Security Parameter Index
About: Security Parameter Index is a research topic. Over the lifetime, 437 publications have been published within this topic receiving 9524 citations.
Papers published on a yearly basis
01 Aug 1995
TL;DR: This document describes an updated version of the Encapsulating Security Payload (ESP) protocol, which is designed to provide a mix of security services in IPv4 and IPv6.
Abstract: This document describes an updated version of the Encapsulating Security Payload (ESP) protocol, which is designed to provide a mix of security services in IPv4 and IPv6. ESP is used to provide confidentiality, data origin authentication, connectionless integrity, an anti-replay service (a form of partial sequence integrity), and limited traffic flow confidentiality. This document obsoletes RFC 2406 (November 1998). [STANDARDS-TRACK]
01 Aug 1995
TL;DR: This document describes an updated version of the IP Authentication Header (AH), which is designed to provide authentication services in IPv4 and IPv6, and obsoletes RFC 2402 (November 1998).
Abstract: This document describes an updated version of the IP Authentication Header (AH), which is designed to provide authentication services in IPv4 and IPv6. This document obsoletes RFC 2402 (November 1998). [STANDARDS-TRACK]
25 Mar 2008
TL;DR: In this paper, a pre-shared key is preshared between the client and the server, and a pair of IPSec ESP SAs between the clients and the servers is established without shared key negotiation, wherein traffic data cryptographic algorithms are determined.
Abstract: Methods in OMA SEC_CF for providing security services to traffic over UDP between a client and a server and the relevant entities are provided. A pre-shared key is pre-shared between the client and the server. A pair of IPSec ESP SAs between the client and the server is established without shared key negotiation, wherein traffic data cryptographic algorithms are determined. Traffic data security keys are derived from the pre-shared key via the determined traffic data cryptographic algorithms. Then, data of the traffic can be provided with security services with the traffic data security keys through use of IPSec ESP.
01 Jan 1999
TL;DR: This book discusses the architecture, design, implementation, and use of IPSec, a suite of protocols that seemlessly integrate security into IP and provide data source authentication, data integrity, confidentiality, and protection against replay attacks.
Abstract: From the Book: PREFACE: Preface The Internet connects millions of people around the world and allows for immediate communication and access to a seemingly limitless amount of information. Data, video, voice, almost every single type of communication, travels across the Internet. Some of this communication is private. The language of the Internet is IP, the Internet Protocol. Everything can, and does, travel over IP. One thing IP does not provide, though, is security. IP packets can be forged, modified, and inspected en route. IPSec is a suite of protocols that seemlessly integrate security into IP and provide data source authentication, data integrity, confidentiality, and protection against replay attacks. With IPSec the power of the Internet can be exploited to its fullest potential: Communication is the lifeblood of business. Without a guarantee that a customer?s order is authentic it is difficult to bill for a service. Without a guarantee that confidential information will remain confidential it is impossible for businesses to grow and partnerships to be formed. Unless there is a guarantee that records and information can remain confidential, the health care industry cannot utilize the Internet to expand its services and cut its costs. Personal services, such as home banking, securities trading, and insurance can be greatly simplified and expanded if these transactions can be done securely. The growth of the Internet is truly dependent on security and the only technique for Internet security that works with all forms of Internet traffic is IPSec. IPSec runs over the current version of IP, IPv4, and also the next generationofIP, IPv6. In addition, IPSec can protect any protocol that runs on top of IP such as TCP, UDP, and ICMP. IPSec is truly the most extensible and complete network security solution. IPSec enables end-to-end security so that every single piece of information sent to or from a computer can be secured. It can also be deployed inside the network to form Virtual Private Networks where two distinct and disparate networks become one by connecting them with a tunnel secured by IPSec. This book discusses the architecture, design, implementation, and use of IPSec. Each of the protocols in the suite commonly referred to as "IPSec" (the Authentication Header, the Encapsulating Security Payload, and the Internet Key Exchange) is examined in detail. Common deployments of IPSec are discussed and future work on problem areas is identified. This book is intended for an audience with an interest in network security as well as those who will be implementing secure solutions using IPSec, including building VPNs, e-commerce, and end-to-end security. Cryptography and networking basics are discussed in early chapters for those who are neither cryptography nor networking professionals.Organization This book is split into three parts: overview, detailed analysis, and implementation and deployment issues. Part One is comprised of the first three chapters. Chapter One discusses the basic cryptographic building blocks upon which IPSec is built. Symmetric and public key cryptography and their use for both encryption and authentication are explained. Chapter Two discusses the basics of TCP/IP and the advantages and disadvantages of implementing security at various layers in the TCP/IP protocol stack. Chapter Three is an overview of IPSec. The IPSec Architecture is discussed and each of the protocolsNAH, ESP, and IKENand their interrelationship is touched upon. Part Two consists of chapters Four through Seven. Chapter Four is a detailed discussion of the IPSec Architecture. The basic concepts of IPSec, the different modes, selectors, security associations, and security policy are discussed. Chapters Five and Six discuss in detail the two protocols used to protect IP, the Encapsulating Security Payload and the Authentication Header, respectively. Construction and placement of protocol headers is discussed as are input and output processing rules. Chapter Seven is an in-depth discussion of the Internet Key Exchange. The different phases of negotiation, the different exchanges, the various authentication methods, and all the negotiable options are explained. Part Three is Chapters Eight through Eleven. Chapter Eight is a discussion of policy and its implication on IPSec. An architecture to support IPSec policy and a policy module is presented. Chapter Nine presents the issues surrounding the implementation of IPSec in a TCP/IP stack, in a platform-independent manner. Chapter Ten discusses different IPSec deployments: end-to-end security, virtual private networks, and the "road warrior" situation. Chapter Eleven discusses future work items for the IPSec community. These include integrating network layer compression with IPSec, extending IPSec to multicast traffic, issues associated with key recovery, IPSec interaction with the Layer Two Tunneling Protocol (L2TP), and public-key infrastructures.
01 Jan 2004
TL;DR: This document describes the use of Advanced Encryption Standard (AES) Counter Mode, with an explicit initialization vector, as an IPsec Encapsulating Security Payload (ESP) confidentiality mechanism.
Abstract: This document describes the use of Advanced Encryption Standard (AES) Counter Mode, with an explicit initialization vector, as an IPsec Encapsulating Security Payload (ESP) confidentiality mechanism.
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