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//! 32-bit counter falvors.
use super::CtrFlavor;
use cipher::{
    generic_array::{ArrayLength, GenericArray},
    typenum::{PartialDiv, PartialQuot, Unsigned, U4},
};

#[cfg(feature = "zeroize")]
use cipher::zeroize::{Zeroize, ZeroizeOnDrop};

type ChunkSize = U4;
type Chunks<B> = PartialQuot<B, ChunkSize>;
const CS: usize = ChunkSize::USIZE;

#[derive(Clone)]
pub struct CtrNonce32<N: ArrayLength<u32>> {
    ctr: u32,
    nonce: GenericArray<u32, N>,
}

#[cfg(feature = "zeroize")]
impl<N: ArrayLength<u32>> Drop for CtrNonce32<N> {
    fn drop(&mut self) {
        self.ctr.zeroize();
        self.nonce.zeroize();
    }
}

#[cfg(feature = "zeroize")]
impl<N: ArrayLength<u32>> ZeroizeOnDrop for CtrNonce32<N> {}

/// 32-bit big endian counter flavor.
pub enum Ctr32BE {}

impl<B> CtrFlavor<B> for Ctr32BE
where
    B: ArrayLength<u8> + PartialDiv<ChunkSize>,
    Chunks<B>: ArrayLength<u32>,
{
    type CtrNonce = CtrNonce32<Chunks<B>>;
    type Backend = u32;
    const NAME: &'static str = "32BE";

    #[inline]
    fn remaining(cn: &Self::CtrNonce) -> Option<usize> {
        (core::u32::MAX - cn.ctr).try_into().ok()
    }

    #[inline(always)]
    fn current_block(cn: &Self::CtrNonce) -> GenericArray<u8, B> {
        let mut block = GenericArray::<u8, B>::default();
        for i in 0..Chunks::<B>::USIZE {
            let t = if i == Chunks::<B>::USIZE - 1 {
                cn.ctr.wrapping_add(cn.nonce[i]).to_be_bytes()
            } else {
                cn.nonce[i].to_ne_bytes()
            };
            block[CS * i..][..CS].copy_from_slice(&t);
        }
        block
    }

    #[inline]
    fn next_block(cn: &mut Self::CtrNonce) -> GenericArray<u8, B> {
        let block = Self::current_block(cn);
        cn.ctr = cn.ctr.wrapping_add(1);
        block
    }

    #[inline]
    fn from_nonce(block: &GenericArray<u8, B>) -> Self::CtrNonce {
        let mut nonce = GenericArray::<u32, Chunks<B>>::default();
        for i in 0..Chunks::<B>::USIZE {
            let chunk = block[CS * i..][..CS].try_into().unwrap();
            nonce[i] = if i == Chunks::<B>::USIZE - 1 {
                u32::from_be_bytes(chunk)
            } else {
                u32::from_ne_bytes(chunk)
            }
        }
        let ctr = 0;
        Self::CtrNonce { ctr, nonce }
    }

    #[inline]
    fn as_backend(cn: &Self::CtrNonce) -> Self::Backend {
        cn.ctr
    }

    #[inline]
    fn set_from_backend(cn: &mut Self::CtrNonce, v: Self::Backend) {
        cn.ctr = v;
    }
}

/// 32-bit big endian counter flavor.
pub enum Ctr32LE {}

impl<B> CtrFlavor<B> for Ctr32LE
where
    B: ArrayLength<u8> + PartialDiv<ChunkSize>,
    Chunks<B>: ArrayLength<u32>,
{
    type CtrNonce = CtrNonce32<Chunks<B>>;
    type Backend = u32;
    const NAME: &'static str = "32LE";

    #[inline]
    fn remaining(cn: &Self::CtrNonce) -> Option<usize> {
        (core::u32::MAX - cn.ctr).try_into().ok()
    }

    #[inline(always)]
    fn current_block(cn: &Self::CtrNonce) -> GenericArray<u8, B> {
        let mut block = GenericArray::<u8, B>::default();
        for i in 0..Chunks::<B>::USIZE {
            let t = if i == 0 {
                cn.ctr.wrapping_add(cn.nonce[i]).to_le_bytes()
            } else {
                cn.nonce[i].to_ne_bytes()
            };
            block[CS * i..][..CS].copy_from_slice(&t);
        }
        block
    }

    #[inline]
    fn next_block(cn: &mut Self::CtrNonce) -> GenericArray<u8, B> {
        let block = Self::current_block(cn);
        cn.ctr = cn.ctr.wrapping_add(1);
        block
    }

    #[inline]
    fn from_nonce(block: &GenericArray<u8, B>) -> Self::CtrNonce {
        let mut nonce = GenericArray::<u32, Chunks<B>>::default();
        for i in 0..Chunks::<B>::USIZE {
            let chunk = block[CS * i..][..CS].try_into().unwrap();
            nonce[i] = if i == 0 {
                u32::from_le_bytes(chunk)
            } else {
                u32::from_ne_bytes(chunk)
            }
        }
        let ctr = 0;
        Self::CtrNonce { ctr, nonce }
    }

    #[inline]
    fn as_backend(cn: &Self::CtrNonce) -> Self::Backend {
        cn.ctr
    }

    #[inline]
    fn set_from_backend(cn: &mut Self::CtrNonce, v: Self::Backend) {
        cn.ctr = v;
    }
}