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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Welcome to TechNow!

Welcome to TechNow! The Leader in Information Security Training & Computer Training.

The world of information security and computer training is ever changing.  The techniques and systems continue to evolve and we must stay current and diligent.  To do this, you can count on TechNow®…the leader in cybersecurity training and computer system training.

TechNow® has been training the leaders in the computer community for many years.  We provide training for students in a number of areas.  Our cybersecurity trainings include popular courses like D0D 8140, Security , CISM, CISSP, CEH,CCNA, and more.  With over 34 years of experience, we’re able to provide you with unmatched training and certification programs.

TechNow also provides a variety of other popular trainings for the computer professional including Cisco, EC-Council, CompTIA, Unix/Linux and more.

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DO-375: Automation with Ansible and Ansible Tower

 

Course Overview:

Through hands-on labs, you will learn to automate system administration tasks on managed hosts with Ansible, learn how to write Ansible playbooks to standardize task execution, and manage encryption for Ansible with Ansible Vault. This course will also teach you how to deploy and use Red Hat® Ansible Tower to centrally manage existing Ansible projects, playbooks, and roles; perform basic maintenance and administration of the Ansible Tower installation; and configure users and teams and use them to control access to systems, projects, and other resources through role-based access controls. You will learn to use Ansible Tower’s visual dashboard to launch, control, and monitor Ansible jobs; use the Ansible Tower application programming interface (API) to launch jobs from existing templates; automatically schedule Ansible jobs; and dynamically update host inventories.

Course Objectives:

  • Install and troubleshoot Ansible on central nodes and managed hosts
  • Automate administration tasks with Ansible playbooks and ad hoc commands
  • Write effective Ansible playbooks
  • Protect sensitive data used by tasks with Ansible Vault.
  • Install and configure Ansible Tower for enterprise Ansible management
  • Use Ansible Tower to control access to inventories and machine credentials by users and teams
  • Create job templates in Ansible Tower to standardize playbook execution.
  • Centrally launch playbooks and monitor and review job results with Ansible Tower

 

Course Outline:

  • Introduce Ansible
  • Deploy Ansible
  • Implement playbooks
  • Manage variables and inclusions
  • Implement task control
  • Implement Jinja2 templates
  • Implement roles
  • Configure complex playbooks
  • Implement Ansible Vault
  • Troubleshoot Ansible
  • Install Ansible Tower and describe Ansible Tower’s architecture
  • Create users and teams for role-based access control
  • Create and manage inventories and credentials
  • Manage projects for provisioning with Ansible Tower
  • Construct advanced job workflows
  • Update inventories dynamically and compare inventory members
  • Maintenance and administration of Ansible Tower

 
Dates/Locations:

No Events

Duration: 5 Days

Prerequisites:

  • Become a Red Hat Certified System Administrator, or demonstrate equivalent experience

Target Audience:

This course is designed for Linux system administrators, cloud administrators, and network administrators needing to automate configuration management, application deployment, and intraservice orchestration at an enterprise scale.

TN-999: Reverse Engineering Malware Course

Course Overview:

This course is designed for professionals that are expected to do malware analysis. A skills focus enables the student to better absorb the subject matter and perform successfully on the job.   This is not death by power point. The course is aligned with information assurance operators and executing hands-on labs. Lecture and labs walk the student through the knowledge required to truly understand the mechanics Reverse Engineering Malware.

Attendees to TN-999: Reverse Engineering Malware will receive TechNow approved course materials and expert instruction.

Date/Locations:

No Events

Duration: 5 days

Course Objectives:

  • Toolkit and Lab Assembly
  • Malware Code and Behavioral Analysis Fundamentals
  • Malicious Static and Dynamic Code Analysis
  • Collecting/Probing System and Network Activities
  • Analysis of Malicious Document Files
  • Analyzing Protected Executables
  • Analyzing Web-Based Malware
  • DLL Construction and API Hooking
  • Common Windows Malware Characteristics in x86 Assembly
  • Unpacking Protected Malware
  • In-Depth Analysis of Malicious Browser Scripts, Flash Programs and Office
  • In-Depth Analysis of Malicious Executables
  • Windows x86 Assembly Code Concepts for Revers-Engineering Memory Forensics for Rootkit Analysis

Prerequisites:

  • Strong understanding of core systems and network concepts
  • Exposure to programming and assembly concepts
  • Comfortable with command line access

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User: marcus.osullivan

Instructor comments: Good stuff. I like the beginning half where there was help from an additional instructor to facilitate fixing computer errors that inevitably popped up.

Facilities comments: The baby deer were neat! I like the resort.

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CL-425: AWS Security Operations and Architecture

Course Overview:

This course begins by introducing you to fundamental cloud computing and AWS security concepts including AWS access control and management, governance, logging, and encryption methods. It also covers security-related compliance protocols and risk management strategies, as well as procedures related to auditing your AWS security infrastructure.

The course continues to teach students how to efficiently use AWS security services to stay secure and compliant in the AWS cloud. The course focuses on the AWS-recommended security best practices that you can implement to enhance the security of your data and systems in the cloud. The course highlights the security features of AWS key services including compute, storage, networking, and database services. This course also refers to the common security control objectives and regulatory compliance standards and examines use cases for running regulated workloads on AWS across different verticals, globally. You will also learn how to leverage AWS services and tools for automation and continuous monitoring—taking your security operations to the next level.

Attendees to CL-425: AWS Security Operations and Architecture will receive TechNow approved course materials and expert instruction.

Duration: 5 Days

Audience:
• Security engineers
• Security architects
• Security analysts
• Security auditors
• Individuals who are responsible for governing, auditing, and testing an organization’s IT infrastructure, and ensuring conformity of the infrastructure to security, risk, and compliance guidelines

DoD 8140: Not Mandated

Course Prerequisites:

We recommend that attendees of this course have the following prerequisites:
This course assumes you have the equivalent experience or have taken the AWS operational courses that are in the TechNow AWS track.
CL-415: AWS Security Operations

The above courses encapsulate prerequisite knowledge:
• Experience with governance, risk, and compliance regulations and control objectives
• Working knowledge of IT security practices
• Working knowledge of IT infrastructure concepts
• Familiarity with cloud computing concepts

Course Objectives:

This course teaches you how to:
• Identify the security and compliance benefits of using the AWS cloud.
• Discuss the AWS Shared Responsibility Model.
• Describe the access control and access management features of AWS.
• Use AWS services for security logging and monitoring.
• Describe data encryption methods to secure sensitive data.
• Describe AWS services used to protect network security.
• Describe the basic steps to ensure strong governance of your AWS resources.
• Identify AWS services used to maintain governance of control environments.
• Use the AWS audit features.
• Explain how to audit an AWS environment.
• Explain the AWS compliance and assurance programs.
• Describe how AWS audits and attestations validate that security controls are implemented and operating effectively.
• Assimilate and leverage the AWS shared security responsibility model.
• Mange user identity and access management in the AWS cloud.
• Use AWS security services such as AWS Identity and Access Management, Amazon Virtual Private Cloud, AWS Config, AWS CloudTrail, AWS Key Management Service, AWS CloudHSM, and AWS Trusted Advisor.
• Implement better security controls for your resources in the AWS cloud.
• Manage and audit your AWS resources from a security perspective.
• Monitor and log access and usage of AWS compute, storage, networking, and database services.
• Analyze events by capturing, monitoring, processing, and analyzing logs.
• Identify AWS services and tools to help automate, monitor, and manage security operations on AWS.
• Perform security incident management in the AWS cloud.
• Perform security assessments to ensure that common vulnerabilities are patched and security best practices are applied. The assessment outline deals both with AWS specifics and also lays down the workflow of NIST, FedRAMP, and Cloud Security Alliance STAR compliance for a deployed AWS solution.

Dates/Locations: No Events

Course Outline:

Day 1
• Introduction to Cloud Computing and AWS Security
• Access Control and Management
• AWS Security: Governance, Logging, and Encryption
• Compliance and Risk Management

Day 2
• Introduction to Cloud Security Course Objectives
• Security of the AWS Cloud: Entry Points, Web Application, Communications, and Incident Response.
• Cloud Aware Governance and Compliance and related control frameworks.
• Identity and Access Management
Day 3
• Securing AWS Infrastructure Services
• Securing AWS Container Services
• Securing AWS Abstracted Services
• Using AWS Security Services
Day 4
• Data Protection in the AWS Cloud
• Managing security in a hybrid environment
• Deep dive into AWS monitoring and log analysis
• Protecting against outside threats to AWS VPC
Day 5
• How to carry out a Pentest on an AWS solution
• Security Incident Management and Automating security and incident response
• Threat detection and monitoring sensitive data
• Lets Do it! Building Compliant Workloads on AWS—Case Study