This MIB module contains management information for
performance monitoring of call routing statistics.
Seven types of statistics are provided through 30 tables.
Type 1: common stats for static and PNNI routing
Type 2: static routing specific stats
Type 3: non-border node PNNI routing per routing table stats
Type 4: border node PNNI routing per routing table stats
Type 5: total stats for non-border node PNNI routing table stats
Type 6: total stats for border node PNNI routing table stats
Type 7: raw stats for all stats in types 1-6.
The statistics that are maintained are described below together with
their definition. For each statistic, a call identifies a setup or
an add party to a point to multipoint connection, as signaled by an
entity originating the connection. A call does not include setup or
add party events that are generated as a result of receiving a
crankback during processing of the original setup or add party. For a
call based statistic ( e.g. PNNI Stat 2- Calls Generating an Initial
DTL), a call that is cranked back twice is considered as a single call,
and not as three calls, as opposed to an event based statistic (e.g.
Crankbacks Received as DTL Originator) where such a call is considered
as one setup and two crankbacks. Note that these routing statistics are
not maintained across a CallP card activity switch.
i) Static & PNNI Routing Common Statistics:
1. Number of Successfully Routed Calls Originated from Local Subscribers:
This statistic measures all the calls which are originated from subscribers
at this node and are successfully routed to the called party regardless of
whether a re-route attempt is involved. This statistic does not include
those calls which are originated from a local subscriber and terminated to
a local subscriber. It is incremented only when a call is accepted or
alerted by the called party.
2. Successfully Routed Calls Transited via This Node:
This statistic measures all the calls which are successfully routed via
this node. The calls are neither originated from nor terminated to a
subscriber at this node and are successfully routed to the called party.
This includes cases where a crankback occurred and the call was successfully
re-routed by this node. It is incremented only when a call is accepted
or alerted by the called party.
3. Number of Successfully Routed Calls Terminated to Local Subscribers
This statistic measures all the calls which are successfully terminated
to a subscriber at this node. This does not include a call which is
originated from a subscriber at this node. A terminating call is treated
as successful if it is accepted by the called subscriber. It is
incremented when the call is accepted or alerted by the local subscriber.
4. Successfully Routed Local Calls
This statistic measures all the calls which are originated from
subscribers at this node and are successfully terminated to subscribers
at this node. A terminating call is treated as successful if it is
accepted or alerted by the called subscriber.
5. Calls Originated from Local Subscribers
This statistic measures all the calls which are originated from
local subscribers or local subscriber equivalents, e.g., calls
originated from SPVC connections, regardless of whether the calls
are successfully routed or not. This statistic includes those calls which
are terminated to local subscribers. If a call is re-routed by
this node, the re-route attempts are not counted.
6. Calls Terminated to Local Subscribers
This statistic measures all the calls which are terminated to a
local subscriber or to an SPVC endpoint on this node regardless
of whether the calls are successfully routed or not. This statistic
includes those calls which are originated from local subscribers.
7. Local Call Attempts
This statistic measures all the calls which are originated from
subscribers at this node and are terminated to subscribers at
this node regardless of whether the calls are successfully
terminated or not.
8. Calls Cleared due to No Routing Table Entry
This statistic measures all the calls which are cleared by this
node due to lack of a routing table entry that matches the called
party number. For static routing, this node could serve as an
originating node, a transiting node or a terminating node.
For PNNI routing, this node could serve as a DTL originator, or a
DTL terminator. The called party numbers and calling party numbers
of the last N cleared calls are made available for a user to display
on NMTI screens.
9. Crankbacks Generated by This Node
This statistic measures all the crankbacks which are generated
by this node while routing calls either as a transiting node or
a terminating node. The crankbacks which are generated due to
signaling failures are not included in this statistic. The called
party numbers and calling party numbers plus their failure causes
and diagnostics of the last N cranked back calls are made available
for a user to display on NMTI screens.
10. Failed Calls at Local Subscribers
This statistic measures all the calls which are terminating to a
local subscriber and fails at this node either because, e.g., the
required bearer capability can not be allocated or the local
subscriber rejects the call. This includes a call which is
originated from a subscriber at this node. The called party
numbers and calling party numbers plus their failure causes
and diagnostics of the last N failed calls are made available
for a user to display on NMTI screens.
11. Successfully Re-routed Calls
This statistic counts all calls which were successfully setup
after having been re-routed at least once by this node (as a
result of receiving a crankback). This count is also incremented
for entry border nodes that successfully reroute calls. The called
party numbers and calling party numbers plus their failure causes
and diagnostics of the last N failed calls are made available for
a user to display on NMTI screens.
12. Calls Failed in Re-routing
This statistic counts all calls which failed to be setup after
having attempted re-routing at least once by this node (as a
result of receiving a crankback). This count is also incremented
for entry border nodes that failed to reroute calls. The called
party numbers and calling party numbers plus their failure causes
and diagnostics of the last N failed calls are made available for
a user to display on NMTI screens.
ii) Static Routing Specific Statistics:
1. Calls Statically Routed by This Node
This statistic measures all the calls which are statically routed
over an NNI by this node regardless of whether the calls are
successfully routed or not. If a call is cranked back and re-routed
by this node again, the re-route attempts are not counted.
2. Crankbacks Received by This Node
This statistic measures all the static routing crankbacks which are
received by this node either as an originating node, or as a
transiting node. The called party numbers and calling party numbers
plus their failure causes and diagnostics of the last N cranked back
calls are made available for a user to display on NMTI screens.
3. Re-route Attempts
This statistic measures the number of times static routing is used
to re-route calls as a result of crankbacks. This node could be
serving as a transiting node or an originating node. The called
party numbers and calling party numbers plus their failure causes
and diagnostics of the last N re-routed calls are made available
for a user to display on NMTI screens.
4. Routing Loops Detected by This Node
This statistic counts the number of routing loops which are detected
by this node. The called party numbers and calling party numbers of
the last N routing loops are made available for a user to display on
NMTI screens.
iii) PNNI Per Routing Table Statistics:
The following statistics are gathered for each PNNI QoS routing
table generated as a result of a configured PNNI Routing Table
Descriptor. The PNNI Per Routing Table Statistics are divided
into two subsets:
a) Non Border Node Statistics
These statistics are relevant for calls for which this node does
not serve as a peer group border node. This node can serve as
originator, transit, or terminator for such calls.
b) Border Node Statistics
These statistics are relevant for calls for which this node is a border
node. The node can serve as an entry border, or an exit border for
such calls.
Note that a given node can increment both types of statistics,
depending on the role it plays for a specific call.
iiia)Non Border PNNI Per Routing Table Statistics:
1. Failed Calls Due to Initial DTL Not Generated
This statistic measures the number of calls for which an initial
DTL could not be generated by the originating node.
This is the case where a routing table entry is found for the called
party in the routing table but a path could not be built due to
routing constraints (e.g. insufficient path bandwidth to the called
party, path cost exceeding the configured Routing Table Descriptor
maximum). Note that this is different from having no routing table
entry for the called party. This statistic is not incremented in
crank back cases. The called party numbers and calling party
numbers plus their failure causes and diagnostics of the last N
cranked back calls are made available for the user to display on NMTI.
2. Calls Generating an Initial DTL
This statistic measures the number of DTLs which are generated
initially by this node for calls which are originated from
local subscribers, or from an SPVC source, or for calls which are
received over an NNI from outside the PNNI domain.
This statistic is incremented regardless of whether the calls are
successfully routed or not. This count does not include the DTLs
which are generated in order to re-route calls as a result of crankbacks.
3. DTL Originated Calls Successfully Established Without Re-routing
This statistic measures the number of calls for which this node
is the DTL Originator which were successfully established without
being cranked back to this node.
Note that this includes the case where a call has been rerouted
in some other peer groups by the entry border nodes.
4. DTL Originated Calls Successfully Re-routed
This statistic measures the number of calls for which this node
is the DTL Originator which were successfully setup after having
been re-routed at least once by this node (as a result of receiving
a crankback). The called party numbers and calling party numbers
plus their failure causes and diagnostics of the last N reroute
attempts are made available for the user to display on NMTI.
5. DTL Originated Calls Failed in Re-routing
This statistic measures the number of calls which failed to be
setup after having attempted re-routing at least once by this
node (as a result of receiving a crankback). The called party
numbers and calling party numbers plus their failure causes and
diagnostics of the last N failed calls are made available for
the user to display on NMTI.
6. Successful Calls with Bandwidth Greater than Routing Table
Descriptor Minimum Bandwidth
This statistic measures the number of successfully established
calls for which this node is the DTL originator, and which were
routed using this routing table even though the call's requested
bandwidth was greater than the Routing Table Descriptor's
Minimum Trunk Available Bandwidth. This statistic indicates
that no configured Routing Table Descriptor was configured to
match the traffic descriptor of the call, and
that this routing table was the best one to attempt to route
the call.
7. Failed Calls with Bandwidth Greater than Routing Table
Descriptor Minimum Bandwidth
This statistic measures the number of failed calls for which this
node is the DTL originator, and which were routed using this
routing table even though the call's requested bandwidth is greater
than the Routing Table Descriptor's Minimum Trunk Available Bandwidth.
This statistic indicates that no configured Routing Table Descriptor
was configured to match the traffic descriptor of the call, and that
this routing table was the best one to attempt to route the call.
The called party numbers and calling party numbers plus their failure
causes and diagnostics of the last N failed calls are made available
for the user to display on NMTI.
8. Crankbacks Received as DTL Originator
This statistic measures the number of crankbacks which are received
by this node for calls which are originated from local subscribers
or from a local SPVC source or for calls which are from an NNI from
outside the PNNI domain. It includes the crankbacks which are received
on a re-route attempt. Note that a single call can receive many
crankbacks and hence increment this statistic multiple times. The
called party numbers and calling party numbers plus their failure
causes and diagnostics of the last N cranked back
calls are made available for the user to display on NMTI.
9. DTLs Generated as DTL Originator due to Crankback
This statistic measures the number of DTLs which are generated by
this node in order to re-route a call for which this is the originating
node, as a result of receiving a crankback from a previous attempt to
route the call. This count does not include the DTL which is generated
initially to route a call. This count specifies the number of times
the originating node generated DTLs for alternate paths. The called
party numbers and calling party numbers plus their failure causes and
diagnostics of the last N cranked back
calls are made available for the user to display on NMTI.
iiib) Border Node PNNI Per Routing Table Statistics:
These statistics are only relevant for border nodes, that is nodes
with at least one outside link crossing the peer group boundary.
These statistics are incremented for calls for which this node serves
as an entry border node or/and an exit border node.
1. Failed calls due to initial lower level DTLs not generated
This statistic measures the number of calls from another peer group
for which this node is an entry border node and for which a lower
level DTL could not be initially generated. This can be due to
different reasons, ( e.g., the destination address is not found,
a path to the next peer group specified in the DTL is not found,
insufficient path bandwidth to the called party number, ..).
This count is not incremented in crankback cases. The called party
numbers and calling party numbers plus their failure causes and
diagnostics of the last N calls are made available for the user to
display on NMTI. This statistic is equivalent to non-border node
statistic 1.
2. Calls generating initial lower level DTLs
This statistic measures the number of calls from another peer group
for which this node is an entry border node, and for which lower
level DTLs are generated and pushed by this node onto the received
DTL stack. This statistic is incremented regardless of whether the
call is successful or not. This count does not include the lower
level DTLs that are generated as a result of crankbacks.
This statistic is equivalent to non-border node statistic 2.
3. DTL generated calls successfully established, no reroute
This statistic measures the number of calls for which this node
is an entry border node, which were successfully established
without being cranked back to this node. This statistic is
equivalent to non-border node statistic 3.
4. DTL generated calls successfully established, with reroute
This statistic measures the number of calls for which this node
is an entry border node, which were successfully established after
being rerouted at least once by this node. The called party numbers
and calling party numbers plus their failure causes and diagnostics
of the last N calls are made available for the user to display on NMTI.
This statistic is equivalent to non-border node statistic 4.
5. DTL generated calls failed in rerouting
This statistic measures the number of calls for which this node is
an entry border node, which failed to be established after having
attempted rerouting at least once by this node. In this case, a
crankback is generated and forwarded by this node to the previous
peer group. The called party numbers and calling party numbers plus
their failure causes and diagnostics of the last N calls are made
available for the user to display on NMTI. This statistic is
equivalent to non-border node statistic 5.
6. Successful Calls with Bandwidth Greater than Routing Table Descriptor
Minimum Bandwidth
This statistic measures the number of successfully established
calls for which this node is an entry border node, and which were
routed using this routing table even though the call's requested
bandwidth was greater than the Routing Table Descriptor's Minimum
Trunk Available Bandwidth. This statistic indicates that no Routing
Table Descriptor was configured to match the traffic descriptor of the
call, and that this routing table was the best one to attempt to
route the call. This statistic is equivalent to non-border node
statistic 6.
7. Failed Calls with Bandwidth Greater than Routing Table Descriptor
Minimum Bandwidth
This statistic measures the number of failed calls for which this node
is an entry border node, and which were routed using this routing table
even though the call's requested bandwidth is greater than the Routing
Table Descriptor's Minimum Trunk Available Bandwidth. This statistic
indicates that no Routing Table Descriptor was configured to match
the traffic descriptor of the call, and that this routing table was
the best one to attempt to route the call. The called party numbers and
calling party numbers plus their failure causes and diagnostics of the
last N failed calls are made available for the user to display on NMTI.
This statistic is equivalent to non-border node statistic 7.
8. Crankback received as an entry border node
This statistic measures the number of crankbacks received for calls
for which this node serves as an entry border node. This count is
incremented only for crankbacks for which this entry border node is
allowed to perform rerouting. This count includes the crankbacks
which are received on a re-route attempt. The called party numbers
and calling party numbers plus their failure causes and diagnostics of
the last N calls are made available for the user to display on NMTI.
This statistic is equivalent to non-border node statistic 8.
9. Lower level DTLs generated due to received crankback
This statistic measures the number of lower level DTLs that are
generated and pushed by this entry border node in order to re-route
a call as a result of receiving a crankback from a previous attempt
to route the call. This count does not include the lower level DTLs
that are generated initially to route the call. The called party
numbers and calling party numbers plus their failure causes and
diagnostics of the last N cranked back calls are made available
for the user to display on NMTI. This statistic is equivalent to
non-border node statistic 9.
iv) PNNI Routing Total Statistics:
These statistics are totals for all QoS routing tables used to route
calls.One routing table is generated for each QoS Routing Table
Descriptor. These statistics are divided into two subsets:
a) Non Border Node Statistics
These statistics are relevant for calls for which this node does
not serve as a border node. This node can
serve as originator, transit, or terminator for such calls.
b) Border Node Statistics
These statistics are relevant for calls for which this node is a
border node. The node can serve as an entry
border, or an exit border for such calls.
iv a) Non Border Node PNNI Routing Total Statistics
These statistics include an aggregate for each statistic maintained
per QoS routing table, in addition to some other PNNI statistics.
The statistics 1 to 9 are the total values for all QoS routing tables.
The statistics 10 to 12 are not maintained per routing table because
they do not involve a DTL Originator node where a routing table
lookup is required.
1. Failed Calls due to initial DTL Not Generated
This statistic is the total value, for all routing tables,
of the per routing table statistic 1 described in section
iii a). No diagnostic info is available for this aggregate statistic.
2. Calls Generating an initial DTL
This statistic is the total value, for all routing tables, of the per
routing table statistic 2 described in section iii a).
3. DTL Originated Calls successfully established without Re-routing
This statistic is the total value, for all routing tables, of the
per routing table statistic 3 described in section iii a).
4. DTL Originated Calls successfully Re-routed
This statistic is the total value, for all routing tables, of the
per routing table statistic 4 described in section iii a).
No diagnostic info is available for this aggregate statistic.
5. DTL Originated Calls Failed in Re-routing
This statistic is the total value, for all routing tables, of the
per routing table statistic 5 described in section iii a).
No diagnostic info is available for this aggregate statistic.
6.Successful calls with bandwidth greater than routing table
descriptor minimum bandwidth
This statistic is the total value, for all routing tables, of the per
routing table statistic 6 described in section iii a).
7.Failed calls with bandwidth greater than routing table descriptor
minimum bandwidth
This statistic is the total value, for all routing tables, of
the per routing table statistic 7 described in section iii a).
No diagnostic info is available for this aggregate statistic.
8. Crankbacks Received as DTL Originator
This statistic is the total value, for all routing tables, of the
per routing table statistic 8 described in section iii a).
No diagnostic info is available for this aggregate statistic.
Note that this statistic does not include statistic 12.
9. DTLs Generated as DTL Originator due to Crankbacks
This statistic is the total value, for all routing tables, of the
per routing table statistic 9 described in section iii a).
No diagnostic info is available for this aggregate statistic.
10. Calls Received as Transit Node over Inside Links
This statistic measures the number of calls received over a PNNI
signaling link when this node is not the DTL terminator. This node
serves as a PNNI transit node for such calls. Incrementing this
statistic does not imply that the call was forwarded to the next
node. Calls that fail CAC or that encounter other call
processing failures are counted by this statistic.
11. Crankbacks Received as Transit Node over Inside Links
This statistic measures the number of crankbacks which are received
by this node over inside links, when this node serves as a PNNI
transit node. This statistic does not include statistic 12, since in
this case the 36170 passes on the crankback without making any
alternate routing decisions while in the case of statistic 12, the
36170 may choose a parallel trunk group to route the call on. The
called party numbers and calling party numbers plus their failure
causes and diagnostics of the last N cranked back calls are
made available for a user to display on NMTI screens.
12. Succeeding End Blocked Crankbacks Received over Inside Links
This statistic measures the number of Succeeding End Blocked PNNI
crankbacks received by this node over inside links, when this node
serves as a DTL Originator or a PNNI transit node. This count specifies
the number of times this node chose a trunk group to use to forward
a call and the succeeding node could not admit the call on this trunk group
(e.g., due to CAC failure, no VCIs available, etc.). In this case, if
a parallel trunk group exists to this same succeeding node, the call
may be retried by this node to the succeeding node using this parallel
trunk group. The called party numbers and calling party numbers plus
their failure causes and diagnostics of the last N cranked back calls
are made available for a user to display on NMTI screens.
iv b) Border Node PNNI Routing Total Statistics
These statistics are only relevant for border nodes, that is nodes
with at least one outside link crossing the peer group boundary.
These counts are incremented for calls for which this node serves as
an entry border node or/and an exit border node. These statistics
include an aggregate for each border node statistic
maintained per QoS routing table, in addition to some other border
node statistics that are not maintained
per QoS routing table since no routing table lookup is required.
The statistics 1 to 9 are the total values for all QoS routing tables.
The statistics 10 to 14 are not maintained per QoS routing table.
1. Failed calls due to initial lower level DTLs not generated
This statistic is the total value, for all routing tables, of the
per routing table border node statistic 1
described in section iii b). No diagnostic info is available for this
aggregate statistic.
2. Calls generating initial lower level DTLs
This statistic is the total value, for all routing tables, of the
per routing table border node statistic 2 described in section iii b).
3. DTL generated calls successfully established, no reroute
This statistic is the total value, for all routing tables, of the
per routing table border node statistic 3 described in section iii b).
4. DTL generated calls successfully established, with reroute
This statistic is the total value, for all routing tables, of the
per routing table border node statistic 4 described in section iii b).
No diagnostic info is available for this aggregate statistic.
5. DTL generated calls failed in rerouting
This statistic is the total value, for all routing tables, of the
per routing table border node statistic 5 described in section iii b).
No diagnostic info is available for this aggregate statistic.
6. Successful Calls with Bandwidth Greater than Routing Table
Descriptor Minimum Bandwidth
This statistic is the total value, for all routing tables, of the
per routing table border node statistic 6 described in section iii b).
7. Failed Calls with Bandwidth Greater than Routing Table Descriptor
Minimum Bandwidth
This statistic is the total value, for all routing tables, of the
per routing table border node statistic 7 described in section iii b).
No diagnostic info is available for this aggregate statistic.
8. Crankback received as an entry border node
This statistic is the total value, for all routing tables, of the
per routing table border node statistic 8 described in section iii b).
No diagnostic info is available for this aggregate statistic.
9. Lower level DTLs generated due to received crankback
This statistic is the total value, for all routing tables, of the
per routing table border node statistic 9
described in section iii b). No diagnostic info is available for
this aggregate statistic.
10. Calls received over an outside link
This statistic measures the total number of calls received at this
entry border node from a node in a different peer group over an
outside link. This count is incremented regardless of whether the
call is successful or not.
11. Calls transmitted over an outside link
This statistic measures the total number of calls transmitted by
this exit border node over an outside link
to a node in a different peer group. This count is incremented
regardless of whether the call is successful or not.
12. Crankback received over an outside link
This statistic measures the number of crankbacks that are received
at this exit border node from a node in a different peer group over
an outside link. This statistic does not include statistic 13 below.
The called party numbers and calling party numbers plus their failure
causes and diagnostics of the last N cranked
back calls are made available for the user to display on NMTI.
13. Succeeding End Blocked crankback received over an outside link
This statistic measures the number of succeeding end blocked crankbacks
received at this exit border node from a node in a different peer
group over an outside link. In this case, the exit border node tries to
reroute the call to the same neighbor peer group using a parallel trunk
group if one exists. The called party numbers and calling party numbers
plus their failure causes and diagnostics of the last N cranked back
calls are made available for the user to display on NMTI.
14. Crankback forwarded to previous PG, crankback level too high
This statistic measures the crankbacks that are passed on to the
previous node in a different peer group, when this entry border node
receives crankbacks for calls for which it did not generate any DTLs
of equal or higher level than the crankback level. In this case,
this node is not allowed to re-route the call, and the crankback
is forwarded unchanged to the previous peer group. The called party
numbers and calling party numbers plus their failure causes and
diagnostics of the last N cranked back calls are made available for
the user to display on NMTI.
The call routing stats are intervalized with 15-minutes and 24-hour
intervals. In addition to the intervals, the raw cpunter of the stats are
also provided. The 15-minute intervals include the current interval and
the last 4 intervals.The 24-hour intervals include the current interval and
the last 1 interval.
All tables use one or all of the three indices, namely,
nncExtCallControlGroupNumber, nncExtNBPerTbl15MinIntervalNumber,
nncExtTableDescriptor.
(1) nncExtCallControlGroupNumber contains information about Shelf, Slot No. etc. It uniquely identifies
the slot number associated with call routing stats.
(2) nncExtNBPerTbl15MinIntervalNumber or nncExtNBPerTbl24HourIntervalNumber identifies
at which interval the stats should be retrieved.
(3) nncExtTableDescriptor determines a routing table number whose stats are to be displayed.
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