Securing Cisco Networks with Threat Detection and Analysis Training | Cisco SCYBER Training v1.2
Securing Cisco Networks with Threat Detection and Analysis Training | Cisco SCYBER Training v1.2 hands-on
Securing Cisco Networks with Threat Detection and Analysis Training | Cisco SCYBER Training v1.2 course, is an instructor-led course offered by ENO. This lab-intensive training course prepares you to take the Cyber Security Specialist Certification exam (exam ID = 600-199) and to hit the ground running as a security analyst team member. The Securing Cisco Networks with Threat Detection and Analysis Training | Cisco SCYBER Training course combines lecture materials and hands-on labs throughout to make sure that you are able to successfully understand cyber security concepts and to recognize specific threats and attacks on your network. This Securing Cisco Networks with Threat Detection and Analysis Training | Cisco SCYBER Training course is designed to teach you how a network security operations center (SOC) works and how to begin to monitor, analyze, and respond to security threats within the network. The job role for a security analyst will vary from industry to industry and differ in the private sector versus the public sector.
With onsite Training, courses can be scheduled on a date that is convenient for you, and because they can be scheduled at your location, you don’t incur travel costs and students won’t be away from home. Onsite classes can also be tailored to meet your needs. You might shorten a 5-day class into a 3-day class, or combine portions of several related courses into a single course, or have the instructor vary the emphasis of topics depending on your staff’s and site’s requirements.
This course is designed for technical professionals who need to know how to monitor, analyze, and respond to network security threats and attacks.
Duration: 5 days
Describe the tools, techniques, and thought processes of an attacker.
Describe the features, functions, and benefits of an SOC.
Identify the common sources used to detect an incident, as well as the actions that should be considered in response.
Perform basic packet capture and packet analysis.
Enable syslog on Cisco devices and to perform basic network log analysis.
Discuss the relevance of baselining and some of the most useful steps to be used when deploying a system.
Discuss the policies and roles in the typical SOC, as well as some of the common tools used by SOC members.
Discuss techniques used to identify anomalies and correlate log entries.
Understand techniques used to scope, document, and analyze investigations.
Discuss the methodology behind mitigations.
Discuss documentation and communication during an incident.
Discuss post-incident considerations.
Module 1: Attacker Methodology
Types of Attackers
Malware and attacker tools
Understand common attacks
Module 2: Defender Methodology
Define vulnerabilities, threats, exploits, and attacks
Define the network (NOC) and security operations center (SOC)
SOC processes and procedures
Responsibilities of the SOC
Identify security incidents
Module 3: Defender Tools
Identify common sources used to detect security incidents
Understand event correlation and baseline data
Define data across layers of TCP/IP model
Data synchronization and data collection
Network monitoring and event management
Risk analysis and mitigation strategies
Module 4: Packet Analysis
Network structures related to packet analysis
Analyze packets using Cisco IOS software
Access control lists
IOS embedded packet capture (EPC)
Methods used to capture traffic
Conduct network traces
Establish a packet baseline using Wireshark
Module 5: Network Log Analysis
Use log analysis protocols and tools
Explore log mechanics
Retrieve syslog data
Retrieve DNS events and proxy logs
Correlate log files
Module 6: Baseline Network Operations
Establish a network baseline
Exception handling and monitoring tools
Network topology mapping
Network securing best practices
Define and identify mission-critical business components
Determine the health state of monitored network components
Module 7: Incident Response Preparation
SOC roles and responsibilities
Incident response standards
IRT roles and responsibilities
Remediation, resolution and closure
Establish an effective monitoring system
Analyze monitoring system
Module 8: Security Incident Detection
Identify an incident
Correlate data sources
SIEM as an automatic correlation
Review and classify incident information
Identify source of incident
Module 9: Investigations
Framework and scope of investigation
Data collection process
Describe the role of flow data in an investigation
Use flow data to monitor, analyze, and visualize network traffic
Module 10: Mitigations and Best Practices
Development and deployment
Validate and test mitigations
Proper documentation methods
Describe cyber threat defense solutions and components
Implement access control lists (ACLs)
Zone-based policy firewall overview
Describe default policies, traffic flows, and zone Interaction
Implement network-layer mitigations and best practices
Implement link-layer best practices
Module 11: Communication
Incident documentation requirements and process
Module 12: Post-Event Activity
Conduct an incident post-mortem
Policies and procedures
Develop security proposals
Implement, publicize and monitor remediations
Assessing Your Understanding of Network and Security Operations
Exploring the Remote Lab Environment
Enabling Netflow Export and Syslog
Capturing Packets on the Pod Router and using Wireshark to examine the PCAP
Capturing Packets using TCPDUMP
Examining Logs Manually
Enabling AAA for Router SSH Management Access
Enabling SMNPv3 on the Pod Router and Pod Switch
Performing NMAP Scans and Using Netcat to Connect to Open Ports
Analyzing PCAP File with Suspicious Activities Using Wireshark
Examining Event Logs Manually
Examining Event Logs Using Splunk
Analyzing NetFlow Data with Lancope StealthWatch
Implementing IOS Zone-Based Firewall
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