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chacha20
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encrypt, decrypt, keygen all work

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Avril 4 years ago
parent e0ad43f365
commit 4f89807a04
Signed by: flanchan
GPG Key ID: 284488987C31F630
2 changed files with 59 additions and 50 deletions
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2
Cargo.toml
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@ -1,7 +1,7 @@
[package] [package]
name = "chacha20" name = "chacha20"
description = "chacha20_poly1305 encryption tool" description = "chacha20_poly1305 encryption tool"
version = "0.1.0" version = "1.0.0"
authors = ["Avril <flanchan@cumallover.me>"] authors = ["Avril <flanchan@cumallover.me>"]
edition = "2018" edition = "2018"

107
src/main.rs
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@ -1,4 +1,6 @@
#![allow(dead_code)]
mod ext; #[macro_use] use ext::*; mod ext; #[macro_use] use ext::*;
mod key; mod key;
@ -6,50 +8,45 @@ mod cha;
mod stream; mod stream;
use key::{Key, IV}; use key::{Key, IV};
/*
fn encrypt((key, iv): &(Key, IV), input: impl AsRef<[u8]>) -> Result<String, openssl::error::ErrorStack>
{
let input = input.as_ref();
let mut output = vec![0u8; input.len()];
eprintln!("(enc) Key: {}, IV: {}, Input: ({}, {})", key, iv, input.len(), input.hex());
let mut enc = cha::encrypter(key, iv)?;
let n = enc.update(&input[..], &mut output[..])?;
eprintln!("(enc) Written {} bytes", n);
println!(">> {}", (&output[..n]).hex());
assert!(enc.finalize(&mut output[..n])? == 0);
println!(">> {}", (&output[..n]).hex());
Ok(base64::encode(&output[..n])) #[derive(Debug, Clone, PartialEq, Eq, Hash)]
pub enum Mode
{
Encrypt, Decrypt, Keygen
} }
fn decrypt((key, iv): &(Key, IV), input: impl AsRef<str>) -> Result<Vec<u8>, openssl::error::ErrorStack> fn keys() -> Result<(Mode, Key, IV), base64::DecodeError>
{ {
let input = base64::decode(input.as_ref()).expect("invalid base64"); let mut args = std::env::args();
let mut output = vec![0u8; input.len()]; let prog_name = args.next().unwrap();
eprintln!("(dec) Key: {}, IV: {}, Input: ({}, {})", key, iv, input.len(), input.hex());
let mut dec = cha::decrypter(key, iv)?;
let n = dec.update(&input[..], &mut output[..])?;
eprintln!("(dec) Written {} bytes", n);
println!(">> {}", (&output[..n]).hex());
assert!(dec.finalize(&mut output[..n])? == 0);
// assert!(dec.finalize(&mut output[..n])? == 0);
println!(">> {}", (&output[..n]).hex());
output.truncate(n); let mode = match args.next()
Ok(output) .map(|x| x.chars().next().map(|x| x.to_ascii_lowercase()))
}*/ .flatten()
{
fn keys() -> Result<(Key, IV), base64::DecodeError> Some('e') => Mode::Encrypt,
{ Some('d') => Mode::Decrypt,
let mut args = std::env::args().skip(1); Some('k') => {
let (key, iv) = cha::keygen();
return Ok((Mode::Keygen, key, iv));
},
_ => {
eprintln!("{} (v{}) - chacha20_poly1305 command line encryption tool",
env!("CARGO_PKG_NAME"),
env!("CARGO_PKG_VERSION"));
eprintln!(" by {} with <3 (licensed GPL v3.0 or later)", env!("CARGO_PKG_AUTHORS"));
eprintln!("\nStreams stdin to stdout through a chacha20_poly1305 cipher.");
eprintln!();
eprintln!("Usage: {} encrypt [<base64 key>] [<base64 iv>]", prog_name);
eprintln!("Usage: {} decrypt [<base64 key>] [<base64 iv>]", prog_name);
eprintln!("Usage: {} keygen", prog_name);
eprintln!();
eprintln!("(Key size is {}, IV size is {})\n", cha::KEY_SIZE, cha::IV_SIZE);
eprintln!("encrypt/decrypt:\n\tIf key and/or IV are not provided, they are generated randomly and printed to stderr in order on one line each");
eprintln!("keygen:\n\tThe key/iv is printed in the same way as auto-generated keys for the en/decryption modes, but to stdout instead of stderr");
std::process::exit(1)
}
};
let key = match args.next() { let key = match args.next() {
Some(key) => key.parse()?, Some(key) => key.parse()?,
@ -62,27 +59,39 @@ fn keys() -> Result<(Key, IV), base64::DecodeError>
let iv = match args.next() { let iv = match args.next() {
Some(iv) => iv.parse()?, Some(iv) => iv.parse()?,
None => { None => {
let key = IV::new(); let iv = IV::new();
eprintln!("{}", base64::encode(&key)); eprintln!("{}", base64::encode(&iv));
key iv
}, },
}; };
Ok((key, iv)) Ok((mode, key, iv))
} }
fn main() { fn main() {
let (key, iv) = keys().expect("Failed to read keys from argv (base64)"); let (mode, key, iv) = keys().expect("Failed to read keys from argv (base64)");
let stdout = std::io::stdout(); let stdout = std::io::stdout();
let input = std::io::stdin(); let input = std::io::stdin();
// Encryption // Streaming
use std::io::Write;
match mode
{ {
use std::io::Write; Mode::Encrypt => {
let mut output = stream::Sink::encrypt(stdout.lock(), key, iv).expect("Failed to create encrypter"); let mut output = stream::Sink::encrypt(stdout.lock(), key, iv).expect("Failed to create encrypter");
std::io::copy(&mut input.lock(), &mut output).expect("Failed to encrypt"); std::io::copy(&mut input.lock(), &mut output).expect("Failed to encrypt");
output.flush().expect("Failed to flush stdout"); output.flush().expect("Failed to flush stdout");
},
Mode::Decrypt => {
let mut output = stream::Sink::decrypt(stdout.lock(), key, iv).expect("Failed to create encrypter");
std::io::copy(&mut input.lock(), &mut output).expect("Failed to encrypt");
output.flush().expect("Failed to flush stdout");
},
Mode::Keygen => {
println!("{}", base64::encode(&key));
println!("{}", base64::encode(&iv));
},
} }
} }

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