will return an error message. BPDU switching is only configured for the flat mode instance (bridge 1), regardless of which protocol is active (STP, RSTP, or MSTP).
-> bridge mode flat -> bridge bpdu-switching enable -> bridge 1 bpdu-switching disable -> bridge mode 1x1 -> bridge 100 bpdu-switching enable -> bridge 100 bpdu-switching disable

page 16-47

vlan stp show spantree Enables or disables Spanning Tree instance for the specified VLAN. Displays VLAN Spanning Tree parameter values.
vStpInsTable vStpInsBpduSwitching

page 16-48

bridge path cost mode
Configures the automatic selection of a 16-bit path cost for STP/RSTP ports and a 32-bit path cost for MSTP ports or sets all path costs to use a 32-bit value. bridge path cost mode {auto | 32bit}
auto 32bit The port path cost value is automatically set depending on which protocol is active on the switch (32-bit for MSTP, 16-bit for STP/RSTP). Specifies that a 32-bit value is used for the port path cost value regardless of which protocol is active on the switch.
By default, the path cost mode is set to auto.
Note that all path cost values, except those for MSTIs, are reset to the default path cost value when this

mode is changed.

When connecting a switch running in the 32-bit path cost mode to a switch running in the 16-bit mode,
the 32-bit switch will have a higher path cost value and thus an inferior path cost to the 16-bit switch. To avoid this, use the bridge path cost mode command to change the 32-bit switch to a 16-bit switch.
Note that when the protocol is changed to/from MSTP, the bridge priority and port path cost values for
the flat mode CIST instance are reset to their default values. The exception to this is if the path cost mode is set to 32-bit prior to the protocol change, the path cost is not reset to its default value
-> bridge path cost mode 32bit -> bridge path cost mode auto
bridge slot/port path cost bridge protocol Defines a Spanning Tree path cost for a port. Configures the protocol for the flat mode CIST instance or a 1x1 mode VLAN instance.

vid slot/port logical_port path_cost An existing VLAN ID number (14094). Enter the slot number for the module and the physical port number on that module (e.g., 3/1 specifies port 1 on slot 3). Link aggregate ID number (031). Path cost value (0 - 65535 for 16-bit, 0200000000 for 32-bit).
If the switch is running in the flat mode when this command is used, the specified path cost for the port
If a 32-bit path cost value is in use and the path_cost is set to zero, the following IEEE 892.1S recom-
mended default path cost values based on link speed are used:

page 16-78

page 16-79
-> bridge mode flat -> bridge 1x4/1 path cost 4 -> bridge 1x16 path cost 200000 -> bridge mode 1x1 -> bridge 1x5/10 path cost 19 -> bridge 1x1/24 path cost 20000
bridge mode bridge slot/port path cost Selects the Spanning Tree operating mode (flat or 1x1) for the switch. Implicit command for configuring the Spanning Tree path cost value for a port or an aggregate of ports that applies to the specified CIST or VLAN instance. Explicit command for configuring the Spanning Tree path cost value for a port or an aggregate of ports for the CIST instance when the switch is operating in either the 1x1 or flat mode.
bridge msti slot/port path cost Explicit command for configuring the Spanning Tree path cost value for a port or an aggregate of ports for an MSTI when the switch is operating in either the 1x1 or flat Spanning Tree mode.

page 16-80

bridge slot/port mode
Configures Manual mode (forwarding or blocking) or Dynamic mode to manage the state of a port or an aggregate of ports for the flat mode Common and Internal Spanning Tree (CIST) instance or a 1x1 mode VLAN instance. Dynamic mode defers the configuration of the port state to the Spanning Tree Protocol. bridge instance {slot/port | logical_port} mode {forwarding | blocking | dynamic}
instance slot/port logical_port forwarding blocking dynamic The CIST instance or an existing VLAN ID number (14094). Enter the slot number for the module and the physical port number on that module (e.g., 3/1 specifies port 1 on slot 3). Link aggregate ID number (031). Set port state to forwarding. Set port state to blocking. Port state is determined by Spanning Tree Protocol.
By default, the port Spanning Tree mode is set to dynamic.
Specifying an instance number with this command when the switch is running the 1x1 Spanning Tree
operating mode implies a VLAN ID and configures the port Spanning Tree mode (forwarding, blocking, or dynamic) for the associated VLAN instance.
enter 1 to specify the CIST instance. If MSTP is the active protocol, however, entering 1 for the instance number is not accepted. In this case, use the bridge cist slot/port mode command instead.
Note that for Multiple Spanning Tree Instances (MSTI), the port Spanning Tree mode is inherited from

slot/port logical_port on off enable disable Enter the slot number for the module and the physical port number on that module (e.g., 3/1 specifies port 1 on slot 3). Link aggregate ID number (031). Turns on the administrative edge port status for the specified port-CIST instance. Turns off the administrative edge port status for the specified port-CIST instance. Enables the administrative edge port status for the specified port-CIST instance. Disables the administrative edge port status for the specified port-CIST instance.
By default, the administrative edge port status is disabled (off).
If the switch is running in the 1x1 mode when this command is used, the specified edge port status is
not active for the CIST instance until the switch is configured to run in the flat Spanning Tree mode.
The administrative edge port status is used to determine if a port is an edge or non-edge port when
automatic edge port configuration (auto-edge) is disabled for the port. However, if auto-edge is enabled for the port, then the administrative status is overridden.

page 16-93

Configure ports that will connect to a host (PC, workstation, server, etc.) as edge ports to avoid unnec-
essary topology changes when these ports go active. This will also prevent the flushing of learned MAC addresses on these ports if a topology change occurs as a result of another non-edge port going active. If an edge port receives a BPDU, it will operationally revert back to a no point to point connection type.
-> bridge mode flat -> bridge cist 15 admin-edge on -> bridge cist 8/23 admin-edge disable -> bridge mode 1x1 -> bridge cist 2/2 admin-edge enable -> bridge cist 8/23 admin-edge off
bridge mode Selects the Spanning Tree operating mode (flat or 1x1) for the switch
bridge 1x1 slot/port admin-edge Configures the administrative edge port status for a port or an aggregate of ports for a specific VLAN instance. bridge cist slot/port auto-edge Configures whether or not Spanning Tree automatically determines the operational edge status of a port or an aggregate of ports for the flat mode CIST instance. Configures whether or not Spanning Tree determines the operational edge port status for a port or an aggregate of ports for the specified 1x1 mode VLAN instance.
bridge 1x1 slot/port auto-edge
vStpInsPortTable vStpInsPortNumber vStpInsPortAdminEdge

page 16-94

bridge 1x1 slot/port admin-edge
Configures the administrative edge port status for a port or an aggregate of ports for a 1x1 mode VLAN instance. bridge 1x1 vid {slot/port | logical_port} admin-edge {on | off | enable | disable}

MAC Address VLAN TYPE -------------------+------+------------------00:20:95:00:fa:5c 1 STATIC
output definitions Port Operation Mode Max MAC bridged Trap Threshold The module slot number and the physical port number on that module. The Learned Port Security operation status for the port (enabled or disabled). Configured through the port-security command. The maximum number of bridged MAC addresses that are allowed on this port. Configured through the port-security maximum command. The number of bridged MACs to learn before sending a trap. After this number is reached, a trap is sent out for every MAC learned thereafter. If disabled is displayed in this field, the trap threshold is not in force. Configured through the port-security learn-trap-threshold command. The maximum number of filtered MAC addresses that the LPS port can learn. Configured through the port-security max-filtering command. MAC address that defines the lower end of a MAC address range. Configured through the port-security mac-range command. MAC address that defines the higher end of a MAC address range. Configured through the port-security mac-range command. The security violation mode for the port (restrict or shutdown). Configured through the port-security violation command. An individual authorized MAC address. Configured through the port-security mac command. The VLAN to which the LPS port belongs. Indicates if the MAC address was dynamically learned or statically configured as an authorized MAC address for the port. Dynamic MAC addresses become configured MAC address entries after a configuration save and switch reboot.
Max MAC filtered Low MAC Range High MAC Range Violation MAC Address VLAN TYPE
Release 6.1; command was introduced. Release 6.1.5; config-mac-range parameter was removed. Release 6.1.5; Mac Filtered MAC allowed field was added. Release 6.3.1; Trap Threshold field was added.

page 18-21

show port-security shutdown Displays the amount of time during which source learning can occur on all LPS ports.
learnedPortSecurityTable lpsMaxMacNum lpsMaxFilteredMacNum lpsLoMacRange lpsHiMacRange lpsViolationOption lpsOperStatus lpsRelease

page 18-22

show port-security shutdown
Displays the amount of time during which source learning can occur on all LPS ports. show port-security shutdown
The source learning time limit is a switch-wide parameter that applies to all ports that have LPS

enabled.

If the shutdown time is set to zero, then a source learning time limit is not active on LPS ports. Note that source learning of configured authorized MAC addresses is still allowed after the LPS time

slot port port2 full half auto Slot number you want to configure. Port number of the interface you want to configure. Last port number in a range of ports you want to configure. Sets interface to full duplex mode. Sets interface to half duplex mode. Switch will automatically set both the duplex mode settings to autonegotiation.
parameter full | half | auto default full
You can only configure one slot at a time. Repeat the command to configure additional slots. Half duplex mode is not supported on Gigabit modules if a port is detected as Gigabit (1000 Mbps). OS9-GNI-C24 modules can be configured for full and half duplex. All other Gigabit Ethernet modules
on the OmniSwitch 9000 only support full duplex mode.
On OS9-GNI-C24 modules, if a link is down and auto negotiation is enabled, then half duplex is not
accepted since these modules are Gigabit modules by default.
Configuration changes made with the interfaces duplex command on OmniSwitch 6800, 6850, and
6855 combo ports configured as either forced copper or preferred copper will only be made on the copper RJ-45 10/100/1000 ports and not to the SFP fiber port. See the interfaces hybrid duplex command for more information.
OmniSwitch 6800, 6850, and Gigabit and 10 Gigabit fiber ports only support full duplex.

page 19-14

-> interfaces 3/1 duplex auto -> interfaces 3 duplex half -> interfaces 3/1-4 auto
interfaces speed show interfaces status Configures interface line speed. Set to auto to set speed and duplex mode to auto-sensing. Displays interface line settings (e.g., speed, and mode).
esmConfTable esmPortAutoDuplexMode

page 19-15

interfaces admin
Administratively enables or disables interfaces. interfaces slot[/port[-port2]] admin {up | down}
slot port port2 up down Slot number you want to configure. Port number of the interface you want to configure. Last port number in a range of ports you want to configure. Enables the interface. Disables the interface.
parameter up | down default up
-> interfaces 3/1 admin up -> interfaces 3 admin down -> interfaces 3/1-4 admin up
show interfaces show interfaces port Displays general interface information (e.g., hardware, MAC address, input errors, and output errors). Displays port status (up or down).

-> -> -> -> ip ip ip no access-list access1 address 10.0.0.0/8 action permit access-list access1 address 11.1.0.0/16 action permit access-list access1 address 10.1.1.0/24 redist-control aggregate ip access-list access1 address 10.0.0.0/8
ip access-list show ip access-list Creates an access list for adding multiple IPv4 addresses to route maps. Displays the contents of an IPv4 access list.
alaRouteMapAccessListTable alaRouteMapAccessListIndex alaRouteMapAccessListAddress alaRouteMapAccessListAddressType alaRouteMapAccessListPrefixLength alaRouteMapAccessListAction alaRouteMapAccessListRedistControl alaRouteMapAccessListRowStatus

page 27-28

ip route-map action
Creates a route map for redistribution and sets the status of the route map to permit or deny. ip route-map route-map-name [sequence-number number] action {permit | deny} no ip route-map route-map-name [sequence-number number]
route-map-name number permit deny The name of the route map (up to 20 characters). A number that links together the route maps. The range is 1100. Permits route redistribution. Denies route redistribution.
parameter number permit | deny default 50 permit
Use the no form of this command to delete the entire route map by specifying only the route-map-
Use the no form of this command to delete a specific sequence in the route map by specifying the

sequence-number.

All route maps having the same name but different sequence numbers are linked together and
processed in order of increasing sequence number.
Use this command to change the status of an existing route map to permit or deny.
-> ip route-map route1 sequence-number 10 action permit -> no ip route-map route1

page 27-29

show ip route-map Displays the configured IP route maps.
alaRouteMapSequenceTable alaRouteMapSequenceIndex alaRouteMapSequenceNumber alaRouteMapSequenceAction alaRouteMapSequenceRowStatus

page 27-30

ip route-map match ip address
Matches the route with the specified IPv4 address or an address defined in the specified IPv4 access list. ip route-map route-map-name [sequence-number number] match ip-address {access-list-name | ip_address/prefixLen [redist-control {all-subnets | no-subnets | aggregate}] [permit | deny] no ip route-map route-map-name [sequence-number number] match ip-address {access-list-name | ip_address/prefixLen [redist-control {all-subnets | no-subnets | aggregate}] [permit | deny]

page 27-112

ping traceroute Tests whether an IP destination can be reached from the local switch. Finds the path taken by an IP packet from the local switch to a specified destination.

page 27-113

show ip config
Displays IP configuration parameters. show ip config
-> show ip config IP directed-broadcast IP default TTL = = OFF, 64
output definitions IP directed-broadcast IP default TTL Indicates whether the IP directed-broadcast feature is on or off. IP default TTL interval.
ip directed-broadcast ip default-ttl Enables or disables IP directed broadcasts routed through the switch. Sets TTL value for IP packets.

page 27-114

show ip protocols
Displays switch routing protocol information and status. show ip protocols
This command also displays the switchs primary IP address and router ID, if configured, and debug information.
-> show ip protocols Router ID Primary addr RIP status OSPF status BGP status DVMRP status PIMSM status Debug level Debug sections = 10.255.11.243, = 10.255.11.243, = = = = = Not Not Not Not Not Loaded, Loaded, Loaded, Loaded, Loaded,

= 1, = error,

output definitions Router ID Primary addr RIP status OSPF status BGP status DVMRP status PIMSM status Debug level Debug sections The set routing ID. The router ID is how the router is identified in IP. The primary interface address the route uses. Whether RIP is loaded or not. Whether OSPF is loaded or not. Whether BGP is loaded or not. Whether DVMRP is loaded or not. Whether PIMSM is loaded or not. What the current router debug level is. What types of debugging information are being tracked.

page 27-115

ip router primary-address ip router router-id Configures the router primary IP address. Configures the router ID for the router.
alaIpRouteSumTable alaIpRouteProtocol

page 27-116

show ip service
Displays the current status of TCP/UDP service ports. show ip service
The display output from this command also includes the service port number.
-> show ip service Name Port Status ----------------------+-------+--------ftp 21 enabled ssh 22 disabled telnet 23 disabled udp-relay 67 disabled http 80 disabled network-time 123 disabled snmp 161 disabled avlan-telnet 259 disabled avlan-http 260 disabled avlan-secure-http 261 disabled secure_http 443 enabled proprietary 1024 disabled proprietary 1025 disabled

output definitions IP Addr IP Mask Vlan Type Mode The ARP packet IP address to which the filter is applied. The IP mask that specifies which part of the IP address to which the filter is applied. A VLAN ID. The filter is applied only to ARP packets received on ports associated with this VLAN. Indicates which IP address in the ARP packet (sender or target) is used to identify if a filter exists for that address. Indicates whether or not to block or allow a switch response to an ARP packet that matches the filter.

page 27-121

arp filter clear arp filter Adds a permanent entry to the ARP table. Deletes all dynamic entries from the ARP table.

page 27-122

show icmp control
Allows the viewing of the ICMP control settings. show icmp control
Use this command to view the status of the various ICMP messages. It is also useful to determine the type and code of the less common ICMP messages.
-> show icmp control Name Type Code Status min-pkt-gap(us) -------------------------------------+------+------+---------+-----------------echo reply enabled 0 network unreachable enabled 0 host unreachable enabled 0 protocal unreachable enabled 0 port unreachable enabled 0 frag needed but DF bit set enabled 0 source route failed enabled 0 destination network unknown enabled 0 destination host unknown enabled 0 source host isolated enabled 0 dest network admin prohibited enabled 0 host admin prohibited by filter enabled 0 network unreachable for TOS enabled 0 host unreachable for TOS enabled 0 source quench enabled 0 redirect for network enabled 0 redirect for host enabled 0 redirect for TOS and network enabled 0 redirect for TOS and host enabled 0 echo request enabled 0 router advertisement enabled 0 router solicitation enabled 0 time exceeded during transmit enabled 0 time exceeded during reassembly enabled 0 ip header bad enabled 0 required option missing enabled 0 timestamp request enabled 0

page 27-123

timestamp reply information request(obsolete) information reply(obsolete) address mask request address mask reply

IP Src Filtering

Opt82 Violation MAC Violation
Server Violation Relay Violation Binding Violation
show ip helper dhcp-snooping Displays a list of DHCP Snooping VLANs. vlan
iphelperDhcpSnoopingPortTable iphelperDhcpSnoopingPortIfIndex iphelperDhcpSnoopingPortTrustMode iphelperDhcpSnoopingPortIpSourceFiltering iphelperDhcpSnoopingPortOption82Violation iphelperDhcpSnoopingPortMacAddrViolation iphelperDhcpSnoopingPortDhcpServerViolation iphelperDhcpSnoopingPortRelayAgentViolation iphelperDhcpSnoopingPortBindingViolation

page 30-58

show ip helper dhcp-snooping binding
Displays the contents of the DHCP Snooping binding table (database). show ip helper dhcp-snooping binding
Use the ip helper dhcp-snooping binding command to create a static entry in the binding table. Dynamic binding table entries are created when the relay agent receives a DHCPACK packet.
-> show ip helper dhcp-snooping binding MAC Slot IP Lease VLAN Binding Address Port Address Time ID Type -------------------+------+---------------+---------+-------+----------00:ae:22:e4:00:08 1/4 10.255.11.5 Dynamic 10:fe:a2:e4:32:08 2/15 10.255.91.2 Dynamic
output definitions MAC Address Slot/Port IP Address Lease Time VLAN ID Binding Type The MAC address of the client. The slot/port designation for the switch port that received the DHCP request The IP address offered by the DHCP server. The IP address lease time assigned by the DHCP server. The VLAN ID of the VLAN to which the client belongs. Indicates whether the binding table entry is dynamic or static. Static entries are created using the ip helper dhcp-snooping binding command.

page 30-59

show ip helper dhcp-snooping Displays a list of DHCP Snooping VLANs. vlan show ip helper dhcp-snooping Displays the trust mode and DHCP violation statistics for all switch port ports that are filtered by DHCP Snooping.

page 30-60

show ip udp relay service
Displays current configuration for UDP services by service name or by service port number. show ip udp relay service [BOOTP | NBDD | NBNSNBDD | DNS | TACACS | TFTP | NTP | port]
BOOTP NBDD NBNSNBDD DNS TACACS TFTP NTP port BOOTP/DHCP well-known ports 67/68. NBDD well-known port 138. NBNS/NBDD well-known ports 137/138. DNS well-known port 53. TACACS well-known port 65. TFTP well-known port 69. NTP well-known port 123. A user-specified port that is not a well-known port.
By default, the configuration for all UDP services is shown.

seconds The hold-down time interval, in seconds. The valid range is 0120.
When RIP detects a route with higher metric than the route in the RIB, the route with the higher metric goes into the hold-down state. The route updates with a metric of INFINITY are rejected.
-> ip rip holddown-timer 10
alaProtocolRip alaRipHolddownTimer

page 31-22

show ip rip
Displays the RIP status and general configuration parameters (e.g., forced hold-down timer). show ip rip
-> show ip rip Status Number of routes Host Route Support Route Tag Update interval Invalid interval Garbage interval Holddown interval Forced Hold-Down Timer = = = = = = = = = Enabled 9 Enabled 0 0
output definitions Status Number of routes Host Route Support Route Tag Update interval Invalid interval Garbage interval RIP status (Enabled or Disabled). Number of network routes in the RIP routing table. Host route status (Enabled or Disabled). Indicates whether or not RIP can add host routes (routes with a 32-bit mask) to the RIP table. Route tag value for RIP routes generated by the switch. Valid values are 02147483647. The RIP routing update interval, in seconds. Valid range is 1120. Default is 30. The RIP invalid timer value, in seconds. Valid range is 3360. Default is 180. The RIP garbage timer value, in seconds. Valid range is 0180. Default is 120.

page 31-23

output definitions Holddown interval Forced Hold-Down Timer The hold-down time interval, in seconds. Valid range is 0120. Default is 0. The forced hold-down time interval, in seconds. The valid range is 0120. Default is 0.
Release 6.1; command was introduced. Release 6.1.5; new fields added.
ip rip status ip rip force-holddowntimer ip rip update-interval ip rip invalid-timer Enables/disables RIP routing on the switch. Configures the interval during which a RIP route remains in the forced hold-down state. Configures the time interval during which RIP routing updates are sent out. Configures the RIP invalid timer value that defines the time interval during which a route will remain active in Routing Information Base (RIB) before moving to the invalid state. Configures the RIP garbage timer value that defines the time interval, which must elapse before an expired route is removed from the RIB. Configures the RIP hold-down timer value that defines the time interval during which a route remains in the hold down state.
alaProtocolRip alaRipProtoStatus alaRipRouteNumber alaRipHostRouteSupport alaRipRedistRouteTag alaRipUpdateInterval alaRipInvalidTimer alaRipGarbageTimer alaRipHolddownTimer alaRipForceHolddownTimer

-> ip slb server ip 10.255.11.127 cluster corporate_servers -> ip slb server ip 10.255.11.109 cluster "mail servers" admin status disable -> no ip slb server ip 10.255.11.105 cluster hr_servers
Release 6.1; command was introduced. Release 6.1.3; weight parameter removed.

page 50-14

show ip slb clusters show ip slb cluster ip slb admin ip slb cluster Displays the status and configuration of all Server Load Balancing clusters on a switch. Displays detailed status and configuration information for a single Server Load Balancing cluster on a switch. Enables or disables Server Load Balancing on a switch. Configures Server Load Balancing clusters.
slbServerTable slbServerRowStatus slbServerAdminStatus slbServerAdminWeight

page 50-15

ip slb server ip cluster probe
Configures a probe for a Server Load Balancing (SLB) server. ip slb server ip ip_address cluster cluster_name probe probe_name
ip_address cluster_name probe_name The IP address for the physical server. The name of the Server Load Balancing (SLB) cluster. The name of the Server Load Balancing (SLB) probe.
-> ip slb server ip 10.255.11.127 cluster corporate_servers probe p_http
show ip slb clusters show ip slb cluster ip slb probe ip slb admin ip slb cluster Displays the status and configuration of all Server Load Balancing clusters on a switch. Displays detailed status and configuration information for a single Server Load Balancing cluster on a switch. Configures and deletes SLB probes. Enables or disables Server Load Balancing on a switch. Configures Server Load Balancing clusters.
slbServerTable slbServerProbeName

page 50-16

ip slb probe
Configures a Server Load Balancing (SLB) probe used to check the health of servers or clusters. ip slb probe probe_name {ftp | http | https | imap | imaps | nntp | ping | pop | pops | smtp | tcp | udp} no ip slb probe probe_name
probe_name ftp http https imap imaps nntp ping pop pops smtp tcp udp Specifies the name of the Server Load Balancing (SLB) probe. Specifies an FTP probe. Specifies an HTTP probe. Specifies an HTTPS probe. Specifies an IMAP probe. Specifies an IMAPS probe. Specifies an NNTP probe. Specifies a ping probe. Specifies a POP probe. Specifies a POPS probe. Specifies an SMTP probe. Specifies a TCP probe. Specifies a UDP probe.

page A-24

10. Governing Law. This License Agreement shall be construed and governed in accordance with the laws of the State of California. 11. Severability. Should any term of this License Agreement be declared void or unenforceable by any court of competent jurisdiction, such declaration shall have no effect on the remaining terms herein. 12. No Waiver. The failure of either party to enforce any rights granted hereunder or to take action against the other party in the event of any breach hereunder shall not be deemed a waiver by that party as to subsequent enforcement of rights or subsequent actions in the event of future breaches. 13. Notes to United States Government Users. Software and documentation are provided with restricted rights. Use, duplication or disclosure by the government is subject to (i) restrictions set forth in GSA ADP Schedule Contract with Alcatel-Lucents reseller(s), or (ii) restrictions set forth in subparagraph (c) (1) and (2) of 48 CFR 52.227-19, as applicable. 14.Third Party Materials. Licensee is notified that the Licensed Files contain third party software and materials licensed to Alcatel-Lucent by certain third party licensors. Some third party licensors (e.g., Wind River and their licensors with respect to the Run-Time Module) are third part beneficiaries to this License Agreement with full rights of enforcement. Please refer to the section entitled Third Party Licenses and Notices on page A-26 for the third party license and notice terms.

page A-25

Third Party Licenses and Notices
The licenses and notices related only to such third party software are set forth below:
A. Booting and Debugging Non-Proprietary Software
A small, separate software portion aggregated with the core software in this product and primarily used for initial booting and debugging constitutes non-proprietary software, some of which may be obtained in source code format from Alcatel-Lucent for a limited period of time. Alcatel-Lucent will provide a machine-readable copy of the applicable non-proprietary software to any requester for a cost of copying, shipping and handling. This offer will expire 3 years from the date of the first shipment of this product.
B. The OpenLDAP Public License: Version 2.8, 17 August 2003
Redistribution and use of this software and associated documentation (Software), with or without modification, are permitted provided that the following conditions are met:
1 Redistributions of source code must retain copyright statements and notices. 2 Redistributions in binary form must reproduce applicable copyright statements and notices, this list of
conditions, and the following disclaimer in the documentation and/or other materials provided with the distribution.

3 You may copy and distribute the Program (or a work based on it, under Section 2) in object code or
executable form under the terms of Sections 1 and 2 above provided that you also do one of the following: a Accompany it with the complete corresponding machine-readable source code, which must be distributed under the terms of Sections 1 and 2 above on a medium customarily used for software interchange; or,

page A-28

b Accompany it with a written offer, valid for at least three years, to give any third party, for a charge no more than your cost of physically performing source distribution, a complete machine-readable copy of the corresponding source code, to be distributed under the terms of Sections 1 and 2 above on a medium customarily used for software interchange; or, c Accompany it with the information you received as to the offer to distribute corresponding source code. (This alternative is allowed only for noncommercial distribution and only if you received the program in object code or executable form with such an offer, in accord with Subsection b above.) The source code for a work means the preferred form of the work for making modifications to it. For an executable work, complete source code means all the source code for all modules it contains, plus any associated interface definition files, plus the scripts used to control compilation and installation of the executable. However, as a special exception, the source code distributed need not include anything that is normally distributed (in either source or binary form) with the major components (compiler, kernel, and so on) of the operating system on which the executable runs, unless that component itself accompanies the executable. If distribution of executable or object code is made by offering access to copy from a designated place, then offering equivalent access to copy the source code from the same place counts as distribution of the source code, even though third parties are not compelled to copy the source along with the object code.

-> lanpower 3 capacitor-detection enable
show lanpower capacitor-detection Displays capacitor detection method status.
alaPethMainTable alaPethMainPseCapacitorDetect

page 4-17

show lanpower
Displays current inline power status and related statistics for all PoE ports in a specified slot. show lanpower slot
slot The slot for which current inline power status and related statistics are to be displayed.
-> show lanpower 1 Port Maximum(mW) Actual Used(mW) Status Priority On/Off ----+-----------+---------------+-----------+---------+-----0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF 0 Undefined Low OFF
(Output continued on next page)

page 4-18

18000 18000
Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined Undefined
Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low
OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF
Slot 1 Max Watts Watts Total Power Budget Remaining 380 Watts Total Power Budget Available 1 Power Supplies Available
output definitions Port Maximum (mW) A PoE port for which current status and related statistics are being displayed. The current maximum amount of power allocated to the corresponding PoE port, in milliwatts. The default value is 15400. To change this setting, use the lanpower power command. The actual amount of power being used by an attached device (if applicable), in milliwatts. If no device is attached to the corresponding port, this row displays a value of 0. Displays the current operational status. Options include Powered On, Powered Off, and Undefined.

Actual Used (mW)

Status

page 4-19

output definitions (continued) Priority The current priority level for the corresponding PoE port. Options include Critical, High, and Low. Critical should be reserved for ports that have mission-critical devices attached, and therefore require top (i.e., critical) priority. In the event of a power management issue, inline power to critical ports is maintained as long as possible. High indicates ports that have important, but not mission-critical, devices attached. If other ports in the chassis have been configured as critical, inline power to high-priority ports is given second priority. Low priority is for ports that have low-priority devices attached. In the event of a power management issue, inline power to low-priority ports is interrupted first (i.e., before critical and high-priority ports). The default value is Low. Priority levels can be changed using the lanpower priority command. On/Off Displays whether a port has been manually turned on or off by the user. ON indicates that the port has been turned on by the user via the lanpower start command. OFF indicates that the port has been turned off by the user via the lanpower stop command. The maximum watts allocated to the corresponding slot. The maximum watts value for a slot can be changed using the lanpower maxpower command. The amount of power budget remaining that can be allocated for PoE modules. If the total power budget remaining is exceeded, a power error will occur and the switchs chassis management software will begin shutting down power to PoE ports according to their priority levels.

output definitions Sess SessName Name TimeOut Status URL Name&StatMsg The first number is the session number. Unique ID assigned by the browser. User name. User-configured inactivity timer, in minutes. Session status. If the user has successfully logged in, the status is Authenticated. Current page being viewed by the user.

page 8-6

http server http ssl show http Enables/disables web management on the switch. Enables/disables SSL on the switch. Displays web management configuration information.

page 8-7

show http
Displays web management configuration information. show [ip] http
ip Optional syntax. Using this optional syntax is the same as using the show http command.

Supported

-> show http Web Management = on Force SSL = on Web Management Http Port = 80 Web Management Https Port = 443
output definitions Web Management Force SSL Indicates whether web management is enabled (on) or disabled (off) on the switch. Indicates whether Force SSL is enabled (on) or disabled (off) on the switch. If this is set to on this means that SSL is forced on an HTTP session and hence HTTPS protocol is negotiated between the client and server. For example, an http://switchname.com URL will be redirected to an https://switchname.com URL. The port configured for the HTTP connection. The port configured for a secure HTTP connection (SSL enabled).
Web Management Http Port Web Management Https Port

page 8-8

http server http ssl http port https port Enables/disables web management on the switch. Enables/disables SSL on the switch.
alaIND1WebMgtConfigMIBGroup alaInd1WebMgtAdminStatus alaInd1WebMgtSsl alaInd1WebMgtHttpPort alaInd1WebMgtHttpsPort

page 8-9

page 8-10
9 Configuration File Manager Commands
The Configuration Manager feature allows you to configure your switch using an ASCII-based text file. CLI commands may be typed into a text documentreferred to as a configuration fileand then uploaded and applied to the switch. MIB information for the Configuration Manager commands is as follows: Filename: Module: AlcatelIND1System.mib Alcatel-IND1ConfigMgr.mib
A summary of the available commands is listed here: configuration apply configuration error-file limit show configuration status configuration cancel configuration syntax check configuration snapshot show configuration snapshot write terminal

By default, BPDU switching is disabled for an instance. parameter instance default CIST (flat mode)
Specifying the BPDU switching status for a VLAN does not depend on the current VLAN Spanning
Tree status. For example, setting the BPDU switching status to enabled is allowed on a VLAN that also has Spanning Tree enabled.
The bridge bpdu-switching command is an implicit Spanning Tree command. When issued in the 1x1
mode, the instance number specified implies a VLAN ID. When issued in the flat mode, the instance number specified implies an MSTI number.
If an instance is not specified with this command, the BPDU switching status is configured for the flat
mode CIST instance by default regardless of which mode (flat or 1x1) is active on the switch.
Note that if the switch is running in the flat mode, specifying a value greater than 1 for the instance
will return an error message. BPDU switching is only configured for the flat mode instance (bridge 1), regardless of which protocol is active (STP, RSTP, or MSTP).
-> bridge mode flat -> bridge bpdu-switching enable -> bridge 1 bpdu-switching disable -> bridge mode 1x1 -> bridge 100 bpdu-switching enable -> bridge 100 bpdu-switching disable

page 15-47

vlan stp show spantree Enables or disables Spanning Tree instance for the specified VLAN. Displays Spanning Tree parameter values.
vStpInsTable vStpInsBpduSwitching

page 15-48

bridge path cost mode
Configures the automatic selection of a 16-bit path cost for STP/RSTP ports and a 32-bit path cost for MSTP ports or sets all path costs to use a 32-bit value. bridge path cost mode {auto | 32bit}
auto 32bit The port path cost value is automatically set depending on which protocol is active on the switch (32-bit for MSTP, 16-bit for STP/RSTP). Specifies that a 32-bit value is used for the port path cost value regardless of which protocol is active on the switch.
By default, the path cost mode is set to auto.
Note that all path cost values, except those for MSTIs, are reset to the default path cost value when this

mode is changed.

When connecting a switch running in the 32-bit path cost mode to a switch running in the 16-bit mode,
the 32-bit switch will have a higher path cost value and thus an inferior path cost to the 16-bit switch. To avoid this, use the bridge path cost mode command to change the 32-bit switch to a 16-bit switch.
Note that when the protocol is changed to/from MSTP, the bridge priority and port path cost values for

edgeport

If the switch is running in the flat mode when this command is used, the specified connection type for
the port is not active for the specified VLAN instance until the operating mode for the switch is changed to the 1x1 mode.

page 15-91

-> bridge mode flat -> bridge 1x7/24 connection noptp -> bridge mode 1x1 -> bridge 1x2/2 connection noptp
bridge mode bridge slot/port connection Selects the Spanning Tree operating mode (flat or 1x1) for the switch Implicit command for configuring the Spanning Tree connection type for a port or an aggregate of ports for the CIST instance or for a VLAN instance.

page 15-92

bridge cist slot/port admin-edge
Configures the administrative edge port status for a port or an aggregate of ports for the flat mode Common and Internal Spanning Tree (CIST). bridge cist {slot/port | logical_port} admin-edge {on | off | enable | disable}
slot/port logical_port on off enable disable Enter the slot number for the module and the physical port number on that module (e.g., 3/1 specifies port 1 on slot 3). Link aggregate ID number (031). Turns on the administrative edge port status for the specified port-CIST instance. Turns off the administrative edge port status for the specified port-CIST instance. Enables the administrative edge port status for the specified port-CIST instance. Disables the administrative edge port status for the specified port-CIST instance.
By default, the administrative edge port status is disabled (off).
If the switch is running in the 1x1 mode when this command is used, the specified edge port status is
not active for the CIST instance until the switch is configured to run in the flat Spanning Tree mode.
The administrative edge port status is used to determine if a port is an edge or non-edge port when
automatic edge port configuration (auto-edge) is disabled for the port. However, if auto-edge is enabled for the port, then the administrative status is overridden.

Port Pri

Adm St

page 15-136

output definitions Man. Mode The manual mode setting for the port: yes indicates that the blocking or forwarding state of the port was manually set and the port does not participate in the Spanning Tree Algorithm; no indicates that the Spanning Tree Algorithm is managing the port state. Configured through the bridge slot/port mode command. The configured path cost value for this port. Configured through the bridge slot/port path cost command. The administrative connection type: PTP, NPT, or AUT. Configured through the bridge slot/port connection command. The edge port administrative status: yes indicates that the port is an admin edge port; no indicates that the port is not an admin edge port. Configured through the bridge slot/port connection command. The edge port automatic status: yes indicates that the port is an automatic edge port; no indicates that the port is not an automatic edge port. Configured through the bridge cist slot/port auto-edge or bridge 1x1 slot/port auto-edge command. The restricted TCN capability: yes indicates that the port supports the restricted TCN capability; no indicates that the port does not support the restricted TCN capability. Configured through the bridge cist slot/ port restricted-tcn or bridge 1x1 slot/port restricted-tcn command. The restricted role port status: yes indicates that the port is a restricted role port; no indicates that the port is not a restricted role port. Configured through the bridge cist slot/port restricted-role or bridge 1x1 slot/port restricted-role command. Indicates whether the 10 GB port interoperability status is enabled (ENA) or disabled (DIS). Configured through the bridge port 10gig os8800optimized command.
Config Cost Adm Cnx Adm Edg

Aut Edg

Rstr Tcn

Rstr Role

OS8800 10G Opt.
-> bridge mode flat -> bridge protocol mstp -> show spantree ports Msti Port Oper Status Path Cost Role -----+-----+------------+---------+----0 1/1 FORW 200000 ROOT 0 1/2 DIS 0 DIS 0 1/3 DIS 0 DIS 0 1/4 DIS 0 DIS 0 1/5 DIS 0 DIS 0 1/6 DIS 0 DIS 0 1/7 DIS 0 DIS 0 1/8 DIS 0 DIS 0 1/9 DIS 0 DIS 0 1/10 DIS 0 DIS 0 1/11 DIS 0 DIS 0 1/12 DIS 0 DIS 0 1/13 DIS 0 DIS 0 1/14 DIS 0 DIS 0 1/15 DIS 0 DIS 0 1/16 DIS 0 DIS 0 1/17 DIS 0 DIS 0 1/18 DIS 0 DIS 0 1/19 DIS 0 DIS OmniSwitch CLI Reference Guide June 2007 page 15-137
1/20 1/21 1/22 1/23 1/24 5/1 5/2 1/1 1/2 1/3 1/4 1/5 1/6 1/7 1/8 1/9 1/10 1/11 1/12 1/13 1/14 1/15 1/16 1/17 1/18 1/19 1/20 1/21 1/22 1/23 1/24

By default, transparent switching is disabled on the switch.
Use the no form of this command to disable transparent switching on the device. If GVRP is globally disabled and transparent switching is enabled, the router will flood the GVRP

messages.

If GVRP is globally disabled and transparent switching is disabled, the router will discard the GVRP
If GVRP is globally enabled transparent switching will not have any effect on the functional behavior

of the device.

-> gvrp transparent switching -> no gvrp transparent switching
alaGvrpTransparentSwitching

page 21-5

gvrp maximum vlan
Configures the maximum number of dynamic VLANs that can be created by GVRP. gvrp maximum vlan vlanlimit
vlanlimit The maximum number of VLANs to be created by GVRP. The valid range is 324094.
parameter vlanlimit default 256
This command can be used even when GVRP is not enabled on the switch. However, GVRP should be enabled on the switch for creating dynamic VLANs.
-> gvrp maximum vlan 100

alaGvrpMaxVlanLimit

page 21-6

gvrp registration

Configures the GVRP registration mode for a specific port or an aggregate of ports. gvrp registration {normal | fixed | forbidden} {linkagg agg_num | port slot/port} no gvrp registration {linkagg agg_num | port slot/port}
normal Specifies that both registration and de-registration of VLANs are allowed. VLANs can be mapped either dynamically (through GVRP) or statically (through management application) on such a port. Specifies that only static mapping of VLANs is allowed on the port but de-registration of previously created dynamic or static VLANs is not allowed. Specifies that dynamic VLAN registration or de-registration is not allowed on the port. Any dynamic VLAN created earlier will be deregistered. The number corresponding to the aggregate group. The slot number for the module and the physical port number on that module (e.g., 3/1 specifies port 1 on slot 3).

forbidden

agg_num slot/port
parameter normal | fixed | forbidden default normal

CCM Enabled CCM Transmitting CCM Linktrace Priority CCM Not Received CCM Stream Error CCM Stream Other MEP Rdi Received MEP Last CCM Fault MEP Last CCM CrossFault MEP Lbm NextSeqNumber MEP Ltm NextSeqNumber
page 23-36 OmniSwitch CLI Reference Guide June 2007
ethoam end-point ethoam end-point admin-state Creates an Ethernet OAM Maintenance End Point in the specified MA. Configures the administrative state of MEP.

page 23-37

show ethoam default association
Displays the information of the default MA. show ethoam default-association [vlan vlan_id]
vlan_id VLAN ID for which the default MA information is required.
By default information about all the VLANs attached to the default MA is displayed.
Use vlan_id with this command to view information about a specific VLAN attached with the MA.
-> show ethoam default-association Vlan Mhf-creation Level ------+--------------+------1 none none 11 none none 999 none none 10 none none
output definitions vlan Mhf-creation Level The VLAN ID for which the default MA information is required. Indicates if the maintenance entity can create MHFs for this MA.Options include none, explicit, or default. The level of maintenance association.

page 23-38

page 23-39
show ethoam remote endpoint domain
Displays the information of all remote MEPs learned as a part of the CCM message exchange. show ethoam remote endpoint domain domain_name association association_name end-point endpoint_id [remote-mep remote_mepid]
domain_name association_name endpoint_id remote_mepid Specifies the domain name. Specifies the name of the Ethernet OAM Association. Specifies the MEP of a specific MA. The valid range is 18191. The remote MEP. The valid range is 18191.
-> show ethoam remote-endpoint domain us association al end-point 202 Legends: MacStatusTlv: 1 = psUp, 2 = psDown, 3 = psTest Machine Machine Mac MEP-ID Operational OkFailed Mac Address Status Tlv Status State --------+-----------------+------------------------+------------------+--------100 RMEP_OK 7200 00:02:02:00:00:02 1
output definitions MEP-id Machine Operational Status Indicates the Maintenance End Point. The operational state of the remote MEP Remote State machines for this MEP, which can be RMEP_IDLE, RMEP_START, RMEP_FAILED, or RMEP_OK. The time (SysUpTime) when the Remote MEP state machine last entered either the RMEP_FAILED or RMEP_OK. The MAC address of the remote MEP. The MAC status TLV last received: psDown indicates ifOperStatus is DOWN; psTest indicates ifOperStatus is TEST; psUp indicates link is operational.
Machine OkFailed State MacAddress MacStatusTlv

page 23-40

Dot1agCfmMepDb dot1agCfmMepDbIndex dot1agCfmMepDbIdentifier dot1agCfmMepDbMachineOperStatus dot1agCfmMepDbMachineOkFailedState dot1agCfmMepDbMacAddress dot1agCfmMepDbMacStatusTlv

vrid vlan_id enable disable on off priority The virtual router ID, in the range from 1255. The VLAN on which the virtual router is configured. The VLAN must already be created and available on the switch. Enables the virtual router. Disables the virtual router. Cannot be combined on the same line with other parameters. Alternate syntax for enabling the virtual router. Alternate syntax for disabling the virtual router. The priority for this virtual router to become the master router. The range is 1 (lowest priority) to 255 (highest priority). The priority should be set to 255 only if this router is the actual owner of the virtual routers IP address. Specifies that a higher priority router may preempt a lower priority master router. Specifies that a higher priority router may not preempt a lower priority master router. Specifies that the master router, which is not the IPv6 address owner will accept the packets addressed to the IPv6 address owner as its own. Specifies that the master router, which is not the IPv6 address owner will not accept the packets addressed to the IPv6 address owner as its own. The interval in centiseconds after which the master router will send VRRP3 advertisements. The advertising interval must be the same for all VRRP3 routers configured with the same VRID. The valid range is 14095 centiseconds.
preempt no preempt accept no accept

centiseconds

page 31-11
parameter enable | disable | on | off priority preempt | no preempt accept | no accept centiseconds default disable (off) 100 preempt accept 100
Use the no form of this command to remove a virtual router from the configuration. Use the vrrp3 address command to configure an IPv6 address for the virtual router. To disable the virtual router, rather than remove it, use the disable or off option. Note that disable or
A virtual router must be disabled before it may be modified. The maximum number of virtual routers supported is based on the 100 centisecond interval. A smaller
interval will result in a relatively lesser number of virtual routers.
The advertising interval cannot be less than 10 centiseconds.
-> vrrp1 priority 75 -> vrrp1 enable
vrrp3 address show vrrp3 Configures an IPv6 address for a virtual router. Displays the virtual router configuration for all virtual routers or for a particular virtual router.

page 31-12

alaVrrp3OperTable alaVrrp3OperAdminState alaVrrp3OperPriority alaVrrp3OperPreemptMode alaVrrp3OperAcceptMode alaVrrp3OperAdvinterval alaVrrp3OperRowStatus

page 31-13

vrrp3 address
Configures an IPv6 address for a virtual router. vrrp3 vrid vlan_id address ipv6_address vrrp3 vrid vlan_id no address ipv6_address
vrid vlan_id address The virtual router ID, in the range from 1255. The VLAN on which the virtual router is configured. The virtual IPv6 address associated with the specified virtual router.

The Next Hop address to reach the destination. The host name of the router.

page 34-44

vRtrIsisRouteTable vRtrIsisRouteLevel vRtrIsisRouteSpfVersion vRtrIsisRouteType vRtrisisRouteDest vRtrIsisRouteNexthopIP vRtrIsisRouteNexthopSysID vRtrIsisRouteMetric vRtrIsisRouteMask

page 34-45

show ip isis spf
Displays the IS-IS SPF calculation information. show ip isis spf [detail]
detail Indicates that the output is displayed in a detailed manner.
-> show ip isis spf ISIS Path Table ===================================================================== Node Interface Nexthop ---------------------------------------------------------------------abr_sjc.00 if2/2 dist_oak abr_sjc.00 if2/3 dist_nj dist_oak.00 if2/2 dist_oak dist_nj.00 if2/3 dist_nj acc_nj.00 if2/3 dist_nj acc_ri.00 if2/3 dist_nj core_west.00 if2/8 core_west core_east.00 lag-1 core_east asbr_west.00 if2/8 core_west asbr_east.00 if2/5 asbr_east abr_sjc.00 lag-1 core_east abr_sjc.00 if2/8 core_west abr_lax.00 lag-1 core_east abr_lax.00 if2/8 core_west abr_dfw.00 if2/5 asbr_east abr_dfw.00 lag-1 core_east abr_dfw.00 if2/8 core_west dist_arl.00 if2/5 asbr_east dist_arl.00 lag-1 core_east dist_arl.00 if2/8 core_west dist_msq.00 if2/5 asbr_east dist_msq.00 lag-1 core_east dist_msq.00 if2/8 core_west acc_arl.00 if2/5 asbr_east acc_arl.00 lag-1 core_east acc_arl.00 if2/8 core_west

page 34-46

acc_msq.00 acc_msq.00 acc_msq.00 acc_msq.03 acc_msq.03 acc_msq.03 acc_msq.04 acc_msq.04 acc_msq.04
if2/5 lag-1 if2/8 if2/5 lag-1 if2/8 if2/5 lag-1 if2/8
asbr_east core_east core_west asbr_east core_east core_west asbr_east core_east core_west
output definitions Node Interface Nexthop The pseudo-node value of the routers. This is a one byte circuit ID along with the system ID. The Interface name of the router. The host name of the Next Hop router.
-> show ip isis spf detail ================================================================= ISIS Path Table ================================================================= Node : kite-53.00 Metric : 10 Interface : vlan2 SNPA : 00:d0:95:f3:0f:08 Nexthop : kite-53

Node Interface Nexthop

: kite-53.00 : vlan3 : kite-53

Metric SNPA

: 10 : 00:d0:95:f3:0f:08
: kite-53.00 : vlan4 : kite-53

CRP Interval CRP Priority Data Timeout Join/Prune Interval Max RPs Probe Time

page 36-64

output definitions (continued) Register Checksum The current application of the checksum function on register messages in the domain. Options include header and full. The default setting is header. To change the current checksum function, refer to the ip pim register checksum command on page 36-28. The amount of time, in seconds, the Designated Router (DR) will stop sending registers to the Rendezvous Point (RP) once a Register-Stop is received (1300). The default value is 60. Displays the current RP data rate threshold. This value indicates the rate, in bits per second (bps), at which the Rendezvous Point (RP) will attempt to switch to native forwarding by issuing a (S, G) Join message toward the source. Values may range from 02147483647. The default value is 65536. A value of 0 indicates that the feature is currently disabled. To change the current RP threshold, refer to the ip pim rpthreshold command on page 36-15. The current status of last hop Designated Router (DR) switching to the Shortest Path Tree (SPT). Options include enabled and disabled. The default setting is enabled. To change the current status, refer to the ip pim spt status command on page 36-30. Displays whether the static RP configuration is currently enabled or disabled. Options include enabled and disabled. The default setting is disabled. To change the current status, refer to the ip pim static-rp status command on page 36-9. The maximum amount of time, in seconds, the router will continue to originate State Refresh messages from source, in the absence of traffic. To change the current source lifetime, refer to the ip pim source-lifetime command on page 36-31. The time-interval, in seconds, between successive State Refresh messages originated by the router. To change the current state refresh interval, refer to the ip pim state-refresh-interval command on page 36-32. Displays the limit at which a router will not forward the State Refresh messages, if they are received at less than the interval. To change the current limit, refer to the ip pim state-refresh-limit command on page 36-33. Displays the TTL to be used in the routers originated State Refresh messages. To change the current state refresh ttl, refer to the ip pim state-refresh-ttl command on page 36-34.
Register Suppress Timeout

RP Threshold

SPT Status

Static RP Configuration

Source Lifetime

State Refresh Interval

State Refresh Limit Interval

State Refresh TTL

page 36-65
show ip pim interface Displays the PIM protocol status for a specific interface.
alaPimsmGlobalConfig alaPimsmAdminStatus alaPimsmAdminBSRAddress alaPimsmBSRHashmasklen alaPimsmAdminBSRPriority alaPimsmAdminCRPExpiryTime alaPimsmAdminCRPInterval alaPimsmAdminCRPAddress alaPimsmAdminCRPPriority alaPimsmDataTimeout alaPimsmMaxRPs alaPimsmProbeTime alaPimsmOldRegisterMessageSupport alaPimsmRegisterSuppressionTimeout alaPimsmAdminStaticRPConfig alaPimsmAdminSPTConfig alaPimsmRPThreshold pimComponentTable pimComponentBSRExpiryTime pimComponentCRPHoldTime pimComponentBSRAddress pimSourceLifetime pimStateRefreshInterval pimStateRefreshLimitInterval pimStateRefreshTimeToLive pim pimJoinPruneInterval

page 44-100

policy condition destination vlan
Configures a destination VLAN (multicast only) for a policy condition. Use the no form of the command to remove a destination VLAN from a condition. policy condition condition_name destination vlan vlan_id policy condition condition_name no destination vlan
condition_name vlan_id The name of the condition. May be an existing condition name or a new condition. The destination VLAN ID for the flow.
Use the no form of this command to remove a destination VLAN from a condition; however, at least
Note that this condition is supported for multicast only policies.
-> policy condition cond4 destination vlan 3

page 44-101

alaQoSConditionTable alaQoSConditionName alaQoSConditionDestinationVlan alaQoSAppliedConditionTable alaQoSAppliedConditionName alaQoSAppliedConditionDestinationVlan

page 44-102

policy condition 802.1p
Configures the 802.1p value for a policy condition. Use the no form of the command to remove an 802.1p value from a condition. policy condition condition_name 802.1p 802.1p_value policy condition condition_name no 802.1p
condition_name 802.1p_value The name of the condition. May be an existing condition name or a new condition. The 802.1p value in the 802.1Q VLAN tag for the flow. Values range from 0 (lowest priority) to 7 (highest priority).
Use the no form of the command to remove an 802.1p value for a condition; however, at least one classification parameter must be associated with a condition.
-> policy condition cond3 802.1p 7

page 44-103

alaQoSConditionTable alaQoSConditionName alaQoSCondition8021p alaQoSAppliedConditionTable alaQoSAppliedConditionName alaQoSAppliedCondition8021p

page 44-104

policy condition source port
Configures a source port number for a policy condition. Use the no form of the command to remove a source port number from a condition. policy condition condition_name source port slot/port[-port] policy condition condition_name no source port
condition_name slot/port The name of the condition. May be an existing condition name or a new condition. The slot and port number (or range of ports) on which the frame is received.
Use the no form of the command to remove a source port from a condition; however, at least one classification parameter must be associated with a condition.
-> policy condition cond2 source port 3/1 -> policy condition cond3 source port 3/2-4

page 44-105

alaQoSConditionTable alaQoSConditionName alaQoSConditionSourceSlot alaQoSConditionSourcePort alaQoSConditionSourcePortEnd alaQoSAppliedConditionTable alaQoSAppliedConditionName alaQoSAppliedConditionSourceSlot alaQoSAppliedConditionSourcePort alaQoSAppliedConditionSourcePortEnd

page 44-117

policy action shared
Enables queues created by a particular action to be shared. policy action action_name shared policy action action_name no shared
action_name The name of the action.
By default, queues created by an action are not shared.
If multiple rules have the same action, more than one flow may be scheduled on the same queue if the
queue is defined as shared; otherwise, a separate queue is created for each flow.
Note that flows must be sent over the same virtual port for the flows to share a queue. For example,
flows with the same 802.1Q tag may share the same queue.
Use the no form of the command to disable sharing.
-> policy action action5 shared -> policy action action5 no shared
policy action qos apply show policy action Creates a policy action. Applies configured QoS and policy settings to the current configuration. Displays information about actions configured on the switch.

page 44-118

alaQoSActionTable alaQoSActionName alaQoSActionShared alaQoSAppliedActionTable alaQoSAppliedActionName alaQoSAppliedActionShared

page 44-119

policy action priority
Configures the priority for queuing a flow to which the QoS action applies. policy action action_name priority priority_value policy action action_name no priority
action_name priority_value The name of the action. The priority given to scheduling traffic on the output port. Values range from 0 (lowest) to 7 (highest).
Use the no form of this command to remove a priority value from an action. This priority value is independent of 802.1Q, Type of Service (ToS), or Differentiated Services Code

Point (DSCP) values.

Note that the value displayed on the show qos queue screen may be different from the value entered
-> policy action action1 priority 1 -> policy action action1 no priority
qos apply policy action show policy action Applies configured QoS and policy settings to the current configuration. Creates a policy action. Displays information about actions configured on the switch.

page 44-120

alaQoSActionTable alaQoSActionName alaQoSActionPriority alaQoSActionPriorityStatus alaQoSAppliedActionTable alaQoSAppliedActionName alaQoSAppliedActionPriority alaQoSAppliedActionPriorityStatus

page 44-121

policy action maximum bandwidth
Configures a maximum bandwidth value for a policy action. policy action action_name maximum bandwidth bps policy action action_name no maximum bandwidth