CTATM-CONFIG-MIB CTATM-CONFIG-MIB DEFINITIONS ::= BEGIN -- Ctron ATM Config MIB -- Revision: 01.04.03 -- Date: September 5, 1998 -- Part Number: -- Cabletron Systems, Inc. -- 35 Industrial Way, P.O. Box 5005 -- Rochester, NH 03867-0505 -- (603) 332-9400 -- support@ctron.com -- This module provides authoritative definitions for part -- of the naming tree below: -- -- cabletron { enterprises 52 } -- -- This module will be extended, as additional sub-sections -- of this naming tree are defined. -- -- Cabletron Systems reserves the right to make changes in -- specification and other information contained in this document -- without prior notice. The reader should consult Cabletron Systems -- to determine whether any such changes have been made. -- -- In no event shall Cabletron Systems be liable for any incidental, -- indirect, special, or consequential damages whatsoever (including -- but not limited to lost profits) arising out of or related to this -- document or the information contained in it, even if Cabletron -- Systems has been advised of, known, or should have known, the -- possibility of such damages. -- -- Cabletron grants vendors, end-users, and other interested parties -- a non-exclusive license to use this Specification in connection -- with the management of Cabletron products. -- Copyright May 98 Cabletron Systems IMPORTS OBJECT-TYPE FROM SNMPv2-SMI ctATMConfig FROM CTRON-MIB-NAMES ifIndex, DisplayString FROM RFC1213-MIB lecIndex, leArpMacAddress FROM LAN-EMULATION-CLIENT-MIB AtmTrafficDescrParamIndex FROM ATM-TC-MIB atmVclVpi, atmVclVci, atmTrafficDescrParamIndex FROM ATM-MIB; -- DisplayString ::= OCTET STRING AtmAddress ::= OCTET STRING (SIZE(20)) -- --======================================================================= -- ctAtmConfig Groups ctATMBaseConfig OBJECT IDENTIFIER ::= { ctATMConfig 1 } ctATMPhysicalRedundancy OBJECT IDENTIFIER ::= { ctATMConfig 2 } ctATMPhysicalRedundancyInterface OBJECT IDENTIFIER ::= { ctATMPhysicalRedundancy 1 } ctATMIlmi OBJECT IDENTIFIER ::= { ctATMConfig 3 } ctATMSignalConfig OBJECT IDENTIFIER ::= { ctATMConfig 4 } ctATMLANEServices OBJECT IDENTIFIER ::= { ctATMConfig 5 } ctATMLANEInfoExtGroup OBJECT IDENTIFIER ::= { ctATMConfig 6 } ctATMTrafficManagementGroup OBJECT IDENTIFIER ::= { ctATMConfig 7 } -- --======================================================================= ctATMPvcIfDef OBJECT-TYPE SYNTAX INTEGER (1..512) MAX-ACCESS read-write STATUS deprecated DESCRIPTION "This object is the MIB-II interface on which the next Permanent Virtual Circuit (PVC) will be created. It is an error to set an interface number which is not an ATM interface (physical or virtual). This object is persistent. However, during reinitialization of the device if it is found that the interface no longer supports ATM, then a new MIB-II interface will be created for the next PVC. The special value of 0 causes a new MIB-II interface to be created for the next PVC." ::= { ctATMBaseConfig 1 } -- --===================================================================== ctATMLecIfDef OBJECT-TYPE SYNTAX INTEGER (1..512) MAX-ACCESS read-write STATUS obsolete DESCRIPTION "This object is the physical interface on which _all_ LAN Emulation Clients (LECs) will be created. It is an error to set an interface number which does not support ATM. This object is persistent. However, during reinitialization of the device if it is found that the interface no longer supports ATM, then the first ATM interface for the device will be used as the value for this object." ::= { ctATMBaseConfig 2 } -- --===================================================================== ctATMDefApplicationTable OBJECT-TYPE SYNTAX SEQUENCE OF CtATMDefApplicationEntry MAX-ACCESS not-accessible STATUS obsolete DESCRIPTION "A list of Default Application objects for this interface." ::= { ctATMBaseConfig 3 } ctATMDefApplicationEntry OBJECT-TYPE SYNTAX CtATMDefApplicationEntry MAX-ACCESS not-accessible STATUS obsolete DESCRIPTION "An entry containing objects pertaining to the default application on a physical interface." INDEX { ifIndex } ::= { ctATMDefApplicationTable 1 } CtATMDefApplicationEntry ::= SEQUENCE { ctATMDefApplicationIfIndex INTEGER, ctATMDefApplication INTEGER } ctATMDefApplicationIfIndex OBJECT-TYPE SYNTAX INTEGER (1..512) MAX-ACCESS read-only STATUS obsolete DESCRIPTION "Returns an index for the physical interface to which the information in this table pertains. It is equal to the MIB-II ifIndex." ::= { ctATMDefApplicationEntry 1 } ctATMDefApplication OBJECT-TYPE SYNTAX INTEGER { lane04(1), lane(2) } MAX-ACCESS read-write STATUS obsolete DESCRIPTION "The default application to be run on this physical ATM interface. Selecting lane04 will cause the application known as FORE LAN Emulation 0.4 to be the default application on this interface using the spans signalling stack. This will also cause ILMI to be disabled. i.e., a read on ctATMSignalType will return spans; and a read on ctATMIlmiStatus will return disable. It is an error to set ctATMSignalType to a value other than spans when this object is set to lane04. It is an error to set ctATMIlmiStatus to a value other than disable when this object is set to spans. Selecting lane will cause the application known as ATM Forum LAN emulation version 2.0 to be the default application on this physical interface. If an attempt to be operational using LANE 2.0 is unsuccessful because of a bad-version error, then ATM Forum LANE 1.0 will be the default application. Selecting this also enables ILMI in autoconfigure mode. i.e., a read on ctATMIlmiStatus will return the value enableAutoConfigure). It is an error to set ctATMSignalType to the value spans when this object is set to lane. This object is persistent." DEFVAL { lane } ::= { ctATMDefApplicationEntry 2 } -- --===================================================================== ctATMFramerStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF CtATMFramerStatusEntry MAX-ACCESS not-accessible STATUS obsolete DESCRIPTION "A list of framer status objects for this interface." ::= { ctATMBaseConfig 4 } ctATMFramerStatusEntry OBJECT-TYPE SYNTAX CtATMFramerStatusEntry MAX-ACCESS not-accessible STATUS obsolete DESCRIPTION "An entry containing objects pertaining to status of the framer on a physical interface." INDEX { ifIndex } ::= { ctATMFramerStatusTable 1 } CtATMFramerStatusEntry ::= SEQUENCE { ctATMFramerStatusIfIndex INTEGER, ctATMFramerStatus INTEGER } ctATMFramerStatusIfIndex OBJECT-TYPE SYNTAX INTEGER (1..512) MAX-ACCESS read-only STATUS obsolete DESCRIPTION "Returns an index for the physical interface to which the information in this table pertains. It is equal to the MIB-II ifIndex." ::= { ctATMFramerStatusEntry 1 } ctATMFramerStatus OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } MAX-ACCESS read-write STATUS obsolete DESCRIPTION "Setting this object to on will activate the Framer MIBs as specified by either RFC-1595 or RFC-1407 depending on whether the interface uses SONET framing or DS3 framing respectively. i.e., setting it to on will permit gathering of framer statistics at the expense of processing time. However it might be a valuable debugging aid to turn on the framer MIB. Setting this object to off will not activate the respective framer MIBS. Thus saving processing time. It is emphasised that collection of statistics for the framer is resource (processor, memory) intensive. This object is persistent." DEFVAL { off } ::= { ctATMFramerStatusEntry 2 } -- --===================================================================== -- This table defines the association of a "MAC address, LEC Index" pair -- with a particular VPI, VCI, ATM address and ELAN name. Several pieces -- of information available in this table could conceivably be obtained -- by querying other "standard" MIBs. However, at this point in time, -- some of those MIBs are not yet standards and/or are in a state of flux. -- It is felt that defining such a table could serve the interim needs. -- This has the added benefit of efficiency. ctATMLecArpMacTable OBJECT-TYPE SYNTAX SEQUENCE OF CtATMLecArpMacEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of LEC-Index, MAC-address, associated with a particular VPI, VCI and ATM-address objects on this device." ::= { ctATMBaseConfig 5 } ctATMLecArpMacEntry OBJECT-TYPE SYNTAX CtATMLecArpMacEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects pertaining to LEC Index, MAC-address, associated with a particular VPI, VCI and and ATM-address on this device." INDEX { lecIndex, leArpMacAddress } ::= { ctATMLecArpMacTable 1 } CtATMLecArpMacEntry ::= SEQUENCE { ctATMLecArpMacLecIndex INTEGER, ctATMLecArpMacAddress OCTET STRING, ctATMLecArpMacElanName DisplayString, ctATMLecArpMacVpi INTEGER, ctATMLecArpMacVci INTEGER, ctATMLecArpMacATMAddress DisplayString } ctATMLecArpMacLecIndex OBJECT-TYPE SYNTAX INTEGER (1..2147483647) MAX-ACCESS read-only STATUS obsolete DESCRIPTION "The lecIndex of the LEC which has learned the MAC-address given by ctATMLecArpMacAddress." ::= { ctATMLecArpMacEntry 1 } ctATMLecArpMacAddress OBJECT-TYPE SYNTAX OCTET STRING (SIZE(6)) MAX-ACCESS read-only STATUS obsolete DESCRIPTION "The MAC-address which is learned by this LEC." ::= { ctATMLecArpMacEntry 2 } ctATMLecArpMacElanName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-only STATUS current DESCRIPTION "The name of the ELAN which is joined by this LEC." ::= { ctATMLecArpMacEntry 3 } ctATMLecArpMacVpi OBJECT-TYPE SYNTAX INTEGER (1..4095) MAX-ACCESS read-only STATUS current DESCRIPTION "The data-direct VPI over which traffic destined for the MAC-address ctATMLecArpMacAddress is sent." ::= { ctATMLecArpMacEntry 4 } ctATMLecArpMacVci OBJECT-TYPE SYNTAX INTEGER (1..65535) MAX-ACCESS read-only STATUS current DESCRIPTION "The data-direct VCI over which traffic destined for the MAC-address ctATMLecArpMacAddress is sent." ::= { ctATMLecArpMacEntry 5 } ctATMLecArpMacATMAddress OBJECT-TYPE SYNTAX DisplayString (SIZE(32)) MAX-ACCESS read-only STATUS current DESCRIPTION "The ATM-address of the destination end-station which is the logical destination of the MAC-address ctATMLecArpMacAddress. The ATM address is returned in a form suitable for printing. The format (separators etc.) is implementation dependent. However, it is recommended that the same format be used consistently by all agents that return similar information." ::= { ctATMLecArpMacEntry 6 } -- --===================================================================== -- ATM Bandwidth Allocation Mode Object Definitions -- This table provides the ability to enable and disable Bandwidth -- Allocation Mode on a physical ATM interface. If this mode is enabled -- the network administrator can assign the maximum bandwidth a PVC -- can use. ctATMPvcBwAllocTable OBJECT-TYPE SYNTAX SEQUENCE OF CtATMPvcBwAllocEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of PvcBwAllocEntries for this physical interface." ::= { ctATMBaseConfig 6 } ctATMPvcBwAllocEntry OBJECT-TYPE SYNTAX CtATMPvcBwAllocEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects pertaining to Bandwidth Allocation." INDEX { ifIndex } ::= { ctATMPvcBwAllocTable 1 } CtATMPvcBwAllocEntry ::= SEQUENCE { ctATMPvcBwAllocPhysIface INTEGER, ctATMPvcBwAllocStatus INTEGER, ctATMPvcBwAllocBandwidth INTEGER } ctATMPvcBwAllocPhysIface OBJECT-TYPE SYNTAX INTEGER (1..512) MAX-ACCESS read-only STATUS obsolete DESCRIPTION "Returns an index for the physical interface to which the information in this table pertains. It is equal to the MIB-II ifIndex." ::= { ctATMPvcBwAllocEntry 1 } ctATMPvcBwAllocStatus OBJECT-TYPE SYNTAX INTEGER { on(1), off(2), notSupported(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "The values on and off can be written to this object. Selecting on will enable bandwidth allocation mode on this interface. When this mode is enabled all LECs and PVCs currently configured on this interface will be deleted, UNI and ILMI will be disabled, and this module will reboot. Selecing off will disable bandwidth allocation mode on this interface. When this mode is disabled all PVCs currently configured on this interface will be deleted, UNI and ILMI will revert to their former status, and this module will reboot. If bandwidth allocation mode is not supported by this module the value notSupported will be returned by this object. This value can not be set by the network administrator. This object is persistent." ::= { ctATMPvcBwAllocEntry 2 } ctATMPvcBwAllocBandwidth OBJECT-TYPE SYNTAX INTEGER (1..2147483647) MAX-ACCESS read-only STATUS obsolete DESCRIPTION "Returns the amount of bandwidth in use on this ATM interface in bits per second." ::= { ctATMPvcBwAllocEntry 3 } -- --===================================================================== -- ATM Discovery Elan Object Definitions -- This table provides the elan names, statuses, and modes for the -- Discovery Elan process. The elan name is looked up in the LEC mib -- when the device is initialized. If the status for a particular elan -- is (Enabled) and the discovery elan table for that interface is -- configured as (Master), this interface will attempt to set up an -- SVC. This allows the network administrator to manually configure -- the topology of elans in the ATM cloud. ctATMDiscoveryElanTable OBJECT-TYPE SYNTAX SEQUENCE OF CtATMDiscoveryElanEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of DiscoveryElanEntries for this physical interface." ::= { ctATMBaseConfig 7 } ctATMDiscoveryElanEntry OBJECT-TYPE SYNTAX CtATMDiscoveryElanEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects pertaining to discovering elans." INDEX { ifIndex, ctATMDiscoveryElanIndex } ::= { ctATMDiscoveryElanTable 1 } CtATMDiscoveryElanEntry ::= SEQUENCE { ctATMDiscoveryElanIndex INTEGER, ctATMDiscoveryElanName DisplayString, ctATMDiscoveryElanMode INTEGER, ctATMDiscoveryElanStatus INTEGER, ctATMDiscoveryElanPhysIface INTEGER } ctATMDiscoveryElanIndex OBJECT-TYPE SYNTAX INTEGER (1..16) MAX-ACCESS read-only STATUS current DESCRIPTION "There are a fixed number of elans (1 - MAX_ELANS) per physical interface to initiate the discovery process on. This is the index for these elans. This is NOT related to the LEC Index." ::= { ctATMDiscoveryElanEntry 1 } ctATMDiscoveryElanName OBJECT-TYPE SYNTAX DisplayString (SIZE(32)) MAX-ACCESS read-write STATUS current DESCRIPTION "The device will try to discover, on this named elan, any other devices out in the atm cloud that it should set up an svc with. This allows flexibility in the number and location of other switches this particular physical interface should know about and talk with." ::= { ctATMDiscoveryElanEntry 2 } ctATMDiscoveryElanMode OBJECT-TYPE SYNTAX INTEGER { ctATMDiscoveryElanMaster (1), ctATMDiscoveryElanSlave (2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Master indicates other elans may discover this elan whereas slave elans may only discover other elans." ::= { ctATMDiscoveryElanEntry 3 } ctATMDiscoveryElanStatus OBJECT-TYPE SYNTAX INTEGER { ctATMDiscoveryElanEnabled (1), ctATmDiscoveryElanDisabled (2) } MAX-ACCESS read-write STATUS current DESCRIPTION "Enabled indicates this elan should be used in the discovery process whereas disabled elans are not." ::= { ctATMDiscoveryElanEntry 4 } ctATMDiscoveryElanPhysIface OBJECT-TYPE SYNTAX INTEGER (1..512) MAX-ACCESS read-only STATUS obsolete DESCRIPTION "The physical interface number on which to initiate the discovery processes." ::= { ctATMDiscoveryElanEntry 5 } -- --===================================================================== -- ATM Interface Virtual Channel Link (VCL) Object Definitions -- This group provides additional information to the atmVclTable -- described in RFC 1695. ctATMVclTable OBJECT-TYPE SYNTAX SEQUENCE OF CtATMVclEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of physical interface number, VPI, VCI, associated with a virtual ifIndex, application port, ATM Address, and Encapsulation type on this device." ::= { ctATMBaseConfig 8 } ctATMVclEntry OBJECT-TYPE SYNTAX CtATMVclEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects pertaining to physical interface number, VPI, VCI, associated with a particular virtual ifIndex, application port, ATM Address, and Encapsulation type on this device." INDEX { ifIndex, atmVclVpi, atmVclVci } ::= { ctATMVclTable 1 } CtATMVclEntry ::= SEQUENCE { ctATMVclIfIndex INTEGER, ctATMVclVpi INTEGER, ctATMVclVci INTEGER, ctATMVclVirtualIfIndex INTEGER, ctATMVclApplicationPort INTEGER, ctATMVclATMAddress AtmAddress, ctATMVclEncapsulationType INTEGER } ctATMVclIfIndex OBJECT-TYPE SYNTAX INTEGER (1..512) MAX-ACCESS read-only STATUS obsolete DESCRIPTION "Returns an index for the physical interface to which the information in this table pertains. It is equal to the MIB-II ifIndex." ::= { ctATMVclEntry 1 } ctATMVclVpi OBJECT-TYPE SYNTAX INTEGER (1..4095) MAX-ACCESS read-only STATUS obsolete DESCRIPTION "The VPI value of the VCL." ::= { ctATMVclEntry 2 } ctATMVclVci OBJECT-TYPE SYNTAX INTEGER (1..65535) MAX-ACCESS read-only STATUS obsolete DESCRIPTION "The VCI value of the VCL." ::= { ctATMVclEntry 3 } ctATMVclVirtualIfIndex OBJECT-TYPE SYNTAX INTEGER (1..512) MAX-ACCESS read-only STATUS current DESCRIPTION "Returns an index for the virtual interface to which the information in this table pertains. It is equal to the MIB-II ifIndex." ::= { ctATMVclEntry 4 } ctATMVclApplicationPort OBJECT-TYPE SYNTAX INTEGER (1..512) MAX-ACCESS read-only STATUS current DESCRIPTION "Returns an index for the application port to which the information in this table pertains." ::= { ctATMVclEntry 5 } ctATMVclATMAddress OBJECT-TYPE SYNTAX AtmAddress MAX-ACCESS read-only STATUS current DESCRIPTION "The ATM-address of the channel entry defined by ctATMVclEntry. The ATM address is returned in a form suitable for printing. The format (separators etc.) is implementation dependent. However, it is recommended that the same format be used consistently by all agents that return similar information." ::= { ctATMVclEntry 6 } ctATMVclEncapsulationType OBJECT-TYPE SYNTAX INTEGER { vcMultiplexRoutedProtocol (1), vcMultiplexBridgedProtocol8023 (2), vcMultiplexBridgedProtocol8025 (3), vcMultiplexBridgedProtocol8026 (4), vcMultiplexLANemulation8023 (5), vcMultiplexLANemulation8025 (6), llcEncapsulation (7), multiprotocolFrameRelaySscs (8), other (9), unknown (10), ilmi (11), uni (12), lanEmulationData (13), lanEmulationControl (14), atmVcSvcApp (15), multiProtocolOverATMData (16), multiProtocolOverATMControl (17) } MAX-ACCESS read-only 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 reference RFC 1483 Multiprotocol Encapsulation over ATM AAL5 and to the ATM Forum LAN Emulation specification, and additional definitions previously categorized as 'other'. This object mirrors the atmVccAal5EncapsType described in RFC1695, up to the 'unknown' value. 'LANemulation' protocols were branched into two categories 'Data' and 'Control', and ILMI, UNI, and 'atm_vc_svc_app' were added as expansions from 'other'." ::= { ctATMVclEntry 7 } -- --===================================================================== -- ATM Physical Port Redundancy Object Definitions -- ATM Physical Port Redundancy offers a method of managing redundant -- physical ports on a particular physical ATM interface. The interface -- portion of redundancy is instanced with indices that match the MIB-II -- ifIndex. This capability will only be available for ATM MIB-II -- interfaces that correspond to a physical entity that has hardware to supply -- the redundant port feature. It will not be available for virtual interfaces -- or for physical interfaces that do not have hardware that can be used -- in a redundant fashion. Because of this, the tables will be sparsely -- populated to show ONLY the physical ATM interfaces that can supply such a -- feature The port portion of redundancy is instanced with indices -- that start at one and then increment by one for each physical port on -- that physical interface that can be involved in the redundancy. The -- redundant port numbers cannot be sparse (i.e., they have to be contiguous). -- Physical port redundancy as a whole is an optional implementation. -- However, if any group concerning redundancy is implemented, all -- of the groups involved in the redundancy implementation must be -- provided. -- All objects provided as part of the Redundancy table return the value -- of the last request made unless mentioned otherwise. -- This section defines the redundancy objects under the Interface part of -- physical port redundancy. ctATMPhyRedundTable OBJECT-TYPE SYNTAX SEQUENCE OF CtATMPhyRedundEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of redundancy objects for this physical interface." ::= { ctATMPhysicalRedundancyInterface 1 } ctATMPhyRedundEntry OBJECT-TYPE SYNTAX CtATMPhyRedundEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects pertaining to ATM physical redundancy for a physical interface." INDEX { ifIndex } ::= { ctATMPhyRedundTable 1 } CtATMPhyRedundEntry ::= SEQUENCE { ctATMPhyRedundIfIndex INTEGER, ctATMPhyRedundPrimaryPort INTEGER, ctATMPhyRedundActivePort INTEGER, ctATMPhyRedundStatus INTEGER, ctATMPhyRedundActivation INTEGER, ctATMPhyRedundPrimaryRevert INTEGER, ctATMPhyRedundPerformTest INTEGER, ctATMPhyRedundTestTOD DisplayString, ctATMPhyRedundTestResult INTEGER, ctATMPhyRedundReset INTEGER } ctATMPhyRedundIfIndex OBJECT-TYPE SYNTAX INTEGER (1..512) MAX-ACCESS read-only STATUS obsolete DESCRIPTION "Returns an index for the physical interface to which the information in this table pertains. It is equal to the MIB-II ifIndex." ::= { ctATMPhyRedundEntry 1 } ctATMPhyRedundPrimaryPort OBJECT-TYPE SYNTAX INTEGER (1..16) MAX-ACCESS read-write STATUS current DESCRIPTION "The physical port number to be used as the primary port. The primary port is the default port to become active and the port of priority, i.e. regardless of the status of the current active port, if the primary can be used (and Redundancy is set up to activate it when it becomes available--see ctATMPhyRedundPrimaryRevert), it will be. The write will NOT take effect immediately. It will wait until the NEXT time that the redundancy algorithm determines that the primary port should be used. This object is persistent. i.e., it will retain its value between powerdowns." DEFVAL { 1 } ::= { ctATMPhyRedundEntry 2 } ctATMPhyRedundActivePort OBJECT-TYPE SYNTAX INTEGER (1..16) MAX-ACCESS read-write STATUS current DESCRIPTION "The physical port number to be used as the active port. The primary port defaults as the active port if this object is not set. Rules: - This object can always be set when ctATMPhyRedundStatus (q.v.) is set to disable(2). - It cannot be set when ctATMPhyRedundStatus is set to enable(1), ctATMPhyRedundPrimaryRevert (q.v.) is set to automatic(1), and the primary port is deemed good (and therefore usable) by redundancy. Under these conditions, it is meaningless to attempt to manually set the Active Port, as Redundancy would simply reset the active port to the primary again immediately after the set takes place. - If the primary port has failed, or ctATMPhyRedundPrimaryRevert is set to manual(2), then this object can be set; however, the behaviour of redundancy as a result of the set will depend on the status of ctATMPhyRedundActivation (q.v.) and whether or not the port being set active is good. If RedundActivation is enabled, the set may be countermanded immediately if at any time the port being set is found to be bad (and therefore not usable by Redundancy) and another (good) redundant port is available. If RedundActivation is set to manual(2), then the set will take place, regardless of the status of the port being set. Naturally, if the primary port is restored, the behaviour of Redundancy will depend on whether RedundPrimaryRevert is automatic; if it is, the active port will immediately switch over; otherwise it will remain as-is. There is a precisely defined relationship between ctATMPhyRedundActivePort, ctATMPhyRedundStatus, ctATMPhyRedundPrimaryRevert, and ctATMPhyRedundActivation. If RedundStatus is disabled, then PrimaryRevert and RedundActivation have no functional meaning and ActivePort becomes the only means by which the redundant ports can be switched. Likewise, if RedundStatus is enabled and PrimaryRevert is automatic, a set of the ActivePort has no functional meaning for as long as the primary port is deemed usable by redundancy. If RedundStatus is enabled but PrimaryRevert is manual, the active port will only be changed through ActivePort or the exercise of RedundActivation. The line of precedence, therefore, fully depends upon the status of Redundancy; if RedundStatus is disabled, then precedence lies with ActivePort by virtue of the fact that there are no other competing methods to switch the active port among the redundant ports. If RedundStatus is enabled, however, PrimaryRevert (an active switching method) and RedundActivation (a passive switching method) have precedence over ActivePort; if PrimaryRevert is set to automatic, then the active port is immediately switched to the primary as soon as it's deemed usable by Redundancy; likewise, if RedundActivation is set to automatic, the currently active port will be switched immediately in the event of port failure. Clearly, then, ActivePort cannot guarantee a set for as long as any automatic part of Redundancy is enabled. This object is persistent." DEFVAL { 1 } ::= { ctATMPhyRedundEntry 3 } ctATMPhyRedundStatus OBJECT-TYPE SYNTAX INTEGER { enable(1), disable(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "If this object is set to enable, then redundancy for this interface is enabled. If this object is set to disable, redundancy is disabled. If redundancy is disabled, then automatic switching to backup ports will not be available. Periodic testing of ports is independent of ctATMPhyRedundStatus and is controlled by ctATMPhyRedundPerformTest. See ctATMPhyRedundActivePort for a description of the relationships between this object, ctATMPhyRedundActivePort, ctATMPhyRedundActivation, and ctATMPhyRedundPrimaryRevert. This object is persistent." DEFVAL { disable } ::= { ctATMPhyRedundEntry 4 } ctATMPhyRedundActivation OBJECT-TYPE SYNTAX INTEGER { automatic(1), manual(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "If this object is set to automatic, a backup port will automatically be activated upon failure of the active port. If this object is set to manual, it will require the manual setting of ctATMPhyRedundActivePort to activate a port upon failure of the currently active port. See ctATMPhyRedundActivePort for a description of the relationships between this object, ctATMPhyRedundStatus, ctATMPhyRedundActivePort, and ctATMPhyRedundPrimaryRevert. This object is persistent." DEFVAL { automatic } ::= { ctATMPhyRedundEntry 5 } ctATMPhyRedundPrimaryRevert OBJECT-TYPE SYNTAX INTEGER { automatic(1), manual(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "If this object is set to automatic, the primary port will automatically be activated upon identifying it to be valid at any time. If this object is set to manual, then the currently active port will not change despite identifying the primary port to be valid. See ctATMPhyRedundActivePort for a description of the relationships between this object, ctATMPhyRedundStatus, ctATMPhyRedundActivePort, and ctATMPhyRedundActivation. This object is persistent." DEFVAL { automatic } ::= { ctATMPhyRedundEntry 6 } ctATMPhyRedundPerformTest OBJECT-TYPE SYNTAX INTEGER { enable(1), disable(2), immediate(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "If this object is set to enable, then the automatic test (at the time given by ctATMPhyRedundTestTOD) is enabled. The test is periodic with a period of 24 hours. If this object is set to disable, then the automatic test is disabled. However, one can still test the ports by setting this object to immediate. If this object is set to immediate it will cause a test for validity of each redundant port for this interface to be performed immediately. The result of the test shall be available by reading the object ctATMPhyRedundTestResult. This object is persistent. However, the special value immediate is not persistent." DEFVAL { enable } ::= { ctATMPhyRedundEntry 7 } ctATMPhyRedundTestTOD OBJECT-TYPE SYNTAX DisplayString (SIZE(9)) MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object will set the time of day at which each redundant port of this interface will be tested for validity. The value is a null terminated string in either hh:mm:ss or hh.mm.ss or hh:mm.ss or hh.mm:ss format (24 hour format). The seconds(ss) and minutes(mm) components are optional and default to 00. The value of this object will be used only if ctATMPhyRedundPerformTest is set to enable. This object is persistent." -- DEFVAL { "01:00:00" } ::= { ctATMPhyRedundEntry 8 } ctATMPhyRedundTestResult OBJECT-TYPE SYNTAX INTEGER { manualAllPortsGood(100), manualPrimaryBadOthersGood(101), manualPrimaryGoodOthersBad(102), manualPrimaryBadOthersBad(103), automaticAllPortsGood(200), automaticPrimaryBadOthersGood(201), automaticPrimaryGoodOthersBad(202), automaticPrimaryBadOthersBad(203) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object returns the status of the last test performed on all the ports. If the test was performed as a result of ctATMPhyRedundPerformTest.immediate, then the value of this object is of the form 1xx. If the test was performed as a result of setting ctATMPhyRedundTestTOD, then the result is of the form 2xx. The meaning of xx is the same in both cases and is explained below: 00 All ports involved in redundancy are good. 01 Primary port (as identified by ctATMPhyRedundPrimaryPort) is bad, but all other non-primary ports are good. 02 Primary port is good, but one or more non-primary ports are bad. 03 Primary port and one or more non-primary ports are bad. Any other value for this object may be interpreted to mean that no test has been performed on the ports involved in redundancy since system startup. This object is NOT persistent." ::= { ctATMPhyRedundEntry 9 } ctATMPhyRedundReset OBJECT-TYPE SYNTAX INTEGER { reset(1) } MAX-ACCESS read-write STATUS current DESCRIPTION "If this object is set to reset, the state of redundancy on this interface will be reset to factory defaults. When read this object will always return 1." ::= { ctATMPhyRedundEntry 10 } -- --===================================================================== ctATMIlmiTable OBJECT-TYPE SYNTAX SEQUENCE OF CtATMIlmiEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of ILMI objects for this physical ATM interface." ::= { ctATMIlmi 1 } ctATMIlmiEntry OBJECT-TYPE SYNTAX CtATMIlmiEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects pertaining to ILMI for this physical ATM interface." INDEX { ifIndex } ::= { ctATMIlmiTable 1 } CtATMIlmiEntry ::= SEQUENCE { ctATMIlmiIfIndex INTEGER, ctATMIlmiStatus INTEGER, ctATMIlmiAtmAddress AtmAddress, ctATMIlmiState INTEGER, ctATMIlmiRestart INTEGER } ctATMIlmiIfIndex OBJECT-TYPE SYNTAX INTEGER (1..512) MAX-ACCESS read-only STATUS obsolete DESCRIPTION "Returns an index for the physical interface to which the information in this table pertains. It is equal to the MIB-II interface number for this interface." ::= { ctATMIlmiEntry 1 } ctATMIlmiStatus OBJECT-TYPE SYNTAX INTEGER { enableAutoConfigure(1), enable(2), disable(3) } MAX-ACCESS read-write STATUS current DESCRIPTION "If this object is set to enableAutoConfigure, then ILMI on this interface will attempt to automatically configure the version of UNI to use on this interface. After the auto configure process has completed, the version of UNI this interface is running can be obtained by reading the ctATMSignalType object. If this object is set to enable, the ILMI for this interface is enabled. If enabled (with or without auto-configure), ILMI on this interface will attempt address registration. If this object is set to disable, auto-configure and address registration are both disabled. The signalling to use on this interface is then dictated by the value of ctATMSignalType. If disabled, the ILMI channel (0/16) will not be created. It is an error to set a value other than disable to this object when ctATMDefApplication is set to lane04. It is an error to write to ctATMSignalType when this object is set to enableAutoConfigure. This object is persistent, i.e, it will retain its value between powerdowns." DEFVAL { enableAutoConfigure } ::= { ctATMIlmiEntry 2 } ctATMIlmiAtmAddress OBJECT-TYPE SYNTAX AtmAddress MAX-ACCESS read-write STATUS current DESCRIPTION "This object is used as the ATM address of this interface if ILMI on this interface is disabled i.e, the value of IlmiStatus is set to disable. If ILMI address registration is successful (ctATMIlmiState is up) then a read on this object will return the ATM Address in use at this interface. It is an error to write to this object when the value of ctATMIlmiStatus is other than disable. This object is persistent. However, enabling ILMI after writing to this object will cause ILMI to ignore the persistent value." ::= { ctATMIlmiEntry 3 } ctATMIlmiState OBJECT-TYPE SYNTAX INTEGER { unknown(1), up(2), addressRegistration(3), autoconfigure(4), down(5), estabConnectivity(6), noLink(7), obtainLECS(8) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object describes the current state of ILMI on this interface. The meaning of the various values returned is as follows: unknown -ILMI is in the process of becoming operational. up -ILMI is operational and is doing keep alives. addressRegistration -ILMI is attempting address registration. autoconfigure -ILMI is attempting to automatically configure UNI version, provided ctATMIlmiStatus is enableAutoConfigure. down -ILMI is down either because it is disabled or failed to become operational. estabConnectivity -ILMI is waiting to hear an answer from the other side. noLink -ILMI has not been told that it's physical interface has link integrity. obtainLECS -ILMI is requesting the LECS registration table from the switch." ::= { ctATMIlmiEntry 4 } ctATMIlmiRestart OBJECT-TYPE SYNTAX INTEGER { restart(1) } MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object to restart will restart ILMI on this interface. Reading this object always returns a 1." ::= { ctATMIlmiEntry 5 } -- --===================================================================== ctATMSignalTable OBJECT-TYPE SYNTAX SEQUENCE OF CtATMSignalEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A list of signaling object for this interface." ::= { ctATMSignalConfig 1 } ctATMSignalEntry OBJECT-TYPE SYNTAX CtATMSignalEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects pertaining to ATM signaling on a physical interface." INDEX { ifIndex } ::= { ctATMSignalTable 1 } CtATMSignalEntry ::= SEQUENCE { ctATMSignalIfIndex INTEGER, ctATMSignalStatus INTEGER, ctATMSignalType INTEGER, ctATMSignalQ93Status INTEGER, ctATMSignalQsaalStatus INTEGER, ctATMSignalRestart INTEGER } ctATMSignalIfIndex OBJECT-TYPE SYNTAX INTEGER (1..512) MAX-ACCESS read-only STATUS obsolete DESCRIPTION "Returns an index for the physical interface to which the information in this table pertains. It is equal to ifIndex." ::= { ctATMSignalEntry 1 } ctATMSignalStatus OBJECT-TYPE SYNTAX INTEGER { enable(1), disable(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "If this object is set to enable, the signalling for this interface is enabled. If this object is set to disable, signalling is disabled. When read, this object returns the state of the object based on the last request made. This object is persistent." DEFVAL { enable } ::= { ctATMSignalEntry 2 } ctATMSignalType OBJECT-TYPE SYNTAX INTEGER { unknown(1), spans(2), uni30(3), uni31(4), uni40(5) } MAX-ACCESS read-write STATUS current DESCRIPTION "The type of signalling to be used on this interface. Setting this object to spans will cause the FORE SPANS protocol to be used for signalling on this interface. Setting this object to any other value will cause the appropriate version of ATM FORUM UNI to be used for signalling on this interface. A read on this object will return the signalling stack in use at this interface. When read, the special value of unknown indicates that ILMI is in the process of autoconfiguring and the value of UNI on this interface is yet unknown. A subsequent read sometime later will yield the correct value. When read, any value other than spans (and unknown) indicates the version of signalling stack in use at this interface. This value is obtained either as a result of a prior write to this object or ILMI autoconfigure. It is an error to set this object to any value other than spans when ctATMDefApplication is lane04. It is an error to write to this object when ctATMIlmiStatus is set to enableAutoConfigure or enable. It is an error to write the special value unknown. This object is persistent. But, the special value unknown is not persistent." ::= { ctATMSignalEntry 3 } ctATMSignalQ93Status OBJECT-TYPE SYNTAX INTEGER { up(1), down(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "If ctATMSignalType is other than spans, then the value of this object is the state of the layer 3 signalling stack on this interface." ::= { ctATMSignalEntry 4 } ctATMSignalQsaalStatus OBJECT-TYPE SYNTAX INTEGER { up(1), down(2) } MAX-ACCESS read-only STATUS current DESCRIPTION "If ctATMSignalType is other than spans, then the value of this object is the state of the layer-2 signalling stack (Q.SAAL) on this interface. " ::= { ctATMSignalEntry 5 } ctATMSignalRestart OBJECT-TYPE SYNTAX INTEGER { restart(1) } MAX-ACCESS read-write STATUS current DESCRIPTION "Setting this object to restart will restart signalling on this interface. Reading this object always returns a 1." ::= { ctATMSignalEntry 6 } -- --===================================================================== -- This group is an extension to the ATM Forum's LAN Emulation MIB. -- It will allow for extra configuration information to be read and set. -- ctATMLANEInfoExtStatusTable OBJECT-TYPE SYNTAX SEQUENCE OF CtATMLANEInfoExtStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Defines extentions to the lecConfigTable and the lecStatusTable in the ATM Forum's LANE MIB." ::= { ctATMLANEInfoExtGroup 1 } ctATMLANEInfoExtStatusEntry OBJECT-TYPE SYNTAX CtATMLANEInfoExtStatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects describing information about an LEC (LAN Emulation Client). It is instanced by lecIndex which is the same as what is defined in the ATM Forum's LAN Emulation MIB." INDEX { lecIndex } ::= { ctATMLANEInfoExtStatusTable 1 } CtATMLANEInfoExtStatusEntry ::= SEQUENCE { ctATMLANEInfoExtStatusUpTime INTEGER, ctATMLANEInfoExtStatus INTEGER, ctATMLANEInfoExtStatusSendTopo INTEGER, ctATMLANEInfoExtStatusTimeLeft DisplayString, ctATMLANEInfoExtStatusNumQueues INTEGER, ctATMLANEInfoExtStatusMaxNumQueues INTEGER } ctATMLANEInfoExtStatusUpTime OBJECT-TYPE SYNTAX INTEGER (1..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "The amount of time in milliseconds since the LEC has reached the operational state. It will read 0 if the LEC is not operational." ::= { ctATMLANEInfoExtStatusEntry 1 } ctATMLANEInfoExtStatus OBJECT-TYPE SYNTAX INTEGER { lecactive(1), lecnotInService(2), lecnoLink(3), lecnoATMaddrnoUNI(4), lecnoATMaddr(5), lecnoUNI(6), lecmemError(7) } MAX-ACCESS read-only STATUS current DESCRIPTION "LEC_active - The LEC is actually trying to become or is operational. See lecInterfaceState in the ATM Forum's LAN Emulation MIB to see which state the LEC is in. LEC_notInService - The LEC is not trying to become operational because the MIB read so. LEC_noLink - The LEC is not trying to become operational because the physical interface does not have link. LEC_noATMaddrnoUNI - The LEC is not trying to become operational because there isn't an ATM address and UNI is not operational. LEC_noATMaddr - The LEC is not trying to become operational because there isn't an ATM address. LEC_noUNI - The LEC is not trying to become operational because UNI is not operational. LEC_memError - The LEC is not trying to become operational because it was not able to allocate memory in order to do so." ::= { ctATMLANEInfoExtStatusEntry 2 } ctATMLANEInfoExtStatusSendTopo OBJECT-TYPE SYNTAX INTEGER { on(1), off(2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This configuration value is used to define whether or not this LEC should send a LE_TOPOLOGY_CHANGE message when the situation presents itself." DEFVAL { on } ::= { ctATMLANEInfoExtStatusEntry 3 } ctATMLANEInfoExtStatusTimeLeft OBJECT-TYPE SYNTAX DisplayString (SIZE(32)) MAX-ACCESS read-only STATUS current DESCRIPTION "A string used to describe the amount of time left in a certain LEC state before the LEC will try again in that state. This will read NULL if the LEC is operational." ::= { ctATMLANEInfoExtStatusEntry 4 } ctATMLANEInfoExtStatusNumQueues OBJECT-TYPE SYNTAX INTEGER (1..32) MAX-ACCESS read-write STATUS current DESCRIPTION "This configuration value is used to define the number of traffic descriptors used by this LEC to implement Traffic Mangement. It's value ranges from 1 to ctATMLANEInfoExtStatusMaxNumQueues." DEFVAL { 1 } ::= { ctATMLANEInfoExtStatusEntry 5 } ctATMLANEInfoExtStatusMaxNumQueues OBJECT-TYPE SYNTAX INTEGER (1..32) MAX-ACCESS read-only STATUS current DESCRIPTION "Defines the maximum number that ctATMLANEInfoExtNumQueues can be set to." ::= { ctATMLANEInfoExtStatusEntry 6 } -- --===================================================================== -- Defines a table that will describe the traffic descriptors that an -- LAN Emulation Client will use when supporting Traffic Management. ctATMLANEInfoExtTMTable OBJECT-TYPE SYNTAX SEQUENCE OF CtATMLANEInfoExtTMEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Defines a list, of length ctATMLANEInfoExtStatusNumQueues, of traffic descriptor indexes matching atmTrafficDescrParamIndex in the atmTrafficDescrParamTable defined in the RFC 1695." ::= { ctATMLANEInfoExtGroup 2 } ctATMLANEInfoExtTMEntry OBJECT-TYPE SYNTAX CtATMLANEInfoExtTMEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing OBJECTS describing information about an LEC's (LAN Emulation Client) Traffic Management parameters. It is instanced by lecIndex, which is the same as what is defined in the ATM Forum's LAN Emulation MIB, and by a list index which ranges from 1 to ctATMLANEInfoExtStatusNumQueues." INDEX { lecIndex, ctATMLANEInfoExtTMIndex } ::= { ctATMLANEInfoExtTMTable 1 } CtATMLANEInfoExtTMEntry ::= SEQUENCE { ctATMLANEInfoExtTMIndex INTEGER, ctATMLANEInfoExtTMTrafficDescrIndex AtmTrafficDescrParamIndex } ctATMLANEInfoExtTMIndex OBJECT-TYPE SYNTAX INTEGER MAX-ACCESS read-only STATUS current DESCRIPTION "Defines the list index and will range from 1 to ctATMLANEInfoExtStatusNumQueues." ::= { ctATMLANEInfoExtTMEntry 1 } ctATMLANEInfoExtTMTrafficDescrIndex OBJECT-TYPE SYNTAX AtmTrafficDescrParamIndex MAX-ACCESS read-write STATUS current DESCRIPTION "Defines a traffic descriptor index that matches the index atmTrafficDescrParamIndex in the atmTrafficDescrParamTable defined in the RFC 1695. NOTE: This table will always be at least of length 1. In this case it will define the traffic descriptor that will be used for every data SVC for this LAN Emulation Client. NOTE: When this is set it will cause the LAN Emulation Client to restart it's state machine, thus loosing operational status temporarily, thus loosing LAN connectivity temporarily." ::= { ctATMLANEInfoExtTMEntry 2 } -- --===================================================================== -- ATM Traffic Descriptor Name Table -- This table is an extension to the ATM Traffic Descriptor table -- described in RFC 1695. In the atmTrafficDescrParamTable in -- RFC 1695 a network manager can create a traffic descriptor and -- assign traffic parameters and traffic class. A virtual link will use -- the traffic parameters and traffic class of the traffic descriptor whose -- index it points to. The ATM Traffic Descriptor Name Table defined -- here will match a name for a traffic descriptor to a traffic descriptor -- index. This index will correspond to a traffic descriptor described -- in the ATM Traffic Descriptor Table in RFC 1695. -- A row in this table will be created when a row is added to the -- atmTrafficDescrParamTable defined in RFC 1695 and will exist until -- the row in the atmTrafficDescrParamTable has been destroyed. -- After a row has been created in the atmTrafficDescrParamTable the -- value of the ctATMTrafficDescrName object associated with that traffic -- descriptor will default to "unknown" with the ctATMTrafficDescrParamIndex -- appended to it. For example, if a row is created in the -- atmTrafficDescrParamTable with an index of 5, a row will be created -- in this table with an index of 5, and the object ctATMTrafficDescrName -- will default to "unknown5". ctATMTrafficDescrNameTable OBJECT-TYPE SYNTAX SEQUENCE OF CtATMTrafficDescrNameEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An association between a string describing a traffic descriptor and a traffic descriptor index into the atmTrafficDescrParamTable in RFC 1695." ::= { ctATMTrafficManagementGroup 1 } ctATMTrafficDescrNameEntry OBJECT-TYPE SYNTAX CtATMTrafficDescrNameEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry containing objects associating a string describing a traffic descriptor on this device and a traffic descriptor index into the atmTrafficDescrParamTable in RFC 1695." INDEX { atmTrafficDescrParamIndex } ::= { ctATMTrafficDescrNameTable 1 } CtATMTrafficDescrNameEntry ::= SEQUENCE { ctATMTrafficDescrName DisplayString } ctATMTrafficDescrName OBJECT-TYPE SYNTAX DisplayString (SIZE(32)) MAX-ACCESS read-write STATUS current DESCRIPTION "The name of the traffic descriptor." ::= { ctATMTrafficDescrNameEntry 1 } -- --===================================================================== -- ATM Traffic Service Categories Supported Table -- This table will define the traffic service categories that are -- supported. ctATMTrafficServiceCategoriesSupportedTable OBJECT-TYPE SYNTAX SEQUENCE OF CtATMTrafficServiceCategoriesSupportedEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table related to traffic management service categories supported." ::= { ctATMTrafficManagementGroup 2 } ctATMTrafficServiceCategoriesSupportedEntry OBJECT-TYPE SYNTAX CtATMTrafficServiceCategoriesSupportedEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "A table entry containing information related to the traffic management service categories that are supported for a certain physical interface." INDEX { ifIndex } ::= { ctATMTrafficServiceCategoriesSupportedTable 1 } CtATMTrafficServiceCategoriesSupportedEntry ::= SEQUENCE { ctATMTrafficServiceCategoriesSupportedBitMask BITS, ctATMTrafficManagementAllocBandwidth INTEGER } ctATMTrafficServiceCategoriesSupportedBitMask OBJECT-TYPE SYNTAX BITS { other(0), pvcBandwidthAllocation(1), cbr(2), vbrnrt(3), ubr(4), abr(5), vbrrt(6) } MAX-ACCESS read-only STATUS current DESCRIPTION "This indicates the traffic service categories supported by this physical interface. other(0) Undefined, or service category unknown PVC Bandwidth Allocation(1) Proprietary bandwidth allocation on PVCs only - to set in this mode please use ctATMPvcBwAllocStatus CBR(2) Constant Bit Rate VBR-nrt(3) Variable Bit Rate - non real time UBR(4) Unspecified Bit Rate ABR(5) Avalilable Bit Rate VBR-rt(6) Variable Bit Rate - real time " ::= { ctATMTrafficServiceCategoriesSupportedEntry 1 } ctATMTrafficManagementAllocBandwidth OBJECT-TYPE SYNTAX INTEGER (1..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "Returns the amount of bandwidth in use on this ATM interface in bits per second. Value only valid when running more than just UBR traffic." ::= { ctATMTrafficServiceCategoriesSupportedEntry 2 } -- --===================================================================== -- Trap Description -- ATMRedundActivePortFailed -- -- Specific Trap Type Code - 12000 -- -- This trap will be generated when the active port, on a physical ATM -- interface that has redundancy enabled, has failed (become "quiet"). -- The interesting information will include: -- ctATMPhyRedundIfIndex -- -- Trap Description -- ATMRedundPortActivated -- -- Specific Trap Type Code - 12001 -- -- This trap indicates that a new port has been activated on a physical ATM -- interface that has redundancy enabled. This does not indicate that this -- port is usable, but that it is being tested as a possible replacement. -- The interesting information will include: -- ctATMPhyRedundIfIndex -- -- Trap Description -- ATMRedundPortFailedTest -- -- Specific Trap Type Code - 12002 -- -- This trap will be generated when the PhyRedundTestTOD or the -- PhyRedundPerformTest.immediate has tested a port and determined -- that it is not usable. It is suggested that the port be fixed prior -- to it being needed. -- The interesting information will include: -- ctATMPhyRedundIfIndex -- -- Trap Description -- ATMRedundPrimaryPortSkipped -- -- Specific Trap Type Code - 12003 -- -- This trap will be generated when redundancy finds that the primary -- port as designated be PhyRedundPrimaryPort is usable but cannot be -- used because PhyRedundPrimaryRevert is set to manual. This trap -- is generated only when redundancy is enabled (PhyRedundStatus is -- enable). -- The interesting information will include: -- ctATMPhyRedundIfIndex END