1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
|
intLoopBackC.addSC("arp", "Set arp type (arpa, probe, snap) or timeout");
intLoopBackC.arp.addSC("arpa", "Standard arp protocol");
intLoopBackC.arp.addSC("frame-relay", "Enable ARP for a frame relay interface");
intLoopBackC.arp.addSC("probe", "HP style arp protocol");
intLoopBackC.arp.addSC("snap", "IEEE 802.3 style arp");
intLoopBackC.arp.addSC("timeout", "Set ARP cache timeout");
intLoopBackC.arp.timeout.addSC("<0-2147483>", "Seconds");
intLoopBackC.addSC("backup", "Modify backup parameters");
intLoopBackC.backup.addSC("delay", "Delays before backup line up or down transitions");
intLoopBackC.backup.delay.addSC("<0-4294967294>", "Seconds");
intLoopBackC.backup.delay["<0-4294967294>"].addSC("never", "Never deactivate the backup line");
intLoopBackC.backup.delay.addSC("never", "Never activate the backup line");
intLoopBackC.backup.delay.never.addSC("<0-4294967294>", "Seconds");
intLoopBackC.backup.delay.never.addSC("never", "Never deactivate the backup line");
intLoopBackC.backup.addSC("interface", "Configure an interface as a backup");
intLoopBackC.backup.interface.addSC("Async", "Async interface");
intLoopBackC.backup.interface.Async.addSC("<1-0>", "Async interface number");
intLoopBackC.backup.interface.addSC("BVI", "Bridge-Group Virtual Interface");
intLoopBackC.backup.interface.BVI.addSC("<1-255>", "BVI interface number");
intLoopBackC.backup.interface.addSC("Dialer", "Dialer interface");
intLoopBackC.backup.interface.Dialer.addSC("<0-255>", "Dialer interface number");
intLoopBackC.backup.interface.addSC("GE-WAN", "GigabitEthernetWAN IEEE 802.3z");
intLoopBackC.backup.interface["GE-WAN"].addSC("<1-6>", "GE-WAN interface number");
intLoopBackC.backup.interface.addSC("GigabitEthernet", "GigabitEthernet IEEE 802.3z");
intLoopBackC.backup.interface.GigabitEthernet.addSC("<1-6>", "GigabitEthernet interface number");
intLoopBackC.backup.interface.addSC("Group-Async", "Async Group interface");
intLoopBackC.backup.interface["Group-Async"].addSC("<0-0>", "Group-Async interface number");
intLoopBackC.backup.interface.addSC("Lex", "Lex interface");
intLoopBackC.backup.interface.Lex.addSC("<0-2147483647>", "Lex interface number");
intLoopBackC.backup.interface.addSC("Loopback", "Loopback interface");
intLoopBackC.backup.interface.Loopback.addSC("<0-2147483647>", "Loopback interface number");
intLoopBackC.backup.interface.addSC("Multilink", "Multilink-group interface");
intLoopBackC.backup.interface.Multilink.addSC("<0-2147483647>", "Multilink interface number");
intLoopBackC.addSC("bandwidth", "Set bandwidth informational parameter");
intLoopBackC.bandwidth.addSC("<1-10000000>", "Bandwidth in kilobits");
intLoopBackC.addSC("bgp-policy", "Apply policy propogated by bgp community string");
intLoopBackC["bgp-policy"].addSC("accounting", "bgp based policy accounting of traffic");
intLoopBackC["bgp-policy"].addSC("destination", "use destination IP address for route lookup");
intLoopBackC["bgp-policy"].destination.addSC("ip-prec-map", "map ip precedence bits");
intLoopBackC["bgp-policy"].destination.addSC("ip-qos-map", "set qos-group");
intLoopBackC["bgp-policy"].addSC("source", "use source IP address for route lookup");
intLoopBackC["bgp-policy"].source.addSC("ip-prec-map", "map ip precedence bits");
intLoopBackC["bgp-policy"].source.addSC("ip-qos-map", "set qos-group");
intLoopBackC.addSC("carrier-delay", "Specify delay for interface transitions");
intLoopBackC["carrier-delay"].addSC("<0-60>", "Carrier Transitions delay seconds");
intLoopBackC["carrier-delay"].addSC("msec", "delay specified in milliseconds");
intLoopBackC["carrier-delay"].msec.addSC("<0-1000>", "Carrier Transitions delay milliseconds");
intLoopBackC.addSC("cdp", "CDP interface subcommands");
intLoopBackC.cdp.addSC("enable", "Enable CDP on interface");
intLoopBackC.addSC("default", "Set a command to its defaults");
intLoopBackC["default"].addSC("arp", "Set arp type (arpa, probe, snap) or timeout");
intLoopBackC["default"].arp.addSC("arpa", "Standard arp protocol");
intLoopBackC["default"].arp.addSC("frame-relay", "Enable ARP for a frame relay interface");
intLoopBackC["default"].arp.addSC("probe", "HP style arp protocol");
intLoopBackC["default"].arp.addSC("snap", "IEEE 802.3 style arp");
intLoopBackC["default"].arp.addSC("timeout", "Set ARP cache timeout");
intLoopBackC["default"].addSC("backup", "Modify backup parameters");
intLoopBackC["default"].backup.addSC("delay", "Delays before backup line up or down transitions");
intLoopBackC["default"].backup.addSC("interface", "Configure an interface as a backup");
intLoopBackC["default"].backup.addSC("load", "Load thresholds for line up or down transitions");
intLoopBackC["default"].addSC("bandwidth", "Set bandwidth informational parameter");
intLoopBackC["default"].addSC("bgp-policy", "Apply policy propogated by bgp community string");
intLoopBackC["default"]["bgp-policy"].addSC("accounting", "bgp based policy accounting of traffic");
intLoopBackC["default"]["bgp-policy"].addSC("destination", "use destination IP address for route lookup");
intLoopBackC["default"]["bgp-policy"].addSC("source", "use source IP address for route lookup");
intLoopBackC["default"].addSC("carrier-delay", "Specify delay for interface transitions");
intLoopBackC["default"].addSC("cdp", "CDP interface subcommands");
intLoopBackC["default"].cdp.addSC("enable", "Enable CDP on interface");
intLoopBackC.addSC("delay", "Specify interface throughput delay");
intLoopBackC.delay.addSC("<1-16777215>", "Throughput delay (tens of microseconds)");
intLoopBackC.addSC("description", "Interface specific description");
intLoopBackC.description.addSC("LINE", "Up to 240 characters describing this interface");
intLoopBackC.addSC("exit", "Exit from interface configuration mode");
intLoopBackC.addSC("help", "Description of the interactive help system");
intLoopBackC.addSC("hold-queue", "Set hold queue depth");
intLoopBackC.addSC("ip", "Interface Internet Protocol config commands");
intLoopBackC.ip.addSC("access-group", "Specify access control for packets");
intLoopBackC.ip["access-group"].addSC("<1-199>", "IP access list (standard or extended)");
intLoopBackC.ip["access-group"]["<1-199>"].addSC("in", "inbound packets");
intLoopBackC.ip["access-group"]["<1-199>"].addSC("out", "outbound packets");
intLoopBackC.ip["access-group"].addSC("<1300-2699>", "IP expanded access list (standard or extended)");
intLoopBackC.ip["access-group"]["<1300-2699>"].addSC("in", "inbound packets");
intLoopBackC.ip["access-group"]["<1300-2699>"].addSC("out", "outbound packets");
intLoopBackC.ip["access-group"].addSC("WORD", "Access-list name");
intLoopBackC.ip["access-group"].WORD.addSC("in", "inbound packets");
intLoopBackC.ip["access-group"].WORD.addSC("out", "outbound packets");
intLoopBackC.ip.addSC("address", "Set the IP address of an interface");
intLoopBackC.ip.address.addSC("A.B.C.D", "IP address");
intLoopBackC.ip.address["A.B.C.D"].addSC("A.B.C.D", "IP subnet mask");
intLoopBackC.ip.address["A.B.C.D"]["A.B.C.D"].addSC("secondary", "Make this IP address a secondary address");
intLoopBackC.ip.addSC("bgp", "BGP interface commands");
intLoopBackC.ip.bgp.addSC("fast-external-fallover", "Over-ride bgp global fast-failover whenexternal peer goes down");
intLoopBackC.ip.bgp["fast-external-fallover"].addSC("deny", "dis-allow fast fallover");
intLoopBackC.ip.bgp["fast-external-fallover"].addSC("permit", "allow fast fallover");
intLoopBackC.ip.addSC("broadcast-address", "Set the broadcast address of an interface");
intLoopBackC.ip["broadcast-address"].addSC("A.B.C.D", "IP broadcast address");
intLoopBackC.ip.addSC("cgmp", "Enable/disable CGMP");
intLoopBackC.ip.cgmp.addSC("proxy", "CGMP for hosts and proxy for multicast routers");
intLoopBackC.ip.cgmp.addSC("router-only", "CGMP proxy for multicast routers only");
intLoopBackC.ip.addSC("directed-broadcast", "Enable forwarding of directed broadcasts");
intLoopBackC.ip["directed-broadcast"].addSC("<1-199>", "A standard IP access list number");
intLoopBackC.ip["directed-broadcast"].addSC("<1300-2699>", "A standard IP expanded access list number");
intLoopBackC.ip.addSC("igmp", "IGMP interface commands");
intLoopBackC.ip.igmp.addSC("access-group", "IGMP group access group");
intLoopBackC.ip.igmp["access-group"].addSC("<1-99>", "Access list number");
intLoopBackC.ip.igmp["access-group"].addSC("WORD", "IP Named Standard Access list");
intLoopBackC.ip.igmp.addSC("helper-address", "IGMP helper address");
intLoopBackC.ip.igmp["helper-address"].addSC("A.B.C.D", "IGMP helper address");
intLoopBackC.ip.igmp["helper-address"].addSC("udl", "Unidirectional link to forward the report");
intLoopBackC.ip.addSC("multicast", "IP multicast interface commands");
intLoopBackC.ip.multicast.addSC("helper-map", "Broadcast to Multicast map OR Multicast to Broadcast map");
intLoopBackC.ip.multicast["helper-map"].addSC("A.B.C.D", "IP multicast address");
intLoopBackC.ip.multicast["helper-map"]["A.B.C.D"].addSC("A.B.C.D", "IP multicast address or IP broadcast address");
intLoopBackC.ip.multicast["helper-map"]["A.B.C.D"]["A.B.C.D"].addSC("<100-199>", "access-list");
intLoopBackC.ip.multicast["helper-map"]["A.B.C.D"]["A.B.C.D"].addSC("<2000-2699>", "access-list (expanded range)");
intLoopBackC.ip.multicast["helper-map"]["A.B.C.D"]["A.B.C.D"].addSC("WORD", "IP Named Extended Access list");
intLoopBackC.ip.multicast["helper-map"].addSC("broadcast", "Broadcast address");
intLoopBackC.ip.multicast["helper-map"].broadcast.addSC("A.B.C.D", "IP multicast address or IP broadcast address");
intLoopBackC.ip.multicast["helper-map"].broadcast["A.B.C.D"].addSC("<100-199>", "access-list");
intLoopBackC.ip.multicast["helper-map"].broadcast["A.B.C.D"].addSC("<2000-2699>", "access-list (expanded range)");
intLoopBackC.ip.multicast["helper-map"].broadcast["A.B.C.D"].addSC("WORD", "IP Named Extended Access list");
intLoopBackC.ip.addSC("ospf", "OSPF interface commands");
intLoopBackC.ip.ospf.addSC("authentication", "Enable authentication");
intLoopBackC.ip.ospf.authentication.addSC("message-digest", "Use message-digest authentication");
intLoopBackC.ip.ospf.authentication.addSC("null", "Use no authentication");
intLoopBackC.ip.ospf.addSC("authentication-key", "Authentication password (key)");
intLoopBackC.ip.ospf["authentication-key"].addSC("<0-7>", "Encryption type (0 for not yet encrypted, 7 for proprietary)");
intLoopBackC.ip.ospf["authentication-key"].addSC("LINE", "The OSPF password (key)");
intLoopBackC.ip.ospf.addSC("cost", "Interface cost");
intLoopBackC.ip.ospf.cost.addSC("<1-65535>", "Cost");
intLoopBackC.ip.ospf.addSC("database-filter", "Filter OSPF LSA during synchronization and flooding");
intLoopBackC.ip.ospf["database-filter"].addSC("all", "Filter all LSA");
intLoopBackC.ip.ospf["database-filter"].all.addSC("out", "Outgoing LSA");
intLoopBackC.ip.ospf.addSC("dead-interval", "Interval after which a neighbor is declared dead");
intLoopBackC.ip.ospf["dead-interval"].addSC("<1-65535>", "Seconds");
intLoopBackC.ip.ospf.addSC("demand-circuit", "OSPF demand circuit");
intLoopBackC.ip.ospf.addSC("hello-interval", "Time between HELLO packets");
intLoopBackC.ip.ospf["hello-interval"].addSC("<1-65535>", "Seconds");
intLoopBackC.ip.ospf.addSC("message-digest-key", "Message digest authentication password (key)");
intLoopBackC.ip.ospf["message-digest-key"].addSC("<1-255>", "Key ID");
intLoopBackC.ip.ospf["message-digest-key"]["<1-255>"].addSC("md5", "Use MD5 algorithm");
intLoopBackC.ip.ospf["message-digest-key"]["<1-255>"].md5.addSC("<0-7>", "Encryption type (0 for not yet encrypted, 7 for proprietary)");
intLoopBackC.ip.ospf["message-digest-key"]["<1-255>"].md5.addSC("LINE", "The OSPF password (key)");
intLoopBackC.ip.ospf.addSC("mtu-ignore", "Ignores the MTU in DBD packets");
intLoopBackC.ip.ospf.addSC("network", "Network type");
intLoopBackC.ip.ospf.network.addSC("broadcast", "Specify OSPF broadcast multi-access network");
intLoopBackC.ip.ospf.network.addSC("non-broadcast", "Specify OSPF NBMA network");
intLoopBackC.ip.ospf.network.addSC("point-to-multipoint", "Specify OSPF point-to-multipoint network");
intLoopBackC.ip.ospf.network["point-to-multipoint"].addSC("non-broadcast", "Specify non-broadcast point-to-mpoint network");
intLoopBackC.ip.ospf.network.addSC("point-to-point", "Specify OSPF point-to-point network");
intLoopBackC.ip.ospf.addSC("priority", "Router priority");
intLoopBackC.ip.ospf.priority.addSC("<0-255>", "Priority");
intLoopBackC.ip.ospf.addSC("retransmit-interval", "Time between retransmitting lost link state advertisements");
intLoopBackC.ip.ospf["retransmit-interval"].addSC("<1-65535>", "Seconds");
intLoopBackC.ip.ospf.addSC("transmit-delay", "Link state transmit delay");
intLoopBackC.ip.ospf["transmit-delay"].addSC("<1-65535>", "Seconds");
intLoopBackC.ip.addSC("pim", "PIM interface commands");
intLoopBackC.ip.pim.addSC("bsr-border", "Border of PIM domain");
intLoopBackC.ip.pim.addSC("dense-mode", "Enable PIM dense-mode operation");
intLoopBackC.ip.pim["dense-mode"].addSC("proxy-register", "Send proxy registers");
intLoopBackC.ip.pim["dense-mode"]["proxy-register"].addSC("list", "Access list");
intLoopBackC.ip.pim["dense-mode"]["proxy-register"].list.addSC("<100-199>", "Extended access list number");
intLoopBackC.ip.pim["dense-mode"]["proxy-register"].list.addSC("<2000-2699>", "Extended access list number (expanded range)");
intLoopBackC.ip.pim["dense-mode"]["proxy-register"].list.addSC("WORD", "IP named extended access list");
intLoopBackC.ip.pim["dense-mode"]["proxy-register"].addSC("route-map", "Route-map");
intLoopBackC.ip.pim["dense-mode"]["proxy-register"]["route-map"].addSC("WORD", "Route-map reference");
intLoopBackC.ip.pim.addSC("nbma-mode", "Use Non-Broadcast Multi-Access (NBMA) mode on interface");
intLoopBackC.ip.pim.addSC("neighbor-filter", "PIM peering filter");
intLoopBackC.ip.pim["neighbor-filter"].addSC("<1-99>", "Access list number");
intLoopBackC.ip.pim["neighbor-filter"].addSC("WORD", "IP Named Standard Access list");
intLoopBackC.ip.pim.addSC("query-interval", "PIM router query interval");
intLoopBackC.ip.pim["query-interval"].addSC("<0-65535>", "Query interval in seconds");
intLoopBackC.ip.pim.addSC("sparse-dense-mode", "Enable PIM sparse-dense-mode operation");
intLoopBackC.ip.pim.addSC("sparse-mode", "Enable PIM sparse-mode operation");
intLoopBackC.ip.pim.addSC("version", "PIM version");
intLoopBackC.ip.pim.version.addSC("<1-2>", "version number");
intLoopBackC.ip.addSC("probe", "Enable HP Probe support");
intLoopBackC.ip.probe.addSC("proxy", "Proxy support");
intLoopBackC.ip.addSC("rip", "Router Information Protocol");
intLoopBackC.ip.rip.addSC("authentication", "Authentication control");
intLoopBackC.ip.rip.authentication.addSC("key-chain", "Authentication key-chain");
intLoopBackC.ip.rip.authentication["key-chain"].addSC("LINE", "name of key-chain");
intLoopBackC.ip.rip.authentication.addSC("mode", "Authentication mode");
intLoopBackC.ip.rip.authentication.mode.addSC("md5", "Keyed message digest");
intLoopBackC.ip.rip.authentication.mode.addSC("text", "Clear text authentication");
intLoopBackC.ip.rip.addSC("receive", "advertisement reception");
intLoopBackC.ip.rip.receive.addSC("version", "version control");
intLoopBackC.ip.rip.receive.version.addSC("<1-1>", "RIP version 1");
intLoopBackC.ip.rip.receive.version.addSC("<2-2>", "RIP version 2");
intLoopBackC.ip.rip.addSC("send", "advertisement transmission");
intLoopBackC.ip.rip.send.addSC("version", "version control");
intLoopBackC.ip.rip.send.version.addSC("<1-1>", "RIP version 1");
intLoopBackC.ip.rip.send.version.addSC("<2-2>", "RIP version 2");
intLoopBackC.ip.addSC("split-horizon", "Perform split horizon");
intLoopBackC.ip["split-horizon"].addSC("eigrp", "Enhanced Interior Gateway Routing Protocol (EIGRP)");
intLoopBackC.ip["split-horizon"].eigrp.addSC("<1-65535>", "Autonomous system number");
intLoopBackC.ip.addSC("summary-address", "Perform address summarization");
intLoopBackC.ip["summary-address"].addSC("eigrp", "Enhanced Interior Gateway Routing Protocol (EIGRP)");
intLoopBackC.ip["summary-address"].eigrp.addSC("<1-65535>", "Autonomous system number");
intLoopBackC.ip["summary-address"].eigrp["<1-65535>"].addSC("A.B.C.D", "IP address");
intLoopBackC.ip["summary-address"].eigrp["<1-65535>"]["A.B.C.D"].addSC("A.B.C.D", "IP network mask");
intLoopBackC.ip["summary-address"].eigrp["<1-65535>"]["A.B.C.D"]["A.B.C.D"].addSC("<1-255>", "Administrative distance");
intLoopBackC.ip["summary-address"].addSC("rip", "Routing Information Protocol (RIP)");
intLoopBackC.ip["summary-address"].rip.addSC("A.B.C.D", "IP address");
intLoopBackC.ip["summary-address"].rip["A.B.C.D"].addSC("A.B.C.D", "IP network mask");
intLoopBackC.ip.addSC("tcp", "TCP header compression parameters");
intLoopBackC.ip.tcp.addSC("compression-connections", "Maximum number of compressed connections");
intLoopBackC.ip.tcp["compression-connections"].addSC("<3-256>", "Number of connections");
intLoopBackC.ip.tcp.addSC("header-compression", "Enable TCP header compression");
intLoopBackC.ip.tcp["header-compression"].addSC("passive", "Compress only for destinations which send compressed headers");
intLoopBackC.ip.addSC("unnumbered", "Enable IP processing without an explicit address");
intLoopBackC.addSC("keepalive", "Enable keepalive");
intLoopBackC.keepalive.addSC("<0-32767>", "Keepalive period (default 10 seconds)");
intLoopBackC.addSC("load-interval", "Specify interval for load calculation for an interface");
intLoopBackC["load-interval"].addSC("<30-600>", "Load interval delay in seconds");
intLoopBackC.addSC("logging", "Configure logging for interface");
intLoopBackC.logging.addSC("event", "Interface events");
intLoopBackC.logging.event.addSC("link-status", "UPDOWN and CHANGE messages");
intLoopBackC.addSC("max-reserved-bandwidth", "Maximum Reservable Bandwidth on an Interface");
intLoopBackC["max-reserved-bandwidth"].addSC("<1-100>", "Max. reservable bandwidth as % of interface bandwidth");
intLoopBackC.addSC("no", "Negate a command or set its defaults");
intLoopBackC.no.addSC("arp", "Set arp type (arpa, probe, snap) or timeout");
intLoopBackC.no.arp.addSC("arpa", "Standard arp protocol");
intLoopBackC.addSC("ntp", "Configure NTP");
intLoopBackC.addSC("rate-limit", "Rate Limit");
intLoopBackC["rate-limit"].addSC("input", "Rate limit on input");
intLoopBackC["rate-limit"].input.addSC("<8000-2000000000>", "Bits per second");
intLoopBackC["rate-limit"].input.addSC("access-group", "Match access list");
intLoopBackC["rate-limit"].input.addSC("dscp", "Match dscp value");
intLoopBackC["rate-limit"].input.addSC("qos-group", "Match qos-group ID");
intLoopBackC["rate-limit"].addSC("output", "Rate limit on output");
intLoopBackC["rate-limit"].output.addSC("<8000-2000000000>", "Bits per second");
intLoopBackC["rate-limit"].output.addSC("access-group", "Match access list");
intLoopBackC["rate-limit"].output.addSC("dscp", "Match dscp value");
intLoopBackC["rate-limit"].output.addSC("qos-group", "Match qos-group ID");
intLoopBackC.addSC("rmon", "Configure Remote Monitoring on an interface");
intLoopBackC.addSC("service-policy", "Configure QoS Service Policy");
intLoopBackC.addSC("shutdown", "Shutdown the selected interface");
intLoopBackC.addSC("snmp", "Modify SNMP interface parameters");
intLoopBackC.snmp.addSC("trap", "Allow a specific SNMP trap");
intLoopBackC.snmp.trap.addSC("link-status", "Allow SNMP LINKUP and LINKDOWN traps");
intLoopBackC.addSC("spanning-tree", "Spanning Tree Subsystem");
intLoopBackC["spanning-tree"].addSC("cost", "Change an interface's spanning tree port path cost");
intLoopBackC["spanning-tree"].cost.addSC("<1-200000000>", "port path cost");
intLoopBackC["spanning-tree"].addSC("guard", "Change an interface's spanning tree guard mode");
intLoopBackC["spanning-tree"].guard.addSC("none", "Set guard mode to none");
intLoopBackC["spanning-tree"].guard.addSC("root", "Set guard mode to root guard on interface");
intLoopBackC["spanning-tree"].addSC("port-priority", "Change an interface's spanning tree port priority");
intLoopBackC["spanning-tree"]["port-priority"].addSC("<0-240>", "port priority in increments of 16");
intLoopBackC["spanning-tree"].addSC("portfast", "Enable an interface to move directly to forwarding on link up");
intLoopBackC.addSC("timeout", "Define timeout values for this interface");
intLoopBackC.timeout.addSC("absolute", "Define session timeout value for this interface");
intLoopBackC.timeout.absolute.addSC("<0-35790>", "Session lifetime (in minutes)");
intLoopBackC.addSC("transmit-interface", "Assign a transmit interface to a receive-only interface");
intLoopBackC["transmit-interface"].addSC("Async", "Async interface");
intLoopBackC["transmit-interface"].Async.addSC("<1-0>", "Async interface number");
intLoopBackC["transmit-interface"].addSC("Dialer", "Dialer interface");
intLoopBackC["transmit-interface"].Dialer.addSC("<0-255>", "Dialer interface number");
intLoopBackC["transmit-interface"].addSC("GE-WAN", "GigabitEthernetWAN IEEE 802.3z");
intLoopBackC["transmit-interface"]["GE-WAN"].addSC("<1-6>", "GE-WAN interface number");
intLoopBackC["transmit-interface"].addSC("GigabitEthernet", "GigabitEthernet IEEE 802.3z");
intLoopBackC["transmit-interface"].GigabitEthernet.addSC("<1-6>", "GigabitEthernet interface number");
intLoopBackC["transmit-interface"].addSC("Group-Async", "Async Group interface");
intLoopBackC["transmit-interface"]["Group-Async"].addSC("<0-0>", "Group-Async interface number");
intLoopBackC["transmit-interface"].addSC("Lex", "Lex interface");
intLoopBackC["transmit-interface"].Lex.addSC("<0-2147483647>", "Lex interface number");
intLoopBackC["transmit-interface"].addSC("Loopback", "Loopback interface");
intLoopBackC["transmit-interface"].Loopback.addSC("<0-2147483647>", "Loopback interface number");
intLoopBackC["transmit-interface"].addSC("Multilink", "Multilink-group interface");
intLoopBackC["transmit-interface"].Multilink.addSC("<0-2147483647>", "Multilink interface number");
intLoopBackC["transmit-interface"].addSC("Null", "Null interface");
intLoopBackC["transmit-interface"].Null.addSC("<0-0>", "Null interface number");
intLoopBackC["transmit-interface"].addSC("Port-channel", "Ethernet Channel of interfaces");
intLoopBackC["transmit-interface"]["Port-channel"].addSC("<1-64>", "Port-channel interface number");
intLoopBackC["transmit-interface"].addSC("Tunnel", "Tunnel interface");
intLoopBackC["transmit-interface"].Tunnel.addSC("<0-2147483647>", "Tunnel interface number");
intLoopBackC["transmit-interface"].addSC("Virtual-Template", "Virtual Template interface");
intLoopBackC["transmit-interface"]["Virtual-Template"].addSC("<1-25>", "Virtual-Template interface number");
intLoopBackC["transmit-interface"].addSC("Virtual-TokenRing", "Virtual TokenRing");
intLoopBackC["transmit-interface"]["Virtual-TokenRing"].addSC("<0-2147483647>", "Virtual-TokenRing interface number");
intLoopBackC["transmit-interface"].addSC("Vlan", "Catalyst Vlans");
intLoopBackC["transmit-interface"].Vlan.addSC("<1-1001>", "Vlan interface number");
intLoopBackC.addSC("tx-ring-limit", "Configure PA level transmit ring limit");
intLoopBackC["tx-ring-limit"].addSC("<1-32767>", "Number (ring limit)");
|
