serai/coins/monero/tests/send.rs
2022-07-16 15:16:30 -05:00

190 lines
5.1 KiB
Rust

use std::sync::Mutex;
#[cfg(feature = "multisig")]
use std::collections::HashMap;
use lazy_static::lazy_static;
use rand::rngs::OsRng;
#[cfg(feature = "multisig")]
use blake2::{digest::Update, Digest, Blake2b512};
use curve25519_dalek::constants::ED25519_BASEPOINT_TABLE;
#[cfg(feature = "multisig")]
use dalek_ff_group::Scalar;
#[cfg(feature = "multisig")]
use transcript::{Transcript, RecommendedTranscript};
#[cfg(feature = "multisig")]
use frost::{
curve::Ed25519,
tests::{THRESHOLD, key_gen, sign},
};
use monero_serai::{
random_scalar,
wallet::{
ViewPair,
address::{Network, AddressType},
SignableTransaction,
},
};
mod rpc;
use crate::rpc::{rpc, mine_block};
lazy_static! {
static ref SEQUENTIAL: Mutex<()> = Mutex::new(());
}
macro_rules! async_sequential {
($(async fn $name: ident() $body: block)*) => {
$(
#[tokio::test]
async fn $name() {
let guard = SEQUENTIAL.lock().unwrap();
let local = tokio::task::LocalSet::new();
local.run_until(async move {
if let Err(err) = tokio::task::spawn_local(async move { $body }).await {
drop(guard);
Err(err).unwrap()
}
}).await;
}
)*
};
}
async fn send_core(test: usize, multisig: bool) {
let rpc = rpc().await;
// Generate an address
let spend = random_scalar(&mut OsRng);
#[allow(unused_mut)]
let mut view = random_scalar(&mut OsRng);
#[allow(unused_mut)]
let mut spend_pub = &spend * &ED25519_BASEPOINT_TABLE;
#[cfg(feature = "multisig")]
let keys = key_gen::<_, Ed25519>(&mut OsRng);
if multisig {
#[cfg(not(feature = "multisig"))]
panic!("Running a multisig test without the multisig feature");
#[cfg(feature = "multisig")]
{
view = Scalar::from_hash(Blake2b512::new().chain("Monero Serai Transaction Test")).0;
spend_pub = keys[&1].group_key().0;
}
}
let view_pair = ViewPair { view, spend: spend_pub };
let addr = view_pair.address(Network::Mainnet, AddressType::Standard, false);
let fee = rpc.get_fee().await.unwrap();
let start = rpc.get_height().await.unwrap();
for _ in 0 .. 7 {
mine_block(&rpc, &addr.to_string()).await.unwrap();
}
let mut tx = None;
// Allow tests to test variable transactions
for i in 0 .. [2, 1][test] {
let mut outputs = vec![];
let mut amount = 0;
// Test spending both a miner output and a normal output
if test == 0 {
if i == 0 {
tx = Some(rpc.get_block_transactions(start).await.unwrap().swap_remove(0));
}
// Grab the largest output available
let output = {
let mut outputs = tx.as_ref().unwrap().scan(view_pair, false).ignore_timelock();
outputs.sort_by(|x, y| x.commitment.amount.cmp(&y.commitment.amount).reverse());
outputs.swap_remove(0)
};
// Test creating a zero change output and a non-zero change output
amount = output.commitment.amount - u64::try_from(i).unwrap();
outputs.push(output);
// Test spending multiple inputs
} else if test == 1 {
if i != 0 {
continue;
}
// We actually need 80 decoys for this transaction, so mine until then
// 80 + 60 (miner TX maturity) + 10 (lock blocks)
// It is possible for this to be lower, by noting maturity is sufficient regardless of lock
// blocks, yet that's not currently implemented
// TODO, if we care
while rpc.get_height().await.unwrap() < 160 {
mine_block(&rpc, &addr.to_string()).await.unwrap();
}
for i in (start + 1) .. (start + 9) {
let tx = rpc.get_block_transactions(i).await.unwrap().swap_remove(0);
let output = tx.scan(view_pair, false).ignore_timelock().swap_remove(0);
amount += output.commitment.amount;
outputs.push(output);
}
}
let mut signable =
SignableTransaction::new(outputs, vec![(addr, amount - 10000000000)], Some(addr), fee)
.unwrap();
if !multisig {
tx = Some(signable.sign(&mut OsRng, &rpc, &spend).await.unwrap());
} else {
#[cfg(feature = "multisig")]
{
let mut machines = HashMap::new();
for i in 1 ..= THRESHOLD {
machines.insert(
i,
signable
.clone()
.multisig(
&rpc,
(*keys[&i]).clone(),
RecommendedTranscript::new(b"Monero Serai Test Transaction"),
rpc.get_height().await.unwrap() - 10,
(1 ..= THRESHOLD).collect::<Vec<_>>(),
)
.await
.unwrap(),
);
}
tx = Some(sign(&mut OsRng, machines, &vec![]));
}
}
rpc.publish_transaction(tx.as_ref().unwrap()).await.unwrap();
mine_block(&rpc, &addr.to_string()).await.unwrap();
}
}
async_sequential! {
async fn send_single_input() {
send_core(0, false).await;
}
async fn send_multiple_inputs() {
send_core(1, false).await;
}
}
#[cfg(feature = "multisig")]
async_sequential! {
async fn multisig_send_single_input() {
send_core(0, true).await;
}
async fn multisig_send_multiple_inputs() {
send_core(1, true).await;
}
}