use std::{convert::TryInto, fs::{self, File, create_dir}, io::{self, Read, Write}, path::PathBuf}; use assert_cmd::{Command, cargo::{CargoError, cargo_bin}}; use tempfile::TempDir; use doby::crypto::{CipherAlgorithm, SALT_LEN, HASH_LEN}; const PLAINTEXT: &[u8] = b"the plaintext"; const PASSWORD: &str = "the password"; fn setup_files<'a>() -> io::Result<(PathBuf, PathBuf, PathBuf)> { let tmp_dir = TempDir::new()?; let tmp_path = PathBuf::from(tmp_dir.path()); drop(tmp_dir); create_dir(&tmp_path)?; let tmp_plaintext = tmp_path.join("plaintext"); let tmp_ciphertext = tmp_path.join("ciphertext"); File::create(&tmp_plaintext)?.write_all(PLAINTEXT)?; Ok((tmp_path, tmp_plaintext, tmp_ciphertext)) } fn doby_cmd() -> Result { let mut cmd = Command::cargo_bin("doby")?; cmd.arg("-p").arg(PASSWORD); Ok(cmd) } fn bash_cmd() -> Command { let mut cmd = Command::new("bash"); cmd.arg("-c"); cmd } #[test] fn files() -> io::Result<()> { let (tmp_path, tmp_plaintext, tmp_ciphertext) = setup_files()?; doby_cmd().unwrap().arg(tmp_plaintext).arg(&tmp_ciphertext).assert().success().stdout("").stderr(""); let tmp_decrypted = tmp_path.join("decrypted"); doby_cmd().unwrap().arg(tmp_ciphertext).arg(&tmp_decrypted).assert().success().stdout("").stderr(""); let mut buff = [0; PLAINTEXT.len()]; assert_eq!(File::open(tmp_decrypted)?.read(&mut buff)?, PLAINTEXT.len()); assert_eq!(buff, PLAINTEXT); Ok(()) } #[test] fn stdout() -> io::Result<()> { let (_, tmp_plaintext, tmp_ciphertext) = setup_files()?; let shell_cmd = format!("{} -p \"{}\" {} > {}", cargo_bin("doby").to_str().unwrap(), PASSWORD, tmp_plaintext.to_str().unwrap(), tmp_ciphertext.to_str().unwrap()); bash_cmd().arg(shell_cmd).assert().success().stdout("").stderr(""); doby_cmd().unwrap().arg(tmp_ciphertext).assert().success().stdout(PLAINTEXT); Ok(()) } #[test] fn stdin() -> io::Result<()> { let (_, tmp_plaintext, tmp_ciphertext) = setup_files()?; let mut shell_cmd = format!("cat {} | {} -p \"{}\" - {}", tmp_plaintext.to_str().unwrap(), cargo_bin("doby").to_str().unwrap(), PASSWORD, tmp_ciphertext.to_str().unwrap()); bash_cmd().arg(shell_cmd).assert().success().stdout("").stderr(""); shell_cmd = format!("cat {} | {} -p \"{}\"", tmp_ciphertext.to_str().unwrap(), cargo_bin("doby").to_str().unwrap(), PASSWORD); bash_cmd().arg(shell_cmd).assert().success().stdout(PLAINTEXT); Ok(()) } #[test] fn force_encrypt() -> io::Result<()> { let (tmp_path, tmp_plaintext, tmp_ciphertext_1) = setup_files()?; doby_cmd().unwrap().arg(tmp_plaintext).arg(&tmp_ciphertext_1).assert().success().stdout("").stderr(""); let tmp_ciphertext_2 = tmp_path.join("ciphertext_2"); doby_cmd().unwrap().arg("-f").arg(&tmp_ciphertext_1).arg(&tmp_ciphertext_2).assert().success().stdout("").stderr(""); let buff_ciphertext_1 = fs::read(tmp_ciphertext_1)?; let buff_ciphertext_2 = fs::read(&tmp_ciphertext_2)?; assert_ne!(buff_ciphertext_1, buff_ciphertext_2); assert_ne!(buff_ciphertext_2, PLAINTEXT); assert!(buff_ciphertext_2.len() >= buff_ciphertext_1.len()+142); let tmp_decrypted_1 = tmp_path.join("decrypted_1"); doby_cmd().unwrap().arg(tmp_ciphertext_2).arg(&tmp_decrypted_1).assert().success().stdout("").stderr(""); let buff_decrypted_1 = fs::read(&tmp_decrypted_1)?; assert_eq!(buff_decrypted_1, buff_ciphertext_1); assert_ne!(buff_decrypted_1, PLAINTEXT); let tmp_decrypted_2 = tmp_path.join("decrypted_2"); doby_cmd().unwrap().arg(tmp_decrypted_1).arg(&tmp_decrypted_2).assert().success().stdout("").stderr(""); let buff_decrypted_2 = fs::read(tmp_decrypted_2)?; assert_eq!(buff_decrypted_2, PLAINTEXT); Ok(()) } fn test_cipher(cipher_str: &str, cipher_algorithm: CipherAlgorithm) -> io::Result<()> { let (_, tmp_plaintext, tmp_ciphertext) = setup_files()?; doby_cmd().unwrap().arg("-c").arg(cipher_str).arg(tmp_plaintext).arg(&tmp_ciphertext).assert().success().stdout("").stderr(""); let ciphertext = fs::read(&tmp_ciphertext)?; assert_eq!(ciphertext[4+SALT_LEN+4*2+1], cipher_algorithm as u8); assert_eq!(ciphertext.len(), PLAINTEXT.len()+14+SALT_LEN+HASH_LEN); doby_cmd().unwrap().arg(tmp_ciphertext).assert().success().stdout(PLAINTEXT).stderr(""); Ok(()) } #[test] fn xchacha20_cipher() -> io::Result<()> { test_cipher("xchacha20", CipherAlgorithm::XChaCha20)?; Ok(()) } #[test] fn aes_cipher() -> io::Result<()> { test_cipher("aes", CipherAlgorithm::AesCtr)?; Ok(()) } #[test] fn argon2_params() -> io::Result<()> { Command::cargo_bin("doby").unwrap().arg("-i").arg("0").assert().failure().stderr("Invalid argon2 params: time cost is too small\n"); Command::cargo_bin("doby").unwrap().arg("-m").arg("0").assert().failure().stderr("Invalid argon2 params: memory cost is too small\n"); Command::cargo_bin("doby").unwrap().arg("-t").arg("0").assert().failure().stderr("Invalid argon2 params: too few lanes\n"); let ciphertext = doby_cmd().unwrap().arg("-i").arg("8").arg("-m").arg("2048").arg("-t").arg("8").assert().success().stderr("").get_output().stdout.clone(); assert_eq!(u32::from_be_bytes(ciphertext[4+SALT_LEN..4+SALT_LEN+4].try_into().unwrap()), 8); //time cost assert_eq!(u32::from_be_bytes(ciphertext[4+SALT_LEN+4..4+SALT_LEN+8].try_into().unwrap()), 2048); //memory cost assert_eq!(u8::from_be_bytes([ciphertext[4+SALT_LEN+8]]), 8); //parallelism Ok(()) }