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#![no_std]
extern crate block_cipher_trait;
extern crate dbl;
pub extern crate crypto_mac;
pub use crypto_mac::Mac;
use crypto_mac::{InvalidKeyLength, MacResult};
use block_cipher_trait::BlockCipher;
use block_cipher_trait::generic_array::{GenericArray, ArrayLength};
use block_cipher_trait::generic_array::typenum::Unsigned;
use dbl::Dbl;
use core::fmt;
type Block<N> = GenericArray<u8, N>;
#[derive(Clone)]
pub struct Cmac<C> where C: BlockCipher + Clone, Block<C::BlockSize>: Dbl {
cipher: C,
key1: Block<C::BlockSize>,
key2: Block<C::BlockSize>,
buffer: Block<C::BlockSize>,
pos: usize,
}
impl<C> Cmac<C> where C: BlockCipher + Clone, Block<C::BlockSize>: Dbl {
fn from_cipher(cipher: C) -> Self {
let mut subkey = GenericArray::default();
cipher.encrypt_block(&mut subkey);
let key1 = subkey.dbl();
let key2 = key1.clone().dbl();
Cmac { cipher, key1, key2, buffer: Default::default(), pos: 0 }
}
}
#[inline(always)]
fn xor<L: ArrayLength<u8>>(buf: &mut Block<L>, data: &Block<L>) {
for i in 0..L::to_usize() {
buf[i] ^= data[i];
}
}
impl <C> Mac for Cmac<C>
where C: BlockCipher + Clone, Block<C::BlockSize>: Dbl, C::BlockSize: Clone
{
type OutputSize = C::BlockSize;
type KeySize = C::KeySize;
fn new(key: &GenericArray<u8, Self::KeySize>) -> Self {
Self::from_cipher(C::new(key))
}
fn new_varkey(key: &[u8]) -> Result<Self, InvalidKeyLength> {
let cipher = C::new_varkey(key).map_err(|_| InvalidKeyLength)?;
Ok(Self::from_cipher(cipher))
}
#[inline]
fn input(&mut self, mut data: &[u8]) {
let n = C::BlockSize::to_usize();
let rem = n - self.pos;
if data.len() >= rem {
let (l, r) = data.split_at(rem);
data = r;
for (a, b) in self.buffer[self.pos..].iter_mut().zip(l) {
*a ^= *b;
}
self.pos = n;
} else {
for (a, b) in self.buffer[self.pos..].iter_mut().zip(data) {
*a ^= *b;
}
self.pos += data.len();
return;
}
while data.len() >= n {
self.cipher.encrypt_block(&mut self.buffer);
let (l, r) = data.split_at(n);
let block = unsafe {
& *(l.as_ptr() as *const Block<C::BlockSize>)
};
data = r;
xor(&mut self.buffer, block);
}
if data.len() != 0 {
self.cipher.encrypt_block(&mut self.buffer);
for (a, b) in self.buffer.iter_mut().zip(data) {
*a ^= *b;
}
self.pos = data.len();
}
}
#[inline]
fn result(mut self) -> MacResult<Self::OutputSize> {
let n = C::BlockSize::to_usize();
let mut buf = self.buffer.clone();
if self.pos == n {
xor(&mut buf, &self.key1);
} else {
xor(&mut buf, &self.key2);
buf[self.pos] ^= 0x80;
}
self.cipher.encrypt_block(&mut buf);
self.reset();
MacResult::new(buf)
}
fn reset(&mut self) {
self.buffer = Default::default();
self.pos = 0;
}
}
impl<C> fmt::Debug for Cmac<C>
where C: BlockCipher + fmt::Debug + Clone, Block<C::BlockSize>: Dbl
{
fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> {
write!(f, "Cmac-{:?}", self.cipher)
}
}