EC-Council Certified Encryption Specialist -ECES(PKI)
Duration : 3 Days (24 Hours)
EC-Council Certified Encryption Specialist -ECES(PKI) Course Overview:
In the ever-evolving and challenging business environment, cybersecurity threats continue to rise, making robust IT security and governance frameworks essential for enterprises. To effectively counter these cybersecurity challenges, organizations require a skilled workforce equipped with the knowledge of best practices to mitigate risks and enhance preparedness for the future.
The EC-Council Certified Encryption Specialist (ECES) Certification course offers an ideal opportunity for professionals seeking to enhance their understanding of cryptography. This comprehensive program delves into the foundations of critical cryptography topics, including algorithms like DES, AES, and Feistel networks. By enrolling in the ECES certification training, individuals can acquire the necessary expertise to implement encryption strategies effectively.
Incorporating cybersecurity best practices through certified professionals can empower enterprises to safeguard their valuable assets and information from potential cyber threats. Don’t miss the chance to strengthen your skills and contribute to a secure digital landscape. Enroll in the EC-Council Certified Encryption Specialist course today to take your cybersecurity knowledge to the next level.
Intended Audience:
- Ethical Hackers
- Penetration Testers
- IT Security Administrator
- Encryption Analysts
- Encryption Specialists
- Information security Analyst
- SOC Security Analyst
- Vulnerability Assessment Analysts
- Solution Architect
- Senior Security Consultant
- Security Compliance Analyst
- Mid-level Security Assurance Auditor
- System Security Administrator
- Network Security Engineer
- Aspiring Encryption Specialists
- Professionals who are looking to clear their ECES certification exam
Learning Objectives of EC-Council Certified Encryption Specialist -ECES(PKI):
- About various types of Encryption Standards and their critical differences
- About selecting the best standard for an enterprise
- Enhancing an individual’s penetration testing knowledge in encryption
- Identifying proper and improper deployment of encryption technologies
- The common mistakes performed while implementing encryption technologies
- Best practices to adopt encryption technologies for an enterprise
- Algorithms such as Twofish, Blowfish, and Skipjack
- Different types of asymmetric cryptography which include SHA, Gost, MD5, MD6, and RIPEMD 256
- Concepts such as Kerchoff’s principle, diffusion, and confusion
Module 1: Introduction and History of Cryptography
- What is Cryptography?
- History
- Mono-Alphabet Substitution
- Caesar Cipher
- Atbash Cipher
- ROT 13
- Scytale
- Single Substitution Weaknesses
- Multi-Alphabet Substitution
- Cipher Disk
- Vigenère Cipher
- Vigenère Cipher: Example
- Breaking the Vigenère Cipher
- Playfair
- The ADFGVX cipher
- The Enigma Machine
- CrypTool
Module 2: Symmetric Cryptography & Hashes
- Symmetric Cryptography
- Information Theory
- Information Theory Cryptography Concepts
- Kerckhoffs’s Principle
- Substitution
- Transposition
- Substitution and Transposition
- Binary M
- ath
- Binary AND
- Binary OR
- Binary XOR
- Block Cipher vs. Stream Cipher
- Symmetric Block Cipher Algorithms
- Basic Facts of the Feistel Function
- The Feistel Function
- A Simple View of a Single Round
- Unbalanced Feistel Cipher
- DES
- 3DES
- DESx
- Whitening
- AES
- AES General Overview
- AES Specifics
- Blowfish
- Serpent
- Twofish
- Skipjack
- IDEA
- Symmetric Algorithm Methods
- Electronic Codebook (ECB)
- Cipher-Block Chaining (CBC)
- Propagating Cipher-Block Chaining (PCBC)
- Cipher Feedback (CFB)
- Output Feedback (OFB)
- Counter (CTR)
- Initialisation Vector (IV)
- Symmetric Stream Ciphers
- Example of Symmetric Stream Ciphers: RC4
- Example of Symmetric Stream Ciphers: FISH
- Example of Symmetric Stream Ciphers: PIKE
- Hash
- Hash – Salt
- MD5
- The MD5 Algorithm
- MD6
- Secure Hash Algorithm (SHA)
- Fork 256
- RIPEMD – 160
- GOST
- Tiger
- CryptoBench
Module 3: Number Theory and Asymmetric Cryptography
- Asymmetric Encryption
- Basic Number Facts
- Prime Numbers
- Co-Prime
- Eulers Totient
- Modulus Operator
- Fibonacci Numbers
- Birthday Problem
- Birthday Theorem
- Birthday Attack
- Random Number Generators
- Classification of Random Number Generators
- Naor-Reingold and Mersenne Twister Pseudorandom Function
- Linear Congruential Generator
- Lehmer Random Number Generator
- Lagged Fibonacci Generator
- Diffie-Hellman
- Rivest Shamir Adleman (RSA)
- RSA – How it Works
- RSA Example
- Menezes–Qu–Vanstone
- Digital Signature Algorithm
- Signing with DSA
- Elliptic Curve
- Elliptic Curve Variations
- Elgamal
- CrypTool
Module 4: Applications of Cryptography
- Digital Signatures
- What is a Digital Certificate?
- Digital Certificates
- X.509
- X.509 Certificates
- X.509 Certificate Content
- X.509 Certificate File Extensions
- Certificate Authority (CA)
- Registration Authority (RA)
- Public Key Infrastructure (PKI)
- Digital Certificate Terminology
- Server-based Certificate Validation Protocol
- Digital Certificate Management
- Trust Models
- Certificates and Web Servers
- Microsoft Certificate Services
- Windows Certificates: certmgr.msc
- Authentication
- Password Authentication Protocol (PAP)
- Shiva Password Authentication Protocol (S-PAP)
- Challenge-Handshake Authentication Protocol (CHAP)
- Kerberos
- Components of Kerberos System
- Pretty Good Privacy (PGP)
- PGP Certificates
- Wifi Encryption
- Wired Equivalent Privacy (WEP)
- WPA – Wi-Fi Protected Access
- WPA2
- SSL
- TLS
- Virtual Private Network (VPN)
- Point-to-Point Tunneling Protocol (PPTP)
- PPTP VPN
- Layer 2 Tunneling Protocol VPN
- Internet Protocol Security VPN
- SSL/VPN
- Encrypting Files
- Backing up the EFS key
- Restoring the EFS Key
- Bitlocker
- Bitlocker: Screenshot
- Disk Encryption Software: Truecrypt
- Steganography
- Steganography Terms
- Historical Steganography
- Steganography Details
- Other Forms of Steganography
- Steganography Implementations
- Demonstration
- Steganalysis
- Steganalysis – Raw Quick Pair
- Steganalysis – Chi-Square Analysis
- Steganalysis – Audio Steganalysis
- Steganography Detection Tools
- National Security Agency and Cryptography
- NSA Suite A Encryption Algorithms
- NSA Suite B Encryption Algorithms
- National Security Agency: Type 1 Algorithms
- National Security Agency: Type 2 Algorithms
- National Security Agency: Type 3 Algorithms
- National Security Agency: Type 4 Algorithms
- Unbreakable Encryption
Module 5: Applications of Cryptography
- Breaking Ciphers
- Cryptanalysis
- Frequency Analysis
- Kasiski
- Cracking Modern Cryptography
- Cracking Modern Cryptography: Chosen Plaintext Attack
- Linear Cryptanalysis
- Differential Cryptanalysis
- Integral Cryptanalysis
- Cryptanalysis Resources
- Cryptanalysis Success
- Rainbow Tables
- Password Cracking
- Tools
EC-Council Certified Encryption Specialist -ECES(PKI) Course Prerequisites:
- 1-year experience in the information security domain along with basic knowledge of cryptanalysis.
Discover the perfect fit for your learning journey
Choose Learning Modality
Live Online
- Convenience
- Cost-effective
- Self-paced learning
- Scalability
Classroom
- Interaction and collaboration
- Networking opportunities
- Real-time feedback
- Personal attention
Onsite
- Familiar environment
- Confidentiality
- Team building
- Immediate application
Training Exclusives
This course comes with following benefits:
- Practice Labs.
- Get Trained by Certified Trainers.
- Access to the recordings of your class sessions for 90 days.
- Digital courseware
- Experience 24*7 learner support.
Got more questions? We’re all ears and ready to assist!