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use crate::guts::generic_array::typenum::{Unsigned, U10, U12, U24, U32, U4, U6, U8};
use crate::guts::generic_array::{ArrayLength, GenericArray};
use crate::guts::{ChaCha, Machine, BLOCK, BLOCK64, BUFSZ};
use core::cmp;
use core::convert::TryInto;
pub use cipher::stream as stream_cipher;
use cipher::stream::{
    LoopError, NewStreamCipher, OverflowError, SeekNum, SyncStreamCipher, SyncStreamCipherSeek,
};

const BIG_LEN: u64 = 0;
const SMALL_LEN: u64 = 1 << 32;

#[derive(Clone)]
pub struct Buffer {
    pub state: ChaCha,
    pub out: [u8; BLOCK],
    pub have: i8,
    pub len: u64,
    pub fresh: bool,
}

#[derive(Default)]
pub struct X;
#[derive(Default)]
pub struct O;
#[derive(Clone)]
pub struct ChaChaAny<NonceSize, Rounds, IsX> {
    pub state: Buffer,
    pub _nonce_size: NonceSize,
    pub _rounds: Rounds,
    pub _is_x: IsX,
}

impl Buffer {
    fn try_apply_keystream<EnableWide: AsBool>(
        &mut self,
        mut data: &mut [u8],
        drounds: u32,
    ) -> Result<(), ()> {
        // Lazy fill: after a seek() we may be partway into a block we don't have yet.
        // We can do this before the overflow check because this is not an effect of the current
        // operation.
        if self.have < 0 {
            self.state.refill(drounds, &mut self.out);
            self.have += BLOCK as i8;
            // checked in seek()
            self.len -= 1;
        }
        let mut have = self.have as usize;
        let have_ready = cmp::min(have, data.len());
        // Check if the requested position would wrap the block counter. Use self.fresh as an extra
        // bit to distinguish the initial state from the valid state with no blocks left.
        let datalen = (data.len() - have_ready) as u64;
        let blocks_needed = datalen / BLOCK64 + u64::from(datalen % BLOCK64 != 0);
        let (l, o) = self.len.overflowing_sub(blocks_needed);
        if o && !self.fresh {
            return Err(());
        }
        self.len = l;
        self.fresh &= blocks_needed == 0;
        // If we have data in the buffer, use that first.
        let (d0, d1) = data.split_at_mut(have_ready);
        for (data_b, key_b) in d0.iter_mut().zip(&self.out[(BLOCK - have)..]) {
            *data_b ^= *key_b;
        }
        data = d1;
        have -= have_ready;
        // Process wide chunks.
        if EnableWide::BOOL {
            let (d0, d1) = data.split_at_mut(data.len() & !(BUFSZ - 1));
            for dd in d0.chunks_exact_mut(BUFSZ) {
                let mut buf = [0; BUFSZ];
                self.state.refill4(drounds, &mut buf);
                for (data_b, key_b) in dd.iter_mut().zip(buf.iter()) {
                    *data_b ^= *key_b;
                }
            }
            data = d1;
        }
        // Handle the tail a block at a time so we'll have storage for any leftovers.
        for dd in data.chunks_mut(BLOCK) {
            self.state.refill(drounds, &mut self.out);
            for (data_b, key_b) in dd.iter_mut().zip(self.out.iter()) {
                *data_b ^= *key_b;
            }
            have = BLOCK - dd.len();
        }
        self.have = have as i8;
        Ok(())
    }
}

dispatch_light128!(m, Mach, {
    fn seek64(buf: &mut Buffer, ct: u64) {
        let blockct = ct / BLOCK64;
        buf.len = BIG_LEN.wrapping_sub(blockct);
        buf.fresh = blockct == 0;
        buf.have = -((ct % BLOCK64) as i8);
        buf.state.seek64(m, blockct);
    }
});

dispatch_light128!(m, Mach, {
    fn seek32(buf: &mut Buffer, ct: u64) {
        let blockct = ct / BLOCK64;
        assert!(blockct < SMALL_LEN || (blockct == SMALL_LEN && ct % BLOCK64 == 0));
        buf.len = SMALL_LEN - blockct;
        buf.have = -((ct % BLOCK64) as i8);
        buf.state.seek32(m, blockct as u32);
    }
});

#[cfg(test)]
impl<NonceSize, Rounds: Unsigned, IsX> ChaChaAny<NonceSize, Rounds, IsX> {
    pub fn try_apply_keystream_narrow(&mut self, data: &mut [u8]) -> Result<(), ()> {
        self.state
            .try_apply_keystream::<WideDisabled>(data, Rounds::U32)
    }
}

impl<NonceSize, Rounds> ChaChaAny<NonceSize, Rounds, O>
where
    NonceSize: Unsigned + ArrayLength<u8> + Default,
    Rounds: Default,
{
    #[inline]
    fn new(key: &GenericArray<u8, U32>, nonce: &GenericArray<u8, NonceSize>) -> Self {
        let nonce_len = nonce.len();
        ChaChaAny {
            state: Buffer {
                state: init_chacha(key, nonce),
                out: [0; BLOCK],
                have: 0,
                len: if nonce_len == 12 { SMALL_LEN } else { BIG_LEN },
                fresh: nonce_len != 12,
            },
            _nonce_size: Default::default(),
            _rounds: Default::default(),
            _is_x: Default::default(),
        }
    }
}

impl<Rounds: Unsigned + Default> ChaChaAny<U24, Rounds, X> {
    fn new(key: &GenericArray<u8, U32>, nonce: &GenericArray<u8, U24>) -> Self {
        ChaChaAny {
            state: Buffer {
                state: init_chacha_x(key, nonce, Rounds::U32),
                out: [0; BLOCK],
                have: 0,
                len: BIG_LEN,
                fresh: true,
            },
            _nonce_size: Default::default(),
            _rounds: Default::default(),
            _is_x: Default::default(),
        }
    }
}

impl<NonceSize: Unsigned, Rounds, IsX> ChaChaAny<NonceSize, Rounds, IsX> {
    #[inline(always)]
    fn seek(&mut self, ct: u64) {
        if NonceSize::U32 != 12 {
            seek64(&mut self.state, ct);
        } else {
            seek32(&mut self.state, ct);
        }
    }
}

impl<NonceSize, Rounds: Unsigned, IsX> ChaChaAny<NonceSize, Rounds, IsX> {
    #[inline]
    fn try_apply_keystream(&mut self, data: &mut [u8]) -> Result<(), ()> {
        self.state
            .try_apply_keystream::<WideEnabled>(data, Rounds::U32)
    }
}

impl<NonceSize, Rounds> NewStreamCipher for ChaChaAny<NonceSize, Rounds, O>
where
    NonceSize: Unsigned + ArrayLength<u8> + Default,
    Rounds: Default,
{
    type KeySize = U32;
    type NonceSize = NonceSize;
    #[inline]
    fn new(
        key: &GenericArray<u8, Self::KeySize>,
        nonce: &GenericArray<u8, Self::NonceSize>,
    ) -> Self {
        Self::new(key, nonce)
    }
}

impl<Rounds: Unsigned + Default> NewStreamCipher for ChaChaAny<U24, Rounds, X> {
    type KeySize = U32;
    type NonceSize = U24;
    #[inline]
    fn new(
        key: &GenericArray<u8, Self::KeySize>,
        nonce: &GenericArray<u8, Self::NonceSize>,
    ) -> Self {
        Self::new(key, nonce)
    }
}

impl<NonceSize: Unsigned, Rounds, IsX> SyncStreamCipherSeek for ChaChaAny<NonceSize, Rounds, IsX> {
    #[inline]
    fn try_current_pos<T: SeekNum>(&self) -> Result<T, OverflowError> {
        unimplemented!()
    }
    #[inline(always)]
    fn try_seek<T: SeekNum>(&mut self, pos: T) -> Result<(), LoopError> {
        pos.try_into()
            .map_err(|_| LoopError)
            .map(|ct| Self::seek(self, ct))
    }
}

impl<NonceSize, Rounds: Unsigned, IsX> SyncStreamCipher for ChaChaAny<NonceSize, Rounds, IsX> {
    #[inline]
    fn try_apply_keystream(&mut self, data: &mut [u8]) -> Result<(), LoopError> {
        Self::try_apply_keystream(self, data).map_err(|_| LoopError)
    }
}

trait AsBool {
    const BOOL: bool;
}
struct WideEnabled;
impl AsBool for WideEnabled {
    const BOOL: bool = true;
}
#[cfg(test)]
struct WideDisabled;
#[cfg(test)]
impl AsBool for WideDisabled {
    const BOOL: bool = false;
}

dispatch_light128!(m, Mach, {
    fn init_chacha(key: &GenericArray<u8, U32>, nonce: &[u8]) -> ChaCha {
        let ctr_nonce = [
            0,
            if nonce.len() == 12 {
                u32::from_le_bytes(nonce[0..4].try_into().unwrap())
            } else {
                0
            },
            u32::from_le_bytes(nonce[nonce.len() - 8..nonce.len() - 4].try_into().unwrap()),
            u32::from_le_bytes(nonce[nonce.len() - 4..].try_into().unwrap()),
        ];
        let key0: Mach::u32x4 = m.read_le(&key[..16]);
        let key1: Mach::u32x4 = m.read_le(&key[16..]);
        ChaCha {
            b: key0.into(),
            c: key1.into(),
            d: ctr_nonce.into(),
        }
    }
});

dispatch_light128!(m, Mach, {
    fn init_chacha_x(
        key: &GenericArray<u8, U32>,
        nonce: &GenericArray<u8, U24>,
        rounds: u32,
    ) -> ChaCha {
        let key0: Mach::u32x4 = m.read_le(&key[..16]);
        let key1: Mach::u32x4 = m.read_le(&key[16..]);
        let nonce0: Mach::u32x4 = m.read_le(&nonce[..16]);
        let mut state = ChaCha {
            b: key0.into(),
            c: key1.into(),
            d: nonce0.into(),
        };
        let x = state.refill_rounds(rounds);
        let ctr_nonce1 = [
            0,
            0,
            u32::from_le_bytes(nonce[16..20].try_into().unwrap()),
            u32::from_le_bytes(nonce[20..24].try_into().unwrap()),
        ];
        state.b = x.a;
        state.c = x.d;
        state.d = ctr_nonce1.into();
        state
    }
});

/// IETF RFC 7539 ChaCha. Unsuitable for messages longer than 256 GiB.
pub type Ietf = ChaChaAny<U12, U10, O>;
/// Similar to ChaCha20, but with fewer rounds for higher performance.
pub type ChaCha8 = ChaChaAny<U8, U4, O>;
/// Similar to ChaCha20, but with fewer rounds for higher performance.
pub type ChaCha12 = ChaChaAny<U8, U6, O>;
/// ChaCha20, as used in several standards; from Bernstein's original publication.
pub type ChaCha20 = ChaChaAny<U8, U10, O>;
/// Constructed analogously to XChaCha20, but with fewer rounds for higher performance;
/// mixes during initialization to support both a long nonce and a full-length (64-bit) block counter.
pub type XChaCha8 = ChaChaAny<U24, U4, X>;
/// Constructed analogously to XChaCha20, but with fewer rounds for higher performance;
/// mixes during initialization to support both a long nonce and a full-length (64-bit) block counter.
pub type XChaCha12 = ChaChaAny<U24, U6, X>;
/// Constructed analogously to XSalsa20; mixes during initialization to support both a long nonce
/// and a full-length (64-bit) block counter.
pub type XChaCha20 = ChaChaAny<U24, U10, X>;

#[cfg(test)]
mod tests {
    use super::*;

    #[test]
    fn chacha20_case_1() {
        let key = hex!("fa44478c59ca70538e3549096ce8b523232c50d9e8e8d10c203ef6c8d07098a5");
        let nonce = hex!("8d3a0d6d7827c007");
        let expected = hex!("
                1546a547ff77c5c964e44fd039e913c6395c8f19d43efaa880750f6687b4e6e2d8f42f63546da2d133b5aa2f1ef3f218b6c72943089e4012
                210c2cbed0e8e93498a6825fc8ff7a504f26db33b6cbe36299436244c9b2eff88302c55933911b7d5dea75f2b6d4761ba44bb6f814c9879d
                2ba2ac8b178fa1104a368694872339738ffb960e33db39efb8eaef885b910eea078e7a1feb3f8185dafd1455b704d76da3a0ce4760741841
                217bba1e4ece760eaf68617133431feb806c061173af6b8b2a23be90c5d145cc258e3c119aab2800f0c7bc1959dae75481712cab731b7dfd
                783fa3a228f9968aaea68f36a92f43c9b523337a55b97bcaf5f5774447bf41e8");
        let mut state = ChaCha20::new(
            GenericArray::from_slice(&key),
            GenericArray::from_slice(&nonce),
        );
        let offset = 0x3fffffff70u64;
        assert!((offset >> 38) != ((offset + 240) >> 38)); // This will overflow the small word of the counter
        state.seek(offset);
        let mut result = [0; 256];
        state.apply_keystream(&mut result);
        assert_eq!(&expected[..], &result[..]);
    }

    #[test]
    fn chacha12_case_1() {
        let key = hex!("27fc120b013b829f1faeefd1ab417e8662f43e0d73f98de866e346353180fdb7");
        let nonce = hex!("db4b4a41d8df18aa");
        let expected = hex!("
                5f3c8c190a78ab7fe808cae9cbcb0a9837c893492d963a1c2eda6c1558b02c83fc02a44cbbb7e6204d51d1c2430e9c0b58f2937bf593840c
                850bda9051a1f051ddf09d2a03ebf09f01bdba9da0b6da791b2e645641047d11ebf85087d4de5c015fddd044");
        let mut state = ChaCha12::new(
            GenericArray::from_slice(&key),
            GenericArray::from_slice(&nonce),
        );
        let mut result = [0u8; 100];
        state.apply_keystream(&mut result);
        assert_eq!(&expected[..], &result[..]);
    }

    #[test]
    fn chacha8_case_1() {
        let key = hex!("641aeaeb08036b617a42cf14e8c5d2d115f8d7cb6ea5e28b9bfaf83e038426a7");
        let nonce = hex!("a14a1168271d459b");
        let mut state = ChaCha8::new(
            GenericArray::from_slice(&key),
            GenericArray::from_slice(&nonce),
        );
        let expected = hex!(
        "1721c044a8a6453522dddb3143d0be3512633ca3c79bf8ccc3594cb2c2f310f7bd544f55ce0db38123412d6c45207d5cf9af0c6c680cce1f
        7e43388d1b0346b7133c59fd6af4a5a568aa334ccdc38af5ace201df84d0a3ca225494ca6209345fcf30132e");
        let mut result = [0u8; 100];
        state.apply_keystream(&mut result);
        assert_eq!(&expected[..], &result[..]);
    }

    #[test]
    fn test_ietf() {
        let key = hex!("000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f");
        let nonce = hex!("000000090000004a00000000");
        let expected = hex!(
            "
            10f1e7e4d13b5915500fdd1fa32071c4c7d1f4c733c068030422aa9ac3d46c4e
            d2826446079faa0914c2d705d98b02a2b5129cd1de164eb9cbd083e8a2503c4e"
        );
        let mut state = Ietf::new(
            GenericArray::from_slice(&key),
            GenericArray::from_slice(&nonce),
        );
        let mut result = [0; 64];
        state.seek(64);
        state.apply_keystream(&mut result);
        assert_eq!(&expected[..], &result[..]);
    }

    #[test]
    fn rfc_7539_case_1() {
        let key = hex!("000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f");
        let nonce = hex!("000000090000004a00000000");
        let mut state = Ietf::new(
            GenericArray::from_slice(&key),
            GenericArray::from_slice(&nonce),
        );
        let mut result = [0; 128];
        state.apply_keystream(&mut result);
        let expected = hex!(
            "10f1e7e4d13b5915500fdd1fa32071c4c7d1f4c733c068030422aa9ac3d46c4e
            d2826446079faa0914c2d705d98b02a2b5129cd1de164eb9cbd083e8a2503c4e"
        );
        assert_eq!(&expected[..], &result[64..]);
    }

    #[test]
    fn rfc_7539_case_2() {
        let key = hex!("000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f");
        let nonce = hex!("000000000000004a00000000");
        let mut state = Ietf::new(
            GenericArray::from_slice(&key),
            GenericArray::from_slice(&nonce),
        );
        let plaintext = b"Ladies and Gentlemen of the class of '99: If I could offer you only one tip for the future, sunscreen would be it.";
        let mut buf = [0u8; 178];
        buf[64..].copy_from_slice(plaintext);
        state.apply_keystream(&mut buf);
        let expected = hex!("
            6e2e359a2568f98041ba0728dd0d6981e97e7aec1d4360c20a27afccfd9fae0bf91b65c5524733ab8f593dabcd62b3571639d624e65152ab
            8f530c359f0861d807ca0dbf500d6a6156a38e088a22b65e52bc514d16ccf806818ce91ab77937365af90bbf74a35be6b40b8eedf2785e42
            874d");
        assert_eq!(&expected[..], &buf[64..]);
    }

    #[test]
    fn rfc_7539_case_2_chunked() {
        let key = hex!("000102030405060708090a0b0c0d0e0f101112131415161718191a1b1c1d1e1f");
        let nonce = hex!("000000000000004a00000000");
        let mut state = Ietf::new(
            GenericArray::from_slice(&key),
            GenericArray::from_slice(&nonce),
        );
        let plaintext = b"Ladies and Gentlemen of the class of '99: If I could offer you only one tip for the future, sunscreen would be it.";
        let mut buf = [0u8; 178];
        buf[64..].copy_from_slice(plaintext);
        state.apply_keystream(&mut buf[..40]);
        state.apply_keystream(&mut buf[40..78]);
        state.apply_keystream(&mut buf[78..79]);
        state.apply_keystream(&mut buf[79..128]);
        state.apply_keystream(&mut buf[128..]);
        let expected = hex!("
            6e2e359a2568f98041ba0728dd0d6981e97e7aec1d4360c20a27afccfd9fae0bf91b65c5524733ab8f593dabcd62b3571639d624e65152ab
            8f530c359f0861d807ca0dbf500d6a6156a38e088a22b65e52bc514d16ccf806818ce91ab77937365af90bbf74a35be6b40b8eedf2785e42
            874d");
        assert_eq!(&expected[..], &buf[64..]);
    }

    #[test]
    fn xchacha20_case_1() {
        let key = hex!("82f411a074f656c66e7dbddb0a2c1b22760b9b2105f4ffdbb1d4b1e824e21def");
        let nonce = hex!("3b07ca6e729eb44a510b7a1be51847838a804f8b106b38bd");
        let mut state = XChaCha20::new(
            GenericArray::from_slice(&key),
            GenericArray::from_slice(&nonce),
        );
        let mut xs = [0u8; 100];
        state.apply_keystream(&mut xs);
        let expected = hex!("
            201863970b8e081f4122addfdf32f6c03e48d9bc4e34a59654f49248b9be59d3eaa106ac3376e7e7d9d1251f2cbf61ef27000f3d19afb76b
            9c247151e7bc26467583f520518eccd2055ccd6cc8a195953d82a10c2065916778db35da2be44415d2f5efb0");
        assert_eq!(&expected[..], &xs[..]);
    }

    #[test]
    fn seek_off_end() {
        let mut st = Ietf::new(
            GenericArray::from_slice(&[0xff; 32]),
            GenericArray::from_slice(&[0; 12]),
        );
        st.seek(0x40_0000_0000);

        assert!(st.try_apply_keystream(&mut [0u8; 1]).is_err());
    }

    #[test]
    fn read_last_bytes() {
        let mut st = Ietf::new(
            GenericArray::from_slice(&[0xff; 32]),
            GenericArray::from_slice(&[0; 12]),
        );

        st.seek(0x40_0000_0000 - 10);
        st.apply_keystream(&mut [0u8; 10]);
        assert!(st.try_apply_keystream(&mut [0u8; 1]).is_err());

        st.seek(0x40_0000_0000 - 10);
        assert!(st.try_apply_keystream(&mut [0u8; 11]).is_err());
    }

    #[test]
    fn seek_consistency() {
        let mut st = Ietf::new(
            GenericArray::from_slice(&[50; 32]),
            GenericArray::from_slice(&[44; 12]),
        );

        let mut continuous = [0u8; 1000];
        st.apply_keystream(&mut continuous);

        let mut chunks = [0u8; 1000];

        st.seek(128);
        st.apply_keystream(&mut chunks[128..300]);

        st.seek(0);
        st.apply_keystream(&mut chunks[0..10]);

        st.seek(300);
        st.apply_keystream(&mut chunks[300..533]);

        st.seek(533);
        st.apply_keystream(&mut chunks[533..]);

        st.seek(10);
        st.apply_keystream(&mut chunks[10..128]);

        assert_eq!(&continuous[..], &chunks[..]);
    }

    #[test]
    fn wide_matches_narrow() {
        let key = hex!("fa44478c59ca70538e3549096ce8b523232c50d9e8e8d10c203ef6c8d07098a5");
        let nonce = hex!("8d3a0d6d7827c007");
        let mut buf = [0; 2048];
        let mut state = ChaCha20::new(
            GenericArray::from_slice(&key),
            GenericArray::from_slice(&nonce),
        );

        let lens = [
            2048, 2047, 1537, 1536, 1535, 1025, 1024, 1023, 768, 513, 512, 511, 200, 100, 50,
        ];

        for &len in &lens {
            let buf = &mut buf[0..len];

            // encrypt with hybrid wide/narrow
            state.seek(0);
            state.apply_keystream(buf);
            state.seek(0);
            // decrypt with narrow only
            state.try_apply_keystream_narrow(buf).unwrap();
            for &byte in buf.iter() {
                assert_eq!(byte, 0);
            }

            // encrypt with hybrid wide/narrow
            let offset = 0x3fffffff70u64;
            state.seek(offset);
            state.apply_keystream(buf);
            // decrypt with narrow only
            state.seek(offset);
            state.try_apply_keystream_narrow(buf).unwrap();
            for &byte in buf.iter() {
                assert_eq!(byte, 0);
            }
        }
    }
}