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A comprehensive framework built in Python that serves as a library containing various implementations of cryptographic and mathematical algorithms. It is also designed to help you solve cryptography challenges for any CTF platform.

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CipherSecurity Framework

CipherSecurity Framework is a comprehensive assistant designed to help you solve cryptography challenges on any CTF platform. It also serves as a library containing various implementations of cryptographic and mathematical algorithms.

Features

  • Classic Encryption: Implementations of Caesar cipher, Vigenère cipher, Hill cipher, Playfair cipher, and more.
  • Modern Encryption: DES, RSA, Deffie-Hellman key exchange, ElGamal encryption, and other modern cryptographic algorithms.
  • Hashing: MD5, SHA-1, SHA-256, and other hashing functions.
  • Encoding: Base64, Hex, etc.
  • Digital Signatures: RSA, DSA, Elgmal Digital Signature implementations.
  • Mathematical Algorithms: Prime number generation, modular arithmetic, GCD, and more.
  • Tests: Comprehensive tests for all implemented algorithms to ensure correctness.

Getting Started

Prerequisites

Make sure you have Python 3.7+ installed on your system.

Installation

Clone the repository:

git clone https://github.com/Arttacker/CipherSecurity.git
cd CipherSecurity

Install the required packages:

pip install -r requirements.txt

Usage

You can use the framework to solve cryptographic challenges or as a library in your own projects.

Example usage for a few different algorithms:

Classic Encryption Example: Caesar Cipher

from encryption.classic import caesar

# Encrypt a message using Caesar Cipher
message = "HELLO WORLD"
shift = 3
encrypted_message = caesar.encrypt(message, shift)
print(f"Encrypted Message: {encrypted_message}")

# Decrypt a message using Caesar Cipher
decrypted_message = caesar.decrypt(encrypted_message, shift)
print(f"Decrypted Message: {decrypted_message}")

Mathematical Algorithm Example: Modular Inverse

from math_algorithms.euclidean import mod_inv

# Calculate the modular inverse
a = 23
m = 26
mod_inv = mod_inv(a, m)
print(f"Modular Inverse of {a} mod {m} is {mod_inv}")

Running Tests

To run the tests, use the following command:

pytest

License

This project is licensed under the MIT License - see the LICENSE file for details.

Contact

For any inquiries, please reach out to artacker404@gmail.com.


Happy Hacking 😈!

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A comprehensive framework built in Python that serves as a library containing various implementations of cryptographic and mathematical algorithms. It is also designed to help you solve cryptography challenges for any CTF platform.

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