Skip to content

Latest commit

 

History

History
25 lines (13 loc) · 2.81 KB

File metadata and controls

25 lines (13 loc) · 2.81 KB

Welcome

Warning: this book is not finished! I am still working on some of the chapters. Once it is completed, I will publish it as PDF and EPUB. Be patient.

Practical Cryptography for Developers - Free Book by Svetlin Nakov - front cover

A modern practical book about cryptography for developers with code examples, covering core concepts like: hashes (like SHA-3 and BLAKE2), MAC codes (like HMAC and GMAC), key derivation functions (like Scrypt, Argon2), key agreement protocols (like DHKE, ECDH), symmetric ciphers (like AES and ChaCha20, cipher block modes, authenticated encryption, AEAD, AES-GCM, ChaCha20-Poly1305), asymmetric ciphers and public-key cryptosystems (RSA, ECC, ECIES), elliptic curve cryptography (ECC, secp256k1, curve25519), digital signatures (ECDSA and EdDSA), secure random numbers (PRNG, CSRNG) and quantum-safe cryptography, along with crypto libraries and developer tools, with a lots of code examples in Python and other languages.

Author: Svetlin Nakov, PhD - https://nakov.com

Contributors: Milen Stefanov, Marina Shideroff

Sponsor: SoftUni (Software University) - https://softuni.org

ISBN: 978-619-00-0870-5 (9786190008705)

This book is free and open-source, published under the MIT license.

Official Web site: https://cryptobook.nakov.com

Official GitHub repo: https://github.com/nakov/practical-cryptography-for-developers-book.

Sofia, November 2018

Tags: cryptography, free, book, Nakov, Svetlin Nakov, hashes, hash function, SHA-256, SHA3, BLAKE2, RIPEMD, MAC, message authentication code, HMAC, KDF, key derivation, key derivation function, PBKDF2, Scrypt, Bcrypt, Argon2, password hashing, random generator, pseudo-random numbers, CSPRNG, secure random generator, key exchange, key agreement, Diffie-Hellman, DHKE, ECDH, symmetric ciphers, asymmetric ciphers, public key cryptosystems, symmetric cryptography, AES, Rijndael, cipher block mode, AES-CTR, AES-GCM, ChaCha20-Poly1305, authenticated encryption, encryption scheme, public key cryptography, RSA, ECC, elliptic curves, secp256k1, curve25519, EC points, EC domain parameters, ECDH key agreement, asymmetric encryption scheme, hybrid encryption, ECIES, digital signature, RSA signature, DSA, ECDSA, EdDSA, ElGammal signature, Schnorr signature, quantum-safe cryptography, digital certificates, TLS, OAuth, multi-factor authentication, crypto libraries, Python cryptography, JavaScript cryptography, C# cryptography, Java cryptography, C++ cryptography, PHP cryptography.