书籍详情
控制协议/因特网协议经典教程:TCP/IP(英文版)
作者:特洛华·梅蒂著
出版社:北京希望电子出版社
出版时间:2001-05-01
ISBN:9787900071170
定价:¥82.00
购买这本书可以去
内容简介
本书是一本有关传输协议INTERNET协议(TCP/TP)的经典教材。它详尽地讲述有关TCP/TP的整套协议规范和应用的协议规则的产生,到最近的广泛运用,包括在世界上最大的网络INTERNET中的运用。本书由三个部分组成,第一部分介绍了TCP/TP协议的历史体系结构和标准,包含了核心网络传送路由和运用协议。第二部分讲述了新的体系结构和应用协议,如IPV6 IP安全和服务质量控制等。第三部分详细讲述了有关网络连接和TCP/IP平台的具体应用配置。本书内容新,理论联系实际,讲练结合,有很强的实用性和指导性,面向开发和编程人员,对于广大计算机专业的师生来说是一本必不可少的计算机教程,对于社会上广大自学者和工程人员来讲也具有很强的指导作用。本版光盘内容包括本版电子书。
作者简介
暂缺《控制协议/因特网协议经典教程:TCP/IP(英文版)》作者简介
目录
PART ONE Architecture and Core Protocols
CHAPTER 1 Introduction to TCP/IP-History,Architecture and Standards
1.1 Internet History-Where It All Came From
1.1.1 Internetworks
1.1.2 The Internet
1.1.3 ARPANET
1.1.4 NSFNET
1.1.5 Commercial Use of the Internet
1.1.6 Information Superhighway
1.1.7 Internet2
1.1.8 The Open Systems Interconnect(OSI)Model
1.2 TCP/IP Architectural Model-What It Is All About
1.2.1 Internetworking
1.2.2 The TCP/IP Protocol Stack
1.2.3 TCP/IP Applications
1.2.4 Bridges,Routers and Gateways
1.3 Finding Standards for TCP/IP and the Internet
1.3.1 Request For Comments(RFC)
1.3.2 Internet Standards
1.3.3 Major Internet Protocols
1.4 Future of the Internet
1.5 IBM and the Internet
1.5.1 The Network Computing Framework
CHAPTER 2 Internetworking and Transport Layer Protocols
2.1 Internet Protocol(IP)
2.1.1 IP Addressing
2.1.2 IP Subnets
2.1.3 IP Routing
2.1.4 Methods of Delivery-Unicast,Broadcast,Multicast and Anycast
2.1.5 The IP Address Exhaustion Problem
2.1.6 Intranets(Private IP Addresses)
2.1.7 Classless Inter-Domain Routing(CIDR)
2.1.8 IP Datagram
2.2 Internet Control Message Protocol(ICMP)
2.2.1 ICMP Messages
2.2.2 ICMP Applications
2.3 Internet Group Management Protocol(IGMP)
2.4 Address Resolution Protocol(ARP)
2.4.1 ARP Overview
2.4.2 ARP Detailed Concept
2.4.3 ARP and Subnets
2.4.4 Proxy-ARP or Transparent Subnetting
2.5 Reverse Address Resolution Protocol(RARP)
2.5.1 RARP Concept
2.6 Ports and Sockets
2.6.1 Ports
2.6.2 Sockets
2.7 User Datagram Protocol(UDP)
2.7.1 UDP Datagram Format
2.7.2 UDP Application Programming Interface
2.8 Transmission Control Protocol(TCP)
2.8.1 TCP Concept
2.8.2 TCP Application Programming Interface
2.8.3 TCP Congestion Control Algorithms
2.9 References
CHAPTER 3 Routing Protocols
3.1 Basic IP Routing
3.1.1 Routing Processes
3.1.2 Autonomous Systmes
3.2 Routing Algorithms
3.2.1 Static Routing
3.2.2 Distance Vector Routing
3.2.3 Link State Routing
3.3 Interior Gateway Protocols(IGP)
3.3.1 Routing Information Protocol(RIP)
3.3.2 Routing Information Protocol Version 2(RIP-2)
3.3.3 RIPng for IPv6
3.3.4 Open Shortest Path First(OSPF)
3.4 Exterior Routing Protocols
3.4.1 Exterior Gateway Protocol(EGP)
3.4.2 Border Gateway Protocol(BGP-4)
3.5 References
CHAPTER 4 Application Protocols
4.1 Characteristics of Applications
4.1.1 Client/Server Model
4.2 Domain Name System(DNS)
4.2.1 The Hierarchical Namespace
4.2.2 Fully Qualified Domain Names(FQDNs)
4.2.3 Generic Domains
4.2.4 Country Domains
4.2.5 Mapping Domain Names to IP Addresses
4.2.6 Mapping IP Addresses to Domain Names-Pointer Queries
4.2.7 The Distributed Name Space
4.2.8 Domain Name Resolution
4.2.9 Domain Name System Resource Records
4.2.10 Domain Name System Messages
4.2.11 A Simple Scenario
4.2.12 Extended scenario
4.2.13 Transport
4.2.14 DNS Applications
4.2.15 References
4.3 TELNET
4.3.1 TELNET Operation
4.3.2 Terminal Emulation(Telnet 3270)
4.3.3 TN3270 Enhancements(TN3270E)
4.3.4 References
4.4 File Transfer Protocol(FTP)
4.4.1 Overview of FTP
4.4.2 FTP Operations
4.4.3 Reply Codes
4.4.4 FTP Scenario
4.4.5 A Sample FTP Session
4.4.6 Anonymous FTP
4.4.7 Remote Job Entry Using FTP
4.5 Trivial File Transfer Protocol(TFTP)
4.5.1 FTFP Usage
4.5.2 Protocol Description
4.5.3 TFTP Multicast Option
4.5.4 Security Issue
4.6 Remote Execution Command Protocol(REXEC and RSH)
4.6.1 Principle of Operation
4.7 Simple Mail Transfer Protocol(SMTP)
4.7.1 How SMTP Works
4.7.2 SMTP and the Domain Name System
4.7.3 References
4.8 Multipurpose Internet Mail Extensions(MIME)
4.8.1 How MIME Works
4.8.2 The Content-Type Field
4.8.3 The Content-Transfer-Encoding Field
4.8.4 Using Non-ASCII Characters in Message Headers
4.8.5 References
4.9 Post Office Protocol(POP)
4.9.1 POP3 Commands and Responses
4.9.2 References
4.10 Internet Message Access Protocol Version 4(IMAP4)
4.10.1 IMAP4 Underlying Electronic Mail Models
4.10.2 IMAP4 Commands and Responses
4.10.3 Message Numbers
4.10.4 IMAP4 States
4.10.5 Client Commands
4.10.6 References
4.11 Network Management
4.11.1 Standards
4.11.2 Bootstrap Protocol(BOOTP)
4.11.3 Structure and Identification of Management Information(SMI)
4.11.4 Management Information Base(MIB)
4.11.5 Simple Network Management Protocol(SNMP)
4.11.6 Simple Network Management Protocol Version 2(SNMPv2)
4.11.7 MIB for SNMPv2
4.11.8 Single Authentication and Privacy Protocol
4.11.9 The New Administrative Model
4.11.10 Simple Network Management Protocol Version 3(SNMPv3)
4.11.11 References
4.12 Remote Printing(LPR and LPD)
4.13 Network File System(NFS)
4.13.1 NFS Concept
4.13.2 WebNFS
4.13.3 References
4.14 X Window System
4.14.1 Functional Concept
4.14.2 Protocol
4.15 Finger Protocol
4.16 NETSTAT
4.17 Network Information System(NIS)
4.18 NetBIOS over TCP/IP
4.18.1 NetBIOS over TCP/IP in IBM OS/2 Warp 4
4.18.2 NetBIOS over TCP/IP in Microsoft Windows Systems
4.18.3 NetBIOS Name Server(NBNS)Implementations
4.19 Application Programming Interfaces(APIs)
4.19.1 The Socket API
4.19.2 Remote Procedure Call(RPC)
4.19.3 Windows sockets Version 2(Winsock V2.0)
4.19.4 SNMP Distributed Programming Interface(SNMP DPI)
4.19.5 FTP API
4.19.6 CICS Socket Interface
4.19.7 IMS Socket Interface
4.19.8 Sockets Extended
4.19.9 REXX Sockets
PART TWO Special Purpose Protocols and New Technologies
CHAPTER 5 TCP/IP Security Overview
5.1 Security Exposures and Solutions
5.1.1 Common Attacks Against Security
5.1.2 Solutions to Network Security Problems
5.1.3 Implementations of Security Solutions
5.1.4 Network Security Policy
5.2 A Short Introduction to Cryptography
5.2.1 Terminology
5.2.2 symmetric or Secret-Key Algorithms
5.2.3 Asymmetric or Public-Key Algorithms
5.2.4 Hash Functions
5.2.5 digital Certificates and Certification Authorities
5.2.6 Random-Number Generators
5.2.7 Export/Import Restrictions on Cryptography
5.3 Firewalls
5.3.1 Firewall Concept
5.3.2 Components of A Firewall System
5.3.3 Packet-Filtering Router
5.3.4 Application Level Gateway(Proxy)
5.3.5 Circuit Level Gateway
5.3.6 Firewall Examples
5.4 Network Address Translation(NAT)
5.4.1 NAT Concept
5.4.2 Translation Mechanism
5.4.3 NAT Limitations
5.5 The IP Security Architecture(IPSec)
5.5.1 Concepts
5.5.2 Authentication Header(AH)
5.5.3 Encapsulating Security Payload(ESP)
5.5.4 Combining IPSec Protocols
5.5.5 The Internet Key Exchange Protocol(IKE)
5.5.6 References
5.6 SOCKS
5.6.1 SOCKS Version 5(SOCKSv5)
5.7 Secure Sockets Layer(SSL)
5.7.1 SSL Overview
5.7.2 SSL Protocol
5.8 Transport Layer Security(TLS)
5.9 Secure Multipurpose Internet Mail Extension(S-MIME)
5.10 Virtural Private Networks(VPN)Overview
5.10.1 VPN Introduction and Benefits
5.11 Kerberos Authentication and Authorization System
5.11.1 Assumptions
5.11.2 Naming
5.11.3 Kerberos Authentication Process
5.11.4 Kerberos Database Management
5.11.5 Kerberos Authorization Model
5.11.6 Kerberos Version 5 Enhancements
5.12 Remote Access Authentication Protocols
5.13 Layer 2 Tunneling Protocol(L2TP)
5.13.1 Terminology
5.13.2 Protocol Overview
5.13.3 L2TP Security Issues
5.14 Secure Electronic Transactions(SET)
5.14.1 SET Roles
5.14.2 SET Transactions
5.14.3 The SET Certificate Scheme
5.15 References
CHAPTER 6 IP Version 6
6.1 IPv6 Overview
6.2 The IPv6 Header Format
6.2.1 Packet Sizes
6.2.2 Extension Headers
6.2.3 IPv6 Addressing
6.2.4 Priority
6.2.5 Flow Labels
6.3 Internet Control Message Protocol Version 6(ICMPv6)
6.3.1 Neighbor Discovery
6.3.2 Stateless Address Autoconfiguration
6.3.3 Multicast Listener Discovery(MLD)
6.4 DNS in IPv6
6.4.1 Format of IPv6 Resource Records
6.5 DHCP in IPv6
6.5.1 Differences between DHCPv6 and DHCPv4
6.5.2 DHCPv6 Messages
6.6 Mobility Support in IPv6
6.7 Internet Transition-Migrating from IPv4 to IPv6
6.7.1 Dual IP Stack Implementation-The IPv6/IPv4 Node
6.7.2 Tunneling
6.7.3 Header Translation
6.7.4 Interoperability Summary
6.8 The Drive Towards IPv6
6.9 References
CHAPTER 7 Dynamic IP,Mobile IP and Network Computers
7.1 Bootstrap Protocol(BOOTP)
7.1.1 BOOTP Forwarding
7.1.2 BOOTP Considerations
7.2 Dynamic Host Configuration Protocol(DHCP)
7.2.1 The DHCP Message Types
7.2.2 Allocating a New Network Address
7.2.3 DHCP Lease Renewal Process
7.2.4 Reusing a Previously Allocated Network Address
7.2.5 Configuration Parameters Repository
7.2.6 DHCP Considerations
7.2.7 DHCP Considerations
7.2.8 BOOTP and DHCP Interoperability
7.3 Dynamic Domain Name System
7.3.1 The UPDATE DNS Message Format
7.3.2 IBM’s Implementation of DDNS
7.3.3 Proxy A Record Update(ProxyArec)
7.4 Mobile IP
7.4.1 Mobile IP Overview
7.4.2 Mobile IP Operation
7.4.3 Mobility Agent Advertisement Extemsions
7.4.4 Mobile IP Registration Process
7.4.5 Tunneling
7.4.6 Broadcast Datagrams
7.4.7 Move Detection
7.4.8 ARP Considerations
7.4.9 Mobile IP Security Considerations
7.5 IP Masquerading
7.6 The Network Computer
7.7 References
CHAPTER 8 Internet Protocols and Applications
8.1 The World Wide Web(WWW)
8.1.1 Web Browsers
8.1.2 Web Servers
8.1.3 Web Server Application Technologies
8.2 Hypertext Rtansfer Protocol(HTTP)
8.2.1 Overview of HTTP
8.2.2 HTTP Operation
8.3 Hypertext Markup Language(HTML)
8.4 The Extensible Markup Language(XML)
8.5 Java
8.5.1 Java Components Overview
8.5.2 JavaScript
8.5.3 Java in the World Wide Web
8.5.4 Java Security
8.5.5 Distributed Objects
8.6 Accessing Legacy Applications from the Web
8.6.1 Business Requirements
8.6.2 Technical Issues
8.6.3 Security Issues
8.6.4 IBM e-business Solutions
8.7 Network News Transfer Protocol(NNTP)
8.8 Gopher
8.9 Internet2
8.9.1 Mission
8.9.2 Project Description
8.9.3 Internet2 and NGI
CHAPTER 9 Multicast and Multimedia
9.1 Multicasting
9.2 Internet Group Management Protocol(IGMP)
9.2.1 IGMP Operation
9.3 Multicast Routing Protocols
9.3.1 distance Vector Multicast Routing Protocol(DVMRP)
9.3.2 Multicast OSPF(MOSPF)
9.3.3 Protocol Independent Multicast(PIM)
9.4 The Multicast Backbone
9.4.1 MBONE Routing
9.4.2 MBONE Applications
9.5 The Real-Time Protocols RTP and RTCP
9.5.1 The Real-Time Transport Protocol(RTP)
9.5.2 The Real-Time Control Protocol
9.5.3 RTP Translators and Mixers
9.5.4 Real-Time Applications
9.6 Voice over IP
9.6.1 ITU-T Recommendation H.323
9.6.2 Voice Compression(G.723.1 and G.729)
9.6.3 The VoIP Protocol Stack
9.7 References
CHAPTER 10 Quality of Service
10.1 Why QoS
10.2 Integrated Services
10.2.1 Service Classes
10.2.2 The Reservation Protocol(RSVP)
10.2.3 The Future of Integrated Services
10.3 Differentiated Services
10.3.1 Differentiated Services Architecture
10.3.2 Using RSVP with Differentiated Services
10.3.3 Configuration and Administration of DS Components with LDAP
10.3.4 Using Differentiated Services with IPSec
10.3.5 Internet Drafts on Differentiated Services
10.4 References
CHAPTER 11 Availability,Scalability and Load Balancing
11.1 Virtual Router Redundancy Protocol(VRRP)
11.1.1 Introduction
11.1.2 VRRP Definitions
11.1.3 VRRP Overview
11.1.4 Sample Configuration
11.1.5 VRRP Packet Format
11.2 Round-Robin DNS
11.3 IMB eNetwork Dispatcher
11.3.1 eNetwork Dispatcher Components
11.3.2 Load Balancing with Weights
11.3.3 High Availability
11.3.4 Server Affinity
11.3.5 Rules-Based Balancing
11.3.6 Wide Area Network Dispatcher
11.3.7 Combining ISS and Dispatcher
11.3.8 Advisors and Custom Advisors
11.3.9 SNMP Support
11.3.10 Co-Location Option
11.3.11 ISP Configuration
11.3.12 OS/390 Parallel Sysplex Support
11.4 Alternative Solutions to Load Balancing
11.4.1 Network Address Translation
11.4.2 Encapsulation
11.4.3 HTTP Redirection
11.5 TCP/IP for OS/390 Using Workload Manager(WLM)
11.5.1 Related Terminology and Products
11.5.2 Overview of WLM
11.6 OSPF Equal-Cost Multipath
11.7 OS/390 VIPA Connection Recovery
CHAPTER 12 Directory Protocols and Distributed Computing
12.1 Introduction to the Distributed Computing Environment(DCE)
12.1.1 DCE Directory Service
12.1.2 DCE Security Service
12.1.3 DCE Threads
12.1.4 DCE Remote Procedure Call
12.1.5 Distributed Time Service
12.1.6 Distributed File Service(DFS)
12.2 The Andrew File System(AFS)
12.3 Lightweight Directory Access Protocol(LDAP)
12.3.1 LDAP-Lightweight Access to X.500
12.3.2 The LDAP Directory Server
12.3.3 Overview of LDAP Architecture
12.3.4 LDAP Models
12.3.5 LDAP Security
12.3.6 LDAP URLs
12.3.7 LDAP and DCE
12.3.8 The Directory-Enabled Networks Initiative(DEN)
12.3.9 References
PART THREE Connection Protocols and Platform Implementations
CHAPTER 13 Connection Protocols
13.1 Ethernet and IEEE 802.x Local Area Networks(LANs)
13.2 Fiber Distributed Data Interface()
13.3 Asynchronous Transfer Mode(ATM)
13.3.1 Address Resolution(ATMARP and InATMARP)
13.3.2 Classical IP over ATM
13.3.3 ATM LAN Emulation
13.3.4 Classical IP over ATM versus LAN Emulation
13.4 Data Link Switching:Switch-to-switch Protocol
13.4.1 Introduction
13.4.2 Functional Description
13.5 Serial Line IP(SLIP)
13.6 Point-to-Point Protocol(PPP)
13.6.1 Point-to-Point Encapsulation
13.7 Integrated Services Digital Network(ISDN)
13.8 TCP/IP and X.25
13.9 Frame Relay
13.9.1 Frame Format
13.9.2 Interconnect Issues
13.9.3 Data Link Layer Parameter Negotiation
13.9.4 IP over Frame Relay
13.10 PPP over SONET and SDH Circuits
13.10.1 Physical Layer
13.11 Multiprotocol Label Switching(MPLS)
13.11.1 Forwarding Methods
13.11.2 MPLS Usefulness
13.12 Enterprise Extender
13.12.1 Performance and Recovery
13.13 Multiprotocol Transport Network(MPTN)
13.13.1 Requirements for Mixed-Protocol Networking
13.13.2 MPTN Architecture
13.13.3 MPTN Methodology
13.13.4 MPTN Major Components
13.14 Multi-Path Channel+(MPC+)
13.15 S/390 Open Systems Adapter 2
13.15.1 OSA-2 Modes
13.15.2 S/390 Unit Addresses Correlate with OSA-2 LAN Port Numbers
13.15.3 Open Systems Adapter/Support Facility(OSA/SF)
13.16 Multiprotocol over ATM(MPOA)
13.16.1 Benefits of MPOA
13.16.2 MPOA Logical Components
13.16.3 MPOA Functional Components
13.16.4 MPOA Operation
13.17 Private Network-to-Network Interface(PNNI)
13.17.1 PNNI Overview
13.17.2 PNNI Routing
13.17.3 PNNI Signalling
13.18 References
CHAPTER 14 Platform Implementations
14.1 Software Operating System Implementations
14.1.1 IBM OS/390 V2R6
14.1.2 IBM TCP/IP V2R4 for VM
14.1.3 IBM OS/400 V4R3
14.1.4 IBM AIX 4.3
14.1.5 IBM TCP/IP 4.1 for OS/2
14.1.6 Functional Comparisons
14.2 IBM Hardware Platform Implementations
14.2.1 The IBM Nways Router Family
14.2.2 The IBM Multiprotocol Switch Hub Family
14.2.3 The IBM Workgroup Hubs and Workgroup Switches
14.2.4 The IBM High Performance Controllers
14.2.5 The IBM Nways Wide Area Switches
14.2.6 Functional Comparisons
APPENDIX A Special Notices
CHAPTER 1 Introduction to TCP/IP-History,Architecture and Standards
1.1 Internet History-Where It All Came From
1.1.1 Internetworks
1.1.2 The Internet
1.1.3 ARPANET
1.1.4 NSFNET
1.1.5 Commercial Use of the Internet
1.1.6 Information Superhighway
1.1.7 Internet2
1.1.8 The Open Systems Interconnect(OSI)Model
1.2 TCP/IP Architectural Model-What It Is All About
1.2.1 Internetworking
1.2.2 The TCP/IP Protocol Stack
1.2.3 TCP/IP Applications
1.2.4 Bridges,Routers and Gateways
1.3 Finding Standards for TCP/IP and the Internet
1.3.1 Request For Comments(RFC)
1.3.2 Internet Standards
1.3.3 Major Internet Protocols
1.4 Future of the Internet
1.5 IBM and the Internet
1.5.1 The Network Computing Framework
CHAPTER 2 Internetworking and Transport Layer Protocols
2.1 Internet Protocol(IP)
2.1.1 IP Addressing
2.1.2 IP Subnets
2.1.3 IP Routing
2.1.4 Methods of Delivery-Unicast,Broadcast,Multicast and Anycast
2.1.5 The IP Address Exhaustion Problem
2.1.6 Intranets(Private IP Addresses)
2.1.7 Classless Inter-Domain Routing(CIDR)
2.1.8 IP Datagram
2.2 Internet Control Message Protocol(ICMP)
2.2.1 ICMP Messages
2.2.2 ICMP Applications
2.3 Internet Group Management Protocol(IGMP)
2.4 Address Resolution Protocol(ARP)
2.4.1 ARP Overview
2.4.2 ARP Detailed Concept
2.4.3 ARP and Subnets
2.4.4 Proxy-ARP or Transparent Subnetting
2.5 Reverse Address Resolution Protocol(RARP)
2.5.1 RARP Concept
2.6 Ports and Sockets
2.6.1 Ports
2.6.2 Sockets
2.7 User Datagram Protocol(UDP)
2.7.1 UDP Datagram Format
2.7.2 UDP Application Programming Interface
2.8 Transmission Control Protocol(TCP)
2.8.1 TCP Concept
2.8.2 TCP Application Programming Interface
2.8.3 TCP Congestion Control Algorithms
2.9 References
CHAPTER 3 Routing Protocols
3.1 Basic IP Routing
3.1.1 Routing Processes
3.1.2 Autonomous Systmes
3.2 Routing Algorithms
3.2.1 Static Routing
3.2.2 Distance Vector Routing
3.2.3 Link State Routing
3.3 Interior Gateway Protocols(IGP)
3.3.1 Routing Information Protocol(RIP)
3.3.2 Routing Information Protocol Version 2(RIP-2)
3.3.3 RIPng for IPv6
3.3.4 Open Shortest Path First(OSPF)
3.4 Exterior Routing Protocols
3.4.1 Exterior Gateway Protocol(EGP)
3.4.2 Border Gateway Protocol(BGP-4)
3.5 References
CHAPTER 4 Application Protocols
4.1 Characteristics of Applications
4.1.1 Client/Server Model
4.2 Domain Name System(DNS)
4.2.1 The Hierarchical Namespace
4.2.2 Fully Qualified Domain Names(FQDNs)
4.2.3 Generic Domains
4.2.4 Country Domains
4.2.5 Mapping Domain Names to IP Addresses
4.2.6 Mapping IP Addresses to Domain Names-Pointer Queries
4.2.7 The Distributed Name Space
4.2.8 Domain Name Resolution
4.2.9 Domain Name System Resource Records
4.2.10 Domain Name System Messages
4.2.11 A Simple Scenario
4.2.12 Extended scenario
4.2.13 Transport
4.2.14 DNS Applications
4.2.15 References
4.3 TELNET
4.3.1 TELNET Operation
4.3.2 Terminal Emulation(Telnet 3270)
4.3.3 TN3270 Enhancements(TN3270E)
4.3.4 References
4.4 File Transfer Protocol(FTP)
4.4.1 Overview of FTP
4.4.2 FTP Operations
4.4.3 Reply Codes
4.4.4 FTP Scenario
4.4.5 A Sample FTP Session
4.4.6 Anonymous FTP
4.4.7 Remote Job Entry Using FTP
4.5 Trivial File Transfer Protocol(TFTP)
4.5.1 FTFP Usage
4.5.2 Protocol Description
4.5.3 TFTP Multicast Option
4.5.4 Security Issue
4.6 Remote Execution Command Protocol(REXEC and RSH)
4.6.1 Principle of Operation
4.7 Simple Mail Transfer Protocol(SMTP)
4.7.1 How SMTP Works
4.7.2 SMTP and the Domain Name System
4.7.3 References
4.8 Multipurpose Internet Mail Extensions(MIME)
4.8.1 How MIME Works
4.8.2 The Content-Type Field
4.8.3 The Content-Transfer-Encoding Field
4.8.4 Using Non-ASCII Characters in Message Headers
4.8.5 References
4.9 Post Office Protocol(POP)
4.9.1 POP3 Commands and Responses
4.9.2 References
4.10 Internet Message Access Protocol Version 4(IMAP4)
4.10.1 IMAP4 Underlying Electronic Mail Models
4.10.2 IMAP4 Commands and Responses
4.10.3 Message Numbers
4.10.4 IMAP4 States
4.10.5 Client Commands
4.10.6 References
4.11 Network Management
4.11.1 Standards
4.11.2 Bootstrap Protocol(BOOTP)
4.11.3 Structure and Identification of Management Information(SMI)
4.11.4 Management Information Base(MIB)
4.11.5 Simple Network Management Protocol(SNMP)
4.11.6 Simple Network Management Protocol Version 2(SNMPv2)
4.11.7 MIB for SNMPv2
4.11.8 Single Authentication and Privacy Protocol
4.11.9 The New Administrative Model
4.11.10 Simple Network Management Protocol Version 3(SNMPv3)
4.11.11 References
4.12 Remote Printing(LPR and LPD)
4.13 Network File System(NFS)
4.13.1 NFS Concept
4.13.2 WebNFS
4.13.3 References
4.14 X Window System
4.14.1 Functional Concept
4.14.2 Protocol
4.15 Finger Protocol
4.16 NETSTAT
4.17 Network Information System(NIS)
4.18 NetBIOS over TCP/IP
4.18.1 NetBIOS over TCP/IP in IBM OS/2 Warp 4
4.18.2 NetBIOS over TCP/IP in Microsoft Windows Systems
4.18.3 NetBIOS Name Server(NBNS)Implementations
4.19 Application Programming Interfaces(APIs)
4.19.1 The Socket API
4.19.2 Remote Procedure Call(RPC)
4.19.3 Windows sockets Version 2(Winsock V2.0)
4.19.4 SNMP Distributed Programming Interface(SNMP DPI)
4.19.5 FTP API
4.19.6 CICS Socket Interface
4.19.7 IMS Socket Interface
4.19.8 Sockets Extended
4.19.9 REXX Sockets
PART TWO Special Purpose Protocols and New Technologies
CHAPTER 5 TCP/IP Security Overview
5.1 Security Exposures and Solutions
5.1.1 Common Attacks Against Security
5.1.2 Solutions to Network Security Problems
5.1.3 Implementations of Security Solutions
5.1.4 Network Security Policy
5.2 A Short Introduction to Cryptography
5.2.1 Terminology
5.2.2 symmetric or Secret-Key Algorithms
5.2.3 Asymmetric or Public-Key Algorithms
5.2.4 Hash Functions
5.2.5 digital Certificates and Certification Authorities
5.2.6 Random-Number Generators
5.2.7 Export/Import Restrictions on Cryptography
5.3 Firewalls
5.3.1 Firewall Concept
5.3.2 Components of A Firewall System
5.3.3 Packet-Filtering Router
5.3.4 Application Level Gateway(Proxy)
5.3.5 Circuit Level Gateway
5.3.6 Firewall Examples
5.4 Network Address Translation(NAT)
5.4.1 NAT Concept
5.4.2 Translation Mechanism
5.4.3 NAT Limitations
5.5 The IP Security Architecture(IPSec)
5.5.1 Concepts
5.5.2 Authentication Header(AH)
5.5.3 Encapsulating Security Payload(ESP)
5.5.4 Combining IPSec Protocols
5.5.5 The Internet Key Exchange Protocol(IKE)
5.5.6 References
5.6 SOCKS
5.6.1 SOCKS Version 5(SOCKSv5)
5.7 Secure Sockets Layer(SSL)
5.7.1 SSL Overview
5.7.2 SSL Protocol
5.8 Transport Layer Security(TLS)
5.9 Secure Multipurpose Internet Mail Extension(S-MIME)
5.10 Virtural Private Networks(VPN)Overview
5.10.1 VPN Introduction and Benefits
5.11 Kerberos Authentication and Authorization System
5.11.1 Assumptions
5.11.2 Naming
5.11.3 Kerberos Authentication Process
5.11.4 Kerberos Database Management
5.11.5 Kerberos Authorization Model
5.11.6 Kerberos Version 5 Enhancements
5.12 Remote Access Authentication Protocols
5.13 Layer 2 Tunneling Protocol(L2TP)
5.13.1 Terminology
5.13.2 Protocol Overview
5.13.3 L2TP Security Issues
5.14 Secure Electronic Transactions(SET)
5.14.1 SET Roles
5.14.2 SET Transactions
5.14.3 The SET Certificate Scheme
5.15 References
CHAPTER 6 IP Version 6
6.1 IPv6 Overview
6.2 The IPv6 Header Format
6.2.1 Packet Sizes
6.2.2 Extension Headers
6.2.3 IPv6 Addressing
6.2.4 Priority
6.2.5 Flow Labels
6.3 Internet Control Message Protocol Version 6(ICMPv6)
6.3.1 Neighbor Discovery
6.3.2 Stateless Address Autoconfiguration
6.3.3 Multicast Listener Discovery(MLD)
6.4 DNS in IPv6
6.4.1 Format of IPv6 Resource Records
6.5 DHCP in IPv6
6.5.1 Differences between DHCPv6 and DHCPv4
6.5.2 DHCPv6 Messages
6.6 Mobility Support in IPv6
6.7 Internet Transition-Migrating from IPv4 to IPv6
6.7.1 Dual IP Stack Implementation-The IPv6/IPv4 Node
6.7.2 Tunneling
6.7.3 Header Translation
6.7.4 Interoperability Summary
6.8 The Drive Towards IPv6
6.9 References
CHAPTER 7 Dynamic IP,Mobile IP and Network Computers
7.1 Bootstrap Protocol(BOOTP)
7.1.1 BOOTP Forwarding
7.1.2 BOOTP Considerations
7.2 Dynamic Host Configuration Protocol(DHCP)
7.2.1 The DHCP Message Types
7.2.2 Allocating a New Network Address
7.2.3 DHCP Lease Renewal Process
7.2.4 Reusing a Previously Allocated Network Address
7.2.5 Configuration Parameters Repository
7.2.6 DHCP Considerations
7.2.7 DHCP Considerations
7.2.8 BOOTP and DHCP Interoperability
7.3 Dynamic Domain Name System
7.3.1 The UPDATE DNS Message Format
7.3.2 IBM’s Implementation of DDNS
7.3.3 Proxy A Record Update(ProxyArec)
7.4 Mobile IP
7.4.1 Mobile IP Overview
7.4.2 Mobile IP Operation
7.4.3 Mobility Agent Advertisement Extemsions
7.4.4 Mobile IP Registration Process
7.4.5 Tunneling
7.4.6 Broadcast Datagrams
7.4.7 Move Detection
7.4.8 ARP Considerations
7.4.9 Mobile IP Security Considerations
7.5 IP Masquerading
7.6 The Network Computer
7.7 References
CHAPTER 8 Internet Protocols and Applications
8.1 The World Wide Web(WWW)
8.1.1 Web Browsers
8.1.2 Web Servers
8.1.3 Web Server Application Technologies
8.2 Hypertext Rtansfer Protocol(HTTP)
8.2.1 Overview of HTTP
8.2.2 HTTP Operation
8.3 Hypertext Markup Language(HTML)
8.4 The Extensible Markup Language(XML)
8.5 Java
8.5.1 Java Components Overview
8.5.2 JavaScript
8.5.3 Java in the World Wide Web
8.5.4 Java Security
8.5.5 Distributed Objects
8.6 Accessing Legacy Applications from the Web
8.6.1 Business Requirements
8.6.2 Technical Issues
8.6.3 Security Issues
8.6.4 IBM e-business Solutions
8.7 Network News Transfer Protocol(NNTP)
8.8 Gopher
8.9 Internet2
8.9.1 Mission
8.9.2 Project Description
8.9.3 Internet2 and NGI
CHAPTER 9 Multicast and Multimedia
9.1 Multicasting
9.2 Internet Group Management Protocol(IGMP)
9.2.1 IGMP Operation
9.3 Multicast Routing Protocols
9.3.1 distance Vector Multicast Routing Protocol(DVMRP)
9.3.2 Multicast OSPF(MOSPF)
9.3.3 Protocol Independent Multicast(PIM)
9.4 The Multicast Backbone
9.4.1 MBONE Routing
9.4.2 MBONE Applications
9.5 The Real-Time Protocols RTP and RTCP
9.5.1 The Real-Time Transport Protocol(RTP)
9.5.2 The Real-Time Control Protocol
9.5.3 RTP Translators and Mixers
9.5.4 Real-Time Applications
9.6 Voice over IP
9.6.1 ITU-T Recommendation H.323
9.6.2 Voice Compression(G.723.1 and G.729)
9.6.3 The VoIP Protocol Stack
9.7 References
CHAPTER 10 Quality of Service
10.1 Why QoS
10.2 Integrated Services
10.2.1 Service Classes
10.2.2 The Reservation Protocol(RSVP)
10.2.3 The Future of Integrated Services
10.3 Differentiated Services
10.3.1 Differentiated Services Architecture
10.3.2 Using RSVP with Differentiated Services
10.3.3 Configuration and Administration of DS Components with LDAP
10.3.4 Using Differentiated Services with IPSec
10.3.5 Internet Drafts on Differentiated Services
10.4 References
CHAPTER 11 Availability,Scalability and Load Balancing
11.1 Virtual Router Redundancy Protocol(VRRP)
11.1.1 Introduction
11.1.2 VRRP Definitions
11.1.3 VRRP Overview
11.1.4 Sample Configuration
11.1.5 VRRP Packet Format
11.2 Round-Robin DNS
11.3 IMB eNetwork Dispatcher
11.3.1 eNetwork Dispatcher Components
11.3.2 Load Balancing with Weights
11.3.3 High Availability
11.3.4 Server Affinity
11.3.5 Rules-Based Balancing
11.3.6 Wide Area Network Dispatcher
11.3.7 Combining ISS and Dispatcher
11.3.8 Advisors and Custom Advisors
11.3.9 SNMP Support
11.3.10 Co-Location Option
11.3.11 ISP Configuration
11.3.12 OS/390 Parallel Sysplex Support
11.4 Alternative Solutions to Load Balancing
11.4.1 Network Address Translation
11.4.2 Encapsulation
11.4.3 HTTP Redirection
11.5 TCP/IP for OS/390 Using Workload Manager(WLM)
11.5.1 Related Terminology and Products
11.5.2 Overview of WLM
11.6 OSPF Equal-Cost Multipath
11.7 OS/390 VIPA Connection Recovery
CHAPTER 12 Directory Protocols and Distributed Computing
12.1 Introduction to the Distributed Computing Environment(DCE)
12.1.1 DCE Directory Service
12.1.2 DCE Security Service
12.1.3 DCE Threads
12.1.4 DCE Remote Procedure Call
12.1.5 Distributed Time Service
12.1.6 Distributed File Service(DFS)
12.2 The Andrew File System(AFS)
12.3 Lightweight Directory Access Protocol(LDAP)
12.3.1 LDAP-Lightweight Access to X.500
12.3.2 The LDAP Directory Server
12.3.3 Overview of LDAP Architecture
12.3.4 LDAP Models
12.3.5 LDAP Security
12.3.6 LDAP URLs
12.3.7 LDAP and DCE
12.3.8 The Directory-Enabled Networks Initiative(DEN)
12.3.9 References
PART THREE Connection Protocols and Platform Implementations
CHAPTER 13 Connection Protocols
13.1 Ethernet and IEEE 802.x Local Area Networks(LANs)
13.2 Fiber Distributed Data Interface()
13.3 Asynchronous Transfer Mode(ATM)
13.3.1 Address Resolution(ATMARP and InATMARP)
13.3.2 Classical IP over ATM
13.3.3 ATM LAN Emulation
13.3.4 Classical IP over ATM versus LAN Emulation
13.4 Data Link Switching:Switch-to-switch Protocol
13.4.1 Introduction
13.4.2 Functional Description
13.5 Serial Line IP(SLIP)
13.6 Point-to-Point Protocol(PPP)
13.6.1 Point-to-Point Encapsulation
13.7 Integrated Services Digital Network(ISDN)
13.8 TCP/IP and X.25
13.9 Frame Relay
13.9.1 Frame Format
13.9.2 Interconnect Issues
13.9.3 Data Link Layer Parameter Negotiation
13.9.4 IP over Frame Relay
13.10 PPP over SONET and SDH Circuits
13.10.1 Physical Layer
13.11 Multiprotocol Label Switching(MPLS)
13.11.1 Forwarding Methods
13.11.2 MPLS Usefulness
13.12 Enterprise Extender
13.12.1 Performance and Recovery
13.13 Multiprotocol Transport Network(MPTN)
13.13.1 Requirements for Mixed-Protocol Networking
13.13.2 MPTN Architecture
13.13.3 MPTN Methodology
13.13.4 MPTN Major Components
13.14 Multi-Path Channel+(MPC+)
13.15 S/390 Open Systems Adapter 2
13.15.1 OSA-2 Modes
13.15.2 S/390 Unit Addresses Correlate with OSA-2 LAN Port Numbers
13.15.3 Open Systems Adapter/Support Facility(OSA/SF)
13.16 Multiprotocol over ATM(MPOA)
13.16.1 Benefits of MPOA
13.16.2 MPOA Logical Components
13.16.3 MPOA Functional Components
13.16.4 MPOA Operation
13.17 Private Network-to-Network Interface(PNNI)
13.17.1 PNNI Overview
13.17.2 PNNI Routing
13.17.3 PNNI Signalling
13.18 References
CHAPTER 14 Platform Implementations
14.1 Software Operating System Implementations
14.1.1 IBM OS/390 V2R6
14.1.2 IBM TCP/IP V2R4 for VM
14.1.3 IBM OS/400 V4R3
14.1.4 IBM AIX 4.3
14.1.5 IBM TCP/IP 4.1 for OS/2
14.1.6 Functional Comparisons
14.2 IBM Hardware Platform Implementations
14.2.1 The IBM Nways Router Family
14.2.2 The IBM Multiprotocol Switch Hub Family
14.2.3 The IBM Workgroup Hubs and Workgroup Switches
14.2.4 The IBM High Performance Controllers
14.2.5 The IBM Nways Wide Area Switches
14.2.6 Functional Comparisons
APPENDIX A Special Notices
猜您喜欢
