You're reading from Demystifying Cryptography with OpenSSL 3.0 Discover the best techniques to enhance your network security with OpenSSL 3.0

Product type Paperback

Published in Oct 2022

Publisher Packt

ISBN-13 9781800560345

Length 342 pages

Edition 1st Edition

Languages

Tools

Wireshark

Concepts

Cryptography

Author (1):

Alexei Khlebnikov

View More author details

Table of Contents (20) Chapters

Preface

1. Part 1: Introduction

2. Chapter 1: OpenSSL and Other SSL/TLS Libraries FREE CHAPTER

3. Part 2: Symmetric Cryptography

4. Chapter 2: Symmetric Encryption and Decryption

5. Chapter 3: Message Digests

6. Chapter 4: MAC and HMAC

7. Chapter 5: Derivation of an Encryption Key from a Password

8. Part 3: Asymmetric Cryptography and Certificates

9. Chapter 6: Asymmetric Encryption and Decryption

10. Chapter 7: Digital Signatures and Their Verification

11. Chapter 8: X.509 Certificates and PKI

12. Part 4: TLS Connections and Secure Communication

13. Chapter 9: Establishing TLS Connections and Sending Data over Them

14. Chapter 10: Using X.509 Certificates in TLS

15. Chapter 11: Special Usages of TLS

16. Part 5: Running a Mini-CA

17. Chapter 12: Running a Mini-CA

18. Index

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What is a key derivation function?

A Key Derivation Function (KDF) is a function that derives a secret key of the desired bit length from some other secret material, such as a password, a passphrase, another shared secret, or a combination of asymmetric private and public keys. That other secret material is also called Input Key Material (IKM), while the secret key produced is also called Output Key Material (OKM). IKM and OKM often have different lengths. A KDF typically uses a cryptographic hash function or block cipher operations under the hood.

A Password-Based Key Derivation Function (PBKDF) is a KDF designed to produce secret keys from low-entropy IKMs, such as passwords. Those secret keys can be used as symmetric encryption keys. Another popular application of PBKDFs is password hashing. PBKDFs provide more brute-force-resistant password hashing than cryptographic hash functions alone.

Some key derivation functions are used for key exchange in secure network protocols...