TN-395: Internet Protocol Version 6 (IPv6)

Course Overview:

In this course, students learn the IPv6 protocols & processes & describe how IPv6 is supported in the latest versions of Microsoft Windows operating system.  Students will also learn how to describe transition technologies that allow you to deploy IPv6 in IPv4 intranets & across the IPv4 Internet.

Attendees to TN-395: Internet Protocol Version 6 (IPv6) will receive TechNow approved course materials and expert instruction.

Dates/Locations:

No Events

Duration: 5 Days

Course Objectives:

  • Learn how to create IPv6 networks with Cisco Systems products
  • Supplement your IPv6 course with a self-study guide based on the course materials
  • Understand practical applications of IPv6 through a solutions-oriented writing approach
  • Increase comprehension & retention through chapter tools like objectives, summaries, scenarios & review questions
  • Features & benefits of IPv6
  • IPv6 in the Windows Server2003 Family
  • IPv6 addressing & the IPv6 header
  • Internet Control Message Protocol for IPv6 (ICMPv6)
  • Neighbor & multicast listener discovery
  • Address auto configuration
  • IPv6 name resolution & routing
  • Coexistence & migration
  • IPv6 mobility

Prerequisites:

  • Students should have a working knowledge of a Windows OR Unix Operating system. 
  • In addition, the student should also have basic end-user skills in TCP/IP.

 

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TN-855: Advanced and In-Depth ICD 503 RMF, Controls, and Assessments

Course Overview:

This course is very hands-on with respect to SP 800-53 controls as related to ICD-503, leveraging experience with DCD 6/3, and incorporating a broad array of technologies found in the field.  Assessors and Auditors have to face many technologies that are not part of the main stream.  TechNow has gone to great efforts to build a very broad, comprehensive, and complex lab to simulate many scenarios and architectures.  Technologies such as a network appliance that is not a typical infrastructure product, a radio/satellite communications device, or many other technologies that build up a weapon system.  Students learn how controls are integrated into many different devices and how they fit in the overall security architecture of monitoring, reporting, and compliance testing.

Directly discussed are overlays for different requirements i.e.: tactical, medical, network type: JWICS, SIPR; IC or AF.  TechNow has developed a funnel concept to overlays to exemplify the encapsulation of a control within different requirements.  TechNow has over 15 years experience in Trusted Solaris/Trusted Extensions and labeled security.  Cross Domain overlays are presented that fits the work flow of an assesor.  PII overlays and any overlays that an organization uses and can be made available are also presented.  

This course allows the student to leverage years of experience in DoD DCD 6/34 for transition to the Risk Management Framework (RMF) applied to the Intelligence Community as mandated by ICD 503.  Utilizing NIST SP 800-37 to establish a baseline of RMF knowledge, the student learns how to integrate the NIST pubs to provide cohesive information assurance architectures and compliance.  ICD 503 scorecard evaluations are integral in demonstrating a successful ICD 503 compliance program.  TechNow's ICD 503 course provides students with the skill to assess security programs and evaluate ICD 503 compliance to build an improvement and sustainable program for score consistency.  TechNow's instructors have unparralleled expertise in federal compliance initiatives, and we bring this expertise instructing students on the complete life cycle of RMF.

More than a simple checklist, we instruct students not only how to validate essential security controls, programs, and metrics, but that they are operating effectively.  The student leaves the course knowing how to: identify gaps where controls, programs, or metrics are incomplete, missing or ineffective, and provide actionable findings and recommend remediation strategies.  Students learn to internalize NIST pubs to meaningul and effective IA guidelines and work with the Body of Evidence templates which include: Risk Assessment Report (RAR), Systems Security Plan (SSP), Security Assessment Report (SAR), and Plans of Action and Milestone (POAM).

TechNow training materials are aligned with the most recent set of National Institute of Standards and Technology (NIST), Committee on National Security Systems (CNSS), and Office of the Director of National Intelligence (ODNI) policies standards, processes, policies and instructions to be addressed/explained include ICD 503, ICS 503-1, ICS 500-16, ICS 500-18, ICS 500-27, ICD 502, NIST SP 800-37, NIST SP 800-30, NIST SP 800-53, NIST SP 800-53A, NIST SP 800-137, NIST SP 800-47, CNSSP 22, CNSSI 1253, and CNSSI 4009.

A majority of time is spent on in-depth compliance review of NIST SP 800-53 controls.  Instruction discusses which method should be used to test and validate each security control and what evidence should be gathered.  This course is not theory or death by power point.  Real scenarios are presented as exercises.  A complete live cyber range simulating the IC is utilized for hands-on labs for techniques of validating and documenting compliance of NIST SP 800-53 controls as related to ICD 503.

Date/Locations:

No Events

Duration: 5 days

Course Objectives:

  • Establish a baseline of RMF knowledge
  • Validate essential security controls, programs, and metrics
  • DoD DCD 6/3 to ICD 503 Transition
  • Lab Environtment and the Cyber Range
  • Overlays: Tactical, Medical, Network type(JWICS, SIPR; IC or AF), Cross Domain, PII
  • Risk Assessment Report (RAR)
  • Systems Security Plan (SSP)
  • Security Assessment Report (SAR)
  • Plans of Action and Milestone (POAM)

Prerequisites:

Experience in the field of auditing and assesments.

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TN-345: Python for Penetration Testers

 

Course Overview:

 

This Python for Penetration Testing course is designed to give you the skills you need for maintaining or developing Python Penetration Testing tools oriented towards offensive operations.  We have a suite of courses and certifications that help  understand a problem, this course prepares the student to rapidly develop prototype code to attack or defend against it.

The course concludes with a Capture the Flag event that will test both your ability to apply your new tools and coding skills in a Python Penetration Testing challenge.

This course is not intended to be an Advanced Python course, but to exemplify penetration techniques utilizing Python.  The course covers Threading, Sockets, OOP, and third party modules that facilitate the offensive operator’s objective.

This course utilizes the “Violent Python” text book.

Attendees to TN-345: Python for Penetration Testers Class will receive TechNow approved course materials and expert instruction.

Dates/Locations:

No Events

Duration: 3 Days

Course Objectives:

  • Python Lanuage Refress
  • Network Sockets
  • Exception Handling
  • Hashes and Cracking Passwords
  • Threading
    • Concepts and Python Implementation
    • Queues and Synchronization
    • urlparse and httplib to probe URLs
    • Crack a password protected zip file
  • Port Scanner
    • Threading a Port Scanner
  • nmap integration
  • Deploying shellcode
  • Mechanize, BeautifulSoup
    • HTTP Form Password Guessing
    • HTTP Proxies (Burp Suite)
    • HTTP Cookies Session Hijacking
      • CookieMonster
  • Images and Metadata
  • Justniffer
  • SQL Injection
    • sqlmap
    • SQLBrute
  • Antivirus and IDS evasion
    • PyInstaller
    • Metasploit
  • Scapy
    • Deploy shellcode
    • DNS Cache Poisoning
    • Packety Violence

Prerequisites:

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TN-575: Open Source Network Security Monitoring

 

Course Overview:

TN-575: Open Source Network Security Monitoring teaches students how to deploy, build, and run an NSM operation using open source software and vendor-neutral tools. No network is bullet proof and when attackers access your network, this course will show you how to build a security net to detect, contain, and control the attacker. Sensitive data can be monitored and deep packet and deep attachment analysis can be achieved. As organizations stand up a Security Operations Center (SOC) the enterprise NSM is the key ingredient to that SOC. This course not only teaches how to implement an NSM technologically, but how to effectively monitor an enterprise operationally. You will learn how to architect an NSM solution: where to deploy your NSM platforms and how to size them, stand-alone or distributed, and integration into packet analysis, interpret evidence, and integrate threat intelligence from external sources to identify sophisticated attackers. A properly implemented NSM is integral to incident response and provides the responders timely information to react to the incident. TN-575: Open Source Network Security Monitoring is a lab intensive environment with a cyber range that gives each student in-depth knowledge and practical experience monitoring live systems to include: Cisco, Windows, Linux, IoT, and Firewalls.

Attendees to TN-575: Open Source Network Security Monitoring class will receive TechNow approved course materials and expert instruction.

This Course is taught utilizing Security Onion or RockNSM as specified by the customer.

Dates/Locations:

No Events

Duration: 5 Days

Course Objective:

The focus of this course is to present a suite of Open Source security products integrated into a highly functional and scalable Network Security Monitoring solution.

Prerequisites:

Students should have a basic understanding of networks, TCP/IP and standard protocols such as DNS, HTTP, etc. Some Linux knowledge/experience is recommended, but not required

Course Outline:

  • Network Security Monitoring (NSM) Methodology
  • High Bandwidth Packet Capture Challenges
  • Installation of Security Onion
    • Use Cases (analysis, lab, stand-alone, distributed)
    • Resource Requirements
  • Configuration
    • Setup Phase I – Network Configuration
    • Setup Phase 2 – Service Configuration
    • Evaluation Mode vs. Configuration Mode
    • Verifying Services
  • Security Onion Architecture
    • Configuration Files and Folders
    • Network Interfaces
    • Docker Environment
    • Security Onion Containers
  • Overview of Security Onion Analyst Tools
    • Kibana
    • CapME
    • CyberChef
    • Squert
    • Sguil
    • NetworkMiner
  • Quick Review of Wireshark and Packet Analysis
    • Display and Capture Filters
    • Analyze and Statistics Menu Options
    • Analysis for Signatures
  • Analyzing Alerts
    • Replaying Traffic
    • 3 Primary Interfaces:
      • Squert
      • Sguil
      • Kibana
    • Pivoting Between Interfaces
    • Pivoting to Full Packet Capture
  • Snort and Surricata
    • Rule Syntax and Construction
    • Implementing Custom Rules
    • Implementing Whitelists and Blacklists
  • Hunting
    • Using Kibana to Slice and Dice Logs
    • Hunting Workflow with Kibana
  • Bro
    • Introduction and Overview
      • Architecture, Commands
    • Understanding and Examining Bro Logs
      • Using AWK, sort, uniq, and bro-cut
    • Working with traces/PCAPs
    • Bro Scripts Overview
      • Loading and Using Scripts
    • Bro Frameworks Overview
      • Bro File Analysis Framework FAF
    • Using Bro scripts to carve out more than files
  • RockNSM ( * If Applicable)
    •  Kafka
      • Installation and Configuration
      • Kafka Messaging
      • Brokers
      • Integration with Bro and FSF
    • File Scanning Framework FSF
      • Custom YARA Signatures
      • JSON Trees
      • Sub-Object Recursion
      • Bro and Suricata Integration
  • Elastic Stack
    • Adding new data sources in Logstash
    • Enriching data with Logstash
    • Automating with Elastalert
    • Building new Kibana dashboards
  • Production Deployment
    • Advanced Setup
    • Master vs Sensor
    • Node Types – Master, Forward, Heavy, Storage
    • Command Line Setup with sosetup.conf
    • Architectural Recommendations
    • Sensor Placement
    • Hardening
    • Administration
    • Maintenance
  • Tuning
    • Using PulledPork to Disable Rules
    • BPF’s to Filter Traffic
    • Spinning up Additional Snort / Suricata / Bro Workers to Handle Higher Traffic Loads

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TN-5425: Networking with Windows Server 2016

 

Course Overview:

Course two of a three course series to obtain a Server 2016 MCSA certification. This 5-day course provides the fundamental networking skills required to deploy and support Windows Server 2016 in most organizations. It covers IP fundamentals, remote access technologies, and more advanced content including Software Defined Networking.

The course leads directly to preparing for the(MCSA):Windows Server 2016 exam “70-741: Installation, Storage, and Compute with Windows Server 2016”.  It also maps to Microsoft’s course 20741A, and is part of the Server 2016 MCSA certification. 

Attendees to TN-5425: Networking with Window Server 2016 will receive TechNow approved course materials and expert instruction.

Dates/Locations:

No Events

Duration: 5 Days

Course Objectives:

  • Plan and implement an IPv4 network
  • Implement Dynamic Host Configuration Protocol (DHCP)
  • Implement IPv6
  • Implement Domain Name System (DNS)
  • Implement and manage IP address management (IPAM)
  • Plan for remote access
  • Implement DirectAccess
  • Implement virtual private networks (VPNs)
  • Implement networking for branch offices
  • Configure advanced networking features
  • Implement Software Defined Networking

Prerequisites: 

  • A basic understanding of networking fundamentals
  • Experience working with Windows Server 2008 or Windows Server 2012
  • Experience working in a Windows Server infrastructure enterprise environment
  • Knowledge of the Open Systems Interconnection (OSI) model
  • Understanding of core networking topologies and architectures such as local area networks (LANs), wide area networks (WANs) and wireless networking
  • Basic knowledge of the TCP/IP protocol stack, addressing and name resolution
  • Experience with and knowledge of Hyper-V and virtualization
  • Hands-on experience working with the Windows client operating systems such as Windows 8.1 or Windows 10
  

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