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IP-TE-PIB PIB-DEFINITIONS ::= BEGIN IMPORTS Unsigned32, Integer32, MODULE-IDENTITY, MODULE-COMPLIANCE, OBJECT-TYPE, OBJECT-GROUP FROM COPS-PR-SPPI InstanceId, ReferenceId, Prid, TagId FROM COPS-PR-SPPI-TC InetAddress, InetAddressType FROM INET-ADDRESS-MIB Count, TEXTUAL-CONVENTION FROM ACCT-FR-PIB-TC TruthValue, TEXTUAL-CONVENTION FROM SNMPv2-TC RoleCombination, PrcIdentifier FROM FRAMEWORK-ROLE-PIB SnmpAdminString FROM SNMP-FRAMEWORK-MIB; ipTePib MODULE-IDENTITY SUBJECT-CATEGORIES { tbd } -- IP TE client-type to be -- assigned by IANA LAST-UPDATED "200106180900Z" ORGANIZATION "France Telecom" CONTACT-INFO " Christian Jacquenet France Telecom R & D 42, rue des Coutures BP 6243 14066 CAEN CEDEX 04 France Phone: +33 2 31 75 94 28 E-Mail: christian.jacquenet@francetelecom.com" DESCRIPTION "The PIB module containing a set of policy rule classes that describe IP Traffic Engineering policies to be enforced within and between domains." REVISION "200111061600Z" DESCRIPTION "Initial version." ::= { pib tbd } -- tbd to be assigned by IANA ipTeFwdClasses OBJECT IDENTIFIER ::= { ipTePib 1 } ipTeMetricsClasses OBJECT IDENTIFIER ::= { ipTePib 2 } ipTeStatsClasses OBJECT IDENTIFIER ::= { ipTePib 3 } -- -- Forwarding classes. The information contained in these classes -- is meant to provide a detailed description of the traffic -- engineered routes. One table has been specified so far, but there -- is room for depicting specific kinds of routes, like MPLS LSP -- paths, for example. -- -- -- -- The ipTeRouteTable -- ipTeRouteTable OBJECT-TYPE SYNTAX SEQUENCE OF ipTeRouteEntry PIB-ACCESS notify STATUS current DESCRIPTION "This table describes the traffic engineered routes that are installed in the forwarding tables of the routers." ::= { ipTeFwdClasses 1 } ipTeRouteEntry OBJECT-TYPE SYNTAX ipTeRouteEntry STATUS current DESCRIPTION "A particular traffic engineered route to a particular destination." PIB-INDEX { ipTeRoutePrid } UNIQUENESS { ipTeRouteDest, ipTeRouteMask, ipTeRoutePhbId, ipTeRouteNextHopAddress ipTeRouteNextHopMask } ::= { ipTeRouteTable 1 } ipTeRouteEntry ::= SEQUENCE { ipTeRoutePrid InstanceId, ipTeRouteDestAddrType InetAddressType, ipTeRouteDest InetAddress, ipTeRouteMask Unsigned32, ipTeRouteNextHopAddrType InetAddressType, ipTeRouteNextHopAddress InetAddress, ipTeRouteNextHopMask Unsigned32, ipTeRoutePhbId Integer32, ipTeRouteOrigin Integer32, ipTeRouteIfIndex Unsigned32 } ipTeRoutePrid OBJECT-TYPE SYNTAX InstanceId STATUS current DESCRIPTION "An integer index that uniquely identifies this route entry among all the route entries." ::= { ipTeRouteEntry 1 } ipTeRouteDestAddrType OBJECT-TYPE SYNTAX InetAddressType STATUS current DESCRIPTION "The address type enumeration value ([16]) used to specify the type of a route's destination IP address." ::= { ipTeRouteEntry 2 } ipTeRouteDest OBJECT-TYPE SYNTAX InetAddress STATUS current DESCRIPTION "The IP address to match against the packet's destination address." ::= { ipTeRouteEntry 3 } ipTeRouteMask OBJECT-TYPE SYNTAX Unsigned32 (0..128) STATUS current DESCRIPTION "Indicates the length of a mask for the matching of the destination IP address. Masks are constructed by setting bits in sequence from the most-significant bit downwards for ipTeRouteMask bits length. All other bits in the mask, up to the number needed to fill the length of the address ipTeRouteDest are cleared to zero. A zero bit in the mask then means that the corresponding bit in the address always matches."" ::= { ipTeRouteEntry 4 } ipTeRouteNextHopAddrType OBJECT-TYPE SYNTAX InetAddressType STATUS current DESCRIPTION "The address type enumeration value used to specify the type of the next hop's IP address." ::= { ipTeRouteEntry 5 } ipTeRouteNextHopAddress OBJECT-TYPE SYNTAX InetAddress STATUS current DESCRIPTION "On remote routes, the address of the next router en route; Otherwise, 0.0.0.0." ::= { ipTeRouteEntry 6 } ipTeRouteNextHopMask OBJECT-TYPE SYNTAX Unsigned32 (0..128) STATUS current DESCRIPTION "Indicates the length of a mask for the matching of the next hop's IP address. Masks are constructed by setting bits in sequence from the most-significant bit downwards for ipTeRouteNextHopMask bits length. All other bits in the mask, up to the number needed to fill the length of the address ipTeRouteNextHop are cleared to zero. A zero bit in the mask then means that the corresponding bit in the address always matches." ::= { ipTeRouteEntry 7 } ipTeRoutePhbId OBJECT-TYPE SYNTAX Integer32 (-1 | 0..63) STATUS current DESCRIPTION "The binary encoding that uniquely identifies a Per Hop Behaviour (PHB, [17]) or a set of PHBs associated to the DiffServ Code Point (DSCP, [15]) marking of the IP datagrams that will be conveyed along this traffic engineered route. A value of -1 indicates that a specific PHB ID value has not been defined, and thus, all PHB ID values are considered a match." ::= { ipTeRouteEntry 8 } ipTeRouteOrigin OBJECT-TYPE SYNTAX INTEGER { OSPF (0) IS-IS (1) BGP (2) STATIC (3) OTHER (4) } STATUS current DESCRIPTION "The value indicates the origin of the route. Either the route has been computed by OSPF, by IS-IS, announced by BGP4, is static, or else." ::= { ipTeRouteEntry 9 } ipTeRouteIfIndex OBJECT-TYPE SYNTAX Unsigned32 (0..65535) STATUS current DESCRIPTION "The ifIndex value that identifies the local interface through which the next hop of this route is accessible." ::= { ipTeRouteEntry 10 } -- -- -- Traffic engineering metrics classes. -- -- The information stored in the following tables is meant to provide -- the description of the metric values that will be taken into -- account by intra- and inter-domain routing protocols for the -- computation and the selection of traffic-engineered routes. So -- far, two tables have been identified: one which is based upon the -- traffic engineering extensions of OSPF, the other which is based -- upon the contents of a specific BGP4 attribute. Next versions of -- the draft will include IS-IS specific information, as well as -- extensions of the BGP4-specific provisioning information for the -- "basic" enforcement of a BGP4 routing policy. -- -- -- -- The ospfTeMetricsTable -- ospfTeMetricsTable OBJECT-TYPE SYNTAX SEQUENCE OF ospfTeMetricsEntry PIB-ACCESS install-notify STATUS current DESCRIPTION "This class describes the link and traffic engineering metrics that will be used by OSPF for TE route calculation purposes." ::= { ipTeMetricsClasses 1 } ospfTeMetricsEntry OBJECT-TYPE SYNTAX ospfTeMetricsEntry STATUS current DESCRIPTION "The collection of OSPF metrics assigned to the router on a per interface and per DSCP basis." PIB-INDEX { ospfTeMetricsPrid } UNIQUENESS { ospfTeMetricsLinkMetricValue, ospfTeMetricsDscpValue, ospfTeMetricSubTlvLinkType, ospfTeMetricSubTlvLinkId, ospfTeMetricSubTlvLocalIfAddress, ospfTeMetricSubTlvRemoteIfAddress, ospfTeMetricSubTlvTeMetric, ospfTeMetricSubTlvMaxBandwidth, ospfTeMetricSubTlvMaxRsvBandwidth, ospfTeMetricSubTlvUnRsvBandwidth, ospfTeMetricIfIndex } ::= { ospfTeMetricsTable 1 } ospfTeMetricsEntry ::= SEQUENCE { ospfTeMetricsPrid InstanceId, ospfTeMetricsIfMetricValue Unsigned32, ospfTeMetricsDscpValue Integer32, ospfTeMetricsTopTlvAddressType InetAddressType, ospfTeMetricsTopTlvRouterAddress InetAddress, ospfTeMetricsTopTlvRouterAddrMask Unsigned32, ospfTeMetricsSubTlvLinkType Unsigned32, ospfTeMetricsSubTlvLinkIdAddressType InetAddressType, ospfTeMetricsSubTlvLinkId InetAddress, ospfTeMetricsSubTlvLinkIdMask Unsigned32, ospfTeMetricsSubTlvLocalIfAddressType InetAddressType, ospfTeMetricsSubTlvLocalIfAddress InetAddress, ospfTeMetricsSubTlvLocalIfAddrMask Unsigned32, ospfTeMetricsSubTlvRemoteIfAddressType InetAddressType, ospfTeMetricsSubTlvRemoteIfAddress InetAddress, ospfTeMetricsSubTlvRemoteIfAddrMask Unsigned32, ospfTeMetricsSubTlvTeMetric Unsigned32, ospfTeMetricsSubTlvMaxBandwidth Unsigned32, ospfTeMetricsSubTlvMaxRsvBandwidth Unsigned32, ospfTeMetricsSubTlvUnrsvBandwidth Unsigned32, ospfTeMetricsIfIndex Unsigned32 } ospfTeMetricsPrid OBJECT-TYPE SYNTAX InstanceId STATUS current DESCRIPTION "An integer index that uniquely identifies this instance of the ospfTeMetrics class." ::= { ospfTeMetricsEntry 1 } ospfTeMetricsIfMetricValue OBJECT-TYPE SYNTAX Unsigned32 (1..65535) STATUS current DESCRIPTION "The link metric assigned on a per-DSCP and per-interface basis, as defined in this instance of the ospfTeMetricsTable." ::= { ospfTeMetricsEntry 2 } ospfTeMetricsDscpValue OBJECT-TYPE SYNTAX Integer32 (-1 | 0..63) STATUS current DESCRIPTION "The DSCP value associated to the link metric value, as defined in the ospfTeMetricsIfMetricValue object. A value of -1 indicates that a specific DSCP value has not been defined and thus all DSCP values are considered a match." ::= { ospfTeMetricsEntry 3 } ospfTeMetricsTopTlvAddressType OBJECT-TYPE SYNTAX InetAddressType STATUS current DESCRIPTION "The address type enumeration value used to specify the IP address of the advertising router. This IP address is always reachable, and is typically implemented as a "loopback" address." ::= { ospfTeMetricsEntry 4 } ospfTeMetricsTopTlvRouterAddress OBJECT-TYPE SYNTAX InetAddress STATUS current DESCRIPTION "The IP address (typically a "loopback" address) of the advertising router." ::= { ospfTeMetricsEntry 5 } ospfTeMetricsTopTlvRouterAddrMask OBJECT-TYPE SYNTAX Unsigned32 (0..128) STATUS current DESCRIPTION "Indicates the length of a mask for the matching of the advertising router's IP address. Masks are constructed by setting bits in sequence from the most-significant bit downwards for ospfTeMetricsTopTlvRouterAddrMask bits length. All other bits in the mask, up to the number needed to fill the length of the address ospfTeMetricsTopTlvRouterAddress are cleared to zero. A zero bit in the mask then means that the corresponding bit in the address always matches." ::= { ospfTeMetricsEntry 6 } ospfTeMetricsSubTlvLinkType OBJECT-TYPE SYNTAX INTEGER { Point-to-Point (1) Multiaccess (2) } STATUS current DESCRIPTION "The type of the link, either point-to-point or multi- access, as defined in [8]." ::= { ospfTeMetricsEntry 7 } ospfTeMetricsSubTlvLinkIdAddressType OBJECT-TYPE SYNTAX InetAddressType STATUS current DESCRIPTION "The address type enumeration value used to identify the other end of the link, described as an IP address." ::= { ospfTeMetricsEntry 8 } ospfTeMetricsSubTlvLinkId OBJECT-TYPE SYNTAX InetAddress STATUS current DESCRIPTION "The identification of the other end of the link, described as an IP address." ::= { ospfTeMetricsEntry 9 } ospfTeMetricsSubTlvLinkMask OBJECT-TYPE SYNTAX Unsigned32 (0..128) STATUS current DESCRIPTION "Indicates the length of a mask for the matching of the other end of the link, described as an IP address. Masks are constructed by setting bits in sequence from the most- significant bit downwards for ospfTeMetricsSubTlvLinkMask bits length. All other bits in the mask, up to the number needed to fill the length of the address ospfTeMetricsSubTlvLinkId are cleared to zero. A zero bit in the mask then means that the corresponding bit in the address always matches." ::= { ospfTeMetricsEntry 10 } ospfTeMetricsSubTlvLocalIfAddressType OBJECT-TYPE SYNTAX InetAddressType STATUS current DESCRIPTION "The address type enumeration value used to specify the IP address of the interface corresponding to this instance of the ospfTeMetricsSubTlvLinkType object." ::= { ospfTeMetricsEntry 11 } ospfTeMetricsSubTlvLocalIfAddress OBJECT-TYPE SYNTAX InetAddress STATUS current DESCRIPTION "Specifies the IP address of the interface of the advertising router which is connected to the link described as an instance of the ospfTeMetricsSubTlvLinkType object." ::= { ospfTeMetricsEntry 12 } ospfTeMetricsSubTlvLocalIfAddrMask OBJECT-TYPE SYNTAX Unsigned32 (0..128) STATUS current DESCRIPTION "Indicates the length of a mask for the matching of the IP address of the interface corresponding to this instance of the ospfTeMetricsSubTlvLinkType object. Masks are constructed by setting bits in sequence from the most- significant bit downwards for ospfTeMetricsSubTlvLocalIfAddrMask bits length. All other bits in the mask, up to the number needed to fill the length of the address ospfTeMetricsSubTlvLocalIfAddress are cleared to zero. A zero bit in the mask then means that the corresponding bit in the address always matches." ::= { ospfTeMetricsEntry 13 } ospfTeMetricsSubTlvRemoteIfAddressType OBJECT-TYPE SYNTAX InetAddressType STATUS current DESCRIPTION "The address type enumeration value used to specify the IP address(es) of the neighbour's interface corresponding to this instance of the ospfTeMetricsSubTlvLinkType object." ::= { ospfTeMetricsEntry 14 } ospfTeMetricSubTlvRemoteIfAddress OBJECT-TYPE SYNTAX InetAddress STATUS current DESCRIPTION "Specifies the IP address of the neighbour's interface that is attached to this instance of the ospfTeMetricsSubTlvLinkType object." ::= { ospfTeMetricsEntry 15 } ospfTeMetricSubTlvRemoteIfAddrMask OBJECT-TYPE SYNTAX Unsigned32 (0..128) STATUS current DESCRIPTION "Indicates the length of a mask for the matching of the IP address of the neighbor's interface corresponding to this instance of the ospfTeMetricsSubTlvLinkType object. Masks are constructed by setting bits in sequence from the most- significant bit downwards for ospfTeMetricSubTlvRemoteIfAddrMaskbits length. All other bits in the mask, up to the number needed to fill the length of the address ospfTeMetricSubTlvRemoteIfAddress are cleared to zero. A zero bit in the mask then means that the corresponding bit in the address always matches." ::= { ospfTeMetricsEntry 16 } ospfTeMetricSubTlvTeMetric OBJECT-TYPE SYNTAX Unsigned32 (1..65535) STATUS current DESCRIPTION "The link metric that has been assigned for traffic engineering purposes. This metric may be different from the ospfTeMetricsLinkMetricValue object of the ospfTeMetrics class." ::= { ospfTeMetricsEntry 17 } ospfTeMetricSubTlvBandwidthType OBJECT-TYPE SYNTAX Unsigned32 (0..4294967295) UNITS "bytes per second" STATUS current DESCRIPTION "Specifies the maximum bandwidth that can be used on this instance of the ospfTeMetricsSubTlvLinkType object in this direction (from the advertising router), expressed in bytes per second." ::= { ospfpTeMetricsEntry 18 } ospfTeMetricSubTlvMaxRsvBandwidth OBJECT-TYPE SYNTAX Unsigned32 (0..4294967295) UNITS "bytes per second" STATUS current DESCRIPTION "Specifies the maximum bandwidth that may be reserved on this instance of the ospfTeMetricsSubTlvLinkType object in this direction (from the advertising router), expressed in bytes per second." ::= { ospfTeMetricsEntry 19 } ospfTeMetricSubTlvUnrsvBandwidth OBJECT-TYPE SYNTAX Unsigned32 (0..4294967295) UNITS "bytes per second" STATUS current DESCRIPTION "Specifies the amount of bandwidth that has not been reserved on this instance of the ospfTeMetricsSubTlvLinkType object in this direction yet (from the advertising router), expressed in bytes per second." ::= { ospfTeMetricsEntry 20 } ospfTeMetricIfIndex OBJECT-TYPE SYNTAX Unsigned32 (0..65535) STATUS current DESCRIPTION "The ifIndex value that identifies the local interface that has been assigned a (set of) metrics." ::= { ospfTeMetricsEntry 21 } -- -- The bgpTeTable -- bgpTeTable OBJECT-TYPE SYNTAX SEQUENCE OF bgpTeEntry PIB-ACCESS install-notify STATUS current DESCRIPTION "This class describes the QoS information that MAY be conveyed in BGP4 UPDATE messages for the purpose of enforcing an inter-domain traffic engineering policy." ::= { ipTeMetricsClasses 2 } bgpTeEntry OBJECT-TYPE SYNTAX bgpTeEntry STATUS current DESCRIPTION "The collection of QoS information to be exchanged by BGP peers, as far as the announcement of traffic engineered routes between domains is concerned." PIB-INDEX { bgpTePrid } UNIQUENESS { bgpTeNlriAddress, bgpTeNextHopAddress, bgpTeReservedRate, bgpTeAvailableRate, bgpTeLossRate, bgpTePhbId, bgpTeMinOneWayDelay, bgpTeMaxOneWayDelay, bgpTeAverageOneWayDelay, bgpTeInterPacketDelay } ::= { bgpTeTable 1 } bgpTeEntry ::= SEQUENCE { bgpTePrid InstanceId, bgpTeNlriAddressType InetAddressType, bgpTeNlriAddress InetAddress, bgpTeNlriAddressMask Unsigned32, bgpTeNextHopAddressType InetAddressType, bgpTeNextHopAddress InetAddress, bgpTeNextHopMask Unsigned32, bgpTeReservedRate Unsigned32, bgpTeAvailableRate Unsigned32, bgpTeLossRate Unsigned32, bgpTePhbId Integer32, bgpTeMinOneWayDelay Unsigned32, bgpTeMaxOneWayDelay Unsigned32, bgpTeAverageOneWayDelay Unsigned32, bgpTeInterPacketDelay Unsigned32 } bgpTePrid OBJECT-TYPE SYNTAX InstanceId STATUS current DESCRIPTION "An integer index that uniquely identifies this instance of the bgpTe class." ::= { bgpTeEntry 1 } bgpTeNlriAddressType OBJECT-TYPE SYNTAX InetAddressType STATUS current DESCRIPTION "The address type enumeration value ([18]) used to specify the type of a route's destination IP address." ::= { bgpTeEntry 2 } bgpTeNlriAddress OBJECT-TYPE SYNTAX InetAddress STATUS current DESCRIPTION "The IP address to match against the NLRI field of the QOS_NLRI attribute of the BGP4 UPDATE message." ::= { bgpTeEntry 3 } bgpTeNlriAddressMask OBJECT-TYPE SYNTAX Unsigned32 (0..128) STATUS current DESCRIPTION "Indicates the length of a mask for the matching of the NLRI field of the QOS_NLRI attribute of the BGP4 UPDATE message. Masks are constructed by setting bits in sequence from the most-significant bit downwards for bgpTeNlriMask bits length. All other bits in the mask, up to the number needed to fill the length of the address bgpTeNlri are cleared to zero. A zero bit in the mask then means that the corresponding bit in the address always matches."" ::= { bgpTeEntry 4 } bgpTeNextHopAddressType OBJECT-TYPE SYNTAX InetAddressType STATUS current DESCRIPTION "The address type enumeration value used to specify the type of the next hop's IP address." ::= { bgpTeEntry 5 } bgpTeNextHopAddress OBJECT-TYPE SYNTAX InetAddress STATUS current DESCRIPTION "On remote routes, the address of the next router en route; Otherwise, 0.0.0.0." ::= { bgpTeEntry 6 } bgpTeNextHopMask OBJECT-TYPE SYNTAX Unsigned32 (0..128) STATUS current DESCRIPTION "Indicates the length of a mask for the matching of the next hop's IP address. Masks are constructed by setting bits in sequence from the most-significant bit downwards for bgpTeNextHopMask bits length. All other bits in the mask, up to the number needed to fill the length of the address bgpTeNextHopAddress are cleared to zero. A zero bit in the mask then means that the corresponding bit in the address always matches." ::= { bgpTeEntry 7 } bgpTeReservedRate OBJECT-TYPE SYNTAX Unsigned32 (0..4294967295) UNITS "kilobits per second" STATUS current DESCRIPTION "Specifies the reserved rate that cannot be used on this instance of the bgpTeNlriAddress object in this direction (from the advertising BGP peer), expressed in kilobits per second." ::= { bgpTeEntry 8 } bgpTeAvailableRate OBJECT-TYPE SYNTAX Unsigned32 (0..4294967295) UNITS "kilobits per second" STATUS current DESCRIPTION "Specifies the available rate that may be reserved on this instance of the bgpTeNlriAddress object in this direction (from the advertising BGP peer), expressed in kilobits per second." ::= { bgpTeEntry 9 } bgpTeLossRate OBJECT-TYPE SYNTAX Unsigned32 (0..4294967295) STATUS current DESCRIPTION "Specifies the packet loss ratio that has been observed on this route instantiated by the bgpTeNlriAddress object." ::= { bgpTeEntry 10 } bgpTePhbId OBJECT-TYPE SYNTAX Integer32 (-1 | 0..63) STATUS current DESCRIPTION "The binary encoding that uniquely identifies a Per Hop Behaviour (PHB) or a set of PHBs associated to the DiffServ Code Point marking of the IP datagrams that are to be conveyed along this traffic engineered route. A value of -1 indicates that a specific PHB ID value has not been defined, and thus, all PHB ID values are considered a match." ::= { bgpTeEntry 11 } bgpTeMinOneWayDelay OBJECT-TYPE SYNTAX Unsigned32 (0..4294967295) UNITS "milliseconds" STATUS current DESCRIPTION "Specifies the minimum one-way delay that has been observed on this route instantiated by the bgpTeNlriAddress object, expressed in milliseconds." ::= { bgpTeEntry 12 } bgpTeMaxOneWayDelay OBJECT-TYPE SYNTAX Unsigned32 (0..4294967295) UNITS "milliseconds" STATUS current DESCRIPTION "Specifies the maximum one-way delay that has been observed on this route instantiated by the bgpTeNlriAddress object, expressed in milliseconds." ::= { bgpTeEntry 13 } bgpTeAverageOneWayDelay OBJECT-TYPE SYNTAX Unsigned32 (0..4294967295) UNITS "milliseconds" STATUS current DESCRIPTION "Specifies the average one-way delay that has been observed on this route instantiated by the bgpTeNlriAddress object, expressed in milliseconds." ::= { bgpTeEntry 14 } bgpTeInterPacketDelay OBJECT-TYPE SYNTAX Unsigned32 (0..4294967295) UNITS "milliseconds" STATUS current DESCRIPTION "Specifies the inter-packet delay variation that has been observed on this route instantiated by the bgpTeNlriAddress object." ::= { bgpTeEntry 15 } -- -- Traffic engineering statistics classes. The information contained -- in the yet-to-be defined tables aim at reporting statistics about -- COPS control traffic, engineered traffic and potential errors. The -- next version of the draft will provide a first table that will be -- based upon the use of the "count" clause. -- -- END