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LISP Network Deployment and Troubleshooting: The Complete Guide to LISP Implementation on IOS-XE, IOS-XR, and NX-OS [Pehme köide]

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  • Formaat: Paperback / softback, 624 pages, kõrgus x laius x paksus: 232x188x34 mm, kaal: 1040 g
  • Sari: Networking Technology
  • Ilmumisaeg: 22-Nov-2019
  • Kirjastus: Cisco Press
  • ISBN-10: 1587145065
  • ISBN-13: 9781587145063
Teised raamatud teemal:
LISP Network Deployment and Troubleshooting: The Complete Guide to LISP Implementation on IOS-XE, IOS-XR, and NX-OSSuurem pilt
  • Formaat: Paperback / softback, 624 pages, kõrgus x laius x paksus: 232x188x34 mm, kaal: 1040 g
  • Sari: Networking Technology
  • Ilmumisaeg: 22-Nov-2019
  • Kirjastus: Cisco Press
  • ISBN-10: 1587145065
  • ISBN-13: 9781587145063
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781587145063.html
Märksõnad:

The LISP overlay protocol helps organizations provide seamless connectivity to devices and workloads wherever they move, enabling open and highly scalable networks with unprecedented flexibility and agility. LISP Network Deployment and Troubleshooting is the single source for understanding, configuring and troubleshooting LISP on Cisco IOS, IOS XR and NX-OS platforms. It brings together comprehensive coverage of how LISP works, how it integrates with leading Cisco platforms, how to configure it for maximum efficiency, and how to troubleshoot LISP-related issues such as scalability and convergence.

 

Focusing on design and deployment in real production environments, leading Cisco LISP engineers Tarique Shakil and Vinit Jain offer authoritative coverage of deploying LISP, verifying its operation, and optimizing its performance in widely diverse environments. Drawing on their unsurpassed experience supporting LISP deployments, they share detailed configuration examples, templates, and best practices designed to help you succeed with LISP no matter how you intend to use it. Coverage includes:

  • Problems LISP solves, current use cases, and powerful emerging applications
  • Standards and architecture, including control and data planes, packets, messaging, and communication processes
  • LISP IPv4 unicast routing, IPv6 enablement/transition, and multicast
  • LISP mobility in traditional data center and VXLAN fabrics
  • LISP network virtualization and multi-tenancy
  • LISP in the enterprise multi-homed Internet/WAN edge
  • Securing, managing, and automating LISP
Introduction xvii
Chapter 1 LISP Introduction
1(12)
LISP and the Internet
1(5)
Use Cases for LISP
6(3)
Standards of LISP
9(1)
Summary
10(1)
References
10(3)
Chapter 2 LISP Architecture
13(28)
LISP Architecture
13(7)
Routing Locators and Endpoint Identifiers
15(1)
Ingress/Egress Tunnel Routers (xTRs)
15(2)
Map Servers (MSs) and Map Resolvers (MRs)
17(2)
Proxy Ingress/Egress Tunnel Router (PxTR)
19(1)
The LISP ALT System
19(1)
LISP Canonical Address Format (LCAF)
20(4)
LISP Packet Headers
24(3)
LISP IPv4-in-IPv4 Header Format
24(1)
LISP IPv6-in-IPv6 Header Format
25(2)
LISP Control Plane Messages
27(5)
LISP Map Request
28(1)
LISP Map Reply
29(1)
LISP Map Register Message
30(1)
LISP Map Notify Message
31(1)
LISP Database Architecture: LISP-DDT
32(4)
LISP-DDT Operations
35(1)
LISP Architecture on Cisco Platforms
36(4)
LISP Software Architecture on NX-OS
37(1)
LISP Software Architecture on IOS-XR
38(2)
Summary
40(1)
References
40(1)
Chapter 3 LISP IPv4 Unicast Routing
41(84)
LISP IPv4 Unicast Routing Concepts
41(10)
RLOC Reachability
47(2)
LISP Ingress Traffic Engineering
49(1)
MTU Handling
50(1)
LISP IPv4 Unicast Routing Configuration
51(15)
LISP IPv4 Unicast Routing Control Plane Verification
66(14)
LISP IPv4 Unicast Routing Data Plane Verification
80(11)
Internetworking LISP and Non-LISP Sites
91(32)
Summary
123(1)
References
124(1)
Chapter 4 LISP IPv6 Unicast Routing
125(58)
Address Family Versatility
125(5)
IPv6 Transition Methods
130(5)
Connecting IPv6 Islands Using LISP
133(1)
Connecting to the IPv6 Internet Using LISP
133(2)
Configuring LISP IPv6 Unicast Routing
135(17)
LISP IPv6 Unicast Routing Control Plane Verification
152(22)
LISP IPv6 Unicast Routing Data Plane Verification
174(7)
Summary
181(1)
References
182(1)
Chapter 5 LISP Multicast Routing Fundamentals
183(58)
LISP Multicast Routing Concepts
183(56)
LISP IPv4 Multicast
184(3)
Configuring LISP IPv4 Multicast
187(4)
Verifying LISP Multicast
191(7)
Troubleshooting LISP Multicast on IOS-XE and NX-OS
198(19)
LISP IPv6 Multicast
217(1)
Configuring and Verifying LISP IPv6 Multicast
218(20)
LISP Multicast with the VXLAN Data Plane
238(1)
Summary
239(1)
References
239(2)
Chapter 6 LISP IP Mobility in Traditional Data Center Network
241(120)
Design Considerations Related to Interconnecting Data Centers
242(3)
Network Extension Solutions for Interconnecting Data Centers
245(3)
Evolving Requirements for Extending Layer 2
245(3)
Interconnecting Traditional Data Center Networks
248(10)
Layer 2 Back-to-Back vPC for Interconnecting Traditional Data Center
248(1)
MPLS Layer 2 Virtual Private Networks (VPNs)
249(2)
Overlay Transport Virtualization (OTV)
251(2)
Deployment Considerations for Legacy Layer 2 DCI Solutions
253(1)
Interconnecting VXLAN MP-BGP EVPN-Based Fabrics
254(1)
VXLAN EVPN Multi-Pod
255(1)
VXLAN EVPN Multi-Fabric
256(2)
Interconnecting Multiple VXLAN EVPN Fabrics: A Chronological Evolution
258(8)
VXLAN EVPN Multi-Site
259(3)
VXLAN EVPN Multi-Site and Rate Limiters
262(1)
VXLAN EVPN Multi-Site with Legacy Data Centers
262(2)
VXLAN EVPN Multi-Site and External Layer 3 Connectivity
264(2)
Interconnecting ACI Fabrics
266(10)
Interconnecting Multiple ACI Fabrics: A Chronological Evolution
266(1)
ACI Remote Leaf Node
267(1)
ACI Multi-Pod
268(1)
ACI Multi-Site
269(2)
ACI and External Layer 3 Connectivity
271(5)
Workload Mobility Types
276(7)
Bare-Metal Servers
277(1)
High-Availability Clusters
277(1)
Cost Containment
278(1)
Virtual Machines
278(1)
Workload Mobility Flows Between Data Centers
279(1)
Northbound Traffic
279(1)
East-West Traffic
280(3)
Traditional IP Mobility Solutions
283(2)
LISP IP Mobility
285(40)
Traditional IPv4 and IPv6 Address Schemas
285(1)
LISP IP Mobility Overview
286(6)
IP Mobility Using LISP Extended Subnet Mode
292(1)
LISP IP Mobility ESM Control Plane Operations
293(9)
LISP IP Mobility ESM Data Plane Operation
303(3)
LISP IP Mobility ESM Configuration
306(10)
IP Mobility Using LISP Across Subnets Mode
316(3)
LISP IP Mobility ASM Control Plane Operation
319(1)
EID Migration and the LISP Mapping Database Update
319(3)
Remote End-User Communication with a Roaming Application
322(3)
LISP IP Mobility ASM Data Plane Operation
325(5)
Configuring LISP IP Mobility Across Subnets Mode
330(28)
LISP Feature Support by Operating System
337(1)
IP Mobility Using LISP IGP Assist
338(1)
LISP IGP Assist with Extended Subnet Mode
339(1)
LISP IGP Assist Control Plane Operation
339(2)
LISP IGP Assist Data Plane Operation
341(1)
LISP IGP Assist with Network Services
342(1)
Endpoint Localization for East-West Traffic
342(1)
Communication Within and Between Sites
343(2)
LISP IGP Assist and Host Route Injection
345(5)
LISP IGP Assist Basic Configuration
350(1)
LISP IGP Assist in DC 1
350(2)
LISP IGP Assist in DC 2
352(2)
LISP IGP Assist Verification
354(3)
LISP IGP Assist Full Configuration
357(1)
Summary
358(1)
References
359(2)
Chapter 7 LISP IP Mobility in Modern Data Center Fabrics
361(74)
LISP IP Mobility Deployment with Modern Fabrics
361(1)
VXLAN EVPN Multi-Site with LISP IP Mobility
362(18)
VXLAN EVPN: Endpoint Discovery and Notification
368(1)
VXLAN EVPN: Host Route Advertisement
369(1)
VXLAN EVPN: Configuration for Host Route Advertisement
370(3)
VXLAN EVPN and Layer 3 Connectivity to the External Network
373(7)
ACI Multi-Pod with LISP IP Mobility
380(51)
ACI Multi-Pod and ACI Multi-Site
380(2)
ACI Multi-Pod and LISP IP Mobility
382(2)
ACI Multi-Pod Configuration for Host Route Advertisement
384(3)
The L30ut and Route Map for Selective Prefix Subnets
387(3)
Bridge Domain Associated to a Particular L30ut
390(4)
LISP IP Mobility Configuration with Host Route Advertisement
394(3)
LISP Mapping Database
397(1)
LISP Site Gateway, xTRs, and ACLs
398(1)
LISP Site Gateway in Pod 1
399(3)
LISP Site Gateway in Pod 2
402(1)
LISP Site Gateway in the Branch Office
402(2)
LISP IP Mobility Verification with Host Route Advertisement
404(1)
Configuration Verification
405(2)
Routing Table Verification
407(3)
LISP Map Request Verification
410(3)
Roaming an EID Across Two Sites: Verification
413(5)
LISP Mobility for ACI in Conjunction with a Silent Host
418(5)
Sending Data Packets Toward a Silent Host
423(5)
Troubleshooting LISP IP Mobility with ACI or VXLAN Fabrics
428(1)
LISP and MTU Considerations
429(1)
Flowchart Depicting the Roaming Process
430(1)
Summary
431(2)
References
433(2)
Chapter 8 LISP Network Virtualization/Multi-Tenancy
435(60)
Multi-tenancy in the Network
435(3)
LISP Instance ID
438(2)
LISP Virtualization Models
440(4)
Shared Model
441(1)
Parallel Model
442(1)
Hybrid Model
443(1)
LISP Shared Model Virtualization Configuration
444(11)
LISP Parallel Model Virtualization Configuration
455(27)
LISP Virtualization Troubleshooting
482(12)
Summary
494(1)
References
494(1)
Chapter 9 LISP in the Enterprise Multihome Internet/WAN Edge
495(26)
LISP at the Enterprise Edge
495(4)
Configuring LISP at the Enterprise Edge
499(7)
Troubleshooting LISP at the Enterprise Edge
506(12)
Traffic Engineering with LISP Explicit Locator Path
510(1)
Explicit Locator Path
511(6)
Re-encapsulating Tunnel Routers
517(1)
LISP Disjoint RLOC Domains
518(2)
Summary
520(1)
References
520(1)
Chapter 10 LISP Security
521(40)
Securing the LISP Control Plane Using LISP-SEC
521(9)
Configuring and Verifying LISP-SEC
523(7)
Securing the LISP Data Plane
530(29)
Source RLOC Decapsulation Filtering
531(2)
LISP Reliable Transport
533(2)
Configuring Source RLOC Decapsulation Filtering
535(8)
LISP and GETVPN
543(1)
Configuring and Verifying LISP over GETVPN
544(15)
Summary
559(1)
References
559(2)
Index 561
Tarique Shakil, CCIE No. 37319 (Service Provider, Data Center, and Security), CCSI #32545, CISSP (ISC2), CCSP (ISC2), VCP-DCV, is an Architect with the Cisco Customer Experience (CX) Data Center New Product Management team, specializing in softwaredefined networking (SDN) and cloud technologies. His previous experience with Cisco includes working as a high touch technical support engineer supporting Cisco premium customers for enterprise routing and service provider technologies. In his current role, Tarique leads the incubation of the latest SDN and cloud solutions, which includes working closely with engineering. Tarique has been involved in products such as Application Centric Infrastructure (ACI), Data Center Network Manager, and Virtual Topology Systems (VTS). He was also part of a startup, Candid Systems, that brought the Network Assurance Engine (NAE) to market. His areas of interest and expertise include data center virtualization, programmable fabric, network assurance, cloud data center security, and SDN. He holds a bachelors degree in telecommunications engineering. Tarique can be found on LinkedIn at www.linkedin.com/in/tarique-shakil-cisco.







Vinit Jain, CCIE No. 22854 (R&S, Service Provider, Security, and Data Center), is a technical leader with the Cisco Customer Experience (CX), supporting customers and TAC teams around the world. For the past 10 years, Vinit has worked for the Cisco TAC and High Touch Technical Support (HTTS) organizations, supporting several customers in enterprise, service provider, and data center environments. Vinit has been a speaker at various global networking forums, including Cisco Live events. Vinit has also authored other Cisco Press books, including Troubleshooting BGP and Troubleshooting Cisco Nexus Switches and NX-OS, and he has worked on the NX-OS and BGP Troubleshooting Live Lesson series. Prior to Joining Cisco, Vinit worked as a CCIE trainer and as a network consultant. In addition to his CCIEs, Vinit holds multiple certifications related to programming and databases. Vinit studied mathematics at Delhi University and received a masters in information technology from Kuvempu University in India. Vinit can be found on Twitter at @VinuGenie.







Yves Louis attended the Control Data Institute in Paris (Diplôme dIngénieur), where he majored in computing. Yves is a pre-sales engineer covering data center networking as a technical solution architect at Cisco Systems. Yves focuses on fabric design and the architecture of modern data center networkbased VXLAN EVPN transport and the Application Centric Infrastructure (ACI) technology. Yves also supports the Data Center Network Manager (DCNM) software framework for the next generation of data centers that rely on VXLAN EVPN for visibility, control, and fabric automation, including VXLAN EVPN Multi-site infrastructures. He also works with the Network Assurance Engine (NAE) solution, deployed in conjunction with the ACI architecture. Yves is an expert on data center interconnection solutions and has written several public technical articles at Cisco and in his personal blog related to business continuity which you can find at, http://yves-louis.com/DCI/.