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// SPDX-License-Identifier: MPL-2.0
//! Tools for evaluating Prio3 test vectors.
use crate::{
codec::{Encode, ParameterizedDecode},
flp::Type,
vdaf::{
prio3::{Prio3, Prio3InputShare, Prio3PrepareShare, Prio3PublicShare},
xof::Xof,
Aggregator, Collector, OutputShare, PrepareTransition, Vdaf,
},
};
use serde::{Deserialize, Serialize};
use std::{collections::HashMap, convert::TryInto, fmt::Debug};
#[derive(Debug, Deserialize, Serialize)]
struct TEncoded(#[serde(with = "hex")] Vec<u8>);
impl AsRef<[u8]> for TEncoded {
fn as_ref(&self) -> &[u8] {
&self.0
}
}
#[derive(Deserialize, Serialize)]
struct TPrio3Prep<M> {
measurement: M,
#[serde(with = "hex")]
nonce: Vec<u8>,
#[serde(with = "hex")]
rand: Vec<u8>,
public_share: TEncoded,
input_shares: Vec<TEncoded>,
prep_shares: Vec<Vec<TEncoded>>,
prep_messages: Vec<TEncoded>,
out_shares: Vec<Vec<TEncoded>>,
}
#[derive(Deserialize, Serialize)]
struct TPrio3<M> {
verify_key: TEncoded,
shares: u8,
prep: Vec<TPrio3Prep<M>>,
agg_shares: Vec<TEncoded>,
agg_result: serde_json::Value,
#[serde(flatten)]
other_params: HashMap<String, serde_json::Value>,
}
macro_rules! err {
(
$test_num:ident,
$error:expr,
$msg:expr
) => {
panic!("test #{} failed: {} err: {}", $test_num, $msg, $error)
};
}
// TODO Generalize this method to work with any VDAF. To do so we would need to add
// `shard_with_random()` to traits. (There may be a less invasive alternative.)
fn check_prep_test_vec<MS, MP, T, P, const SEED_SIZE: usize>(
prio3: &Prio3<T, P, SEED_SIZE>,
verify_key: &[u8; SEED_SIZE],
test_num: usize,
t: &TPrio3Prep<MS>,
) -> Vec<OutputShare<T::Field>>
where
MS: Clone,
MP: From<MS>,
T: Type<Measurement = MP>,
P: Xof<SEED_SIZE>,
{
let nonce = <[u8; 16]>::try_from(t.nonce.clone()).unwrap();
let (public_share, input_shares) = prio3
.shard_with_random(&t.measurement.clone().into(), &nonce, &t.rand)
.expect("failed to generate input shares");
assert_eq!(
public_share,
Prio3PublicShare::get_decoded_with_param(prio3, t.public_share.as_ref())
.unwrap_or_else(|e| err!(test_num, e, "decode test vector (public share)")),
);
for (agg_id, want) in t.input_shares.iter().enumerate() {
assert_eq!(
input_shares[agg_id],
Prio3InputShare::get_decoded_with_param(&(prio3, agg_id), want.as_ref())
.unwrap_or_else(|e| err!(test_num, e, "decode test vector (input share)")),
"#{test_num}"
);
assert_eq!(
input_shares[agg_id].get_encoded().unwrap(),
want.as_ref(),
"#{test_num}"
)
}
let mut states = Vec::new();
let mut prep_shares = Vec::new();
for (agg_id, input_share) in input_shares.iter().enumerate() {
let (state, prep_share) = prio3
.prepare_init(verify_key, agg_id, &(), &nonce, &public_share, input_share)
.unwrap_or_else(|e| err!(test_num, e, "prep state init"));
states.push(state);
prep_shares.push(prep_share);
}
assert_eq!(1, t.prep_shares.len(), "#{test_num}");
for (i, want) in t.prep_shares[0].iter().enumerate() {
assert_eq!(
prep_shares[i],
Prio3PrepareShare::get_decoded_with_param(&states[i], want.as_ref())
.unwrap_or_else(|e| err!(test_num, e, "decode test vector (prep share)")),
"#{test_num}"
);
assert_eq!(
prep_shares[i].get_encoded().unwrap(),
want.as_ref(),
"#{test_num}"
);
}
let inbound = prio3
.prepare_shares_to_prepare_message(&(), prep_shares)
.unwrap_or_else(|e| err!(test_num, e, "prep preprocess"));
assert_eq!(t.prep_messages.len(), 1);
assert_eq!(inbound.get_encoded().unwrap(), t.prep_messages[0].as_ref());
let mut out_shares = Vec::new();
for state in states.iter_mut() {
match prio3.prepare_next(state.clone(), inbound.clone()).unwrap() {
PrepareTransition::Finish(out_share) => {
out_shares.push(out_share);
}
_ => panic!("unexpected transition"),
}
}
for (got, want) in out_shares.iter().zip(t.out_shares.iter()) {
let got: Vec<Vec<u8>> = got
.as_ref()
.iter()
.map(|x| x.get_encoded().unwrap())
.collect();
assert_eq!(got.len(), want.len());
for (got_elem, want_elem) in got.iter().zip(want.iter()) {
assert_eq!(got_elem.as_slice(), want_elem.as_ref());
}
}
out_shares
}
#[must_use]
fn check_aggregate_test_vec<MS, MP, T, P, const SEED_SIZE: usize>(
prio3: &Prio3<T, P, SEED_SIZE>,
t: &TPrio3<MS>,
) -> T::AggregateResult
where
MS: Clone,
MP: From<MS>,
T: Type<Measurement = MP>,
P: Xof<SEED_SIZE>,
{
let verify_key = t.verify_key.as_ref().try_into().unwrap();
let mut all_output_shares = vec![Vec::new(); prio3.num_aggregators()];
for (test_num, p) in t.prep.iter().enumerate() {
let output_shares = check_prep_test_vec(prio3, verify_key, test_num, p);
for (aggregator_output_shares, output_share) in
all_output_shares.iter_mut().zip(output_shares.into_iter())
{
aggregator_output_shares.push(output_share);
}
}
let aggregate_shares = all_output_shares
.into_iter()
.map(|aggregator_output_shares| prio3.aggregate(&(), aggregator_output_shares).unwrap())
.collect::<Vec<_>>();
for (got, want) in aggregate_shares.iter().zip(t.agg_shares.iter()) {
let got = got.get_encoded().unwrap();
assert_eq!(got.as_slice(), want.as_ref());
}
prio3.unshard(&(), aggregate_shares, 1).unwrap()
}
/// Evaluate a Prio3 test vector. The instance of Prio3 is constructed from the `new_vdaf` callback,
/// which takes in the VDAF parameters encoded by the test vectors and the number of shares.
///
/// This version allows customizing the deserialization of measurements, via an additional type
/// parameter.
#[cfg(feature = "test-util")]
#[cfg_attr(docsrs, doc(cfg(feature = "test-util")))]
pub fn check_test_vec_custom_de<MS, MP, A, T, P, const SEED_SIZE: usize>(
test_vec_json_str: &str,
new_vdaf: impl Fn(&HashMap<String, serde_json::Value>, u8) -> Prio3<T, P, SEED_SIZE>,
) where
MS: for<'de> Deserialize<'de> + Clone,
MP: From<MS>,
A: for<'de> Deserialize<'de> + Debug + Eq,
T: Type<Measurement = MP, AggregateResult = A>,
P: Xof<SEED_SIZE>,
{
let t: TPrio3<MS> = serde_json::from_str(test_vec_json_str).unwrap();
let vdaf = new_vdaf(&t.other_params, t.shares);
let agg_result = check_aggregate_test_vec(&vdaf, &t);
assert_eq!(agg_result, serde_json::from_value(t.agg_result).unwrap());
}
/// Evaluate a Prio3 test vector. The instance of Prio3 is constructed from the `new_vdaf` callback,
/// which takes in the VDAF parameters encoded by the test vectors and the number of shares.
#[cfg(feature = "test-util")]
#[cfg_attr(docsrs, doc(cfg(feature = "test-util")))]
pub fn check_test_vec<M, A, T, P, const SEED_SIZE: usize>(
test_vec_json_str: &str,
new_vdaf: impl Fn(&HashMap<String, serde_json::Value>, u8) -> Prio3<T, P, SEED_SIZE>,
) where
M: for<'de> Deserialize<'de> + Clone,
A: for<'de> Deserialize<'de> + Debug + Eq,
T: Type<Measurement = M, AggregateResult = A>,
P: Xof<SEED_SIZE>,
{
check_test_vec_custom_de::<M, M, _, _, _, SEED_SIZE>(test_vec_json_str, new_vdaf)
}
#[derive(Debug, Clone, Deserialize)]
#[serde(transparent)]
struct Prio3CountMeasurement(u8);
impl From<Prio3CountMeasurement> for bool {
fn from(value: Prio3CountMeasurement) -> Self {
value.0 != 0
}
}
#[test]
fn test_vec_prio3_count() {
for test_vector_str in [
include_str!("test_vec/08/Prio3Count_0.json"),
include_str!("test_vec/08/Prio3Count_1.json"),
] {
check_test_vec_custom_de::<Prio3CountMeasurement, _, _, _, _, 16>(
test_vector_str,
|_json_params, num_shares| Prio3::new_count(num_shares).unwrap(),
);
}
}
#[test]
fn test_vec_prio3_sum() {
for test_vector_str in [
include_str!("test_vec/08/Prio3Sum_0.json"),
include_str!("test_vec/08/Prio3Sum_1.json"),
] {
check_test_vec(test_vector_str, |json_params, num_shares| {
let bits = json_params["bits"].as_u64().unwrap() as usize;
Prio3::new_sum(num_shares, bits).unwrap()
});
}
}
#[test]
fn test_vec_prio3_sum_vec() {
for test_vector_str in [
include_str!("test_vec/08/Prio3SumVec_0.json"),
include_str!("test_vec/08/Prio3SumVec_1.json"),
] {
check_test_vec(test_vector_str, |json_params, num_shares| {
let bits = json_params["bits"].as_u64().unwrap() as usize;
let length = json_params["length"].as_u64().unwrap() as usize;
let chunk_length = json_params["chunk_length"].as_u64().unwrap() as usize;
Prio3::new_sum_vec(num_shares, bits, length, chunk_length).unwrap()
});
}
}
#[test]
fn test_vec_prio3_histogram() {
for test_vector_str in [
include_str!("test_vec/08/Prio3Histogram_0.json"),
include_str!("test_vec/08/Prio3Histogram_1.json"),
] {
check_test_vec(test_vector_str, |json_params, num_shares| {
let length = json_params["length"].as_u64().unwrap() as usize;
let chunk_length = json_params["chunk_length"].as_u64().unwrap() as usize;
Prio3::new_histogram(num_shares, length, chunk_length).unwrap()
});
}
}