Designing security for Microsoft SQL Server 2005 (MOC 2787)

Course overview

This 2-day instructor-led course enables database administrators who work with enterprise environments to design security for database systems using Microsoft SQL ServerT 2005. The course emphasizes that students should think about the whole environment, which includes business needs, regulatory requirements, network systems, and database considerations during design. Students will also learn how to monitor security and respond to threats.

Prerequisites

Before attending this course, students must: 

• Have basic knowledge of security protocols and how they work. For example, Windows NT LAN Manager (NTLM) or Kerberos
• Have basic knowledge of public key infrastructure (PKI) systems. For example, how public and private keys work, strengths and weaknesses, and what they are used for
• Have working knowledge of network architectures and technologies. For example, how a firewall works, how IPSec works in a networking context, and common vulnerability points
• Have working knowledge of Active Directory directory service. For example, security models, policies, group policy objects (GPOs), and organizational units (OUs)
• Be able to design a database to third normal form (3NF) and know the tradeoffs when backing out of the fully normalized design (denormalization) and designing for performance and business requirements in addition to being familiar with design models, such as Star and Snowflake schemas
• Have strong monitoring and troubleshooting skills
• Have experience creating Microsoft Office Visio drawings or have equivalent knowledge
• Have strong knowledge of the operating system and platform. That is, how the operating system integrates with the database, what the platform or operating system can do, interaction between the operating system and the database
• Have basic knowledge of application architecture. That is, different methods of implementing security in an application, how applications can be designed in three layers, what applications can do, the interaction between applications and the database, and interactions between the database and the platform or operating system
• Have knowledge about network security tools. For example, sniffer and port scanning. Must understand how they should be used
• Be able to use patch management systems
• Have knowledge of common attack methods. For example, buffer overflow, and replay attacks
• Be familiar with SQL Server 2005 features, tools, and technologies
• Have a Microsoft Certified Technology Specialist: Microsoft SQL Server 2005 credential or equivalent experience

It is recommended, but not required, that students have completed: 

• Writing Queries Using Microsoft SQL Server 2005 Transact-SQL (MOC 2778)
• Implementing a Microsoft SQL Server 2005 Database (HC602S)
• Maintaining a Microsoft SQL Server 2005 Database (HC595S)

Audience

• This course is intended for current professional database administrators who have three or more years of on-the-job experience administering SQL Server database solutions in an enterprise environment

Next steps

• No Microsoft Certified Professional exams are associated with this course currently

Course outline

Module 1: Introduction to Designing SQL Server Security

• Principles of Database Security 
• Methodology for Designing a SQL Server Security Policy
• Monitoring SQL Server Security

Module 2: Designing a SQL Server Systems Infrastructure Security Policy 

• Integrating with Enterprise Authentication Systems
• Developing Windows Server-Level Security Policies
• Developing a Secure Communication Policy
• Defining SQL Server Security Monitoring Standards

Module 3: Designing Security Policies for Instances and Databases 

• Designing an Instance-Level Security Policy
• Designing a Database-Level Security Policy
• Designing an Object-Level Security Policy
• Defining Security Monitoring Standards for Instances and Databases

Module 4: Integrating Data Encryption into a Database Security Design

• Securing Data by Using Encryption and Certificates
• Designing Data Encryption Policies
• Determining a Key Storage Method

Module 5: Designing a Security Exceptions Policy 

• Analyzing Business and Regulatory Requirements
• Determining the Exceptions and their Impact

Module 6: Designing a Response Strategy for Threats and Attacks 

• Designing a Response Policy for Virus and Worm Attacks
• Designing a Response Policy for Denial-of-Service Attacks
• Designing a Response Policy for Internal and SQL Injection Attacks