CompTIA CASP+ (CASP Plus) Exam Syllabus

CASP+ PDF, CAS-003 Dumps, CAS-003 PDF, CASP+ VCE, CAS-003 Questions PDF, CompTIA CAS-003 VCE, CompTIA CASP Plus Dumps, CompTIA CASP Plus PDFUse this quick start guide to collect all the information about CompTIA CASP+ (CAS-003) Certification exam. This study guide provides a list of objectives and resources that will help you prepare for items on the CAS-003 CompTIA Advanced Security Practitioner exam. The Sample Questions will help you identify the type and difficulty level of the questions and the Practice Exams will make you familiar with the format and environment of an exam. You should refer this guide carefully before attempting your actual CompTIA CASP Plus certification exam.

The CompTIA CASP+ certification is mainly targeted to those candidates who want to build their career in Cybersecurity domain. The CompTIA Advanced Security Practitioner (CASP+) exam verifies that the candidate possesses the fundamental knowledge and proven skills in the area of CompTIA CASP Plus.

CompTIA CASP+ Exam Summary:

Exam Name CompTIA Advanced Security Practitioner (CASP+)
Exam Code CAS-003
Exam Price $480 (USD)
Duration 165 mins
Number of Questions 90
Passing Score Pass / Fail
Book / Training CASP+ CAS-003
Schedule Exam Pearson VUE
Sample Questions CompTIA CASP+ Sample Questions
Practice Exam CompTIA CAS-003 Certification Practice Exam

CompTIA CAS-003 Exam Syllabus Topics:

Topic Details

Risk Management 19%

Summarize business and industry influences and associated security risks. 1. Risk management of new products, new technologies and user behaviors
2. New or changing business models/strategies
  1. Partnerships
  2. Outsourcing
  3. Cloud
  4. Acquisition/merger – divestiture/demerger
    Data ownership
    Data reclassification

3. Security concerns of integrating diverse industries

  1. Rules
  2. Policies
  3. Regulations
    Export controls
    Legal requirements
  4. Geography
    Data sovereignty

4. Internal and external influences

  1. Competitors
  2. Auditors/audit findings
  3. Regulatory entities
  4. Internal and external client requirements
  5. Top-level management

5. Impact of de-perimeterization (e.g., constantly changing network boundary)

  1. Telecommuting
  2. Cloud
  3. Mobile
  4. BYOD
  5. Outsourcing
  6. Ensuring third-party providers have requisite levels of information security
Compare and contrast security, privacy policies and procedures based on organizational requirements. 1. Policy and process life cycle management
  1. New business
  2. New technologies
  3. Environmental changes
  4. Regulatory requirements
  5. Emerging risks

2. Support legal compliance and advocacy by partnering with human resources, legal, management and other entities
3. Understand common business documents to support security

  1. Risk assessment (RA)
  2. Business impact analysis (BIA)
  3. Interoperability agreement (IA)
  4. Interconnection security agreement (ISA)
  5. Memorandum of understanding (MOU)
  6. Service-level agreement (SLA)
  7. Operating-level agreement (OLA)
  8. Non-disclosure agreement (NDA)
  9. Business partnership agreement (BPA)
  10. Master service agreement (MSA)

4. Research security requirements for contracts

  1. Request for proposal (RFP)
  2. Request for quote (RFQ)
  3. Request for information (RFI)

5. Understand general privacy principles for sensitive information
6. Support the development of policies containing standard security practices

  1. Separation of duties
  2. Job rotation
  3. Mandatory vacation
  4. Least privilege
  5. Incident response
  6. Forensic tasks
  7. Employment and termination procedures
  8. Continuous monitoring
  9. Training and awareness for users
  10. Auditing requirements and frequency
  11. Information classification
Given a scenario, execute risk mitigation strategies and controls. 1. Categorize data types by impact levels based on CIA
2. Incorporate stakeholder input into CIA impact-level decisions
3. Determine minimum-required security controls based on aggregate score
4. Select and implement controls based on CIA requirements and organizational policies
5. Extreme scenario planning/ worst-case scenario
6. Conduct system-specific risk analysis
7. Make risk determination based upon known metrics
  1. Magnitude of impact based on ALE and SLE
  2. Likelihood of threat
    Trend analysis
  3. Return on investment (ROI)
  4. Total cost of ownership

8. Translate technical risks in business terms
9. Recommend which strategy should be applied based on risk appetite

  1. Avoid
  2. Transfer
  3. Mitigate
  4. Accept

10. Risk management processes

  1. Exemptions
  2. Deterrence
  3. Inherent
  4. Residual

11. Continuous improvement/monitoring
12. Business continuity planning

  1. RTO
  2. RPO
  3. MTTR
  4. MTBF

13. IT governance

  1. Adherence to risk management frameworks

14. Enterprise resilience

Analyze risk metric scenarios to secure the enterprise. 1. Review effectiveness of existing security controls
  1. Gap analysis
  2. Lessons learned
  3. After-action reports

2. Reverse engineer/deconstruct existing solutions
3. Creation, collection and analysis of metrics

  1. KPIs
  2. KRIs

4. Prototype and test multiple solutions
5. Create benchmarks and compare to baselines
6. Analyze and interpret trend data to anticipate cyber defense needs
7. Analyze security solution metrics and attributes to ensure they meet business needs

  1. Performance
  2. Latency
  3. Scalability
  4. Capability
  5. Usability
  6. Maintainability
  7. Availability
  8. Recoverability
  9. ROI
  10. TCO

8. Use judgment to solve problems where the most secure solution is not feasible

Enterprise Security Architecture 25%

Analyze a scenario and integrate network and security components, concepts and architectures to meet security requirements. 1. Physical and virtual network and security devices
  1. UTM
  2. IDS/IPS
  4. INE
  5. NAC
  6. SIEM
  7. Switch
  8. Firewall
  9. Wireless controller
  10. Router
  11. Proxy
  12. Load balancer
  13. HSM
  14. MicroSD HSM

2. Application and protocol-aware technologies

  1. WAF
  2. Firewall
  3. Passive vulnerability scanners
  4. DAM

3. Advanced network design (wired/wireless)

  1. Remote access
    Reverse proxy
  2. IPv4 and IPv6 transitional technologies
  3. Network authentication methods
  4. 802.1x
  5. Mesh networks
  6. Placement of fixed/mobile devices
  7. Placement of hardware and applications

4. Complex network security solutions for data flow

  1. DLP
  2. Deep packet inspection
  3. Data flow enforcement
  4. Network flow (S/flow)
  5. Data flow diagram

5. Secure configuration and baselining of networking and security components
6. Software-defined networking
7. Network management and monitoring tools

  1. Alert definitions and rule writing
  2. Tuning alert thresholds
  3. Alert fatigue

8. Advanced configuration of routers, switches and other network devices

  1. Transport security
  2. Trunking security
  3. Port security
  4. Route protection
  5. DDoS protection
  6. Remotely triggered black hole

9. Security zones

  1. DMZ
  2. Separation of critical assets
  3. Network segmentation

10. Network access control

  1. Quarantine/remediation
  2. Persistent/volatile or non-persistent agent
  3. Agent vs. agentless

11. Network-enabled devices

  1. System on a chip (SoC)
  2. Building/home automation systems
  3. IP video
  4. HVAC controllers
  5. Sensors
  6. Physical access control systems
  7. A/V systems
  8. Scientific/industrial equipment

12. Critical infrastructure

  1. Supervisory control and data acquisition (SCADA)
  2. Industrial control systems (ICS)
Analyze a scenario to integrate security controls for host devices to meet security requirements. 1. Trusted OS (e.g., how and when to use it)
  1. SELinux
  2. SEAndroid
  3. TrustedSolaris
  4. Least functionality

2. Endpoint security software

  1. Anti-malware
  2. Antivirus
  3. Anti-spyware
  4. Spam filters
  5. Patch management
  7. Data loss prevention
  8. Host-based firewalls
  9. Log monitoring
  10. Endpoint detection response

3. Host hardening

  1. Standard operating environment/ configuration baselining
    Application whitelisting and blacklisting
  2. Security/group policy implementation
  3. Command shell restrictions
  4. Patch management
    Scripting and replication
  5. Configuring dedicated interfaces
    Out-of-band management
    Management interface
    Data interface
  6. External I/O restrictions
    Drive mounting
    Drive mapping
    Recording mic
    Audio output
    SD port
    HDMI port
  7. File and disk encryption
  8. Firmware updates

4. Boot loader protections

  1. Secure boot
  2. Measured launch
  3. Integrity measurement architecture
  5. Attestation services
  6. TPM

5. Vulnerabilities associated with hardware
6. Terminal services/application delivery services

Analyze a scenario to integrate security controls for mobile and small form factor devices to meet security requirements. 1. Enterprise mobility management
  1. Containerization
  2. Configuration profiles and payloads
  3. Personally owned, corporate-enabled
  4. Application wrapping
  5. Remote assistance access
    Screen mirroring
  6. Application, content and data management
  7. Over-the-air updates (software/firmware)
  8. Remote wiping
  9. SCEP
  10. BYOD
  11. COPE
  12. VPN
  13. Application permissions
  14. Side loading
  15. Unsigned apps/system apps
  16. Context-aware management
    User behavior
    Security restrictions
    Time-based restrictions

2. Security implications/privacy concerns

  1. Data storage
    Non-removable storage
    Removable storage
    Cloud storage
    Transfer/backup data to uncontrolled storage
  2. USB OTG
  3. Device loss/theft
  4. Hardware anti-tamper
  5. TPM
  6. Rooting/jailbreaking
  7. Push notification services
  8. Geotagging
  9. Encrypted instant messaging apps
  10. Tokenization
  11. OEM/carrier Android fragmentation
  12. Mobile payment
    Mobile wallet
    Peripheral-enabled payments (credit card reader)
  13. Tethering
    Spectrum management
    Bluetooth 3.0 vs. 4.1
  14. Authentication
    Swipe pattern
    Pin code
    Iris scan
  15. Malware
  16. Unauthorized domain bridging
  17. Baseband radio/SOC
  18. Augmented reality
  19. SMS/MMS/messaging

3. Wearable technology

  1. Devices
    Fitness devices
    Medical sensors/devices
  2. Security implications
    Unauthorized remote activation/ deactivation of devices or features
    Encrypted and unencrypted communication concerns
    Physical reconnaissance
    Personal data theft
    Health privacy
    Digital forensics of collected data
Given software vulnerability scenarios, select appropriate security controls. 1. Application security design considerations
  1. Secure: by design, by default, by deployment

2. Specific application issues

  1. Unsecure direct object references
  2. XSS
  3. Cross-site request forgery (CSRF)
  4. Click-jacking
  5. Session management
  6. Input validation
  7. SQL injection
  8. Improper error and exception handling
  9. Privilege escalation
  10. Improper storage of sensitive data
  11. Fuzzing/fault injection
  12. Secure cookie storage and transmission
  13. Buffer overflow
  14. Memory leaks
  15. Integer overflows
  16. Race conditions
    Time of check
    Time of use
  17. Resource exhaustion
  18. Geotagging
  19. Data remnants
  20. Use of third-party libraries
  21. Code reuse

3. Application sandboxing
4. Secure encrypted enclaves
5. Database activity monitor
6. Web application firewalls
7. Client-side processing vs. server-side processing

  2. Browser extensions
    Java applets
  3. HTML5
  4. AJAX
  5. SOAP
  6. State management
  7. JavaScript

8. Operating system vulnerabilities
9. Firmware vulnerabilities

Enterprise Security Operations 20%

Given a scenario, conduct a security assessment using the appropriate methods. 1. Methods
  1. Malware sandboxing
  2. Memory dumping, runtime debugging
  3. Reconnaissance
  4. Fingerprinting
  5. Code review
  6. Social engineering
  7. Pivoting
  8. Open source intelligence
    Social media
    Routing tables
    DNS records
    Search engines

2. Types

  1. Penetration testing
    Black box
    White box
    Gray box
  2. Vulnerability assessment
  3. Self-assessment
    Tabletop exercises
  4. Internal and external audits
  5. Color team exercises
    Red team
    Blue team
    White team
Analyze a scenario or output, and select the appropriate tool for a security assessment.

1. Network tool types

  1. Port scanners
  2. Vulnerability scanners
  3. Protocol analyzer
  4. SCAP scanner
  5. Network enumerator
  6. Fuzzer
  7. HTTP interceptor
  8. Exploitation tools/frameworks
  9. Visualization tools
  10. Log reduction and analysis tools

2. Host tool types

  1. Password cracker
  2. Vulnerability scanner
  3. Command line tools
  4. Local exploitation tools/frameworks
  5. SCAP tool
  6. File integrity monitoring
  7. Log analysis tools
  8. Antivirus
  9. Reverse engineering tools

3. Physical security tools

  1. Lock picks
  2. RFID tools
  3. IR camera
Given a scenario, implement incident response and recovery procedures. 1. E-discovery
  1. Electronic inventory and asset control
  2. Data retention policies
  3. Data recovery and storage
  4. Data ownership
  5. Data handling
  6. Legal holds

2. Data breach

  1. Detection and collection
    Data analytics
  2. Mitigation
  3. Recovery/reconstitution
  4. Response
  5. Disclosure

3. Facilitate incident detection and response

  1. Hunt teaming
  2. Heuristics/behavioral analytics
  3. Establish and review system, audit and security logs

4. Incident and emergency response

  1. Chain of custody
  2. Forensic analysis of compromised system
  3. Continuity of operations
  4. Disaster recovery
  5. Incident response team
  6. Order of volatility

5. Incident response support tools

  1. dd
  2. tcpdump
  3. nbtstat
  4. netstat
  5. nc (Netcat)
  6. memdump
  7. tshark
  8. foremost

6. Severity of incident or breach

  1. Scope
  2. Impact
  3. Cost
  4. Downtime
  5. Legal ramifications

7. Post-incident response

  1. Root-cause analysis
  2. Lessons learned
  3. After-action report

Technical Integration of Enterprise Security 23%

Given a scenario, integrate hosts, storage, networks and applications into a secure enterprise architecture.

1. Adapt data flow security to meet changing business needs
2. Standards

  1. Open standards
  2. Adherence to standards
  3. Competing standards
  4. Lack of standards
  5. De facto standards

3. Interoperability issues

  1. Legacy systems and software/current systems
  2. Application requirements
  3. Software types
    In-house developed
    Tailored commercial
    Open source
  4. Standard data formats
  5. Protocols and APIs

4. Resilience issues

  1. Use of heterogeneous components
  2. Course of action automation/orchestration
  3. Distribution of critical assets
  4. Persistence and non- persistence of data
  5. Redundancy/high availability
  6. Assumed likelihood of attack

5. Data security considerations

  1. Data remnants
  2. Data aggregation
  3. Data isolation
  4. Data ownership
  5. Data sovereignty
  6. Data volume

6. Resources provisioning and deprovisioning

  1. Users
  2. Servers
  3. Virtual devices
  4. Applications
  5. Data remnants

7. Design considerations during mergers, acquisitions and demergers/divestitures
8. Network secure segmentation and delegation
9. Logical deployment diagram and corresponding physical deployment diagram of all relevant devices
10. Security and privacy considerations of storage integration
11. Security implications of integrating enterprise applications

  1. CRM
  2. ERP
  3. CMDB
  4. CMS
  5. Integration enablers
    Directory services
Given a scenario, integrate cloud and virtualization technologies into a secure enterprise architecture. 1. Technical deployment models (outsourcing/insourcing/ managed services/partnership)
  1. Cloud and virtualization considerations and hosting options
    Single tenancy
  2. On-premise vs. hosted
  3. Cloud service models

2. Security advantages and disadvantages of virtualization

  1. Type 1 vs. Type 2 hypervisors
  2. Container-based
  3. vTPM
  4. Hyperconverged infrastructure
  5. Virtual desktop infrastructure
  6. Secure enclaves and volumes

3. Cloud augmented security services

  1. Anti-malware
  2. Vulnerability scanning
  3. Sandboxing
  4. Content filtering
  5. Cloud security broker
  6. Security as a service
  7. Managed security service providers

4. Vulnerabilities associated with comingling of hosts with different security requirements

  1. VMEscape
  2. Privilege elevation
  3. Live VM migration
  4. Data remnants

5. Data security considerations

  1. Vulnerabilities associated with a single server hosting multiple data types
  2. Vulnerabilities associated with a single platform hosting multiple data types/owners on multiple virtual machines

6. Resources provisioning and deprovisioning

  1. Virtual devices
  2. Data remnants
Given a scenario, integrate and troubleshoot advanced authentication and authorization technologies to support enterprise security objectives. 1. Authentication
  1. Certificate-based authentication
  2. Single sign-on
  3. 802.1x
  4. Context-aware authentication
  5. Push-based authentication

2. Authorization

  1. OAuth
  2. XACML
  3. SPML

3. Attestation
4. Identity proofing
5. Identity propagation
6. Federation

  1. SAML
  2. OpenID
  3. Shibboleth
  4. WAYF

7. Trust models

  1. RADIUS configurations
  2. LDAP
  3. AD
Given a scenario, implement cryptographic techniques. 1. Techniques
  1. Key stretching
  2. Hashing
  3. Digital signature
  4. Message authentication
  5. Code signing
  6. Pseudo-random number generation
  7. Perfect forward secrecy
  8. Data-in-transit encryption
  9. Data-in-memory/processing
  10. Data-at-rest encryption
  11. Steganography

2. Implementations

  1. Crypto modules
  2. Crypto processors
  3. Cryptographic service providers
  4. DRM
  5. Watermarking
  6. GPG
  7. SSL/TLS
  8. SSH
  9. S/MIME
  10. Cryptographic applications and proper/improper implementations
    Feasibility to implement
  11. Stream vs. block
  12. PKI
    Wild card
    OCSP vs. CRL
    Issuance to entities
    Key escrow
  13. Cryptocurrency/blockchain
  14. Mobile device encryption considerations
  15. Elliptic curve cryptography
  16. P-256 vs. P-384 vs. P521
Given a scenario, select the appropriate control to secure communications and collaboration solutions. 1. Remote access
  1. Resource and services
  2. Desktop and application sharing
  3. Remote assistance

2. Unified collaboration tools

  1. Conferencing
  2. Storage and document collaboration tools
  3. Unified communication
  4. Instant messaging
  5. Presence
  6. Email
  7. Telephony and VoIP integration
  8. Collaboration sites
    Social media

Research, Development and Collaboration 13%

Given a scenario, apply research methods to determine industry trends and their impact to the enterprise.

1. Perform ongoing research

  1. Best practices
  2. New technologies, security systems and services
  3. Technology evolution (e.g., RFCs, ISO)

2. Threat intelligence

  1. Latest attacks
  2. Knowledge of current vulnerabilities and threats
  3. Zero-day mitigation controls and remediation
  4. Threat model

3. Research security implications of emerging business tools

  1. Evolving social media platforms
  2. Integration within the business
  3. Big Data
  4. AI/machine learning

4. Global IA industry/community

  1. Computer emergency response team (CERT)
  2. Conventions/conferences
  3. Research consultants/vendors
  4. Threat actor activities
  5. Emerging threat sources
Given a scenario, implement security activities across the technology life cycle.

1. Systems development life cycle

  1. Requirements
  2. Acquisition
  3. Test and evaluation
  4. Commissioning/decommissioning
  5. Operational activities
    Configuration and change management
  6. Asset disposal
  7. Asset/object reuse

2. Software development life cycle

  1. Application security frameworks
  2. Software assurance
    Standard libraries
    Industry-accepted approaches
    Web services security (WS-security)
    Forbidden coding techniques
    NX/XN bit use
    ASLR use
    Code quality
    Code analyzers
  3. Development approaches
    Security implications of agile, waterfall and spiral software development methodologies
    Continuous integration
  4. Secure coding standards
  5. Documentation
    Security requirements traceability matrix (SRTM)
    Requirements definition
    System design document
    Testing plans
  6. Validation and acceptance testing
    User acceptance testing
    Unit testing
    Integration testing
    Peer review

3. Adapt solutions to address:

  1. Emerging threats
  2. Disruptive technologies
  3. Security trends

4. Asset management (inventory control)

Explain the importance of interaction across diverse business units to achieve security goals. 1. Interpreting security requirements and goals to communicate with stakeholders from other disciplines
  1. Sales staff
  2. Programmer
  3. Database administrator
  4. Network administrator
  5. Management/executive management
  6. Financial
  7. Human resources
  8. Emergency response team
  9. Facilities manager
  10. Physical security manager
  11. Legal counsel

2. Provide objective guidance and impartial recommendations to staff and senior management on security processes and controls
3. Establish effective collaboration within teams to implement secure solutions
4. Governance, risk and compliance committee

To ensure success in CompTIA CASP Plus certification exam, we recommend authorized training course, practice test and hands-on experience to prepare for CompTIA Advanced Security Practitioner (CAS-003) exam.

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