Core security patterns : best practices and strategies for J2EE, Web services, and identity management

Praise for Core Security Patterns Java provides the application developer with essential security mechanisms and support in avoiding critical security bugs common in other languages. A language, however, can only go so far. The developer must understand the security requirements of the application and how to use the features Java provides in order to meet those requirements. Core Security Patterns addresses both aspects of security and will be a guide to developers everywhere in creating more secure applications. --Whitfield Diffie, inventor of Public-Key Cryptography A comprehensive book on Security Patterns, which are critical for secure programming. --Li Gong, former Chief Java Security Architect, Sun Microsystems, and coauthor of Inside Java 2 Platform Security As developers of existing applications, or future innovators that will drive the next generation of highly distributed applications, the patterns and best practices outlined in this book will be an important asset to your development efforts. --Joe Uniejewski, Chief Technology Officer and Senior Vice President, RSA Security, Inc. This book makes an important case for taking a proactive approach to security rather than relying on the reactive security approach common in the software industry. --Judy Lin, Executive Vice President, VeriSign, Inc. Core Security Patterns provides a comprehensive patterns-driven approach and methodology for effectively incorporating security into your applications. I recommend that every application developer keep a copy of this indispensable security reference by their side. --Bill Hamilton, author of ADO.NET Cookbook, ADO.NET in a Nutshell, and NUnit Pocket Reference As a trusted advisor, this book will serve as a Java developers security handbook, providing applied patterns and design strategies for securing Java applications. --Shaheen Nasirudheen, CISSP,Senior Technology Officer, JPMorgan Chase Like Core J2EE Patterns, this book delivers a proactive and patterns-driven approach for designing end-to-end security in your applications. Leveraging the authors strong security experience, they created a must-have book for any designer/developer looking to create secure applications. --John Crupi, Distinguished Engineer, Sun Microsystems, coauthor of Core J2EE Patterns Core Security Patterns is the hands-on practitioners guide to building robust end-to-end security into J2EE (TM) enterprise applications, Web services, identity management, service provisioning, and personal identification solutions. Written by three leading Java security architects, the patterns-driven approach fully reflects todays best practices for security in large-scale, industrial-strength applications. The authors explain the fundamentals of Java application security from the ground up, then introduce a powerful, structured security methodology; a vendor-independent security framework; a detailed assessment checklist; and twenty-three proven security architectural patterns. They walk through several realistic scenarios, covering architecture and implementation and presenting detailed sample code. They demonstrate how to apply cryptographic techniques; obfuscate code; establish secure communication; secure J2ME (TM) applications; authenticate and authorize users; and fortify Web services, enabling single sign-on, effective identity management, and personal identification using Smart Cards and Biometrics. Core Security Patterns covers all of the following, and more: What works and what doesnt: J2EE application-security best practices, and common pitfalls to avoid Implementing key Java platform security features in real-world applications Establishing Web Services security using XML Signature, XML Encryption, WS-Security, XKMS, and WS-I Basic security profile Designing identity management and service provisioning systems using SAML, Liberty, XACML, and SPML Designing secure personal identification solutions using Smart Cards and Biometrics Security design methodology, patterns, best practices, reality checks, defensive strategies, and evaluation checklists End-to-end security architecture case study: architecting, designing, and implementing an end-to-end security solution for large-scale applications

Foreword by Judy Lin. Foreword by Joe Uniejewski. Preface. Acknowledgments. About the Authors. I. INTRODUCTION. 1. Security by Default. Business Challenges Around Security What Are the Weakest Links? The Impact of Application Security The Four W's Strategies for Building Robust Security Proactive and Reactive Security The Importance of Security Compliance The Importance of Identity Management The Importance of Java Technology Making Security a "Business Enabler" Summary References 2. Basics of Security. Security Requirements and Goals The Role of Cryptography in Security The Role of Secure Sockets Layer (SSL) The Importance and Role of LDAP in Security Common Challenges in Cryptography Threat Modeling Identity Management Summary References II. JAVA SECURITY ARCHITECTURE AND TECHNOLOGIES. 3. The Java 2 Platform Security. Java Security Architecture Java Applet Security Java Web Start Security Java Security Management Tools J2ME Security Architecture Java Card Security Architecture Securing the Java Code Summary References 4. Java Extensible Security Architecture and APIs. Java Extensible Security Architecture Java Cryptography Architecture (JCA) Java Cryptographic Extensions (JCE) Java Certification Path API (CertPath) Java Secure Socket Extension (JSSE) Java Authentication and Authorization Service (JAAS) Java Generic Secure Services API (JGSS) Simple Authentication and Security Layer (SASL) Summary References 5. J2EE Security Architecture. J2EE Architecture and Its Logical Tiers J2EE Security Definitions J2EE Security Infrastructure J2EE Container-Based Security J2EE Component/Tier-Level Security J2EE Client Security EJB Tier or Business Component Security EIS Integration Tier-Overview J2EE Architecture--Network Topology J2EE Web Services Security-Overview Summary References III. WEB SERVICES SECURITY AND IDENTITY MANAGEMENT. 6. Web Services Security--Standards and Technologies. Web Services Architecture and Its Building Blocks Web Services Security--Core Issues Web Services Security Requirements Web Services Security Standards XML Signature XML Encryption XML Key Management System (XKMS) OASIS Web Services Security (WS-Security) WS-I Basic Security Profile Java-Based Web Services Security Providers XML-Aware Security Appliances Summary References 7. Identity Management Standards and Technologies. Identity Management--Core Issues Understanding Network Identity and Federated Identity Introduction to SAML SAML Architecture SAML Usage Scenarios The Role of SAML in J2EE-Based Applications and Web Services Introduction to Liberty Alliance and Their Objectives Liberty Alliance Architecture Liberty Usage Scenarios The Nirvana of Access Control and Policy Management Introduction to XACML XACML Data Flow and Architecture XACML Usage Scenarios Summary References IV. SECURITY DESIGN METHODOLOGY, PATTERNS, AND REALITY CHECKS. 8. The Alchemy of Security Design--Methodology, Patterns, and Reality Checks. The Rationale Secure UP Security Patterns Security Patterns for J2EE, Web Services, Identity Management, and Service Provisioning Reality Checks Security Testing Adopting a Security Framework Refactoring Security Design Service Continuity and Recovery Conclusion References V. DESIGN STRATEGIES AND BEST PRACTICES. 9. Securing the Web Tier--Design Strategies and Best Practices. Web-Tier Security Patterns Best Practices and Pitfalls References 10. Securing the Business Tier--Design Strategies and Best Practices. Security Considerations in the Business Tier Business Tier Security Patterns Best Practices and Pitfalls References 11. Securing Web Services--Design Strategies and Best Practices. Web Services Security Protocols Stack Web Services Security Infrastructure Web Services Security Patterns Best Practices and Pitfalls Best Practices References 12. Securing the Identity--Design Strategies and Best Practices. Identity Management Security Patterns Best Practices and Pitfalls References 13. Secure Service Provisioning--Design Strategies and Best Practices. Business Challenges User Account Provisioning Architecture Introduction to SPML Service Provisioning Security Pattern Best Practices and Pitfalls Summary References VI. PUTTING IT ALL TOGETHER. 14. Building End-to-End Security Architecture--A Case Study. Overview Use Case Scenarios Application Architecture Security Architecture Design Development Testing Deployment Summary Lessons Learned Pitfalls Conclusion References VII. PERSONAL IDENTIFICATION USING SMART CARDS AND BIOMETRICS. 15. Secure Personal Identification Strategies Using Smart Cards and Biometrics. Physical and Logical Access Control Enabling Technologies Smart Card-Based Identification and Authentication Biometric Identification and Authentication Multi-factor Authentication Using Smart Cards and Biometrics Best Practices and Pitfalls References Index.