use alloc::vec::Vec;
#[cfg(feature = "std")]
use std::intrinsics::copy;
#[cfg(feature = "std")]
use std::io::{ErrorKind, Read, Write};
#[cfg(feature = "std")]
use std::ops::Add;
#[cfg(feature = "std")]
use aes::cipher::{
block_padding::RawPadding,
generic_array::typenum::{IsGreaterOrEqual, PartialDiv, True, B1, U16},
ArrayLength,
};
use crc_any::CRCu64;
use des::{
cipher::{
block_padding::Pkcs7, generic_array::GenericArray, BlockDecryptMut, BlockEncryptMut, Iv,
Key, KeyIvInit,
},
Des,
};
#[cfg(feature = "std")]
use crate::functions::to_blocks;
use crate::{MagicCryptError, MagicCryptTrait};
type Des64CbcEnc = cbc::Encryptor<Des>;
type Des64CbcDec = cbc::Decryptor<Des>;
#[cfg(feature = "std")]
const BLOCK_SIZE: usize = 8;
#[derive(Debug, Clone)]
pub struct MagicCrypt64 {
key: Key<Des64CbcEnc>,
iv: Iv<Des64CbcEnc>,
}
impl MagicCryptTrait for MagicCrypt64 {
fn new<S: AsRef<[u8]>, V: AsRef<[u8]>>(key: S, iv: Option<V>) -> MagicCrypt64 {
let iv = match iv {
Some(s) => {
let mut hasher = CRCu64::crc64we();
hasher.digest(s.as_ref());
GenericArray::clone_from_slice(&hasher.get_crc_vec_be())
},
None => GenericArray::default(),
};
let key = {
let mut hasher = CRCu64::crc64we();
hasher.digest(key.as_ref());
GenericArray::clone_from_slice(&hasher.get_crc_vec_be())
};
MagicCrypt64 {
key,
iv,
}
}
#[inline]
fn encrypt_to_bytes<T: ?Sized + AsRef<[u8]>>(&self, data: &T) -> Vec<u8> {
let data = data.as_ref();
let cipher = Des64CbcEnc::new(&self.key, &self.iv);
cipher.encrypt_padded_vec_mut::<Pkcs7>(data)
}
#[cfg(feature = "std")]
fn encrypt_reader_to_bytes(&self, reader: &mut dyn Read) -> Result<Vec<u8>, MagicCryptError> {
let mut final_result = Vec::new();
let data_length = reader.read_to_end(&mut final_result)?;
let padding_length = BLOCK_SIZE - (data_length % BLOCK_SIZE);
let final_length = data_length + padding_length;
final_result.reserve_exact(padding_length);
unsafe {
final_result.set_len(final_length);
}
let cipher = Des64CbcEnc::new(&self.key, &self.iv);
cipher.encrypt_padded_mut::<Pkcs7>(&mut final_result, data_length).unwrap();
Ok(final_result)
}
#[cfg(feature = "std")]
fn encrypt_reader_to_writer2<
N: ArrayLength<u8> + PartialDiv<U16> + IsGreaterOrEqual<U16, Output = True>,
>(
&self,
reader: &mut dyn Read,
writer: &mut dyn Write,
) -> Result<(), MagicCryptError> {
let mut buffer: GenericArray<u8, N> = GenericArray::default();
let mut cipher = Des64CbcEnc::new(&self.key, &self.iv);
let mut l = 0;
loop {
match reader.read(&mut buffer[l..]) {
Ok(c) => {
if c == 0 {
break;
}
l += c;
if l < BLOCK_SIZE {
continue;
}
let r = l % BLOCK_SIZE;
let e = l - r;
cipher.encrypt_blocks_mut(to_blocks(&mut buffer[..e]));
writer.write_all(&buffer[..e])?;
unsafe {
copy(buffer.as_ptr().add(e), buffer.as_mut_ptr(), r);
}
l = r;
},
Err(error) if error.kind() == ErrorKind::Interrupted => {},
Err(error) => return Err(MagicCryptError::IOError(error)),
}
}
let raw_block = &mut buffer[..BLOCK_SIZE];
Pkcs7::raw_pad(raw_block, l);
cipher.encrypt_blocks_mut(to_blocks(raw_block));
writer.write_all(raw_block)?;
Ok(writer.flush()?)
}
#[inline]
fn decrypt_bytes_to_bytes<T: ?Sized + AsRef<[u8]>>(
&self,
bytes: &T,
) -> Result<Vec<u8>, MagicCryptError> {
let bytes = bytes.as_ref();
let cipher = Des64CbcDec::new(&self.key, &self.iv);
let final_result = cipher.decrypt_padded_vec_mut::<Pkcs7>(bytes)?;
Ok(final_result)
}
#[cfg(feature = "std")]
fn decrypt_reader_to_bytes(&self, reader: &mut dyn Read) -> Result<Vec<u8>, MagicCryptError> {
let mut final_result = Vec::new();
reader.read_to_end(&mut final_result)?;
let cipher = Des64CbcDec::new(&self.key, &self.iv);
let data_length = cipher.decrypt_padded_mut::<Pkcs7>(&mut final_result)?.len();
final_result.truncate(data_length);
Ok(final_result)
}
#[cfg(feature = "std")]
#[allow(clippy::many_single_char_names)]
fn decrypt_reader_to_writer2<
N: ArrayLength<u8> + PartialDiv<U16> + IsGreaterOrEqual<U16, Output = True> + Add<B1>,
>(
&self,
reader: &mut dyn Read,
writer: &mut dyn Write,
) -> Result<(), MagicCryptError>
where
<N as Add<B1>>::Output: ArrayLength<u8>, {
let mut buffer: GenericArray<u8, N> = GenericArray::default();
let mut cipher = Des64CbcDec::new(&self.key, &self.iv);
let mut l = 0;
loop {
match reader.read(&mut buffer[l..]) {
Ok(c) => {
if c == 0 {
break;
}
l += c;
if l < BLOCK_SIZE {
continue;
}
let r = l % BLOCK_SIZE;
let e = if r > 0 { l + BLOCK_SIZE - r } else { l };
reader.read_exact(&mut buffer[l..e])?;
match reader.read_exact(&mut buffer[e..(e + 1)]) {
Ok(()) => {
cipher.decrypt_blocks_mut(to_blocks(&mut buffer[..e]));
writer.write_all(&buffer[..e])?;
buffer[0] = buffer[e];
l = 1;
},
Err(error) if error.kind() == ErrorKind::UnexpectedEof => {
cipher.decrypt_blocks_mut(to_blocks(&mut buffer[..e]));
writer.write_all(Pkcs7::raw_unpad(&buffer[..e])?)?;
break;
},
Err(error) => return Err(MagicCryptError::IOError(error)),
}
},
Err(error) if error.kind() == ErrorKind::Interrupted => {},
Err(error) => return Err(MagicCryptError::IOError(error)),
}
}
Ok(writer.flush()?)
}
}