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.

Course Overview:

TechNow’s Course ensures that you are ready to test for the CCNA Certification. This intensive ten-day program is a high end, hands-on, bootcamp using physical routers & switches in classroom.  Students will learn how to install, operate, configure, and verify basic IPv4 and IPv6 networks. The course covers configuring network components such as switches, routers, and wireless LAN controllers; managing network devices; and identifying basic security threats. The course also gives you a foundation in network programmability, automation, and software-defined networking. Additionally the course stress tests the students on exam practices that insure the student a successful outcome on the 200-301 CCNA exam.

This course is available for group purchasing with a minimum of 4 students. Please call to get scheduling availability.

Attendees to N-310: CCNA Extended Bootcamp will receive TechNow approved course materials and expert instruction.

Date/Locations:

This course is available for group purchasing with a minimum of 4 students. Please call to get scheduling availability. (210) 733-1093

No Events

Duration: 10 days

Course Objectives:

    • Identify the components of a computer network and describe their basic characteristics
    • Understand the model of host-to-host communication
    • Describe the features and functions of the Cisco Internetwork Operating Systems (IOS) software
    • Describe LANs and the role of switches within LANs
    • Describe Ethernet as the network access layer of TCP/IP and describe the operation of switches
    • Install a switch and perform the initial configuration
    • Describe the TCP/IP Internet layer, IPv4, its addressing scheme, and subnetting
    • Describe the TCP/IP Transport layer and Application layer
    • Explore functions of routing
    • Implement basic configuration on a Cisco router
    • Explain host-to-host communications across switches and routers
    • Identify and resolve common switched network issues and common problems associated with IPv4 addressing
    • Describe IPv6 main features and addresses, and configure and verify basic IPv6 connectivity
    • Describe the operation, benefits, and limitations of static routing
    • Describe, implement, and verify Virtual Local Area Networks (VLANs) and trunks
    • Describe the application and configuration of inter-VLAN routing
    • Explain the basics of dynamic routing protocols and describe components and terms of Open Shortest Path First (OSPF)
    • Explain how Spanning Tree Protocol (STP) and Rapid Spanning Tree Protocol (RSTP) work
    • Configure link aggregation using EtherChannel
    • Describe the purpose of Layer 3 redundancy protocols
    • Describe basic WAN and VPN concepts
    • Describe the operation of Access Control Lists (ACLs) and their applications in the network
    • Configure Internet access using Dynamic Host Configuration Protocol (DHCP) clients and explain and configure Network Address Translation (NAT) on Cisco routers
    • Describe basic Quality of Service (QoS) concept
    • Describe network and device architectures and introduce virtualization
    • Introduce the concept of network programmability and Software-Defined Networking (SDN)
    • Configure basic IOS system monitoring tools
    • Describe the management of Cisco devices
    • Describe the current security threat landscape
    • Describe threat defense technologies
    • Implement a basic security configuration of the device management plane
    • Implement basic steps to harden network devices

Lab Objectives:

      • Get started with Cisco Command-Line Interface (CLI)
      • Observe How a Switch Operates
      • Perform Basic Switch Configuration
      • Implement the Initial Switch Configuration
      • Inspect TCP/IP Applications
      • Configure an Interface on a Cisco Router
      • Configure and Verify Layer 2 Discovery Protocols
      • Implement an Initial Router Configuration
      • Configure Default Gateway
      • Explore Packet Forwarding
      • Troubleshoot switch Media and Port Issues
      • Troubleshoot Port Duplex Issues
      • Configure Basic IPv6 Connectivity
      • Configure and Verify IPv4 Static Routes
      • Configure Iv6 Static Routes
      • Implement IPv4 Static Routing
      • Implement IPv6 Static Routing
      • Configure VLAN and Trunk
      • Troubleshoot VLANs and Trunk
      • Configure a Router on a Stick
      • Implement Multiple VLANs and Basic Routing Between the VLANs
      • Configure and Verify Single-Area OSPF
      • Configure and Verify EtherChannel
      • Improve Redundant Switched Topologies with EtherChannel
      • Configure and Verify IPv4 ACLs
      • Implement Numbered and Named IPv4 ACLs
      • Configure a Provider-Assigned IPv4 Address
      • Configure Static NAT
      • Configure Dynamic NAT and Port Address Translation (PAT)
      • Implement PAT
      • Log into the WLC
      • Monitor the WLC
      • Configure a Dynamic (VLAN) Interface
      • Configure a DHCP Scope
      • Configure a WLAN
      • Define a Remote Access Dial-In User Service (RADIUS) Server
      • Explore Management Options
      • Explore the Cisco DNA Center
      • Configure and Verify NTP
      • Configure System Message Logging
      • Create the Cisco IOS Image Backup
      • Upgrade Cisco IOS Image
      • Configure WLAN Using Wi-Fi Protected Access 2 (WPA2) Pre-Shared Key (PSK) Using the GUI
      • Secure Console and Remote Access
      • Enable and Limit Remote Access Connectivity
      • Secure Device Administrative Access
      • Configure and Verify Port Security
      • Implement Device Hardening

Prerequisites:

      • Familiarity in the following networking topics:
        • TCP/IP
        • IP Configuration
        • Peer-to-Peer Networking
        • Subnetting
        • Building a Routing Table
      • It is not required but highly recommended to have the following certifications:

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User: kdinivahi29

Instructor comments: The instructor Mr. Tom Bigger has done a terrific job of substantiating the textbook content with hands on labs. He has been patient and ensure that we understood the material


User: MikeWisn

Instructor comments: Did exceptional job explaining complicated concepts.

Facilities comments: Hotel front desk phone ringing loudly during class was distracting.


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Course Overview:

This CEH course will immerse you into a “Hacker Mindset” in order to teach you how to think like a hacker and better defend against future attacks. Students are in the driver’s seat with a hands-on training environment employing a systematic ethical hacking process. All while teaching students how to scan, test, hack, and secure target systems. CEH shows how hackers think and act maliciously so you can learn to better position your organization’s security infrastructure and defend against future attacks.

This CEH course covers the Five Phases of Ethical Hacking, diving into Reconnaissance, Gaining Access, Enumeration, Maintaining Access, and covering your tracks.

This CEH course delivers in-demand ethical hacking skills while preparing you for the internationally-recognized Certified Ethical Hacker (CEH) certification exam (312-50) from EC-Council.

This course supports a certification that is DoD approved 8570 Baseline Certificate and meets DoD 8140/8570 training requirements.

What’s Included:

  • EC-Council official E-Courseware
  • EC-Council official iLabs code with access for 6 months
  • EC-Council official Certificate of Attendance
  • CEH Exam Voucher

 

Security Course Flow
Document Flow Chart iconsm

Dates/Locations:

No Events

Duration: 5 Days

Course Content:

  • Module 01. Introduction to Ethical Hacking
  • Module 02. Foot-printing and Reconnaissance
  • Module 03. Scanning Networks
  • Module 04. Enumeration
  • Module 05. Vulnerable Analysis
  • Module 06. System Hacking
  • Module 07. Malware Threats
  • Module 08. Sniffing
  • Module 09. Social Engineering
  • Module 10. Denial-of-Service
  • Module 11. Session Hijacking
  • Module 12. Evading IDS,Firewalls, and Honeypots
  • Module 13. Hacking Web Servers
  • Module 14. Hacking Web Applications
  • Module 15. SQL Injection
  • Module 16. Hacking Wireless Networks
  • Module 17. Hacking Mobile Platforms
  • Module 18. IoT and OT Hacking
  • Module 19. Cloud Computing
  • Module 20. Cryptography

 

Prerequisites:

  • Windows operating system and/or Linux operating system or other Unix-based OS
  • TCP/IP protocols and implementation
  • At least 2 years of IT security experience
  • TN-325:Security+

Target Audience:

Information Security Analyst/Administrator, Information Assurance (IA) Security Officer, Information Security Manager/Specialist, Auditors, Security Professional, Site Admins, Penetration Testers, Red Team,Risk/Threat/Vulnerability Analyst, Individuals concerned about the integrity of network infrastructure

 

About us:

TechNow has taught security courses for almost 30 years, before most certifications existed and has successfully moved students through certification programs associated with IAPP, SANS, EC-Council and ISC2. Our instructor maintains over a dozen security certifications and has been the director of a company with internationals sales in security training, consulting, and compliance.

Tech Now, Inc. is an accredited Training Center with Ec-Council.

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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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Course Overview:

Course one of a three course series to obtain a Server 2016 MCSA certification. This five-day course is designed primarily for IT professionals who have some experience with Windows Server. It is designed for professionals who will be responsible for managing storage and compute by using Windows Server 2016, and who need to understand the scenarios, requirements, and storage and compute options that are available and applicable to Windows Server 2016.

The course leads directly to preparing for the(MCSA):Windows Server 2016 exam “70-740: Installation, Storage, and Compute with Windows Server 2016”.  It also maps to Microsoft’s course 20740A, and is part of the Server 2016 MCSA certification. 

Attendees to TN-5415: Installation, Storage, and Compute with Window Server 2016 will receive TechNow approved course materials and expert instruction.

Dates/Locations:

No Events

Duration: 5 Days

Course Objectives:

  • Prepare and install Nano Server, a Server Core installation, and plan a server upgrade and migration strategy
  • Describe the various storage options, including partition table formats, basic and dynamic disks, file systems, virtual hard disks, and drive hardware, and explain how to manage disks and volumes
  • Describe enterprise storage solutions, and select the appropriate solution for a given situation
  • Implement and manage Storage Spaces and Data Deduplication
  • Install and configure, and manage Windows and Hyper-V containers
  • Describe the high availability and disaster recovery technologies in Windows Server 2016
  • Plan, create, and manage a failover cluster
  • Implement failover clustering for Hyper-V virtual machines
  • Configure a Network Load Balancing (NLB) cluster, and plan for an NLB implementation
  • Create and manage deployment images
  • Manage, monitor, and maintain virtual machine installations

Prerequisites:

  • A basic understanding of networking fundamentals
  • An awareness and understanding of security best practices
  • An understanding of basic AD DS concepts
  • Basic knowledge of server hardware
  • Experience supporting and configuring Windows client operating systems such as Windows 10
  

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