routerIGRPC.addSC("default", "Set a command to its defaults"); routerIGRPC.addSC("default-information", "Control distribution of default information"); routerIGRPC["default-information"].addSC("allowed", "Allow default information"); routerIGRPC["default-information"].addSC("in", "Accept default routing information"); routerIGRPC["default-information"]["in"].addSC("<1-99>", "A standard IP access list number"); routerIGRPC["default-information"]["in"].addSC("<1300-1999>", "A standard expanded IP access list number"); routerIGRPC["default-information"]["in"].addSC("WORD", "Standard Access-list name"); routerIGRPC["default-information"].addSC("out", "Output default routing information"); routerIGRPC["default-information"].out.addSC("<1-99>", "A standard IP access list number"); routerIGRPC["default-information"].out.addSC("<1300-1999>", "A standard expanded IP access list number"); routerIGRPC["default-information"].out.addSC("WORD", "Standard Access-list name"); routerIGRPC.addSC("default-metric", "Set metric of redistributed routes"); routerIGRPC["default-metric"].addSC("<1-4294967295>", "Bandwidth in Kbits per second"); routerIGRPC["default-metric"]["<1-4294967295>"].addSC("<0-4294967295>", "Delay metric, in 10 microsecond units"); routerIGRPC.addSC("distance", "Define an administrative distance"); routerIGRPC.distance.addSC("<1-255>", "Administrative distance"); routerIGRPC.distance["<1-255>"].addSC("A.B.C.D", "IP Source address"); routerIGRPC.distance["<1-255>"]["A.B.C.D"].addSC("A.B.C.D", "IP address mask"); routerIGRPC.distance["<1-255>"]["A.B.C.D"]["A.B.C.D"].addSC("<1-99>", "IP Standard access list number"); routerIGRPC.distance["<1-255>"]["A.B.C.D"]["A.B.C.D"].addSC("<1300-1999>", "IP Standard expanded access list number"); routerIGRPC.distance["<1-255>"]["A.B.C.D"]["A.B.C.D"].addSC("WORD", "Standard access-list name"); routerIGRPC.addSC("distribute-list", "Filter networks in routing updates"); routerIGRPC["distribute-list"].addSC("<1-199>", "IP access list number"); routerIGRPC["distribute-list"]["<1-199>"].addSC("in", "Filter incoming routing updates"); routerIGRPC["distribute-list"]["<1-199>"]["in"].addSC("GigabitEthernet", "GigabitEthernet IEEE 802.3z"); routerIGRPC["distribute-list"]["<1-199>"]["in"].GigabitEthernet.addSC("<0-2>", "GigabitEthernet interface number"); routerIGRPC["distribute-list"]["<1-199>"]["in"].addSC("Loopback", "Loopback interface"); routerIGRPC["distribute-list"]["<1-199>"]["in"].Loopback.addSC("<0-2147483647>", "Loopback interface number"); routerIGRPC["distribute-list"]["<1-199>"]["in"].addSC("Null", "Null interface"); routerIGRPC["distribute-list"]["<1-199>"]["in"].Null.addSC("<0-0>", "Null interface number"); routerIGRPC["distribute-list"]["<1-199>"]["in"].addSC("Vlan", "Catalyst Vlans"); routerIGRPC["distribute-list"]["<1-199>"]["in"].Vlan.addSC("<1-1001>", "Vlan interface number"); routerIGRPC["distribute-list"]["<1-199>"].addSC("out", "Filter outgoing routing updates"); routerIGRPC["distribute-list"]["<1-199>"].out.addSC("GigabitEthernet", "GigabitEthernet IEEE 802.3z"); routerIGRPC["distribute-list"]["<1-199>"].out.GigabitEthernet.addSC("<0-2>", "GigabitEthernet interface number"); routerIGRPC["distribute-list"]["<1-199>"].out.addSC("Loopback", "Loopback interface"); routerIGRPC["distribute-list"]["<1-199>"].out.Loopback.addSC("<0-2147483647>", "Loopback interface number"); routerIGRPC["distribute-list"]["<1-199>"].out.addSC("Null", "Null interface"); routerIGRPC["distribute-list"]["<1-199>"].out.Null.addSC("<0-0>", "Null interface number"); routerIGRPC["distribute-list"]["<1-199>"].out.addSC("Vlan", "Catalyst Vlans"); routerIGRPC["distribute-list"]["<1-199>"].out.Vlan.addSC("<1-1001>", "Vlan interface number"); routerIGRPC["distribute-list"]["<1-199>"].out.addSC("bgp", "Border Gateway Protocol (BGP)"); routerIGRPC["distribute-list"]["<1-199>"].out.bgp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"]["<1-199>"].out.addSC("connected", "Connected"); routerIGRPC["distribute-list"]["<1-199>"].out.addSC("egp", "Exterior Gateway Protocol (EGP)"); routerIGRPC["distribute-list"]["<1-199>"].out.egp.addSC("<0-65535>", "Remote autonomous system number"); routerIGRPC["distribute-list"]["<1-199>"].out.addSC("eigrp", "Enhanced Interior Gateway Routing Protocol (EIGRP)"); routerIGRPC["distribute-list"]["<1-199>"].out.eigrp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"]["<1-199>"].out.addSC("igrp", "Interior Gateway Routing Protocol (IGRP)"); routerIGRPC["distribute-list"]["<1-199>"].out.igrp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"]["<1-199>"].out.addSC("ospf", "Open Shortest Path First (OSPF)"); routerIGRPC["distribute-list"]["<1-199>"].out.ospf.addSC("<1-65535>", "Process ID"); routerIGRPC["distribute-list"]["<1-199>"].out.ospf["<1-65535>"].addSC("vrf", "VPN Routing/Forwarding Instance"); routerIGRPC["distribute-list"]["<1-199>"].out.ospf["<1-65535>"].vrf.addSC("WORD", "VPN Routing/Forwarding Instance (VRF) name"); routerIGRPC["distribute-list"]["<1-199>"].out.addSC("rip", "Routing Information Protocol (RIP)"); routerIGRPC["distribute-list"]["<1-199>"].out.addSC("static", "Static routes"); routerIGRPC["distribute-list"].addSC("<1300-2699>", "IP expanded access list number"); routerIGRPC["distribute-list"]["<1300-2699>"].addSC("in", "Filter incoming routing updates"); routerIGRPC["distribute-list"]["<1300-2699>"]["in"].addSC("GigabitEthernet", "GigabitEthernet IEEE 802.3z"); routerIGRPC["distribute-list"]["<1300-2699>"]["in"].GigabitEthernet.addSC("<0-2>", "GigabitEthernet interface number"); routerIGRPC["distribute-list"]["<1300-2699>"]["in"].addSC("Loopback", "Loopback interface"); routerIGRPC["distribute-list"]["<1300-2699>"]["in"].Loopback.addSC("<0-2147483647>", "Loopback interface number"); routerIGRPC["distribute-list"]["<1300-2699>"]["in"].addSC("Null", "Null interface"); routerIGRPC["distribute-list"]["<1300-2699>"]["in"].Null.addSC("<0-0>", "Null interface number"); routerIGRPC["distribute-list"]["<1300-2699>"]["in"].addSC("Vlan", "Catalyst Vlans"); routerIGRPC["distribute-list"]["<1300-2699>"]["in"].Vlan.addSC("<1-1001>", "Vlan interface number"); routerIGRPC["distribute-list"]["<1300-2699>"].addSC("out", "Filter outgoing routing updates"); routerIGRPC["distribute-list"]["<1300-2699>"].out.addSC("GigabitEthernet", "GigabitEthernet IEEE 802.3z"); routerIGRPC["distribute-list"]["<1300-2699>"].out.GigabitEthernet.addSC("<0-2>", "GigabitEthernet interface number"); routerIGRPC["distribute-list"]["<1300-2699>"].out.addSC("Loopback", "Loopback interface"); routerIGRPC["distribute-list"]["<1300-2699>"].out.Loopback.addSC("<0-2147483647>", "Loopback interface number"); routerIGRPC["distribute-list"]["<1300-2699>"].out.addSC("Null", "Null interface"); routerIGRPC["distribute-list"]["<1300-2699>"].out.Null.addSC("<0-0>", "Null interface number"); routerIGRPC["distribute-list"]["<1300-2699>"].out.addSC("Vlan", "Catalyst Vlans"); routerIGRPC["distribute-list"]["<1300-2699>"].out.Vlan.addSC("<1-1001>", "Vlan interface number"); routerIGRPC["distribute-list"]["<1300-2699>"].out.addSC("bgp", "Border Gateway Protocol (BGP)"); routerIGRPC["distribute-list"]["<1300-2699>"].out.bgp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"]["<1300-2699>"].out.addSC("connected", "Connected"); routerIGRPC["distribute-list"]["<1300-2699>"].out.addSC("egp", "Exterior Gateway Protocol (EGP)"); routerIGRPC["distribute-list"]["<1300-2699>"].out.egp.addSC("<0-65535>", "Remote autonomous system number"); routerIGRPC["distribute-list"]["<1300-2699>"].out.addSC("eigrp", "Enhanced Interior Gateway Routing Protocol (EIGRP)"); routerIGRPC["distribute-list"]["<1300-2699>"].out.eigrp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"]["<1300-2699>"].out.addSC("igrp", "Interior Gateway Routing Protocol (IGRP)"); routerIGRPC["distribute-list"]["<1300-2699>"].out.igrp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"]["<1300-2699>"].out.addSC("ospf", "Open Shortest Path First (OSPF)"); routerIGRPC["distribute-list"]["<1300-2699>"].out.ospf.addSC("<1-65535>", "Process ID"); routerIGRPC["distribute-list"]["<1300-2699>"].out.ospf["<1-65535>"].addSC("vrf", "VPN Routing/Forwarding Instance"); routerIGRPC["distribute-list"]["<1300-2699>"].out.ospf["<1-65535>"].vrf.addSC("WORD", "VPN Routing/Forwarding Instance (VRF) name"); routerIGRPC["distribute-list"]["<1300-2699>"].out.addSC("rip", "Routing Information Protocol (RIP)"); routerIGRPC["distribute-list"]["<1300-2699>"].out.addSC("static", "Static routes"); routerIGRPC["distribute-list"].addSC("WORD", "Access-list name"); routerIGRPC["distribute-list"].WORD.addSC("in", "Filter incoming routing updates"); routerIGRPC["distribute-list"].WORD["in"].addSC("GigabitEthernet", "GigabitEthernet IEEE 802.3z"); routerIGRPC["distribute-list"].WORD["in"].GigabitEthernet.addSC("<0-2>", "GigabitEthernet interface number"); routerIGRPC["distribute-list"].WORD["in"].addSC("Loopback", "Loopback interface"); routerIGRPC["distribute-list"].WORD["in"].Loopback.addSC("<0-2147483647>", "Loopback interface number"); routerIGRPC["distribute-list"].WORD["in"].addSC("Null", "Null interface"); routerIGRPC["distribute-list"].WORD["in"].Null.addSC("<0-0>", "Null interface number"); routerIGRPC["distribute-list"].WORD["in"].addSC("Vlan", "Catalyst Vlans"); routerIGRPC["distribute-list"].WORD["in"].Vlan.addSC("<1-1001>", "Vlan interface number"); routerIGRPC["distribute-list"].WORD.addSC("out", "Filter outgoing routing updates"); routerIGRPC["distribute-list"].WORD.out.addSC("GigabitEthernet", "GigabitEthernet IEEE 802.3z"); routerIGRPC["distribute-list"].WORD.out.GigabitEthernet.addSC("<0-2>", "GigabitEthernet interface number"); routerIGRPC["distribute-list"].WORD.out.addSC("Loopback", "Loopback interface"); routerIGRPC["distribute-list"].WORD.out.Loopback.addSC("<0-2147483647>", "Loopback interface number"); routerIGRPC["distribute-list"].WORD.out.addSC("Null", "Null interface"); routerIGRPC["distribute-list"].WORD.out.Null.addSC("<0-0>", "Null interface number"); routerIGRPC["distribute-list"].WORD.out.addSC("Vlan", "Catalyst Vlans"); routerIGRPC["distribute-list"].WORD.out.Vlan.addSC("<1-1001>", "Vlan interface number"); routerIGRPC["distribute-list"].WORD.out.addSC("bgp", "Border Gateway Protocol (BGP)"); routerIGRPC["distribute-list"].WORD.out.bgp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"].WORD.out.addSC("connected", "Connected"); routerIGRPC["distribute-list"].WORD.out.addSC("egp", "Exterior Gateway Protocol (EGP)"); routerIGRPC["distribute-list"].WORD.out.egp.addSC("<0-65535>", "Remote autonomous system number"); routerIGRPC["distribute-list"].WORD.out.addSC("eigrp", "Enhanced Interior Gateway Routing Protocol (EIGRP)"); routerIGRPC["distribute-list"].WORD.out.eigrp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"].WORD.out.addSC("igrp", "Interior Gateway Routing Protocol (IGRP)"); routerIGRPC["distribute-list"].WORD.out.igrp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"].WORD.out.addSC("ospf", "Open Shortest Path First (OSPF)"); routerIGRPC["distribute-list"].WORD.out.ospf.addSC("<1-65535>", "Process ID"); routerIGRPC["distribute-list"].WORD.out.ospf["<1-65535>"].addSC("vrf", "VPN Routing/Forwarding Instance"); routerIGRPC["distribute-list"].WORD.out.ospf["<1-65535>"].vrf.addSC("WORD", "VPN Routing/Forwarding Instance (VRF) name"); routerIGRPC["distribute-list"].WORD.out.addSC("rip", "Routing Information Protocol (RIP)"); routerIGRPC["distribute-list"].WORD.out.addSC("static", "Static routes"); routerIGRPC["distribute-list"].addSC("gateway", "Filtering incoming updates based on gateway"); routerIGRPC["distribute-list"].gateway.addSC("WORD", "Name of an IP prefix-list"); routerIGRPC["distribute-list"].gateway.WORD.addSC("in", "Filter incoming routing updates"); routerIGRPC["distribute-list"].gateway.WORD["in"].addSC("GigabitEthernet", "GigabitEthernet IEEE 802.3z"); routerIGRPC["distribute-list"].gateway.WORD["in"].GigabitEthernet.addSC("<0-2>", "GigabitEthernet interface number"); routerIGRPC["distribute-list"].gateway.WORD["in"].addSC("Loopback", "Loopback interface"); routerIGRPC["distribute-list"].gateway.WORD["in"].Loopback.addSC("<0-2147483647>", "Loopback interface number"); routerIGRPC["distribute-list"].gateway.WORD["in"].addSC("Null", "Null interface"); routerIGRPC["distribute-list"].gateway.WORD["in"].Null.addSC("<0-0>", "Null interface number"); routerIGRPC["distribute-list"].gateway.WORD["in"].addSC("Vlan", "Catalyst Vlans"); routerIGRPC["distribute-list"].gateway.WORD["in"].Vlan.addSC("<1-1001>", "Vlan interface number"); routerIGRPC["distribute-list"].gateway.WORD.addSC("out", "Filter outgoing routing updates"); routerIGRPC["distribute-list"].gateway.WORD.out.addSC("GigabitEthernet", "GigabitEthernet IEEE 802.3z"); routerIGRPC["distribute-list"].gateway.WORD.out.GigabitEthernet.addSC("<0-2>", "GigabitEthernet interface number"); routerIGRPC["distribute-list"].gateway.WORD.out.addSC("Loopback", "Loopback interface"); routerIGRPC["distribute-list"].gateway.WORD.out.Loopback.addSC("<0-2147483647>", "Loopback interface number"); routerIGRPC["distribute-list"].gateway.WORD.out.addSC("Null", "Null interface"); routerIGRPC["distribute-list"].gateway.WORD.out.Null.addSC("<0-0>", "Null interface number"); routerIGRPC["distribute-list"].gateway.WORD.out.addSC("Vlan", "Catalyst Vlans"); routerIGRPC["distribute-list"].gateway.WORD.out.Vlan.addSC("<1-1001>", "Vlan interface number"); routerIGRPC["distribute-list"].gateway.WORD.out.addSC("bgp", "Border Gateway Protocol (BGP)"); routerIGRPC["distribute-list"].gateway.WORD.out.bgp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"].gateway.WORD.out.addSC("connected", "Connected"); routerIGRPC["distribute-list"].gateway.WORD.out.addSC("egp", "Exterior Gateway Protocol (EGP)"); routerIGRPC["distribute-list"].gateway.WORD.out.egp.addSC("<0-65535>", "Remote autonomous system number"); routerIGRPC["distribute-list"].gateway.WORD.out.addSC("eigrp", "Enhanced Interior Gateway Routing Protocol (EIGRP)"); routerIGRPC["distribute-list"].gateway.WORD.out.eigrp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"].gateway.WORD.out.addSC("igrp", "Interior Gateway Routing Protocol (IGRP)"); routerIGRPC["distribute-list"].gateway.WORD.out.igrp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"].gateway.WORD.out.addSC("ospf", "Open Shortest Path First (OSPF)"); routerIGRPC["distribute-list"].gateway.WORD.out.ospf.addSC("<1-65535>", "Process ID"); routerIGRPC["distribute-list"].gateway.WORD.out.ospf["<1-65535>"].addSC("vrf", "VPN Routing/Forwarding Instance"); routerIGRPC["distribute-list"].gateway.WORD.out.ospf["<1-65535>"].vrf.addSC("WORD", "VPN Routing/Forwarding Instance (VRF) name"); routerIGRPC["distribute-list"].gateway.WORD.out.addSC("rip", "Routing Information Protocol (RIP)"); routerIGRPC["distribute-list"].gateway.WORD.out.addSC("static", "Static routes"); routerIGRPC["distribute-list"].addSC("prefix", "Filter prefixes in routing updates"); routerIGRPC["distribute-list"].prefix.addSC("WORD", "Name of an IP prefix-list"); routerIGRPC["distribute-list"].prefix.WORD.addSC("gateway", "Filtering incoming updates based on gateway"); routerIGRPC["distribute-list"].prefix.WORD.addSC("in", "Filter incoming routing updates"); routerIGRPC["distribute-list"].prefix.WORD["in"].addSC("GigabitEthernet", "GigabitEthernet IEEE 802.3z"); routerIGRPC["distribute-list"].prefix.WORD["in"].GigabitEthernet.addSC("<0-2>", "GigabitEthernet interface number"); routerIGRPC["distribute-list"].prefix.WORD["in"].addSC("Loopback", "Loopback interface"); routerIGRPC["distribute-list"].prefix.WORD["in"].Loopback.addSC("<0-2147483647>", "Loopback interface number"); routerIGRPC["distribute-list"].prefix.WORD["in"].addSC("Null", "Null interface"); routerIGRPC["distribute-list"].prefix.WORD["in"].Null.addSC("<0-0>", "Null interface number"); routerIGRPC["distribute-list"].prefix.WORD["in"].addSC("Vlan", "Catalyst Vlans"); routerIGRPC["distribute-list"].prefix.WORD["in"].Vlan.addSC("<1-1001>", "Vlan interface number"); routerIGRPC["distribute-list"].prefix.WORD.addSC("out", "Filter outgoing routing updates"); routerIGRPC["distribute-list"].prefix.WORD.out.addSC("GigabitEthernet", "GigabitEthernet IEEE 802.3z"); routerIGRPC["distribute-list"].prefix.WORD.out.GigabitEthernet.addSC("<0-2>", "GigabitEthernet interface number"); routerIGRPC["distribute-list"].prefix.WORD.out.addSC("Loopback", "Loopback interface"); routerIGRPC["distribute-list"].prefix.WORD.out.Loopback.addSC("<0-2147483647>", "Loopback interface number"); routerIGRPC["distribute-list"].prefix.WORD.out.addSC("Null", "Null interface"); routerIGRPC["distribute-list"].prefix.WORD.out.Null.addSC("<0-0>", "Null interface number"); routerIGRPC["distribute-list"].prefix.WORD.out.addSC("Vlan", "Catalyst Vlans"); routerIGRPC["distribute-list"].prefix.WORD.out.Vlan.addSC("<1-1001>", "Vlan interface number"); routerIGRPC["distribute-list"].prefix.WORD.out.addSC("bgp", "Border Gateway Protocol (BGP)"); routerIGRPC["distribute-list"].prefix.WORD.out.bgp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"].prefix.WORD.out.addSC("connected", "Connected"); routerIGRPC["distribute-list"].prefix.WORD.out.addSC("egp", "Exterior Gateway Protocol (EGP)"); routerIGRPC["distribute-list"].prefix.WORD.out.egp.addSC("<0-65535>", "Remote autonomous system number"); routerIGRPC["distribute-list"].prefix.WORD.out.addSC("eigrp", "Enhanced Interior Gateway Routing Protocol (EIGRP)"); routerIGRPC["distribute-list"].prefix.WORD.out.eigrp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"].prefix.WORD.out.addSC("igrp", "Interior Gateway Routing Protocol (IGRP)"); routerIGRPC["distribute-list"].prefix.WORD.out.igrp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC["distribute-list"].prefix.WORD.out.addSC("ospf", "Open Shortest Path First (OSPF)"); routerIGRPC["distribute-list"].prefix.WORD.out.ospf.addSC("<1-65535>", "Process ID"); routerIGRPC["distribute-list"].prefix.WORD.out.ospf["<1-65535>"].addSC("vrf", "VPN Routing/Forwarding Instance"); routerIGRPC["distribute-list"].prefix.WORD.out.ospf["<1-65535>"].vrf.addSC("WORD", "VPN Routing/Forwarding Instance (VRF) name"); routerIGRPC["distribute-list"].prefix.WORD.out.addSC("rip", "Routing Information Protocol (RIP)"); routerIGRPC["distribute-list"].prefix.WORD.out.addSC("static", "Static routes"); routerIGRPC.addSC("exit", "Exit from routing protocol configuration mode"); routerIGRPC.addSC("help", "Description of the interactive help system"); routerIGRPC.addSC("input-queue", "Specify input queue depth"); routerIGRPC["input-queue"].addSC("<0-1024>", "queue depth"); routerIGRPC.addSC("maximum-paths", "Forward packets over multiple paths"); routerIGRPC["maximum-paths"].addSC("<1-6>", "Number of paths"); routerIGRPC.addSC("metric", "Modify IGRP routing metrics and parameters"); routerIGRPC.metric.addSC("holddown", "Enable IGRP holddown"); routerIGRPC.metric.addSC("maximum-hops", "Advertise IGRP routes greater than as unreachable"); routerIGRPC.metric["maximum-hops"].addSC("<1-255>", "Hop count"); routerIGRPC.metric.addSC("weights", "Modify IGRP metric coefficients"); routerIGRPC.metric.weights.addSC("<0-8>", "Type Of Service (Only TOS 0 supported)"); routerIGRPC.metric.weights["<0-8>"].addSC("<0-4294967295>", "K1"); routerIGRPC.metric.weights["<0-8>"]["<0-4294967295>"].addSC("<0-4294967295>", "K2"); routerIGRPC.metric.weights["<0-8>"]["<0-4294967295>"]["<0-4294967295>"].addSC("<0-4294967295>", "K3"); routerIGRPC.metric.weights["<0-8>"]["<0-4294967295>"]["<0-4294967295>"]["<0-4294967295>"].addSC("<0-4294967295>", "K4"); routerIGRPC.metric.weights["<0-8>"]["<0-4294967295>"]["<0-4294967295>"]["<0-4294967295>"]["<0-4294967295>"].addSC("<0-4294967295>", "K5"); routerIGRPC.addSC("neighbor", "Specify a neighbor router"); routerIGRPC.neighbor.addSC("A.B.C.D", "Neighbor address"); routerIGRPC.addSC("network", "Enable routing on an IP network"); routerIGRPC.network.addSC("A.B.C.D", "Network number"); routerIGRPC.addSC("no", "Negate a command or set its defaults"); routerIGRPC.no.addSC("default-information", "Control distribution of default information"); routerIGRPC.no["default-information"].addSC("allowed", "Allow default information"); routerIGRPC.no["default-information"].addSC("in", "Accept default routing information"); routerIGRPC.no["default-information"].addSC("out", "Output default routing information"); routerIGRPC.no.addSC("default-metric", "Set metric of redistributed routes"); routerIGRPC.no.addSC("distance", "Define an administrative distance"); routerIGRPC.no.distance.addSC("<1-255>", "Administrative distance"); routerIGRPC.no.addSC("distribute-list", "Filter networks in routing updates"); routerIGRPC.no["distribute-list"].addSC("<1-199>", "IP access list number"); routerIGRPC.no["distribute-list"].addSC("<1300-2699>", "IP expanded access list number"); routerIGRPC.no["distribute-list"].addSC("WORD", "Access-list name"); routerIGRPC.no["distribute-list"].addSC("gateway", "Filtering incoming updates based on gateway"); routerIGRPC.no["distribute-list"].addSC("prefix", "Filter prefixes in routing updates"); routerIGRPC.no.addSC("input-queue", "Specify input queue depth"); routerIGRPC.no.addSC("maximum-paths", "Forward packets over multiple paths"); routerIGRPC.no.addSC("metric", "Modify IGRP routing metrics and parameters"); routerIGRPC.no.metric.addSC("holddown", "Enable IGRP holddown"); routerIGRPC.no.metric.addSC("maximum-hops", "Advertise IGRP routes greater than as unreachable"); routerIGRPC.no.metric.addSC("weights", "Modify IGRP metric coefficients"); routerIGRPC.no.addSC("neighbor", "Specify a neighbor router"); routerIGRPC.no.neighbor.addSC("A.B.C.D", "Neighbor address"); routerIGRPC.no.addSC("network", "Enable routing on an IP network"); routerIGRPC.no.network.addSC("A.B.C.D", "Network number"); routerIGRPC.addSC("offset-list", "Add or subtract offset from IGRP or RIP metrics"); routerIGRPC["offset-list"].addSC("<0-99>", "Access list of networks to apply offset (0 selects all networks)"); routerIGRPC["offset-list"]["<0-99>"].addSC("in", "Perform offset on incoming updates"); routerIGRPC["offset-list"]["<0-99>"].addSC("out", "Perform offset on outgoing updates"); routerIGRPC["offset-list"].addSC("<1300-1999>", "Access list of networks to apply offset (expanded range)"); routerIGRPC["offset-list"]["<1300-1999>"].addSC("in", "Perform offset on incoming updates"); routerIGRPC["offset-list"]["<1300-1999>"].addSC("out", "Perform offset on outgoing updates"); routerIGRPC["offset-list"].addSC("WORD", "Access-list name"); routerIGRPC["offset-list"].WORD.addSC("in", "Perform offset on incoming updates"); routerIGRPC["offset-list"].WORD.addSC("out", "Perform offset on outgoing updates"); routerIGRPC.addSC("passive-interface", "Suppress routing updates on an interface"); routerIGRPC["passive-interface"].addSC("GigabitEthernet", "GigabitEthernet IEEE 802.3z"); routerIGRPC["passive-interface"].GigabitEthernet.addSC("<0-2>", "GigabitEthernet interface number"); routerIGRPC["passive-interface"].addSC("Loopback", "Loopback interface"); routerIGRPC["passive-interface"].Loopback.addSC("<0-2147483647>", "Loopback interface number"); routerIGRPC["passive-interface"].addSC("Null", "Null interface"); routerIGRPC["passive-interface"].Null.addSC("<0-0>", "Null interface number"); routerIGRPC["passive-interface"].addSC("Vlan", "Catalyst Vlans"); routerIGRPC["passive-interface"].Vlan.addSC("<1-1001>", "Vlan interface number"); routerIGRPC["passive-interface"].addSC("default", "Suppress routing updates on all interfaces"); routerIGRPC.addSC("redistribute", "Redistribute information from another routing protocol"); routerIGRPC.redistribute.addSC("bgp", "Border Gateway Protocol (BGP)"); routerIGRPC.redistribute.bgp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC.redistribute.addSC("connected", "Connected"); routerIGRPC.redistribute.addSC("egp", "Exterior Gateway Protocol (EGP)"); routerIGRPC.redistribute.egp.addSC("<0-65535>", "Remote autonomous system number"); routerIGRPC.redistribute.addSC("eigrp", "Enhanced Interior Gateway Routing Protocol (EIGRP)"); routerIGRPC.redistribute.eigrp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC.redistribute.addSC("igrp", "Interior Gateway Routing Protocol (IGRP)"); routerIGRPC.redistribute.igrp.addSC("<1-65535>", "Autonomous system number"); routerIGRPC.redistribute.addSC("isis", "ISO IS-IS"); routerIGRPC.redistribute.isis.addSC("level-1", "IS-IS level-1 routes only"); routerIGRPC.redistribute.isis.addSC("level-1-2", "IS-IS level-1 and level-2 routes"); routerIGRPC.redistribute.isis.addSC("level-2", "IS-IS level-2 routes only"); routerIGRPC.redistribute.isis.addSC("WORD", "ISO routing area tag"); routerIGRPC.redistribute.isis.WORD.addSC("level-1", "IS-IS level-1 routes only"); routerIGRPC.redistribute.isis.WORD.addSC("level-1-2", "IS-IS level-1 and level-2 routes"); routerIGRPC.redistribute.isis.WORD.addSC("level-2", "IS-IS level-2 routes only"); routerIGRPC.redistribute.addSC("iso-igrp", "IGRP for OSI networks"); routerIGRPC.redistribute["iso-igrp"].addSC("WORD", "ISO routing area tag"); routerIGRPC.redistribute.addSC("metric", "Metric for redistributed routes"); routerIGRPC.redistribute.metric.addSC("<1-4294967295>", "Bandwidth metric in Kbits per second"); routerIGRPC.redistribute.metric["<1-4294967295>"].addSC("<0-4294967295>", "IGRP delay metric, in 10 microsecond units"); routerIGRPC.redistribute.metric["<1-4294967295>"]["<0-4294967295>"].addSC("<0-255>", "IGRP reliability metric where 255 is 100% reliable"); routerIGRPC.redistribute.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"].addSC("<1-255>", "IGRP Effective bandwidth metric (Loading) where 255 is 100% loaded"); routerIGRPC.redistribute.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"]["<1-255>"].addSC("<1-4294967295>", "IGRP MTU of the path"); routerIGRPC.redistribute.addSC("mobile", "Mobile routes"); routerIGRPC.redistribute.mobile.addSC("metric", "Metric for redistributed routes"); routerIGRPC.redistribute.mobile.metric.addSC("<1-4294967295>", "Bandwidth metric in Kbits per second"); routerIGRPC.redistribute.mobile.metric["<1-4294967295>"].addSC("<0-4294967295>", "IGRP delay metric, in 10 microsecond units"); routerIGRPC.redistribute.mobile.metric["<1-4294967295>"]["<0-4294967295>"].addSC("<0-255>", "IGRP reliability metric where 255 is 100% reliable"); routerIGRPC.redistribute.mobile.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"].addSC("<1-255>", "IGRP Effective bandwidth metric (Loading) where 255 is 100% loaded"); routerIGRPC.redistribute.mobile.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"]["<1-255>"].addSC("<1-4294967295>", "IGRP MTU of the path"); routerIGRPC.redistribute.addSC("odr", "On Demand stub Routes"); routerIGRPC.redistribute.odr.addSC("metric", "Metric for redistributed routes"); routerIGRPC.redistribute.odr.metric.addSC("<1-4294967295>", "Bandwidth metric in Kbits per second"); routerIGRPC.redistribute.odr.metric["<1-4294967295>"].addSC("<0-4294967295>", "IGRP delay metric, in 10 microsecond units"); routerIGRPC.redistribute.odr.metric["<1-4294967295>"]["<0-4294967295>"].addSC("<0-255>", "IGRP reliability metric where 255 is 100% reliable"); routerIGRPC.redistribute.odr.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"].addSC("<1-255>", "IGRP Effective bandwidth metric (Loading) where 255 is 100% loaded"); routerIGRPC.redistribute.odr.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"]["<1-255>"].addSC("<1-4294967295>", "IGRP MTU of the path"); routerIGRPC.redistribute.addSC("ospf", "Open Shortest Path First (OSPF)"); routerIGRPC.redistribute.ospf.addSC("<1-65535>", "Process ID"); routerIGRPC.redistribute.ospf["<1-65535>"].addSC("match", "Redistribution of OSPF routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match.addSC("external", "Redistribute OSPF external routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match.external.addSC("<1-1>", "Redistribute external type 1 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match.external.addSC("<2-2>", "Redistribute external type 2 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match.addSC("internal", "Redistribute OSPF internal routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match.internal.addSC("external", "Redistribute OSPF external routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match.internal.external.addSC("<1-1>", "Redistribute external type 1 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match.internal.external.addSC("<2-2>", "Redistribute external type 2 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match.addSC("nssa-external", "Redistribute OSPF NSSA external routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match["nssa-external"].addSC("<1-1>", "Redistribute NSSA external type 1 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match["nssa-external"].addSC("<2-2>", "Redistribute NSSA external type 2 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match["nssa-external"].addSC("external", "Redistribute OSPF external routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match["nssa-external"].external.addSC("<1-1>", "Redistribute external type 1 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match["nssa-external"].external.addSC("<2-2>", "Redistribute external type 2 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match["nssa-external"].addSC("internal", "Redistribute OSPF internal routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match["nssa-external"].internal.addSC("external", "Redistribute OSPF external routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match["nssa-external"].internal.external.addSC("<1-1>", "Redistribute external type 1 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].match["nssa-external"].internal.external.addSC("<2-2>", "Redistribute external type 2 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].addSC("metric", "Metric for redistributed routes"); routerIGRPC.redistribute.ospf["<1-65535>"].metric.addSC("<1-4294967295>", "Bandwidth metric in Kbits per second"); routerIGRPC.redistribute.ospf["<1-65535>"].metric["<1-4294967295>"].addSC("<0-4294967295>", "IGRP delay metric, in 10 microsecond units"); routerIGRPC.redistribute.ospf["<1-65535>"].metric["<1-4294967295>"]["<0-4294967295>"].addSC("<0-255>", "IGRP reliability metric where 255 is 100% reliable"); routerIGRPC.redistribute.ospf["<1-65535>"].metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"].addSC("<1-255>", "IGRP Effective bandwidth metric (Loading) where 255 is 100% loaded"); routerIGRPC.redistribute.ospf["<1-65535>"].metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"]["<1-255>"].addSC("<1-4294967295>", "IGRP MTU of the path"); routerIGRPC.redistribute.ospf["<1-65535>"].metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"]["<1-255>"]["<1-4294967295>"].addSC("match", "Redistribution of OSPF routes"); routerIGRPC.redistribute.ospf["<1-65535>"].addSC("vrf", "VPN Routing/Forwarding Instance"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.addSC("WORD", "VPN Routing/Forwarding Instance (VRF) name"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.addSC("match", "Redistribution of OSPF routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match.addSC("external", "Redistribute OSPF external routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match.external.addSC("<1-1>", "Redistribute external type 1 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match.external.addSC("<2-2>", "Redistribute external type 2 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match.addSC("internal", "Redistribute OSPF internal routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match.internal.addSC("external", "Redistribute OSPF external routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match.internal.external.addSC("<1-1>", "Redistribute external type 1 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match.internal.external.addSC("<2-2>", "Redistribute external type 2 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match.addSC("nssa-external", "Redistribute OSPF NSSA external routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match["nssa-external"].addSC("<1-1>", "Redistribute NSSA external type 1 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match["nssa-external"].addSC("<2-2>", "Redistribute NSSA external type 2 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match["nssa-external"].addSC("external", "Redistribute OSPF external routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match["nssa-external"].external.addSC("<1-1>", "Redistribute external type 1 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match["nssa-external"].external.addSC("<2-2>", "Redistribute external type 2 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match["nssa-external"].addSC("internal", "Redistribute OSPF internal routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match["nssa-external"].internal.addSC("external", "Redistribute OSPF external routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match["nssa-external"].internal.external.addSC("<1-1>", "Redistribute external type 1 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.match["nssa-external"].internal.external.addSC("<2-2>", "Redistribute external type 2 routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.addSC("metric", "Metric for redistributed routes"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.metric.addSC("<1-4294967295>", "Bandwidth metric in Kbits per second"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.metric["<1-4294967295>"].addSC("<0-4294967295>", "IGRP delay metric, in 10 microsecond units"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.metric["<1-4294967295>"]["<0-4294967295>"].addSC("<0-255>", "IGRP reliability metric where 255 is 100% reliable"); routerIGRPC.redistribute.ospf["<1-65535>"].vrf.WORD.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"].addSC("<1-255>", "IGRP Effective bandwidth metric (Loading) where 255 is 100% loaded"); routerIGRPC.redistribute.addSC("rip", "Routing Information Protocol (RIP)"); routerIGRPC.redistribute.rip.addSC("metric", "Metric for redistributed routes"); routerIGRPC.redistribute.rip.metric.addSC("<1-4294967295>", "Bandwidth metric in Kbits per second"); routerIGRPC.redistribute.rip.metric["<1-4294967295>"].addSC("<0-4294967295>", "IGRP delay metric, in 10 microsecond units"); routerIGRPC.redistribute.rip.metric["<1-4294967295>"]["<0-4294967295>"].addSC("<0-255>", "IGRP reliability metric where 255 is 100% reliable"); routerIGRPC.redistribute.rip.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"].addSC("<1-255>", "IGRP Effective bandwidth metric (Loading) where 255 is 100% loaded"); routerIGRPC.redistribute.rip.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"]["<1-255>"].addSC("<1-4294967295>", "IGRP MTU of the path"); routerIGRPC.redistribute.addSC("route-map", "Route map reference"); routerIGRPC.redistribute["route-map"].addSC("WORD", "Pointer to route-map entries"); routerIGRPC.redistribute["route-map"].WORD.addSC("metric", "Metric for redistributed routes"); routerIGRPC.redistribute["route-map"].WORD.metric.addSC("<1-4294967295>", "Bandwidth metric in Kbits per second"); routerIGRPC.redistribute["route-map"].WORD.metric["<1-4294967295>"].addSC("<0-4294967295>", "IGRP delay metric, in 10 microsecond units"); routerIGRPC.redistribute["route-map"].WORD.metric["<1-4294967295>"]["<0-4294967295>"].addSC("<0-255>", "IGRP reliability metric where 255 is 100% reliable"); routerIGRPC.redistribute["route-map"].WORD.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"].addSC("<1-255>", "IGRP Effective bandwidth metric (Loading) where 255 is 100% loaded"); routerIGRPC.redistribute["route-map"].WORD.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"]["<1-255>"].addSC("<1-4294967295>", "IGRP MTU of the path"); routerIGRPC.redistribute.addSC("static", "Static routes"); routerIGRPC.redistribute.static.addSC("metric", "Metric for redistributed routes"); routerIGRPC.redistribute.static.metric.addSC("<1-4294967295>", "Bandwidth metric in Kbits per second"); routerIGRPC.redistribute.static.metric["<1-4294967295>"].addSC("<0-4294967295>", "IGRP delay metric, in 10 microsecond units"); routerIGRPC.redistribute.static.metric["<1-4294967295>"]["<0-4294967295>"].addSC("<0-255>", "IGRP reliability metric where 255 is 100% reliable"); routerIGRPC.redistribute.static.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"].addSC("<1-255>", "IGRP Effective bandwidth metric (Loading) where 255 is 100% loaded"); routerIGRPC.redistribute.static.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"]["<1-255>"].addSC("<1-4294967295>", "IGRP MTU of the path"); routerIGRPC.redistribute.static.addSC("route-map", "Route map reference"); routerIGRPC.redistribute.static["route-map"].addSC("WORD", "Pointer to route-map entries"); routerIGRPC.redistribute.static["route-map"].WORD.addSC("metric", "Metric for redistributed routes"); routerIGRPC.redistribute.static["route-map"].WORD.metric.addSC("<1-4294967295>", "Bandwidth metric in Kbits per second"); routerIGRPC.redistribute.static["route-map"].WORD.metric["<1-4294967295>"].addSC("<0-4294967295>", "IGRP delay metric, in 10 microsecond units"); routerIGRPC.redistribute.static["route-map"].WORD.metric["<1-4294967295>"]["<0-4294967295>"].addSC("<0-255>", "IGRP reliability metric where 255 is 100% reliable"); routerIGRPC.redistribute.static["route-map"].WORD.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"].addSC("<1-255>", "IGRP Effective bandwidth metric (Loading) where 255 is 100% loaded"); routerIGRPC.redistribute.static["route-map"].WORD.metric["<1-4294967295>"]["<0-4294967295>"]["<0-255>"]["<1-255>"].addSC("<1-4294967295>", "IGRP MTU of the path"); routerIGRPC.addSC("timers", "Adjust routing timers"); routerIGRPC.timers.addSC("basic", "Basic routing protocol update timers"); routerIGRPC.timers.basic.addSC("<0-4294967295>", "Interval between updates"); routerIGRPC.timers.basic["<0-4294967295>"].addSC("<1-4294967295>", "Invalid"); routerIGRPC.timers.basic["<0-4294967295>"]["<1-4294967295>"].addSC("<0-4294967295>", "Holddown"); routerIGRPC.timers.basic["<0-4294967295>"]["<1-4294967295>"]["<0-4294967295>"].addSC("<1-4294967295>", "Flush"); routerIGRPC.timers.basic["<0-4294967295>"]["<1-4294967295>"]["<0-4294967295>"]["<1-4294967295>"].addSC("<1-4294967295>", "Sleep time, in milliseconds"); routerIGRPC.addSC("traffic-share", "How to compute traffic share over alternate paths"); routerIGRPC["traffic-share"].addSC("balanced", "Share inversely proportional to metric"); routerIGRPC["traffic-share"].addSC("min", "All traffic shared among min metric paths"); routerIGRPC["traffic-share"].min.addSC("across-interfaces", "Use different interfaces for equal-cost paths"); routerIGRPC.addSC("validate-update-source", "Perform sanity checks against source address of routing updates"); routerIGRPC.addSC("variance", "Control load balancing variance"); routerIGRPC.variance.addSC("<1-128>", "Metric variance multiplier");