RtgRsControlsEntry |
|
SEQUENCE |
|
|
|
|
rtgRsRouteSelectionAttributes |
INTEGER |
|
|
rtgRsOperationMode |
INTEGER |
|
|
rtgRsLastRouteSelectionTime |
EnterpriseDateAndTime |
|
RtgRsPathAttributesEntry |
|
SEQUENCE |
|
|
|
|
rtgRsSourceId |
Unsigned32 |
|
|
rtgRsRemoteName |
AsciiString |
|
|
rtgRsSetupPriority |
Unsigned32 |
|
|
rtgRsRequiredTxBandwidth |
Unsigned32 |
|
|
rtgRsRequiredRxBandwidth |
Unsigned32 |
|
|
rtgRsMaximumTransmissionUnit |
Unsigned32 |
|
|
rtgRsSecurity |
Unsigned32 |
|
|
rtgRsTrafficType |
INTEGER |
|
|
rtgRsPermittedTrunkTypes |
OCTET STRING |
|
|
rtgRsCustomerParameter |
Unsigned32 |
|
|
rtgRsPathAttributeToMinimize |
INTEGER |
|
|
rtgRsMaximumAcceptableCost |
Unsigned32 |
|
|
rtgRsMaximumAcceptableDelay |
Unsigned32 |
|
|
rtgRsBumpPreference |
INTEGER |
|
|
rtgRsRequiredTrunkModes |
INTEGER |
|
|
rtgRsMaximumAcceptableGatewayCost |
Unsigned32 |
|
|
rtgRsRouteRequestor |
INTEGER |
|
|
rtgRsGatewaySelectionAlg |
INTEGER |
|
|
rtgRsDestination |
AsciiString |
|
RtgRsRouteStatisticsEntry |
|
SEQUENCE |
|
|
|
|
rtgRsRouteStatisticsSetupPriorityIndex |
INTEGER |
|
|
rtgRsRouteStatisticsStatisticsTableIndex |
Integer32 |
|
|
rtgRsRouteStatisticsValue |
Unsigned32 |
|
RtgPorsProvEntry |
|
SEQUENCE |
|
|
|
|
rtgPorsOptimizationInterval |
Unsigned32 |
|
RtgPorsInfoEntry |
|
SEQUENCE |
|
|
|
|
rtgPorsActiveConnections |
Unsigned32 |
|
|
rtgPorsOptimizationState |
INTEGER |
|
|
rtgPorsLastOptimizationTime |
EnterpriseDateAndTime |
|
|
rtgPorsNextOptimizationTime |
EnterpriseDateAndTime |
|
|
rtgPorsOptimizationPasses |
Unsigned32 |
|
|
rtgPorsOptimizationProgress |
Unsigned32 |
|
|
rtgPorsPathsOptimized |
Unsigned32 |
|
|
rtgPorsTotalPathsOptimized |
Unsigned32 |
|
RtgPorsProfRowStatusEntry |
|
SEQUENCE |
|
|
|
|
rtgPorsProfRowStatus |
RowStatus |
|
|
rtgPorsProfComponentName |
DisplayString |
|
|
rtgPorsProfStorageType |
StorageType |
|
|
rtgPorsProfIndex |
Integer32 |
|
RtgPorsProfProvEntry |
|
SEQUENCE |
|
|
|
|
rtgPorsProfSetupPriority |
Unsigned32 |
|
|
rtgPorsProfHoldingPriority |
Unsigned32 |
|
|
rtgPorsProfRequiredTxBandwidth |
Unsigned32 |
|
|
rtgPorsProfRequiredRxBandwidth |
Unsigned32 |
|
|
rtgPorsProfRequiredTrafficType |
INTEGER |
|
|
rtgPorsProfPermittedTrunkTypes |
OCTET STRING |
|
|
rtgPorsProfRequiredSecurity |
Unsigned32 |
|
|
rtgPorsProfRequiredCustomerParm |
Unsigned32 |
|
|
rtgPorsProfPathAttributeToMinimize |
INTEGER |
|
|
rtgPorsProfMaximumAcceptableCost |
Unsigned32 |
|
|
rtgPorsProfMaximumAcceptableDelay |
Unsigned32 |
|
|
rtgPorsProfEmissionPriority |
INTEGER |
|
|
rtgPorsProfDiscardPriority |
INTEGER |
|
|
rtgPorsProfPathFailureAction |
INTEGER |
|
|
rtgPorsProfBumpPreference |
INTEGER |
|
|
rtgPorsProfOptimization |
INTEGER |
|
RtgPorsMpathRowStatusEntry |
|
SEQUENCE |
|
|
|
|
rtgPorsMpathRowStatus |
RowStatus |
|
|
rtgPorsMpathComponentName |
DisplayString |
|
|
rtgPorsMpathStorageType |
StorageType |
|
|
rtgPorsMpathIndex |
Integer32 |
|
RtgPorsMpathOperEntry |
|
SEQUENCE |
|
|
|
|
rtgPorsMpathLastSetupFailureReason |
INTEGER |
|
|
rtgPorsMpathLastSetupFailurePoint |
AsciiString |
|
|
rtgPorsMpathLastSetupFailedUser |
RowPointer |
|
rtgRsRowStatusEntry |
1.3.6.1.4.1.562.2.4.1.40.2.1.1 |
A single entry in the table represents a single
rtgRs component. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgRsRowStatusEntry |
|
|
rtgRsBumpingPriority |
1.3.6.1.4.1.562.2.4.1.40.2.10.1.3 |
This attribute indicates the priority at which a route has been
selected, or a value of 4 for manual routes since no route selection
was made. Since RouteSelector does not verify manual routes the
value of 4 for routeBumpingPriority symbolizes an unknown value
for manual routes. The remainder of the description is not
applicable to manual routes.
The bumping priority of a route specifies a priority at which a path
along that route can be established. The lowest bumping priority is
4, the highest bumping priority is equal to a setup priority contained
in the route request data. If a route is selected at bumping priority 4,
then no paths will be bumped since there appears to be enough free
bandwidth on selected trunks, and also since this bumping priority
is not better than the lowest holding priority (4) of any path.
If a route cannot be selected at bumping priority 4 and a setup
priority is 3 or better, then a route may be selected at bumping
priority 3. This means that paths at holding priority 4 may be
bumped if currently there is not enough free bandwidth on selected
trunks to establish the new path with setup priority 3.
If a route cannot be selected at bumping priority 3 and a setup
priority is 2 or better, then a route may be selected at bumping
priority 2. In this case paths with holding priority 4 and 3 may be
bumped if there is not enough free bandwidth on selected trunks to
establish the new path with setup priority 2.
If a route cannot be selected at bumping priority 2 and a setup
priority is 1 or better, then a route may be selected at bumping
priority 1. In this case paths with holding priority 4, 3, and 2 may be
bumped if there is not enough free bandwidth on selected trunks to
establish the new path with setup priority 1.
If a route cannot be selected at bumping priority 1 and a setup
priority is 0, then a route may be selected at bumping priority 0. In
this case paths with holding priority 4, 3, 2, and 1 may be bumped if
there is not enough free bandwidth on selected trunks to establish
the new path with setup priority 0. |
Status: mandatory |
Access: read-only |
OBJECT-TYPE |
|
|
|
|
Unsigned32 |
0..4 |
|
rtgRsReasonForNoRoute |
1.3.6.1.4.1.562.2.4.1.40.2.10.1.4 |
This attribute indicates the reason for which a route was not
selected by RouteSelector.
If the route was selected then reasonForNoRoute has a value of
none.
If the destination in the form of ASCII name was specified (see
destination) and the name of node is too long (more than 12
characters) then reasonForNoRoute has a value of
destinationNameTooLong. Check and correct node name in the
destination attribute.
If the destination was not specified, that is destination is blank, then
reasonForNoRoute has a value of destinationNotSpecified.
Destination attribute should not be blank.
If the destination in the form of ASCII name was specified (see
destination) and the name of node cannot be found in topological
database then reasonForNoRoute has a value of
unknownDestinationName. Check and correct node name in the
destination attribute. If it is correct then this node does not appear in
local topological database as this node may lie across the topology
region or cluster boundary.
If the destination cannot be found in the topological database or
cannot be reached through any gateway node then
reasonForNoRoute has a value of unknownDestination. Ensure the
destination specified in destination attribute resides in the topology
region, or can be reached through a Routing Gateway. That is, at
least one reachable address provisioned under a Trunk Address
component representing a gateway link can reach the destination
NSAP address.
If the destination was specified using an incorrect format (see
destination) then reasonForNoRoute has a value of
incorrectDestination. Use the correct format for destination
attribute.
If there is no physical connectivity to the destination or gateway
node, or number of hops to such node exceeds a limit of 20 hops, or
a route to such node cannot satisfy all the parameters in the route
request data then reasonForNoRoute has a value of
attributeNotMet. Set operationMode to manual and issue d rtg rs
command and inspect attributeNotMet to determine which attribute
could not be satisfied.
If the route to the destination could not be selected for some internal
reason then reasonForNoRoute has a value of internalReason. A
Software Alarm generated in association with this situation should
be reported to Nortel Networks technical support.
If the route to the destination could not be selected because of
profile reference problem then reasonForNoRoute has a value of
attributeProfileProblem.
If the route to the destination could not be selected because of
manual path reference problem then reasonForNoRoute has a value
of manualPathIndexProblem.
The following values of reasonForNoRoute are no longer
generated: routeCostTooMuch, routeDelayTooMuch,
incorrectDestinationEndPoint, and sameNode. |
Status: mandatory |
Access: read-only |
OBJECT-TYPE |
|
|
|
|
INTEGER |
none(0), destinationNameTooLong(1), destinationNotSpecified(2), unknownDestinationName(3), incorrectDestination(4), incorrectDestinationEndPoint(5), unknownSource(6), unknownDestination(7), sameNode(8), routeCostTooMuch(9), routeDelayTooLong(10), attributesNotMet(11), internalReason(12), attributeProfileProblem(13), manualPathIndexProblem(14) |
|
rtgRsAttributeNotMet |
1.3.6.1.4.1.562.2.4.1.40.2.10.1.5 |
This attribute indicates the name of a possible route request data
parameter which prevents RouteSelector from selecting the route.
This attribute always has a value of allAttributesMet for manual
routes since RouteSelector does not verify manual routes. This
attribute has a meaningful value if reasonForNoRoute attribute has
a value of attributesNotMet. The value of attributeNotMet is only
computed when RouteSelector operates in manual mode. That is,
when route selection has been initiated by the operator in which
case operationMode has a value of manual.
RouteSelector determines which of the attributes:
requiredRxBandwidth, requiredTxBandwidth, requiredTrunkModes,
maximumAcceptableCost, maximumAcceptableDelay,
maximumAcceptableGatewaCost, requiredTrafficType,
permittedTrunkTypes, requiredSecurity,
requiredCustomerParameter, and maximumTransmissionUnit
prevents successful route selection by dropping the constraints
associated with that attribute and reselecting the route. If that route
can be successfully selected then the attribute for which the
constraints were dropped is the attribute preventing successful route
selection.
For example, RouteSelector drops bandwidth constraints by
selecting a route with requiredRxBandwidth or
requiredTxBandwidth of 0. If the route can be selected then
bandwidth is preventing successful route selection.
A value of unknownAttributeNotMet indicates that RouteSelector
cannot determine why route cannot be selected. Constraints for all
attributes are dropped yet successful route cannot be computed.
This usually indicates a lack physical connectivity to the destination
or gateway node. Alternatively, this may indicate that destination or
gateway node is more than 20 hops away where 20 hops is the
maximum number of hops in the route. |
Status: mandatory |
Access: read-only |
OBJECT-TYPE |
|
|
|
|
INTEGER |
unknownAttributeNotMet(0), allAttributesMet(1), requiredRxBandwidth(2), requiredTxBandwidth(3), requiredTrunkModes(4), maximumAcceptableCost(5), maximumAcceptableDelay(6), requiredTrafficType(7), permittedTrunkTypes(8), requiredSecurity(9), requiredCustomerParm(10), maximumTransmissionUnit(11), maximumAcceptableGatewayCost(12), maximumGatewayHops(13) |
|
rtgRsRouteType |
1.3.6.1.4.1.562.2.4.1.40.2.10.1.8 |
This attribute indicates the type of route that was selected by
RouteSelector.
If no route was selected then routeType has a value of noRoute.
If the destination resides on the current node then routeType has a
value of sameNode.
If the destination resides on a different node and can be reached
directly as opposed to indirectly through a gateway node then
routeType has a value of destinationNode or
destinationNodeLegacy with the latter only possible when legacy
gateway selection algorithm was used (see
gatewaySelectionAlgorithm).
If the destination can be reached indirectly through a gateway node
with the gateway node being different from the current node then
routeType has a value of gatewayNode or gatewayLink depending
on whether or not the route consists of a single gateway link. A
route consists of a single gateway link only when the route
requestor (see routeRequestor) is a Routing Gateway (in inbound or
outbound direction) and the route leads immediately across
topology region or cluster boundary.
If the destination can be reached indirectly through a gateway node
with the gateway node being the current node and the route
requestor (see routeRequestor) is an application service as opposed
to a Routing Gateway then routeType has a value of
routingGateway.
If selected route is a manual route then routeType has a value of
manual.
Note that the type of route, except for manual route, depends on
who is the route requestor (application service, Routing Gateway
serving as inbound or outbound gateway), where it resides (gateway
or non-gateway node), how the destination can be reached (directly
or indirectly through a gateway node), and what is the gateway
selection algorithm (cost-based, random or legacy). |
Status: mandatory |
Access: read-only |
OBJECT-TYPE |
|
|
|
|
INTEGER |
noRoute(3), sameNode(4), destinationNode(5), destinationNodeLegacy(6), gatewayNode(7), gatewayLink(8), routingGateway(9), manual(10) |
|
rtgRsControlsEntry |
1.3.6.1.4.1.562.2.4.1.40.2.11.1 |
An entry in the rtgRsControlsTable. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgRsControlsEntry |
|
|
rtgRsPathAttributesEntry |
1.3.6.1.4.1.562.2.4.1.40.2.12.1 |
An entry in the rtgRsPathAttributesTable. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgRsPathAttributesEntry |
|
|
rtgRsTrafficType |
1.3.6.1.4.1.562.2.4.1.40.2.12.1.8 |
This attribute indicates the required type of traffic that can be
transported along the selected route. There are eight possible traffic
types, and only one type can be transported. The voice, data, and
video traffic types are already defined, and five other traffic types
can be defined by the network administrator. The
supportedTrafficType attribute of the Trunk PathAdministrator (Trk
Pa) component lists all the types of traffic allowed on the trunk.
When selecting a route, RouteSelector only chooses trunks whose
supportedTrafficType contains the requiredTrafficType. |
Status: mandatory |
Access: read-write |
OBJECT-TYPE |
|
|
|
|
INTEGER |
voice(0), data(1), video(2), trafficType1(3), trafficType2(4), trafficType3(5), trafficType4(6), trafficType5(7) |
|
rtgRsRouteStatisticsEntry |
1.3.6.1.4.1.562.2.4.1.40.2.225.1 |
An entry in the rtgRsRouteStatisticsTable. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgRsRouteStatisticsEntry |
|
|
rtgRsDgnEntry |
1.3.6.1.4.1.562.2.4.1.40.2.650.1 |
An entry in the rtgRsDgnTable. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgRsDgnEntry |
|
|
rtgPorsRowStatusEntry |
1.3.6.1.4.1.562.2.4.1.40.6.1.1 |
A single entry in the table represents a single
rtgPors component. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgPorsRowStatusEntry |
|
|
rtgPorsProvEntry |
1.3.6.1.4.1.562.2.4.1.40.6.10.1 |
An entry in the rtgPorsProvTable. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgPorsProvEntry |
|
|
rtgPorsInfoEntry |
1.3.6.1.4.1.562.2.4.1.40.6.11.1 |
An entry in the rtgPorsInfoTable. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgPorsInfoEntry |
|
|
rtgPorsProfRowStatusEntry |
1.3.6.1.4.1.562.2.4.1.40.6.7.1.1 |
A single entry in the table represents a single
rtgPorsProf component. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgPorsProfRowStatusEntry |
|
|
rtgPorsProfProvEntry |
1.3.6.1.4.1.562.2.4.1.40.6.7.11.1 |
An entry in the rtgPorsProfProvTable. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgPorsProfProvEntry |
|
|
rtgPorsProfRequiredTrafficType |
1.3.6.1.4.1.562.2.4.1.40.6.7.11.1.7 |
This attribute specifies the type of traffic transmitted over the path.
There are eight possible traffic types, and the path can transmit only
one of them. The originating end of the connection determines the
type. The voice, data and video traffic types are defined, and five
other arbitrary traffic types can be defined by the network
administration. This attribute is used in the route selection process
to restrict the route to trunks that support this traffic type. The
supportedTrafficType trunk attribute lists all the types of traffic
allowed on the trunk. For example, if requiredTrafficType is
specified as trafficType1, then only trunks that include trafficType1
in supportedTrafficType will be candidates for this connection. |
Status: mandatory |
Access: read-write |
OBJECT-TYPE |
|
|
|
|
INTEGER |
voice(0), data(1), video(2), trafficType1(3), trafficType2(4), trafficType3(5), trafficType4(6), trafficType5(7) |
|
rtgPorsProfUsrEntry |
1.3.6.1.4.1.562.2.4.1.40.6.7.400.1 |
An entry in the rtgPorsProfUsrTable. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgPorsProfUsrEntry |
|
|
rtgPorsMpathRowStatusEntry |
1.3.6.1.4.1.562.2.4.1.40.6.8.1.1 |
A single entry in the table represents a single
rtgPorsMpath component. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgPorsMpathRowStatusEntry |
|
|
rtgPorsMpathOperEntry |
1.3.6.1.4.1.562.2.4.1.40.6.8.12.1 |
An entry in the rtgPorsMpathOperTable. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgPorsMpathOperEntry |
|
|
rtgPorsMpathLastSetupFailureReason |
1.3.6.1.4.1.562.2.4.1.40.6.8.12.1.1 |
This attribute indicates the reason for the most recent failure for an
attempted connection using this ManualPath's route. The following
is a brief description of the reasons:
none - This path has no information for the teardown.
insufficientTxLcOrBandwidth - At present there is either no
available bandwidth or logical channel numbers available on one or
more of the Trunks for this path in the transmit direction. If a trunk
in the route attribute was previously locked, or has a Trk PA
subcomponent that is not in the up state , that Trunk is considered
as having no available bandwidth. If the Trunk PA is in mapped
mode, the inability to allocate an Atmif Vcc also results in this
failure reason.
insufficientRxLcOrBandwidth - At present there is either no
available bandwidth or logical channel numbers available on one or
more of the Trunks for this path in the receive direction. If a trunk
in the route attribute was previously locked, or has a Trk PA
subcomponent that is not in the up state , that Trunk is considered
as having no available bandwidth.
trunkFailure- A Trunk on the path has failed or has gone down,
due to a provisioning change of a critical attribute, as the path was
being established.
trunkCardFailure- A Trunk FP card has failed along the path as the
path was being established.
accessCardFailure- The FP on which the peer access service was
running has failed as the path was being established.
operatorForced- The path has terminated due to the operator
locking a Trunk along the path as the path was being established.
lostLcnClash- The path has terminated because the Trk PA's at both
ends of an intermediate trunk have allocated the same Trk LC to
different calls. When this happens both calls must go down and then
try to come up again a fraction of a second later (effectively
ensuring that they will now be assigned different Trk LC's). It is
normal to get the odd clash especially when the Trk PA usedLC is
approaching the Trk PA maxLC. An LCN clash results in the path
failing to instantiate only if the application disabled rerouting. By
default rerouting is enabled for all applications. Applications can
disable rerouting by using a Rtg Pors Prof/n component with
pathFailureAction set to disconnectConnection.
networkCongestion - The path has failed to establish due to control
information being lost and not being recoverable.
trunkNotFound - Check for Trunks not up or names provisioned
incorrectly in route attribute .
farEndNotFound - The far end is not provisioned or is not up. The
called NSAP address cannot be reached through the last node in the
Rtg Pors ManualPath path.
farEndBusy - The far end has been reached but it is busy. Check
remote end provisioning.
unknownReason - The failure was not resolved.
farEndNotReady - The remote end was reached but the connection
was refused due to the remote end not being enabled.
serviceTypeMismatch - The remote service type does not match
this service type. Check provisioning.
bumped - Another call bumped this path, as it was being
established, from a trunk to get bandwidth (or an LC) which it
required to come up. This other path had a higher setupPriority than
this path's holdingPriority hence it was allowed to steal the
bandwidth (or LC) from this path. A manual path that is bumped
fails to instantiate if it cannot bump another path along the same
route, or if it has pathFailureAction set to disconnectConnection.
trunkOrFarEndDidNotSupportMode - This call was unable to
complete because a mode required by the service was not supported
by one of the Trunks the route went through or by the far end
service it connected to. Currently the only mode that this applies to
is the map/mux mode on Trk Pa Atm component. |
Status: mandatory |
Access: read-only |
OBJECT-TYPE |
|
|
|
|
INTEGER |
none(0), insufficientTxLcOrBandwidth(2), insufficientRxLcOrBandwidth(3), trunkFailure(4), trunkCardFailure(5), operatorForced(6), lostLcnClash(7), networkCongestion(8), trunkNotFound(9), farEndNotFound(10), farEndBusy(12), unknownReason(14), farEndNotReady(15), serviceTypeMismatch(17), bumped(19), accessCardFailure(20), trunkOrFarEndDidNotSupportMode(23) |
|
rtgPorsMpathRouteEntry |
1.3.6.1.4.1.562.2.4.1.40.6.8.408.1 |
An entry in the rtgPorsMpathRouteTable. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgPorsMpathRouteEntry |
|
|
rtgPorsMpathUsrEntry |
1.3.6.1.4.1.562.2.4.1.40.6.8.409.1 |
An entry in the rtgPorsMpathUsrTable. |
Status: mandatory |
Access: not-accessible |
OBJECT-TYPE |
|
|
|
|
RtgPorsMpathUsrEntry |
|
|