serai/networks/monero/wallet/tests/runner/mod.rs
Luke Parker bdcc061bb4
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Add ScannableBlock abstraction in the RPC
Makes scanning synchronous and only error upon a malicious node/unplanned for
hard fork.
2024-09-13 04:38:49 -04:00

361 lines
11 KiB
Rust

use core::ops::Deref;
use std_shims::sync::LazyLock;
use zeroize::Zeroizing;
use rand_core::OsRng;
use curve25519_dalek::{constants::ED25519_BASEPOINT_TABLE, scalar::Scalar};
use tokio::sync::Mutex;
use monero_simple_request_rpc::SimpleRequestRpc;
use monero_wallet::{
ringct::RctType,
transaction::Transaction,
block::Block,
rpc::{Rpc, FeeRate},
address::{Network, AddressType, MoneroAddress},
DEFAULT_LOCK_WINDOW, ViewPair, GuaranteedViewPair, WalletOutput, Scanner,
};
mod builder;
pub use builder::SignableTransactionBuilder;
pub fn ring_len(rct_type: RctType) -> usize {
match rct_type {
RctType::ClsagBulletproof => 11,
RctType::ClsagBulletproofPlus => 16,
_ => panic!("ring size unknown for RctType"),
}
}
pub fn random_address() -> (Scalar, ViewPair, MoneroAddress) {
let spend = Scalar::random(&mut OsRng);
let spend_pub = &spend * ED25519_BASEPOINT_TABLE;
let view = Zeroizing::new(Scalar::random(&mut OsRng));
(
spend,
ViewPair::new(spend_pub, view.clone()).unwrap(),
MoneroAddress::new(
Network::Mainnet,
AddressType::Legacy,
spend_pub,
view.deref() * ED25519_BASEPOINT_TABLE,
),
)
}
#[allow(unused)]
pub fn random_guaranteed_address() -> (Scalar, GuaranteedViewPair, MoneroAddress) {
let spend = Scalar::random(&mut OsRng);
let spend_pub = &spend * ED25519_BASEPOINT_TABLE;
let view = Zeroizing::new(Scalar::random(&mut OsRng));
(
spend,
GuaranteedViewPair::new(spend_pub, view.clone()).unwrap(),
MoneroAddress::new(
Network::Mainnet,
AddressType::Legacy,
spend_pub,
view.deref() * ED25519_BASEPOINT_TABLE,
),
)
}
// TODO: Support transactions already on-chain
// TODO: Don't have a side effect of mining blocks more blocks than needed under race conditions
pub async fn mine_until_unlocked(
rpc: &SimpleRequestRpc,
addr: &MoneroAddress,
tx_hash: [u8; 32],
) -> Block {
// mine until tx is in a block
let mut height = rpc.get_height().await.unwrap();
let mut found = false;
let mut block = None;
while !found {
let inner_block = rpc.get_block_by_number(height - 1).await.unwrap();
found = match inner_block.transactions.iter().find(|&&x| x == tx_hash) {
Some(_) => {
block = Some(inner_block);
true
}
None => {
height = rpc.generate_blocks(addr, 1).await.unwrap().1 + 1;
false
}
}
}
// Mine until tx's outputs are unlocked
for _ in 0 .. (DEFAULT_LOCK_WINDOW - 1) {
rpc.generate_blocks(addr, 1).await.unwrap();
}
block.unwrap()
}
// Mines 60 blocks and returns an unlocked miner TX output.
#[allow(dead_code)]
pub async fn get_miner_tx_output(rpc: &SimpleRequestRpc, view: &ViewPair) -> WalletOutput {
let mut scanner = Scanner::new(view.clone());
// Mine 60 blocks to unlock a miner TX
let start = rpc.get_height().await.unwrap();
rpc.generate_blocks(&view.legacy_address(Network::Mainnet), 60).await.unwrap();
let block = rpc.get_block_by_number(start).await.unwrap();
scanner
.scan(rpc.get_scannable_block(block).await.unwrap())
.unwrap()
.ignore_additional_timelock()
.swap_remove(0)
}
/// Make sure the weight and fee match the expected calculation.
pub fn check_weight_and_fee(tx: &Transaction, fee_rate: FeeRate) {
let Transaction::V2 { proofs: Some(ref proofs), .. } = tx else { panic!("TX wasn't RingCT") };
let fee = proofs.base.fee;
let weight = tx.weight();
let expected_weight = fee_rate.calculate_weight_from_fee(fee);
assert_eq!(weight, expected_weight);
let expected_fee = fee_rate.calculate_fee_from_weight(weight);
assert_eq!(fee, expected_fee);
}
pub async fn rpc() -> SimpleRequestRpc {
let rpc =
SimpleRequestRpc::new("http://serai:seraidex@127.0.0.1:18081".to_string()).await.unwrap();
const BLOCKS_TO_MINE: usize = 110;
// Only run once
if rpc.get_height().await.unwrap() > BLOCKS_TO_MINE {
return rpc;
}
let addr = MoneroAddress::new(
Network::Mainnet,
AddressType::Legacy,
&Scalar::random(&mut OsRng) * ED25519_BASEPOINT_TABLE,
&Scalar::random(&mut OsRng) * ED25519_BASEPOINT_TABLE,
);
// Mine enough blocks to ensure decoy availability
rpc.generate_blocks(&addr, BLOCKS_TO_MINE).await.unwrap();
rpc
}
pub(crate) static SEQUENTIAL: LazyLock<Mutex<()>> = LazyLock::new(|| Mutex::new(()));
#[macro_export]
macro_rules! async_sequential {
($(async fn $name: ident() $body: block)*) => {
$(
#[tokio::test]
async fn $name() {
let guard = runner::SEQUENTIAL.lock().await;
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;
}
)*
}
}
#[macro_export]
macro_rules! test {
(
$name: ident,
(
$first_tx: expr,
$first_checks: expr,
),
$((
$tx: expr,
$checks: expr,
)$(,)?),*
) => {
async_sequential! {
async fn $name() {
use core::{ops::Deref, any::Any};
#[cfg(feature = "multisig")]
use std::collections::HashMap;
use zeroize::Zeroizing;
use rand_core::{RngCore, OsRng};
use curve25519_dalek::{constants::ED25519_BASEPOINT_TABLE, scalar::Scalar};
#[cfg(feature = "multisig")]
use frost::{
curve::Ed25519,
Participant,
tests::{THRESHOLD, key_gen},
};
use monero_wallet::{
ringct::RctType,
rpc::FeePriority,
address::Network,
ViewPair, Scanner, OutputWithDecoys,
send::{Change, SignableTransaction, Eventuality},
};
use runner::{
SignableTransactionBuilder, ring_len, random_address, rpc, mine_until_unlocked,
get_miner_tx_output, check_weight_and_fee,
};
type Builder = SignableTransactionBuilder;
// Run each function as both a single signer and as a multisig
#[allow(clippy::redundant_closure_call)]
for multisig in [false, true] {
// Only run the multisig variant if multisig is enabled
if multisig {
#[cfg(not(feature = "multisig"))]
continue;
}
let spend = Zeroizing::new(Scalar::random(&mut OsRng));
#[cfg(feature = "multisig")]
let keys = key_gen::<_, Ed25519>(&mut OsRng);
let spend_pub = if !multisig {
spend.deref() * ED25519_BASEPOINT_TABLE
} else {
#[cfg(not(feature = "multisig"))]
panic!("Multisig branch called without the multisig feature");
#[cfg(feature = "multisig")]
keys[&Participant::new(1).unwrap()].group_key().0
};
let rpc = rpc().await;
let view_priv = Zeroizing::new(Scalar::random(&mut OsRng));
let mut outgoing_view = Zeroizing::new([0; 32]);
OsRng.fill_bytes(outgoing_view.as_mut());
let view = ViewPair::new(spend_pub, view_priv.clone()).unwrap();
let addr = view.legacy_address(Network::Mainnet);
let miner_tx = get_miner_tx_output(&rpc, &view).await;
let rct_type = match rpc.get_hardfork_version().await.unwrap() {
14 => RctType::ClsagBulletproof,
15 | 16 => RctType::ClsagBulletproofPlus,
_ => panic!("unrecognized hardfork version"),
};
let builder = SignableTransactionBuilder::new(
rct_type,
outgoing_view,
Change::new(
ViewPair::new(
&Scalar::random(&mut OsRng) * ED25519_BASEPOINT_TABLE,
Zeroizing::new(Scalar::random(&mut OsRng))
).unwrap(),
None,
),
rpc.get_fee_rate(FeePriority::Unimportant).await.unwrap(),
);
let sign = |tx: SignableTransaction| {
let spend = spend.clone();
#[cfg(feature = "multisig")]
let keys = keys.clone();
assert_eq!(&SignableTransaction::read(&mut tx.serialize().as_slice()).unwrap(), &tx);
let eventuality = Eventuality::from(tx.clone());
let tx = if !multisig {
tx.sign(&mut OsRng, &spend).unwrap()
} else {
#[cfg(not(feature = "multisig"))]
panic!("multisig branch called without the multisig feature");
#[cfg(feature = "multisig")]
{
let mut machines = HashMap::new();
for i in (1 ..= THRESHOLD).map(|i| Participant::new(i).unwrap()) {
machines.insert(i, tx.clone().multisig(&keys[&i]).unwrap());
}
frost::tests::sign_without_caching(&mut OsRng, machines, &[])
}
};
assert_eq!(&eventuality.extra(), &tx.prefix().extra, "eventuality extra was distinct");
assert!(eventuality.matches(&tx.clone().into()), "eventuality didn't match");
tx
};
// TODO: Generate a distinct wallet for each transaction to prevent overlap
let next_addr = addr;
let temp = Box::new({
let mut builder = builder.clone();
let input = OutputWithDecoys::fingerprintable_deterministic_new(
&mut OsRng,
&rpc,
ring_len(rct_type),
rpc.get_height().await.unwrap(),
miner_tx,
).await.unwrap();
builder.add_input(input);
let (tx, state) = ($first_tx)(rpc.clone(), builder, next_addr).await;
let fee_rate = tx.fee_rate().clone();
let signed = sign(tx);
rpc.publish_transaction(&signed).await.unwrap();
let block =
mine_until_unlocked(&rpc, &random_address().2, signed.hash()).await;
let block = rpc.get_scannable_block(block).await.unwrap();
let tx = rpc.get_transaction(signed.hash()).await.unwrap();
check_weight_and_fee(&tx, fee_rate);
let scanner = Scanner::new(view.clone());
($first_checks)(rpc.clone(), block, tx, scanner, state).await
});
#[allow(unused_variables, unused_mut, unused_assignments)]
let mut carried_state: Box<dyn Any> = temp;
$(
let (tx, state) = ($tx)(
rct_type,
rpc.clone(),
builder.clone(),
next_addr,
*carried_state.downcast().unwrap()
).await;
let fee_rate = tx.fee_rate().clone();
let signed = sign(tx);
rpc.publish_transaction(&signed).await.unwrap();
let block =
mine_until_unlocked(&rpc, &random_address().2, signed.hash()).await;
let block = rpc.get_scannable_block(block).await.unwrap();
let tx = rpc.get_transaction(signed.hash()).await.unwrap();
if stringify!($name) != "spend_one_input_to_two_outputs_no_change" {
// Skip weight and fee check for the above test because when there is no change,
// the change is added to the fee
check_weight_and_fee(&tx, fee_rate);
}
#[allow(unused_assignments)]
{
let scanner = Scanner::new(view.clone());
carried_state = Box::new(($checks)(rpc.clone(), block, tx, scanner, state).await);
}
)*
}
}
}
}
}