SCNS/SCNP/SCNA Triple Certification Boot Camp

The Security Certified Network Specialist (SCNS) is the newest certification in the Security Certified Program (SCP). This certification is the starting point with the SCP, a required pre-requisite for going further towards the SCNP and SCNA certifications.

The SCNS focuses on the critical defensive technologies that are the foundation of securing network perimeters, such as firewalls, intrusion detection, and router security. This certification tests the candidate’s ability to work with, and implement, real world security technology.

The Security Certified Network Professional (SCNP) certification follows up where the SCNS ends.

The SCNP focuses on important infrastructure elements in the network, including the security of Windows and Linux systems. This certification tests the candidate’s ability to secure essential components of the network.

The Security Certified Network Architect (SCNA) certification follows the SCNP, and is designed for those candidates who wish to keep moving forward with their security careers.

The SCNA focuses on advanced areas of building trusted networks, such as digital certificates, digital signatures, and securing email, through advanced concepts, such as forensics and biometrics.

• SCNS Certification
• SCNP Certification
• SCNA certification

SCNS Certification

The Security Certified Network Specialist (SCNS) is the newest certification in the Security Certified Program (SCP). This certification is the starting point with the SCP, a required pre-requisite for going further towards the SCNP and SCNA certifications.

The SCNS focuses on the critical defensive technologies that are the foundation of securing network perimeters, such as firewalls, intrusion detection, and router security. This certification tests the candidate’s ability to work with, and implement, real world security technology.

The Tactical Perimeter Defense course is designed to provide network administrators and certification candidates with hands-on tasks on the most fundamental perimeter security technologies. The network perimeter is often the first line of defense in an organization's network, and this course covers the issues every administrator must be familiar with.

Prerequisites:

To ensure your success, we recommend that you have CompTIA's Security+ certification, or have equivalent experience. This course assumes that the reader has fundamental working knowledge of networking concepts, and foundational security knowledge.

Performance-Based Objectives:

• Describe the core issues of building a perimeter network defense system.
• Investigate the advanced concepts of the TCP/IP protocol suite.
• Secure routers through hardening techniques and configure Access Control Lists.
• Design and configure multiple firewall technologies.
• Examine and implement IPSec and Virtual Private Networks.
• Design and configure an Intrusion Detection System.
• Secure wireless networks through the use of encryption systems.

Course Content:

Lesson 1: Network Defense Fundamentals

• Network Defense
• Defensive Technologies
• Objectives of Access Control
• The Impact of Defense
• Network Auditing Concepts

Lesson 2: Advanced TCP/IP

• TCP/IP Concepts
• Analyzing the Three-way Handshake
• Capturing and Identifying IP Datagrams
• Capturing and Identifying ICMP Messages
• Capturing and Identifying TCP Headers
• Capturing and Identifying UDP Headers
• Analyzing Packet Fragmentation
• Analyzing an Entire Session

Lesson 3: Routers and Access Control Lists

• Fundamental Cisco Security
• Routing Principles
• Removing Protocols and Services
• Creating Access Control Lists
• Implementing Access Control Lists
• Logging Concepts

Lesson 4: Designing Firewalls

• Firewall Components
• Create a Firewall Policy
• Rule Sets and Packet Filters
• Proxy Server
• The Bastion Host
• The Honeypot

Lesson 5: Configuring Firewalls

• Understanding Firewalls
• Configuring Microsoft ISA Server 2006
• IPTables Concepts
• Implementing Firewall Technologies

Lesson 6: Implementing IPSec and VPNs

• Internet Protocol Security
• IPSec Policy Management
• IPSec AH Implementation
• Combining AH and ESP in IPSec
• VPN Fundamentals
• Tunneling Protocols
• VPN Design and Architecture
• VPN Security
• Configuring a VPN

Lesson 7: Designing an Intrusion Detection System

• The Goals of an Intrusion Detection System
• Technologies and Techniques of Intrusion Detection
• Host-based Intrusion Detection
• Network-based Intrusion Detection
• The Analysis
• How to Use an IDS
• What an IDS Cannot Do

Lesson 8: Configuring an IDS

• Snort Foundations
• Snort Installation
• Snort as an IDS
• Configuring Snort to Use a Database
• Running an IDS on Linux

Lesson 9: Securing Wireless Networks

• Wireless Networking Fundamentals
• Wireless LAN (WLAN) Fundamentals
• Wireless Security Solutions
• Wireless Auditing
• Wireless Trusted Networks

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SCNP Certification

The Strategic Infrastructure Security (SIS) course is designed to follow the hands-on skills utilized in the Tactical Perimeter Defense (TPD) course. The SIS course continues with hardening of strategic elements of your infrastructure, such as your Windows and Linux servers, and goes into detail on one of the most critical areas to understand in security, Cryptography.

Prerequisites:

To ensure your success, we recommend that you have completed the SCP Tactical Perimeter Defense(TPD) course. The TPD course will ensure you have the ore security concepts and skills in developing a secure perimeter for your organization.

Performance-Based Objectives:

• Detail the core issues of cryptography, including public and private key.
• Harden SuSe Linux 10 Server computers.
• Harden Windows Server 2003 computers.
• Utilize ethical hacking attack techniques.
• Secure DNS and web servers, and examine Internet and WWW security.
• Perform a risk analysis.
• Create a security policy.
• Analyze packet signatures.

Course Content:

Lesson 1: Cryptography and Data Security

• History of Cryptography
• Math and Algorithms
• Private Key Exchange
• Public Key Exchange
• Message Authentication

Lesson 2: Hardening Linux Computers

• Linux Filesystem and Navigation
• General Secure System Management
• User and Filesystem Security Administration
• Network Interface Configuration
• Security Scripting
• Useful Linux Security Tools

Lesson 3: Hardening Windows Server 2003

• Windows 2003 Infrastructure Security
• Windows 2003 Authentication
• Windows 2003 Security Configuration Tools
• Windows 2003 Resource Security
• Windows 2003 Auditing and Logging
• Windows 2003 EFS
• Windows 2003 Network Security

Lesson 4: Attack Techniques

• Network Reconnaissance
• Mapping the Network
• Sweeping the Network
• Scanning the Network
• Vulnerability Scanning
• Viruses, Worms, and Trojan Horses
• Gaining Control Over the System
• Recording Keystrokes
• Cracking Encrypted Passwords
• Revealing Hidden Passwords
• Social Engineering
• Gaining Unauthorized Access
• Hiding Evidence of an Attack
• Performing a Denial of Service

Lesson 5: Security on the Internet and the WWW

• Describing the Major Components of the Internet
• Securing DNS Services
• Describing Web Hacking Techniques
• Describing Methods Used to Attack Users

Lesson 6: Performing a Risk Analysis

• Concepts of Risk Analysis
• Methods of Risk Analysis
• The Process of Risk Analysis
• Techniques to Minimize Risk
• Continuous Risk Assessment

Lesson 7: Creating a Security Policy

• Concepts of Security Policies
• Policy Design
• Policy Contents
• An Example Policy
• Incident Handling and Escalation Procedures
• Partner Policies

Lesson 8: Analyzing Packet Signatures

• Signature Analysis
• Common Vulnerabilities and Exposures (CVE)
• Signatures
• Normal Traffic Signatures
• Abnormal Traffic Signatures

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SCNA certification

The Security Certified Network Architect (SCNA) certification follows the SCNP, and is designed for those candidates who wish to keep moving forward with their security careers.

The SCNA focuses on advanced areas of building trusted networks, such as digital certificates, digital signatures, and securing email, through advanced concepts, such as forensics and biometrics.

• Advanced Security Implementation (ASI)
• Enterprise Security Solutions (ESS)

Advanced Security Implementation (ASI)

This course is designed to provide the foundation knowledge to network administrators and security professionals who are seeking to learn about advanced security issues surrounding PKI and biometrics. Advanced Security Implementation is designed to provide network administrators and security architects with an awareness of security-related issues and the essential skills they need to implement security in a given network.

Performance-Based Objectives:

• Describe the fundamentals of trusted networks.
• Describe the concepts and principles of cryptography.
• Implement computer forensic tools.
• Identify current laws and legislation that influence computer security professionals.
• Describe biometric solutions, including fingerprint scanning, iris scanning, and vocal scanning.
• Describe strong authentication solutions and implement token-based strong authentication.
• Describe the function of digital certificates.
• Describe the implementation of digital signatures.

Course Content:

Lesson 1: Introduction to Trusted Networks

• The Need For Trusted Networks
• Authentication and Identification
• Public Key Infrastructure
• Applications of PKI

Lesson 2: Cryptography and Data Security

• History of Cryptography
• Math and Algorithms
• Private Key Exchange
• Public Key Exchange
• Message Authentication

Lesson 3: Computer Forensics

• Incident Response
• Computer Forensic Fundamentals
• Hard Disk Structure
• Forensic Tools
• Investigating Computers
• Computer Forensics Solutions

Lesson 4: Law and Legislation

• Intellectual Property
• Categories and Types of Law
• Process of Handling Evidence
• Information Security-related Laws and Acts

Lesson 5: Biometrics-Who You Are

• The Process of Biometrics Today
• Accuracy of Biometrics
• Applications of Biometrics
• Fingerprint Scanning
• Facial Scanning
• Iris and Retinal Scanning
• Vocal Scanning
• Further Biometric Technologies
• Techniques for Compromising Biometrics

Lesson 6: Strong Authentication

• Why Strong Authentication
• Authentication Tokens
• RSA SecurID
• Smart Cards

Lesson 7: Digital Certificates

• Paper Certificates and Identity Cards
• Authorities that Issue Physical Certificates
• The Importance of Protecting the Identity of the CA
• Differences between Physical and Digital Certificates
• Standards for Digital Certificates
• X.509 as an Authentication Standard
• Case Study-VeriSign's Digital Certificates

Lesson 8: Digital Signatures

• Signatures as Identifiers
• Features of Digital Signatures
• Digital Signatures in Practice
• Standards for Digital Signatures
• Digital Signatures and PKI

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Enterprise Security Solutions (ESS)

Enterprise Security Solutions is designed to provide network administrators and security architects with an awareness of security-related issues and the essential skills they need to implement security in a given network.

Performance-Based Objectives:

• Identify, describe the transition towards, and implement trusted networks.
• Implement a stand-alone Microsoft CA and a Microsoft Enterprise Root CA.
• Implement a Linux CA.
• Manage digital certificates.
• Configure local file encryption.
• Protect local files using biometrics.
• Configure and secure wireless networks.
• Secure email using PGP and S/MIME.
• Build trusted networks.

Course Content:

Lesson 1: Trusted Network Implementation

• Defended Networks of Today
• Trusted Network Services
• Cryptography Primer
• The Role of Strong Authentication
• PKI Roles and Fundamentals

Lesson 2: Planning a Trusted Network

• Required Components
• Certificate Paths
• Planning Documents
• Certificate Practices Framework

Lesson 3: Microsoft Trusted Networks

• Certificate Authority Requirements
• Major Functions of a CA Hierarchy
• Certificate Standard and Format
• Implement Microsoft Certificate Authorities
• Implement a Microsoft Enterprise Root CA

Lesson 4: Linux Certificate Authorities

• Introduction to Linux Certificate Authorities
• Certificate Authorities for Linux
• Prepare to Install a CA
• OpenLDAP
• Use CATool

Lesson 5: Managing Certificates

• Certificate Lifecycle and Certificate Management
• Create Certificates
• Process Certificate Requests
• Assign a Certificate
• Certificates on Smart Cards

Lesson 6: Local Resource Security

• Windows 2000 EFS Fundamentals
• Configure EFS
• Control EFS Use
• Store Encrypted Files on a Floppy Disk with EFS
• Secure Data with Biometrics

Lesson 7: Wireless Network Security

• Wireless Networking Fundamentals
• Wireless LAN (WLAN) Fundamentals
• Wireless Security Solutions
• Wireless Auditing
• Wireless Trusted Networks

Lesson 8: Secure Email

• Secure Email Fundamentals
• Secure Email with PGP
• S/MIME Background

Lesson 9: Building Trusted Networks

• Building Windows Domains-Enterprise of Trust
• Configuring the Enterprise CA
• Setting Up the Linux CA
• Certificate Authority Trust-Cross Trust
• Secure Email
• Certificate Revocation

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