snarkvm_circuit_program/data/record/decrypt.rs
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// Copyright 2024 Aleo Network Foundation
// This file is part of the snarkVM library.
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at:
// http://www.apache.org/licenses/LICENSE-2.0
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
use super::*;
impl<A: Aleo> Record<A, Ciphertext<A>> {
/// Decrypts `self` into a plaintext record using the given view key & nonce.
pub fn decrypt(&self, view_key: &ViewKey<A>) -> Record<A, Plaintext<A>> {
// Compute the record view key.
let record_view_key = (&**view_key * &self.nonce).to_x_coordinate();
// Decrypt the record.
let record = self.decrypt_symmetric_unchecked(record_view_key);
// Ensure the view key corresponds to the record owner.
A::assert_eq(view_key.to_address(), record.owner().deref());
// Return the decrypted record.
record
}
/// Decrypts `self` into a plaintext record using the given record view key.
/// Note: This method does not check that the record view key corresponds to the record owner.
/// Use `Self::decrypt` for the checked variant.
pub fn decrypt_symmetric_unchecked(&self, record_view_key: Field<A>) -> Record<A, Plaintext<A>> {
// Determine the number of randomizers needed to encrypt the record.
let num_randomizers = self.num_randomizers();
// Prepare a randomizer for each field element.
let randomizers = A::hash_many_psd8(&[A::encryption_domain(), record_view_key], num_randomizers);
// Decrypt the record.
self.decrypt_with_randomizers(&randomizers)
}
/// Decrypts `self` into a plaintext record using the given randomizers.
fn decrypt_with_randomizers(&self, randomizers: &[Field<A>]) -> Record<A, Plaintext<A>> {
// Initialize an index to keep track of the randomizer index.
let mut index: usize = 0;
// Decrypt the owner.
let owner = match self.owner.is_public().eject_value() {
true => self.owner.decrypt(&[]),
false => self.owner.decrypt(&[randomizers[index].clone()]),
};
// Increment the index if the owner is private.
if owner.is_private().eject_value() {
index += 1;
}
// Decrypt the program data.
let mut decrypted_data = IndexMap::with_capacity(self.data.len());
for (id, entry, num_randomizers) in self.data.iter().map(|(id, entry)| (id, entry, entry.num_randomizers())) {
// Retrieve the randomizers for this entry.
let randomizers = &randomizers[index..index + num_randomizers as usize];
// Decrypt the entry.
let entry = match entry {
// Constant entries do not need to be decrypted.
Entry::Constant(plaintext) => Entry::Constant(plaintext.clone()),
// Public entries do not need to be decrypted.
Entry::Public(plaintext) => Entry::Public(plaintext.clone()),
// Private entries are decrypted with the given randomizers.
Entry::Private(private) => Entry::Private(private.decrypt_with_randomizers(randomizers)),
};
// Insert the decrypted entry.
if decrypted_data.insert(id.clone(), entry).is_some() {
A::halt(format!("Duplicate identifier in record: {id}"))
}
// Increment the index.
index += num_randomizers as usize;
}
// Return the decrypted record.
Record { owner, data: decrypted_data, nonce: self.nonce.clone() }
}
}
#[cfg(all(test, feature = "console"))]
mod tests {
use super::*;
use crate::{Circuit, Literal};
use snarkvm_circuit_types::{Address, Field};
use snarkvm_utilities::{TestRng, Uniform};
use anyhow::Result;
const ITERATIONS: u64 = 100;
fn check_encrypt_and_decrypt<A: Aleo>(
view_key: &ViewKey<A>,
owner: Owner<A, Plaintext<A>>,
rng: &mut TestRng,
) -> Result<()> {
// Prepare the record.
let randomizer = Scalar::new(Mode::Private, Uniform::rand(rng));
let record = Record {
owner,
data: IndexMap::from_iter(vec![
(
Identifier::from_str("a")?,
Entry::Private(Plaintext::from(Literal::Field(Field::new(Mode::Private, Uniform::rand(rng))))),
),
(
Identifier::from_str("b")?,
Entry::Private(Plaintext::from(Literal::Scalar(Scalar::new(Mode::Private, Uniform::rand(rng))))),
),
]),
nonce: A::g_scalar_multiply(&randomizer),
};
// Encrypt the record.
let ciphertext = record.encrypt(&randomizer);
// Decrypt the record.
assert_eq!(record.eject(), ciphertext.decrypt(view_key).eject());
Ok(())
}
#[test]
fn test_encrypt_and_decrypt() -> Result<()> {
let mut rng = TestRng::default();
for _ in 0..ITERATIONS {
// Generate a private key, view key, and address.
let private_key = snarkvm_console_account::PrivateKey::<<Circuit as Environment>::Network>::new(&mut rng)?;
let view_key = snarkvm_console_account::ViewKey::try_from(private_key)?;
let address = snarkvm_console_account::Address::try_from(private_key)?;
// Initialize a view key and address.
let view_key = ViewKey::<Circuit>::new(Mode::Private, view_key);
let owner = address;
// Public owner.
{
let owner = Owner::Public(Address::<Circuit>::new(Mode::Public, owner));
check_encrypt_and_decrypt::<Circuit>(&view_key, owner, &mut rng)?;
}
// Private owner.
{
let owner =
Owner::Private(Plaintext::from(Literal::Address(Address::<Circuit>::new(Mode::Private, owner))));
check_encrypt_and_decrypt::<Circuit>(&view_key, owner, &mut rng)?;
}
}
Ok(())
}
}