pub struct Encryptor<C>where
C: BlockEncryptMut + BlockCipher,{
cipher: C,
iv: Block<C>,
}
Expand description
CBC mode encryptor.
Fields§
§cipher: C
§iv: Block<C>
Trait Implementations§
source§impl<C> AlgorithmName for Encryptor<C>
impl<C> AlgorithmName for Encryptor<C>
source§fn write_alg_name(f: &mut Formatter<'_>) -> Result
fn write_alg_name(f: &mut Formatter<'_>) -> Result
Write algorithm name into
f
.source§impl<C> BlockEncryptMut for Encryptor<C>where
C: BlockEncryptMut + BlockCipher,
impl<C> BlockEncryptMut for Encryptor<C>where
C: BlockEncryptMut + BlockCipher,
source§fn encrypt_with_backend_mut(
&mut self,
f: impl BlockClosure<BlockSize = Self::BlockSize>,
)
fn encrypt_with_backend_mut( &mut self, f: impl BlockClosure<BlockSize = Self::BlockSize>, )
Encrypt data using backend provided to the rank-2 closure.
source§fn encrypt_block_inout_mut(
&mut self,
block: InOut<'_, '_, GenericArray<u8, Self::BlockSize>>,
)
fn encrypt_block_inout_mut( &mut self, block: InOut<'_, '_, GenericArray<u8, Self::BlockSize>>, )
Encrypt single
inout
block.source§fn encrypt_blocks_inout_mut(
&mut self,
blocks: InOutBuf<'_, '_, GenericArray<u8, Self::BlockSize>>,
)
fn encrypt_blocks_inout_mut( &mut self, blocks: InOutBuf<'_, '_, GenericArray<u8, Self::BlockSize>>, )
Encrypt
inout
blocks.source§fn encrypt_block_mut(&mut self, block: &mut GenericArray<u8, Self::BlockSize>)
fn encrypt_block_mut(&mut self, block: &mut GenericArray<u8, Self::BlockSize>)
Encrypt single block in-place.
source§fn encrypt_block_b2b_mut(
&mut self,
in_block: &GenericArray<u8, Self::BlockSize>,
out_block: &mut GenericArray<u8, Self::BlockSize>,
)
fn encrypt_block_b2b_mut( &mut self, in_block: &GenericArray<u8, Self::BlockSize>, out_block: &mut GenericArray<u8, Self::BlockSize>, )
Encrypt
in_block
and write result to out_block
.source§fn encrypt_blocks_mut(
&mut self,
blocks: &mut [GenericArray<u8, Self::BlockSize>],
)
fn encrypt_blocks_mut( &mut self, blocks: &mut [GenericArray<u8, Self::BlockSize>], )
Encrypt blocks in-place.
source§fn encrypt_blocks_b2b_mut(
&mut self,
in_blocks: &[GenericArray<u8, Self::BlockSize>],
out_blocks: &mut [GenericArray<u8, Self::BlockSize>],
) -> Result<(), NotEqualError>
fn encrypt_blocks_b2b_mut( &mut self, in_blocks: &[GenericArray<u8, Self::BlockSize>], out_blocks: &mut [GenericArray<u8, Self::BlockSize>], ) -> Result<(), NotEqualError>
Encrypt blocks buffer-to-buffer. Read more
source§fn encrypt_padded_inout_mut<'inp, 'out, P>(
self,
data: InOutBufReserved<'inp, 'out, u8>,
) -> Result<&'out [u8], PadError>
fn encrypt_padded_inout_mut<'inp, 'out, P>( self, data: InOutBufReserved<'inp, 'out, u8>, ) -> Result<&'out [u8], PadError>
Pad input and encrypt. Returns resulting ciphertext slice. Read more
source§fn encrypt_padded_mut<P>(
self,
buf: &mut [u8],
msg_len: usize,
) -> Result<&[u8], PadError>
fn encrypt_padded_mut<P>( self, buf: &mut [u8], msg_len: usize, ) -> Result<&[u8], PadError>
Pad input and encrypt in-place. Returns resulting ciphertext slice. Read more
source§impl<C> BlockSizeUser for Encryptor<C>where
C: BlockEncryptMut + BlockCipher,
impl<C> BlockSizeUser for Encryptor<C>where
C: BlockEncryptMut + BlockCipher,
source§type BlockSize = <C as BlockSizeUser>::BlockSize
type BlockSize = <C as BlockSizeUser>::BlockSize
Size of the block in bytes.
source§fn block_size() -> usize
fn block_size() -> usize
Return block size in bytes.
source§impl<C> InnerIvInit for Encryptor<C>where
C: BlockEncryptMut + BlockCipher,
impl<C> InnerIvInit for Encryptor<C>where
C: BlockEncryptMut + BlockCipher,
source§fn inner_iv_init(cipher: C, iv: &Iv<Self>) -> Self
fn inner_iv_init(cipher: C, iv: &Iv<Self>) -> Self
Initialize value using
inner
and iv
array.source§fn inner_iv_slice_init(
inner: Self::Inner,
iv: &[u8],
) -> Result<Self, InvalidLength>
fn inner_iv_slice_init( inner: Self::Inner, iv: &[u8], ) -> Result<Self, InvalidLength>
Initialize value using
inner
and iv
slice.source§fn generate_iv(rng: impl CryptoRng + RngCore) -> GenericArray<u8, Self::IvSize>
fn generate_iv(rng: impl CryptoRng + RngCore) -> GenericArray<u8, Self::IvSize>
Generate random IV using the provided
CryptoRng
.source§impl<C> InnerUser for Encryptor<C>where
C: BlockEncryptMut + BlockCipher,
impl<C> InnerUser for Encryptor<C>where
C: BlockEncryptMut + BlockCipher,
source§impl<C> IvSizeUser for Encryptor<C>where
C: BlockEncryptMut + BlockCipher,
impl<C> IvSizeUser for Encryptor<C>where
C: BlockEncryptMut + BlockCipher,
source§impl<C> IvState for Encryptor<C>where
C: BlockEncryptMut + BlockCipher,
impl<C> IvState for Encryptor<C>where
C: BlockEncryptMut + BlockCipher,
Auto Trait Implementations§
impl<C> Freeze for Encryptor<C>
impl<C> RefUnwindSafe for Encryptor<C>where
C: RefUnwindSafe,
<<C as BlockSizeUser>::BlockSize as ArrayLength<u8>>::ArrayType: RefUnwindSafe,
impl<C> Send for Encryptor<C>where
C: Send,
impl<C> Sync for Encryptor<C>where
C: Sync,
impl<C> Unpin for Encryptor<C>
impl<C> UnwindSafe for Encryptor<C>
Blanket Implementations§
source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
Mutably borrows from an owned value. Read more
source§impl<T> CloneToUninit for Twhere
T: Clone,
impl<T> CloneToUninit for Twhere
T: Clone,
source§unsafe fn clone_to_uninit(&self, dst: *mut T)
unsafe fn clone_to_uninit(&self, dst: *mut T)
🔬This is a nightly-only experimental API. (
clone_to_uninit
)source§impl<T> KeyIvInit for T
impl<T> KeyIvInit for T
source§fn new(
key: &GenericArray<u8, <T as KeySizeUser>::KeySize>,
iv: &GenericArray<u8, <T as IvSizeUser>::IvSize>,
) -> T
fn new( key: &GenericArray<u8, <T as KeySizeUser>::KeySize>, iv: &GenericArray<u8, <T as IvSizeUser>::IvSize>, ) -> T
Create new value from fixed length key and nonce.
source§fn new_from_slices(key: &[u8], iv: &[u8]) -> Result<T, InvalidLength>
fn new_from_slices(key: &[u8], iv: &[u8]) -> Result<T, InvalidLength>
Create new value from variable length key and nonce.
source§fn generate_key(
rng: impl CryptoRng + RngCore,
) -> GenericArray<u8, Self::KeySize>
fn generate_key( rng: impl CryptoRng + RngCore, ) -> GenericArray<u8, Self::KeySize>
Generate random key using the provided
CryptoRng
.source§fn generate_iv(rng: impl CryptoRng + RngCore) -> GenericArray<u8, Self::IvSize>
fn generate_iv(rng: impl CryptoRng + RngCore) -> GenericArray<u8, Self::IvSize>
Generate random IV using the provided
CryptoRng
.source§fn generate_key_iv(
rng: impl CryptoRng + RngCore,
) -> (GenericArray<u8, Self::KeySize>, GenericArray<u8, Self::IvSize>)
fn generate_key_iv( rng: impl CryptoRng + RngCore, ) -> (GenericArray<u8, Self::KeySize>, GenericArray<u8, Self::IvSize>)
Generate random key and nonce using the provided
CryptoRng
.