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JUNOS 10.1 - CONFIGURATION GUIDE 1-2010
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Juniper JUNOS 10.1 - CONFIGURATION GUIDE 1-2010 manual available for free PDF download: Configuration Manual
Juniper JUNOS 10.1 - CONFIGURATION GUIDE 1-2010 Configuration Manual (1654 pages)
Network Interfaces Configuration
Brand:
Juniper
| Category:
Software
| Size: 10.66 MB
Table of Contents
List of Figures
55
List of Tables
59
About this Guide Lxiii
63
Audience on Page Lxiv
63
JUNOS Documentation and Release Notes
63
Objectives on Page Lxiv
63
Supported Routing Platforms on Page Lxiv
63
Using the Examples in this Manual on Page Lxv
63
Merging a Full Example
65
Merging a Snippet
66
Using the Indexes on Page Lxv
63
Documentation Conventions
66
Table 1: Notice Icons
67
Table 2: Text and Syntax Conventions
67
Documentation Feedback
68
Requesting Technical Support
68
Self-Help Online Tools and Resources
69
Opening a Case with JTAC
69
Part 1 Network Interfaces Configuration Statements Overview
71
Chapter 1 Network Interfaces Configuration Statements and Hierarchy
73
Network Interfaces Configuration Statements and Hierarchy
73
[Edit Chassis] Hierarchy Level
73
[Edit Interfaces] Hierarchy Level
77
[Edit Protocols Connections] Hierarchy Level
94
[Edit Protocols Dot1X] Hierarchy Level
95
Part 2 Router Interfaces Configuration Concepts
99
Chapter 2 Understanding Router Interfaces
99
Chapter 2 Understanding Router Interfaces
101
Figure 2: Container Interface
101
Router Interfaces Overview
102
Types of Interfaces Overview
102
Permanent Interfaces Overview
103
Understanding Management Ethernet Interfaces
103
Understanding Internal Ethernet Interfaces
104
Understanding Services Interfaces
106
Understanding Transient Interfaces
106
Container Interfaces Overview
108
Understanding Traditional APS Concept
108
Container Interfaces Concept
108
APS Support for Container-Based Interfaces
108
Autocopy of APS Parameters
108
Figure 1: APS Interface
108
Interface Encapsulations Overview
110
Table 3: Encapsulation Support by Interface Type
110
Interface Descriptors Overview
121
Interface Naming Overview
122
Interface Naming for a Routing Matrix Based on a TX Matrix Router
123
Interface Naming for a Routing Matrix Based on a TX Matrix Plus
123
Router
123
Chassis Interface Naming
123
Examples: Interface Naming
123
Figure 3: Routing Matrix
129
Table 4: FPC Numbering for T640 Routers in a Routing Matrix
130
Table 5: One-To-One FPC Numbering for T640 Routers in a Routing Matrix
130
Figure 4: Routing Matrix Based on a TX Matrix Plus Router
131
Table 6: FPC Numbering for T1600 Routers in a Routing Matrix
132
Table 7: One-To-One FPC Numbering for T1600 Routers in a Routing Matrix
132
Figure 5: Interface Slot, PIC, and Port Locations
134
Displaying Interface Configurations Overview
135
Interface and Router Clock Sources Overview
135
Interface and Router Clock Sources Description
135
Configuring an External Synchronization Interface
135
Figure 6: Clock Sources
136
Configuring Physical Interface Properties
139
Physical Interface Configuration Statements Overview
140
Physical Interfaces Properties Statements List
149
Table 8: Statements for Physical Interface Properties
149
Interface Ranges
165
Configuring Interface Ranges
165
Expanding Interface Range Member and Member Range Statements
165
Configuration Inheritance for Member Interfaces
165
Member Interfaces Inheriting Configuration from Configuration
165
Groups
171
Interfaces Inheriting Common Configuration
172
Configuring Inheritance Range Priorities
173
Configuration Expansion Where Interface Range Is Used
173
Specifying an Aggregated Interface
174
Specifying a USB Modem Interface on J Series Routers
175
Specifying OC768-Over-OC192 Mode
177
Adding an Interface Description to the Configuration
178
Example: Adding an Interface Description to the Configuration
178
Configuring the Link Characteristics
179
Table 10: Media MTU Sizes by Interface Type for M40E Routers
180
Table 9: Media MTU Sizes by Interface Type for M5, M7I with CFEB, M10, M10I with CFEB, M20, and M40 Routers
180
Table 11: Media MTU Sizes by Interface Type for M160 Routers
181
Table 12: Media MTU Sizes by Interface Type for M7I with CFEB-E, M10I with CFEB-E, M320 and M120 Routers
182
Table 13: Media MTU Sizes by Interface Type for T320 Routers
183
Table 14: Media MTU Sizes by Interface Type for T640 Platforms
183
Table 15: Media MTU Sizes by Interface Type for J2300 Platforms
183
Table 16: Media MTU Sizes by Interface Type for J4300 and J6300 Platforms
184
Table 17: Media MTU Sizes by Interface Type for J4350 and J6350 Platforms
184
Table 18: Encapsulation Overhead by Encapsulation Type
186
Configuring Interface Encapsulation on Physical Interfaces
188
Configuring the Encapsulation on a Physical Interface
188
Encapsulation Capabilities
192
Example: Configuring the Encapsulation on a Physical Interface
193
Configuring the PPP Challenge Handshake Authentication Protocol
194
Assigning an Access Profile to an Interface
194
Configuring a Default CHAP Secret
194
Configuring the Local Name
195
Configuring Passive Mode
195
Example: Configuring the PPP Challenge Handshake Authentication Protocol
195
Configuring the PPP Password Authentication Protocol
196
Configuring the Local Name
198
Configuring the Local Password
198
Configuring Passive Mode
199
Example: Configuring PAP Authentication Protocol
199
Monitoring a PPP Session
200
Tracing Operations of the Pppd Process
201
Configuring PPP Address and Control Field Compression
202
Configuring the PPP Protocol Field Compression
203
Configuring the Interface Speed
204
Management Ethernet Interface on M Series and T Series Routers
204
Gigabit Ethernet Interfaces on J Series Routers
204
Fast Ethernet Interface
204
Tri-Rate Ethernet Copper Interface
204
SONET/SDH Interface
204
Table 19: Type 1 PIC Mode Combinations
207
Table 20: Type 2 PIC Mode Combinations
207
Configuring Keepalives
208
Configuring the Clock Source
210
Configuring the Router as a DCE
210
Configuring Receive and Transmit Leaky Bucket Properties
211
Configuring Accounting for the Physical Interface
212
Applying an Accounting Profile to the Physical Interface
212
Example: Applying an Accounting Profile to the Physical Interface
213
Interface Diagnostics
213
Configuring Loopback Testing
213
Table 21: Loopback Modes by Interface Type
214
Interface Diagnostics
216
Starting and Stopping a BERT Test
218
Table 22: BERT Capabilities by Interface Type
218
Example: Configuring Bit Error Rate Testing
219
Tracing Operations of an Individual Router Interface
219
Configuring Multiservice Physical Interface Properties
220
Damping Interface Transitions
220
Enabling or Disabling SNMP Notifications on Physical Interfaces
221
Enabling Unidirectional Traffic Flow on Physical Interfaces
221
Disabling a Physical Interface
222
Example: Disabling a Physical Interface
223
Chapter 4 Configuring Logical Interface Properties
225
Configuring Logical Interface Properties
227
Logical Interfaces Configuration Statements
227
Logical Interfaces Statements List
229
Table 23: Statements for Logical Interface Properties
229
Configuring Logical System Interface Properties
236
Example: Configuring Logical System Interface Properties
237
Specifying the Logical Interface Number
236
Adding a Logical Unit Description to the Configuration
238
Configuring a Point-To-Point Connection
238
Configuring a Multipoint Connection
239
Configuring Accounting for the Logical Interface
239
Applying an Accounting Profile to the Logical Interface
239
Example: Applying an Accounting Profile to the Logical Interface
240
Configuring the Interface Bandwidth
240
Configuring Interface Encapsulation on Logical Interfaces
241
Configuring the Encapsulation on a Logical Interface
241
Enabling or Disabling SNMP Notifications on Logical Interfaces
241
Configuring the LCP Configure-Request Maximum Sent
243
Configuring the NCP Configure-Request Maximum Sent
243
Configuring the PPP Restart Timers
243
Configuring Dynamic Profiles for PPP
244
Configuring the PPP Clear Loop Detected Timer
244
Configuring PPP CHAP Authentication
245
Configuring PPP PAP Authentication
245
Configuring a Default PAP Password
246
Configuring the Local Name
246
Configuring the Local Password
247
Configuring Passive Mode
247
Configuring Dynamic Call Admission Control
247
Example: Configuring Dynamic CAC
248
Disabling a Logical Interface
249
Configuring Protocol Family and Interface Address Properties
251
Protocol Family Configuration and Interface Address Statements
251
Chapter 5 Configuring Protocol Family and Interface Address Properties
253
Configuring the Protocol Family
255
Ipv6 Overview
255
Ipv4-To-Ipv6 Transition
255
VRRP Properties
256
Configuring the Interface Address
256
Configuring an Interface Ipv4 Address
257
Configuring the Interface Ipv6 Address
257
Configuring ICCP for MC-LAG
258
Configuring IPCP Options
259
Configuring an IP Address for an Interface
260
Negotiating an IP Address Assignment from the Remote End
260
Configuring an Interface to be Unnumbered
260
Assigning a Destination Profile to the Remote End
260
Configuring an Unnumbered Interface
262
Configuring an Unnumbered Point-To-Point Interface
262
Example: Configuring an Unnumbered Point-To-Point Interface
262
Configuring an Unnumbered Ethernet or Demux Interface
262
Configuring a Preferred Source Address for Unnumbered Ethernet or Demux Interfaces
264
Configuring Static Routes on Unnumbered Ethernet Interfaces
264
Restrictions for Configuring Unnumbered Ethernet Interfaces
265
Unnumbered Ethernet Interface
265
Example: Configuring an Unnumbered Ethernet Interface as the Next Hop for a Static Route
267
Setting the Protocol MTU
267
Disabling the Removal of Address and Control Bytes
268
Disabling the Transmission of Redirect Messages on an Interface
268
Configuring Default, Primary, and Preferred Addresses and Interfaces
269
Configuring the Primary Interface for the Router
269
Configuring the Primary Address for an Interface
269
Configuring the Preferred Address for an Interface
269
Applying Policers
271
Applying Aggregate Policers
272
Example: Applying Aggregate Policers
273
Applying Hierarchical Policers on Enhanced Intelligent Queuing Pics
274
Figure 7: Hierarchical Policer
275
Hierarchical Policer Overview
275
Hierarchical Policing Characteristics
275
Configuring Hierarchical Policers
276
Configuring a Single-Rate Tricolor Policer
277
Configuring a Single-Rate Two-Color Policer
277
Configuring a Two-Rate Tricolor Marker Policer
278
Applying a Filter to an Interface
280
Defining Interface Groups in Firewall Filters
282
Filter-Based Forwarding on the Output Interface
282
Example: Applying a Filter to an Interface
282
Configuring Unicast RPF
285
Configuring Unicast RPF Strict Mode
285
Configuring Unicast RPF Loose Mode
285
Unicast RPF and Default Routes
285
Unicast RPF Behavior with a Default Route
287
Unicast RPF Behavior Without a Default Route
287
Unicast RPF with Routing Asymmetry
288
Figure 8: Unicast RPF with Routing Asymmetry
288
Configuring Unicast RPF on a VPN
289
Example: Configuring Unicast RPF on a VPN
289
Example: Configuring Unicast RPF
289
Enabling Source Class and Destination Class Usage
290
Figure 9: Prefix Accounting with Source and Destination Classes
291
Examples: Enabling Source Class and Destination Class Usage
293
Chapter 6 Configuring Circuit and Translational Cross-Connects
299
Figure 10: Layer 2 Switching Circuit Cross-Connect
300
Configuring ATM-To-Ethernet Interworking
306
Enabling ATM-To-Ethernet Interworking
306
Configuring the ATM-To-Ethernet Interworking Ethernet Interface
306
Configuring the ATM-To-Ethernet Interworking Ethernet Encapsulation
306
Configuring the ATM-To-Ethernet Interworking Outer VLAN Identifier
306
Configuring the ATM-To-Ethernet Interworking Inner VLAN Identifier
306
Range
306
Configuring the ATM-To-Ethernet Interworking Physical Interface VPI
306
Configuring the ATM-To-Ethernet Interworking ATM Logical Interface
306
Configuring the ATM-To-Ethernet Interworking Protocol Family
307
Configuring the ATM-To-Ethernet Interworking Logical Interface VPI
307
Configuring the ATM-To-Ethernet Interworking Logical Interface VCI
307
Examples: Configuring Switching Cross-Connects
309
Example: Configuring a CCC over Frame Relay Encapsulated Interface
310
Example: Configuring a TCC
310
Figure 11: Example Topology of a Switching Circuit Cross-Connect with Frame Relay CCC Encapsulation
310
Figure 12: Layer 2.5 Switching Translational Cross-Connect
311
Example: Configuring CCC over Aggregated Ethernet
312
Figure 13: Interface-To-Interface Circuit Cross-Connect over Aggregated Ethernet Interfaces
312
Example: Configuring a Remote LSP CCC over Aggregated Ethernet
314
Figure 14: Remote Interface-LSP-Interface Circuit Cross-Connect over Aggregated Ethernet Interfaces
314
Example: Configuring ATM-To-Ethernet Interworking
316
Figure 15: ATM-To-Ethernet Interworking
316
Tracing Interface Operations
317
Tracing Interface Operations Overview
317
Tracing Operations of an Individual Router Interface
317
Tracing Operations of the Interface Process
318
Part 3 Configuring Special Router Interfaces
319
Displaying Internal Ethernet Interfaces for a Routing Matrix with a TX Matrix
321
Plus Router
321
Displaying the Internal Ethernet Interface
321
Displaying the Internal Ethernet Interface for M Series, MX Series, and most T Series Routers
321
Internal Ethernet Interface Overview
321
Configuring Discard Interfaces
325
Discard Interfaces Overview
325
Example: Discard Interface
325
Configuring an IP Demultiplexing Interface
327
Configuring an IP Demux Underlying Interface
327
Configuring IP Demultiplexing Interfaces
327
IP Demultiplexing Interface Overview
327
Specifying the Demux Underlying Interface
329
Configuring IP Demux Prefixes
330
Configuring MAC Address Validation on Static Demux Interfaces
330
Example: Configuring a Demux Interface
331
Configuring the Loopback Interface
333
Example: Configuring the Loopback Interface
334
Configuring Serial Interfaces
337
Chapter 12 Configuring Serial Interfaces
339
Serial Interface Default Settings
342
Interface Default Settings
342
Invalid Serial Interface Statements
342
Invalid EIA-530 Interface Statements
343
Invalid V.35 Interface Statements
343
Invalid X.21 Interface Statements
343
Configuring the Serial Line Protocol
339
Example: Physical Interface Configuration Statements for Serial Interfaces
339
Serial Interfaces Overview
339
Configuring the Serial Clocking Mode
345
Figure 16: Serial Interface Clocking Mode
345
Configuring the DTE Clock Rate
346
Inverting the Serial Interface Transmit Clock
346
Configuring the Serial Idle Cycle Flag
347
Configuring the Serial Signal Handling
348
Table 24: Signal Handling by Serial Interface Type
348
Configuring the Serial DTR Circuit
350
Configuring Serial Loopback Capability
351
Configuring Serial Signal Polarities
351
Figure 17: Serial Interface LIU Loopback
352
Figure 18: Serial Interface Local Loopback
352
Configuring Serial Line Encoding
353
Example: Configuring Serial Loopback Capability
353
Part 5 Configuring ATM Interfaces
355
Configuring ATM Interfaces
356
ATM Interfaces Overview
357
ATM1 Physical and Logical Configuration Statement Hierarchies
357
ATM2 IQ Physical and Logical Configuration Statement Hierarchies
357
Chapter 13 Configuring ATM Interfaces
357
Table 25: ATM1 and ATM2 IQ Supported Features
364
Example: Configuring Communication with Directly Attached ATM Switches and Routers
369
Configuring Communication with Directly Attached ATM Switches and
357
Supported Features on ATM1 and ATM2 IQ Interfaces
357
Enabling ILMI for Cell Relay
370
Table 26: ILMI Support by Encapsulation Type
370
Example: Enabling ILMI for Cell Relay
371
Enabling Passive Monitoring on ATM Interfaces
371
Removing MPLS Labels from Incoming Packets
372
Configuring the ATM PIC Type
373
Example: Configuring the ATM PIC Type
373
Configuring ATM Cell-Relay Promiscuous Mode
374
Examples: Configuring ATM Cell-Relay Promiscuous Mode
375
Configuring the Maximum Number of ATM1 Vcs on a VP
377
Configuring Layer 2 Circuit Transport Mode
378
Examples: Configuring IQ Layer 2 Circuit Transport Mode
380
Figure 19: Layer 2 Circuit Trunk Topology
382
Configuring Layer 2 Circuit Cell-Relay Promiscuous Mode
386
Example: Configuring Layer 2 Circuit Cell-Relay Promiscuous Mode
386
Configuring Layer 2 Circuit Trunk Mode Scheduling
387
Example: Configuring Layer 2 Circuit Trunk Mode Scheduling
387
Configuring Cos Queues in Layer 2 Circuit Trunk Mode
388
Example: Configuring Cos Queues in Layer 2 Circuit Trunk Mode
390
Configuring the Layer 2 Circuit Cell-Relay Cell Maximum
391
Class-Based Cell Bundling
392
Configuring the OAM F4 Cell Flows
392
Configuring a Point-To-Point ATM1 or ATM2 IQ Connection
394
Defining Virtual Path Tunnels
394
Configuring a Point-To-Multipoint ATM1 or ATM2 IQ Connection
395
Configuring a Multicast-Capable ATM1 or ATM2 IQ Connection
396
Configuring Inverse ATM1 or ATM2 ARP
396
Defining the ATM Traffic-Shaping Profile
396
Configuring ATM CBR
397
Configuring ATM2 IQ Real-Time VBR
397
Configuring ATM VBR
397
Specifying ATM1 Shaping Values
397
Table 27: Shaping Rate Range by Interface Type
398
Example: Specifying ATM1 Shaping Values
401
Table 28: ATM1 Traffic-Shaping Rates
401
Specifying Atm2 Iq Shaping Values
402
Configuring the ATM1 Queue Length
403
Configuring the ATM2 IQ EPD Threshold
404
Example: Configuring the ATM2 IQ EPD Threshold
405
Table 29: EPD Threshold Range by Interface Type
405
Configuring the ATM2 IQ Transmission Weight
406
Configuring Two EPD Thresholds Per Queue
406
Configuring the ATM OAM F5 Loopback Cell Threshold
407
Defining the ATM OAM F5 Loopback Cell Period
407
Configuring ATM Interface Encapsulation
408
Table 30: ATM Logical Interface Encapsulation Types
409
Configuring an ATM1 Cell-Relay Circuit
410
Example: Configuring an ATM1 Cell-Relay Circuit
410
Configuring PPP over ATM2 Encapsulation
412
Example: Configuring Ppp over Atm2 Iq Encapsulation
413
Configuring E3 and T3 Parameters on ATM Interfaces
415
Configuring SONET/SDH Parameters on ATM Interfaces
416
Configuring ATM2 IQ VC Tunnel Cos Components
417
Example: Enabling Eight Queues on T Series, M120, and M320 Platforms
421
Figure 20: Example Topology for Router with Eight Queues
421
Configuring VC Cos Mode
426
Enabling the PLP Setting to be Copied to the CLP Bit
426
Configuring ATM Cos on the Logical Interface
427
Example: Configuring ATM2 IQ VC Tunnel Cos Components
427
Example: Configuring ATM1 Interfaces
428
Example: Configuring ATM2 IQ Interfaces
430
ATM-Over-ADSL Overview
433
Configuring ATM-Over-ADSL Interfaces
433
Configuring Physical ATM Interfaces and Logical Interface Properties for ADSL
433
Configuring the ATM-Over-ADSL Logical Interface Encapsulation Type
433
Configuring the ATM-Over-ADSL Physical Interface Encapsulation Type
433
Configuring the ATM-Over-ADSL Physical Interface Operating Mode
433
Configuring the ATM-Over-ADSL Protocol Family
433
Configuring the ATM-Over-ADSL Virtual Channel Identifier
433
Configuring the ATM-Over-ADSL Virtual Path Identifier
433
Table 31: ATM-Over-ADSL Operational Modes
435
Table 32: ATM-Over-ADSL Encapsulation Types
437
ATM-Over-SHDSL Overview
439
Configuring ATM Mode for SHDSL Overview
439
Configuring ATM Mode on the PIM
439
Configuring ATM-Over-SHDSL Interfaces
439
Configuring Encapsulation on the ATM Physical Interface
439
Configuring SHDSL Operating Mode on an ATM Physical Interface
439
Example: Configuring an ATM-Over-SHDSL Interface
439
Verifying an ATM-Over-SHDSL Interface Configuration
439
Configuring Frame Relay
447
Chapter 16
449
Configuring Frame Relay Interface Encapsulation
449
Configuring the Frame Relay Encapsulation on a Physical Interface
450
Table 33: PIC Support for Enhanced Frame Relay Encapsulation Types
451
Example: Configuring the Encapsulation on a Physical Interface
452
Configuring the Frame Relay Encapsulation on a Logical Interface
453
Frame Relay Overview
449
Configuring Frame Relay Control Bit Translation
453
Configuring the Media MTU on Frame Relay Interfaces
454
Configuring Frame Relay Keepalives
455
Configuring Tunable Keepalives for Frame Relay LMI
456
Setting the Protocol MTU with Frame Relay Encapsulation
455
Configuring Inverse Frame Relay ARP
457
Configuring Frame Relay Dlcis
458
Configuring a Point-To-Point Frame Relay Connection
458
Configuring a Point-To-Multipoint Frame Relay Connection
458
Configuring a Multicast-Capable Frame Relay Connection
459
Configuring the Router as a DCE with Frame Relay Encapsulation
458
Configuring Channelized OC48/STM16 IQE Interfaces
461
Channelized E1 and T1 PIM Properties
463
Channelized Interface Capabilities
463
Channelized Interfaces
463
Channelized Interfaces Overview
463
Channelized IQ and IQE Interfaces Properties
463
Configuring Channelized Interfaces
461
Chapter 17 Channelized Interfaces
463
Clock Sources on Channelized Interfaces
463
Data-Link Connection Identifiers on Channelized Interfaces
463
Structure of Channelized IQ and Channelized IQE Pics
463
Table 34: Frame Relay DLCI Limitations for Channelized Interfaces
466
Table 35: Per Unit Scheduler DLCI Limitations for Channelized
467
Table 36: Protocol Family Combinations
467
Table 37: Clocking Capabilities by Channelized PIC Type
469
Figure 21: Channelized OC48/STM16 IQE PIC (in SONET Mode)
474
Figure 22: Channelized OC48/STM16 IQE PIC (in SDH Mode)
474
Figure 23: Channelized OC12 IQ PIC and Channelized OC12/STM4 IQE PIC
475
Figure 24: Channelized OC12/STM4 IQE PIC (in SDH Mode)
475
Figure 25: Channelized OC12/STM4 IQ PIC (in SDH Mode)
476
Figure 26: Channelized OC3 Ports (in SONET Mode) on Channelized OC3 IQ
476
Figure 27: Channelized CSTM1 Ports (in SDH Mode) on Channelized
477
Figure 28: Channelized STM1 IQ PIC
477
Figure 29: Channelized CDS3/E3 IQE PIC (in DS3 Mode)
478
Figure 30: Channelized CDS3/E3 IQE PIC (in E3 Mode)
478
Figure 31: Channelized DS3 IQ PIC
478
Figure 32: Channelized T1 IQ and IQE PIC
478
Figure 33: Channelized E1 IQ and IQE PIC
479
Table 38: Structural Differences: Channelized IQE Pics
480
Table 39: Structural Differences: Channelized IQ Pics
481
Table 40: Structural Differences: Channelized Pics
482
Channelized OC48/STM16 IQE Interfaces Overview
483
Figure 34: Sample Channelization of OC48/STM16 IQE PIC
483
Figure 35: Sample Channelization of OC48/STM16 IQE PIC (SDH Mode)
484
Configuring Channelized OC48/STM16 IQE Interfaces in SONET Mode
485
Configuring OC12 Interfaces
485
Configuring OC3 Interfaces
485
Figure 36: Sample Channelization of OC48/STM16 IQE PIC to E3
485
Example: Configuring OC12 Interfaces
486
Configuring OC3 Interfaces
486
Example: Configuring OC3 Interfaces
487
Configuring T3 Interfaces
487
Example: Configuring T3 Interfaces
488
Configuring T1 Interfaces
488
Example: Configuring T1 Interfaces
489
Figure 37: T1 Interfaces on a Channelized OC48 PIC
489
Configuring Fractional T1 Interfaces
490
Example: Configuring Fractional T1 Interfaces
490
Configuring Nxds0 Interfaces
491
Example: Configuring Nxds0 Interfaces
492
Figure 38: Sample Channelization of OC48 IQE PIC
492
Configuring Channelized OC48/STM16 IQE Interfaces (SDH Mode)
493
Configuring a Channelized OC48/STM16 IQE PIC for SDH Mode
493
Configuring Clear Channel STM1 and STM4 Interfaces
493
Configuring Channelized AU-4 Interfaces
493
Example: Configuring Channelized AU-4 Interfaces
494
Configuring E3 Interfaces
495
Example: Configuring E3 Interfaces
495
Configuring E1 or Channelized E1 Interfaces
496
Example: Configuring E1 and Channelized E1 Interfaces
496
Configuring Nxds0 IQE Interfaces
496
Example: Configuring Nxds0 IQE Interfaces
497
Configuring T3 or Channelized T3 Interfaces
497
Example: Configuring T3 or Channelized T3 Interfaces
497
Configuring T1 or Channelized T1 Interfaces
498
Example: Configuring T1 or Channelized T1 Interfaces
498
Configuring Link PIC Failover on Channelized OC48/STM16 IQE Interfaces
498
Example: Configuring Channelized OC48 Interfaces with Partitioned Channels
499
Channelization of OC12 PIC (SONET Mode)
501
Channelization of OC12/STM4 IQ and Channelized OC12/STM4 IQE Pics (SONET Mode)
501
Channelization of OC12/STM4 IQ PIC (SDH Mode)
501
Channelization of OC12/STM4 IQE PIC (SDH Mode)
501
Channelized OC12/STM4 IQ and IQE Interfaces Overview
501
Configuring Channelized OC12/STM4 Interfaces
501
Configuring Channelized OC12/STM4 IQ and IQE Interfaces
501
Mode)
501
Configuring Channelized OC12/STM4 IQE Interfaces (SDH Mode)
501
Figure 39: Sample Channelization of OC12/STM4 IQ or IQE PIC
502
Figure 40: Sample Channelization of OC12/STM4 IQE PIC (SDH Mode)
503
Figure 41: Sample Channelization of OC12/STM4 IQ PIC (SDH Mode)
504
Configuring an OC12/STM4 Interface
505
Configuring T3 Interfaces
505
Figure 42: Sample Channelization of OC12 PIC (Non IQ and IQE)
505
Example: Configuring T3 Interfaces
507
Figure 43: T1 Interfaces on a Channelized OC12 PIC
509
Figure 44: Sample Channelization of OC12 IQE PIC
511
Configuring an Unpartitioned SDH (VC-4-4C) Interface on a Channelized
513
Oc12/Stm4 Iqe Pic
513
Example: Configuring an Unpartitioned SDH (VC-4-4C) Interface
514
Configuring Channelized OC12/STM4 IQE Pics for SDH Mode
513
Configuring SDH (VC-4) Interfaces on Channelized OC12/STM4 IQE Pics
514
Example: Configuring SDH (VC-4) Interfaces
515
Configuring Channelized AU-4 Interfaces
515
Example: Configuring Channelized AU-4 Interfaces
515
Configuring E3 Interfaces
516
Example: Configuring E3 Interfaces
516
Configuring E1 or Channelized E1 Interfaces
517
Example: Configuring E1 or Channelized CE1 Interfaces
517
Configuring Nxds0 Interfaces on Channelized OC12/STM4 IQE Pics
517
Example: Configuring Nxds0 Interfaces
518
Configuring an Unpartitioned SDH (VC-4-4C) Interface on a Channelized
518
Oc12/Stm4 Iq Pic
518
Example: Configuring an Unpartitioned SDH (VC-4-4C) Interface
519
Configuring Channelized OC12/STM4 IQ Pics for SDH Mode
518
Configuring SDH (VC-4) Interfaces on Channelized OC12/STM4 IQ Pics
519
Example: Configuring SDH (VC-4) Interfaces
520
Configuring Channelized AU-4 Interfaces
520
Example: Configuring Channelized AU-4 Interfaces
521
Configuring T3 or Channelized T3 Interfaces under Channelized AU-4 Interfaces
521
Example: Configuring T3 or Channelized T3 Interfaces
521
Configuring T1 or Channelized T1 Interfaces under Channelized AU-4 Interfaces
522
Channelized AU-4 Interfaces
522
Configuring T1 or Channelized T1 Interfaces under Channelized T3 Interfaces
522
Example: Configuring T1 or Channelized T1 Interfaces under Channelized T3 Interfaces
523
Configuring Nxds0 Interfaces on Channelized OC12/STM4 IQ Pics
523
Example: Configuring Nxds0 Interfaces
523
Configuring Channelized OC12 Interfaces
524
Table 41: OC12-To-DS3 Numbering Scheme
524
Example: Configuring Channelized OC12 Interfaces
525
Configuring Link PIC Failover on Channelized OC12/STM4 IQ and IQE Interfaces
526
Example: Configuring a Channelized OC12 IQ Interface as an Unpartitioned Clear Channel
527
Example: Configuring Channelized OC12 Interfaces with Partitioned Channels
530
Channelized OC3 IQ and IQE Overview
533
Configuring a Clear Channel on Channelized OC3 IQ and IQE Pics
533
Configuring Channelized OC3 IQ and IQE Interfaces
533
Configuring T3 Interfaces on IQ and IQE Interfaces
533
Figure 45: Channelized OC3 IQ Interface Example for Show Interfaces
534
Example: Configuring T3 Interfaces
536
Partitions, OC Slices, Interface Types, and Time Slots
533
Configuring T1 and Nxds0 Interfaces
536
Example: Configuring T1 and Nxds0 Interfaces
538
Figure 46: T1 Interfaces on a Channelized OC3 PIC
538
Figure 47: Sample Channelization of OC3 IQ or IQE PIC
538
Example: Setting Remote Loopback and Running BERT Tests on Nxds0 Interfaces
539
Configuring Fractional T1 IQ Interfaces
540
Example: Configuring Fractional T1 IQ Interfaces
540
Configuring Link PIC Failover on Channelized OC3 IQ and IQE Interfaces
540
Channelized STM1 Interfaces Overview
543
Configuring Channelized STM1 Interfaces
543
Configuring Channelized STM1 IQ and IQE Interfaces
543
Configuring an STM1 IQ or STM1 IQE Interface
543
Configuring E1 IQ and IQE Interfaces
543
Example: Configuring E1 IQ and IQE Interfaces
544
Configuring Fractional E1 IQ and IQE Interfaces
545
Example: Configuring Fractional E1 Interfaces
546
Configuring an Nxds0 IQ Interface
546
Example: Configuring an Nxds0 IQ Interface
547
Example: Configuring Channelized STM1 IQ and IQE Interfaces
547
Configuring Channelized STM1 Interfaces
549
Configuring Channelized STM1 Interface Properties
549
Configuring Virtual Tributary Mapping of Channelized STM1 Interfaces
550
Table 42: Channelized STM1-To-E1 Channel Mapping
551
Table 43: Channelized STM1-To-T1 Channel Mapping
553
Configuring Link PIC Failover on Channelized STM1 Interfaces
556
Example: Configuring Channelized STM1 Interfaces
557
Configuring Channelized T3 Interfaces
559
Configuring Channelized T3 IQ Interfaces
559
Configuring T3 IQ Interfaces
559
Configuring T1 IQ Interfaces
559
Example: Configuring T1 IQ and IQE Interfaces
560
Configuring Fractional T1 IQ and IQE Interfaces
560
Example: Configuring Fractional T1 IQ Interfaces
561
Configuring an Nxds0 IQ Interface
561
Example: Configuring an Nxds0 IQ Interface
562
Configuring Channelized DS3-To-DS0 Interfaces
562
Table 44: Ranges for Channelized DS3-To-DS0 Configuration
563
Configuring Channelized DS3-To-DS1 Interfaces
565
Example: Configuring Channelized T3 IQ Interfaces
566
Examples: Configuring Channelized DS3-To-DS0 Interfaces
567
Figure 48: Sample Channelization of DS3 IQ or IQE PIC
567
Examples: Configuring Channelized DS3-To-DS1 Interfaces
570
Channelized T1 IQ and IQE Interfaces Overview
575
Configuring Channelized T1 Interfaces
575
Configuring Channelized T1 IQ and IQE Interfaces
575
Configuring T1 IQ and IQE Interfaces
575
Configuring Fractional T1 IQ and IQE Interfaces
575
Example: Configuring Fractional T1 IQ and IQE Interfaces
576
Configuring Nxds0 IQ and IQE Interfaces
577
Example: Configuring an Nxds0 IQ or IQE Interface
577
Configuring Payload Loopback
577
Table 45: Ranges for Channelized T1 IQ Configuration
578
Configuring Channelized T1 Interface Properties
579
Example: Configuring Channelized T1 IQ and IQE Interfaces
579
Channelized E1 IQ and IQE Interfaces Overview
581
Configuring Channelized E1 Interfaces
581
Configuring Channelized E1 IQ and IQE Interfaces
581
Configuring E1 IQ and IQE Interfaces
581
Configuring Fractional E1 IQ and IQE Interfaces
581
Example: Configuring Fractional E1 IQ and IQE Interfaces
582
Configuring Nxds0 IQ and IQE Interfaces
582
Example: Configuring an Nxds0 IQ or IQE Interface
583
Configuring Channelized E1 Interfaces
583
Table 46: Ranges for Channelized E1 Configuration
584
Configuring Channelized E1 Interface Properties
585
Example: Configuring Channelized E1 IQ or IQE Interfaces
585
Example: Configuring Channelized E1 Interfaces
586
Allocating B-Channels for Dialout
589
Channelized E1 PRI and T1 PRI Overview
589
Chapter 25 Configuring Channelized E1 PRI and T1 PRI Interfaces
589
Interface
590
Part 8 Configuring Circuit Emulation Pics
597
Configuring a Channelized T1/E1 Interface to Drop and Insert Time Slots
589
Configuring a Clear Channel on a Dual-Port Channelized T1-E1 PIM
589
Configuring PRI Interfaces
589
Configuring Primary Rate Interfaces
589
Example: Configuring a Channelized T1 Interface as Primary Rate
589
Circuit Emulation Pics Overview
599
Displaying Information about Circuit Emulation Pics
599
Mobile Backhaul and Circuit Emulation Overview
599
Mobile Backhaul Application Overview
599
Understanding Circuit Emulation PIC Clocking Features
599
Understanding Circuit Emulation PIC Types
599
Understanding T1 and E1 Options Exceptions on Circuit Emulation Pics
599
Figure 49: Mobile Backhaul Application
600
Configuring Satop Emulation on T1/E1 Interfaces on Circuit Emulation
603
Pics
603
Setting the Emulation Mode
605
Configuring Satop Emulation on T1/E1 Interfaces
605
Setting the Encapsulation Mode
606
Setting the Satop Options
606
T1 FDL Support
606
T1/E1 Loopback Support
606
Pseudowire Interface Configuration
607
Configuring Satop on 4-Port Channelized OC3/STM1 Circuit Emulation Pics
603
Configuring SONET/SDH Framing Mode at the PIC Level
603
Configuring SONET/SDH Framing Mode at the Port Level
603
Configuring COC3 Ports down to T1 Channels
603
Configuring CSTM1 Ports down to E1 Channels
603
Configuring Satop Support on Circuit Emulation Pics
603
ATM Support on Circuit Emulation Pics Overview
609
Configuring ATM Support on Circuit Emulation Pics
609
Configuring the 12-Port Channelized T1/E1 Circuit Emulation PIC Operating Mode
609
T1/E1 Mode Selection
611
12-Port Channelized T1/E1 Circuit Emulation PIC Configuration Statements
611
Figure 50: 12-Port T1/E1 Circuit Emulation PIC Possible Interfaces
611
Figure 51: 12-Port T1/E1 Circuit Emulation PIC Possible Interfaces
611
Configuring the 4-Port Channelized COC3/STM1 Circuit Emulation PIC Operating Mode
612
T1/E1 Mode Selection
612
Figure 52: 4-Port Channelized COC3/STM1 Circuit Emulation PIC Possible
613
Figure 53: 4-Port Channelized COC3/STM1 Circuit Emulation PIC Possible Interfaces (E1 Size)
613
Configuring a Port for SONET or SDH Mode on a 4-Port Channelized COC3/STM1 Circuit Emulation PIC
614
Configuring an ATM Interface on a COC1
614
ATM IMA Configuration Overview
615
IMA Version
615
IMA Groups
615
Group Frame Size
615
IMA Clock Mode
615
IMA Group Symmetry
615
Minimum Active Links
615
State Transition Variables: Alpha, Beta, and Gamma
615
IMA Link Addition and Deletion
615
IMA Test Pattern Procedure
615
Table 47: IMA Frame Synchronization Link State Transition Variables
617
Table 48: IMA Group Alarms with IMA Standard Requirement Numbers
617
Table 49: IMA Group Defects with IMA Standard Requirement Numbers
618
Table 50: IMA Link Alarms with IMA Standard Requirement Numbers
618
Table 51: IMA Link Defects with IMA Standard Requirement Numbers
619
Table 52: IMA Link Statistics with IMA Standard Requirement Numbers
620
IMA Clocking
621
Configuring ATM IMA
621
Creating the IMA Groups (ATM Interfaces)
621
Linking Constituents to Form Group and T1/E1 Options
621
ATM Options and Encapsulations and Families
621
IMA Link Options
621
IMA Group Options
621
Configuring ATM Pseudowires
623
Cell Relay Mode (Atm-L2Circuit-Mode Cell)
623
Configuring VP or Port Promiscuous Mode
623
Configuring AAL5 SDU Mode (Atm-L2Circuit-Mode Aal5)
623
Atm Oam
625
VP Pseudowires (CCC Encapsulation)
625
Port Pseudowires (CCC Encapsulation)
625
VC Pseudowires (CCC Encapsulation)
625
Scaling
625
Configuring Layer 2 Circuit and Layer 2 VPN Pseudowires
626
Configuring the PIC Type
626
Congestion Control
626
Qos/Shaping
626
Supported Interface Configurations
626
ATM Limitations
627
Part 9 Configuring E1, E3, T1, and T3 Interfaces
629
Chapter 29 Configuring E1 Interfaces
631
Configuring E1 BERT Properties
631
Configuring E1 Data Inversion
631
Example: Configuring E1 Loopback Capability
635
Figure 54: Remote and Local E1 Loopback
635
Configuring E1 Physical Interface Properties
631
Configuring the E1 Frame Checksum
631
Configuring the E1 Idle Cycle Flag
631
E1 Interfaces Overview
631
Configuring E1 Start and End Flags
636
Configuring Fractional E1 Time Slots
636
Example: Configuring Fractional E1 Time Slots
637
Chapter 30 Configuring E3 Interfaces
639
Configuring E3 BERT Properties
639
Configuring E3 Data Inversion
639
Configuring E3 Loopback Capability
639
Table 53: Subrate Values for E3 Digital Link Compatibility Mode
642
Example: Configuring E3 Loopback Capability
644
Figure 55: Remote and Local E3 Loopback
644
Configuring E3 Physical Interface Properties
639
Configuring the E3 CSU Compatibility Mode
639
Configuring the E3 Frame Checksum
639
Configuring the E3 Idle Cycle Flag
639
E3 Interfaces Overview
639
Configuring E3 HDLC Payload Scrambling
645
Configuring the E3 Start and End Flags
645
Configuring E3 IQ and IQE Unframed Mode
646
Chapter 31 Configuring T1 Interfaces
647
Configuring T1 BERT Properties
647
Configuring T1 Byte Encoding
647
Configuring T1 CRC Error Major Alarm Thresholds
647
Configuring T1 CRC Error Minor Alarm Thresholds
647
Configuring T1 Data Inversion
647
Configuring T1 Physical Interface Properties
647
Configuring the T1 Buildout
647
T1 Interfaces Overview
647
Configuring T1 Framing
652
Configuring T1 Line Encoding
652
Configuring the T1 Remote Loopback Response
652
Configuring T1 Loopback Capability
653
Figure 56: Remote and Local T1 Loopback
653
Configuring the T1 Idle Cycle Flag
654
Configuring Fractional T1 Time Slots
655
Example: Configuring Fractional T1 Time Slots
655
Configuring T1 Start and End Flags
655
Chapter 32 Configuring T3 Interfaces
657
Configuring T3 BERT Properties
657
Configuring T3 Physical Interface Properties
657
T3 Interfaces Overview
657
Disabling T3 C-Bit Parity Mode
659
Configuring the T3 CSU Compatibility Mode
660
Table 54: Subrate Values for T3 Digital Link Compatibility Mode
661
Configuring the T3 Frame Checksum
662
Configuring the T3 FEAC Response
663
Configuring the T3 Idle Cycle Flag
663
Configuring the T3 Line Buildout
663
Configuring T3 Loopback Capability
664
Configuring the Channelized T3 Loop Timing
664
Figure 57: Remote and Local T3 Loopback
665
Configuring T3 HDLC Payload Scrambling
666
Configuring T3 Start and End Flags
667
Examples: Configuring T3 Interfaces
667
Part 10 Configuring Ethernet Interfaces
671
Configuring Ethernet Interfaces
671
Chapter 33 Configuring Ethernet Interfaces
673
Example: Configuring J Series Services Router Switching Interfaces
679
Configuring Ethernet Physical Interface Properties
673
Configuring J Series Services Router Switching Interfaces
673
Ethernet Interfaces Overview
673
MX Series Router Interface Identifiers
679
Enabling Ethernet MAC Address Filtering
680
Filtering Specific MAC Addresses
681
Configuring Ethernet Loopback Capability
682
Configuring Flow Control
683
Configuring the Link Characteristics on Ethernet Interfaces
683
Ignoring Layer 3 Incomplete Errors
683
Configuring Gratuitous ARP
684
Adjusting the ARP Aging Timer
685
Configuring the Ingress Rate Limit
686
Configuring the Interface Speed on Ethernet Interfaces
686
Configuring Weighted Random Early Detection
686
Chapter 34 Configuring 802.1Q Vlans
689
Configuring Dynamic 802.1Q Vlans
689
Enabling VLAN Tagging
689
Table 55: VLAN ID Range by Interface Type
690
Configuring Dual Tagging
691
Configuring Mixed Tagging
691
Configuring Mixed Tagging Support for Untagged Packets
691
Configuring Single-Tag Framing
691
Example: Configuring Mixed Tagging
691
Example: Configuring Mixed Tagging to Support Untagged Packets
691
Q VLAN Ids and Ethernet Interface Types
689
Q Vlans Overview
689
Binding VLAN Ids to Logical Interfaces
694
Binding VLAN Ids to Logical Interfaces Overview
694
Binding a VLAN ID to a Logical Interface
694
Binding a VLAN ID to a Dual-Tag Logical Interface
695
Binding a VLAN ID to a Single-Tag Logical Interface
695
Table 56: Configuration Statements Used to Bind VLAN Ids to Logical
695
Binding a Range of VLAN Ids to a Logical Interface
696
Binding a Range of VLAN Ids to a Dual-Tag Logical Interface
696
Binding a Range of VLAN Ids to a Single-Tag Logical Interface
696
Example: Binding Ranges VLAN Ids to Logical Interfaces
697
Binding a List of VLAN Ids to a Logical Interface
697
Binding a List of VLAN Ids to a Single-Tag Logical Interface
697
Binding a List of VLAN Ids to a Dual-Tag Logical Interface
698
Example: Binding Lists of VLAN Ids to Logical Interfaces
698
Configuring VLAN Encapsulation
699
Example: Configuring VLAN Encapsulation on a Gigabit Ethernet Interface
700
Example: Configuring VLAN Encapsulation on an Aggregated Ethernet Interface
700
Configuring Extended VLAN Encapsulation
700
Example: Configuring Extended VLAN Encapsulation on a Gigabit Ethernet Interface
701
Example: Configuring Extended VLAN Encapsulation on an Aggregated Ethernet Interface
701
Guidelines for Configuring VLAN ID List-Bundled Logical Interfaces that Connect Cccs
702
Guidelines for Configuring Physical Link-Layer Encapsulation to Support Cccs
702
Guidelines for Configuring Logical Link-Layer Encapsulation to Support Cccs
702
Table 57: Encapsulation Inside Circuits CCC-Connected by VLAN-Bundled
703
Configuring a Layer 2 VPN Routing Instance on a VLAN-Bundled Logical Interface
704
Configuring a VLAN-Bundled Logical Interface
704
Specifying the Interface over Which VPN Traffic Travels to the CE Router
704
Specifying the Interface to Handle Traffic for a CCC
704
Configuring a Layer 2 Circuit on a VLAN-Bundled Logical Interface
705
Configuring a VLAN-Bundled Logical Interface
705
Specifying the Interface to Handle Traffic for a CCC Connected to the Layer 2 Circuit
706
Example: Configuring a Layer 2 VPN Routing Instance on a VLAN-Bundled Logical Interface
707
Example: Configuring a Layer 2 Circuit on a VLAN-Bundled Logical Interface
708
Configuring a Logical Interface for Access Mode
709
Example: Configuring a Logical Interface for Access Mode
710
Configuring a Logical Interface for Trunk Mode
710
Configuring the VLAN ID List for a Trunk Interface
710
Configuring a Trunk Interface on a Bridge Network
711
Aggregated Ethernet Interfaces Overview
713
Platform Support for Aggregated Ethernet Interfaces
714
Configuration Guidelines for Aggregated Ethernet Interfaces
714
Configuring Aggregated Ethernet Interfaces
713
Configuring an Aggregated Ethernet Interface
715
Configuring Multi-Chassis Link Aggregation
716
Deleting an Aggregated Ethernet Interface
716
Configuring Aggregated Ethernet Link Protection
717
Configuring Link Protection for Aggregated Ethernet Interfaces
717
Configuring Primary and Backup Links for Link Aggregated Ethernet Interfaces
717
Reverting Traffic to a Primary Link When Traffic Is Passing through a Backup Link
717
Disabling Link Protection for Aggregated Ethernet Interfaces
717
Configuring Aggregated Ethernet LACP
719
Configuring the LACP Interval
720
Configuring LACP Link Protection
720
Configuring LACP System Priority
722
Enabling LACP Link Protection
722
Configuring LACP Port Priority
723
Tracing LACP Operations
723
Example: Configuring Aggregated Ethernet LACP
724
Configuring the Number of Aggregated Ethernet Interfaces on the Device
719
Configuring Untagged Aggregated Ethernet Interfaces
725
Table 58: Untagged Aggregated Ethernet and LACP Support by PIC and
725
Example: Configuring Untagged Aggregated Ethernet Interfaces
726
Configuring Aggregated Ethernet Link Speed
726
Configuring Aggregated Ethernet Minimum Links
727
Configuring Hierarchical Scheduler on Aggregated Ethernet Interfaces Without Link Protection
727
Configuring Symmetrical Load Balancing on an 802.3Ad Link Aggregation Group on MX Series Routers
728
Symmetrical Load Balancing on an 802.3Ad LAG on MX Series Routers Overview
728
Configuring Symmetric Load Balancing on an 802.3Ad LAG on MX Series Routers
728
Figure 58: Symmetric Load Balancing on an 802.3Ad LAG on MX Series
729
Example Configurations
732
Example Configurations of Chassis Wide Settings
732
Example Configurations of Per-Packet-Forwarding-Engine Settings
732
Stacking and Rewriting Gigabit Ethernet VLAN Tags
735
Stacking and Rewriting Gigabit Ethernet VLAN Tags Overview
735
Table 59: Rewrite Operations on Untagged, Single-Tagged, and Dual-Tagged
737
Configuring Frames with Particular Tpids to be Processed as Tagged Frames
738
Table 60: Applying Rewrite Operations to VLAN Maps
738
Configuring Dual VLAN Tags
739
Configuring Inner and Outer Tpids and VLAN Ids
739
Configuring Stacked VLAN Tagging
739
Table 61: Rewrite Operations and Statement Usage for Input VLAN
741
Table 62: Rewrite Operations and Statement Usage for Output VLAN
742
Removing a VLAN Tag
743
Stacking a VLAN Tag
743
Removing the Outer and Inner VLAN Tags
744
Removing the Outer VLAN Tag and Rewriting the Inner VLAN Tag
744
Rewriting the VLAN Tag on Tagged Frames
745
Stacking Two VLAN Tags
745
Rewriting a VLAN Tag on Untagged Frames
746
Table 63: Input VLAN Map Statements Allowed for Ethernet-CCC and
747
Table 64: Output VLAN Map Statements Allowed for Ethernet-CCC and
747
Table 65: Rules for Applying Rewrite Operations to VLAN Maps
747
Rewriting a VLAN Tag and Adding a New Tag
749
Rewriting the Inner and Outer VLAN Tags
749
Examples: Stacking and Rewriting Gigabit Ethernet IQ VLAN Tags
750
Configuring Layer 2 Bridging Interfaces
757
Layer 2 Bridging Interfaces Overview
757
Example: Configuring Layer 2 Bridging Interfaces
758
Configuring Ethernet TCC
759
Example: Configuring an Ethernet TCC or Extended VLAN TCC
761
Figure 59: Topology of Layer 2.5 Translational Cross-Connect
761
Configuring TCC and Layer 2.5 Switching
759
Configuring VLAN TCC Encapsulation
759
TCC and Layer 2.5 Switching Overview
759
Configuring Static ARP Table Entries
763
Static ARP Table Entries Overview
763
Example: Configuring Static ARP Table Entries
764
Configuring Unrestricted Proxy ARP
765
Unrestricted Proxy ARP Overview
765
Figure 60: Edge Device Case for Unrestricted Proxy ARP
766
Figure 61: Core Device Case for Unrestricted Proxy ARP
766
Configuring MAC Address Validation on Static Ethernet Interfaces
769
Interfaces
769
MAC Address Validation on Static Ethernet Interfaces Overview
769
Example of Strict MAC Validation on a Static Ethernet Interface
770
Chapter 42 Enabling Passive Monitoring on Ethernet Interfaces
771
Enabling Passive Monitoring on Ethernet Interfaces
771
Passive Monitoring on Ethernet Interfaces Overview
771
Chapter 43 Configuring IEEE 802.1Ag OAM Connectivity-Fault Management
773
IEEE 802.1Ag OAM Connectivity Fault Management Overview
773
Connectivity Fault Management Key Elements
774
Figure 62: Relationship Among Meps, Mips, and Maintenance Domain
774
Creating the Maintenance Domain
775
Configuring the Maintenance Domain Name Format
775
Configuring the Maintenance Domain Level
775
Figure 63: Relationship Among Bridges, Maintenance Domains, Maintenance
775
Configuring Maintenance Intermediate Points
776
Configuring MIP for Bridge Domains of a Virtual Switch
776
Configuring the Maintenance Domain Routing Instances Bridge
776
Domain
776
Configuring the Maintenance Domain Routing Instance
776
Configuring the Maintenance Domain Instance
776
Configuring the Maintenance Domain MIP Half Function
776
Continuity Check Protocol
778
Configuring the Continuity Check
778
Configuring the Continuity Check Hold Interval
778
Configuring the Continuity Check Interval
778
Configuring the Continuity Check Loss Threshold
778
Creating a Maintenance Association
778
Configuring a Maintenance Endpoint
779
Enabling Maintenance Endpoint Automatic Discovery
779
Configuring the Maintenance Endpoint Direction
779
Configuring the Maintenance Endpoint Interface
779
Configuring the Maintenance Endpoint Priority
779
Configuring the Maintenance Endpoint Lowest Priority Defect
780
Configuring a Remote Maintenance Endpoint
780
Table 66: Lowest Priority Defect Options
781
Configuring a Remote Maintenance Endpoint Action Profile
782
Configuring a Connectivity Fault Management Action Profile
782
Configuring the Action of a CFM Action Profile
782
Configuring the Default Actions of a CFM Action Profile
782
Configuring a CFM Action Profile Event
782
Configuring Ethernet Local Management Interface
785
Ethernet Local Management Interface Overview
785
Configuring the Ethernet Local Management Interface
785
Figure 64: Scope of the E-LMI Protocol
786
Assigning the OAM Protocol to an EVC
787
Configuring an OAM Protocol (CFM)
787
Enabling E-LMI on an Interface and Mapping CE VLAN Ids to an EVC
788
Example E-LMI Configuration
789
Configuring PE1
789
Figure 65: E-LMI Configuration for a Point-To-Point EVC (SVLAN) Monitored
789
Configuring PE2
791
Configuring Two Unis Sharing the same EVC
792
Configuring Linktrace Protocol in CFM
785
Configuring the Linktrace Path Age Timer
785
Configuring the Linktrace Database Size
785
Configuring Port Status TLV and Interface Status TLV
793
Tlvs Overview
793
Various Tlvs for CFM Pdus
793
Support for Additional Optional Tlvs
793
Table 67: Format of Tlvs
793
Table 68: Type Field Values for Various Tlvs for CFM Pdus
793
Port Status TLV
796
Table 69: Port Status TLV Format
796
Table 70: Port Status TLV Values
796
Interface Status TLV
798
Table 71: Interface Status TLV Format
798
Table 72: Interface Status TLV Values
799
MAC Status Defects
801
Configuring Remote MEP Action Profile Support
802
Monitoring a Remote MEP Action Profile
803
Configuring M120 and MX Series Routers for CCC Encapsulated Packets
804
IEEE 802.1Ag CFM OAM Support for CCC Encapsulated Packets Overview
804
CFM Features Supported on Layer 2 VPN Circuits
804
Configuring CFM for CCC Encapsulated Packets
804
Figure 66: Layer 2 VPN Topology
804
Configuring Rate Limiting of Ethernet OAM Messages
805
Chapter 44 Configuring ITU-T Y.1731 Ethernet Service OAM
809
Ethernet Frame Delay Measurements Overview
809
ITU-T Y.1731 Frame Delay Measurement Feature
809
Ethernet CFM
810
Figure 67: Relationship of Meps, Mips, and Maintenance Domain Levels
810
Ethernet Frame Delay Measurement
811
One-Way Ethernet Frame Delay Measurement
811
1DM Reception
811
1DM Transmission
811
One-Way ETH-DM Statistics
811
One-Way ETH-DM Frame Counts
812
Synchronization of System Clocks
812
Two-Way Ethernet Frame Delay Measurement
812
DMM Transmission
812
DMR Transmission
812
DMR Reception
813
Two-Way ETH-DM Frame Counts
813
Two-Way ETH-DM Statistics
813
Choosing between One-Way and Two-Way ETH-DM
814
Restrictions for Ethernet Frame Delay Measurement
814
Guidelines for Configuring Routers to Support an ETH-DM Session
815
Configuration Requirements for ETH-DM
815
Configuration Options for ETH-DM
815
Guidelines for Starting an ETH-DM Session
816
ETH-DM Session Prerequisites
816
ETH-DM Session Parameters
816
Restrictions for an ETH-DM Session
816
Guidelines for Managing ETH-DM Statistics and ETH-DM Frame Counts
818
ETH-DM Statistics
818
ETH-DM Statistics Retrieval
818
ETH-DM Frame Counts
820
ETH-DM Frame Count Retrieval
821
Frame Counts Stored in CFM Databases
821
Table 74: ETH-DM Frame Counts
821
One-Way ETH-DM Frame Counts
822
Two-Way ETH-DM Frame Counts
822
Configuring Routers to Support an ETH-DM Session
823
Configuring MEP Interfaces
823
Ensuring that Distributed Ppm Is Not Disabled
823
Enabling the Hardware-Assisted Timestamping Option
823
Starting an ETH-DM Session
826
Using the Monitor Ethernet Delay-Measurement Command
826
Starting a One-Way ETH-DM Session
826
Starting a Two-Way ETH-DM Session
826
Managing ETH-DM Statistics and ETH-DM Frame Counts
828
Displaying ETH-DM Statistics Only
828
Displaying ETH-DM Statistics and Frame Counts
828
Displaying ETH-DM Frame Counts for Meps by Enclosing CFM Entity
828
Displaying ETH-DM Frame Counts for Meps by Interface or Domain Level
828
Clearing ETH-DM Statistics and Frame Counts
828
Example: One-Way Ethernet Frame Delay Measurement
831
Description of the Example One-Way Frame Delay Measurement
831
Routers Used in this Example
831
ETH-DM Frame Counts for this Example
832
ETH-DM Statistics for this Example
832
Steps for the Example One-Way Frame Delay Measurement
833
Configuring IEEE 802.1X Port-Based Network Access Control
841
IEEE 802.1X Port-Based Network Access Control Overview
841
Understanding the Administrative Mode of the Authenticator Port
841
Understanding the Administrative State of the Authenticator Port
841
Viewing the Dot1X Configuration
841
Configuring an OAM Action Profile
845
Configuring IEEE 802.3Ah OAM Link-Fault Management
845
Configuring Link Discovery
845
Configuring the OAM PDU Interval
845
Configuring the OAM PDU Threshold
845
Configuring Threshold Values for Local Fault Events on an Interface
845
Detecting Remote Faults
845
Disabling the Sending of Link Event Tlvs
845
Enabling IEEE 802.3Ah OAM Support
845
IEEE 802.3Ah OAM Link-Fault Management Overview
845
Enabling Remote Loopback Support on the Local Interface
851
Setting a Remote Interface into Loopback Mode
851
Example: Configuring IEEE 802.3Ah OAM Support on an Interface
852
Configuring VRRP and VRRP for Ipv6
853
VRRP and VRRP for Ipv6 Overview
853
Chapter 48 Configuring Gigabit Ethernet Accounting and Policing
855
Gigabit Ethernet Accounting and Policing Overview
855
Table 75: Capabilities of Gigabit Ethernet IQ and Gigabit Ethernet with
855
Configuring Gigabit Ethernet Policers
857
Configuring a Policer
857
Specifying an Input Priority Map
857
Specifying an Output Priority Map
857
Applying a Policer
857
Configuring MAC Address Filtering
857
Example: Configuring Gigabit Ethernet Policers
857
Table 76: Default Forwarding Classes
859
Configuring Gigabit Ethernet Two-Color and Tricolor Policers
863
Configuring a Policer
864
Applying a Policer
864
Example: Configuring and Applying a Policer
864
Configuring MAC Address Accounting
866
Chapter 49 Configuring Gigabit Ethernet Autonegotiation
867
Gigabit Ethernet Autonegotiation Overview
867
Configuring Gigabit Ethernet Autonegotiation with Remote Fault
867
Configuring Flow Control
867
Configuring Autonegotiation Speed on MX Series Routers
867
Displaying Autonegotiation Status
867
Table 77: Mode and Autonegotiation Status (Local)
869
Table 78: Mode and Autonegotiation Status (Remote)
871
Chapter 50 Configuring Gigabit Ethernet OTN Options
873
Gigabit Ethernet OTN Options
873
Gigabit Ethernet OTN Options Configuration Overview
873
Chapter 51 Configuring the Management Ethernet Interface
875
Configuring a Consistent Management IP Address
875
Configuring the MAC Address on the Management Ethernet Interface
875
Management Ethernet Interface Overview
875
10-Port 10-Gigabit Oversubscribed Ethernet PIC Overview
879
Configuring 10-Port 10-Gigabit Oversubscribed Ethernet Pics
879
Configuring Line Rate Mode on 10-Port 10-Gigabit Oversubscribed Ethernet PIC
879
Example: Handling Oversubscription on 10-Port 10-Gigabit Oversubscribed Ethernet PIC
879
Table 79: Capabilities of 10-Port 10-Gigabit OSE Pics
881
Table 80: Handling Oversubscription on 10-Port 10-Gigabit OSE Pics
882
10-Gigabit Ethernet DWDM Interface Wavelength Overview
885
Configuring the 10-Gigabit Ethernet DWDM Interface Wavelength
885
Table 81: Wavelength-To-Frequency Conversion Matrix
886
10-Gigabit Ethernet Framing Overview
887
Configuring 10-Gigabit Ethernet Framing
887
10-Gigabit Ethernet Notification of Link down Alarm Overview
889
Configuring 10-Gigabit Ethernet Notification of Link down Alarm
889
10-Gigabit Ethernet Notification of Link down for Optics Options Overview
891
Configuring 10-Gigabit Ethernet Link down Notification for Optics Options Alarm or Warning
891
Configuring 10-Gigabit Ethernet Notification of Link down for Optics Alarms
891
Configuring Point-To-Point Protocol over Ethernet
893
Pppoe Overview
894
Ethernet Interface
895
Pppoe Discovery Stage
895
Figure 68: Pppoe Session on an Ethernet Loop
895
Pppoe Session Stage
896
Optional CHAP Authentication
896
Understanding Pppoe Service Name Tables
897
Interaction Among Pppoe Clients and Routers During the Discovery Stage
897
Components of Pppoe Service Name Tables
897
Benefits of Configuring Pppoe Service Name Tables
897
Configuring Pppoe
900
Configuring Pppoe Encapsulation on an Ethernet Interface
901
Interface
901
Configuring a Pppoe Interface
902
Configuring the Pppoe Automatic Reconnect Wait Timer
902
Configuring the Pppoe Client Mode
902
Configuring the Pppoe IP Address by Negotiation
902
Configuring the Pppoe Server Mode
902
Configuring the Pppoe Service Name
902
Configuring the Pppoe Source and Destination Addresses
902
Configuring the Pppoe Underlying Interface
902
Deriving the Pppoe Source Address from a Specified Interface
902
Identifying the Access Concentrator
902
Example: Configuring a Pppoe Server Interface on an M120 or M320 Router
907
Configuring Pppoe Service Name Tables
907
Disabling the Sending of Pppoe Keepalive Messages
907
Creating a Service Name Table
908
Assigning a Service to a Service Name Table and Configuring the Action Taken When the Client Request Includes a Non-Zero Service Name Tag
909
Configuring the Action Taken When the Client Request Includes an Empty Service Name Tag
909
Assigning an ACI/ARI Pair to a Service Name and Configuring the Action Taken When the Client Request Includes ACI/ARI Information
910
Assigning a Service Name Table to a Pppoe Underlying Interface
911
Example: Configuring a Pppoe Service Name Table
911
Tracing Pppoe Operations
914
Configuring the Pppoe Trace Log Filename
915
Configuring the Number and Size of Pppoe Log Files
915
Configuring Access to the Pppoe Log File
915
Configuring a Regular Expression for Pppoe Lines to be Logged
915
Configuring the Pppoe Tracing Flags
915
Table 82: Pppoe Trace Operation Flags
916
Troubleshooting Pppoe Service Name Tables
917
Verifying a Pppoe Configuration
918
Configuring Ethernet Ring Protection Switching
921
Ethernet Ring Protection Switching Overview
921
Understanding Ethernet Ring Protection Switching Functionality
921
Acronyms
922
Ring Nodes
922
Ring Node States
922
Failure Detection
922
Logical Ring
922
FDB Flush
922
Traffic Blocking and Forwarding
922
RAPS Message Blocking and Forwarding
922
Dedicated Signaling Control Channel
922
RAPS Message Termination
922
Figure 69: Protocol Packets from the Network to the Router
924
Figure 70: Protocol Packets from the Router to the Network
924
Manual Switch
925
Nonrevertive Switch
925
Multiple Rings
925
Node ID
926
Bridge Domains with the Ring Port
926
Configuring Ethernet Ring Protection Switching
926
Example: Ethernet Ring Protection Switching Configuration
927
Figure 71: Example of a Three-Node Ring Topology
927
Chapter 59 Example Ethernet Configurations
935
Example: Configuring Aggregated Ethernet Interfaces
935
Example: Configuring Aggregated Ethernet Link Protection
935
Example: Configuring Fast Ethernet Interfaces
935
Example: Configuring Gigabit Ethernet Interfaces
935
Part 11 Configuring ISDN Interfaces
939
ISDN Interfaces Overview
941
Configuring ISDN Services Physical and Logical Interface Properties
942
Configuring ISDN Physical Interface Properties
943
Configuring an ISDN Interface to Screen Incoming Calls
945
Configuring ISDN Logical Interface Properties
945
Configuring an ISDN Dialer Interface as a Backup Interface
948
Example: Configuring an ISDN Interface as the Backup Interface
948
Figure 72: ISDN Backup Topology
949
Applying the Dial-On-Demand Dialer Filter to the Dialer Interfaces
950
Example: Applying the Dialer Filter
950
Configuring Bandwidth on Demand
951
Figure 73: Dialer Filter Topology
951
Configuring the Dialer Interface
952
Configuring the ISDN Interface
952
Example: Configuring Bandwidth on Demand
953
Figure 74: Bandwidth-On-Demand Topology
953
Configuring Dial-In and Callback
954
Configuring Dial-In
954
Disabling Dial-In
954
Configuring Callback
955
Example: Configuring Dial-In and Callback
955
Configuring Dialer Watch
957
Configuring the Dialer Interface
957
Configuring the Physical Interface
957
Example: Complete ISDN Called-Calling Router Configuration
957
Example: Configuring Dialer Watch
957
Figure 75: Dialer Watch Topology
958
Disabling ISDN Processes
962
Chapter 60 Configuring ISDN Interfaces
939
Part 12 Configuring SONET/SDH Interfaces
963
Configuring SONET/SDH Physical Interface Properties
965
Configuring SONET/SDH Framing
967
Configuring SONET/SDH Header Byte Values
968
Configuring an Incrementing STM ID
968
Configuring the SONET/SDH Frame Checksum
968
Configuring Channelized IQ and IQE SONET/SDH Loop Timing
968
Configuring SONET/SDH Loopback Capability
968
Configuring the SONET/SDH Path Trace Identifier
968
Configuring SONET/SDH RFC 2615 Support
968
Configuring SONET/SDH Defect Hold Times
968
Configuring Virtual Tributary Mapping
968
Configuring APS and MSP
968
Table 83: Type 1 PIC Mode Combinations
969
Table 84: Type 2 PIC Mode Combinations
970
Table 85: SONET/SDH Framing Bytes for Specific Speeds
971
Table 86: SONET/SDH Default Settings
977
Table 87: SONET/SDH and ATM Active Alarms and Defects
977
Configuring APS Load Sharing between Circuit Pairs
982
Configuring APS Timers
982
Configuring APS Using a Container Interface with ATM Encapsulation
982
Configuring Basic APS Support
982
Configuring Container Interfaces
982
Configuring Switching between the Working and Protect Circuits
982
Configuring Unidirectional Switching Mode Support
982
Example: Configuring APS Load Sharing between Circuit Pairs
982
Example: Configuring Link PIC Redundancy
982
Figure 76: APS/MSP Configuration Topologies
982
Figure 77: APS Load Sharing between Circuit Pairs
996
Configuring SONET Options for 10-Gigabit Ethernet Interfaces
997
SONET/SDH Interfaces Overview
965
Configuring the Media MTU on SONET/SDH Interfaces
998
Enabling Passive Monitoring on SONET/SDH Interfaces
999
Removing MPLS Labels from Incoming Packets
999
Configuring the Clock Source on SONET/SDH Interfaces
1000
Configuring Receive and Transmit Leaky Bucket Properties on SONET/SDH Interfaces
1001
Damping Interface Transitions on SONET/SDH Interfaces
1002
Configuring Interface Encapsulation on SONET/SDH Interfaces
1003
Configuring the Encapsulation on a Physical SONET/SDH Interface
1003
Example: Configuring the Encapsulation on a Physical SONET/SDH Interface
1005
Configuring the Encapsulation on a Logical SONET/SDH Interface
1005
Configuring Aggregated SONET/SDH Interfaces
1006
Configuring SONET/SDH Link Aggregation
1007
Configuring Aggregated SONET/SDH Link Speed
1007
Configuring Aggregated SONET/SDH Minimum Links
1007
Examples: Configuring Filters or Sampling on Aggregated SONET/SDH Links
1009
Example: Configuring Aggregated SONET/SDH Interfaces
1010
Example: Configuring SONET/SDH Interfaces
1006
Chapter 61 Configuring SONET/SDH Interfaces
963
Part 13 Interface Configuration Statements
1013
Chapter 62 Summary of Interface Configuration Statements
1015
Accept
1016
Accept-Source-Mac
1017
Access-Concentrator
1018
Access-Profile
1019
Accounting
1020
Acfc
1021
Acknowledge-Retries
1022
Acknowledge-Timer
1023
Action
1024
Action (OAM)
1024
Action (Policer)
1024
Action-Profile
1026
Action-Profile (Applying to CFM)
1026
Action-Profile (Defining for CFM)
1026
Action-Profile (Defining for LFM)
1026
Activation-Delay
1030
Activation-Priority
1031
Address
1032
Advertise-Interval
1034
Age
1034
Agent-Specifier
1035
Aggregate
1036
Aggregate (Gigabit Ethernet Cos Policer)
1036
Aggregate (Hierarchical Policer)
1036
Aggregate (SONET/SDH)
1036
Aggregate-Ports
1038
Aggregated-Ether-Options
1039
Aggregated-Sonet-Options
1041
Allow-Any-VCI
1042
Allow-Remote-Loopback
1044
Annex
1045
Apply-Action-Profile
1045
Aps
1046
Arp
1047
Asynchronous-Notification
1048
Atm-Encapsulation
1049
Atm-Options
1050
Atm-Scheduler-Map
1051
Authentication
1052
Authentication-Key
1053
Authentication-Profile-Name
1054
Authenticator
1055
Auto-Configure
1056
Auto-Discovery
1057
Auto-Negotiation
1058
Auto-Negotiation (Gigabit Ethernet)
1058
Auto-Negotiation (J Series Upim)
1058
Auto-Reconnect
1061
Backup-Destination
1062
Backup-Interface
1063
Bandwidth
1064
Bandwidth-Limit
1065
Bandwidth-Limit (Hierarchical Policer)
1065
Bandwidth-Limit (Policer for Gigabit Ethernet Interfaces)
1065
Bchannel-Allocation
1067
Bearer-Bandwidth-Limit
1068
Bert-Algorithm
1069
Bert-Error-Rate
1070
Bert-Period
1070
Bridge-Domain
1073
Broadcast
1074
Buildout
1075
Buildout (E3 or T3 over ATM Interfaces)
1075
Buildout (T1 Interfaces)
1075
Bundle
1078
Burst-Size-Limit
1079
Burst-Size-Limit (Hierarchical Policer)
1079
Burst-Size-Limit (Policer for Gigabit Ethernet Interfaces)
1079
Byte-Encoding
1081
Bytes
1082
Callback
1083
Callback-Wait-Period
1084
Caller
1085
Calling-Number
1086
Cbit-Parity
1087
Cell-Bundle-Size
1089
Circuit-Type
1092
Cisco-Interoperability
1092
Classifier
1093
Clear-Dont-Fragment-Bit
1094
Client
1094
Clock-Rate
1095
Clocking
1096
Clocking-Mode
1097
Compatibility-Mode
1098
Compression
1099
Compression (PPP Properties)
1099
Compression (Voice Services)
1099
Compression-Device
1101
Connections
1102
Connectivity-Fault-Management
1103
Container-Devices
1105
Container-List
1105
Container-Options
1105
Container-Type
1107
Continuity-Check
1108
Control-Channel
1109
Control-Polarity
1109
Control-Signal
1110
Copy-Tos-To-Outer-Ip-Header
1110
Core-Dump
1111
Crc-Major-Alarm-Threshold
1112
Crc-Minor-Alarm-Threshold
1113
Cts-Polarity
1115
Current
1116
Data-Input
1117
DCD
1118
DCD-Polarity
1119
Dce
1119
Dce-Options
1120
Deactivation-Delay
1121
Default-Actions
1122
Default-Chap-Secret
1123
Default-Pap-Password
1124
Delimiter
1124
Demux-Destination
1125
Demux-Destination (Underlying Interface)
1125
Demux-Destination (Demux Interface)
1125
Demux-Options
1127
Demux-Source
1128
Demux-Source (Demux Interface)
1128
Destination
1133
Destination (Routing Instance)
1133
Destination (Tunnels)
1133
Destination-Class-Usage
1136
Destination-Profile
1137
Dial-Options
1138
Dial-String
1139
Dialer
1139
Dialer-Options
1140
Dialin
1141
Direction
1142
Disable
1143
Disable (Interface)
1143
Disable (Link Protection)
1143
Disable-Mlppp-Inner-Ppp-Pfc
1144
Dlci
1145
Do-Not-Fragment
1146
Domain-Name
1147
Dot1X
1148
Down-Count
1149
Drop-Timeout
1150
Ds0-Options
1151
Dsl-Options
1152
Dsr
1153
Dsr-Polarity
1154
Dte-Options
1155
Dtr
1156
Dtr-Circuit
1157
Dtr-Polarity
1157
Dump-On-Flow-Control
1158
Dynamic-Call-Admission-Control
1159
Dynamic-Profile
1160
Dynamic-Profile (Stacked VLAN)
1160
Dynamic-Profile (VLAN)
1160
E1-Options
1162
E3-Options
1163
East-Interface
1164
Empty-Service
1165
Encapsulation
1166
Encapsulation (Container Interface)
1166
Encapsulation (Logical Interface)
1166
Encapsulation (Physical Interface)
1172
Encoding
1175
Epd-Threshold
1176
Epd-Threshold (Logical Interface)
1176
Ethernet
1180
Ethernet-Policer-Profile
1183
Ethernet-Ring
1184
Ethernet-Switch-Profile
1185
Eui-64
1187
Event
1189
Event-Thresholds
1190
F-Max-Period
1191
Facility-Override
1192
Failover-Delay
1192
Family
1193
Fastether-Options
1196
Fcs
1197
Feac-Loop-Respond
1198
Filter
1199
Flexible-Vlan-Tagging
1200
Flow-Control
1201
Force
1202
Forwarding-Class
1203
Forwarding-Class (ATM2 IQ Scheduler Maps)
1203
Forwarding-Class (Gigabit Ethernet IQ Classifier)
1203
Fragment-Threshold
1205
Frame-Error
1206
Frame-Period
1207
Frame-Period-Summary
1208
Framing
1209
Framing (E1, E3, and T1 Interfaces)
1209
Framing (10-Gigabit Ethernet Interfaces)
1209
Framing (SONET and SDH Interfaces)
1209
Gigether-Options
1213
Gratuitous-Arp-Reply
1214
Guard-Interval
1215
Hardware-Assisted-Timestamping
1216
Hello-Timer
1217
Hierarchical-Policer
1218
Hierarchical-Schedulers
1219
High-Plp-Max-Threshold
1220
High-Plp-Threshold
1221
Hold-Interval
1222
Hold-Interval (OAM)
1222
Hold-Interval (Protection Group)
1222
Hold-Time
1224
Hold-Time (APS)
1224
Hold-Time (Physical Interface)
1224
Hold-Time (SONET/SDH Defect Triggers)
1224
Idle-Cycle-Flag
1228
Ignore-All
1233
Ignore-L3-Incompletes
1233
Ima-Group-Options
1235
Ima-Link-Options
1236
Inactivity-Timeout
1237
Incoming-Called-Number
1238
Incoming-Map
1239
Indication
1240
Indication-Polarity
1240
Ingress-Rate-Limit
1241
Init-Command-String
1242
Initial-Route-Check
1243
Inner-Tag-Protocol-ID
1244
Inner-Vlan-ID
1245
Inner-Vlan-ID-Range
1246
Input
1247
Input-List
1248
Input-Policer
1249
Input-Priority-Map
1249
Input-Three-Color
1250
Input-Vlan-Map
1251
Input-Vlan-Map (Aggregated Ethernet)
1251
Input-Vlan-Map (Gigabit Ethernet IQ)
1251
Instance
1252
Interface
1253
Interface (Hierarchical Cos Schedulers)
1253
Interface (IEEE 802.1X)
1253
Interface (IEEE 802.1Ag OAM Connectivity-Fault Management)
1253
Interface (OAM Link-Fault Management)
1253
Interface-Down
1258
Interface-Mode
1259
Interface-Name
1260
Interface-Range
1261
Interface-Set
1263
Interface-Set (Ethernet Interfaces)
1263
Interface-Set (IP Demux Interfaces)
1263
Interface-Status-Tlv
1265
Interface-Switch
1266
Interface-Type
1267
Interfaces
1268
Interleave-Fragments
1269
Interval
1270
Inverse-Arp
1271
Invert-Data
1272
Ipsec-Sa
1273
Isdn-Options
1274
Keep-Address-And-Control
1275
L2Tp-Interface-ID
1278
Lacp (802.3Ad)
1279
Lacp (Aggregated Ethernet)
1279
Layer2-Policer
1282
Lcp-Max-Conf-Req
1283
Lcp-Restart-Timer
1284
Level
1285
Line-Encoding
1286
Line-Protocol
1287
Line-Rate
1288
Linear-Red-Profile
1289
Linear-Red-Profiles
1289
Link-Adjacency-Loss
1290
Link-Discovery
1291
Link-Down
1291
Link-Event-Rate
1292
Link-Fault-Management
1293
Link-Layer-Overhead
1295
Link-Mode
1296
Link-Protection
1297
Link-Speed
1298
Link-Speed (Aggregated Ethernet)
1298
Link-Speed (Aggregated SONET/SDH)
1298
Linktrace
1301
Lmi (Frame Relay)
1302
Lmi (Ethernet OAM)
1305
Lmi-Type
1306
Load-Interval
1307
Load-Threshold
1308
Local-Name
1309
Local-Password
1310
Lockout
1311
Log-Prefix
1311
Logical-Interface-Policer
1312
Logical-Systems
1313
Long-Buildout
1313
Loop-Timing
1314
Loopback
1315
Loopback (ADSL, DS0, E1/E3, SONET/SDH, SHDSL, and T1/T3)
1315
Loopback (Aggregated Ethernet, Fast Ethernet, and Gigabit Ethernet)
1315
Loopback (Serial)
1315
Loopback-Clear-Timer
1320
Loss-Priority
1321
Loss-Threshold
1321
Low-Plp-Max-Threshold
1322
Low-Plp-Threshold
1322
Lowest-Priority-Defect
1324
Lsq-Failure-Options
1325
Mac-Address
1326
Mac-Address (Accept Source Mac)
1326
Mac-Address (VLAN and Stacked VLAN Interfaces)
1326
Mac-Learn-Enable
1328
Mac-Validate
1329
Maintenance-Association
1330
Maintenance-Domain
1331
Master-Only
1332
Maximum-Contexts
1333
Maximum-Requests
1334
Maximum-Vcs
1335
MC-Ae
1336
Member-Interface-Speed
1337
Member-Interface-Type
1337
Minimum-Links
1339
Mip-Half-Function
1340
Mlfr-Uni-Nni-Bundle-Options
1341
Modem-Options
1342
Monitor-Session
1343
Multicast-Dlci
1347
Multicast-VCI
1348
Multicast-Only
1349
Multilink-Max-Classes
1350
Multipoint
1350
Multipoint-Destination
1352
Multiservice-Options
1353
Name-Format
1357
Native-Vlan-ID
1358
Ncp-Max-Conf-Req
1359
Ncp-Restart-Timer
1360
Negotiate-Address
1361
Negotiation-Options
1362
Neighbor
1363
No-Allow-Link-Events
1363
No-Asynchronous-Notification
1364
No-Auto-MDIX
1364
No-Auto-Negotiation
1364
No-Cbit-Parity
1364
No-Core-Dump
1364
No-Feac-Loop-Respond
1365
No-Flow-Control
1365
No-Gratuitous-Arp-Reply
1365
No-Gratuitous-Arp-Request
1365
No-Long-Buildout
1366
No-Loopback
1366
No-Mac-Learn-Enable
1366
No-Partition
1367
No-Payload-Scrambler
1368
No-Redirects
1368
No-Source-Filtering
1368
No-Syslog
1369
No-Termination-Request
1369
No-Translate-Discard-Eligible
1369
No-Translate-Fecn-And-Becn
1369
No-Unframed
1369
No-Z0-Increment
1370
Node-ID
1370
Non-Revertive
1370
Oam-Liveness
1373
Oam-Period
1374
Oc-Slice
1375
Open-Timeout
1376
Operating-Mode
1377
Optics-Options
1378
Otn-Options
1380
Output
1383
Output-List
1384
Output-Policer
1385
Output-Priority-Map
1386
Output-Three-Color
1387
Output-Vlan-Map
1388
Output-Vlan-Map (Aggregated Ethernet)
1388
Output-Vlan-Map (Gigabit Ethernet IQ)
1388
Overflow
1390
Overflow (Receive Bucket)
1390
Overflow (Transmit Bucket)
1390
Paired-Group
1391
Pap-Password
1393
Partition
1394
Passive
1396
Passive (CHAP)
1396
Passive (PAP)
1396
Passive-Monitor-Mode
1398
Password
1399
Path-Database-Size
1399
Path-Trace
1400
Payload-Scrambler
1401
Payload-Size
1402
Pdu-Interval
1403
Pdu-Threshold
1403
Peer-Unit
1404
Per-Unit-Scheduler
1405
Performance-Monitoring
1406
Periodic
1407
Pic-Type
1408
Plp-To-Clp
1408
Point-To-Point
1410
Policer
1411
Policer (CFM Firewall)
1411
Policer (CFM Global)
1411
Policer (CFM Session)
1411
Policer (Cos)
1411
Policer (Interface)
1411
Policer (MAC)
1411
Pool
1417
Pop-All-Labels
1419
Pop-Pop
1420
Pop-Swap
1421
Port-Priority
1422
Port-Status-Tlv
1423
Ppp-Options
1424
Pppoe-Options
1425
Pppoe-Underlying-Options
1426
Preferred
1427
Preferred-Source-Address
1428
Premium
1429
Premium (Hierarchical Policer)
1429
Premium (Output Priority Map)
1429
Premium (Policer)
1429
Preserve-Interface
1432
Primary
1433
Primary (Address on Interface)
1433
Primary (as PIC or Multiservices PIC Interfaces)
1433
Priority (OAM Connectivity-Fault Management)
1435
Priority (Schedulers)
1435
Promiscuous-Mode
1437
Protect-Circuit
1438
Protection-Group
1439
Protocol-Down
1440
Protocols
1440
Proxy
1441
Proxy-Arp
1442
Push-Push
1443
Queue-Depth
1444
Queue-Length
1445
Queues
1446
Quiet-Period
1447
Radius-Realm
1448
Ranges
1449
Ranges (Dynamic Stacked VLAN)
1449
Ranges (Dynamic VLAN)
1449
Rate
1451
Reassemble-Packets
1452
Reauthentication
1452
Receive-Bucket
1453
Receive-Options-Packets
1454
Receive-Ttl-Exceeded
1454
Red-Differential-Delay
1455
Redial-Delay
1456
Redundancy-Options
1457
Remote
1458
Remote-Loopback
1459
Remote-Loopback-Respond
1460
Remote-Mep
1461
Request
1462
Required-Depth
1463
Restore-Interval
1464
Retries
1464
Revert-Time
1465
Revertive
1466
Ring-Protection-Link-End
1467
Ring-Protection-Link-Owner
1468
Routing-Instance
1469
Rpf-Check
1470
Rts-Polarity
1473
Rtvbr
1474
Sampling
1476
Satop-Options
1477
Scheduler-Maps
1478
Schedulers
1479
Secondary
1479
Send-Critical-Event
1480
Serial-Options
1481
Server
1483
Server-Timeout
1483
Service
1484
Service (Logical Interfaces)
1484
Service (Pppoe)
1484
Service-Domain
1487
Service-Filter
1488
Service-Name
1489
Service-Name-Table
1489
Service-Name-Tables
1490
Service-Set
1491
Services
1492
Services-Options
1493
Shaping
1494
Shdsl-Options
1495
Short-Name-Format
1496
Short-Sequence
1497
Snext
1498
Snr-Margin
1499
Sonet-Options
1500
Source
1502
Source-Address-Filter
1503
Source-Class-Usage
1504
Source-Filtering
1505
Speed
1506
Speed (Ethernet)
1506
Speed (MX Series DPC)
1506
Speed (SONET/SDH)
1506
Spid1
1509
Stacked-Vlan-Ranges
1510
Stacked-Vlan-Tagging
1511
Start-End-Flag
1512
Static-Tei-Val
1513
Supplicant
1514
Supplicant-Timeout
1515
Swap-Push
1517
Swap-Swap
1518
Switch-Options
1519
Switch-Port
1520
Switch-Type
1521
Switching-Mode
1522
Symbol-Period
1523
Syslog
1524
Syslog (Interfaces)
1524
Syslog (Monitoring)
1524
Syslog (OAM Action)
1524
System-Priority
1527
T1-Options
1528
T3-Options
1532
Tag-Protocol-ID
1533
Threshold
1538
Timeslots
1539
Tm-Polarity
1541
Traceoptions
1542
Traceoptions (ICCP)
1542
Traceoptions (Individual Interfaces)
1542
Traceoptions (Interface Process)
1542
Traceoptions (LACP)
1542
Traceoptions (PPP Process)
1551
Traceoptions (Pppoe)
1555
Translate-Discard-Eligible
1557
Translate-Fecn-And-Becn
1557
Transmit-Bucket
1558
Transmit-Clock
1559
Transmit-Period
1559
Transmit-Weight (ATM2 IQ Cos Forwarding Class)
1560
Transmit-Weight (ATM2 IQ Virtual Circuit)
1560
Traps
1563
Trigger
1564
Trigger-Link-Failure
1565
Trunk-Bandwidth
1566
Trunk-ID
1567
Tunnel
1568
Underlying-Interface
1569
Unframed
1570
Unidirectional
1570
Unit
1573
Unnumbered-Address (Demux)
1577
Unnumbered-Address (Ethernet)
1577
Unnumbered-Address (PPP)
1577
Up-Count
1580
User-Prefix
1581
Username-Include
1582
VC-Cos-Mode
1585
VCI-Range
1587
Virtual-Switch
1587
Vlan-ID (Logical Port in Bridge Domain)
1588
Vlan-ID (Outer VLAN ID)
1588
Vlan-ID (VLAN ID to be Bound to a Logical Interface)
1588
Vlan-ID (VLAN ID to Rewrite)
1588
Vlan-ID-List
1592
Vlan-ID-Range
1596
Vlan-Ranges
1597
Vlan-Rewrite
1598
Vlan-Tagging
1598
Vlan-Tags (Stacked VLAN Tags)
1599
Vlan-Tags-Outer
1604
Vlan-VCI-Tagging
1604
Vpi (ATM CCC Cell-Relay Promiscuous Mode)
1605
Vpi (Define Virtual Path)
1607
Vpi (Logical Interface and Interworking)
1608
Vtmapping
1609
Warning
1610
Watch-List
1611
Wavelength
1612
West-Interface
1614
Working-Circuit
1615
Yellow-Differential-Delay
1615
Z0-Increment
1616
Index
1617
Part 14 Index
1617
Index
1619
Index of Statements and Commands
1647
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