simploxide_client/crypto/
native.rs1use poly1305::{
4 Block as MacBlock, Poly1305,
5 universal_hash::{KeyInit, UniversalHash},
6};
7use salsa20::{
8 XSalsa20,
9 cipher::{Array, KeyIvInit, StreamCipher, typenum::U10},
10 hsalsa,
11};
12use subtle::ConstantTimeEq as _;
13use zeroize::{Zeroize as _, Zeroizing};
14
15use super::{Poly1305Tag, SimplexSecretBox, XSalsa20Key, XSalsa20Nonce};
16
17pub struct SecretBox {
18 cipher: XSalsa20,
19 mac: Poly1305,
20 mac_tail: Zeroizing<[u8; 16]>,
22 mac_tail_len: usize,
23}
24
25impl SecretBox {
26 fn update_mac(&mut self, data: &[u8]) {
29 let mut pos = 0;
30
31 if self.mac_tail_len > 0 {
33 let rem = std::cmp::min(16 - self.mac_tail_len, data.len());
34 self.mac_tail[self.mac_tail_len..self.mac_tail_len + rem].copy_from_slice(&data[..rem]);
35
36 self.mac_tail_len += rem;
37 pos = rem;
38
39 if self.mac_tail_len == 16 {
40 self.mac
41 .update(&[MacBlock::try_from(self.mac_tail.as_ref())
42 .expect("mac len is checked above")]);
43
44 self.mac_tail_len = 0;
45 }
46 }
47
48 let mut chunks = data[pos..].chunks_exact(16);
50
51 for chunk in &mut chunks {
52 self.mac.update(&[
54 MacBlock::try_from(chunk).expect("chunk len is guaranteed by chunks_exact")
55 ]);
56 }
57
58 let tail = chunks.remainder();
59
60 if !tail.is_empty() {
61 self.mac_tail[..tail.len()].copy_from_slice(tail);
62 self.mac_tail_len += tail.len();
63 }
64 }
65}
66
67impl SimplexSecretBox for SecretBox {
68 fn init(key: &XSalsa20Key, nonce: &XSalsa20Nonce) -> Self {
69 let mut intermediate = hsalsa::<U10>(&Array(*key), &Array([0u8; 16]));
70 let mut cipher = XSalsa20::new(&intermediate, &Array(*nonce));
71 let mut poly_key = [0u8; 32];
72
73 cipher.apply_keystream(&mut poly_key);
74 let mac = Poly1305::new_from_slice(&poly_key).unwrap();
75
76 intermediate.zeroize();
77 poly_key.zeroize();
78
79 Self {
80 cipher,
81 mac,
82 mac_tail: Zeroizing::new([0u8; 16]),
83 mac_tail_len: 0,
84 }
85 }
86
87 fn encrypt_chunk(&mut self, chunk: impl AsRef<[u8]>, mut output: impl AsMut<[u8]>) {
88 let chunk = chunk.as_ref();
89 let output = output.as_mut();
90
91 output[..chunk.len()].copy_from_slice(chunk);
92 self.cipher.apply_keystream(&mut output[..chunk.len()]);
93 self.update_mac(&output[..chunk.len()]);
94 }
95
96 fn decrypt_chunk(&mut self, chunk: impl AsRef<[u8]>, mut output: impl AsMut<[u8]>) {
97 let chunk = chunk.as_ref();
98 let output = output.as_mut();
99
100 output[..chunk.len()].copy_from_slice(chunk);
101 self.cipher.apply_keystream(&mut output[..chunk.len()]);
102 self.update_mac(chunk); }
104
105 fn auth_tag(&mut self) -> Poly1305Tag {
106 self.mac
107 .clone()
108 .compute_unpadded(&self.mac_tail[..self.mac_tail_len])
109 .into()
110 }
111
112 fn verify_tag(&mut self, in_tag: &Poly1305Tag) -> bool {
113 let tag = self.auth_tag();
114 tag.as_slice().ct_eq(in_tag.as_slice()).into()
115 }
116}