| 一代又一代的专业技术人员把Douglas Comer的《用TCP/IP进行网际互连》视为了解那些使因特网得以运转的协议和技术的敲门砖,它思路清晰,简单易懂。现在,Comer将这套经典教材的第一卷做了全面修订,重点突出当前使用最广泛并日益重要的因特网协议和技术。 第五版保留了前几版的成功之处。Comer细心地讲解了网际互连的基本概念和机制,示范说明了如何对多个网络进行结构设计,使其能像一个统一的通信系统那样发挥作用。他清晰地介绍了网际互连的设计原理、动机以及内涵。 本书主要特点: 含有新增内容和增强了的内容,涉及MPLS和IP交换以及实时服务(特别是VoIP); 包括对通信量的管理、排队和调度方面的全新章节; 展现了有关因特网安全性和防火墙的最新讨论,包括有状态防火墙的底层技术; 提供了新的或校正过的对IPSec网络设计、IP路由选择及最新的IPv6特性的介绍; 系统地介绍了通过NAT和VPN实现的专用网络互连; 从传统编址向CIDR编址的转移,用新的例子突出体现了现代硬件技术; 更新了在本书中占大量篇幅的TCP的内容,如选择确认、显式拥塞通告和快重传策略。 |
| DouglasE.Comer:普度大学的一位杰出的计算机科学教授,思科系统公司的访问教授成员,并且是计算机网络和TCP/IP及因特网万面的国际公认专家。其著作已被翻译成16种语言,并广泛用于世界各地的工业界和学术界。作为他的得意之作,这套分三卷的《用TCP/IP进行网际互连》彻底改变了组网和网络方面的教育,且其不断创新的工作继续影响着研究生和大学生所学的课程。作为美国计算机学会(ACM)会士,在他获得的许多荣誉中包括Usenix终生成就奖。 |
| Foreword Preface Chapter 1 Introduction And Overview 1.1 The Motivation For Internetworking 1.2 The TCP/IP Internet 1.3 Internet Services 1.4 History And Scope Of The Internet 1.5 The Internet Architecture Board 1.6 The lAB Reorganization 1.7 Internet Request For Comments 1.8 Future Growth And Technology 1.9 Organization Of The Text 1.10 Summary Chapter 2 Review Of Underlying Network Technologies 2.1 Introduction 2.2 Two Approaches To Network Communication 2.3 Wide Area And Local Area Networks 2.4 Ethernet Technology 2.5 Switched Ethernet 2.6 Asynchronous Transfer Mode 2.7 Summary Chapter 3 Internetworking Concept And Architectural Model 3.1 Introduction 3.2 Application-Level Interconnection 3.3 Network-Level lnterconnection 3.4 Properties Of The lnternet 3.5 Internet Architecture 3.6 Interconnection Through IP Routers 3.7 The User's View 3.8 All Networks Are Equal 3.9 The Unanswered Questions 3.10 Summary Chapter 4 Classful Internet Addresses 4.1 Introduction 4.2 Universal Identifiers 4.3 The Original Classful Addressing Scheme 4.4 Addresses Specify Network Connections 4.5 Network And Directed Broadcast Addresses 4.6 Limited Broadcast 4.7 The All-Os Address 4.8 Subnet And Classless Extensions 4.9 IP Multicast Addresses 4.10 Weaknesses In Internet Addressing 4.11 Dotted Decimal Notation 4.12 Loopback Address 4.13 Summary Of Special Address Conventions 4.14 Internet Addressing Authority 4.15 Reserved Address Prefixes 4.16 An Example 4.17 Network Byte Order 4.18 Summary Chapter 5 Mapping Internet Addresses To Physical Addresses (ARP) 5.1 Introduction 5.2 The Address Resolution Problem 5.3 Two Types Of Physical Addresses 5.4 Resolution Through Direct Mapping 5.5 Resolution Through Dynamic Binding 5.6 The Address Resolution Cache 5.7 ARP Cache Timeout 5.8 ARP Refinements 5.9 Relationship Of ARP To Other Protocols 5.10 ARP Implementation 5.11 ARP Encapsulation And Identification …… Chapter 6 Internet Protocol:Connectionless Datagram Delivery(IPv4) Chapter 7 Internet Protocol:Forwarding IP Datagrams Chapter 8 Internet Protocol:Error And Control Messages(ICMP) Chapter 9 Classless And Subnet Address Extensions(CIDR) Chapter 10 Protocol Layering Chapter 11 User Datagram Protocol(UDP) Chapter 12 Reliable Stream Transport Service(TCP) Chapter 13 Routing Architecture:Cores,Peers,And Algorithms Chapter 14 Routing Between Peers(GGP) Chapter 15 Routing Within An Autonomous System(RIP,OSPF) Chapter 16 Internet Multicasting Chapter 17 IP Switching And MPLS Chapter 18 Mobile IP Chapter 19 Private Network Interconnection(NAT,VPN) Chapter 20 Client-Server Model Of Interaction Chapter 21 The Socket Interface Chapter 22 Bootstrap And Autoconfiguration(DHCP) Chapter 23 The Domain Name System(DNS) Chapter 24 Remote Login And Desktop(TELNET,SSH) Chapter 25 File Transfer And Access(FTP,TFTP,NFS) Chapter 26 Electronic Mail(SMTP,POP,IMAP,MIME) Chapter 27 World Wide Web(HTTP) Chapter 28 Voice And Video Over IP(RTP,RSVP,QoS) Chapter 29 Network Management(SNMP) Chapter 30 Internet Security And Firewall Design(IPsec,SSL) Chapter 31 A Next Generation IP(IPv6) Appendix 1 A Look At RFCs Appendix 2 Glossary Of Internetworking Termas And Abbreviations Bibliography Index |
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