intVlanC.addSC("arp", "Set arp type (arpa, probe, snap) or timeout"); intVlanC.arp.addSC("arpa", "Standard arp protocol"); intVlanC.arp.addSC("frame-relay", "Enable ARP for a frame relay interface"); intVlanC.arp.addSC("probe", "HP style arp protocol"); intVlanC.arp.addSC("snap", "IEEE 802.3 style arp"); intVlanC.arp.addSC("timeout", "Set ARP cache timeout"); intVlanC.arp.timeout.addSC("<0-2147483>", "Seconds"); intVlanC.addSC("backup", "Modify backup parameters"); intVlanC.backup.addSC("delay", "Delays before backup line up or down transitions"); intVlanC.backup.delay.addSC("<0-4294967294>", "Seconds"); intVlanC.backup.delay["<0-4294967294>"].addSC("never", "Never deactivate the backup line"); intVlanC.backup.delay.addSC("never", "Never activate the backup line"); intVlanC.backup.delay.never.addSC("<0-4294967294>", "Seconds"); intVlanC.backup.delay.never.addSC("never", "Never deactivate the backup line"); intVlanC.backup.addSC("interface", "Configure an interface as a backup"); intVlanC.backup.interface.addSC("Async", "Async interface"); intVlanC.backup.interface.Async.addSC("<1-0>", "Async interface number"); intVlanC.backup.interface.addSC("BVI", "Bridge-Group Virtual Interface"); intVlanC.backup.interface.BVI.addSC("<1-255>", "BVI interface number"); intVlanC.backup.interface.addSC("Dialer", "Dialer interface"); intVlanC.backup.interface.Dialer.addSC("<0-255>", "Dialer interface number"); intVlanC.backup.interface.addSC("GE-WAN", "GigabitEthernetWAN IEEE 802.3z"); intVlanC.backup.interface["GE-WAN"].addSC("<1-6>", "GE-WAN interface number"); intVlanC.backup.interface.addSC("GigabitEthernet", "GigabitEthernet IEEE 802.3z"); intVlanC.backup.interface.GigabitEthernet.addSC("<1-6>", "GigabitEthernet interface number"); intVlanC.backup.interface.addSC("Group-Async", "Async Group interface"); intVlanC.backup.interface["Group-Async"].addSC("<0-0>", "Group-Async interface number"); intVlanC.backup.interface.addSC("Lex", "Lex interface"); intVlanC.backup.interface.Lex.addSC("<0-2147483647>", "Lex interface number"); intVlanC.backup.interface.addSC("Loopback", "Loopback interface"); intVlanC.backup.interface.Loopback.addSC("<0-2147483647>", "Loopback interface number"); intVlanC.backup.interface.addSC("Multilink", "Multilink-group interface"); intVlanC.backup.interface.Multilink.addSC("<0-2147483647>", "Multilink interface number"); intVlanC.addSC("bandwidth", "Set bandwidth informational parameter"); intVlanC.bandwidth.addSC("<1-10000000>", "Bandwidth in kilobits"); intVlanC.addSC("bgp-policy", "Apply policy propogated by bgp community string"); intVlanC["bgp-policy"].addSC("accounting", "bgp based policy accounting of traffic"); intVlanC["bgp-policy"].addSC("destination", "use destination IP address for route lookup"); intVlanC["bgp-policy"].destination.addSC("ip-prec-map", "map ip precedence bits"); intVlanC["bgp-policy"].destination.addSC("ip-qos-map", "set qos-group"); intVlanC["bgp-policy"].addSC("source", "use source IP address for route lookup"); intVlanC["bgp-policy"].source.addSC("ip-prec-map", "map ip precedence bits"); intVlanC["bgp-policy"].source.addSC("ip-qos-map", "set qos-group"); intVlanC.addSC("carrier-delay", "Specify delay for interface transitions"); intVlanC["carrier-delay"].addSC("<0-60>", "Carrier Transitions delay seconds"); intVlanC["carrier-delay"].addSC("msec", "delay specified in milliseconds"); intVlanC["carrier-delay"].msec.addSC("<0-1000>", "Carrier Transitions delay milliseconds"); intVlanC.addSC("cdp", "CDP interface subcommands"); intVlanC.cdp.addSC("enable", "Enable CDP on interface"); intVlanC.addSC("custom-queue-list", "Assign a custom queue list to an interface"); intVlanC["custom-queue-list"].addSC("<1-16>", "Custom queue list number"); intVlanC.addSC("default", "Set a command to its defaults"); intVlanC["default"].addSC("arp", "Set arp type (arpa, probe, snap) or timeout"); intVlanC.addSC("delay", "Specify interface throughput delay"); intVlanC.delay.addSC("<1-16777215>", "Throughput delay (tens of microseconds)"); intVlanC.addSC("description", "Interface specific description"); intVlanC.description.addSC("LINE", "Up to 240 characters describing this interface"); intVlanC.addSC("exit", "Exit from interface configuration mode"); intVlanC.addSC("fair-queue", "Enable Fair Queuing on an Interface"); intVlanC["fair-queue"].addSC("<1-4096>", "Congestive Discard Threshold"); intVlanC["fair-queue"]["<1-4096>"].addSC("<16-4096>", "Number Dynamic Conversation Queues"); intVlanC["fair-queue"]["<1-4096>"]["<16-4096>"].addSC("<0-1000>", "Number Reservable Conversation Queues"); intVlanC.addSC("help", "Description of the interactive help system"); intVlanC.addSC("ip", "Interface Internet Protocol config commands"); intVlanC.ip.addSC("access-group", "Specify access control for packets"); intVlanC.ip["access-group"].addSC("<1-199>", "IP access list (standard or extended)"); intVlanC.ip["access-group"]["<1-199>"].addSC("in", "inbound packets"); intVlanC.ip["access-group"]["<1-199>"].addSC("out", "outbound packets"); intVlanC.ip["access-group"].addSC("<1300-2699>", "IP expanded access list (standard or extended)"); intVlanC.ip["access-group"]["<1300-2699>"].addSC("in", "inbound packets"); intVlanC.ip["access-group"]["<1300-2699>"].addSC("out", "outbound packets"); intVlanC.ip["access-group"].addSC("WORD", "Access-list name"); intVlanC.ip["access-group"].WORD.addSC("in", "inbound packets"); intVlanC.ip["access-group"].WORD.addSC("out", "outbound packets"); intVlanC.ip.addSC("address", "Set the IP address of an interface"); intVlanC.ip.address.addSC("A.B.C.D", "IP address"); intVlanC.ip.address["A.B.C.D"].addSC("A.B.C.D", "IP subnet mask"); intVlanC.ip.address["A.B.C.D"]["A.B.C.D"].addSC("secondary", "Make this IP address a secondary address"); intVlanC.ip.addSC("bgp", "BGP interface commands"); intVlanC.ip.bgp.addSC("fast-external-fallover", "Over-ride bgp global fast-failover whenexternal peer goes down"); intVlanC.ip.bgp["fast-external-fallover"].addSC("deny", "dis-allow fast fallover"); intVlanC.ip.bgp["fast-external-fallover"].addSC("permit", "allow fast fallover"); intVlanC.ip.addSC("broadcast-address", "Set the broadcast address of an interface"); intVlanC.ip["broadcast-address"].addSC("A.B.C.D", "IP broadcast address"); intVlanC.ip.addSC("cgmp", "Enable/disable CGMP"); intVlanC.ip.cgmp.addSC("proxy", "CGMP for hosts and proxy for multicast routers"); intVlanC.ip.cgmp.addSC("router-only", "CGMP proxy for multicast routers only"); intVlanC.ip.addSC("hello-interval", "Configures IP-EIGRP hello interval"); intVlanC.ip["hello-interval"].addSC("eigrp", "Enhanced Interior Gateway Routing Protocol (EIGRP)"); intVlanC.ip["hello-interval"].eigrp.addSC("<1-65535>", "Autonomous system number"); intVlanC.ip["hello-interval"].eigrp["<1-65535>"].addSC("<1-65535>", "Seconds between hello transmissions"); intVlanC.ip.addSC("igmp", "IGMP interface commands"); intVlanC.ip.igmp.addSC("access-group", "IGMP group access group"); intVlanC.ip.igmp["access-group"].addSC("<1-99>", "Access list number"); intVlanC.ip.igmp["access-group"].addSC("WORD", "IP Named Standard Access list"); intVlanC.ip.igmp.addSC("helper-address", "IGMP helper address"); intVlanC.ip.igmp["helper-address"].addSC("A.B.C.D", "IGMP helper address"); intVlanC.ip.igmp["helper-address"].addSC("udl", "Unidirectional link to forward the report"); intVlanC.ip.addSC("multicast", "IP multicast interface commands"); intVlanC.ip.multicast.addSC("helper-map", "Broadcast to Multicast map OR Multicast to Broadcast map"); intVlanC.ip.multicast["helper-map"].addSC("A.B.C.D", "IP multicast address"); intVlanC.ip.multicast["helper-map"]["A.B.C.D"].addSC("A.B.C.D", "IP multicast address or IP broadcast address"); intVlanC.ip.multicast["helper-map"]["A.B.C.D"]["A.B.C.D"].addSC("<100-199>", "access-list"); intVlanC.ip.multicast["helper-map"]["A.B.C.D"]["A.B.C.D"].addSC("<2000-2699>", "access-list (expanded range)"); intVlanC.ip.multicast["helper-map"]["A.B.C.D"]["A.B.C.D"].addSC("WORD", "IP Named Extended Access list"); intVlanC.ip.multicast["helper-map"].addSC("broadcast", "Broadcast address"); intVlanC.ip.multicast["helper-map"].broadcast.addSC("A.B.C.D", "IP multicast address or IP broadcast address"); intVlanC.ip.multicast["helper-map"].broadcast["A.B.C.D"].addSC("<100-199>", "access-list"); intVlanC.ip.multicast["helper-map"].broadcast["A.B.C.D"].addSC("<2000-2699>", "access-list (expanded range)"); intVlanC.ip.multicast["helper-map"].broadcast["A.B.C.D"].addSC("WORD", "IP Named Extended Access list"); intVlanC.ip.addSC("ospf", "OSPF interface commands"); intVlanC.ip.ospf.addSC("authentication", "Enable authentication"); intVlanC.ip.ospf.authentication.addSC("message-digest", "Use message-digest authentication"); intVlanC.ip.ospf.authentication.addSC("null", "Use no authentication"); intVlanC.ip.ospf.addSC("authentication-key", "Authentication password (key)"); intVlanC.ip.ospf["authentication-key"].addSC("<0-7>", "Encryption type (0 for not yet encrypted, 7 for proprietary)"); intVlanC.ip.ospf["authentication-key"].addSC("LINE", "The OSPF password (key)"); intVlanC.ip.ospf.addSC("cost", "Interface cost"); intVlanC.ip.ospf.cost.addSC("<1-65535>", "Cost"); intVlanC.ip.ospf.addSC("database-filter", "Filter OSPF LSA during synchronization and flooding"); intVlanC.ip.ospf["database-filter"].addSC("all", "Filter all LSA"); intVlanC.ip.ospf["database-filter"].all.addSC("out", "Outgoing LSA"); intVlanC.ip.ospf.addSC("dead-interval", "Interval after which a neighbor is declared dead"); intVlanC.ip.ospf["dead-interval"].addSC("<1-65535>", "Seconds"); intVlanC.ip.ospf.addSC("demand-circuit", "OSPF demand circuit"); intVlanC.ip.ospf.addSC("hello-interval", "Time between HELLO packets"); intVlanC.ip.ospf["hello-interval"].addSC("<1-65535>", "Seconds"); intVlanC.ip.ospf.addSC("message-digest-key", "Message digest authentication password (key)"); intVlanC.ip.ospf["message-digest-key"].addSC("<1-255>", "Key ID"); intVlanC.ip.ospf["message-digest-key"]["<1-255>"].addSC("md5", "Use MD5 algorithm"); intVlanC.ip.ospf["message-digest-key"]["<1-255>"].md5.addSC("<0-7>", "Encryption type (0 for not yet encrypted, 7 for proprietary)"); intVlanC.ip.ospf["message-digest-key"]["<1-255>"].md5.addSC("LINE", "The OSPF password (key)"); intVlanC.ip.ospf.addSC("mtu-ignore", "Ignores the MTU in DBD packets"); intVlanC.ip.ospf.addSC("network", "Network type"); intVlanC.ip.ospf.network.addSC("broadcast", "Specify OSPF broadcast multi-access network"); intVlanC.ip.ospf.network.addSC("non-broadcast", "Specify OSPF NBMA network"); intVlanC.ip.ospf.network.addSC("point-to-multipoint", "Specify OSPF point-to-multipoint network"); intVlanC.ip.ospf.network["point-to-multipoint"].addSC("non-broadcast", "Specify non-broadcast point-to-mpoint network"); intVlanC.ip.ospf.network.addSC("point-to-point", "Specify OSPF point-to-point network"); intVlanC.ip.ospf.addSC("priority", "Router priority"); intVlanC.ip.ospf.priority.addSC("<0-255>", "Priority"); intVlanC.ip.ospf.addSC("retransmit-interval", "Time between retransmitting lost link state advertisements"); intVlanC.ip.ospf["retransmit-interval"].addSC("<1-65535>", "Seconds"); intVlanC.ip.ospf.addSC("transmit-delay", "Link state transmit delay"); intVlanC.ip.ospf["transmit-delay"].addSC("<1-65535>", "Seconds"); intVlanC.ip.addSC("rip", "Router Information Protocol"); intVlanC.ip.rip.addSC("authentication", "Authentication control"); intVlanC.ip.rip.authentication.addSC("key-chain", "Authentication key-chain"); intVlanC.ip.rip.authentication["key-chain"].addSC("LINE", "name of key-chain"); intVlanC.ip.rip.authentication.addSC("mode", "Authentication mode"); intVlanC.ip.rip.authentication.mode.addSC("md5", "Keyed message digest"); intVlanC.ip.rip.authentication.mode.addSC("text", "Clear text authentication"); intVlanC.ip.rip.addSC("receive", "advertisement reception"); intVlanC.ip.rip.receive.addSC("version", "version control"); intVlanC.ip.rip.receive.version.addSC("<1-1>", "RIP version 1"); intVlanC.ip.rip.receive.version.addSC("<2-2>", "RIP version 2"); intVlanC.ip.rip.addSC("send", "advertisement transmission"); intVlanC.ip.rip.send.addSC("version", "version control"); intVlanC.ip.rip.send.version.addSC("<1-1>", "RIP version 1"); intVlanC.ip.rip.send.version.addSC("<2-2>", "RIP version 2"); intVlanC.ip.addSC("split-horizon", "Perform split horizon"); intVlanC.ip["split-horizon"].addSC("eigrp", "Enhanced Interior Gateway Routing Protocol (EIGRP)"); intVlanC.ip["split-horizon"].eigrp.addSC("<1-65535>", "Autonomous system number"); intVlanC.ip.addSC("summary-address", "Perform address summarization"); intVlanC.ip["summary-address"].addSC("eigrp", "Enhanced Interior Gateway Routing Protocol (EIGRP)"); intVlanC.ip["summary-address"].eigrp.addSC("<1-65535>", "Autonomous system number"); intVlanC.ip["summary-address"].eigrp["<1-65535>"].addSC("A.B.C.D", "IP address"); intVlanC.ip["summary-address"].eigrp["<1-65535>"]["A.B.C.D"].addSC("A.B.C.D", "IP network mask"); intVlanC.ip["summary-address"].eigrp["<1-65535>"]["A.B.C.D"]["A.B.C.D"].addSC("<1-255>", "Administrative distance"); intVlanC.ip["summary-address"].addSC("rip", "Routing Information Protocol (RIP)"); intVlanC.ip["summary-address"].rip.addSC("A.B.C.D", "IP address"); intVlanC.ip["summary-address"].rip["A.B.C.D"].addSC("A.B.C.D", "IP network mask"); intVlanC.ip.addSC("tcp", "TCP header compression parameters"); intVlanC.ip.tcp.addSC("compression-connections", "Maximum number of compressed connections"); intVlanC.ip.tcp["compression-connections"].addSC("<3-256>", "Number of connections"); intVlanC.ip.tcp.addSC("header-compression", "Enable TCP header compression"); intVlanC.ip.tcp["header-compression"].addSC("passive", "Compress only for destinations which send compressed headers"); intVlanC.ip.addSC("unnumbered", "Enable IP processing without an explicit address"); intVlanC.addSC("load-interval", "Specify interval for load calculation for an interface"); intVlanC["load-interval"].addSC("<30-600>", "Load interval delay in seconds"); intVlanC.addSC("logging", "Configure logging for interface"); intVlanC.logging.addSC("event", "Interface events"); intVlanC.logging.event.addSC("link-status", "UPDOWN and CHANGE messages"); intVlanC.addSC("loopback", "Configure internal loopback on an interface"); intVlanC.addSC("max-reserved-bandwidth", "Maximum Reservable Bandwidth on an Interface"); intVlanC["max-reserved-bandwidth"].addSC("<1-100>", "Max. reservable bandwidth as % of interface bandwidth"); intVlanC.addSC("no", "Negate a command or set its defaults"); intVlanC.no.addSC("arp", "Set arp type (arpa, probe, snap) or timeout"); intVlanC.no.arp.addSC("arpa", "Standard arp protocol"); intVlanC.no.arp.addSC("frame-relay", "Enable ARP for a frame relay interface"); intVlanC.no.arp.addSC("probe", "HP style arp protocol"); intVlanC.no.arp.addSC("snap", "IEEE 802.3 style arp"); intVlanC.no.arp.addSC("timeout", "Set ARP cache timeout"); intVlanC.no.addSC("backup", "Modify backup parameters"); intVlanC.no.backup.addSC("delay", "Delays before backup line up or down transitions"); intVlanC.no.backup.addSC("interface", "Configure an interface as a backup"); intVlanC.no.backup.addSC("load", "Load thresholds for line up or down transitions"); intVlanC.no.addSC("bandwidth", "Set bandwidth informational parameter"); intVlanC.no.addSC("bgp-policy", "Apply policy propogated by bgp community string"); intVlanC.no["bgp-policy"].addSC("accounting", "bgp based policy accounting of traffic"); intVlanC.no["bgp-policy"].addSC("destination", "use destination IP address for route lookup"); intVlanC.no["bgp-policy"].addSC("source", "use source IP address for route lookup"); intVlanC.no.addSC("carrier-delay", "Specify delay for interface transitions"); intVlanC.no.addSC("cdp", "CDP interface subcommands"); intVlanC.no.cdp.addSC("enable", "Enable CDP on interface"); intVlanC.no.addSC("custom-queue-list", "Assign a custom queue list to an interface"); intVlanC.no.addSC("delay", "Specify interface throughput delay"); intVlanC.no.addSC("description", "Interface specific description"); intVlanC.no.addSC("fair-queue", "Enable Fair Queuing on an Interface"); intVlanC.no["fair-queue"].addSC("<1-4096>", "Congestive Discard Threshold"); intVlanC.no.addSC("hold-queue", "Set hold queue depth"); intVlanC.no["hold-queue"].addSC("<0-4096>", "Queue length"); intVlanC.no["hold-queue"].addSC("in", "Input queue"); intVlanC.no["hold-queue"].addSC("out", "Output queue"); intVlanC.no.addSC("ip", "Interface Internet Protocol config commands"); intVlanC.no.addSC("load-interval", "Specify interval for load calculation for an interface"); intVlanC.no.addSC("logging", "Configure logging for interface"); intVlanC.no.logging.addSC("event", "Interface events"); intVlanC.no.addSC("loopback", "Configure internal loopback on an interface"); intVlanC.no.addSC("max-reserved-bandwidth", "Maximum Reservable Bandwidth on an Interface"); intVlanC.no["max-reserved-bandwidth"].addSC("<1-100>", "Max. reservable bandwidth as % of interface bandwidth"); intVlanC.addSC("ntp", "Configure NTP"); intVlanC.ntp.addSC("broadcast", "Configure NTP broadcast service"); intVlanC.addSC("priority-group", "Assign a priority group to an interface"); intVlanC["priority-group"].addSC("<1-16>", "Priority group"); intVlanC.addSC("private-vlan", "Configure private VLAN SVI interface settings"); intVlanC["private-vlan"].addSC("mapping", "Set the private VLAN SVI interface mapping"); intVlanC["private-vlan"].mapping.addSC("WORD", "Secondary VLAN IDs of the private VLAN SVI interface mapping"); intVlanC["private-vlan"].mapping.addSC("add", "Add a VLAN to private VLAN list"); intVlanC["private-vlan"].mapping.addSC("remove", "Remove a VLAN from private VLAN list"); intVlanC.addSC("qos", "QoS configuration"); intVlanC.addSC("random-detect", "Enable Weighted Random Early Detection (WRED) on an Interface"); intVlanC.addSC("rate-limit", "Rate Limit"); intVlanC["rate-limit"].addSC("input", "Rate limit on input"); intVlanC["rate-limit"].input.addSC("<8000-2000000000>", "Bits per second"); intVlanC["rate-limit"].input.addSC("access-group", "Match access list"); intVlanC["rate-limit"].input.addSC("dscp", "Match dscp value"); intVlanC["rate-limit"].input.addSC("qos-group", "Match qos-group ID"); intVlanC["rate-limit"].addSC("output", "Rate limit on output"); intVlanC["rate-limit"].output.addSC("<8000-2000000000>", "Bits per second"); intVlanC["rate-limit"].output.addSC("access-group", "Match access list"); intVlanC["rate-limit"].output.addSC("dscp", "Match dscp value"); intVlanC["rate-limit"].output.addSC("qos-group", "Match qos-group ID");intVlanC.addSC("rmon", "Configure Remote Monitoring on an interface"); intVlanC.rmon.addSC("collection", "Configure Remote Monitoring Collection on an interface"); intVlanC.rmon.collection.addSC("history", "Configure history"); intVlanC.rmon.collection.addSC("stats", "Configure statistics"); intVlanC.rmon.addSC("native", "Monitor the interface in native mode"); intVlanC.rmon.addSC("promiscuous", "Monitor the interface in promiscuous mode"); intVlanC.addSC("service-policy", "Configure QoS Service Policy"); intVlanC.addSC("shutdown", "Shutdown the selected interface"); intVlanC.addSC("snmp", "Modify SNMP interface parameters"); intVlanC.snmp.addSC("trap", "Allow a specific SNMP trap"); intVlanC.snmp.trap.addSC("link-status", "Allow SNMP LINKUP and LINKDOWN traps"); intVlanC.addSC("spanning-tree", "Spanning Tree Subsystem"); intVlanC["spanning-tree"].addSC("cost", "Change an interface's spanning tree port path cost"); intVlanC["spanning-tree"].cost.addSC("<1-200000000>", "port path cost"); intVlanC["spanning-tree"].addSC("guard", "Change an interface's spanning tree guard mode"); intVlanC["spanning-tree"].guard.addSC("none", "Set guard mode to none"); intVlanC["spanning-tree"].guard.addSC("root", "Set guard mode to root guard on interface"); intVlanC["spanning-tree"].addSC("port-priority", "Change an interface's spanning tree port priority"); intVlanC["spanning-tree"]["port-priority"].addSC("<0-240>", "port priority in increments of 16"); intVlanC["spanning-tree"].addSC("portfast", "Enable an interface to move directly to forwarding on link up"); intVlanC.addSC("standby", "Hot standby interface subcommands"); intVlanC.standby.addSC("<0-255>", "group number"); intVlanC.standby.addSC("authentication", "Authentication string"); intVlanC.standby.authentication.addSC("WORD", "authentication string"); intVlanC.standby.addSC("ip", "Enable hot standby protocol for IP"); intVlanC.standby.ip.addSC("A.B.C.D", "Hot standby IP address"); intVlanC.standby.ip["A.B.C.D"].addSC("secondary", "Specify an additional Hot standby IP address"); intVlanC.standby.addSC("mac-address", "Specify virtual MAC address for the virtual router"); intVlanC.standby["mac-address"].addSC("H.H.H", "Standby MAC address"); intVlanC.standby.addSC("mac-refresh", "Refresh MAC cache on switch by periodically sendingpacket from virtual mac address"); intVlanC.standby["mac-refresh"].addSC("<0-255>", "Interval to refresh MAC cache"); intVlanC.standby.addSC("name", "Name string"); intVlanC.standby.name.addSC("WORD", "name string"); intVlanC.standby.addSC("priority", "Priority level"); intVlanC.standby.priority.addSC("<0-255>", "Priority value"); intVlanC.standby.priority["<0-255>"].addSC("preempt", "Overthrow lower priority designated routers"); intVlanC.standby.priority["<0-255>"].preempt.addSC("delay", "Wait before preempting"); intVlanC.standby.priority["<0-255>"].preempt.delay.addSC("<0-3600>", "Number of seconds to delay"); intVlanC.standby.priority["<0-255>"].preempt.delay.addSC("minimum", "Delay at least this long"); intVlanC.standby.priority["<0-255>"].preempt.delay.minimum.addSC("<0-3600>", "Number of seconds for minimum delay"); intVlanC.standby.priority["<0-255>"].preempt.delay.minimum["<0-3600>"].addSC("<0-3600>", "Number of seconds to delay"); intVlanC.standby.priority["<0-255>"].preempt.delay.addSC("sync", "Wait before sync to complete"); intVlanC.standby.priority["<0-255>"].preempt.delay.sync.addSC("<0-3600>", "Number of seconds for sync delay"); intVlanC.standby.priority["<0-255>"].preempt.delay.sync["<0-3600>"].addSC("<0-3600>", "Number of seconds to delay"); intVlanC.standby.priority["<0-255>"].preempt.delay.sync["<0-3600>"].addSC("minimum", "Delay at least this long"); intVlanC.standby.priority["<0-255>"].preempt.delay.sync["<0-3600>"].minimum.addSC("<0-3600>", "Number of seconds for minimum delay"); intVlanC.standby.priority["<0-255>"].preempt.delay.sync["<0-3600>"].minimum["<0-3600>"].addSC("<0-3600>", "Number of seconds to delay"); intVlanC.standby.addSC("timers", "Hot standby timers"); intVlanC.standby.timers.addSC("<1-255>", "Hello interval in seconds"); intVlanC.standby.timers["<1-255>"].addSC("<1-255>", "Holdtime in seconds"); intVlanC.standby.timers["<1-255>"]["<1-255>"].addSC("advertise", "Advertisement interval in seconds"); intVlanC.standby.timers["<1-255>"]["<1-255>"].advertise.addSC("<1-255>", "Advertisement interval in seconds"); intVlanC.standby.timers["<1-255>"].addSC("msec", "specify holdtime in milliseconds"); intVlanC.standby.timers["<1-255>"].msec.addSC("<20-1000>", "Holdtime in milliseconds"); intVlanC.standby.timers["<1-255>"].msec["<20-1000>"].addSC("advertise", "Advertisement interval in seconds"); intVlanC.standby.timers["<1-255>"].msec["<20-1000>"].advertise.addSC("<1-255>", "Advertisement interval in seconds"); intVlanC.standby.timers.addSC("msec", "specify hellotime in milliseconds"); intVlanC.standby.timers.msec.addSC("<20-1000>", "Hello interval in milliseconds"); intVlanC.standby.timers.msec["<20-1000>"].addSC("<1-255>", "Holdtime in seconds"); intVlanC.standby.timers.msec["<20-1000>"]["<1-255>"].addSC("advertise", "Advertisement interval in seconds"); intVlanC.standby.timers.msec["<20-1000>"]["<1-255>"].advertise.addSC("<1-255>", "Advertisement interval in seconds"); intVlanC.standby.timers.msec["<20-1000>"].addSC("msec", "specify holdtime in milliseconds"); intVlanC.standby.timers.msec["<20-1000>"].msec.addSC("<20-1000>", "Holdtime in milliseconds"); intVlanC.standby.timers.msec["<20-1000>"].msec["<20-1000>"].addSC("advertise", "Advertisement interval in seconds"); intVlanC.standby.timers.msec["<20-1000>"].msec["<20-1000>"].advertise.addSC("<1-255>", "Advertisement interval in seconds"); intVlanC.addSC("timeout", "Define timeout values for this interface"); intVlanC.timeout.addSC("absolute", "Define session timeout value for this interface"); intVlanC.timeout.absolute.addSC("<0-35790>", "Session lifetime (in minutes)"); intVlanC.addSC("traffic-shape", "Enable Traffic Shaping on an Interface or Sub-Interface"); intVlanC["traffic-shape"].addSC("group", "configure token bucket: group CIR (bps) [Bc (bits) [Be (bits)]]"); intVlanC["traffic-shape"].group.addSC("<1-2699>", "selecting Access list"); intVlanC["traffic-shape"].addSC("rate", "configure token bucket: CIR (bps) [Bc (bits) [Be (bits)]]"); intVlanC["traffic-shape"].rate.addSC("<8000-100000000>", "Target Bit Rate (bits per second)");