Layer 3 IP CLI
clear ioam rewrite
clear ioam rewrite
This command clears all the In-band OAM (iOAM) features enabled by
the set ioam rewrite
command. Use show ioam summary
to
verify the configured settings cleared.
Example of how to clear iOAM features:
clear ioam rewrite
Declaration: ip6_clear_ioam_rewrite_cmd
src/vnet/ip/ip6_hop_by_hop.c line 1268
Implementation: clear_ioam_rewrite_command_fn
disable ip6 interface
disable ip6 interface <interface>
This command is used to disable IPv6 on a given interface.
Example of how disable IPv6 on a given interface:
disable ip6 interface GigabitEthernet2/0/0
Declaration: disable_ip6_interface_command
src/vnet/ip/ip6_link.c line 823
Implementation: disable_ip6_interface_cmd
enable ip6 interface
enable ip6 interface <interface>
This command is used to enable IPv6 on a given interface.
Example of how enable IPv6 on a given interface:
enable ip6 interface GigabitEthernet2/0/0
Declaration: enable_ip6_interface_command
src/vnet/ip/ip6_link.c line 783
Implementation: enable_ip6_interface_cmd
ip
Internet protocol (IP) commands
Declaration: vlib_cli_ip_command
src/vnet/ip/lookup.c line 534
ip container
ip container <address> <interface>
Declaration: ip_container_command_node
src/vnet/ip/ip_container_proxy.c line 220
Implementation: ip_container_cmd
ip mroute
ip mroute [add|del] <dst-ip-addr>/<width> [table <table-id>] [rpf-id <ID>] [via <next-hop-ip-addr> [<interface>],
This command is used to add or delete IPv4 or IPv6 multicast routes. All
IP Addresses (<dst-ip-addr>/<width>
,
<next-hop-ip-addr>
and <adj-hop-ip-addr>
)
can be IPv4 or IPv6, but all must be of the same form in a single
command. To display the current set of routes, use the commands
show ip mfib
and show ip6 mfib
.
The full set of support flags for interfaces and route is shown via;
show mfib route flags
and show mfib itf flags
respectively.
Example of how to add a forwarding interface to a route (and create the
route if it does not exist)
ip mroute add 232.1.1.1 via GigabitEthernet2/0/0 Forward
Example of how to add an accepting interface to a route (and create the route if it does not exist)
ip mroute add 232.1.1.1 via GigabitEthernet2/0/1 Accept
Example of changing the route’s flags to send signals via the API
ip mroute add 232.1.1.1 Signal
Declaration: ip_mroute_command
src/vnet/ip/lookup.c line 1002
Implementation: vnet_ip_mroute_cmd
ip punt policer
ip punt policer [add|del] <index>
set ip punt policer <INDEX>
Declaration: ip4_punt_policer_command
src/vnet/ip/ip4_punt_drop.c line 305
Implementation: ip4_punt_police_cmd
ip punt redirect
ip punt redirect [add|del] rx [<interface>|all] via [<nh>] <tx_interface>
set ip punt policer
Declaration: ip4_punt_redirect_command
src/vnet/ip/ip4_punt_drop.c line 408
Implementation: ip4_punt_redirect_cmd
ip route
ip route [add|del] [count <n>] <dst-ip-addr>/<width> [table <table-id>] via [next-hop-address] [next-hop-interface] [next-hop-table <value>] [weight <value>] [preference <value>] [udp-encap <value>] [ip4-lookup-in-table <value>] [ip6-lookup-in-table <value>] [mpls-lookup-in-table <value>] [resolve-via-host] [resolve-via-connected] [rx-ip4 <interface>] [out-labels <value value value>]
This command is used to add or delete IPv4 or IPv6 routes. All
IP Addresses (<dst-ip-addr>/<width>
,
<next-hop-ip-addr>
and <adj-hop-ip-addr>
)
can be IPv4 or IPv6, but all must be of the same form in a single
command. To display the current set of routes, use the commands
show ip fib
and show ip6 fib
.
Example of how to add a straight forward static route:
ip route add 6.0.1.2/32 via 6.0.0.1 GigabitEthernet2/0/0
Example of how to delete a straight forward static route:
ip route del 6.0.1.2/32 via 6.0.0.1 GigabitEthernet2/0/0
Mainly for route add/del performance testing, one can add or delete multiple routes by adding ‘count N’ to the previous item:
ip route add count 10 7.0.0.0/24 via 6.0.0.1 GigabitEthernet2/0/0
Add multiple routes for the same destination to create equal-cost multipath:
ip route add 7.0.0.1/32 via 6.0.0.1 GigabitEthernet2/0/0
ip route add 7.0.0.1/32 via 6.0.0.2 GigabitEthernet2/0/0
For unequal-cost multipath, specify the desired weights. This combination of weights results in 3/4 of the traffic following the second path, 1/4 following the first path:
ip route add 7.0.0.1/32 via 6.0.0.1 GigabitEthernet2/0/0 weight 1
ip route add 7.0.0.1/32 via 6.0.0.2 GigabitEthernet2/0/0 weight 3
To add a route to a particular FIB table (VRF), use:
ip route add 172.16.24.0/24 table 7 via GigabitEthernet2/0/0
Declaration: ip_route_command
src/vnet/ip/lookup.c line 589
Implementation: vnet_ip_route_cmd
ip table
ip table [add|del] <table-id>
This command is used to add or delete IPv4 Tables. All Tables must be explicitly added before that can be used. Creating a table will add both unicast and multicast FIBs
Declaration: ip4_table_command
src/vnet/ip/lookup.c line 610
Implementation: vnet_ip4_table_cmd
ip6
Internet protocol version 6 (IPv6) commands
Declaration: vlib_cli_ip6_command
src/vnet/ip/lookup.c line 541
ip6 punt policer
ip6 punt policer [add|del] <index>
set ip punt policer <INDEX>
Declaration: ip6_punt_policer_command
src/vnet/ip/ip6_punt_drop.c line 243
Implementation: ip6_punt_police_cmd
ip6 punt redirect
ip6 punt redirect [add|del] rx [<interface>|all] via [<nh>] <tx_interface>
set ip punt policer <INDEX>
Declaration: ip6_punt_redirect_command
src/vnet/ip/ip6_punt_drop.c line 397
Implementation: ip6_punt_redirect_cmd
ip6 table
ip6 table [add|del] <table-id>
This command is used to add or delete IPv4 Tables. All Tables must be explicitly added before that can be used. Creating a table will add both unicast and multicast FIBs
Declaration: ip6_table_command
src/vnet/ip/lookup.c line 625
Implementation: vnet_ip6_table_cmd
punt socket deregister
punt socket deregister [IPV4|ipv6] [UDP|tcp] [ALL|<port-num>]
punt socket register
Declaration: punt_socket_deregister_command
src/vnet/ip/punt.c line 689
Implementation: punt_socket_deregister_cmd
punt socket register
punt socket register [IPV4|ipv6] [UDP|tcp] [ALL|<port-num>] socket <socket>
punt socket register socket punt_l4_foo.sock
Declaration: punt_socket_register_command
src/vnet/ip/punt.c line 620
Implementation: punt_socket_register_cmd
set interface ip
IP4/IP6 commands
Declaration: set_interface_ip_command
src/vnet/ip/ip46_cli.c line 75
set interface ip address
set interface ip address [del] <interface> <ip-addr>/<mask> | [all]
Add an IP Address to an interface or remove and IP Address from an interface. The IP Address can be an IPv4 or an IPv6 address. Interfaces may have multiple IPv4 and IPv6 addresses. There is no concept of primary vs. secondary interface addresses; they’re just addresses.
To display the addresses associated with a given interface, use the command
show interface address <interface>
.
Note that the debug CLI does not enforce classful mask-width / addressing constraints.
An example of how to add an IPv4 address to an interface:
set interface ip address GigabitEthernet2/0/0 172.16.2.12/24
An example of how to add an IPv6 address to an interface:
set interface ip address GigabitEthernet2/0/0 @::a:1:1:0:7/126
To delete a specific interface ip address:
set interface ip address del GigabitEthernet2/0/0 172.16.2.12/24
To delete all interfaces addresses (IPv4 and IPv6):
set interface ip address del GigabitEthernet2/0/0 all
Declaration: set_interface_ip_address_command
src/vnet/ip/ip46_cli.c line 216
Implementation: add_del_ip_address
set interface ip source-and-port-range-check
set interface ip source-and-port-range-check <interface> [tcp-out-vrf <table-id>] [udp-out-vrf <table-id>] [tcp-in-vrf <table-id>] [udp-in-vrf <table-id>] [del]
Add the ‘ip4-source-and-port-range-check-rx’ or ‘ip4-source-and-port-range-check-tx’ graph node for a given interface. ‘tcp-out-vrf’ and ‘udp-out-vrf’ will add to the RX path. ‘tcp-in-vrf’ and ‘udp-in-vrf’ will add to the TX path. A graph node will be inserted into the chain when the range check is added to the first interface. It will not be removed from when range check is removed from the last interface.
By adding the range check graph node to the interface, incoming or outgoing TCP/UDP packets will be validated using the provided IPv4 FIB table (VRF).
@note ‘ip4-source-and-port-range-check-rx’ and ‘ip4-source-and-port-range-check-tx’ strings are too long, so they are truncated on the ‘show vlib graph’ output.
Example of graph node before range checking is enabled:
show vlib graph ip4-source-and-port-range-check-tx
Name Next Previous
ip4-source-and-port-range- ip4-drop [0]
Example of how to enable range checking on TX:
set interface ip source-and-port-range-check GigabitEthernet2/0/0 udp-in-vrf 7
Example of graph node after range checking is enabled:
show vlib graph ip4-source-and-port-range-check-tx
Name Next Previous
ip4-source-and-port-range- ip4-drop [0] ip4-rewrite
interface-output [1]
Example of how to display the features enabled on an interface:
show ip interface features GigabitEthernet2/0/0
IP feature paths configured on GigabitEthernet2/0/0...
ipv4 unicast:
ip4-source-and-port-range-check-rx
ip4-lookup
ipv4 multicast:
ip4-lookup-multicast
ipv4 multicast:
interface-output
ipv6 unicast:
ip6-lookup
ipv6 multicast:
ip6-lookup
ipv6 multicast:
interface-output
Declaration: set_interface_ip_source_and_port_range_check_command
src/vnet/ip/ip4_source_and_port_range_check.c line 801
Implementation: set_ip_source_and_port_range_check_fn
set interface ip table
set interface ip table <interface> <table-id>
Place the indicated interface into the supplied IPv4 FIB table (also known
as a VRF). The FIB table must be created using “ip table add” already. To
display the current IPv4 FIB table, use the command show ip fib
.
FIB table will only be displayed if a route has been added to the table, or
an IP Address is assigned to an interface in the table (which adds a route
automatically).
@note IP addresses added after setting the interface IP table are added to the indicated FIB table. If an IP address is added prior to changing the table then this is an error. The control plane must remove these addresses first and then change the table. VPP will not automatically move the addresses from the old to the new table as it does not know the validity of such a change.
Example of how to add an interface to an IPv4 FIB table (where 2 is the table-id):
set interface ip table GigabitEthernet2/0/0 2
Declaration: set_interface_ip_table_command
src/vnet/ip/lookup.c line 730
Implementation: ip4_table_bind_cmd
set interface ip6 table
set interface ip6 table <interface> <table-id>
Place the indicated interface into the supplied IPv6 FIB table (also known
as a VRF). The FIB table must be created using “ip6 table add” already. To
display the current IPv6 FIB table, use the command show ip6 fib
.
FIB table will only be displayed if a route has been added to the table, or
an IP Address is assigned to an interface in the table (which adds a route
automatically).
@note IP addresses added after setting the interface IP table are added to the indicated FIB table. If an IP address is added prior to changing the table then this is an error. The control plane must remove these addresses first and then change the table. VPP will not automatically move the addresses from the old to the new table as it does not know the validity of such a change.
Example of how to add an interface to an IPv6 FIB table (where 2 is the table-id):
set interface ip6 table GigabitEthernet2/0/0 2
Declaration: set_interface_ip6_table_command
src/vnet/ip/lookup.c line 758
Implementation: ip6_table_bind_cmd
set interface reassembly
set interface reassembly <interface-name> [on|off|ip4|ip6]
Declaration: set_reassembly_command
src/vnet/ip/ip46_cli.c line 298
Implementation: set_reassembly_command_fn
set ioam rewrite
set ioam [trace] [pot] [seqno] [analyse]
This command is used to enable In-band OAM (iOAM) features on IPv6.
trace
is used to enable iOAM trace feature. pot
is used to
enable the Proof Of Transit feature. ppc
is used to indicate the
Per Packet Counter feature for Edge to Edge processing. ppc
is
used to indicate if this node is an encap
node (iOAM edge node
where packet enters iOAM domain), a decap
node (iOAM edge node
where packet leaves iOAM domain) or none
(iOAM node where packet
is in-transit through the iOAM domain). ppc
can only be set if
trace
or pot
is enabled.
Use clear ioam rewrite
to disable all features enabled by this
command. Use show ioam summary
to verify the configured settings.
Example of how to enable trace and pot with ppc set to encap:
set ioam rewrite trace pot ppc encap
Declaration: ip6_set_ioam_rewrite_cmd
src/vnet/ip/ip6_hop_by_hop.c line 1375
Implementation: ip6_set_ioam_rewrite_command_fn
set ip classify
set ip classify intfc <interface> table-index <classify-idx>
Assign a classification table to an interface. The classification
table is created using the classify table
and classify session
commands. Once the table is create, use this command to filter packets
on an interface.
Example of how to assign a classification table to an interface:
set ip classify intfc GigabitEthernet2/0/0 table-index 1
Declaration: set_ip_classify_command
src/vnet/ip/ip4_forward.c line 2962
Implementation: set_ip_classify_command_fn
set ip flow-hash
set ip flow-hash table <table-id> [src] [dst] [sport] [dport] [proto] [reverse]
Configure the set of IPv4 fields used by the flow hash.
Example of how to set the flow hash on a given table:
set ip flow-hash table 7 dst sport dport proto
Example of display the configured flow hash:
show ip fib
ipv4-VRF:0, fib_index 0, flow hash: src dst sport dport proto
0.0.0.0/0
unicast-ip4-chain
[@0]: dpo-load-balance: [index:0 buckets:1 uRPF:0 to:[0:0]]
[0] [@0]: dpo-drop ip6
0.0.0.0/32
unicast-ip4-chain
[@0]: dpo-load-balance: [index:1 buckets:1 uRPF:1 to:[0:0]]
[0] [@0]: dpo-drop ip6
224.0.0.0/8
unicast-ip4-chain
[@0]: dpo-load-balance: [index:3 buckets:1 uRPF:3 to:[0:0]]
[0] [@0]: dpo-drop ip6
6.0.1.2/32
unicast-ip4-chain
[@0]: dpo-load-balance: [index:30 buckets:1 uRPF:29 to:[0:0]]
[0] [@3]: arp-ipv4: via 6.0.0.1 af_packet0
7.0.0.1/32
unicast-ip4-chain
[@0]: dpo-load-balance: [index:31 buckets:4 uRPF:30 to:[0:0]]
[0] [@3]: arp-ipv4: via 6.0.0.2 af_packet0
[1] [@3]: arp-ipv4: via 6.0.0.2 af_packet0
[2] [@3]: arp-ipv4: via 6.0.0.2 af_packet0
[3] [@3]: arp-ipv4: via 6.0.0.1 af_packet0
240.0.0.0/8
unicast-ip4-chain
[@0]: dpo-load-balance: [index:2 buckets:1 uRPF:2 to:[0:0]]
[0] [@0]: dpo-drop ip6
255.255.255.255/32
unicast-ip4-chain
[@0]: dpo-load-balance: [index:4 buckets:1 uRPF:4 to:[0:0]]
[0] [@0]: dpo-drop ip6
ipv4-VRF:7, fib_index 1, flow hash: dst sport dport proto
0.0.0.0/0
unicast-ip4-chain
[@0]: dpo-load-balance: [index:12 buckets:1 uRPF:11 to:[0:0]]
[0] [@0]: dpo-drop ip6
0.0.0.0/32
unicast-ip4-chain
[@0]: dpo-load-balance: [index:13 buckets:1 uRPF:12 to:[0:0]]
[0] [@0]: dpo-drop ip6
172.16.1.0/24
unicast-ip4-chain
[@0]: dpo-load-balance: [index:17 buckets:1 uRPF:16 to:[0:0]]
[0] [@4]: ipv4-glean: af_packet0
172.16.1.1/32
unicast-ip4-chain
[@0]: dpo-load-balance: [index:18 buckets:1 uRPF:17 to:[1:84]]
[0] [@2]: dpo-receive: 172.16.1.1 on af_packet0
172.16.1.2/32
unicast-ip4-chain
[@0]: dpo-load-balance: [index:21 buckets:1 uRPF:20 to:[0:0]]
[0] [@5]: ipv4 via 172.16.1.2 af_packet0: IP4: 02:fe:9e:70:7a:2b -> 26:a5:f6:9c:3a:36
172.16.2.0/24
unicast-ip4-chain
[@0]: dpo-load-balance: [index:19 buckets:1 uRPF:18 to:[0:0]]
[0] [@4]: ipv4-glean: af_packet1
172.16.2.1/32
unicast-ip4-chain
[@0]: dpo-load-balance: [index:20 buckets:1 uRPF:19 to:[0:0]]
[0] [@2]: dpo-receive: 172.16.2.1 on af_packet1
224.0.0.0/8
unicast-ip4-chain
[@0]: dpo-load-balance: [index:15 buckets:1 uRPF:14 to:[0:0]]
[0] [@0]: dpo-drop ip6
240.0.0.0/8
unicast-ip4-chain
[@0]: dpo-load-balance: [index:14 buckets:1 uRPF:13 to:[0:0]]
[0] [@0]: dpo-drop ip6
255.255.255.255/32
unicast-ip4-chain
[@0]: dpo-load-balance: [index:16 buckets:1 uRPF:15 to:[0:0]]
[0] [@0]: dpo-drop ip6
Declaration: set_ip_flow_hash_command
src/vnet/ip/ip4_forward.c line 2837
Implementation: set_ip_flow_hash_command_fn
set ip source-and-port-range-check
set ip source-and-port-range-check vrf <table-id> <ip-addr>/<mask> {port nn | range <nn> - <nn>} [del]
This command adds an IP Subnet and range of ports to be validated by an IP FIB table (VRF).
practical example.
Example of how to add an IPv4 subnet and single port to an IPv4 FIB table:
set ip source-and-port-range-check vrf 7 172.16.1.0/24 port 23
Example of how to add an IPv4 subnet and range of ports to an IPv4 FIB table:
set ip source-and-port-range-check vrf 7 172.16.1.0/24 range 23 - 100
Example of how to delete an IPv4 subnet and single port from an IPv4 FIB table:
set ip source-and-port-range-check vrf 7 172.16.1.0/24 port 23 del
Example of how to delete an IPv4 subnet and range of ports from an IPv4 FIB table:
set ip source-and-port-range-check vrf 7 172.16.1.0/24 range 23 - 100 del
Declaration: ip_source_and_port_range_check_command
src/vnet/ip/ip4_source_and_port_range_check.c line 1268
Implementation: ip_source_and_port_range_check_command_fn
set ip6 classify
set ip6 classify intfc <interface> table-index <classify-idx>
Assign a classification table to an interface. The classification
table is created using the classify table
and classify session
commands. Once the table is create, use this command to filter packets
on an interface.
Example of how to assign a classification table to an interface:
set ip6 classify intfc GigabitEthernet2/0/0 table-index 1
Declaration: set_ip6_classify_command
src/vnet/ip/ip6_forward.c line 3176
Implementation: set_ip6_classify_command_fn
set ip6 flow-hash
set ip6 flow-hash table <table-id> [src] [dst] [sport] [dport] [proto] [reverse] [flowlabel]
Configure the set of IPv6 fields used by the flow hash.
Example of how to set the flow hash on a given table:
set ip6 flow-hash table 8 dst sport dport proto
Example of display the configured flow hash:
show ip6 fib
ipv6-VRF:0, fib_index 0, flow hash: src dst sport dport proto
@::/0
unicast-ip6-chain
[@0]: dpo-load-balance: [index:5 buckets:1 uRPF:5 to:[0:0]]
[0] [@0]: dpo-drop ip6
fe80::/10
unicast-ip6-chain
[@0]: dpo-load-balance: [index:10 buckets:1 uRPF:10 to:[0:0]]
[0] [@2]: dpo-receive
ff02::1/128
unicast-ip6-chain
[@0]: dpo-load-balance: [index:8 buckets:1 uRPF:8 to:[0:0]]
[0] [@2]: dpo-receive
ff02::2/128
unicast-ip6-chain
[@0]: dpo-load-balance: [index:7 buckets:1 uRPF:7 to:[0:0]]
[0] [@2]: dpo-receive
ff02::16/128
unicast-ip6-chain
[@0]: dpo-load-balance: [index:9 buckets:1 uRPF:9 to:[0:0]]
[0] [@2]: dpo-receive
ff02::1:ff00:0/104
unicast-ip6-chain
[@0]: dpo-load-balance: [index:6 buckets:1 uRPF:6 to:[0:0]]
[0] [@2]: dpo-receive
ipv6-VRF:8, fib_index 1, flow hash: dst sport dport proto
@::/0
unicast-ip6-chain
[@0]: dpo-load-balance: [index:21 buckets:1 uRPF:20 to:[0:0]]
[0] [@0]: dpo-drop ip6
@::a:1:1:0:4/126
unicast-ip6-chain
[@0]: dpo-load-balance: [index:27 buckets:1 uRPF:26 to:[0:0]]
[0] [@4]: ipv6-glean: af_packet0
@::a:1:1:0:7/128
unicast-ip6-chain
[@0]: dpo-load-balance: [index:28 buckets:1 uRPF:27 to:[0:0]]
[0] [@2]: dpo-receive: @::a:1:1:0:7 on af_packet0
fe80::/10
unicast-ip6-chain
[@0]: dpo-load-balance: [index:26 buckets:1 uRPF:25 to:[0:0]]
[0] [@2]: dpo-receive
fe80::fe:3eff:fe3e:9222/128
unicast-ip6-chain
[@0]: dpo-load-balance: [index:29 buckets:1 uRPF:28 to:[0:0]]
[0] [@2]: dpo-receive: fe80::fe:3eff:fe3e:9222 on af_packet0
ff02::1/128
unicast-ip6-chain
[@0]: dpo-load-balance: [index:24 buckets:1 uRPF:23 to:[0:0]]
[0] [@2]: dpo-receive
ff02::2/128
unicast-ip6-chain
[@0]: dpo-load-balance: [index:23 buckets:1 uRPF:22 to:[0:0]]
[0] [@2]: dpo-receive
ff02::16/128
unicast-ip6-chain
[@0]: dpo-load-balance: [index:25 buckets:1 uRPF:24 to:[0:0]]
[0] [@2]: dpo-receive
ff02::1:ff00:0/104
unicast-ip6-chain
[@0]: dpo-load-balance: [index:22 buckets:1 uRPF:21 to:[0:0]]
[0] [@2]: dpo-receive
Declaration: set_ip6_flow_hash_command
src/vnet/ip/ip6_forward.c line 3009
Implementation: set_ip6_flow_hash_command_fn
set punt
set punt [IPV4|ip6|ipv6] [UDP|tcp] [del] [ALL|<port-num>]
The set of set punt
commands allows specific IP traffic to
be punted to the host TCP/IP stack
@em Note
UDP is the only protocol supported in the current implementation
All TCP traffic is currently punted to the host by default
Example of how to request NTP traffic to be punted
set punt udp 125
Example of how to request all ‘unknown’ UDP traffic to be punted
set punt udp all
Example of how to stop all ‘unknown’ UDP traffic to be punted
set punt udp del all
Declaration: punt_command
src/vnet/ip/punt.c line 545
Implementation: punt_cli
show ioam summary
show ioam summary
This command displays the current configuration data for In-band OAM (iOAM).
Example to show the iOAM configuration:
show ioam summary
REWRITE FLOW CONFIGS -
Destination Address : ff02::1
Flow operation : 2 (Pop)
TRACE OPTION - 1 (Enabled)
Try 'show ioam trace and show ioam-trace profile' for more information
POT OPTION - 1 (Enabled)
Try 'show ioam pot and show pot profile' for more information
EDGE TO EDGE - PPC OPTION - 1 (Encap)
Declaration: ip6_show_ioam_run_cmd
src/vnet/ip/ip6_hop_by_hop.c line 1459
Implementation: ip6_show_ioam_summary_cmd_fn
show ip
Internet protocol (IP) show commands
Declaration: vlib_cli_show_ip_command
src/vnet/ip/lookup.c line 548
show ip container
show ip container <address> <interface>
Declaration: show_ip_container_command
src/vnet/ip/ip_container_proxy.c line 279
Implementation: show_ip_container_cmd_fn
show ip local
show ip local
Display the set of protocols handled by the local IPv4 stack.
Example of how to display local protocol table:
show ip local
Protocols handled by ip4_local
1
17
47
Declaration: show_ip_local
src/vnet/ip/ip4_forward.c line 1993
Implementation: show_ip_local_command_fn
show ip pmtu
show ip path MTU
Declaration: show_fib_entry
src/vnet/ip/ip_path_mtu.c line 883
Implementation: show_ip_pmtu_command
show ip punt redirect
show ip punt redirect
set ip punt redierect
Declaration: show_ip4_punt_redirect_command
src/vnet/ip/ip4_punt_drop.c line 432
Implementation: ip4_punt_redirect_show_cmd
show ip source-and-port-range-check
show ip source-and-port-range-check vrf <table-id> <ip-addr> [port <n>]
Display the range of ports being validated by an IPv4 FIB for a given IP or subnet, or test if a given IP and port are being validated.
practical example.
Example of how to display the set of ports being validated for a given IPv4 subnet:
show ip source-and-port-range-check vrf 7 172.16.2.0
172.16.2.0: 23 - 101
Example of how to test to determine of a given iPv4 address and port are being validated:
show ip source-and-port-range-check vrf 7 172.16.2.2 port 23
172.16.2.2 port 23 PASS
show ip source-and-port-range-check vrf 7 172.16.2.2 port 250
172.16.2.2 port 250 FAIL
Declaration: show_source_and_port_range_check
src/vnet/ip/ip4_source_and_port_range_check.c line 1394
Implementation: show_source_and_port_range_check_fn
show ip table
show ip table <table-id>
Declaration: show_ip4_table_command
src/vnet/ip/lookup.c line 631
Implementation: vnet_show_ip4_table_cmd
show ip6
Internet protocol version 6 (IPv6) show commands
Declaration: vlib_cli_show_ip6_command
src/vnet/ip/lookup.c line 555
show ip6 hbh
show ip6 hbh
Display the set of ip6 local hop-by-hop next protocol handler nodes
Display ip6 local hop-by-hop next protocol handler nodes
show ip6 hbh
Declaration: show_ip6_hbh
src/vnet/ip/ip6_hop_by_hop.c line 1063
Implementation: show_ip6_hbh_command_fn
show ip6 interface
show ip6 interface <interface>
This command is used to display various IPv6 attributes on a given interface.
Example of how to display IPv6 settings:
show ip6 interface GigabitEthernet2/0/0
GigabitEthernet2/0/0 is admin up
Link-local address(es):
fe80::ab8/64
Joined group address(es):
ff02::1
ff02::2
ff02::16
ff02::1:ff00:ab8
Advertised Prefixes:
prefix fe80::fe:28ff:fe9c:75b3, length 64
MTU is 1500
ICMP error messages are unlimited
ICMP redirects are disabled
ICMP unreachables are not sent
ND DAD is disabled
ND advertised reachable time is 0
ND advertised retransmit interval is 0 (msec)
ND router advertisements are sent every 200 seconds (min interval is 150)
ND router advertisements live for 600 seconds
Hosts use stateless autoconfig for addresses
ND router advertisements sent 19336
ND router solicitations received 0
ND router solicitations dropped 0
Example of output if IPv6 is not enabled on the interface:
show ip6 interface GigabitEthernet2/0/0
show ip6 interface: IPv6 not enabled on interface
Declaration: ip6_link_show_command
src/vnet/ip/ip6_link.c line 743
Implementation: ip6_link_show
show ip6 local
show ip6 local
Display the set of protocols handled by the local IPv6 stack.
Example of how to display local protocol table:
show ip6 local
Protocols handled by ip6_local
17
43
58
115
Declaration: show_ip6_local
src/vnet/ip/ip6_forward.c line 3057
Implementation: show_ip6_local_command_fn
show ip6 punt redirect
show ip6 punt redirect
set ip punt policer <INDEX>
Declaration: show_ip6_punt_redirect_command
src/vnet/ip/ip6_punt_drop.c line 425
Implementation: ip6_punt_redirect_show_cmd
show ip6 table
show ip6 table <table-id>
Declaration: show_ip6_table_command
src/vnet/ip/lookup.c line 637
Implementation: vnet_show_ip6_table_cmd
show ip6-ll
show ip6-ll [summary] [interface] [<ip6-addr>[/<width>]] [detail]
Declaration: ip6_show_fib_command
src/vnet/ip/ip6_ll_table.c line 354
Implementation: ip6_ll_show_fib
show punt socket registrations
show punt socket registrations [l4|exception]
show punt socket ipv4
Declaration: show_punt_socket_registration_command
src/vnet/ip/punt.c line 825
Implementation: punt_socket_show_cmd
test ip checksum
test ip checksum
Declaration: test_checksum
src/vnet/ip/ip_checksum.c line 169
Implementation: test_ip_checksum_fn
test ip6 link
test ip6 link <mac-address>
This command converts the given MAC Address into an IPv6 link-local address.
Example of how to create an IPv6 link-local address:
test ip6 link 16:d9:e0:91:79:86
Link local address: fe80::14d9:e0ff:fe91:7986
Original MAC address: 16:d9:e0:91:79:86
Declaration: test_link_command
src/vnet/ip/ip6_link.c line 559
Implementation: test_ip6_link_command_fn