1 - Computer Networks

[1] John Day, Patterns in Network Architecture: A Return to Fundamentals, Prentice Hall, 2008.

Luiz Cláudio

http://www.sourceinnovation.com.br/index.php/ETArch_Pilot#RINA

Índice do livro:

Table of contents for Patterns in network architecture : a return to fundamentals / John Day.
Bibliographic record and links to related information available from the Library of Congress catalog.
Note: Contents data are machine generated based on pre-publication provided by the publisher. Contents may have variations from the printed book or be incomplete or contain other coding.
Preface. The Seven Unanswered Questions
Chapter 1.Basic Concepts 1: A Theoretical Foundation
0 Introduction
1 Beginning at the Beginning
2 Levels of Abstraction
3 Model
4 Service
5 Protocol and Interface
6 Implementation
4. Specifying Protocols
4.1. Informal Specifications
4.2. Formal Description Techniques
5.0 Where to From Here?
Chapter 2. Basic Concepts: Protocol Elements
1. Introduction
2. Protocol Architecture
2.1. Elements of a Protocol
2.1.1. Protocol
2.1.2. Associations, Connections, Flows and Bindings
2.1.3. Interfaces
2.1.4. Data Units
2.1.5. Constructing Protocols
2.1.6. The Size of PDUs
2.1.7. Mechanism and Policy
2.1.8. QoS vs NoS
3. A Short Catalog of Data Transfer Mechanisms
4. Phases of Operation
4.1. The Enrollment Phase
4.2. The Establishment or Synchronization Phase
4.3. The Data Transfer Phase
5. Conclusions
Chapter 3 Basic Concepts: Patterns in Protocols
1. Introduction
2. The Two Major Architecture Paradigms
2.1 The Layered Model
2.2 The Beads on a String Model
3. The Connectionless/Connection Debate
3.1 Background
3.2 Looking for a Synthesis
4. The Types of Mechanisms
5. How Many PDUs in a Protocol?
6. The Types of Protocols
7. The Architecture of Data Transfer PMs
8. Finding a Synthesis: The Hard Part.
9. Conclusions
Appendix - Outline for Gedanken Experiment on Separating Mechanism and Policy
Chapter 4: Stalking the Upper Layer Architecture
1. Introduction
2. A Bit of History
2.1. The Upper Layer(s) of the ARPANet
2.1.1. Early Elegance: Telnet, FTP, and RJE
2.1.2. What Was Learned
2.2. The OSI Attempt or ?Green Side Up?
2.2.1. Session, Presentation, and Application
2.2.2. What Was Learned
2.3 Network Management
2.4 HTTP and the Web
2.5 Directory or Name Resolution Protocols
2.5.1 Name Resolution Systems
2.5.2 Name Resolution System Structures
3. What Distinguishes the Upper Layers
3.1. Semantic Significance.
3.2. Location Independence
4. Conclusions
Chapter 5: Background on Naming and Addressing
1. Introduction
2. Why do we need Naming and Addressing?
3. How the Problem Arose
4. Background on Naming and Addressing
4.1. Foundations of Mathematics and Naming
4.2. Naming and Addressing in Telephony
4.3. Naming in Operating Systems
4.4. X.25 and the ITU
4.5. The Evolution of Addressing in the Internet: Early IP
4.6. OSI and NSAPs
4.7. The Continued Evolution of Addressing in the Internet: CIDR and IPv6
4.8. Addressing in IPv6
4.8.1. The Various Address Types
4.8.2. IPv6 Unicast Addresses
4.9. Looking Back over IPv6
4.10. "Upper Layer" or Application Addressing in OS
4.11. URI, URL, URN, etc. Upper Layer Addressing in the Internet
5. Conclusions or What Have We Learned
Chapter 6: Basic Concepts: Layers
1. Introduction
2. Putting Protocols Together
3. Listening to the Problem
3.1 Introduction
3.2. Communications within a Single System
3.3. Communications between Two Systems
3.4. Simultaneous Communications Between Two Systems
3.5. Communications with N Systems
3.6 Communication with N Systems Cheaply
3.7 Initial Conclusions
4. Taking Stock
5. The Network IPC Architecture (NIPCA)
6. Organizing Layers
7. Conclusions
Chapter 7 A Recursive IPC Model of Networking
1. Introduction
2. Basic Structure
2.1 Definitions
2.2 Description of the Basic System
2.2.1 Introduction
2.2.2 Basic Structures and their Principles
2.2.3 The Structure of Applications and Protocols
2.2.4 Application-Protocol-Machines
3. Naming Concepts for (N)-DIFs and Applications
3.1 Definitions
3.2 Application Naming
4.0 The (N)-Distributed IPC Facility
4.1 Definitions
4.2 The (N)-IPC-Process
4.3The (N)-IPC-APM
4.3.1 The IPC API
4.3.2 The EFCP Protocol
4.3.3 Relaying and Multiplexing Task (RMT)
4.3.4 PDU Protection
4.4 The IPC Management Task
4.4.1 (N)-IPC Access Protocol (IAP)
4.4.2 Resource Information Exchange Protocol (RIEP)
4.4.3 Resource Information Base
4.4.4 The IPC Management Task
4.5 Network Management Protocol and Management Architecture
5.0 The Nature of Layers
6.0 Operation of the DIF
6.1 Adding a new member to a (N)-DIF.
6.2 Creating a New DIF
6.3 Data Transfer
7.0 Identifiers in a (N)-DIF
7.1 The (N)-Port-id
7.2 Application Process Names
7.3 (N)-Addreses
7.4 Taking Stock
8.0 IPC-Facilities
8.1 IPC Structures
8.2 Multiple (N)-DIFs of the Same Rank
8.3 Implications for Security
9. Conclusion
Chapter 8 Making Addresses Topological
1. Introduction
2. General Properties of Addressing
2.1. Names and Addresses
3. Introducing Topology to Addressing.
3.1Definitions
3.2. Topologies for Addressing
4. The Role of Hierarchy in Addressing
4.1. The Hierarchy of Layers
4.2. The Hierarchical Topology of Address Spaces
4.3. The Hierarchy of Networks
4.4 Melding Address Spaces and the Hierarchy of Layers
5. Hierarchical Addressing Architecture
5.1 Single Layer Address Topology
5.2 Single Layer Hierarchical Address Topology
5.3 Address Topology for a Hierarchy of Layers
5.4 Addressing Topologies for Multiple Hierarchies of Layers.
5.5 Modeling the Public Internet
6.0 Conclusion
Chapter 9 Considering Multihoming, Multicast and Mobility
1. Introduction
2. Multihoming
3. Multicast Architecture
3.1 Introduction to the Multicast Problem
3.2 The Multicast Model
3.2 Multicast ?Addressing?
3.3 Multicast Distribution
3.4 Sentential Naming Operations and their Resolution
3.4.1 Multicast Distribution in a Recursive Architecture
3.4.2 Multiplexing multicast groups
3.5 Reliable Multicast
4.0 Mobility
4.1 Mobility in IP and Cellular Networks
4.2 Mobility in NIPCA
4.3 Ad Hoc Mobile Networking
4.4 Mobile Applications
5. Conclusions
Chapter 10 Taking Stock
1. Introduction
2. Consolidation and the Next Generation
3. How Did This Happen
4. The Importance of Theory
5. Finding a New Path
6. The High Points
Library of Congress Subject Headings for this publication:
Computer network architectures.
Computer networks -- Design.
Computer networks -- Philosophy.
Internet -- History.