1 (p1): Chapter 1 Topology and Router Configurations1 (p1-2): Understanding the Role of Routers in Networks2 (p1-3): The Router Interface2 (p1-4): Network Layer Addresses3 (p1-5): Datagrams4 (p1-6): MAC Addresses5 (p1-7): IP Address Formats6 (p1-8): Network Reference Models9 (p1-9): Understanding Topology and Router Configurations10 (p1-10): RouterA s Configuration11 (p1-11): RouterB s Configuration12 (p1-12): RouterC s Configuration13 (p1-13): Understanding What a Router Does13 (p1-14): Sample Network15 (p1-15): How a Router Knows What to Do16 (p1-16): Choosing Your Routing Protocol18 (p1-17): Understanding How Forwarding Decisions Are Made18 (p1-18): Performing Longest Match Lookups21 (p1-19): Forwarding Decisions for Multipoint Interfaces23 (p1-20): End Systems Sending Packets to Other Subnets25 (p1-21): Summary27 (p2): Chapter2 Routing Metrics and Distances27 (p2-2): Primary Activities of Convergence29 (p2-3): Viewing the Invalid Timers in a Routing Table30 (p2-4): Viewing an Expired Invalid Timer in a Routing Table33 (p2-5): Router Still Uses a Path37 (p2-6): Understanding Convergence38 (p2-7): Parallel Paths38 (p2-8): The Effect of Parallel Paths on Convergence39 (p2-9): Looking at Parallel Paths in a Routing Table40 (p2-10): Convergence in Action41 (p2-11): The Routing Table After Convergence43 (p2-12): Step-by-Step Review of Convergence46 (p2-13): Debug Messages and Reality46 (p2-14): When Holddown Is Initiated47 (p2-15): Understanding Parallel Paths and Their Effect on Packet Forwarding50 (p2-16): Process Switching Versus Fast Switching51 (p2-17): Configuring Process Switching52 (p2-18): Configuring Fast Switching54 (p2-19): Understanding the Role of Split Horizon56 (p2-20): Routing Advertisements with Split Horizon Enabled57 (p2-21): Routing Advertisements with Split Horizon Disabled60 (p2-22): Routing Loops Caused by Disabling Split Horizon64 (p2-23): Loss of a Connected Route Versus a Dynamic Route65 (p2-24):...

zlibzh/no-category/（美）（R.怀特）Robert Wright著, (美)[R.怀特]Robert Wright著, 怀特, Robert Wright/IP路由技术基础 英文版_30189446.pdf

IP routing primer = IP路由技术基础

TP ROUTING PRIMER IP路由技术基础

(美)赖特

Qinghua University Press

淸华大学出版社

Cisco xi lie cong shu, Ti 1 pan, ying yin pan, Beijing, 1999

CISCO xi lie cong shu, Ying yin ban, Beijing, 1999.4

CISCOxi lie cong shu, Ying yin ban, Bei jing, 1999

China, People's Republic, China

CISCO系列丛书

Bookmarks: p1 (p1): Chapter 1 Topology and Router Configurations
p1-2 (p1): Understanding the Role of Routers in Networks
p1-3 (p2): The Router Interface
p1-4 (p2): Network Layer Addresses
p1-5 (p3): Datagrams
p1-6 (p4): MAC Addresses
p1-7 (p5): IP Address Formats
p1-8 (p6): Network Reference Models
p1-9 (p9): Understanding Topology and Router Configurations
p1-10 (p10): RouterA s Configuration
p1-11 (p11): RouterB s Configuration
p1-12 (p12): RouterC s Configuration
p1-13 (p13): Understanding What a Router Does
p1-14 (p13): Sample Network
p1-15 (p15): How a Router Knows What to Do
p1-16 (p16): Choosing Your Routing Protocol
p1-17 (p18): Understanding How Forwarding Decisions Are Made
p1-18 (p18): Performing Longest Match Lookups
p1-19 (p21): Forwarding Decisions for Multipoint Interfaces
p1-20 (p23): End Systems Sending Packets to Other Subnets
p1-21 (p25): Summary
p2 (p27): Chapter2 Routing Metrics and Distances
p2-2 (p27): Primary Activities of Convergence
p2-3 (p29): Viewing the Invalid Timers in a Routing Table
p2-4 (p30): Viewing an Expired Invalid Timer in a Routing Table
p2-5 (p33): Router Still Uses a Path
p2-6 (p37): Understanding Convergence
p2-7 (p38): Parallel Paths
p2-8 (p38): The Effect of Parallel Paths on Convergence
p2-9 (p39): Looking at Parallel Paths in a Routing Table
p2-10 (p40): Convergence in Action
p2-11 (p41): The Routing Table After Convergence
p2-12 (p43): Step-by-Step Review of Convergence
p2-13 (p46): Debug Messages and Reality
p2-14 (p46): When Holddown Is Initiated
p2-15 (p47): Understanding Parallel Paths and Their Effect on Packet Forwarding
p2-16 (p50): Process Switching Versus Fast Switching
p2-17 (p51): Configuring Process Switching
p2-18 (p52): Configuring Fast Switching
p2-19 (p54): Understanding the Role of Split Horizon
p2-20 (p56): Routing Advertisements with Split Horizon Enabled
p2-21 (p57): Routing Advertisements with Split Horizon Disabled
p2-22 (p60): Routing Loops Caused by Disabling Split Horizon
p2-23 (p64): Loss of a Connected Route Versus a Dynamic Route
p2-24 (p65): Split Horizon s Effect on Multipoint WAN Interfaces
p2-25 (p68): Using Subinterfaces to Avoid Problems Caused by Split Horizon
p2-26 (p70): Poison Reverse and Triggered Updates
p2-27 (p72): IGRP Routing Metrics (Variables) and Cisco Administrative Distances
p2-28 (p73): IGRP Metrics (Variables)
p2-29 (p74): Administrative Distances
p2-30 (p76): Running Multiple Routing Protocols Concurrently
p2-31 (p79): Altering IGRP S Bandwidth and Delay Variables
p2-32 (p83): Problems with Manipulating the Delay Variable
p2-33 (p84): Understanding the Effects of Manipulating the Delay Variable
p2-34 (p87): Understanding the Effects of Manipulating the Bandwidth Variable
p2-35 (p90): Calculating IGRP Metrics
p2-36 (p93): Summary
p3 (p95): Chapter3 Discontiguous Networks, Summarization, and Subnet 0
p3-2 (p96): Introduction to Terminology
p3-3 (p98): Discontiguous Networks Using RIP and IGRP
p3-4 (p99): Understanding How a Router Derives thd Correct Masks
p3-5 (p103): Understanding Summarization (Summarized Routes)
p3-6 (p104): Understanding Subnet 0
p3-7 (p105): Summarized Routes Versus Subnet 0
p3-8 (p106): Summarization Caused by Discontiguous Networks in Action
p3-9 (p107): RIP Cannot Reach Discontiguous Subnets
p3-10 (p109): Discontiguous Networks, Subnet 0, and Summarization Using IGRP
p3-11 (p111): Discontiguous Networks Using Two Routers
p3-12 (p112): Discontiguous Networks Using Three Routers
p3-13 (p112): When Connectivity Is Possible
p3-14 (p120): When Connectivity Is Not Possible
p3-15 (p124): Alternating Paths for the First Ping
p3-16 (p126): Using Other Routing Protocols
p3-17 (p127): Using Summarization as a Tool
p3-18 (p129): Summary
p4 (p131): Chapter4 Using IP Unnumbered and VLSM
p4-2 (p133): Understanding IP Unnumbered
p4-3 (p133): IP Unnumbered Causes Host Routes and Lost Connectivity
p4-4 (p134): Host Routes
p4-5 (p135): Hosts Routes Using DDR
p4-6 (p138): Configuring IP Unnumbered on Serial Interfaces
p4-7 (p139): RIP and IGRP Behave the Same
p4-8 (p140): RIP with IP Unnumbered Configured Properly
p4-9 (p140): Displaying the Routes
p4-10 (p141): Sending Routing Updates
p4-11 (p142): RIP with IP Unnumbered Configured Improperly
p4-12 (p142): Pinging the Interfaces
p4-13 (p144): Examples of Routing Updates
p4-14 (p145): Host Route Problem
p4-15 (p146): Lost Routes Problem
p4-16 (p147): Using a Different Subnet Mask and a Different Major Net
p4-17 (p153): Understanding VLSM
p4-18 (p153): VLSM Using RIP and IGRP
p4-19 (p154): VLSM Experiment Using Two Routers
p4-20 (p157): VLSM Experiment Using Three Routers
p4-21 (p160): Correctly Configuring VLSM Blocked Routes
p4-22 (p162): VLSM Summary
p4-23 (p162): Summary
p4-24 (p163): Introduction to Default Routing
p5 (p163): Chapter5 Default Routing
p5-2 (p165): Gateway of Last Resort
p5-3 (p168): Gateway of Last Resort for a Non-Local Domain
p5-4 (p169): Gateway of Last ResortFails for a Local Domain
p5-5 (p173): Gateway of Last Resort Still Works When Links Fail
p5-6 (p174): Using IP Classless
p5-7 (p175): In Review
p5-8 (p177): Using Default and Static Routes in Complicated Networks
p5-9 (p177): Using Static Routes
p5-10 (p179): Dealing with Too Much Default Routing Information
p5-11 (p185): Fixing a Default Gateway Loop
p5-12 (p187): RIP and 0.0.0.0
p5-13 (p187): The 0.0.0.0 Default Route
p5-14 (p198): Using 0.0.0.0 with IGRP
p5-15 (p198): What to Do Instead of Using 0.0.0.0 with IGRP
p5-16 (p203): Using End Systems with Multiple Local Gateways
p5-17 (p204): ICMP Router Discovery Protocol (IRDP) RFC 1256
p5-18 (p205): End Systems Using RIP
p5-19 (p209): Cisco s Hot Standby Router Protocol (HSRP)
p5-20 (p212): Using Floating Static Routes
p5-21 (p215): Summary
p6 (p217): Chapter 6 IP Troubleshooting Scenarios
p6-2 (p217): Developing a Troubleshooting Routine
p6-3 (p219): Using a Troubleshooting Scenario
p6-4 (p220): Tracing the Route
p6-5 (p220): Checking the Available Routes
p6-6 (p223): Using Extended Pings to Track Connectivity
p6-7 (p225): Other Possible Problems
p6-8 (p225): An ARP Problem
p6-9 (p226): Validating End System Routing Tables
p6-10 (p230): Summary
p7 (p233): Chapter7 Bridging IP Between Dissimilar Media
p7-2 (p233): Translational Bridging
p7-3 (p234): MSB Versus LSB
p7-4 (p235): Bit Swapping MAC Addresses
p7-5 (p237): ARP Explained
p7-6 (p239): Translating Bridges and ARP Frames
p7-7 (p240): ARP in Action
p7-8 (p243): Vendor-Specific Solutions to ARP
p7-9 (p245): Static ARPs
p7-10 (p245): Displaying the Parameters of the ARP.EXE Command
p7-11 (p246): Displaying the Current ARP Entries
p7-12 (p246): How to Create a Static ARP Entry and Display It
p7-13 (p246): Deleting Static ARP Entries
p7-14 (p247): Summary
p8 (p249): Chapter8 Hexadecimal and Binary Numbering and IP Addressing
p8-2 (p249): Binary Numbering Versus Decimal Numbering
p8-3 (p252): Hexadecimal Numbering Versus Decimal Numbering
p8-4 (p255): Introduction to the 32-B it IP Address
p8-5 (p256): Classes of Addresses
p8-6 (p257): Default Subnet Masks for Class A, B, C, and D Addresses
p8-7 (p258): Understanding Subnet Masks, Subnetting, and Supernetting
p8-8 (p263): Determining What Subnet Is Being Used
p8-9 (p265): The Shorthand Subnet Mask Indicator
p8-10 (p266): Introduction to Supernetting
p8-11 (p267): Calculating Subnet and Host Combinations
p8-12 (p267): Summary
p9 (p269): Appendix A RFCs
p9-2 (p269): How RFCs Work
p9-3 (p270): RFCs Recommended for Further Study
p9-4 (p270): RFC2235: Hobbes Internet Timeline
p9-5 (p271): RFC2031: IETF-ISOC Relationship
p9-6 (p271): RFC2028: The Organizations Involved in the IETF Standards Process
p9-7 (p271): RFC2200: Internet Official Protocol Standards
p9-8 (p271): RFC2101: IPv4 Address Behavior Today
p9-9 (p271): RFC2151: A Primer on Internet and TCP/IP Tools and Utilities
p9-10 (p272): RFC2027: IAB and IESG Selection, Confirmation, and Recall Process: Operation of the Nominating and R
p9-11 (p272): RFC2026: The Internet Standards Process: Revision3
p9-12 (p272): RFC2008: Implications of Various Address Allocation Policies for Internet Routing
p9-13 (p272): RFC1935: What Is the Internet, Anyway?
p9-14 (p272): RFC1925: The Twelve Networking Truths
p9-15 (p273): RFC1812: Requirements for IP Version 4 Routers
p9-16 (p273): RFC1917: An Appeal to the Internet Community to Return Unused IP Networks (Prefixes) to the IANA
p9-17 (p273): RFC1878: Variable Length Subnet Table for IPv4
p9-18 (p273): RFC1923: RIPv1 Applicability Statement for Historic Status
p9-19 (p273): RFC1918: Address Allocation for Private Internets
p9-20 (p274): RFC1631: The IP Network Address Translator (NAT)
p9-21 (p274): RFC1601: Charter of the Internet Architecture Board (IAB)
p9-22 (p274): RFC1508: Guide to Network Resource Tools
p9-23 (p274): RFC1393: Traceroute Using an IP Option
p9-24 (p274): RFC1256: ICMP Router Discovery Messages
p9-25 (p275): RFC1058: Routing Information Protocol
p9-26 (p275): RFC826: An Ethernet Address Resolution Protocol
p9-27 (p275): RFC1700: Assigned Numbers
p9-28 (p275): RFC1149: A Standard for the Transmission of IP Datagrams on Avian Carriers
p9-29 (p275): RFC1178: Choosing a Name for Your Computer
p9-30 (p275): RFC1180: A TCP/IP Tutorial
p9-31 (p276): RFC1543: BOOTP
p9-32 (p276): RFC2283, RFC1966, RFC1965, RFC1774, RFC1773, RFC1772, RFC1771, RFC1745: Border Gateway Protocol V4 (
p9-33 (p276): RFC1817, RFC1520, RFC1519, RFC1518, RFC1517: Classless Interdomain Routing (CIDR)
p9-34 (p277): RFC2132, RFC2131, RFC1534: Dynamic Host Configuration Protocol (DHCP)
p9-35 (p277): RFC2308, RFC2230, RFC2219, RFC2182, RFC2181, RFC2136, RFC2052, RFC1996, RFC1995, RFC1912, RFC1794, R
p9-36 (p278): RFC2178, RFC1745, RFC1587, RFC1586, RFC1585, RFC1584, Open Shortest Path First (OSPF)
p9-37 (p278): RFC1931, RFC1293: Reverse Address Resolution Protocol (RARP) Inverse RARP
p9-38 (p278): RFC2092, RFC2091, RFC1723, RFC1722, RFC1721, RFC1582, RFC1581: RIP
p9-39 (p279): RFC2072, RFC2071: Router Renumbering
p9-40 (p279): RFC2001: TCP/IP (TCP) Slow Start
p9-41 (p279): RFC1470: TCP/IP Debugging Tools
p9-42 (p280): Summary
p9-43 (p281): Index

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类型: 图书

丛书名: CISCO系列丛书

出版日期: 1999.04

出版社: 北京：清华大学出版社

页码: 295

开本: 23cm

topic: 互连网络(学科: 基本知识)

tags: 路由;技术;基础;九十年代;专著

Type: 当代图书

Bookmarks:
1. (p1) Chapter1 Topology and Router Configurations
2. (p27) Chapter2 Routing Metrics and Distances
3. (p95) Chapter3 Discontiguous Networks, Summarization, and Subnet 0
4. (p131) Chapter4 Using IP Unnumbered and VLSM
5. (p163) Chapter5 Default Routing
6. (p217) Chapter6 IP Troubleshooting Scenarios
7. (p233) Chapter7 Bridging IP Between Dissimilar Media
8. (p249) Chapter8 Hexadecimal and Binary Numbering and IP Addressing

Subject: 路由;技术;基础;九十年代;专著

theme: 互连网络(学科: 基本知识)

label: 路由;技术;基础;九十年代;专著

Type: modern

2024-06-13