Struct snarkvm_wasm::GroupEncryption [−][src]
pub struct GroupEncryption<G, SG, D> where
G: Group + ProjectiveCurve,
D: Digest,
SG: Group, { pub parameters: GroupEncryptionParameters<G>, pub _signature_group: PhantomData<SG>, pub _hash: PhantomData<D>, }
Fields
parameters: GroupEncryptionParameters<G>_signature_group: PhantomData<SG>_hash: PhantomData<D>Trait Implementations
impl<G, SG, D> Clone for GroupEncryption<G, SG, D> where
G: Group + ProjectiveCurve,
D: Digest,
SG: Group, [src]
impl<G, SG, D> Clone for GroupEncryption<G, SG, D> where
G: Group + ProjectiveCurve,
D: Digest,
SG: Group, [src]pub fn clone(&self) -> GroupEncryption<G, SG, D>[src]
pub fn clone(&self) -> GroupEncryption<G, SG, D>[src]Returns a copy of the value. Read more
fn clone_from(&mut self, source: &Self)1.0.0[src]
fn clone_from(&mut self, source: &Self)1.0.0[src]Performs copy-assignment from source. Read more
impl<G, SG, D> Debug for GroupEncryption<G, SG, D> where
G: Group + ProjectiveCurve,
D: Digest,
SG: Group, [src]
impl<G, SG, D> Debug for GroupEncryption<G, SG, D> where
G: Group + ProjectiveCurve,
D: Digest,
SG: Group, [src]impl<G, SG, D, F, GG> EncryptionGadget<GroupEncryption<G, SG, D>, F> for GroupEncryptionGadget<G, F, GG> where
G: Group + ProjectiveCurve,
D: Digest + Send + Sync,
SG: Group + CanonicalSerialize + CanonicalDeserialize,
F: PrimeField,
GG: CompressedGroupGadget<G, F>, [src]
impl<G, SG, D, F, GG> EncryptionGadget<GroupEncryption<G, SG, D>, F> for GroupEncryptionGadget<G, F, GG> where
G: Group + ProjectiveCurve,
D: Digest + Send + Sync,
SG: Group + CanonicalSerialize + CanonicalDeserialize,
F: PrimeField,
GG: CompressedGroupGadget<G, F>, [src]type BlindingExponentGadget = GroupEncryptionBlindingExponentsGadget<G>
type CiphertextGadget = GroupEncryptionCiphertextGadget<G, F, GG>
type ParametersGadget = GroupEncryptionParametersGadget<G>
type PlaintextGadget = GroupEncryptionPlaintextGadget<G, F, GG>
type PrivateKeyGadget = GroupEncryptionPrivateKeyGadget<G>
type PublicKeyGadget = GroupEncryptionPublicKeyGadget<G, F, GG>
type RandomnessGadget = GroupEncryptionRandomnessGadget<G>
pub fn check_public_key_gadget<CS>(
cs: CS,
parameters: &<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::ParametersGadget,
private_key: &<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::PrivateKeyGadget
) -> Result<<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::PublicKeyGadget, SynthesisError> where
CS: ConstraintSystem<F>, [src]
cs: CS,
parameters: &<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::ParametersGadget,
private_key: &<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::PrivateKeyGadget
) -> Result<<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::PublicKeyGadget, SynthesisError> where
CS: ConstraintSystem<F>,
pub fn check_encryption_gadget<CS>(
cs: CS,
parameters: &<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::ParametersGadget,
randomness: &<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::RandomnessGadget,
public_key: &<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::PublicKeyGadget,
input: &<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::PlaintextGadget,
blinding_exponents: &<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::BlindingExponentGadget
) -> Result<<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::CiphertextGadget, SynthesisError> where
CS: ConstraintSystem<F>, [src]
cs: CS,
parameters: &<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::ParametersGadget,
randomness: &<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::RandomnessGadget,
public_key: &<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::PublicKeyGadget,
input: &<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::PlaintextGadget,
blinding_exponents: &<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::BlindingExponentGadget
) -> Result<<GroupEncryptionGadget<G, F, GG> as EncryptionGadget<GroupEncryption<G, SG, D>, F>>::CiphertextGadget, SynthesisError> where
CS: ConstraintSystem<F>,
impl<G, SG, D> EncryptionScheme for GroupEncryption<G, SG, D> where
G: Group + ProjectiveCurve,
D: Digest + Send + Sync,
SG: Group + CanonicalSerialize + CanonicalDeserialize, [src]
impl<G, SG, D> EncryptionScheme for GroupEncryption<G, SG, D> where
G: Group + ProjectiveCurve,
D: Digest + Send + Sync,
SG: Group + CanonicalSerialize + CanonicalDeserialize, [src]type BlindingExponent = <G as Group>::ScalarField
type Parameters = GroupEncryptionParameters<G>
type PrivateKey = <G as Group>::ScalarField
type PublicKey = GroupEncryptionPublicKey<G>
type Randomness = <G as Group>::ScalarField
type Text = G
pub fn setup<R>(rng: &mut R) -> GroupEncryption<G, SG, D> where
R: Rng, [src]
R: Rng,
pub fn generate_private_key<R>(
&self,
rng: &mut R
) -> <GroupEncryption<G, SG, D> as EncryptionScheme>::PrivateKey where
R: Rng, [src]
&self,
rng: &mut R
) -> <GroupEncryption<G, SG, D> as EncryptionScheme>::PrivateKey where
R: Rng,
pub fn generate_public_key(
&self,
private_key: &<GroupEncryption<G, SG, D> as EncryptionScheme>::PrivateKey
) -> Result<<GroupEncryption<G, SG, D> as EncryptionScheme>::PublicKey, EncryptionError>[src]
&self,
private_key: &<GroupEncryption<G, SG, D> as EncryptionScheme>::PrivateKey
) -> Result<<GroupEncryption<G, SG, D> as EncryptionScheme>::PublicKey, EncryptionError>
pub fn generate_randomness<R>(
&self,
public_key: &<GroupEncryption<G, SG, D> as EncryptionScheme>::PublicKey,
rng: &mut R
) -> Result<<GroupEncryption<G, SG, D> as EncryptionScheme>::Randomness, EncryptionError> where
R: Rng, [src]
&self,
public_key: &<GroupEncryption<G, SG, D> as EncryptionScheme>::PublicKey,
rng: &mut R
) -> Result<<GroupEncryption<G, SG, D> as EncryptionScheme>::Randomness, EncryptionError> where
R: Rng,
pub fn generate_blinding_exponents(
&self,
public_key: &<GroupEncryption<G, SG, D> as EncryptionScheme>::PublicKey,
randomness: &<GroupEncryption<G, SG, D> as EncryptionScheme>::Randomness,
message_length: usize
) -> Result<Vec<<GroupEncryption<G, SG, D> as EncryptionScheme>::BlindingExponent, Global>, EncryptionError>[src]
&self,
public_key: &<GroupEncryption<G, SG, D> as EncryptionScheme>::PublicKey,
randomness: &<GroupEncryption<G, SG, D> as EncryptionScheme>::Randomness,
message_length: usize
) -> Result<Vec<<GroupEncryption<G, SG, D> as EncryptionScheme>::BlindingExponent, Global>, EncryptionError>
pub fn encrypt(
&self,
public_key: &<GroupEncryption<G, SG, D> as EncryptionScheme>::PublicKey,
randomness: &<GroupEncryption<G, SG, D> as EncryptionScheme>::Randomness,
message: &[<GroupEncryption<G, SG, D> as EncryptionScheme>::Text]
) -> Result<Vec<<GroupEncryption<G, SG, D> as EncryptionScheme>::Text, Global>, EncryptionError>[src]
&self,
public_key: &<GroupEncryption<G, SG, D> as EncryptionScheme>::PublicKey,
randomness: &<GroupEncryption<G, SG, D> as EncryptionScheme>::Randomness,
message: &[<GroupEncryption<G, SG, D> as EncryptionScheme>::Text]
) -> Result<Vec<<GroupEncryption<G, SG, D> as EncryptionScheme>::Text, Global>, EncryptionError>
pub fn decrypt(
&self,
private_key: &<GroupEncryption<G, SG, D> as EncryptionScheme>::PrivateKey,
ciphertext: &[<GroupEncryption<G, SG, D> as EncryptionScheme>::Text]
) -> Result<Vec<<GroupEncryption<G, SG, D> as EncryptionScheme>::Text, Global>, EncryptionError>[src]
&self,
private_key: &<GroupEncryption<G, SG, D> as EncryptionScheme>::PrivateKey,
ciphertext: &[<GroupEncryption<G, SG, D> as EncryptionScheme>::Text]
) -> Result<Vec<<GroupEncryption<G, SG, D> as EncryptionScheme>::Text, Global>, EncryptionError>
pub fn parameters(
&self
) -> &<GroupEncryption<G, SG, D> as EncryptionScheme>::Parameters[src]
&self
) -> &<GroupEncryption<G, SG, D> as EncryptionScheme>::Parameters
pub fn private_key_size_in_bits() -> usize[src]
impl<G, SG, D> From<GroupEncryptionParameters<G>> for GroupEncryption<G, SG, D> where
G: Group + ProjectiveCurve,
D: Digest,
SG: Group, [src]
impl<G, SG, D> From<GroupEncryptionParameters<G>> for GroupEncryption<G, SG, D> where
G: Group + ProjectiveCurve,
D: Digest,
SG: Group, [src]pub fn from(
parameters: GroupEncryptionParameters<G>
) -> GroupEncryption<G, SG, D>[src]
pub fn from(
parameters: GroupEncryptionParameters<G>
) -> GroupEncryption<G, SG, D>[src]Performs the conversion.
impl<G, SG, D> PartialEq<GroupEncryption<G, SG, D>> for GroupEncryption<G, SG, D> where
G: Group + ProjectiveCurve,
D: Digest,
SG: Group, [src]
impl<G, SG, D> PartialEq<GroupEncryption<G, SG, D>> for GroupEncryption<G, SG, D> where
G: Group + ProjectiveCurve,
D: Digest,
SG: Group, [src]impl<G, SG, D> SignatureScheme for GroupEncryption<G, SG, D> where
G: Group + ProjectiveCurve,
D: Digest + Send + Sync,
SG: Group + Hash + CanonicalSerialize + CanonicalDeserialize,
<G as Group>::ScalarField: PrimeField, [src]
impl<G, SG, D> SignatureScheme for GroupEncryption<G, SG, D> where
G: Group + ProjectiveCurve,
D: Digest + Send + Sync,
SG: Group + Hash + CanonicalSerialize + CanonicalDeserialize,
<G as Group>::ScalarField: PrimeField, [src]type Output = SchnorrOutput<SG>
type Parameters = GroupEncryptionParameters<G>
type PrivateKey = <G as Group>::ScalarField
type PublicKey = GroupEncryptionPublicKey<G>
pub fn setup<R>(
rng: &mut R
) -> Result<GroupEncryption<G, SG, D>, SignatureError> where
R: Rng, [src]
rng: &mut R
) -> Result<GroupEncryption<G, SG, D>, SignatureError> where
R: Rng,
pub fn parameters(
&self
) -> &<GroupEncryption<G, SG, D> as SignatureScheme>::Parameters[src]
&self
) -> &<GroupEncryption<G, SG, D> as SignatureScheme>::Parameters
pub fn generate_private_key<R>(
&self,
rng: &mut R
) -> Result<<GroupEncryption<G, SG, D> as SignatureScheme>::PrivateKey, SignatureError> where
R: Rng, [src]
&self,
rng: &mut R
) -> Result<<GroupEncryption<G, SG, D> as SignatureScheme>::PrivateKey, SignatureError> where
R: Rng,
pub fn generate_public_key(
&self,
private_key: &<GroupEncryption<G, SG, D> as SignatureScheme>::PrivateKey
) -> Result<<GroupEncryption<G, SG, D> as SignatureScheme>::PublicKey, SignatureError>[src]
&self,
private_key: &<GroupEncryption<G, SG, D> as SignatureScheme>::PrivateKey
) -> Result<<GroupEncryption<G, SG, D> as SignatureScheme>::PublicKey, SignatureError>
pub fn sign<R>(
&self,
private_key: &<GroupEncryption<G, SG, D> as SignatureScheme>::PrivateKey,
message: &[u8],
rng: &mut R
) -> Result<<GroupEncryption<G, SG, D> as SignatureScheme>::Output, SignatureError> where
R: Rng, [src]
&self,
private_key: &<GroupEncryption<G, SG, D> as SignatureScheme>::PrivateKey,
message: &[u8],
rng: &mut R
) -> Result<<GroupEncryption<G, SG, D> as SignatureScheme>::Output, SignatureError> where
R: Rng,
pub fn verify(
&self,
public_key: &<GroupEncryption<G, SG, D> as SignatureScheme>::PublicKey,
message: &[u8],
signature: &<GroupEncryption<G, SG, D> as SignatureScheme>::Output
) -> Result<bool, SignatureError>[src]
&self,
public_key: &<GroupEncryption<G, SG, D> as SignatureScheme>::PublicKey,
message: &[u8],
signature: &<GroupEncryption<G, SG, D> as SignatureScheme>::Output
) -> Result<bool, SignatureError>
pub fn randomize_public_key(
&self,
_public_key: &<GroupEncryption<G, SG, D> as SignatureScheme>::PublicKey,
_randomness: &[u8]
) -> Result<<GroupEncryption<G, SG, D> as SignatureScheme>::PublicKey, SignatureError>[src]
&self,
_public_key: &<GroupEncryption<G, SG, D> as SignatureScheme>::PublicKey,
_randomness: &[u8]
) -> Result<<GroupEncryption<G, SG, D> as SignatureScheme>::PublicKey, SignatureError>
pub fn randomize_signature(
&self,
_signature: &<GroupEncryption<G, SG, D> as SignatureScheme>::Output,
_randomness: &[u8]
) -> Result<<GroupEncryption<G, SG, D> as SignatureScheme>::Output, SignatureError>[src]
&self,
_signature: &<GroupEncryption<G, SG, D> as SignatureScheme>::Output,
_randomness: &[u8]
) -> Result<<GroupEncryption<G, SG, D> as SignatureScheme>::Output, SignatureError>
impl<G, SG, D> Eq for GroupEncryption<G, SG, D> where
G: Group + ProjectiveCurve,
D: Digest,
SG: Group, [src]
G: Group + ProjectiveCurve,
D: Digest,
SG: Group,
Auto Trait Implementations
impl<G, SG, D> RefUnwindSafe for GroupEncryption<G, SG, D> where
D: RefUnwindSafe,
G: RefUnwindSafe,
SG: RefUnwindSafe,
D: RefUnwindSafe,
G: RefUnwindSafe,
SG: RefUnwindSafe,
impl<G, SG, D> Send for GroupEncryption<G, SG, D> where
D: Send,
D: Send,
impl<G, SG, D> Sync for GroupEncryption<G, SG, D> where
D: Sync,
D: Sync,
impl<G, SG, D> Unpin for GroupEncryption<G, SG, D> where
D: Unpin,
G: Unpin,
SG: Unpin,
D: Unpin,
G: Unpin,
SG: Unpin,
impl<G, SG, D> UnwindSafe for GroupEncryption<G, SG, D> where
D: UnwindSafe,
G: UnwindSafe,
SG: UnwindSafe,
D: UnwindSafe,
G: UnwindSafe,
SG: UnwindSafe,
Blanket Implementations
impl<T> BorrowMut<T> for T where
T: ?Sized, [src]
impl<T> BorrowMut<T> for T where
T: ?Sized, [src]pub fn borrow_mut(&mut self) -> &mut T[src]
pub fn borrow_mut(&mut self) -> &mut T[src]Mutably borrows from an owned value. Read more
impl<Q, K> Equivalent<K> for Q where
K: Borrow<Q> + ?Sized,
Q: Eq + ?Sized, [src]
impl<Q, K> Equivalent<K> for Q where
K: Borrow<Q> + ?Sized,
Q: Eq + ?Sized, [src]pub fn equivalent(&self, key: &K) -> bool[src]
pub fn equivalent(&self, key: &K) -> bool[src]Compare self to key and return true if they are equal.
impl<T> Pointable for T
impl<T> Pointable for Timpl<T> Same<T> for T
impl<T> Same<T> for Ttype Output = T
type Output = TShould always be Self
impl<T> ToOwned for T where
T: Clone, [src]
impl<T> ToOwned for T where
T: Clone, [src]type Owned = T
type Owned = TThe resulting type after obtaining ownership.
pub fn to_owned(&self) -> T[src]
pub fn to_owned(&self) -> T[src]Creates owned data from borrowed data, usually by cloning. Read more
pub fn clone_into(&self, target: &mut T)[src]
pub fn clone_into(&self, target: &mut T)[src]🔬 This is a nightly-only experimental API. (toowned_clone_into)
recently added
Uses borrowed data to replace owned data, usually by cloning. Read more
impl<V, T> VZip<V> for T where
V: MultiLane<T>,
impl<V, T> VZip<V> for T where
V: MultiLane<T>,