| // Copyright 2015-2016 Brian Smith. |
| // |
| // Permission to use, copy, modify, and/or distribute this software for any |
| // purpose with or without fee is hereby granted, provided that the above |
| // copyright notice and this permission notice appear in all copies. |
| // |
| // THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHORS DISCLAIM ALL WARRANTIES |
| // WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF |
| // MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY |
| // SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES |
| // WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION |
| // OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN |
| // CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. |
| |
| #![cfg(any(not(target_arch = "wasm32"), feature = "wasm32_c"))] |
| |
| #[cfg(target_arch = "wasm32")] |
| use wasm_bindgen_test::{wasm_bindgen_test, wasm_bindgen_test_configure}; |
| |
| #[cfg(target_arch = "wasm32")] |
| wasm_bindgen_test_configure!(run_in_browser); |
| |
| use core::ops::RangeFrom; |
| use ring::{aead, error, test, test_file}; |
| |
| #[test] |
| #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] |
| fn aead_aes_gcm_128() { |
| test_aead( |
| &aead::AES_128_GCM, |
| seal_with_key, |
| open_with_key, |
| test_file!("aead_aes_128_gcm_tests.txt"), |
| ); |
| test_aead( |
| &aead::AES_128_GCM, |
| seal_with_less_safe_key, |
| open_with_less_safe_key, |
| test_file!("aead_aes_128_gcm_tests.txt"), |
| ); |
| } |
| |
| #[test] |
| #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] |
| fn aead_aes_gcm_256() { |
| test_aead( |
| &aead::AES_256_GCM, |
| seal_with_key, |
| open_with_key, |
| test_file!("aead_aes_256_gcm_tests.txt"), |
| ); |
| test_aead( |
| &aead::AES_256_GCM, |
| seal_with_less_safe_key, |
| open_with_less_safe_key, |
| test_file!("aead_aes_256_gcm_tests.txt"), |
| ); |
| } |
| |
| #[cfg(any( |
| target_arch = "aarch64", |
| target_arch = "arm", |
| target_arch = "x86_64", |
| target_arch = "x86" |
| ))] |
| #[test] |
| fn aead_chacha20_poly1305() { |
| test_aead( |
| &aead::CHACHA20_POLY1305, |
| seal_with_key, |
| open_with_key, |
| test_file!("aead_chacha20_poly1305_tests.txt"), |
| ); |
| test_aead( |
| &aead::CHACHA20_POLY1305, |
| seal_with_less_safe_key, |
| open_with_less_safe_key, |
| test_file!("aead_chacha20_poly1305_tests.txt"), |
| ); |
| } |
| |
| fn test_aead<Seal, Open>( |
| aead_alg: &'static aead::Algorithm, |
| seal: Seal, |
| open: Open, |
| test_file: test::File, |
| ) where |
| Seal: Fn( |
| &'static aead::Algorithm, |
| &[u8], |
| aead::Nonce, |
| aead::Aad<&[u8]>, |
| &mut Vec<u8>, |
| ) -> Result<(), error::Unspecified>, |
| Open: for<'a> Fn( |
| &'static aead::Algorithm, |
| &[u8], |
| aead::Nonce, |
| aead::Aad<&[u8]>, |
| &'a mut [u8], |
| RangeFrom<usize>, |
| ) -> Result<&'a mut [u8], error::Unspecified>, |
| { |
| test_aead_key_sizes(aead_alg); |
| |
| test::run(test_file, |section, test_case| { |
| assert_eq!(section, ""); |
| let key_bytes = test_case.consume_bytes("KEY"); |
| let nonce_bytes = test_case.consume_bytes("NONCE"); |
| let plaintext = test_case.consume_bytes("IN"); |
| let aad = test_case.consume_bytes("AD"); |
| let mut ct = test_case.consume_bytes("CT"); |
| let tag = test_case.consume_bytes("TAG"); |
| let error = test_case.consume_optional_string("FAILS"); |
| |
| match &error { |
| Some(err) if err == "WRONG_NONCE_LENGTH" => { |
| assert!(aead::Nonce::try_assume_unique_for_key(&nonce_bytes).is_err()); |
| return Ok(()); |
| } |
| _ => (), |
| }; |
| |
| let mut s_in_out = plaintext.clone(); |
| let nonce = aead::Nonce::try_assume_unique_for_key(&nonce_bytes).unwrap(); |
| let s_result = seal( |
| aead_alg, |
| &key_bytes[..], |
| nonce, |
| aead::Aad::from(&aad[..]), |
| &mut s_in_out, |
| ); |
| |
| ct.extend(tag); |
| |
| if s_result.is_ok() { |
| assert_eq!(&ct, &s_in_out); |
| } |
| |
| // In release builds, test all prefix lengths from 0 to 4096 bytes. |
| // Debug builds are too slow for this, so for those builds, only |
| // test a smaller subset. |
| |
| // TLS record headers are 5 bytes long. |
| // TLS explicit nonces for AES-GCM are 8 bytes long. |
| static MINIMAL_IN_PREFIX_LENS: [usize; 36] = [ |
| // No input prefix to overwrite; i.e. the opening is exactly |
| // "in place." |
| 0, |
| 1, |
| 2, |
| // Proposed TLS 1.3 header (no explicit nonce). |
| 5, |
| 8, |
| // Probably the most common use of a non-zero `in_prefix_len` |
| // would be to write a decrypted TLS record over the top of the |
| // TLS header and nonce. |
| 5 /* record header */ + 8, /* explicit nonce */ |
| // The stitched AES-GCM x86-64 code works on 6-block (96 byte) |
| // units. Some of the ChaCha20 code is even weirder. |
| 15, // The maximum partial AES block. |
| 16, // One AES block. |
| 17, // One byte more than a full AES block. |
| 31, // 2 AES blocks or 1 ChaCha20 block, minus 1. |
| 32, // Two AES blocks, one ChaCha20 block. |
| 33, // 2 AES blocks or 1 ChaCha20 block, plus 1. |
| 47, // Three AES blocks - 1. |
| 48, // Three AES blocks. |
| 49, // Three AES blocks + 1. |
| 63, // Four AES blocks or two ChaCha20 blocks, minus 1. |
| 64, // Four AES blocks or two ChaCha20 blocks. |
| 65, // Four AES blocks or two ChaCha20 blocks, plus 1. |
| 79, // Five AES blocks, minus 1. |
| 80, // Five AES blocks. |
| 81, // Five AES blocks, plus 1. |
| 95, // Six AES blocks or three ChaCha20 blocks, minus 1. |
| 96, // Six AES blocks or three ChaCha20 blocks. |
| 97, // Six AES blocks or three ChaCha20 blocks, plus 1. |
| 111, // Seven AES blocks, minus 1. |
| 112, // Seven AES blocks. |
| 113, // Seven AES blocks, plus 1. |
| 127, // Eight AES blocks or four ChaCha20 blocks, minus 1. |
| 128, // Eight AES blocks or four ChaCha20 blocks. |
| 129, // Eight AES blocks or four ChaCha20 blocks, plus 1. |
| 143, // Nine AES blocks, minus 1. |
| 144, // Nine AES blocks. |
| 145, // Nine AES blocks, plus 1. |
| 255, // 16 AES blocks or 8 ChaCha20 blocks, minus 1. |
| 256, // 16 AES blocks or 8 ChaCha20 blocks. |
| 257, // 16 AES blocks or 8 ChaCha20 blocks, plus 1. |
| ]; |
| |
| let mut more_comprehensive_in_prefix_lengths = [0; 4096]; |
| let in_prefix_lengths = if cfg!(debug_assertions) { |
| &MINIMAL_IN_PREFIX_LENS[..] |
| } else { |
| #[allow(clippy::needless_range_loop)] |
| for b in 0..more_comprehensive_in_prefix_lengths.len() { |
| more_comprehensive_in_prefix_lengths[b] = b; |
| } |
| &more_comprehensive_in_prefix_lengths[..] |
| }; |
| let mut o_in_out = vec![123u8; 4096]; |
| |
| for &in_prefix_len in in_prefix_lengths.iter() { |
| o_in_out.truncate(0); |
| o_in_out.resize(in_prefix_len, 123); |
| o_in_out.extend_from_slice(&ct[..]); |
| |
| let nonce = aead::Nonce::try_assume_unique_for_key(&nonce_bytes).unwrap(); |
| let o_result = open( |
| aead_alg, |
| &key_bytes, |
| nonce, |
| aead::Aad::from(&aad[..]), |
| &mut o_in_out, |
| in_prefix_len.., |
| ); |
| match error { |
| None => { |
| assert!(s_result.is_ok()); |
| assert_eq!(&plaintext[..], o_result.unwrap()); |
| } |
| Some(ref error) if error == "WRONG_NONCE_LENGTH" => { |
| assert_eq!(Err(error::Unspecified), s_result); |
| assert_eq!(Err(error::Unspecified), o_result); |
| } |
| Some(error) => { |
| unreachable!("Unexpected error test case: {}", error); |
| } |
| }; |
| } |
| |
| Ok(()) |
| }); |
| } |
| |
| fn seal_with_key( |
| algorithm: &'static aead::Algorithm, |
| key: &[u8], |
| nonce: aead::Nonce, |
| aad: aead::Aad<&[u8]>, |
| in_out: &mut Vec<u8>, |
| ) -> Result<(), error::Unspecified> { |
| let mut s_key: aead::SealingKey<OneNonceSequence> = make_key(algorithm, key, nonce); |
| s_key.seal_in_place_append_tag(aad, in_out) |
| } |
| |
| fn open_with_key<'a>( |
| algorithm: &'static aead::Algorithm, |
| key: &[u8], |
| nonce: aead::Nonce, |
| aad: aead::Aad<&[u8]>, |
| in_out: &'a mut [u8], |
| ciphertext_and_tag: RangeFrom<usize>, |
| ) -> Result<&'a mut [u8], error::Unspecified> { |
| let mut o_key: aead::OpeningKey<OneNonceSequence> = make_key(algorithm, key, nonce); |
| o_key.open_within(aad, in_out, ciphertext_and_tag) |
| } |
| |
| fn seal_with_less_safe_key( |
| algorithm: &'static aead::Algorithm, |
| key: &[u8], |
| nonce: aead::Nonce, |
| aad: aead::Aad<&[u8]>, |
| in_out: &mut Vec<u8>, |
| ) -> Result<(), error::Unspecified> { |
| let key = make_less_safe_key(algorithm, key); |
| key.seal_in_place_append_tag(nonce, aad, in_out) |
| } |
| |
| fn open_with_less_safe_key<'a>( |
| algorithm: &'static aead::Algorithm, |
| key: &[u8], |
| nonce: aead::Nonce, |
| aad: aead::Aad<&[u8]>, |
| in_out: &'a mut [u8], |
| ciphertext_and_tag: RangeFrom<usize>, |
| ) -> Result<&'a mut [u8], error::Unspecified> { |
| let key = make_less_safe_key(algorithm, key); |
| key.open_within(nonce, aad, in_out, ciphertext_and_tag) |
| } |
| |
| #[allow(clippy::range_plus_one)] |
| fn test_aead_key_sizes(aead_alg: &'static aead::Algorithm) { |
| let key_len = aead_alg.key_len(); |
| let key_data = vec![0u8; key_len * 2]; |
| |
| // Key is the right size. |
| assert!(aead::UnboundKey::new(aead_alg, &key_data[..key_len]).is_ok()); |
| |
| // Key is one byte too small. |
| assert!(aead::UnboundKey::new(aead_alg, &key_data[..(key_len - 1)]).is_err()); |
| |
| // Key is one byte too large. |
| assert!(aead::UnboundKey::new(aead_alg, &key_data[..(key_len + 1)]).is_err()); |
| |
| // Key is half the required size. |
| assert!(aead::UnboundKey::new(aead_alg, &key_data[..(key_len / 2)]).is_err()); |
| |
| // Key is twice the required size. |
| assert!(aead::UnboundKey::new(aead_alg, &key_data[..(key_len * 2)]).is_err()); |
| |
| // Key is empty. |
| assert!(aead::UnboundKey::new(aead_alg, &[]).is_err()); |
| |
| // Key is one byte. |
| assert!(aead::UnboundKey::new(aead_alg, &[0]).is_err()); |
| } |
| |
| // Test that we reject non-standard nonce sizes. |
| #[allow(clippy::range_plus_one)] |
| #[test] |
| fn test_aead_nonce_sizes() -> Result<(), error::Unspecified> { |
| let nonce_len = aead::NONCE_LEN; |
| let nonce = vec![0u8; nonce_len * 2]; |
| |
| assert!(aead::Nonce::try_assume_unique_for_key(&nonce[..nonce_len]).is_ok()); |
| assert!(aead::Nonce::try_assume_unique_for_key(&nonce[..(nonce_len - 1)]).is_err()); |
| assert!(aead::Nonce::try_assume_unique_for_key(&nonce[..(nonce_len + 1)]).is_err()); |
| assert!(aead::Nonce::try_assume_unique_for_key(&nonce[..(nonce_len / 2)]).is_err()); |
| assert!(aead::Nonce::try_assume_unique_for_key(&nonce[..(nonce_len * 2)]).is_err()); |
| assert!(aead::Nonce::try_assume_unique_for_key(&[]).is_err()); |
| assert!(aead::Nonce::try_assume_unique_for_key(&nonce[..1]).is_err()); |
| assert!(aead::Nonce::try_assume_unique_for_key(&nonce[..16]).is_err()); // 128 bits. |
| |
| Ok(()) |
| } |
| |
| #[cfg(any( |
| target_arch = "aarch64", |
| target_arch = "arm", |
| target_arch = "x86_64", |
| target_arch = "x86" |
| ))] |
| #[allow(clippy::range_plus_one)] |
| #[test] |
| fn aead_chacha20_poly1305_openssh() { |
| // TODO: test_aead_key_sizes(...); |
| |
| test::run( |
| test_file!("aead_chacha20_poly1305_openssh_tests.txt"), |
| |section, test_case| { |
| assert_eq!(section, ""); |
| |
| // XXX: `polyfill::convert` isn't available here. |
| let key_bytes = { |
| let as_vec = test_case.consume_bytes("KEY"); |
| let mut as_array = [0u8; aead::chacha20_poly1305_openssh::KEY_LEN]; |
| as_array.copy_from_slice(&as_vec); |
| as_array |
| }; |
| |
| let sequence_number = test_case.consume_usize("SEQUENCE_NUMBER"); |
| assert_eq!(sequence_number as u32 as usize, sequence_number); |
| let sequence_num = sequence_number as u32; |
| let plaintext = test_case.consume_bytes("IN"); |
| let ct = test_case.consume_bytes("CT"); |
| let expected_tag = test_case.consume_bytes("TAG"); |
| |
| // TODO: Add some tests for when things fail. |
| //let error = test_case.consume_optional_string("FAILS"); |
| |
| let mut tag = [0u8; aead::chacha20_poly1305_openssh::TAG_LEN]; |
| let mut s_in_out = plaintext.clone(); |
| let s_key = aead::chacha20_poly1305_openssh::SealingKey::new(&key_bytes); |
| s_key.seal_in_place(sequence_num, &mut s_in_out[..], &mut tag); |
| assert_eq!(&ct, &s_in_out); |
| assert_eq!(&expected_tag, &tag); |
| let o_key = aead::chacha20_poly1305_openssh::OpeningKey::new(&key_bytes); |
| |
| { |
| let o_result = o_key.open_in_place(sequence_num, &mut s_in_out[..], &tag); |
| assert_eq!(o_result, Ok(&plaintext[4..])); |
| } |
| assert_eq!(&s_in_out[..4], &ct[..4]); |
| assert_eq!(&s_in_out[4..], &plaintext[4..]); |
| |
| Ok(()) |
| }, |
| ); |
| } |
| |
| #[test] |
| #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] |
| fn test_tag_traits() { |
| test::compile_time_assert_send::<aead::Tag>(); |
| test::compile_time_assert_sync::<aead::Tag>(); |
| } |
| |
| #[test] |
| #[cfg_attr(target_arch = "wasm32", wasm_bindgen_test)] |
| fn test_aead_key_debug() { |
| let key_bytes = [0; 32]; |
| let nonce = [0; aead::NONCE_LEN]; |
| |
| let key = aead::UnboundKey::new(&aead::AES_256_GCM, &key_bytes).unwrap(); |
| assert_eq!( |
| "UnboundKey { algorithm: AES_256_GCM }", |
| format!("{:?}", key) |
| ); |
| |
| let sealing_key: aead::SealingKey<OneNonceSequence> = make_key( |
| &aead::AES_256_GCM, |
| &key_bytes, |
| aead::Nonce::try_assume_unique_for_key(&nonce).unwrap(), |
| ); |
| assert_eq!( |
| "SealingKey { algorithm: AES_256_GCM }", |
| format!("{:?}", sealing_key) |
| ); |
| |
| let opening_key: aead::OpeningKey<OneNonceSequence> = make_key( |
| &aead::AES_256_GCM, |
| &key_bytes, |
| aead::Nonce::try_assume_unique_for_key(&nonce).unwrap(), |
| ); |
| assert_eq!( |
| "OpeningKey { algorithm: AES_256_GCM }", |
| format!("{:?}", opening_key) |
| ); |
| |
| let key: aead::LessSafeKey = make_less_safe_key(&aead::AES_256_GCM, &key_bytes); |
| assert_eq!( |
| "LessSafeKey { algorithm: AES_256_GCM }", |
| format!("{:?}", key) |
| ); |
| } |
| |
| fn make_key<K: aead::BoundKey<OneNonceSequence>>( |
| algorithm: &'static aead::Algorithm, |
| key: &[u8], |
| nonce: aead::Nonce, |
| ) -> K { |
| let key = aead::UnboundKey::new(algorithm, key).unwrap(); |
| let nonce_sequence = OneNonceSequence::new(nonce); |
| K::new(key, nonce_sequence) |
| } |
| |
| fn make_less_safe_key(algorithm: &'static aead::Algorithm, key: &[u8]) -> aead::LessSafeKey { |
| let key = aead::UnboundKey::new(algorithm, key).unwrap(); |
| aead::LessSafeKey::new(key) |
| } |
| |
| struct OneNonceSequence(Option<aead::Nonce>); |
| |
| impl OneNonceSequence { |
| /// Constructs the sequence allowing `advance()` to be called |
| /// `allowed_invocations` times. |
| fn new(nonce: aead::Nonce) -> Self { |
| Self(Some(nonce)) |
| } |
| } |
| |
| impl aead::NonceSequence for OneNonceSequence { |
| fn advance(&mut self) -> Result<aead::Nonce, error::Unspecified> { |
| self.0.take().ok_or(error::Unspecified) |
| } |
| } |