ISIS
ISIS is a routing protocol which is described in ISO10589, RFC 1195, RFC 5308. ISIS is an IGP. Compared with RIP, ISIS can provide scalable network support and faster convergence times like OSPF. ISIS is widely used in large networks such as ISP and carrier backbone networks.
Configuring isisd
There are no isisd specific options. Common options can be specified (Common Invocation Options) to isisd. isisd needs to acquire interface information from zebra in order to function. Therefore zebra must be running before invoking isisd. Also, if zebra is restarted then isisd must be too.
Configuration for the daemon should be saved in the FRR integrated configuration file located in /etc/frr/frr.conf, see Integrated Config File for more information on system configuration.
Prior versions of FRR supported reading and writing per-daemon config files;
however, with the introduction of the centralized management daemon mgmtd
this could no longer be supported.
In order to allow for an orderly transition from per-daemon config files to the
integrated config file, FRR daemons will continue to try and read their
specific per-daemon configuration file as before. Additionally the config can
still be loaded directly using the -f
or --config-file
CLI options;
however, these files will not be updated when the configuration is written
(e.g., with the write mem
command).
Warning
Per-daemon files will no longer be updated when the user issues a write
memory
command. Therefore these per-daemon config files should only be used
as a mechanism for transitioning to the integrated config, and then removed.
ISIS router
To start the ISIS process you have to specify the ISIS router. As of this writing, isisd does not support multiple ISIS processes.
- router isis WORD [vrf NAME]
Enable or disable the ISIS process by specifying the ISIS domain with ‘WORD’. isisd does not yet support multiple ISIS processes but you must specify the name of ISIS process. The ISIS process name ‘WORD’ is then used for interface (see command
ip router isis WORD
).
- net XX.XXXX. ... .XXX.XX
Set/Unset network entity title (NET) provided in ISO format.
- hostname dynamic
Enable support for dynamic hostname.
- area-password [clear | md5] <password>
- domain-password [clear | md5] <password>
Configure the authentication password for an area, respectively a domain, as clear text or md5 one.
- attached-bit [receive ignore | send]
Set attached bit for inter-area traffic:
receive If LSP received with attached bit set, create default route to neighbor
send If L1|L2 router, set attached bit in LSP sent to L1 router
- log-adjacency-changes
Log changes in adjacency state.
- log-pdu-drops
Log any dropped PDUs.
- metric-style [narrow | transition | wide]
Set old-style (ISO 10589) or new-style packet formats:
narrow Use old style of TLVs with narrow metric
transition Send and accept both styles of TLVs during transition
wide Use new style of TLVs to carry wider metric. FRR uses this as a default value
- advertise-high-metrics
Advertise high metric value on all interfaces to gracefully shift traffic off the router. Reference: RFC 3277
For narrow metrics, the high metric value is 63; for wide metrics, 16777215; for transition metrics, 62.
- set-overload-bit
Set overload bit to avoid any transit traffic.
- set-overload-bit on-startup (0-86400)
Set overload bit on startup for the specified duration, in seconds. Reference: RFC 3277
- lsp-mtu (128-4352)
Configure the maximum size of generated LSPs, in bytes.
- advertise-passive-only
Advertise prefixes of passive interfaces only.
ISIS Timer
- lsp-gen-interval [level-1 | level-2] (1-120)
Set minimum interval in seconds between regenerating same LSP, globally, for an area (level-1) or a domain (level-2).
- lsp-refresh-interval [level-1 | level-2] (1-65235)
Set LSP refresh interval in seconds, globally, for an area (level-1) or a domain (level-2).
- max-lsp-lifetime [level-1 | level-2] (350-65535)
Set LSP maximum LSP lifetime in seconds, globally, for an area (level-1) or a domain (level-2).
- spf-interval [level-1 | level-2] (1-120)
Set minimum interval between consecutive SPF calculations in seconds.
ISIS Fast-Reroute
Unless stated otherwise, commands in this section apply to all LFA flavors (local LFA, Remote LFA and TI-LFA).
- spf prefix-priority [critical | high | medium] WORD
Assign a priority to the prefixes that match the specified access-list.
By default loopback prefixes have medium priority and non-loopback prefixes have low priority.
- fast-reroute priority-limit [critical | high | medium] [level-1 | level-2]
Limit LFA backup computation up to the specified prefix priority.
- fast-reroute lfa tiebreaker [downstream | lowest-backup-metric | node-protecting] index (1-255) [level-1 | level-2]
Configure a tie-breaker for multiple local LFA backups. Lower indexes are processed first.
- fast-reroute load-sharing disable [level-1 | level-2]
Disable load sharing across multiple LFA backups.
- fast-reroute remote-lfa prefix-list [WORD] [level-1 | level-2]
Configure a prefix-list to select eligible PQ nodes for remote LFA backups (valid for all protected interfaces).
- redistribute <ipv4 | ipv6> table (1-65535) <level-1 | level-2> [metric (0-16777215)|route-map WORD]
Redistribute routes from a given routing table into the given ISIS level database.
ISIS region
- is-type [level-1 | level-1-2 | level-2-only]
Define the ISIS router behavior:
level-1 Act as a station router only
level-1-2 Act as both a station router and an area router
level-2-only Act as an area router only
ISIS interface
- <ip|ipv6> router isis WORD
Activate ISIS adjacency on this interface. Note that the name of ISIS instance must be the same as the one used to configure the ISIS process (see command
router isis WORD
). To enable IPv4, issueip router isis WORD
; to enable IPv6, issueipv6 router isis WORD
.
- isis circuit-type [level-1 | level-1-2 | level-2]
Configure circuit type for interface:
level-1 Level-1 only adjacencies are formed
level-1-2 Level-1-2 adjacencies are formed
level-2-only Level-2 only adjacencies are formed
- isis csnp-interval (1-600) [level-1 | level-2]
Set CSNP interval in seconds globally, for an area (level-1) or a domain (level-2).
- isis hello padding
Add padding to IS-IS hello packets.
- isis hello padding during-adjacency-formation
Add padding to IS-IS hello packets during adjacency formation only.
- isis hello-interval [level-1 | level-2] (1-600)
Set Hello interval in seconds globally, for an area (level-1) or a domain (level-2).
- isis hello-multiplier [level-1 | level-2] (2-100)
Set multiplier for Hello holding time globally, for an area (level-1) or a domain (level-2).
- isis metric [level-1 | level-2] [(0-255) | (0-16777215)]
Set default metric value globally, for an area (level-1) or a domain (level-2). Max value depend if metric support narrow or wide value (see command
metric-style [narrow | transition | wide]
).
- isis network point-to-point
Set network type to ‘Point-to-Point’ (broadcast by default).
- isis passive
Configure the passive mode for this interface.
- isis password [clear | md5] <password>
Configure the authentication password (clear or encoded text) for the interface.
- isis priority (0-127) [level-1 | level-2]
Set priority for Designated Router election, globally, for the area (level-1) or the domain (level-2).
- isis psnp-interval (1-120) [level-1 | level-2]
Set PSNP interval in seconds globally, for an area (level-1) or a domain (level-2).
- isis three-way-handshake
Enable or disable RFC 5303 Three-Way Handshake for P2P adjacencies. Three-Way Handshake is enabled by default.
- isis fast-reroute lfa [level-1 | level-2]
Enable per-prefix local LFA fast reroute link protection.
- isis fast-reroute lfa [level-1 | level-2] exclude interface IFNAME
Exclude an interface from the local LFA backup nexthop computation.
- isis fast-reroute remote-lfa tunnel mpls-ldp [level-1 | level-2]
Enable per-prefix Remote LFA fast reroute link protection. Note that other routers in the network need to be configured to accept LDP targeted hello messages in order for RLFA to work.
- isis fast-reroute remote-lfa maximum-metric (1-16777215) [level-1 | level-2]
Limit Remote LFA PQ node selection within the specified metric.
- isis fast-reroute ti-lfa [level-1|level-2] [node-protection [link-fallback]]
Enable per-prefix TI-LFA fast reroute link or node protection. When node protection is used, option link-fallback enables the computation and use of link-protecting LFAs for destinations unprotected by node protection.
Showing ISIS information
- show isis [vrf <NAME|all>] summary [json]
Show summary information about ISIS.
- show isis [vrf <NAME|all>] hostname
Show information about ISIS node.
- show isis [vrf <NAME|all>] interface [detail] [IFNAME] [json]
Show state and configuration of ISIS specified interface, or all interfaces if no interface is given with or without details.
- show isis [vrf <NAME|all>] neighbor [detail] [SYSTEMID] [json]
Show state and information of ISIS specified neighbor, or all neighbors if no system id is given with or without details.
- show isis [vrf <NAME|all>] database [detail] [LSPID] [json]
Show the ISIS database globally, for a specific LSP id without or with details.
- show isis [vrf <NAME|all>] topology [level-1|level-2] [algorithm [(128-255)]]
Show topology IS-IS paths to Intermediate Systems, globally, in area (level-1) or domain (level-2).
- show isis [vrf <NAME|all>] route [level-1|level-2] [prefix-sid] [backup] [algorithm [(128-255)]]
Show the ISIS routing table, as determined by the most recent SPF calculation.
- show isis [vrf <NAME|all>] fast-reroute summary [level-1|level-2]
Show information about the number of prefixes having LFA protection, and network-wide LFA coverage.
Traffic Engineering
Note
IS-IS-TE supports RFC 5305 (base TE), RFC 6119 (IPv6) and RFC 7810 / 8570 (Extended Metric) with or without Multi-Topology. All Traffic Engineering information are stored in a database formally named TED. However, best acccuracy is provided without Multi-Topology due to inconsistency of Traffic Engineering Advertisement of 3rd party commercial routers when MT is enabled. At this time, FRR offers partial support for some of the routing protocol extensions that can be used with MPLS-TE. FRR does not currently support a complete RSVP-TE solution.
- mpls-te on
Enable Traffic Engineering LSP flooding.
- mpls-te router-address <A.B.C.D>
Configure stable IP address for MPLS-TE.
- mpls-te router-address ipv6 <X:X::X:X>
Configure stable IPv6 address for MPLS-TE.
- mpls-te export
Export Traffic Engineering DataBase to other daemons through the ZAPI Opaque Link State messages.
- show isis mpls-te interface
- show isis mpls-te interface INTERFACE
Show MPLS Traffic Engineering parameters for all or specified interface.
- show isis mpls-te router
Show Traffic Engineering router parameters.
- show isis [vrf <NAME|all>] mpls-te database [detail|json]
- show isis [vrf <NAME|all>] mpls-te database vertex [WORD] [detail|json]
- show isis [vrf <NAME|all>] mpls-te database edge [A.B.C.D|X:X::X:X] [detail|json]
- show isis [vrf <NAME|all>] mpls-te database subnet [A.B.C.D/M|X:X::X:X/M] [detail|json]
Show Traffic Engineering Database
See also
Segment Routing
This is an EXPERIMENTAL support of Segment Routing as per RFC8667 for MPLS dataplane. It supports IPv4, IPv6 and ECMP and has been tested against Cisco & Juniper routers.
- Known limitations:
No support for level redistribution (L1 to L2 or L2 to L1)
No support for binding SID
No support for SRMS
No support for SRLB
Only one SRGB and default SPF Algorithm is supported
- segment-routing on
Enable Segment Routing.
- segment-routing global-block (16-1048575) (16-1048575) [local-block (16-1048575) (16-1048575)]
Set the Segment Routing Global Block i.e. the label range used by MPLS to store label in the MPLS FIB for Prefix SID. Note that the block size may not exceed 65535. Optionally sets also the Segment Routing Local Block. The negative command always unsets both.
- segment-routing node-msd (1-16)
Set the Maximum Stack Depth supported by the router. The value depend of the MPLS dataplane. E.g. for Linux kernel, since version 4.13 the maximum value is 32.
- segment-routing prefix <A.B.C.D/M|X:X::X:X/M> [algorithm (128-255)] <absolute (16-1048575)|index (0-65535) [no-php-flag|explicit-null] [n-flag-clear]
prefix. The ‘no-php-flag’ means NO Penultimate Hop Popping that allows SR node to request to its neighbor to not pop the label. The ‘explicit-null’ flag allows SR node to request to its neighbor to send IP packet with the EXPLICIT-NULL label. The ‘n-flag-clear’ option can be used to explicitly clear the Node flag that is set by default for Prefix-SIDs associated to loopback addresses. This option is necessary to configure Anycast-SIDs.
- show isis segment-routing node [algorithm [(128-255)]]
Show detailed information about all learned Segment Routing Nodes.
Flex-Algos (Flex-Algo)
isisd supports some features of RFC 9350 on an MPLS Segment-Routing dataplane. The compatibility has been tested against Cisco.
IS-IS uses by default the Shortest-Path-First algorithm that basically calculates paths based on the shortest total metric to the destinations. Flex-Algo allows new algorithms to run in parallel to compute paths in different manners, based on metrics (IGP metric or a new type of metrics such as Traffic Engineering (TE) metric and minimum delay…) and constraints. New metric types are not yet implemented but constraints are already operational. Constraints can restrict paths to links with specific affinities or avoid links with specific affinities. Combinations of these are also possible.
The administrator can configure up to 128 Flex-Algos in an IS-IS area. To do so, it defines a set of Flex-Algo Definitions (FAD) which have the following characteristics:
a numeric identifier (ID) between 128 and 255 inclusive
- a set of constraints (basically, include or exclude a certain given set of
links, designated by a admin-group)
the calculation type (only the Shortest-Path-First is currently supported)
the metric type (only the IGP inherited metric type is currently supported)
some additional flags (not supported for the moment).
A subset of routers advertises the Flex-Algo Definitions (FAD) to the other routers within an area. In order to use a common set of FADs, each router runs a FAD election process for each locally configured algorithm, using the following rules:
- If a locally configured FAD is not advertised to the area, the router does not
participate in the particular flex algorithm.
- If a given flex algorithm is running, the participation in this particular
flex algorithm stops when its advertisements are over.
- A router includes its own FAD in the election process if and only if it is
advertised to the other routers.
If only one router advertises the FAD, the FAD is elected.
- If several FADs are advertised with different priorities, the one with the
highest priority value is selected.
- If there are multiple advertisements of the FAD with the same highest
priority, the FAD of the router with the highest IS-IS system-ID is selected.
Routers only use the specifications of the elected FAD regardless of the locally configured definitions. If a router does not support one of the FAD characteristics, it stops participating in the Flex-Algo.
For each running Flex-Algo, the Segment-Routing SIDs must be configured with values unique to the algorithm. It allows routers to identify which flex algorithm they must use for a given packet.
The following commands configure Flex-Algo at the ‘router isis’ configuration level. Segment-Routing prefixes must be configured for the Flex-Algo.
- flex-algo (128-255)
Add a Flex-Algo Definition (FAD) and enter the FAD configuration level. The algorithm ID value is in the range of 128 to 255 inclusive.
- affinity-map NAME bit-position (0-255)
Add the specified ‘affinity-map’. Affinity-map definitions are used in FADs and in interfaces admin-group definition.
Affinity-maps format in advertisement TLVs use the extended admin-group format defined in the RFC7308 section 2.2. The extended admin-group uses a 256 bits field. If an affinity-map is set, the bit at the extended admin-group ‘bit-position’ is set 1, else it is set to 0.
The following commands configure Flex-Algo at the ‘router isis’ and ‘flex-algo (128-255)’ configuration level.
- advertise-definition
Advertise the current FAD to other IS-IS routers by using specific IS-IS TLVs. By default, the definition is is not shared with other routers.
A router can advertise a FAD without participating in the Flex-Algo.
- priority (0-255)
Set the specified ‘priority’ in the current FAD advertisements .
- metric-type [igp|te|delay]
Set the ‘metric-type’ for the current FAD. ‘igp’ is the default value and refers to the classic ‘Shortest-Path-First’ algorithm. If the ‘te’ or the ‘delay’ metric is selected, the value is advertised but the flex algorithm is disabled locally because these types are not currently supported.
- no metric-type
Reset the ‘metric-type’ to the default ‘igp’ metric.
- affinity exclude-any NAME
Add the specified affinity to the list of exclude-any affinities. The Flex-Algo will compute paths that exclude the segments with any of the specified affinities.
- no affinity exclude-any NAME
Remove the specified affinity to the list of exclude-any affinities.
- affinity include-all NAME
Add the specified affinity to the list of include-all affinities. The Flex-Algo will compute paths that include the segments with all the specified affinities.
- no affinity include-all NAME
Remove the specified affinity to the list of include-all affinities.
- affinity include-any NAME
Add the specified affinity to the list of include-any affinities. The Flex-Algo will compute paths that include the segments with any of the specified affinities.
- no affinity include-any NAME
Remove the specified affinity to the list of include-any affinities.
The following commands configure Flex-Algo at the ‘interface’ configuration level.
- isis affinity flex-algo NAME
Add the specified affinity to the interface.
- no isis affinity flex-algo NAME
Remove the specified affinity from the interface.
The following command show Flex-Algo information:
- show isis flex-algo [(128-255)]
Show information about the elected FADs
‘show isis route’, ‘show isis topology’ and ‘show isis segment-routing node’ includes an ‘algorithm (128-255)’ optional argument. See Showing ISIS information and Segment Routing.
Segment Routing over IPv6 (SRv6)
This feature enables extensions in IS-IS to support Segment Routing over IPv6 data plane (SRv6) as per RFC 9352.
- segment-routing srv6
Enable Segment Routing over IPv6 data plane (SRv6).
- locator NAME
Specify the SRv6 locator to use for SRv6. The locator must be configured in Zebra. Once the locator is configured, IS-IS automatically allocates prefix SID and adjacency SIDs, creates local SID entries in the data plane, and advertises them in the IGP domain.
- interface NAME
Specify the dummy interface used to install SRv6 SIDs in the Linux data plane. The interface must be created manually. By default, the interface is ‘sr0’. The interface can be created using the iproute2 utility:
ip link add sr0 type dummy ip link set sr0 up
- show isis segment-routing srv6 node
Show detailed information about all learned SRv6 Nodes.
Debugging ISIS
- debug isis adj-packets
IS-IS Adjacency related packets.
- debug isis events
IS-IS Events.
- debug isis packet-dump
IS-IS packet dump.
- debug isis route-events
IS-IS Route related events.
- debug isis snp-packets
IS-IS CSNP/PSNP packets.
- debug isis spf-events
IS-IS Shortest Path First Events.
- debug isis update-packets
Update related packets.
- debug isis te-events
IS-IS Traffic Engineering events
- debug isis sr-events
IS-IS Segment Routing events.
- debug isis lfa
IS-IS LFA events.
- show debugging isis
Print which ISIS debug level is activate.
ISIS Configuration Examples
A simple example, with MD5 authentication enabled:
!
interface eth0
ip router isis FOO
isis network point-to-point
isis circuit-type level-2-only
!
router isis FOO
net 47.0023.0000.0000.0000.0000.0000.0000.1900.0004.00
metric-style wide
is-type level-2-only
A Traffic Engineering configuration, with Inter-ASv2 support.
First, the zebra.conf
part:
hostname HOSTNAME
password PASSWORD
log file /var/log/zebra.log
!
interface eth0
ip address 10.2.2.2/24
link-params
max-bw 1.25e+07
max-rsv-bw 1.25e+06
unrsv-bw 0 1.25e+06
unrsv-bw 1 1.25e+06
unrsv-bw 2 1.25e+06
unrsv-bw 3 1.25e+06
unrsv-bw 4 1.25e+06
unrsv-bw 5 1.25e+06
unrsv-bw 6 1.25e+06
unrsv-bw 7 1.25e+06
admin-grp 0xab
!
interface eth1
ip address 10.1.1.1/24
link-params
enable
metric 100
max-bw 1.25e+07
max-rsv-bw 1.25e+06
unrsv-bw 0 1.25e+06
unrsv-bw 1 1.25e+06
unrsv-bw 2 1.25e+06
unrsv-bw 3 1.25e+06
unrsv-bw 4 1.25e+06
unrsv-bw 5 1.25e+06
unrsv-bw 6 1.25e+06
unrsv-bw 7 1.25e+06
neighbor 10.1.1.2 as 65000
Then the isisd.conf
itself:
hostname HOSTNAME
password PASSWORD
log file /var/log/isisd.log
!
!
interface eth0
ip router isis FOO
!
interface eth1
ip router isis FOO
!
!
router isis FOO
isis net 47.0023.0000.0000.0000.0000.0000.0000.1900.0004.00
mpls-te on
mpls-te router-address 10.1.1.1
!
line vty
A Segment Routing configuration, with IPv4, IPv6, SRGB and MSD configuration.
hostname HOSTNAME
password PASSWORD
log file /var/log/isisd.log
!
!
interface eth0
ip router isis SR
isis network point-to-point
!
interface eth1
ip router isis SR
!
!
router isis SR
net 49.0000.0000.0000.0001.00
is-type level-1
topology ipv6-unicast
lsp-gen-interval 2
segment-routing on
segment-routing node-msd 8
segment-routing prefix 10.1.1.1/32 index 100 explicit-null
segment-routing prefix 2001:db8:1000::1/128 index 101 explicit-null
!
An SRv6 configuration:
hostname HOSTNAME
password PASSWORD
log file /var/log/isisd.log
!
!
interface eth0
ipv6 router isis FOO
ip router isis FOO
isis hello-interval 5
!
interface eth1
ip router isis FOO
!
!
router isis FOO
net 49.0001.1111.1111.1111.00
is-type level-2-only
metric-style wide
segment-routing srv6
locator loc1
!
line vty
ISIS Vrf Configuration Examples
A simple vrf example:
!
interface eth0 vrf RED
ip router isis FOO
isis network point-to-point
isis circuit-type level-2-only
!
router isis FOO vrf RED
net 47.0023.0000.0000.0000.0000.0000.0000.1900.0004.00
metric-style wide
is-type level-2-only