPE

SYNTAX OBJECT IDENTIFIER

ACCESS read-write

STATUS mandatory

DESCRIPTION

"Identifies the version of the X.25 protocol

this interface should support. Object

identifiers for common versions are defined

below in the x25ProtocolVersion subtree."

REFERENCE "10733 5.9 protocolVersionSupported"

::= { x25AdmnEntry 24 }

-- ###########################################################

-- X.25 Operational Table

-- ###########################################################

x25OperTable OBJECT-TYPE

SYNTAX SEQUENCE OF X25OperEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"The operation parameters in use by the X.25

PLE."

::= { x25 2 }

x25OperEntry OBJECT-TYPE

SYNTAX X25OperEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"Entries of x25OperTable."

INDEX { x25OperIndex }

::= { x25OperTable 1 }

X25OperEntry ::= SEQUENCE {

x25OperIndex

IfIndexType,

x25OperInterfaceMode

INTEGER,

x25OperMaxActiveCircuits

INTEGER,

x25OperPacketSequencing

INTEGER,

x25OperRestartTimer

PositiveInteger,

x25OperCallTimer

PositiveInteger,

x25OperResetTimer

PositiveInteger,

x25OperClearTimer

PositiveInteger,

x25OperWindowTimer

PositiveInteger,

x25OperDataRxmtTimer

PositiveInteger,

x25OperInterruptTimer

PositiveInteger,

x25OperRejectTimer

PositiveInteger,

x25OperRegistrationRequestTimer

PositiveInteger,

x25OperMinimumRecallTimer

PositiveInteger,

x25OperRestartCount

INTEGER,

x25OperResetCount

INTEGER,

x25OperClearCount

INTEGER,

x25OperDataRxmtCount

INTEGER,

x25OperRejectCount

INTEGER,

x25OperRegistrationRequestCount

INTEGER,

x25OperNumberPVCs

INTEGER,

x25OperDefCallParamId

OBJECT IDENTIFIER,

x25OperLocalAddress

X121Address,

x25OperDataLinkId

OBJECT IDENTIFIER,

x25OperProtocolVersionSupported

OBJECT IDENTIFIER

}

x25OperIndex OBJECT-TYPE

SYNTAX IfIndexType

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The ifIndex value for the X.25 interface."

::= { x25OperEntry 1 }

x25OperInterfaceMode OBJECT-TYPE

SYNTAX INTEGER {

dte (1),

dce (2),

dxe (3)

}

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Identifies DCE/DTE mode in which the

interface operates. A value of dxe

indicates the role will be determined by XID

negotiation at the Link Layer and that

negotiation has not yet taken place."

REFERENCE "10733 5.9 interfaceMode"

::= { x25OperEntry 2 }

x25OperMaxActiveCircuits OBJECT-TYPE

SYNTAX INTEGER (0..4096)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Maximum number of circuits this PLE can

support."

REFERENCE "10733 5.9 maxActiveCircuits

See ISO 8208, Section 3.7"

::= { x25OperEntry 3 }

x25OperPacketSequencing OBJECT-TYPE

SYNTAX INTEGER {

modulo8 (1),

modulo128 (2)

}

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The modulus of the packet sequence number

space."

REFERENCE "10733 extendedPacketSequencing;

See ISO 8208 Section 7.1.1"

::= { x25OperEntry 4 }

x25OperRestartTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The T20 restart timer in milliseconds."

REFERENCE "10733 5.9 restartTime;

See ISO 8208 Section 4.1, table 26"

::= { x25OperEntry 5 }

x25OperCallTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The T21 Call timer in milliseconds."

REFERENCE "10733 callTime;

See ISO 8208 Section 5.2.1, table 26"

::= { x25OperEntry 6 }

x25OperResetTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The T22 Reset timer in milliseconds."

REFERENCE "10733 resetTime;

See ISO 8208 Section 8.1, table 26"

::= { x25OperEntry 7 }

x25OperClearTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The T23 Clear timer in milliseconds."

REFERENCE "10733 clearTime;

See ISO 8208 Section 5.5.1, table 26"

::= { x25OperEntry 8 }

x25OperWindowTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The T24 window status transmission timer

milliseconds. A value of 2147483647

indicates no window timer in use."

REFERENCE "10733 5.10.1 windowTime (opt);

See ISO 8208 Section 11.2.2, table 26"

::= { x25OperEntry 9 }

x25OperDataRxmtTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The T25 Data Retransmission timer in

milliseconds. A value of 2147483647

indicates no data retransmission timer in

use."

REFERENCE "10733 5.10.1 dataRetransmissionTime (opt);

See ISO 8208 Section 11.2.1, table 26"

::= { x25OperEntry 10 }

x25OperInterruptTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The T26 Interrupt timer in milliseconds. A

value of 2147483647 indicates interrupts are

not being used."

REFERENCE "10733 interruptTime;

See ISO 8208 Section 6.8.1, table 26"

::= { x25OperEntry 11 }

x25OperRejectTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The T27 Reject retransmission timer in

milliseconds. A value of 2147483647

indicates no reject timer in use."

REFERENCE "10733 5.10.1 dataRejectTime (opt);

See ISO 8208 Section 13.4.1, table 26"

::= { x25OperEntry 12 }

x25OperRegistrationRequestTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The T28 registration timer in milliseconds.

A value of 2147483647 indicates no

registration timer in use."

REFERENCE "10733 5.8.1 registrationRequestTime (opt);

See ISO 8208 Section 13.1.1.1, table 26"

::= { x25OperEntry 13 }

x25OperMinimumRecallTimer OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Minimum time interval between unsuccessful

call attempts in milliseconds."

REFERENCE "10733 5.9 minimum RecallTimer"

::= { x25OperEntry 14 }

x25OperRestartCount OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The R20 restart retransmission count."

REFERENCE "10733 5.9 restartCount

See ISO 8208 Section 4.1, table 27"

::= { x25OperEntry 15 }

x25OperResetCount OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The r22 Reset retransmission count."

REFERENCE "10733 resetCount;

See section ISO 8208 8.1, table 27"

::= { x25OperEntry 16 }

x25OperClearCount OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The r23 Clear retransmission count."

REFERENCE "10733 clearCount;

See ISO 8208 Section 5.5.1, table 27"

::= { x25OperEntry 17 }

x25OperDataRxmtCount OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The R25 Data retransmission count. This

value is undefined if the

x25OperDataRxmtTimer indicates no timer in

use."

REFERENCE "10733 5.10.1 dataRetransmissionCount (opt);

See ISO 8208 Section 11.2.1, table 27"

::= { x25OperEntry 18 }

x25OperRejectCount OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The R27 reject retransmission count. This

value is undefined if the x25OperRejectTimer

indicates no timer in use."

REFERENCE "10733 5.10.1 dataRejectCount (opt)"

::= { x25OperEntry 19 }

x25OperRegistrationRequestCount OBJECT-TYPE

SYNTAX INTEGER (0..65535)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The R28 Registration retransmission Count.

This value is undefined if the

x25OperREgistrationRequestTimer indicates no

timer in use."

REFERENCE "10733 5.8.1 registrationRequestCount (opt);

See ISO 8208 Section 13.1.1.1, table 27"

::= { x25OperEntry 20 }

x25OperNumberPVCs OBJECT-TYPE

SYNTAX INTEGER (0..4096)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of PVC configured for this PLE.

The PVCs use channel numbers from 1 to this

number."

::= { x25OperEntry 21 }

x25OperDefCallParamId OBJECT-TYPE

SYNTAX OBJECT IDENTIFIER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"This identifies the instance of the

x25CallParmIndex for the entry in the

x25CallParmTable that contains the default

call parameters for this PLE."

::= { x25OperEntry 22 }

x25OperLocalAddress OBJECT-TYPE

SYNTAX X121Address

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The local address for this PLE subnetwork.

A zero length address maybe returned by PLEs

that only support PVCs."

REFERENCE "10733 5.9 localDTEAddress"

::= { x25OperEntry 23 }

x25OperDataLinkId OBJECT-TYPE

SYNTAX OBJECT IDENTIFIER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"This identifies the instance of the index

object in the first table of the most device

specific MIB for the interface used by this

PLE."

::= { x25OperEntry 24 }

x25OperProtocolVersionSupported OBJECT-TYPE

SYNTAX OBJECT IDENTIFIER

ACCESS read-only

STATUS mandatory

DESCRIPTION

"Identifies the version of the X.25 protocol

this interface supports. Object identifiers

for common versions are defined below in the

x25ProtocolVersion subtree."

REFERENCE "10733 5.9 protocolVersionSupported"

::= { x25OperEntry 25 }

-- MIB-II also provides:

-- ifDescr:

-- On an X.25 interface this must include sufficient

-- information to enable the system's administrator

-- to determine the appropriate configuration

-- information on a system having multiple X.25

-- subnetworks.

-- ifType: ddn-x25 or rfc877-x25

-- an interface of type ddn-x25 will use an algorithm to

-- translate between X.121 address and IP addresses.

-- An interface of type rfc877-x25 will use a

-- configuration table to translate between X.121

-- addresses and IP addresses.

-- ifMtu: the maximum PDU a higher layer can pass to X.25 or

-- receive from X.25

-- ifSpeed:

-- This will be the value of the local clock for this line.

-- A value of zero indicates external clocking.

-- ifAdminStatus:

-- ifOperStatus

-- ifLastChange

-- ###########################################################

-- X.25 Statistics Table

-- ###########################################################

x25StatTable OBJECT-TYPE

SYNTAX SEQUENCE OF X25StatEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"Statistics information about this X.25

PLE."

::= { x25 3 }

x25StatEntry OBJECT-TYPE

SYNTAX X25StatEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"Entries of the x25StatTable."

INDEX { x25StatIndex }

::= { x25StatTable 1 }

X25StatEntry ::= SEQUENCE {

x25StatIndex

IfIndexType,

x25StatInCalls

Counter,

x25StatInCallRefusals

Counter,

x25StatInProviderInitiatedClears

Counter,

x25StatInRemotelyInitiatedResets

Counter,

x25StatInProviderInitiatedResets

Counter,

x25StatInRestarts

Counter,

x25StatInDataPackets

Counter,

x25StatInAccusedOfProtocolErrors

Counter,

x25StatInInterrupts

Counter,

x25StatOutCallAttempts

Counter,

x25StatOutCallFailures

Counter,

x25StatOutInterrupts

Counter,

x25StatOutDataPackets

Counter,

x25StatOutgoingCircuits

Gauge,

x25StatIncomingCircuits

Gauge,

x25StatTwowayCircuits

Gauge,

x25StatRestartTimeouts

Counter,

x25StatCallTimeouts

Counter,

x25StatResetTimeouts

Counter,

x25StatClearTimeouts

Counter,

x25StatDataRxmtTimeouts

Counter,

x25StatInterruptTimeouts

Counter,

x25StatRetryCountExceededs

Counter,

x25StatClearCountExceededs

Counter

}

x25StatIndex OBJECT-TYPE

SYNTAX IfIndexType

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The ifIndex value for the X.25 interface."

::= { x25StatEntry 1 }

x25StatInCalls OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of incoming calls received."

::= { x25StatEntry 2 }

x25StatInCallRefusals OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of incoming calls refused. This

includes calls refused by the PLE and by

higher layers. This also includes calls

cleared because of restricted fast select."

::= { x25StatEntry 3 }

x25StatInProviderInitiatedClears OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of clear requests with a cause

code other than DTE initiated."

REFERENCE "10733 providerInitiatedDisconnect"

::= { x25StatEntry 4 }

x25StatInRemotelyInitiatedResets OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of reset requests received with

cause code DTE initiated."

REFERENCE "10733 remotelyInitiatedResets"

::= { x25StatEntry 5 }

x25StatInProviderInitiatedResets OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of reset requests received with

cause code other than DTE initiated."

REFERENCE "10733 ProviderInitiatedResets"

::= { x25StatEntry 6 }

x25StatInRestarts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of remotely initiated (including

provider initiated) restarts experienced by

the PLE excluding the restart associated

with bringing up the PLE interface. This

only counts restarts received when the PLE

already has an established connection with

the remove PLE."

REFERENCE "10733 5.9 remotelyInitiatedRestarts"

::= { x25StatEntry 7 }

x25StatInDataPackets OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of data packets received."

REFERENCE "10733 5.9 dataPacketsReceived."

::= { x25StatEntry 8 }

x25StatInAccusedOfProtocolErrors OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of packets received containing a

procedure error cause code. These include

clear, reset, restart, or diagnostic

packets."

REFERENCE "CD 10733 5.9 accusedOfProtocolError"

::= { x25StatEntry 9 }

x25StatInInterrupts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of interrupt packets received by

the PLE or over the PVC/VC."

REFERENCE "10733 interruptPacketsReceived"

::= { x25StatEntry 10 }

x25StatOutCallAttempts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of calls attempted."

REFERENCE "10733 5.9 callAttempts"

::= { x25StatEntry 11 }

x25StatOutCallFailures OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of call attempts which failed.

This includes calls that were cleared

because of restrictive fast select."

::= { x25StatEntry 12 }

x25StatOutInterrupts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of interrupt packets send by the

PLE or over the PVC/VC."

REFERENCE "10733 InterruptPacketsSent"

::= { x25StatEntry 13 }

x25StatOutDataPackets OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of data packets sent by this

PLE."

REFERENCE "10733 dataPacketSent"

::= { x25StatEntry 14 }

x25StatOutgoingCircuits OBJECT-TYPE

SYNTAX Gauge

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of active outgoing circuits.

This includes call requests sent but not yet

confirmed. This does not count PVCs."

::= { x25StatEntry 15 }

x25StatIncomingCircuits OBJECT-TYPE

SYNTAX Gauge

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of active Incoming Circuits.

This includes call indications received but

not yet acknowledged. This does not count

PVCs."

::= { x25StatEntry 16 }

x25StatTwowayCircuits OBJECT-TYPE

SYNTAX Gauge

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of active two-way Circuits.

This includes call requests sent but not yet

confirmed. This does not count PVCs."

::= { x25StatEntry 17 }

x25StatRestartTimeouts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the T20 restart timer

expired."

REFERENCE "10733 5.9 restartTimeouts"

::= { x25StatEntry 18 }

x25StatCallTimeouts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the T21 call timer

expired."

REFERENCE "10733 5.9 callTimeouts"

::= { x25StatEntry 19 }

x25StatResetTimeouts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the T22 reset timer

expired."

REFERENCE "10733 5.9 resetTimeouts"

::= { x25StatEntry 20 }

x25StatClearTimeouts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the T23 clear timer

expired."

REFERENCE "10733 5.9 clearTimeouts"

::= { x25StatEntry 21 }

x25StatDataRxmtTimeouts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the T25 data timer

expired."

REFERENCE "10733 5.9 dataRetransmissionsTimerExpiries"

::= { x25StatEntry 22 }

x25StatInterruptTimeouts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the T26 interrupt timer

expired."

REFERENCE "10733 5.9 interruptTimerExpires"

::= { x25StatEntry 23 }

x25StatRetryCountExceededs OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times a retry counter was

exhausted."

REFERENCE "10733 5.9 retryCountsExceeded"

::= { x25StatEntry 24 }

x25StatClearCountExceededs OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the R23 clear count was

exceeded."

REFERENCE "10733 5.9 clearCountsExceeded"

::= { x25StatEntry 25 }

-- MIB-II also contains:

-- ifInOctets: Number of data octets delivered to upper

-- layer entities.

-- ifInUcastPkts: Number of packets with a clear M-bit

-- delivered to higher layer entities.

-- ifDiscards: Number of packets dropped for lack of buffering

-- ifInErrors: Number of packets received containing errors

-- REFERENCE ProtocolErrorsDetectedLocally

-- ifInUnknownProtos: Number of packets with unknown circuit

-- identifier.

-- ifOutOctets: Number of data octets delivered by

-- X.25 to upper layers.

-- ifOutUcastPkts: Number of packets with a clear M-bit

-- received from higher layer entities.

-- ###########################################################

-- X.25 Channel Table

-- ###########################################################

x25ChannelTable OBJECT-TYPE

SYNTAX SEQUENCE OF X25ChannelEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"These objects contain information about the

channel number configuration in an X.25 PLE.

These values are the configured values.

changes in these values after the interfaces

has started may not be reflected in the

operating PLE."

REFERENCE "See ISO 8208, Section 3.7"

::= { x25 4 }

x25ChannelEntry OBJECT-TYPE

SYNTAX X25ChannelEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"Entries of x25ChannelTable."

REFERENCE "This provides the information available

in 10733 logicalChannelAssignments."

INDEX { x25ChannelIndex }

::= { x25ChannelTable 1 }

X25ChannelEntry ::= SEQUENCE {

x25ChannelIndex

IfIndexType,

x25ChannelLIC

INTEGER,

x25ChannelHIC

INTEGER,

x25ChannelLTC

INTEGER,

x25ChannelHTC

INTEGER,

x25ChannelLOC

INTEGER,

x25ChannelHOC

INTEGER

}

x25ChannelIndex OBJECT-TYPE

SYNTAX IfIndexType

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The ifIndex value for the X.25 Interface."

::= { x25ChannelEntry 1 }

x25ChannelLIC OBJECT-TYPE

SYNTAX INTEGER (0..4095)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"Lowest Incoming channel."

::= { x25ChannelEntry 2 }

x25ChannelHIC OBJECT-TYPE

SYNTAX INTEGER (0..4095)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"Highest Incoming channel. A value of zero

indicates no channels in this range."

::= { x25ChannelEntry 3 }

x25ChannelLTC OBJECT-TYPE

SYNTAX INTEGER (0..4095)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"Lowest Two-way channel."

::= { x25ChannelEntry 4 }

x25ChannelHTC OBJECT-TYPE

SYNTAX INTEGER (0..4095)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"Highest Two-way channel. A value of zero

indicates no channels in this range."

::= { x25ChannelEntry 5 }

x25ChannelLOC OBJECT-TYPE

SYNTAX INTEGER (0..4095)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"Lowest outgoing channel."

::= { x25ChannelEntry 6 }

x25ChannelHOC OBJECT-TYPE

SYNTAX INTEGER (0..4095)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"Highest outgoing channel. A value of zero

indicates no channels in this range."

::= { x25ChannelEntry 7 }

-- ###########################################################

-- X25 Per Circuits Information Table

-- ###########################################################

x25CircuitTable OBJECT-TYPE

SYNTAX SEQUENCE OF X25CircuitEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"These objects contain general information

about a specific circuit of an X.25 PLE."

::= { x25 5 }

x25CircuitEntry OBJECT-TYPE

SYNTAX X25CircuitEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"Entries of x25CircuitTable."

INDEX { x25CircuitIndex,

x25CircuitChannel }

::= { x25CircuitTable 1 }

X25CircuitEntry ::= SEQUENCE {

x25CircuitIndex

IfIndexType,

x25CircuitChannel

INTEGER,

x25CircuitStatus

INTEGER,

x25CircuitEstablishTime

TimeTicks,

x25CircuitDirection

INTEGER,

x25CircuitInOctets

Counter,

x25CircuitInPdus

Counter,

x25CircuitInRemotelyInitiatedResets

Counter,

x25CircuitInProviderInitiatedResets

Counter,

x25CircuitInInterrupts

Counter,

x25CircuitOutOctets

Counter,

x25CircuitOutPdus

Counter,

x25CircuitOutInterrupts

Counter,

x25CircuitDataRetransmissionTimeouts

Counter,

x25CircuitResetTimeouts

Counter,

x25CircuitInterruptTimeouts

Counter,

x25CircuitCallParamId

OBJECT IDENTIFIER,

x25CircuitCalledDteAddress

X121Address,

x25CircuitCallingDteAddress

X121Address,

x25CircuitOriginallyCalledAddress

X121Address,

x25CircuitDescr

DisplayString

}

x25CircuitIndex OBJECT-TYPE

SYNTAX IfIndexType

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The ifIndex value for the X.25 Interface."

::= { x25CircuitEntry 1 }

x25CircuitChannel OBJECT-TYPE

SYNTAX INTEGER (0..4095)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The channel number for this circuit."

::= { x25CircuitEntry 2 }

x25CircuitStatus OBJECT-TYPE

SYNTAX INTEGER { -- state table states

invalid (1),

closed (2), -- (p1)

calling (3), -- (p2,p3,p5)

open (4), -- (p4)

clearing (5), -- (p6,p7)

pvc (6),

pvcResetting (7),

startClear (8), -- Close cmd

startPvcResetting (9), -- Reset cmd

other (10)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"This object reports the current status of

the circuit.

An existing instance of this object can only

be set to startClear, startPvcResetting, or

invalid. An instance with the value calling

or open can only be set to startClear and

that action will start clearing the circuit.

An instance with the value PVC can only be

set to startPvcResetting or invalid and that

action resets the PVC or deletes the circuit

respectively. The values startClear or

startPvcResetting will never be returned by

an agent. An attempt to set the status of

an existing instance to a value other than

one of these values will result in an error.

A non-existing instance can be set to PVC to

create a PVC if the implementation supports

dynamic creation of PVCs. Some

implementations may only allow creation and

deletion of PVCs if the interface is down.

Since the instance identifier will supply

the PLE index and the channel number,

setting this object alone supplies

sufficient information to create the

instance. All the DEFVAL clauses for the

other objects of this table are appropriate

for creating a PVC; PLEs creating entries

for placed or accepted calls will use values

appropriate for the call rather than the

value of the DEFVAL clause. Two managers

trying to create the same PVC can determine

from the return code which manager succeeded

and which failed (the failing manager fails

because it can not set a value of PVC for an

existing object).

An entry in the closed or invalid state may

be deleted or reused at the agent's

convence. If the entry is kept in the

closed state, the values of the parameters

associated with the entry must be correct.

Closed implies the values in the circuit

table are correct.

The value of invalid indicates the other

values in the table are invalid. Many

agents may never return a value of invalid

because they dynamically allocate and free

unused table entries. An agent for a

statically configured systems can return

invalid to indicate the entry has not yet

been used so the counters contain no

information."

REFERENCE "See ISO 8208,

table 33 for (p<n>) state table"

::= { x25CircuitEntry 3 }

x25CircuitEstablishTime OBJECT-TYPE

SYNTAX TimeTicks

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The value of sysUpTime when the channel was

associated with this circuit. For outgoing

SVCs, this is the time the first call packet

was sent. For incoming SVCs, this is the

time the call indication was received. For

PVCs this is the time the PVC was able to

pass data to a higher layer entity without

loss of data."

::= { x25CircuitEntry 4 }

x25CircuitDirection OBJECT-TYPE

SYNTAX INTEGER {

incoming (1),

outgoing (2),

pvc (3)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The direction of the call that established

this circuit."

REFERENCE "10733 direction"

DEFVAL { pvc }

::= { x25CircuitEntry 5 }

-- X25 Circuit data flow statistics

x25CircuitInOctets OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of octets of user data delivered

to upper layer."

REFERENCE "5.11 octetsReceivedCounter"

::= { x25CircuitEntry 6 }

x25CircuitInPdus OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of PDUs received for this

circuit."

REFERENCE "10733 5.11 dataPacketsReceived"

::= { x25CircuitEntry 7 }

x25CircuitInRemotelyInitiatedResets OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of Resets received for this

circuit with cause code of DTE initiated."

REFERENCE "10733 remotelyInitiatedResets"

::= { x25CircuitEntry 8 }

x25CircuitInProviderInitiatedResets OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of Resets received for this

circuit with cause code other than DTE

initiated."

REFERENCE "10733 ProviderInitiatedResets"

::= { x25CircuitEntry 9 }

x25CircuitInInterrupts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of interrupt packets received

for this circuit."

REFERENCE "10733 interruptPacketsReceived"

::= { x25CircuitEntry 10 }

x25CircuitOutOctets OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of octets of user data sent for

this circuit."

REFERENCE "10733 5.11 octetsSentCounter"

::= { x25CircuitEntry 11 }

x25CircuitOutPdus OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of PDUs sent for this circuit."

REFERENCE "10733 5.11 dataPacketsSent"

::= { x25CircuitEntry 12 }

x25CircuitOutInterrupts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of interrupt packets sent on

this circuit."

REFERENCE "10733 interruptPacketsSent"

::= { x25CircuitEntry 13 }

-- X25 circuit timer statistics

x25CircuitDataRetransmissionTimeouts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the T25 data

retransmission timer expired for this

circuit."

REFERENCE "10733 5.11 dataRetransmissionTimerExpiries"

::= { x25CircuitEntry 14 }

x25CircuitResetTimeouts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the T22 reset timer

expired for this circuit."

REFERENCE "10733 5.11 resetTimeouts"

::= { x25CircuitEntry 15 }

x25CircuitInterruptTimeouts OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of times the T26 Interrupt timer

expired for this circuit."

REFERENCE "10733 interruptTimerExpiries"

::= { x25CircuitEntry 16 }

x25CircuitCallParamId OBJECT-TYPE

SYNTAX OBJECT IDENTIFIER

ACCESS read-write

STATUS mandatory

DESCRIPTION

"This identifies the instance of the

x25CallParmIndex for the entry in the

x25CallParmTable which contains the call

parameters in use with this circuit. The

entry referenced must contain the values

that are currently in use by the circuit

rather than proposed values. A value of

NULL indicates the circuit is a PVC or is

using all the default parameters."

DEFVAL { {0 0} }

::= { x25CircuitEntry 17 }

x25CircuitCalledDteAddress OBJECT-TYPE

SYNTAX X121Address

ACCESS read-write

STATUS mandatory

DESCRIPTION

"For incoming calls, this is the called

address from the call indication packet.

For outgoing calls, this is the called

address from the call confirmation packet.

This will be zero length for PVCs."

REFERENCE "10733 calledDTEAddress"

DEFVAL { ''h }

::= { x25CircuitEntry 18 }

x25CircuitCallingDteAddress OBJECT-TYPE

SYNTAX X121Address

ACCESS read-write

STATUS mandatory

DESCRIPTION

"For incoming calls, this is the calling

address from the call indication packet.

For outgoing calls, this is the calling

address from the call confirmation packet.

This will be zero length for PVCs."

REFERENCE "10733 callingDTEAddress"

DEFVAL { ''h }

::= { x25CircuitEntry 19 }

x25CircuitOriginallyCalledAddress OBJECT-TYPE

SYNTAX X121Address

ACCESS read-write

STATUS mandatory

DESCRIPTION

"For incoming calls, this is the address in

the call Redirection or Call Deflection

Notification facility if the call was

deflected or redirected, otherwise it will

be called address from the call indication

packet. For outgoing calls, this is the

address from the call request packet. This

will be zero length for PVCs."

REFERENCE "10733 originallyCalledAddress"

DEFVAL { ''h }

::= { x25CircuitEntry 20 }

x25CircuitDescr OBJECT-TYPE

SYNTAX DisplayString (SIZE (0..255))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"A descriptive string associated with this

circuit. This provides a place for the

agent to supply any descriptive information

it knows about the use or owner of the

circuit. The agent may return the process

identifier and user name for the process

using the circuit. Alternative the agent

may return the name of the configuration

entry that caused a bridge to establish the

circuit. A zero length value indicates the

agent doesn't have any additional

information."

DEFVAL { ''h }

::= { x25CircuitEntry 21 }

-- ###########################################################

-- The Cleared Circuit Table

-- ###########################################################

x25ClearedCircuitEntriesRequested OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The requested number of entries for the

agent to keep in the x25ClearedCircuit

table."

::= { x25 6 }

x25ClearedCircuitEntriesGranted OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The actual number of entries the agent will

keep in the x25ClearedCircuit Table."

::= { x25 7 }

x25ClearedCircuitTable OBJECT-TYPE

SYNTAX SEQUENCE OF X25ClearedCircuitEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"A table of entries about closed circuits.

Entries must be made in this table whenever

circuits are closed and the close request or

close indication packet contains a clearing

cause other than DTE Originated or a

Diagnostic code field other than Higher

Layer Initiated disconnection-normal. An

agent may optionally make entries for normal

closes (to record closing facilities or

other information).

Agents will delete the oldest entry in the

table when adding a new entry would exceed

agent resources. Agents are required to

keep the last entry put in the table and may

keep more entries. The object

x25OperClearEntriesGranted returns the

maximum number of entries kept in the

table."

REFERENCE "See ISO 8208 Section 12.2.3.1.1

and 12.2.3.1.2"

::= { x25 8 }

x25ClearedCircuitEntry OBJECT-TYPE

SYNTAX X25ClearedCircuitEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"Information about a cleared circuit."

INDEX { x25ClearedCircuitIndex }

::= { x25ClearedCircuitTable 1 }

X25ClearedCircuitEntry ::= SEQUENCE {

x25ClearedCircuitIndex

PositiveInteger,

x25ClearedCircuitPleIndex

IfIndexType,

x25ClearedCircuitTimeEstablished

TimeTicks,

x25ClearedCircuitTimeCleared

TimeTicks,

x25ClearedCircuitChannel

INTEGER,

x25ClearedCircuitClearingCause

INTEGER,

x25ClearedCircuitDiagnosticCode

INTEGER,

x25ClearedCircuitInPdus

Counter,

x25ClearedCircuitOutPdus

Counter,

x25ClearedCircuitCalledAddress

X121Address,

x25ClearedCircuitCallingAddress

X121Address,

x25ClearedCircuitClearFacilities

OCTET STRING

}

x25ClearedCircuitIndex OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-only

STATUS mandatory

DESCRIPTION

"An index that uniquely distinguishes one

entry in the clearedCircuitTable from

another. This index will start at

2147483647 and will decrease by one for each

new entry added to the table. Upon reaching

one, the index will reset to 2147483647.

Because the index starts at 2147483647 and

decreases, a manager may do a getnext on

entry zero and obtain the most recent entry.

When the index has the value of 1, the next

entry will delete all entries in the table

and that entry will be numbered 2147483647."

::= { x25ClearedCircuitEntry 1 }

x25ClearedCircuitPleIndex OBJECT-TYPE

SYNTAX IfIndexType

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The value of ifIndex for the PLE which

cleared the circuit that created the entry."

::= { x25ClearedCircuitEntry 2 }

x25ClearedCircuitTimeEstablished OBJECT-TYPE

SYNTAX TimeTicks

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The value of sysUpTime when the circuit was

established. This will be the same value

that was in the x25CircuitEstablishTime for

the circuit."

::= { x25ClearedCircuitEntry 3 }

x25ClearedCircuitTimeCleared OBJECT-TYPE

SYNTAX TimeTicks

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The value of sysUpTime when the circuit was

cleared. For locally initiated clears, this

will be the time when the clear confirmation

was received. For remotely initiated

clears, this will be the time when the clear

indication was received."

::= { x25ClearedCircuitEntry 4 }

x25ClearedCircuitChannel OBJECT-TYPE

SYNTAX INTEGER (0..4095)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The channel number for the circuit that was

cleared."

::= { x25ClearedCircuitEntry 5 }

x25ClearedCircuitClearingCause OBJECT-TYPE

SYNTAX INTEGER (0..255)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The Clearing Cause from the clear request

or clear indication packet that cleared the

circuit."

REFERENCE "See ISO 8208 Section 12.2.3.1.1"

::= { x25ClearedCircuitEntry 6 }

x25ClearedCircuitDiagnosticCode OBJECT-TYPE

SYNTAX INTEGER (0..255)

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The Diagnostic Code from the clear request

or clear indication packet that cleared the

circuit."

REFERENCE "See ISO 8208 Section 12.2.3.1.2"

::= { x25ClearedCircuitEntry 7 }

x25ClearedCircuitInPdus OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of PDUs received on the

circuit."

::= { x25ClearedCircuitEntry 8 }

x25ClearedCircuitOutPdus OBJECT-TYPE

SYNTAX Counter

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of PDUs transmitted on the

circuit."

::= { x25ClearedCircuitEntry 9 }

x25ClearedCircuitCalledAddress OBJECT-TYPE

SYNTAX X121Address

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The called address from the cleared

circuit."

::= { x25ClearedCircuitEntry 10 }

x25ClearedCircuitCallingAddress OBJECT-TYPE

SYNTAX X121Address

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The calling address from the cleared

circuit."

::= { x25ClearedCircuitEntry 11 }

x25ClearedCircuitClearFacilities OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (0..109))

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The facilities field from the clear request

or clear indication packet that cleared the

circuit. A size of zero indicates no

facilities were present."

::= { x25ClearedCircuitEntry 12 }

-- ###########################################################

-- The Call Parameter Table

-- ###########################################################

x25CallParmTable OBJECT-TYPE

SYNTAX SEQUENCE OF X25CallParmEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"These objects contain the parameters that

can be varied between X.25 calls. The

entries in this table are independent of the

PLE. There exists only one of these tables

for the entire system. The indexes for the

entries are independent of any PLE or any

circuit. Other tables reference entries in

this table. Entries in this table can be

used for default PLE parameters, for

parameters to use to place/answer a call,

for the parameters currently in use for a

circuit, or parameters that were used by a

circuit.

The number of references to a given set of

parameters can be found in the

x25CallParmRefCount object sharing the same

instance identifier with the parameters.

The value of this reference count also

affects the access of the objects in this

table. An object in this table with the

same instance identifier as the instance

identifier of an x25CallParmRefCount must be

consider associated with that reference

count. An object with an associated

reference count of zero can be written (if

its ACCESS clause allows it). An object

with an associated reference count greater

than zero can not be written (regardless of

the ACCESS clause). This ensures that a set

of call parameters being referenced from

another table can not be modified or changed

in a ways inappropriate for continued use by

that table."

::= { x25 9 }

x25CallParmEntry OBJECT-TYPE

SYNTAX X25CallParmEntry

ACCESS not-accessible

STATUS mandatory

DESCRIPTION

"Entries of x25CallParmTable."

INDEX { x25CallParmIndex }

::= { x25CallParmTable 1 }

X25CallParmEntry ::= SEQUENCE {

x25CallParmIndex

PositiveInteger,

x25CallParmStatus

EntryStatus,

x25CallParmRefCount

PositiveInteger,

x25CallParmInPacketSize

INTEGER,

x25CallParmOutPacketSize

INTEGER,

x25CallParmInWindowSize

INTEGER,

x25CallParmOutWindowSize

INTEGER,

x25CallParmAcceptReverseCharging

INTEGER,

x25CallParmProposeReverseCharging

INTEGER,

x25CallParmFastSelect

INTEGER,

x25CallParmInThruPutClasSize

INTEGER,

x25CallParmOutThruPutClasSize

INTEGER,

x25CallParmCug

DisplayString,

x25CallParmCugoa

DisplayString,

x25CallParmBcug

DisplayString,

x25CallParmNui

OCTET STRING,

x25CallParmChargingInfo

INTEGER,

x25CallParmRpoa

DisplayString,

x25CallParmTrnstDly

INTEGER,

x25CallParmCallingExt

DisplayString,

x25CallParmCalledExt

DisplayString,

x25CallParmInMinThuPutCls

INTEGER,

x25CallParmOutMinThuPutCls

INTEGER,

x25CallParmEndTrnsDly

OCTET STRING,

x25CallParmPriority

OCTET STRING,

x25CallParmProtection

DisplayString,

x25CallParmExptData

INTEGER,

x25CallParmUserData

OCTET STRING,

x25CallParmCallingNetworkFacilities

OCTET STRING,

x25CallParmCalledNetworkFacilities

OCTET STRING

}

x25CallParmIndex OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-only

STATUS mandatory

DESCRIPTION

"A value that distinguishes this entry from

another entry. Entries in this table are

referenced from other objects which identify

call parameters.

It is impossible to know which other objects

in the MIB reference entries in the table by

looking at this table. Because of this,

changes to parameters must be accomplished

by creating a new entry in this table and

then changing the referencing table to

identify the new entry.

Note that an agent will only use the values

in this table when another table is changed

to reference those values. The number of

other tables that reference an index object

in this table can be found in

x25CallParmRefCount. The value of the

reference count will affect the writability

of the objects as explained above.

Entries in this table which have a reference

count of zero maybe deleted at the convence

of the agent. Care should be taken by the

agent to give the NMS sufficient time to

create a reference to newly created entries.

Should a Management Station not find a free

index with which to create a new entry, it

may feel free to delete entries with a

reference count of zero. However in doing

so the Management Station much realize it

may impact other Management Stations."

::= { x25CallParmEntry 1 }

x25CallParmStatus OBJECT-TYPE

SYNTAX EntryStatus

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The status of this call parameter entry.

See RFC1271 for details of usage."

::= { x25CallParmEntry 2 }

x25CallParmRefCount OBJECT-TYPE

SYNTAX PositiveInteger

ACCESS read-only

STATUS mandatory

DESCRIPTION

"The number of references know by a

management station to exist to this set of

call parameters. This is the number of

other objects that have returned a value of,

and will return a value of, the index for

this set of call parameters. Examples of

such objects are the x25AdmnDefCallParamId,

x25OperDataLinkId, or x25AdmnDefCallParamId

objects defined above."

::= { x25CallParmEntry 3 }

x25CallParmInPacketSize OBJECT-TYPE

SYNTAX INTEGER (0..4096)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The maximum receive packet size in octets

for a circuit. A size of zero for a circuit

means use the PLE default size. A size of

zero for the PLE means use a default size of

128."

REFERENCE "10733 proposedPacketSize;

See ISO 8208 Section 15.2.2.1.1"

DEFVAL { 128 }

::= { x25CallParmEntry 4 }

x25CallParmOutPacketSize OBJECT-TYPE

SYNTAX INTEGER (0..4096)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The maximum transmit packet size in octets

for a circuit. A size of zero for a circuit

means use the PLE default size. A size of

zero for the PLE default means use a default

size of 128."

REFERENCE "10733 proposedPacketSize;

See ISO 8208 Section 15.2.2.1.1"

DEFVAL { 128 }

::= { x25CallParmEntry 5 }

x25CallParmInWindowSize OBJECT-TYPE

SYNTAX INTEGER (0..127)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The receive window size for a circuit. A

size of zero for a circuit means use the PLE

default size. A size of zero for the PLE

default means use 2."

REFERENCE "10733 proposedWindowSize;

See ISO 8208 Section 15.2.2.1.2"

DEFVAL { 2 }

::= { x25CallParmEntry 6 }

x25CallParmOutWindowSize OBJECT-TYPE

SYNTAX INTEGER (0..127)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The transmit window size for a circuit. A

size of zero for a circuit means use the PLE

default size. A size of zero for the PLE

default means use 2."

REFERENCE "10733 proposedWindowSize;

See ISO 8208 Section 15.2.2.1.2"

DEFVAL { 2 }

::= { x25CallParmEntry 7 }

x25CallParmAcceptReverseCharging OBJECT-TYPE

SYNTAX INTEGER {

default (1),

accept (2),

refuse (3),

neverAccept (4)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"An enumeration defining if the PLE will

accept or refuse charges. A value of

default for a circuit means use the PLE

default value. A value of neverAccept is

only used for the PLE default and indicates

the PLE will never accept reverse charging.

A value of default for a PLE default means

refuse."

REFERENCE "10733 acceptReverseCharging"

DEFVAL { refuse }

::= { x25CallParmEntry 8 }

x25CallParmProposeReverseCharging OBJECT-TYPE

SYNTAX INTEGER {

default (1),

reverse (2),

local (3)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"An enumeration defining if the PLE should

propose reverse or local charging. The

value of default for a circuit means use the

PLE default. The value of default for the

PLE default means use local."

REFERENCE "10733 proposedPacketSize;

See ISO 8208 Section 15.2.2.6"

DEFVAL { local }

::= { x25CallParmEntry 9 }

x25CallParmFastSelect OBJECT-TYPE

SYNTAX INTEGER {

default (1),

notSpecified (2),

fastSelect (3),

restrictedFastResponse (4),

noFastSelect (5),

noRestrictedFastResponse (6)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"Expresses preference for use of fast select

facility. The value of default for a

circuit is the PLE default. A value of

default for the PLE means noFastSelect. A

value of noFastSelect or

noRestrictedFastResponse indicates a circuit

may not use fast select or restricted fast

response."

REFERENCE "10733 fastSelect;

Sec ISO 8208 Section 15.2.2.6"

DEFVAL { noFastSelect }

::= { x25CallParmEntry 10 }

x25CallParmInThruPutClasSize OBJECT-TYPE

SYNTAX INTEGER {

tcReserved1 (1),

tcReserved2 (2),

tc75 (3),

tc150 (4),

tc300 (5),

tc600 (6),

tc1200 (7),

tc2400 (8),

tc4800 (9),

tc9600 (10),

tc19200 (11),

tc48000 (12),

tc64000 (13),

tcReserved14 (14),

tcReserved15 (15),

tcReserved0 (16),

tcNone (17),

tcDefault (18)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The incoming throughput class to negotiate.

A value of tcDefault for a circuit means use

the PLE default. A value of tcDefault for

the PLE default means tcNone. A value of

tcNone means do not negotiate throughtput

class."

REFERENCE "See ISO 8208 Section 15.2.2.2, table 18"

DEFVAL { tcNone }

::= { x25CallParmEntry 11 }

x25CallParmOutThruPutClasSize OBJECT-TYPE

SYNTAX INTEGER {

tcReserved1 (1),

tcReserved2 (2),

tc75 (3),

tc150 (4),

tc300 (5),

tc600 (6),

tc1200 (7),

tc2400 (8),

tc4800 (9),

tc9600 (10),

tc19200 (11),

tc48000 (12),

tc64000 (13),

tcReserved14 (14),

tcReserved15 (15),

tcReserved0 (16),

tcNone (17),

tcDefault (18)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The outgoing throughput class to negotiate.

A value of tcDefault for a circuit means use

the PLE default. A value of tcDefault for

the PLE default means use tcNone. A value

of tcNone means do not negotiate throughtput

class."

REFERENCE "See ISO 8208 Section 15.2.2.2, table 18"

DEFVAL { tcNone }

::= { x25CallParmEntry 12 }

x25CallParmCug OBJECT-TYPE

SYNTAX DisplayString (SIZE(0..4))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The Closed User Group to specify. This

consists of two or four octets containing

the characters 0 through 9. A zero length

string indicates no facility requested. A

string length of three containing the

characters DEF for a circuit means use the

PLE default, (the PLE default parameter may

not reference an entry of DEF.)"

REFERENCE "See ISO 8208 Section 15.2.2.3"

DEFVAL { ''h }

::= { x25CallParmEntry 13 }

x25CallParmCugoa OBJECT-TYPE

SYNTAX DisplayString (SIZE(0..4))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The Closed User Group with Outgoing Access

to specify. This consists of two or four

octets containing the characters 0 through

9. A string length of three containing the

characters DEF for a circuit means use the

PLE default (the PLE default parameters may

not reference an entry of DEF). A zero

length string indicates no facility

requested."

REFERENCE "See ISO 8208 Section 15.2.2.4"

DEFVAL { ''h }

::= { x25CallParmEntry 14 }

x25CallParmBcug OBJECT-TYPE

SYNTAX DisplayString (SIZE(0..3))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The Bilateral Closed User Group to specify.

This consists of two octets containing the

characters 0 through 9. A string length of

three containing the characters DEF for a

circuit means use the PLE default (the PLE

default parameter may not reference an entry

of DEF). A zero length string indicates no

facility requested."

REFERENCE "See ISO 8208 Section 15.2.2.5"

DEFVAL { ''h }

::= { x25CallParmEntry 15 }

x25CallParmNui OBJECT-TYPE

SYNTAX OCTET STRING (SIZE(0..108))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The Network User Identifier facility. This

is binary value to be included immediately

after the length field. The PLE will supply

the length octet. A zero length string

indicates no facility requested. This value

is ignored for the PLE default parameters

entry."

REFERENCE "See ISO 8208 Section 15.2.2.7"

DEFVAL { ''h }

::= { x25CallParmEntry 16 }

x25CallParmChargingInfo OBJECT-TYPE

SYNTAX INTEGER {

default (1),

noFacility (2),

noChargingInfo (3),

chargingInfo (4)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The charging Information facility. A value

of default for a circuit means use the PLE

default. The value of default for the

default PLE parameters means use noFacility.

The value of noFacility means do not include

a facility."

REFERENCE "See ISO 8208 Section 15.2.2.8"

DEFVAL { noFacility }

::= { x25CallParmEntry 17 }

x25CallParmRpoa OBJECT-TYPE

SYNTAX DisplayString (SIZE(0..108))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The RPOA facility. The octet string

contains n * 4 sequences of the characters

0-9 to specify a facility with n entries.

The octet string containing the 3 characters

DEF for a circuit specifies use of the PLE

default (the entry for the PLE default may

not contain DEF). A zero length string

indicates no facility requested."

REFERENCE "See ISO 8208, section 15.2.2.9"

DEFVAL { ''h }

::= { x25CallParmEntry 18 }

x25CallParmTrnstDly OBJECT-TYPE

SYNTAX INTEGER (0..65537)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The Transit Delay Selection and Indication

value. A value of 65536 indicates no

facility requested. A value of 65537 for a

circuit means use the PLE default (the PLE

default parameters entry may not use the

value 65537). The value 65535 may only be

used to indicate the value in use by a

circuit."

REFERENCE "See ISO 8208, Section 15.2.2.13"

DEFVAL { 65536 }

::= { x25CallParmEntry 19 }

-- The following parameters are for CCITT facilities.

x25CallParmCallingExt OBJECT-TYPE

SYNTAX DisplayString (SIZE(0..40))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The Calling Extension facility. This

contains one of the following:

A sequence of hex digits with the value to

be put in the facility. These digits will be

converted to binary by the agent and put in

the facility. These octets do not include

the length octet.

A value containing the three character DEF

for a circuit means use the PLE default,

(the entry for the PLE default parameters

may not use the value DEF).

A zero length string indicates no facility

requested."

REFERENCE "See ISO 8208 Section 15.3.2.1"

DEFVAL { ''h }

::= { x25CallParmEntry 20 }

x25CallParmCalledExt OBJECT-TYPE

SYNTAX DisplayString (SIZE(0..40))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The Called Extension facility. This

contains one of the following:

A sequence of hex digits with the value to

be put in the facility. These digits will be

converted to binary by the agent and put in

the facility. These octets do not include

the length octet.

A value containing the three character DEF

for a circuit means use the PLE default,

(the entry for the PLE default parameters

may not use the value DEF).

A zero length string indicates no facility

requested."

REFERENCE "See ISO 8208 Section 15.3.2.2"

DEFVAL { ''h }

::= { x25CallParmEntry 21 }

x25CallParmInMinThuPutCls OBJECT-TYPE

SYNTAX INTEGER (0..17)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The minimum input throughput Class. A

value of 16 for a circuit means use the PLE

default (the PLE parameters entry may not

use this value). A value of 17 indicates no

facility requested."

REFERENCE "See ISO 8208 Section 15.3.2.3"

DEFVAL { 17 }

::= { x25CallParmEntry 22 }

x25CallParmOutMinThuPutCls OBJECT-TYPE

SYNTAX INTEGER (0..17)

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The minimum output throughput Class. A

value of 16 for a circuit means use the PLE

default (the PLE parameters entry may not

use this value). A value of 17 indicates no

facility requested."

REFERENCE "See ISO 8208 Section 15.3.2.3"

DEFVAL { 17 }

::= { x25CallParmEntry 23 }

x25CallParmEndTrnsDly OBJECT-TYPE

SYNTAX OCTET STRING (SIZE(0..6))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The End-to-End Transit Delay to negotiate.

An octet string of length 2, 4, or 6

contains the facility encoded as specified

in ISO/IEC 8208 section 15.3.2.4. An octet

string of length 3 containing the three

character DEF for a circuit means use the

PLE default (the entry for the PLE default

can not contain the characters DEF). A zero

length string indicates no facility

requested."

REFERENCE "See ISO 8208 Section 15.3.2.4"

DEFVAL { ''h }

::= { x25CallParmEntry 24 }

x25CallParmPriority OBJECT-TYPE

SYNTAX OCTET STRING (SIZE(0..6))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The priority facility to negotiate. The

octet string encoded as specified in ISO/IEC

8208 section 15.3.2.5. A zero length string

indicates no facility requested. The entry

for the PLE default parameters must be zero

length."

REFERENCE "See ISO 8208 Section 15.3.2.5"

DEFVAL { ''h }

::= { x25CallParmEntry 25 }

x25CallParmProtection OBJECT-TYPE

SYNTAX DisplayString (SIZE(0..108))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"A string contains the following:

A hex string containing the value for the

protection facility. This will be converted

from hex to the octets actually in the

packet by the agent. The agent will supply

the length field and the length octet is not

contained in this string.

An string containing the 3 characters DEF

for a circuit means use the PLE default (the

entry for the PLE default parameters may not

use the value DEF).

A zero length string mean no facility

requested."

REFERENCE "See ISO 8208 Section 15.3.2.5"

DEFVAL { ''h }

::= { x25CallParmEntry 26 }

x25CallParmExptData OBJECT-TYPE

SYNTAX INTEGER {

default (1),

noExpeditedData (2),

expeditedData (3)

}

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The Expedited Data facility to negotiate.

A value of default for a circuit means use

the PLE default value. The entry for the

PLE default parameters may not have the

value default."

REFERENCE "See ISO 8208 Section 15.3.2.7"

DEFVAL { noExpeditedData }

::= { x25CallParmEntry 27 }

x25CallParmUserData OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (0..128))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The call user data as placed in the packet.

A zero length string indicates no call user

data. If both the circuit call parameters

and the PLE default have call user data

defined, the data from the circuit call

parameters will be used. If only the PLE

has data defined, the PLE entry will be

used. If neither the circuit call

parameters or the PLE default entry has a

value, no call user data will be sent."

REFERENCE "See ISO 8208 Section 12.2.1.1.6, 12.2.1.2"

DEFVAL { ''h }

::= { x25CallParmEntry 28 }

x25CallParmCallingNetworkFacilities OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (0..108))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The calling network facilities. The

facilities are encoded here exactly as

encoded in the call packet. These

facilities do not include the marker

facility code.

A zero length string in the entry for the

parameter to use when establishing a circuit

means use the PLE default. A zero length

string in the entry for PLE default

parameters indicates no default facilities."

REFERENCE "See ISO 8206 Section 15.1, category b"

DEFVAL { ''h }

::= { x25CallParmEntry 29 }

x25CallParmCalledNetworkFacilities OBJECT-TYPE

SYNTAX OCTET STRING (SIZE (0..108))

ACCESS read-write

STATUS mandatory

DESCRIPTION

"The called network facilities. The

facilities are encoded here exactly as

encoded in the call packet. These

facilities do not include the marker

facility code.

A zero length string in the entry for the

parameter to use when establishing a circuit

means use the PLE default. A zero length

string in the entry for PLE default

parameters indicates no default facilities."

REFERENCE "See ISO 8206 Section 15.1, category c"

DEFVAL { ''h }

::= { x25CallParmEntry 30 }

-- ###########################################################

-- X.25 Traps

-- ###########################################################

x25Restart TRAP-TYPE

ENTERPRISE x25

VARIABLES { x25OperIndex }

DESCRIPTION

"This trap means the X.25 PLE sent or

received a restart packet. The restart that

brings up the link should not send a

x25Restart trap so the interface should send

a linkUp trap. Sending this trap means the

agent does not send a linkDown and linkUp

trap."

::= 1

x25Reset TRAP-TYPE

ENTERPRISE x25

VARIABLES { x25CircuitIndex,

x25CircuitChannel }

DESCRIPTION

"If the PLE sends or receives a reset, the

agent should send an x25Reset trap."

::= 2

-- ###########################################################

-- X.25 Protocol Version Identifiers

-- ###########################################################

x25ProtocolVersion OBJECT IDENTIFIER

::= { x25 10 }

-- X.25 CCITT 1976 version.

x25protocolCcittV1976 OBJECT IDENTIFIER

::= { x25ProtocolVersion 1 }

-- X.25 CCITT 1980 version.

x25protocolCcittV1980 OBJECT IDENTIFIER

::= { x25ProtocolVersion 2 }

-- X.25 CCITT 1984 version.

x25protocolCcittV1984 OBJECT IDENTIFIER

::= { x25ProtocolVersion 3 }

-- X.25 CCITT 1988 version.

x25protocolCcittV1988 OBJECT IDENTIFIER

::= { x25ProtocolVersion 4 }

-- X.25 1987 version of ISO 8208.

x25protocolIso8208V1987 OBJECT IDENTIFIER

::= { x25ProtocolVersion 5 }

-- X.25 1989 version of ISO 8208.

x25protocolIso8208V1989 OBJECT IDENTIFIER

::= { x25ProtocolVersion 6 }

-- ###########################################################

END

5. Appendix: Revision History

July 30 1992

The July, 1992 release (Editor's Internal Reference Number

2.14) made the following changes:

The syntax of the index objects for tables that are

congruent with the MIB-II ifTable were changed to

ifIndexType.

The x25CallParmRefCount object was added to the

x25CallParmTable.

The description of the x25CallParmTable and

x25CallParmIndex objects were changed to only allow

writing an entry with a zero reference count.

A requirement for conformance was added after the

definition of x25 in the ASN.1 definition.

June 26 1992

The June 29, 1992 release (Editor's Internal Reference Number

2.12) made the following changes:

The range of x25ChannelLIC was changed from (0..4096) to

(0..4095).

The range of x25ChannelHIC was changed from (0..4096) to

(0..4095).

The range of x25ChannelLTC was changed from (0..4096) to

(0..4095).

The range of x25ChannelHTC was changed from (0..4096) to

(0..4095).

The range of x25ChannelLOC was changed from (0..4096) to

(0..4095).

The range of x25ChannelHOC was changed from (0..4096) to

(0..4095).

The range of x25CircuitChannel was changed from (1..4096)

to (0..4095).

The range of x25ClearedCircuitChannel was changed from

(1..4096) to (0..4095).

June 1992

The June 92 release (Editor's Internal Reference Number 2.11)

made the following changes:

A value of dxe was defined for x25AdmnInterfaceMode and

x25OperInterfaceMode.

The objects in the x25ChannelTable can now have a value

of zero to indicate no channels configured in the range.

The length of an X121Address was extended to 17 to

accommodate the 1988 CCITT X.25 standard.

Some object descriptions have been expanded and

simplified, these include: all the channel table objects

except the index, x25AdmnDataRxmtCount,

x25AdmnRejectCount, x25AdmnRegistrationRequestCount,

x25OperDataRxmtCount, x25OperRejectCount,

x25OperRegistrationRequestCount, x25CircuitEstablishTime,

x25ClearedCircuitTimeEstablished,

x25ClearedCircuitTimeCleared, x25CallParmIndex,

x25CallParmInPacketSize, x25CircuitCalledAddress,

x25CircuitOriginallCalledAddress,

x25CircuitCallingAddress, x25CallParmFastSelect,

x25CallParmCug, x25CallParmCugoa, x25CallParmBcug,

x25CallParmNui, x25CallParmRpoa, x25CallParmCallingExt,

x25CallParmCalledExt, x25CallParmProtection,

x25StatInCallRefusals and x25CallParmOutPacketSize.

The x25StatNumberPvcs object was deleted and

x25AdmnNumberPVCs and x25OperNumberPVCs objects added.

The object x25StatOutDataPackets was added.

The object x25AdmnProtocolVersionSupported as added.

The x25CircuitRemoteDteAddress was deleted.

Some ASN.1 errors were corrected.

April 1992

The April release (Editor's Internal Reference Number 2.8)

made many changes to incorporate the comments of the working

group meeting in March 1992.

All reference comments were changed to reference fields.

The type PositiveInteger was imported from the RFC1381-

MIB and used for all index and timer values.

The x25PleTable was split into the x25AdmnTable,

x25OperTable, and x25StatTable.

The timer and counter objects from the x25CircuitTable

were moved to the x25AdmnTable and replicated in the

x25OperTable

The objects in the x25CircuitTable were reordered to put

the non-integer objects at the end of the table for

easier implementation.

The called and calling extension character set was

extended to include a-f, and A-F.

Additional states were added to the x25CircuitStatus

object.

Additional values were added to x25CircuitDirection

x25CircuitCallParamId, and the addresses in the Circuit

Table for PVCs.

The length of the X25Address was changed to 0..15.

The objects x25ClearedCircuitTimeEstablished,

x25ClearedCircuitInPdus, and x25ClearedCircuitOutPdus

were added to the x25ClearedCircuitTable.

The name of the x25CircuitName was changed to

x25CircuitDescr and the description was expanded.

The access of the x25CircuitCallParamId was changed to

read-only.

The x25ClearedCircuitCodes object was split into the

x25ClearedCircuitClearingCause and

x25ClearedCircuitDiagnosticCode objects.

The semantics of the x25ClearedCircuitIndex was

redefined.

Some of the description clauses were changed in an

attempt to add clarity.

DEFVAL clauses were added to most objects in the

x25CallParmTable.

Additional text was added to the description section to

provide an overview of the tables of the MIB.

The minimum allowable value for maximum active circuits

was changed from one to zero.

February 1992

The February release (Editor's Internal Reference Number 1.14)

made many changes.

Many of the tables were combined. For example, the

x25InfoTable, x25PktStatTable, and x25TmrStatTable were

combined into the x25PleTable. The x25ConInfoTable,

x25ConStatTable, and x25ConTimrTable were combined into

the x25CircuitTable.

The objects for call parameters were drastically

reworked. All call parameters were combined in the

x25CallParmTable. Any table, such as the x25PleTable or

x25CircuitTable, that needs to reference call parameters

identifies an entry in the new table. As part of this

the x25ConDefTable was deleted and replaced with the

x25PleDefCallParamId.

The x25PvcTable was deleted; the x25CircuitStatus object

provides similar information about PVCs.

The x25ClearedCircuitTable was added to record the status

code of cleared circuits.

Many object definitions were restructured. For example,

the time units for timers was changed from 1/100ths of a

second to milliseconds. Some indexes into tables were

replaced with object identifiers.

Much of the introductory text was changed and the

references were changed to match.

October 1991

The October release (Editor Internal Reference Number 1.10)

made the following changes:

Changed x25ConInfoStatus to clarify the description and

the pvcResetting(5) value was changed to pvcResetting(6)

to avoid a conflict with a previous use of the number 5.

The name of the counter object

x25TmrStatRetryCountsExceeded was changed to

x25TmrStatRetryCountExceededs.

The name of the counter object

x25TmrStatClearCountsExceeded was changed to

x25TmrStatClearCountExceededs.

All occurrence of Guage was changed to Gauge.

Added the x25CallFcltyTable, x25CallFcltyCcittTable, and

x25CallParamTable.

June 1991

The June release corrected some syntax errors and cleaned up

some other minor things.

April 1991

The April 26 release of this document was the first release.

That version was derived from the ISO work on network layer

management as presented in ISO/IEC 10733 [11]

6. Acknowledgements

This document was produced by the x25mib working group:

Fred Baker, ACC

Art Berggreen, ACC

Frank Bieser

Gary Bjerke, Tandem

Bill Bowman, HP

Christopher Bucci, Datability

Charles Carvalho, ACC

Jeff Case, Snmp Research

Angela Chen, HP

Carson Cheung, BNR

Tom Daniel, Spider Systems

Chuck Davin, MIT

Billy Durham, Honeywell

Richard Fox, Synoptics

Doug Geller, Data General

Herve Goguely, LIR Corp

Andy Goldthorpe, british-telecom

Walter D. Guilarte

David Gurevich

Steve Huston, Process Software Corporation

Jon Infante, ICL

Frank Kastenholz, Clearpoint

Zbigniew Kielczewski, Eicon

Cheryl Krupezak, Georgia Tech

Mats Lindstrom, Diab Data AB

Andrew Malis, BBN

Evan McGinnis, 3Com

Gary (G.P.)Mussar, BNR

Chandy Nilakantan, 3Com

Randy Pafford, Data General

Ragnar Paulson, The Software Group Limited

Dave Perkins, Synoptics

Walter Pinkarschewsky, DEC

Karen Quidley, Data General

Chris Ranch, Novell

Paul S. Rarey, DHL Systems Inc.

Jim Roche, Newbridge Research

Philippe Roger, LIR Corp.

Timon Sloane

Mike Shand, DEC

Brad Steina, Microcom

Bob Stewart, Xyplex

Tom Sullivan, Data General

Rodney Thayer, Sable Technology Corporation

Mark Therieau, Microcom

Jane Thorn, Data General

Dean Throop, Data General

Maurice Turcotte, Racal Datacom

Mike Zendels, Data General

In addition, the contributions of the following individuals are also

acknowledged:

John Harper, DEC

Chairman of the ISO committee for

Network Level Management Information

7. References

[1] Rose M., and K. McCloghrie, "Structure and Identification of

Management Information for TCP/IP-based internets", STD 16, RFC

1155, Performance Systems International, Hughes LAN Systems, May

1990.

[2] McCloghrie K., and M. Rose, "Management Information Base for

Network Management of TCP/IP-based internets", RFC1156, Hughes

LAN Systems, Performance Systems International, May 1990.

[3] Case, J., Fedor, M., Schoffstall, M., and J. Davin, "Simple

Network Management Protocol", STD 15, RFC1157, SNMP Research,

Performance Systems International, Performance Systems

International, MIT Laboratory for Computer Science, May 1990.

[4] Rose, M., and K. McCloghrie, Editors, "Concise MIB Definitions",

STD 16, RFC1212, Performance Systems International, Hughes LAN

Systems, March 1991.

[5] Rose M., Editor, "Management Information Base for Network

Management of TCP/IP-based internets: MIB-II", STD 17, RFC1213,

Performance Systems International, March 1991.

[6] Information processing systems - Open Systems Interconnection -

Specification of Abstract Syntax Notation One (ASN.1),

International Organization for Standardization, International

Standard 8824, December 1987.

[7] Information processing systems - Open Systems Interconnection -

Specification of Basic Encoding Rules for Abstract Notation One

(ASN.1), International Organization for Standardization,

International Standard 8825, December 1987.

[8] Stewart, B., Editor, "Definitions of Managed Objects for RS-232-

like Hardware Devices", RFC1317, Xyplex, Inc., April 1992.

[9] Throop, D., Editor, "SNMP MIB extension for LAPB", RFC1381, Data

General Corporation, November 1992.

[10] "Information technology - - Data communication - X.25 Packet

layer Protocol for Data Terminal Equipment", International

Organization for Standardization, International Standard 8208,

March 1990.

[11] "Information Technology - Telecommunications and information

exchange between systems - Elements of Management Information

Related to OSI network Layer Standards", Committee Draft

International Standard 10733, November 1990.

8. Security Considerations

Security issues are not discussed in this memo.

9. Authors' Addresses

Dean D. Throop

Data General Corporation

62 Alexander Dr.

Research Triangle Park, NC 27709

Phone: (919)248-8421

EMail: throop@dg-rtp.dg.com

 
 
 
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