OcNOS DC : Layer 3 Guide : Intermediate System to Intermediate System Command Reference : IS-IS Show Commands
IS-IS Show Commands
This chapter provides describes the IS-IS show commands:
show clns is-neighbors
Use this command to display IS neighbor adjacencies.
Command Syntax
show clns is-neighbors (detail|)
show clns WORD is-neighbors (detail|)
show clns is-neighbors IFNAME (detail|)
show clns WORD is-neighbors IFNAME (detail|)
Parameters
detail
Detailed information.
WORD
Information for a single IS-IS area.
IFNAME
Information for a single interface.
Command Mode
Exec mode and Privileged Exec mode
Applicability
This command was introduced before OcNOS version 1.3.
Example
#show clns is-neighbors detail
Tag abc: VRF : default
System Id Interface State Type Priority Circuit Id
0000.0000.0003 eth1 Up L1 64 0000.0000.0003.01
L1 Adjacency ID: 1
L2 Adjacency ID: 2
Uptime: 00:12:31
Area Address(es): 52
IP Address(es): 11.11.11.2
Level-1 Protocols Supported: IPv4
Adjacency advertisement: Advertise
#
Table 3-1 explains the fields in the output.
 
Table 3-1: show clns is-neighbors output 
Field
Description
Tag
Name that identifies the IS-IS area.
VRF
VRF name.
System Id
Uniquely identifies a system within an area.
Interface
Interface from which the system was learned.
State
Adjacency state:
Init: Router is an IS and is waiting for an IS-IS hello message. IS-IS regards the neighbor as not adjacent.
Up: IS is considered reachable
Type
Type of adjacency:
L1: Router adjacency for level 1 routing only
L2: Router adjacency for level 2 only
L1L2: Router adjacency for level 1 and level 2 routing
Priority
IS-IS priority that the respective neighbor is advertising. The highest priority neighbor is elected the designated IS-IS router for the interface.
Circuit Id
Number that the router uses to uniquely identify its IS-IS interface. When the interface is attached to a broadcast network, the Circuit ID is concatenated with System ID of the designated router for the interface.
Adjacency ID
Adjacency identifier.
Uptime
How long the adjacency has existed.
Area Addresses
Area addresses associated with the intermediate-system adjacencies.
IPv4/IPv6 address(es)
IP addresses of the ES or IS.
Protocols Supported
IPv4 and/or IPv6.
Adjacency advertisement
Restart: Suppress or Advertise.
show clns neighbors
Use this command to display ES and IS neighbor adjacencies.
Command Syntax
show clns neighbors (detail|)
show clns WORD neighbors (detail|)
show clns neighbors IFNAME (detail|)
show clns WORD neighbors IFNAME (detail|)
Parameters
detail
Detailed information for all interfaces.
WORD
Information for a single IS-IS area.
IFNAME
Information for a single interface.
Command Mode
Exec mode, Privileged Exec mode
Applicability
This command was introduced before OcNOS version 1.3.
Example
#show clns neighbors detail
 
Tag abc: VRF : default
System Id Interface SNPA State Holdtime Type Protocol
0000.0000.0003 eth1 0800.277b.411d Up 6 L1 IS-IS
L1 Adjacency ID: 1
L2 Adjacency ID: 2
Uptime: 00:15:58
Area Address(es): 52
IP Address(es): 11.11.11.2
Level-1 Protocols Supported: IPv4
Adjacency advertisement: Advertise
#
Table 3-2 explains the fields in the output.
 
Table 3-2: show clns neighbors output 
Field
Description
Tag
Name that identifies the IS-IS area.
VRF
VRF name.
System Id
Uniquely identifies a system within an area.
Interface
Interface from which the system was learned.
SNPA
SubNetwork Point of Attachment (SNPA): MAC address of the next-hop.
State
Adjacency state:
Init: Router is an IS and is waiting for an IS-IS hello message. IS-IS regards the neighbor as not adjacent.
Up: ES or IS is considered reachable
Holdtime
Number of seconds before this adjacency entry times out.
Type
Type of adjacency:
L1: Router adjacency for level 1 routing only
L2: Router adjacency for level 2 only
L1L2: Router adjacency for level 1 and level 2 routing
Protocol
Protocol through which the adjacency was learned.
Adjacency ID
Adjacency identifier.
Uptime
How long the adjacency has existed.
Area Addresses
Area addresses associated with the intermediate-system adjacencies.
IPv4/IPv6 address(es)
IP addresses of the ES or IS.
Topology
IPv4 and/or IPv6.
Protocols Supported
IPv4 and/or IPv6.
Adjacency advertisement
Restart: Suppress or Advertise.
 
 
show debugging isis
Use this command to display the status of the debugging of the ISIS system.
Command Syntax
show debugging isis
Parameters
None
Command Mode
Exec mode, Privileged Exec mode
Applicability
This command was introduced before OcNOS version 1.3.
Example
#show debugging isis
IS-IS debugging status:
IS-IS Interface FSM debugging is on
IS-IS Neighbor FSM debugging is on
IS-IS events debugging is on
IS-IS PDU debugging is on
IS-IS lsp debugging is on
IS-IS spf debugging is on
IS-IS NSM debugging is on
IS-IS Check-sum debugging is on
IS-IS Authentication debugging is on
IS-IS Protocol-error debugging is on
IS-IS Local Updates debugging is on
IS-IS Hello debugging is on
IS-IS BFD debugging is on
IS-IS RIB debugging is on
#
show ip isis igp-shortcut-lsp
Use this command to display IS-IS shortcut label-switched paths (LSPs).
Command Syntax
show ip isis (WORD|) igp-shortcut-lsp
Parameters
WORD
Information for a single IS-IS area.
Command Mode
Exec mode, Privileged Exec mode
Applicability
This command was introduced before OcNOS version 1.3.
Example
#show ip isis igp-shortcut-lsp
#
Table 3-3 explains the fields in the output.
 
Table 3-3: show ip isis igp-shortcut-lsp output
Field
Description
Tunnel-endpoint
Tunnel endpoint address.
Tunnel-id
Tunnel identifier.
Tunnel-metric
Tunnel metric.
active/inactive
Whether the tunnel is active or inactive.
show ip isis route
Use this command to display IS-IS routing table for IPv4.
Command Syntax
show ip isis (WORD|) route
Parameters
WORD
Information for a single IS-IS area.
Command Mode
Exec mode, Privileged exec mode
Applicability
This command was introduced before OcNOS version 1.3.
Example
#show ip isis route
Codes: C - connected, E - external, L1 - IS-IS level-1, L2 - IS-IS level-2
ia - IS-IS inter area, D - discard, e - external metric
Tag xyz: VRF : default
Destination Metric Next-Hop Interface Tag
L1 10.10.10.0/24 20 11.11.11.1 eth1 0
C 11.11.11.0/24 10 – eth1 0
#
Header
Each entry in this table has a code preceding it, indicating the source of the routing entry. Table 3-4 shows these codes.
Table 3-4 explains the fields in the output.
 
Table 3-4: route codes and modifiers 
Code
Description
C
Routes directly connected to the local device that were not distributed via IGP. The device inherently knows of these networks, so there is no need to learn about these from another device.
Connected routes are preferred over routes for the same network learned from other routing protocols.
E
External.
L1
IS-IS level-1.
L2
IS-IS level-2.
ia
IS-IS inter area (leaked).
D
Discard route. A device performing summarization installs a discard route in its routing table for the summarized network range to prevent routing loops where portions of the summarized network range do not have a more specific route in the RIB.
External and internal discard route entries are installed by default. During route summarization, routing loops can happen if data sent to a nonexisting network appears to be a part of the summary, and the router doing the summarization has a less specific route that points back to the sending router for the network.
e
External metric. Routes can be redistributed into IS-IS with either internal or external metrics (internal is the default). The metric type determines the base metric value of the redistributed routes. The value of an internal metric is lower than 64. The value of an external metric is 64-128.
Route Entry Fields
Table 3-5 shows the route entry fields.
 
Table 3-5: route entry fields
Field
Description
Code
As explained in Table 3-4.
Tag
Name that identifies the IS-IS area.
VRF
VRF name.
Destination
IP address of the remote network.
Metric
ISIS metric used for SPF calculation (1-63).
When a route is imported into the IS-IS network without a specified metric, IS-IS uses 10 for the metric value and the value is applied to both level-1 and level-2.
Next-Hop
This route is available through the next hop router located at this IP address. This identifies exactly where packets go when they match this route.
Interface
Interface used to get to the next-hop address for this route.
Tag
Name that identifies the IS-IS area.
show ip isis route igp-shortcut
Use this command to display the IS-IS IGP shortcut routing table.
Command Syntax
show ip isis (WORD|) route igp-shortcut
Parameters
WORD
Information for an IS-IS area.
Command Mode
Exec mode, Privileged exec mode
Applicability
This command was introduced before OcNOS version 1.3.
Example
#show ip isis new_isis route igp-shortcut
Codes: C - connected, E - external, L1 - IS-IS level-1, L2 - IS-IS level-2
ia - IS-IS inter area, D - discard, e - external metric
 
Tag aa: VRF : default
Destination Metric Tunnel-ID Tunnel-End-Point
#
Header
Each entry in this table has a code preceding it, indicating the source of the routing entry. Table 3-6 shows these codes.
 
Table 3-6: Route codes and modifiers 
Code
Description
C
Routes directly connected to the local device that were not distributed via IGP. The device inherently knows of these networks, so there is no need to learn about these from another device.
Connected routes are preferred over routes for the same network learned from other routing protocols.
E
External.
L1
IS-IS level-1.
L2
IS-IS level-2.
ia
IS-IS inter area (leaked).
D
Discard route. A device performing summarization installs a discard route in its routing table for the summarized network range to prevent routing loops where portions of the summarized network range do not have a more specific route in the RIB.
External and internal discard route entries are installed by default. During route summarization, routing loops can happen if data sent to a nonexisting network appears to be a part of the summary, and the router doing the summarization has a less specific route that points back to the sending router for the network.
e
External metric. Routes can be redistributed into IS-IS with either internal or external metrics (internal is the default). The metric type determines the base metric value of the redistributed routes. The value of an internal metric is lower than 64. The value of an external metric is 64-128.
Route Entry Fields
Table 3-7 shows the route entry fields.
 
Table 3-7: Route entry fields
Field
Description
Code
As explained in Table 3-4.
Tag
Name that identifies the IS-IS area.
VRF
VRF name.
Destination
IP address.
Metric
Tunnel metric.
Tunnel-ID
Tunnel identifier.
Tunnel-End-Point
Tunnel endpoint address.
show ip protocols
Use this command to display IP process parameters and statistics.
Command Syntax
show ip protocols
show ip protocols isis
Parameters
None
Command Mode
Exec mode, Privileged exec mode
Applicability
This command was introduced before OcNOS version 1.3.
Example
#show ip protocols
Routing Protocol is "isis 1 "
Redistributing:
Area Address(es): 52
Distance : (default is 115)
#
Table 3-8 explains the output fields.
 
Table 3-8: show ip protocols output
Field
Description
Routing Protocol
“isis” and the name that identifies the IS-IS area.
Redistributing
Protocols being redistributed (such as RIP, OSPF, or BGP), including metric, metric type (internal or external), and route map.
redistribute isis
Whether redistributing IS-IS level-1 into level-2 and vice versa.
Area Address
Network address of the areas into which the routing process is injecting routes.
Distance: (default is 115)
Administrative distance.
show ip route fast-reroute
Use this command to display Loop Free Alternate Fast Reroute (LFA FRR) routes.
Command Syntax
show ip route fast-reroute
Parameters
None
Command Mode
Exec mode, Privileged exec mode
Applicability
This command was introduced before OcNOS version 3.0.
Example
#show ip route fast-reroute
Codes: K - kernel, C - connected, S - static, R - RIP, B - BGP
O - OSPF, IA - OSPF inter area
N1 - OSPF NSSA external type 1, N2 - OSPF NSSA external type 2 E1 - OSPF external type 1, E2 - OSPF external type 2
i - IS-IS, L1 - IS-IS level-1, L2 - IS-IS level-2, ia - IS-IS inter area ,p - stale info
* - candidate default
 
IP Route Table for VRF "default"
i L1 40.40.40.0/24 [115/10] via 10.10.10.142, eth1, 00:00:50
[FRR-NH] via 30.30.30.144, eth3
 
i L1 50.50.50.0/24 [115/15] via 20.20.20.143, eth2, 00:00:50
[FRR-NH] via 10.10.10.142, eth1
 
i L1 60.60.60.0/24 [115/15] via 10.10.10.142, eth1, 00:00:50
[FRR-NH] via 20.20.20.143, eth2
show ip isis route fast-reroute
Use this command to display Loop Free Alternate Fast Reroute (LFA FRR) route information and interfaces on which LFA FRR is disabled.
Command Syntax
show ip isis (WORD|) route fast-reroute
Parameters
WORD
Routing area tag.
Command Mode
Exec mode, Privileged exec mode
Applicability
This command was introduced before OcNOS version 3.0.
Example
#show ip route fast-reroute
Codes: K - kernel, C - connected, S - static, R - RIP, B - BGP
O - OSPF, IA - OSPF inter area
N1 - OSPF NSSA external type 1, N2 - OSPF NSSA external type 2 E1 - OSPF external type 1, E2 - OSPF external type 2
i - IS-IS, L1 - IS-IS level-1, L2 - IS-IS level-2, ia - IS-IS inter area ,p - stale info
* - candidate default
 
IP Route Table for VRF "default"
i L1 40.40.40.0/24 [115/10] via 10.10.10.142, eth1, 00:00:50
[FRR-NH] via 30.30.30.144, eth3
 
i L1 50.50.50.0/24 [115/15] via 20.20.20.143, eth2, 00:00:50
[FRR-NH] via 10.10.10.142, eth1
 
i L1 60.60.60.0/24 [115/15] via 10.10.10.142, eth1, 00:00:50
[FRR-NH] via 20.20.20.143, eth2
show ip isis lfa-config
Use this command to display the Loop Free Alternate Fast Reroute (LFA FRR) tie-break preferences for protection types and the termination hold-on timer.
Command Syntax
show ip isis (WORD|) lfa-config (level-1|level-2)
Parameters
WORD
Routing area tag.
level-1
Level 1 only.
level-2 Level 2 only
 
Command Mode
Exec mode, Privileged exec mode
Applicability
This command was introduced before OcNOS version 3.0.
Example
#show ip isis lfa-config level-1
 
TIE-Breaker Preference values
-------------------------------------------------
Primary Path: 20
Link Protecting: 30
Node Protecting: 60
Broadcast Interface Disjoint: 70
Secondary Path: 0
Downstream Path: 0
 
Termination Hold On Interval : 1000 ms
show isis counter
Use this command to display the MIB variables used to construct routing tables for IP networks for IS-IS as defined in RFC 4444.
Command Syntax
show isis counter
Parameters
None
Command Mode
Exec mode, Privileged exec mode
Applicability
This command was introduced before OcNOS version 1.3.
Example
#show isis counter
Tag abc: VRF : default
IS-IS Level-1 isisSystemCounterEntry:
isisSysStatCorrLSPs: 0
isisSysStatAuthTypeFails: 0
isisSysStatAuthFails: 0
isisSysStatLSPDbaseOloads: 0
isisSysStatManAddrDropFromAreas: 0
isisSysStatAttmptToExMaxSeqNums: 0
isisSysStatSeqNumSkips: 0
isisSysStatOwnLSPPurges: 0
isisSysStatIDFieldLenMismatches: 0
isisSysStatMaxAreaAddrMismatches: 0
isisSysStatPartChanges: 0
isisSysStatSPFRuns: 7
isisSysStatPRCRuns: 0
 
IS-IS Level-2 isisSystemCounterEntry:
isisSysStatCorrLSPs: 0
isisSysStatAuthTypeFails: 0
isisSysStatAuthFails: 0
isisSysStatLSPDbaseOloads: 0
isisSysStatManAddrDropFromAreas: 0
isisSysStatAttmptToExMaxSeqNums: 0
isisSysStatSeqNumSkips: 0
isisSysStatOwnLSPPurges: 0
isisSysStatIDFieldLenMismatches: 0
isisSysStatMaxAreaAddrMismatches: 0
isisSysStatPartChanges: 0
isisSysStatSPFRuns: 3
isisSysStatPRCRuns: 0
#
show isis database
Use this command to display link-state database (LSDB) database information. The LSDB is the core of IS-IS routing. All link-state information advertised by neighbors in the same area is stored in the LSDB.
Command Syntax
show isis database
show isis database (detail|verbose)
show isis database (detail|verbose) WORD
show isis database (detail|verbose) WORD (l1|l2|level-1|level-2)
show isis database (detail|verbose) (l1|l2|level-1|level-2)
show isis database (detail|verbose) (l1|l2|level-1|level-2) WORD
show isis database WORD
show isis database WORD (l1|l2|level-1|level-2)
show isis database WORD (l1|l2|level-1|level-2) (detail|verbose)
show isis database WORD (detail|verbose)
show isis database WORD (detail|verbose) (l1|l2|level-1|level-2)
show isis database (l1|l2|level-1|level-2)
show isis database (l1|l2|level-1|level-2) (detail|verbose)
show isis database (l1|l2|level-1|level-2) (detail|verbose) WORD
show isis database (l1|l2|level-1|level-2) WORD
show isis database (l1|l2|level-1|level-2) WORD (detail|verbose)
Parameters
detail
Detailed information.
verbose
Verbose information.
WORD
Link-state packet (LSP) identifier in the form of XXXX.XXXX.XXXX.XX-XX.
l1
IS-IS level-1.
l2
IS-IS level-2.
level-1
IS-IS level-1.
level-2
IS-IS level-2.
Command Mode
Exec mode, Privileged exec mode
Applicability
This command was introduced before OcNOS version 1.3.
Example
#show isis database detail
Area bb:
IS-IS Level-1 Link State Database:
LSPID LSP Seq Num LSP Checksum LSP Holdtime ATT/P/OL
000F.0000.0001.00-00* 0x00000007 0xE15E 1188 1/0/0
Area Address: 49.000F
NLPID: 0xCC
IP Address: 10.10.12.97
Metric: 10 IP 10.10.12.0 255.255.255.0
Metric: 10 IS 000F.0000.0001.02
000F.0000.0001.02-00* 0x00000003 0x3C66 1026 1/0/0
Metric: 0 IS 000F.0000.0001.00
Metric: 0 IS 000F.0000.0002.00
000F.0000.0002.00-00 0x00000003 0x8C4B 1025 1/0/0
Area Address: 49.000F
NLPID: 0xCC
Hostname: isisd@redhat
IP Address: 10.10.12.94
Metric: 10 IP 10.10.12.0 255.255.255.0
Metric: 10 IS 000F.0000.0001.02
#
Table 3-9 explains the output fields.
 
Table 3-9: show isis database output
Field
Description
Tag
Name that identifies the IS-IS area.
VRF
VRF name.
IS-IS Level-n Link State Database
Each IS-IS level has a section with Link-State Packet (LSP) information.
LSPID
Link-state packet identifier in the form of XXXX.XXXX.XXXX.XX-XX.
The first six octets (“XXXX.XXXX.XXXX”) are the system identifier of the router that originated the LSP.
The next octet is the pseudonode identifier:
When this octet is nonzero, the LSP describes links from a designated router (pseudonode) that creates and floods an LSP that describes all systems attached to the network. This mechanism is similar to a router link-state advertisement (LSA) in OSPF.
When this octet is zero, the LSP is from a nonpseudonode which describes the state of the originating router.
The last octet is the LSP number. If the value is 0x00, the entire LSP was carried in one LSP. If there is more data than can fit in a single LSP, the LSP is divided into multiple LSP fragments and each fragment has a different LSP number.
An asterisk (*) means the LSP originated on the system where the command was given.
LSP Seq Num
LSP sequence number.
LSP Checksum
LSP checksum.
LSP Holdtime
Amount of time the LSP remains valid (in seconds). An LSP hold time of zero means the LSP was purged and is being removed from the link-state database (LSDB) of all routers. The value indicates how long the purged LSP will stay in the LSDB before being completely removed.
ATT
Attached bit. A Level-2 IS indicates its attachment to other areas by setting its attached bit in its Level-1 LSP 0. In other words, this is only set for inter-area routes.
Level 1-only routers and Level 1-2 routers that have lost connection to other Level 2 routers will use the attach bit to find the closest Level-2 router. They will point a default route to the closest Level-2 router.
P
Partition repair. A Level-1 area can become partitioned; this bit means the partition can be repaired via use of Level-2 routes.
OL
Overload bit. Determines whether the IS is congested. When the overload-bit is set in an LSP, other routers will not use this router as a transit router during SPF calculation. Only packets for destinations directly connected to the overloaded router will be sent to this router.
This command also displays information about the IS-IS TLVs in Table 3-10 if present in an LSP. For more about the TLV information, search for “IS-IS TLV Codepoints” on the Interne, check ISO/IEC 10589:2002(E), or other standard mentioned in Table 3-10.
 
Table 3-10: IS-IS TLV Codepoints
IS-IS TLV Codepoint
Description
Standard
1
Area Addresses
ISO 10589
2
IIS Neighbors
ISO 10589
3
ES Neighbors
ISO 10589
10
Authentication
ISO 10589, RFC 6233
22
Extended IS reachability
RFC 5305
128
IP internal reachability
RFC 1195, RFC 5302
129
Protocols supported
RFC 1195
130
IP external reachability
RFC 1195, RFC 5302
132
IP interface address
RFC 1195
134
Traffic engineering router ID
RFC 5305
135
Extended IP reachability
RFC 5305
137
Host name
RFC 5301, RFC 6233
222
Multi IS reachability
RFC 5120
229
Multi topology
RFC 5120
232
IPv6 interface address
RFC 5308
235
Multi IPv4 reachability
RFC 5120
236
IPv6 reachability
RFC 5308
237
Multi IPv6 reachability
RFC 5120
show isis interface
Use this command to display detailed interface information.
Command Syntax
show isis interface
show isis interface IFNAME
show isis interface counter
Parameters
IFNAME
Interface name.
counter
Interface counters.
Command Mode
Exec mode, Privileged exec mode
Applicability
This command was introduced before OcNOS version 1.3.
Example
>show isis interface
eth2 is up, line protocol is up
Routing Protocol: IS-IS (abc)
Network Type: Broadcast
Circuit Type: level-2
Local circuit ID: 0x01
Extended Local circuit ID: 0x00000004
Local SNPA: 0800.2731.a9a0
IP interface address:
10.10.10.1/24
IPv6 interface address:
fe80::a00:27ff:fe31:a9a0/64
Level-2 Metric: 10/10, Priority: 64, Circuit ID: 0000.0000.0001.01
Number of active level-2 adjacencies: 0
Level-2 LSP MTU: 1492
Next IS-IS LAN Level-2 Hello in 9 seconds
eth1 is up, line protocol is up
Routing Protocol: IS-IS (abc)
Network Type: Broadcast
Circuit Type: level-1
Local circuit ID: 0x02
Extended Local circuit ID: 0x00000003
Local SNPA: 0800.2714.e7f8
IP interface address:
11.11.11.1/24
IPv6 interface address:
fe80::a00:27ff:fe14:e7f8/64
Level-1 Metric: 10/10, Priority: 64, Circuit ID: 0000.0000.0003.01
Number of active level-1 adjacencies: 1
Level-1 LSP MTU: 1492
Next IS-IS LAN Level-1 Hello in 5 seconds
 
>show isis interface eth1
eth1 is up, line protocol is up
Routing Protocol: IS-IS ((null))
Network Type: Broadcast
Circuit Type: level-1
Local circuit ID: 0x02
Extended Local circuit ID: 0x00000003
Local SNPA: 0800.27e3.0e64
IP interface address:
30.0.0.1/24
IPv6 interface address:
fe80::a00:27ff:fee3:e64/64
Holddown timer = 100 seconds, Remaining time = 90 seconds
Level-1 Metric: 63/16777214, Priority: 64, Circuit ID: 0000.0000.0001.02
Number of active level-1 adjacencies: 1
Level-1 LSP MTU: 1492
Next IS-IS LAN Level-1 Hello in 1 seconds
Table 3-11 explains the output fields.
 
Table 3-11: show isis interface 
Field
Description
IFNAME is up, line protocol is up/down
Whether the interface is up or down
Routing Protocol
“IS-IS” and the name that identifies the IS-IS instance.
Network Type
Broadcast
Point-to-Point
Loopback
Circuit Type
Whether the interface is configured for:
Local routing: level-1
Area routing: level 2
Local and area routing: level-1-2
Local circuit ID
Local circuit identifier assigned when interface is created. Each IS-IS interface is assigned a circuit identifier to identify the interface within the link-state database.
If the interface is attached to a multiaccess network, the circuit ID is concatenated with the system ID of the designated IS. This is called the pseudonode ID.
Extended Local circuit ID
Interface index.
Local SNPA
SubNetwork Point of Attachment: for broadcast networks, MAC address.
IP interface address
IPv4 addresses assigned to IS-IS interface.
IPv6 interface address
IPv6 addresses assigned to IS-IS interface.
Level-1 Metric
Interface metric value; used for SPF calculation.
Priority
Priority for designated IS election.
Circuit ID
Unique ID assigned to a circuit internally.
Number of active level-1 adjacencies
Number of adjacencies formed with a neighboring router.
Level-1 LSP MTU
Maximum transmission unit: maximum transmission size for a packet on this interface.
Level-2 Metric
Interface metric value; used for SPF calculation.
Priority
Priority for designated IS election.
Circuit ID
Unique ID assigned to a circuit internally.
Number of active level-2 adjacencies
Number of adjacencies formed with a neighboring router.
Level-2 LSP MTU
Maximum transmission unit: maximum transmission size for a packet on this interface.
Next IS-IS LAN Level-1 Hello
For broadcast networks, when the next IS hello will be sent on this interface.
Next IS-IS LAN Level-2 Hello
For broadcast networks, when the next IS hello will be sent on this interface.
Next IS-IS Hello in
For point-to-point networks, when the next IS hello will be sent on this interface.
Bandwidth
Traffic engineering: interface bandwidth.
Maximum reservable bandwidth
Traffic engineering: maximum reservable interface bandwidth.
Available bandwidth at priority
Traffic engineering: available interface bandwidth at priority.
Bidirectional Forwarding Detection is disabled/enabled/configured
BFD state
show isis spf-logs
Use this command to display the Shortest Path First (SPF) related information. It also display Partial Route Calculation (PRC) related information only when prc-interval-exp is enabled.
Command Syntax
show isis (WORD|) spf-logs (level-1|level-2|level-1-2)
Parameters
WORD
Routing area tag.
level-1
Level 1 only.
level-2
Level 2 only.
level-1-2
Level 1-2
Command Mode
Exec mode, Privileged exec mode
Applicability
This command was introduced before OcNOS version 3.0.
Example
OcNOS#show isis spf-logs level-1
Tag 1: VRF : default
Level-1 spf logs:
Next SPF is not scheduled yet
SPF schedule delay min 0 secs 500 msecs
SPF schedule delay max 50 secs 0 msecs
SPF algorithm executed 5 times
SPF algorithm last executed 00:05:06.106 ago
 
PRC logs:
Next PRC is not scheduled yet
PRC schedule delay min 16 secs 0 msecs
PRC schedule delay max 65 secs 0 msecs
PRC algorithm executed 2 times
PRC algorithm last executed 00:03:58.256 ago
show isis topology
Use this command to display paths to Intermediate Systems.
Command Syntax
show isis topology (l1|l2|level-1|level-2|)
show isis WORD topology (l1|l2|level-1|level-2|)
Parameters
WORD
Display information for specified instance.
l1
Display the path to all level-1 routers in the area.
l2
Display the path to all level-2 routers in the domain.
level-1
Display the path to all level-1 routers in the area.
level-2
Display the path to all level-2 routers in the domain.
Command Mode
Exec mode, Privileged Exec mode
Applicability
This command was introduced before OcNOS version 1.3.
Example
#show isis topology
 
Tag abc: VRF : default
IS-IS paths to level-1 routers
System Id Metric Next-Hop Interface SNPA
000F.0000.0001 --
000F.0000.0002 10 000F.0000.0002 eth2 0006.5B0E.D27D
 
IS-IS paths to level-2 routers
System Id Metric Next-Hop Interface SNPA
0000.0000.0001 10 0000.0000.0001 eth2 0000.0CFA.F002
Table 3-12 explains the output fields.
 
Table 3-12: show isis topology output
Field
Description
Tag
Name that identifies the IS-IS area.
VRF
VRF name.
IS-IS paths to level-n routers
Each IS-IS level has a section with topology information.
System Id
Uniquely identifies a system within an area.
Metric
ISIS metric used for SPF calculation (1-63).
Next-Hop
This route is available through the next hop router located at this IP address.
Interface
Interface from which the system was learned.
SNPA
SubNetwork Point of Attachment (SNPA): MAC address of the device.
 
show running-config interface isis
Use this command to display the ISIS interface configuration.
Command Syntax
show running-config interface IFNAME isis
Parameters
IFNAME
Interface name.
Command Mode
Exec mode
Applicability
This command was introduced before OcNOS version 1.3.
Example
#show running-config interface eth0 isis
!
interface eth0
isis tag 500 level-1
!
show running-config router isis
Use this command to display the ISIS router configuration.
Command Syntax
show running-config router isis
Parameters
None
Command Mode
Exec mode
Applicability
This command was introduced before OcNOS version 1.3.
Example
(config-router)#show running-config router isis
!
router isis 1
passive-interface eth1
!