Practical Cryptography for Developers
master-zh
master-zh
  • Welcome
  • 前言
  • 密码学——概述
  • 哈希函数
    • 加密哈希和碰撞
    • 哈希函数:应用场景
    • 安全哈希算法
    • 哈希函数——示例
    • 练习:计算哈希值
    • 工作量证明(Proof-of-Work)哈希函数
  • MAC 和密钥派生
    • HMAC 与密钥派生
    • HMAC 计算——示例
    • 练习:计算 HMAC
    • KDF: Deriving Key from Password
    • PBKDF2
    • Modern Key Derivation Functions
    • Scrypt
    • Bcrypt
    • Linux crypt()
    • Argon2
    • Secure Password Storage
    • Exercises: Password Encryption
  • Secure Random Generators
    • Pseudo-Random Numbers - Examples
    • Secure Random Generators (CSPRNG)
    • Exercises: Pseudo-Random Generator
  • Key Exchange and DHKE
    • Diffie–Hellman Key Exchange
    • DHKE - Examples
    • Exercises: DHKE Key Exchange
  • Encryption: Symmetric and Asymmetric
  • Symmetric Key Ciphers
    • Cipher Block Modes
    • Popular Symmetric Algorithms
    • The AES Cipher - Concepts
    • AES Encrypt / Decrypt - Examples
    • Ethereum Wallet Encryption
    • Exercises: AES Encrypt / Decrypt
    • ChaCha20-Poly1305
    • Exercises: ChaCha20-Poly1305
  • Asymmetric Key Ciphers
    • The RSA Cryptosystem - Concepts
    • RSA Encrypt / Decrypt - Examples
    • Exercises: RSA Encrypt / Decrypt
    • Elliptic Curve Cryptography (ECC)
    • ECDH Key Exchange
    • ECDH Key Exchange - Examples
    • Exercises: ECDH Key Exchange
    • ECC Encryption / Decryption
    • ECIES Hybrid Encryption Scheme
    • ECIES Encryption - Example
    • Exercises: ECIES Encrypt / Decrypt
  • Digital Signatures
    • RSA Signatures
    • RSA: Sign / Verify - Examples
    • Exercises: RSA Sign and Verify
    • ECDSA: Elliptic Curve Signatures
    • ECDSA: Sign / Verify - Examples
    • Exercises: ECDSA Sign and Verify
    • EdDSA and Ed25519
    • EdDSA: Sign / Verify - Examples
    • Exercises: EdDSA Sign and Verify
  • Quantum-Safe Cryptography
    • Quantum-Safe Signatures - Example
    • Quantum-Safe Key Exchange - Example
    • Quantum-Safe Asymmetric Encryption - Example
  • More Cryptographic Concepts
    • Digital Certificates - Example
    • TLS - Example
    • One-Time Passwords (OTP) - Example
  • Crypto Libraries for Developers
    • JavaScript Crypto Libraries
    • Python Crypto Libraries
    • C# Crypto Libraries
    • Java Crypto Libraries
  • Conclusion
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  1. Secure Random Generators

Exercises: Pseudo-Random Generator

Write a code to generate 30 pseudo-random integers in the range [1...10], starting from certain entropy, taken as input, using HMAC key derivation.

From the entropy generate a seed (256-bit binary sequence) using SHA-256:

seed = SHA256(entropy)

Generate the n-th random number by the formula:

1 + HMAC-SHA256(n, seed) % 10

Print the numbers at the output, separated by space.

Sample input and corresponding output:

Input

Output

hello

8 4 10 5 5 3 5 7 10 6 4 9 2 3 2 8 3 3 10 6 8 10 9 10 1 3 6 4 4 10

random text

10 5 5 9 7 4 2 9 2 1 10 4 8 9 8 1 8 6 5 7 5 4 3 4 6 6 9 8 1 1

fun

6 5 9 2 2 5 1 6 10 10 10 1 8 10 6 9 2 1 5 10 1 4 8 5 6 3 8 4 2 1

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Last updated 5 years ago

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