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软件定义网络(影印版)

软件定义网络(影印版)

作者:(美)Thomas D. Nadeau,(美)Ken Gray 著

出版社:人民邮电出版社

出版时间:2014-01-01

ISBN:9787115335746

定价:¥69.00

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内容简介
  软件定义网络(SDN)是由软件定义、驱动,并且可编程的网络。《软件定义网络(影印版)》是SDN的全面、权威指南,详细讲解了SDN的新兴定义、协议和标准。两位资深的工程师在书中为读者讲解了构建软件定义网络(即使用软件在应用和底层网络设施之间进行双向通信)所必需的知识。《软件定义网络(影印版)》共分为13章,分别讲解了OpenFlow模型和集中网络控制的当前进展;分布式控制和集中控制、包括数据平面生成;商业控制器和开源控制器的结构和功能;网络可编程性的现有技术;以桌面为中心的模型到高度分布式模型在内的现代数据中心;网络功能虚拟化和服务链的连接实例;构建和维护SDN网络拓扑;用于控制器、应用和生态系统的理想SDN框架等知识。《软件定义网络(影印版)》不依赖于具体厂商的产品,除了介绍与带宽调度和操作、输入流量、触发行为等相关的SDN用例外,还展示了一些与大数据、数据中心覆盖和网络功能虚拟化等相关的有趣用例。《软件定义网络(影印版)》适合网络设计/运维人员、从事SDN研究的科研院所、高效的先关从业人员阅读。
作者简介
  Thomas D. Nadeau是Juniper公司平台与服务部门CTO办公室的一名杰出的工程师,负责软件定义网络和网络可编程性相关的前沿技术研究。Thomas毕业于新罕布什尔大学,获得计算机科学学士学位,之后从洛厄尔的马萨诸塞大学获得硕士学位,而且从2000年起,他开始在该校担任计算机科学专业的兼职教授,主要讲解数据通信课程。他还在几个著名网络会议的技术委员会任职,负责提供技术指导,并定期进行演讲。 Ken Gray是Juniper公司的一名杰出的工程师,在Juniper公司平台系统部门负责技术战略和创新,主要关注核心路由与软件定义/驱动网络的新兴领域。在此之前,Ken在1995年到2011年先后以不同角色供职于Cisco公司,在Cisco公司的最后头衔是首席工程师,负责高端路由平台和操作系统的开发与部署。从1984年到1995年,Ken以网络极客的身份供职于一家公司,负责大型公共网络和私有网络的设计,该公司后来成为Verizon。Ken从马里兰大学获得了电信专业的电子工程硕士学位。
目录
Table of Contents Foreword by David Meyer ix
Foreword by David Ward xi
Prefacex vii 1. Introduction  2. Centralized and Distributed Control and Data Planes 
 Introduction 
  Evolution versus Revolution 
 What Do They Do? 
  The Control Plane 
  Data Plane 
  Moving Information Between Planes 
  Why Can Separation Be Important? 
 Distributed Control Planes 
  IP and MPLS 
  Creating the IP Underlay 
  Convergence Time 
  Load Balancing 
  High Availability 
  Creating the MPLS Overlay 
  Replication 
 Centralized Control Planes 
  Logical Versus Literal 
  ATM/LANE 
  Route Servers 
 Conclusions  3. OpenFlow 
 Introduction 
  Wire Protocol 
  Replication 
  FAWG (Forwarding Abstraction Workgroup) 
  Config and Extensibility 
  Architecture 
 Hybrid Approaches 
  Ships in the Night 
  Dual Function Switches 
 Conclusions  4. SDN Controllers 
 Introduction 
 General Concepts 
  VMware 
  Nicira 
  VMware/Nicira 
  OpenFlow-Related 
  Mininet 
  NOX/POX 
  Trema 
  Ryu 
  Big Switch Networks/Floodlight 
 Layer 3 Centric 
  L3VPN 
  Path Computation Element Server 
 Plexxi 
  Plexxi Affinity 
 Cisco OnePK 
  Relationship to the Idealized SDN Framework 
 Conclusions  5. Network Programmability 
 Introduction 
 The Management Interface 
 The Application-Network Divide 
  The Command-Line Interface 
  NETCONF and NETMOD 
  SNMP 
 Modern Programmatic Interfaces 
  Publish and Subscribe Interfaces 
  XMPP 
  Google’s Protocol Buffers 
  Thrift 
  JSON 
 I2RS 
 Modern Orchestration 
  OpenStack 
  CloudStack 
  Puppet 
  Conclusions  6. Data Center Concepts and Constructs 
 Introduction 
 The Multitenant Data Center 
 The Virtualized Multitenant Data Center 
  Orchestration 
  Connecting a Tenant to the Internet/VPN 
  Virtual Machine Migration and Elasticity 
  Data Center Interconnect (DCI) 
  Fallacies of Data Center Distributed Computing 
  Data Center Distributed Computing Pitfalls to Consider 
 SDN Solutions for the Data Center Network 
  The Network Underlay 
 VLANs 
 EVPN 
  Locator ID Split (LISP) 
 VxLan 
 NVGRE 
  OpenFlow 
  Network Overlays 
  Network Overlay Types 
 Conclusions  7. Network Function Virtualization 
 Introduction 
 Virtualization and Data Plane I/O 
  Data Plane I/O 
  I/O Summary 
 Services Engineered Path 
 Service Locations and Chaining 
  Metadata 
  An Application Level Approach 
  Scale 
 NFV at ETSI 
 Non-ETSI NFV Work 
  Middlebox Studies 
  Embrane/LineRate 
  Platform Virtualization 
 Conclusions  8. Network Topology and Topological Information Abstraction 
 Introduction 
 Network Topology 
 Traditional Methods 
 LLDP 
 BGP-TE/LS 
  BGP-LS with PCE 
 ALTO 
  BGP-LS and PCE Interaction with ALTO 
 I2RS Topology 
  Conclusions  9. Building an SDN Framework 
 Introduction 
 Build Code First; Ask Questions Later... 
 The Juniper SDN Framework 
 IETF SDN Framework(s) 
  SDN(P) 
  ABNO 
 Open Daylight Controller/Framework 
  API 
  High Availability and State Storage 
  Analytics 
 Policy 
 Conclusions  10. Use Cases for Bandwidth Scheduling, Manipulation, and lendaring 
 Introduction 
 Bandwidth Calendaring 
  Base Topology and Fundamental Concepts 
  OpenFlow and PCE Topologies 
  Example Configuration 
  OpenFlow Provisioned Example 
  Enhancing the Controller 
  Overlay Example Using PCE Provisioning 
  Expanding Your Reach: Barbarians at the Gate 
 Big Data and Application Hyper-Virtualization for Instant CSPF 
 Expanding Topology 
 Conclusions  11. Use Cases for Data Center Overlays, Big Data, and Network Function Virtualization 
 Introduction 
 Data Center Orchestration 
  Creating Tenant and Virtual Machine State 
  Forwarding State 
  Data-Driven Learning 
  Control-Plane Signaling 
  Scaling and Performance Considerations 
 Puppet (DevOps Solution) 
 Network Function Virtualization (NFV) 
  NFV in Mobility 
 Optimized Big Data 
 Conclusions  12. Use Cases for Input Traffic Monitoring, Classification, and  Triggered Actions 
 Introduction 
 The Firewall 
 Firewalls as a Service 
 Network Access Control Replacement 
 Extending the Use Case with a Virtual Firewall 
 Feedback and Optimization 
 Intrusion Detection/Threat Mitigation 
 Conclusions  13. Final Thoughts and Conclusions 
 What Is True About SDN? 
  Economics 
  SDN Is Really About Operations and Management 
 Multiple Definitions of SDN 
 Are We Making Progress Yet?  Index   
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