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use crate::{
traits::{BlockMode, IvState},
utils::{xor, Block},
};
use block_padding::Padding;
use cipher::{
generic_array::{
sequence::Concat,
typenum::{Sum, Unsigned},
ArrayLength, GenericArray,
},
BlockCipher, BlockDecrypt, BlockEncrypt,
};
use core::{marker::PhantomData, ops::Add};
type IgeIvBlockSize<C> = Sum<<C as BlockCipher>::BlockSize, <C as BlockCipher>::BlockSize>;
pub struct Ige<C, P>
where
C: BlockCipher + BlockEncrypt + BlockDecrypt,
P: Padding,
C::BlockSize: Add,
IgeIvBlockSize<C>: ArrayLength<u8>,
{
cipher: C,
x: GenericArray<u8, C::BlockSize>,
y: GenericArray<u8, C::BlockSize>,
_p: PhantomData<P>,
}
impl<C, P> BlockMode<C, P> for Ige<C, P>
where
C: BlockCipher + BlockEncrypt + BlockDecrypt,
P: Padding,
C::BlockSize: Add,
IgeIvBlockSize<C>: ArrayLength<u8>,
{
type IvSize = IgeIvBlockSize<C>;
fn new(cipher: C, iv: &GenericArray<u8, Self::IvSize>) -> Self {
let (y, x) = iv.split_at(C::BlockSize::to_usize());
Ige {
cipher,
x: GenericArray::clone_from_slice(x),
y: GenericArray::clone_from_slice(y),
_p: Default::default(),
}
}
fn encrypt_blocks(&mut self, blocks: &mut [Block<C>]) {
for block in blocks {
let t = block.clone();
xor(block, &self.y);
self.cipher.encrypt_block(block);
xor(block, &self.x);
self.x = t;
self.y = block.clone();
}
}
fn decrypt_blocks(&mut self, blocks: &mut [Block<C>]) {
for block in blocks {
let t = block.clone();
xor(block, &self.x);
self.cipher.decrypt_block(block);
xor(block, &self.y);
self.y = t;
self.x = block.clone();
}
}
}
impl<C, P> IvState<C, P> for Ige<C, P>
where
C: BlockCipher + BlockEncrypt + BlockDecrypt,
P: Padding,
C::BlockSize: Add,
IgeIvBlockSize<C>: ArrayLength<u8>,
{
fn iv_state(&self) -> GenericArray<u8, Self::IvSize> {
self.y.clone().concat(self.x.clone())
}
}