use crate::lib::hash::{sha_checksum, PassKey}; use cfb_mode::stream_cipher::{NewStreamCipher, StreamCipher}; use cfb_mode::Cfb; use des::Des; use rand::Rng; use rayon::prelude::*; use std::sync::Mutex; type DesCfb = Cfb; /// Encrypts data with des pub fn encrypt_data(data: &[u8], key: &[u8]) -> Vec { let iv = rand::thread_rng().gen::<[u8; 8]>(); let mut buffer = data.to_vec(); let mut cipher = DesCfb::new_var(key, &iv).unwrap(); cipher.encrypt(&mut buffer); let mut cipher_text = iv.to_vec(); cipher_text.append(&mut buffer.to_vec()); cipher_text } /// Decrypts data with des pub fn decrypt_data(data: &[u8], key: &[u8]) -> Vec { let iv = &data[..8]; let mut buffer = data[8..].to_vec(); let mut cipher = DesCfb::new_var(&key, &iv).unwrap(); cipher.decrypt(&mut buffer); buffer } /// Decrypts data using a dictionary pub fn decrypt_with_dictionary( data: &[u8], dict: Vec, checksum: &[u8], ) -> Option> { let decrypted = Mutex::>>::new(None); let pass = dict.par_iter().find_first(|(_pw, key)| { let decrypted_data = decrypt_data(&data, key); let decr_check = sha_checksum(&decrypted_data); return if decr_check == checksum { let mut decry = decrypted.lock().unwrap(); *decry = Some(decrypted_data); true } else { false }; }); if let Some((pw, _key)) = pass { println!("\nPassword found: {}", pw); let decry = decrypted.lock().unwrap(); if let Some(decrypted_data) = (*decry).clone() { return Some(decrypted_data); } } None } /// Decrypts data by generating all possible keys pub fn decrypt_brute_brute_force(data: &[u8], checksum: &[u8]) -> Option> { let encryption_key = (0u64..std::u64::MAX) .into_par_iter() .find_first(|num: &u64| { let key: &[u8] = &num.to_le_bytes(); let decrypted_data = decrypt_data(&data, key); let decr_check = sha_checksum(&decrypted_data); decr_check == checksum }); if let Some(num) = encryption_key { let key: &[u8] = &num.to_le_bytes(); println!("Key found: {:?}", key); return Some(decrypt_data(data, key)); } None }