Add alice punish test

Use reusable test init functions for happy path test

Extract tracing setup to reusable function

Move test initialization to seperate functions

Increase stack size in CI

Fix monero max finality time

Force Bob swarm polling to send message 2

Run Bob state to xmr_locked in punish test to force the sending of
message2. Previously Bob state was run until btc_locked. Although
this was the right thing to do, message2 was not being sent as the
swarm was not polled in btc_locked. Alice punish test passes.

Add info logging to executor
This commit is contained in:
rishflab 2020-12-02 12:36:47 +11:00
parent 5fef68322a
commit c91e9652aa
8 changed files with 731 additions and 540 deletions

View File

@ -104,6 +104,7 @@ jobs:
run: cargo test --workspace --all-features
env:
MONERO_ADDITIONAL_SLEEP_PERIOD: 60000
RUST_MIN_STACK: 100000000000
- name: Build binary
run: |

1
Cargo.lock generated
View File

@ -3369,7 +3369,6 @@ dependencies = [
"bitcoin",
"bitcoin-harness",
"conquer-once",
"conquer-once",
"derivative",
"ecdsa_fun",
"futures",

View File

@ -5,7 +5,6 @@ use crate::{
SwapAmounts, PUNISH_TIMELOCK, REFUND_TIMELOCK,
};
use anyhow::{bail, Context, Result};
use conquer_once::Lazy;
use ecdsa_fun::{adaptor::Adaptor, nonce::Deterministic};
use futures::{
future::{select, Either},
@ -29,13 +28,6 @@ use xmr_btc::{
monero::Transfer,
};
// The maximum we assume we need to wait from the moment the monero transaction
// is mined to the moment it reaches finality. We set 15 confirmations for now
// (based on Kraken). 1.5 multiplier in case the blockchain is slower than
// usually. Average of 2 minutes block time
static MONERO_MAX_FINALITY_TIME: Lazy<Duration> =
Lazy::new(|| Duration::from_secs_f64(15f64 * 1.5 * 2f64 * 60f64));
pub async fn negotiate(
amounts: SwapAmounts,
a: bitcoin::SecretKey,
@ -180,8 +172,11 @@ where
Ok(())
}
pub async fn wait_for_bitcoin_encrypted_signature(swarm: &mut Swarm) -> Result<EncryptedSignature> {
let event = timeout(*MONERO_MAX_FINALITY_TIME, swarm.next())
pub async fn wait_for_bitcoin_encrypted_signature(
swarm: &mut Swarm,
timeout_duration: Duration,
) -> Result<EncryptedSignature> {
let event = timeout(timeout_duration, swarm.next())
.await
.context("Failed to receive Bitcoin encrypted signature from Bob")?;

View File

@ -24,7 +24,8 @@ use futures::{
};
use libp2p::request_response::ResponseChannel;
use rand::{CryptoRng, RngCore};
use std::sync::Arc;
use std::{fmt, sync::Arc};
use tracing::info;
use xmr_btc::{
alice::State3,
bitcoin::{TransactionBlockHeight, TxCancel, TxRefund, WatchForRawTransaction},
@ -86,36 +87,75 @@ pub enum AliceState {
SafelyAborted,
}
pub async fn swap<R>(
impl fmt::Display for AliceState {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
AliceState::Started { .. } => write!(f, "started"),
AliceState::Negotiated { .. } => write!(f, "negotiated"),
AliceState::BtcLocked { .. } => write!(f, "btc_locked"),
AliceState::XmrLocked { .. } => write!(f, "xmr_locked"),
AliceState::EncSignLearned { .. } => write!(f, "encsig_sent"),
AliceState::BtcRedeemed => write!(f, "btc_redeemed"),
AliceState::BtcCancelled { .. } => write!(f, "btc_cancelled"),
AliceState::BtcRefunded { .. } => write!(f, "btc_refunded"),
AliceState::Punished => write!(f, "punished"),
AliceState::SafelyAborted => write!(f, "safely_aborted"),
AliceState::BtcPunishable { .. } => write!(f, "btc_punishable"),
AliceState::XmrRefunded => write!(f, "xmr_refunded"),
AliceState::WaitingToCancel { .. } => write!(f, "waiting_to_cancel"),
}
}
}
pub async fn swap(
state: AliceState,
swarm: Swarm,
bitcoin_wallet: Arc<crate::bitcoin::Wallet>,
monero_wallet: Arc<crate::monero::Wallet>,
) -> Result<AliceState>
where
R: RngCore + CryptoRng + Send,
{
run_until(state, is_complete, swarm, bitcoin_wallet, monero_wallet).await
config: Config,
) -> Result<(AliceState, Swarm)> {
run_until(
state,
is_complete,
swarm,
bitcoin_wallet,
monero_wallet,
config,
)
.await
}
// TODO: use macro or generics
pub fn is_complete(state: &AliceState) -> bool {
matches!(state, AliceState::XmrRefunded| AliceState::BtcRedeemed | AliceState::Punished | AliceState::SafelyAborted)
matches!(
state,
AliceState::XmrRefunded
| AliceState::BtcRedeemed
| AliceState::Punished
| AliceState::SafelyAborted
)
}
pub fn is_xmr_locked(state: &AliceState) -> bool {
matches!(
state,
AliceState::XmrLocked{..}
)
}
// State machine driver for swap execution
#[async_recursion]
pub async fn run_until(
state: AliceState,
is_state: fn(&AliceState) -> bool,
is_target_state: fn(&AliceState) -> bool,
mut swarm: Swarm,
bitcoin_wallet: Arc<crate::bitcoin::Wallet>,
monero_wallet: Arc<crate::monero::Wallet>,
config: Config,
) -> Result<AliceState> {
if is_state(&state) {
Ok(state)
) -> Result<(AliceState, Swarm)> {
info!("{}", state);
if is_target_state(&state) {
Ok((state, swarm))
} else {
match state {
AliceState::Started {
@ -141,7 +181,7 @@ pub async fn run_until(
amounts,
state3,
},
is_state,
is_target_state,
swarm,
bitcoin_wallet,
monero_wallet,
@ -154,7 +194,8 @@ pub async fn run_until(
channel,
amounts,
} => {
let _ = wait_for_locked_bitcoin(state3.tx_lock.txid(), bitcoin_wallet.clone(), config)
let _ =
wait_for_locked_bitcoin(state3.tx_lock.txid(), bitcoin_wallet.clone(), config)
.await?;
run_until(
@ -163,7 +204,7 @@ pub async fn run_until(
amounts,
state3,
},
is_state,
is_target_state,
swarm,
bitcoin_wallet,
monero_wallet,
@ -187,7 +228,7 @@ pub async fn run_until(
run_until(
AliceState::XmrLocked { state3 },
is_state,
is_target_state,
swarm,
bitcoin_wallet,
monero_wallet,
@ -198,14 +239,19 @@ pub async fn run_until(
AliceState::XmrLocked { state3 } => {
// Our Monero is locked, we need to go through the cancellation process if this
// step fails
match wait_for_bitcoin_encrypted_signature(&mut swarm).await {
match wait_for_bitcoin_encrypted_signature(
&mut swarm,
config.monero_max_finality_time,
)
.await
{
Ok(encrypted_signature) => {
run_until(
AliceState::EncSignLearned {
state3,
encrypted_signature,
},
is_state,
is_target_state,
swarm,
bitcoin_wallet,
monero_wallet,
@ -216,7 +262,7 @@ pub async fn run_until(
Err(_) => {
run_until(
AliceState::WaitingToCancel { state3 },
is_state,
is_target_state,
swarm,
bitcoin_wallet,
monero_wallet,
@ -242,7 +288,7 @@ pub async fn run_until(
Err(_) => {
return run_until(
AliceState::WaitingToCancel { state3 },
is_state,
is_target_state,
swarm,
bitcoin_wallet,
monero_wallet,
@ -255,12 +301,16 @@ pub async fn run_until(
// TODO(Franck): Error handling is delicate here.
// If Bob sees this transaction he can redeem Monero
// e.g. If the Bitcoin node is down then the user needs to take action.
publish_bitcoin_redeem_transaction(signed_tx_redeem, bitcoin_wallet.clone(), config)
publish_bitcoin_redeem_transaction(
signed_tx_redeem,
bitcoin_wallet.clone(),
config,
)
.await?;
run_until(
AliceState::BtcRedeemed,
is_state,
is_target_state,
swarm,
bitcoin_wallet,
monero_wallet,
@ -281,7 +331,7 @@ pub async fn run_until(
run_until(
AliceState::BtcCancelled { state3, tx_cancel },
is_state,
is_target_state,
swarm,
bitcoin_wallet,
monero_wallet,
@ -308,7 +358,7 @@ pub async fn run_until(
None => {
run_until(
AliceState::BtcPunishable { tx_refund, state3 },
is_state,
is_target_state,
swarm,
bitcoin_wallet.clone(),
monero_wallet,
@ -323,7 +373,7 @@ pub async fn run_until(
published_refund_tx,
state3,
},
is_state,
is_target_state,
swarm,
bitcoin_wallet.clone(),
monero_wallet,
@ -351,7 +401,7 @@ pub async fn run_until(
.create_and_load_wallet_for_output(spend_key, view_key)
.await?;
Ok(AliceState::XmrRefunded)
Ok((AliceState::XmrRefunded, swarm))
}
AliceState::BtcPunishable { tx_refund, state3 } => {
let signed_tx_punish = build_bitcoin_punish_transaction(
@ -379,7 +429,7 @@ pub async fn run_until(
Either::Left(_) => {
run_until(
AliceState::Punished,
is_state,
is_target_state,
swarm,
bitcoin_wallet.clone(),
monero_wallet,
@ -394,7 +444,7 @@ pub async fn run_until(
published_refund_tx,
state3,
},
is_state,
is_target_state,
swarm,
bitcoin_wallet.clone(),
monero_wallet,
@ -404,10 +454,10 @@ pub async fn run_until(
}
}
}
AliceState::XmrRefunded => Ok(AliceState::XmrRefunded),
AliceState::BtcRedeemed => Ok(AliceState::BtcRedeemed),
AliceState::Punished => Ok(AliceState::Punished),
AliceState::SafelyAborted => Ok(AliceState::SafelyAborted),
AliceState::XmrRefunded => Ok((AliceState::XmrRefunded, swarm)),
AliceState::BtcRedeemed => Ok((AliceState::BtcRedeemed, swarm)),
AliceState::Punished => Ok((AliceState::Punished, swarm)),
AliceState::SafelyAborted => Ok((AliceState::SafelyAborted, swarm)),
}
}
}

View File

@ -7,8 +7,8 @@ use anyhow::Result;
use async_recursion::async_recursion;
use libp2p::{core::Multiaddr, PeerId};
use rand::{CryptoRng, RngCore};
use std::sync::Arc;
use tracing::debug;
use std::{fmt, sync::Arc};
use tracing::{debug, info};
use uuid::Uuid;
use xmr_btc::bob::{self};
@ -33,6 +33,24 @@ pub enum BobState {
SafelyAborted,
}
impl fmt::Display for BobState {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match self {
BobState::Started { .. } => write!(f, "started"),
BobState::Negotiated(..) => write!(f, "negotiated"),
BobState::BtcLocked(..) => write!(f, "btc_locked"),
BobState::XmrLocked(..) => write!(f, "xmr_locked"),
BobState::EncSigSent(..) => write!(f, "encsig_sent"),
BobState::BtcRedeemed(_) => write!(f, "btc_redeemed"),
BobState::Cancelled(_) => write!(f, "cancelled"),
BobState::BtcRefunded => write!(f, "btc_refunded"),
BobState::XmrRedeemed => write!(f, "xmr_redeemed"),
BobState::Punished => write!(f, "punished"),
BobState::SafelyAborted => write!(f, "safely_aborted"),
}
}
}
pub async fn swap<R>(
state: BobState,
swarm: Swarm,
@ -42,22 +60,47 @@ pub async fn swap<R>(
rng: R,
swap_id: Uuid,
) -> Result<BobState>
where
where
R: RngCore + CryptoRng + Send,
{
run_until(state, is_complete, swarm, db, bitcoin_wallet, monero_wallet, rng, swap_id).await
run_until(
state,
is_complete,
swarm,
db,
bitcoin_wallet,
monero_wallet,
rng,
swap_id,
)
.await
}
// TODO: use macro or generics
pub fn is_complete(state: &BobState) -> bool {
matches!(state, BobState::BtcRefunded| BobState::XmrRedeemed | BobState::Punished | BobState::SafelyAborted)
matches!(
state,
BobState::BtcRefunded
| BobState::XmrRedeemed
| BobState::Punished
| BobState::SafelyAborted
)
}
pub fn is_btc_locked(state: &BobState) -> bool {
matches!(state, BobState::BtcLocked(..))
}
pub fn is_xmr_locked(state: &BobState) -> bool {
matches!(state, BobState::XmrLocked(..))
}
// State machine driver for swap execution
#[allow(clippy::too_many_arguments)]
#[async_recursion]
pub async fn run_until<R>(
state: BobState,
is_state: fn(&BobState) -> bool,
is_target_state: fn(&BobState) -> bool,
mut swarm: Swarm,
db: Database,
bitcoin_wallet: Arc<crate::bitcoin::Wallet>,
@ -68,7 +111,8 @@ pub async fn run_until<R>(
where
R: RngCore + CryptoRng + Send,
{
if is_state(&state) {
info!("{}", state);
if is_target_state(&state) {
Ok(state)
} else {
match state {
@ -89,7 +133,7 @@ where
.await?;
run_until(
BobState::Negotiated(state2, peer_id),
is_state,
is_target_state,
swarm,
db,
bitcoin_wallet,
@ -105,7 +149,7 @@ where
// db.insert_latest_state(state);
run_until(
BobState::BtcLocked(state3, alice_peer_id),
is_state,
is_target_state,
swarm,
db,
bitcoin_wallet,
@ -129,7 +173,7 @@ where
};
run_until(
BobState::XmrLocked(state4, alice_peer_id),
is_state,
is_target_state,
swarm,
db,
bitcoin_wallet,
@ -162,7 +206,7 @@ where
run_until(
BobState::EncSigSent(state, alice_peer_id),
is_state,
is_target_state,
swarm,
db,
bitcoin_wallet,
@ -181,7 +225,7 @@ where
val = redeem_watcher => {
run_until(
BobState::BtcRedeemed(val?),
is_state,
is_target_state,
swarm,
db,
bitcoin_wallet,
@ -200,7 +244,7 @@ where
run_until(
BobState::Cancelled(state),
is_state,
is_target_state,
swarm,
db,
bitcoin_wallet,
@ -218,7 +262,7 @@ where
state.claim_xmr(monero_wallet.as_ref()).await?;
run_until(
BobState::XmrRedeemed,
is_state,
is_target_state,
swarm,
db,
bitcoin_wallet,
@ -228,19 +272,38 @@ where
)
.await
}
BobState::Cancelled(_state) => Ok(BobState::BtcRefunded),
BobState::BtcRefunded => Ok(BobState::BtcRefunded),
BobState::Punished => Ok(BobState::Punished),
BobState::SafelyAborted => Ok(BobState::SafelyAborted),
BobState::XmrRedeemed => Ok(BobState::XmrRedeemed),
BobState::Cancelled(_state) => {
// Bob has cancelled the swap
// If <t2 Bob refunds
// if unimplemented!("<t2") {
// // Submit TxRefund
// abort(BobState::BtcRefunded, io).await
// } else {
// // Bob failed to refund in time and has been punished
// abort(BobState::Punished, io).await
// }
Ok(BobState::BtcRefunded)
}
BobState::BtcRefunded => {
info!("btc refunded");
Ok(BobState::BtcRefunded)
}
BobState::Punished => {
info!("punished");
Ok(BobState::Punished)
}
BobState::SafelyAborted => {
info!("safely aborted");
Ok(BobState::SafelyAborted)
}
BobState::XmrRedeemed => {
info!("xmr redeemed");
Ok(BobState::XmrRedeemed)
}
}
}
}
// // State machine driver for recovery execution
// #[async_recursion]
// pub async fn abort(state: BobState, io: Io) -> Result<BobState> {

View File

@ -1,6 +1,6 @@
use bitcoin_harness::Bitcoind;
use futures::{channel::mpsc, future::try_join};
use libp2p::Multiaddr;
use futures::future::try_join;
use libp2p::{Multiaddr, PeerId};
use monero_harness::Monero;
use rand::rngs::OsRng;
use std::sync::Arc;
@ -11,25 +11,20 @@ use swap::{
use tempfile::tempdir;
use testcontainers::clients::Cli;
use uuid::Uuid;
use xmr_btc::{bitcoin, cross_curve_dleq};
use xmr_btc::{bitcoin, config::Config, cross_curve_dleq};
/// Run the following tests with RUST_MIN_STACK=100000000000
#[ignore]
#[tokio::test]
async fn swap() {
use tracing_subscriber::util::SubscriberInitExt as _;
let _guard = tracing_subscriber::fmt()
.with_env_filter("swap=info,xmr_btc=info")
.with_ansi(false)
.set_default();
let alice_multiaddr: Multiaddr = "/ip4/127.0.0.1/tcp/9876"
.parse()
.expect("failed to parse Alice's address");
async fn happy_path() {
init_tracing();
let cli = Cli::default();
let bitcoind = Bitcoind::new(&cli, "0.19.1").unwrap();
dbg!(&bitcoind.node_url);
let _ = bitcoind.init(5).await;
let (monero, _container) =
Monero::new(&cli, None, vec!["alice".to_string(), "bob".to_string()])
.await
.unwrap();
let btc = bitcoin::Amount::from_sat(1_000_000);
let btc_alice = bitcoin::Amount::ZERO;
@ -41,197 +36,35 @@ async fn swap() {
let xmr_alice = xmr * 10;
let xmr_bob = 0;
let alice_btc_wallet = Arc::new(
swap::bitcoin::Wallet::new("alice", bitcoind.node_url.clone())
.await
.unwrap(),
);
let bob_btc_wallet = Arc::new(
swap::bitcoin::Wallet::new("bob", bitcoind.node_url.clone())
.await
.unwrap(),
);
bitcoind
.mint(bob_btc_wallet.0.new_address().await.unwrap(), btc_bob)
.await
.unwrap();
let (monero, _container) =
Monero::new(&cli, None, vec!["alice".to_string(), "bob".to_string()])
.await
.unwrap();
monero
.init(vec![("alice", xmr_alice), ("bob", xmr_bob)])
.await
.unwrap();
let alice_xmr_wallet = Arc::new(swap::monero::Wallet(
monero.wallet("alice").unwrap().client(),
));
let bob_xmr_wallet = Arc::new(swap::monero::Wallet(monero.wallet("bob").unwrap().client()));
let alice_behaviour = alice::Behaviour::default();
let alice_transport = build(alice_behaviour.identity()).unwrap();
let db = Database::open(std::path::Path::new("../.swap-db/")).unwrap();
let alice_swap = alice::swap(
alice_btc_wallet.clone(),
alice_xmr_wallet.clone(),
db,
alice_multiaddr.clone(),
alice_transport,
alice_behaviour,
);
let db_dir = tempdir().unwrap();
let db = Database::open(db_dir.path()).unwrap();
let (cmd_tx, mut _cmd_rx) = mpsc::channel(1);
let (mut rsp_tx, rsp_rx) = mpsc::channel(1);
let bob_behaviour = bob::Behaviour::default();
let bob_transport = build(bob_behaviour.identity()).unwrap();
let bob_swap = bob::swap(
bob_btc_wallet.clone(),
bob_xmr_wallet.clone(),
db,
btc.as_sat(),
let (
alice_state,
alice_swarm,
alice_btc_wallet,
alice_xmr_wallet,
alice_peer_id,
alice_multiaddr,
cmd_tx,
rsp_rx,
bob_transport,
bob_behaviour,
);
) = init_alice(&bitcoind, &monero, btc, btc_alice, xmr, xmr_alice).await;
// automate the verification step by accepting any amounts sent over by Alice
rsp_tx.try_send(swap::Rsp::VerifiedAmounts).unwrap();
try_join(alice_swap, bob_swap).await.unwrap();
let btc_alice_final = alice_btc_wallet.as_ref().balance().await.unwrap();
let btc_bob_final = bob_btc_wallet.as_ref().balance().await.unwrap();
let xmr_alice_final = alice_xmr_wallet.as_ref().get_balance().await.unwrap();
bob_xmr_wallet.as_ref().0.refresh().await.unwrap();
let xmr_bob_final = bob_xmr_wallet.as_ref().get_balance().await.unwrap();
assert_eq!(
btc_alice_final,
btc_alice + btc - bitcoin::Amount::from_sat(bitcoin::TX_FEE)
);
assert!(btc_bob_final <= btc_bob - btc);
assert!(xmr_alice_final.as_piconero() <= xmr_alice - xmr);
assert_eq!(xmr_bob_final.as_piconero(), xmr_bob + xmr);
}
#[tokio::test]
async fn happy_path_recursive_executor() {
use tracing_subscriber::util::SubscriberInitExt as _;
let _guard = tracing_subscriber::fmt()
.with_env_filter("swap=info,xmr_btc=info")
.with_ansi(false)
.set_default();
let alice_multiaddr: Multiaddr = "/ip4/127.0.0.1/tcp/9876"
.parse()
.expect("failed to parse Alice's address");
let cli = Cli::default();
let bitcoind = Bitcoind::new(&cli, "0.19.1").unwrap();
dbg!(&bitcoind.node_url);
let _ = bitcoind.init(5).await;
let btc = bitcoin::Amount::from_sat(1_000_000);
let btc_alice = bitcoin::Amount::ZERO;
let btc_bob = btc * 10;
// this xmr value matches the logic of alice::calculate_amounts i.e. btc *
// 10_000 * 100
let xmr = 1_000_000_000_000;
let xmr_alice = xmr * 10;
let xmr_bob = 0;
let alice_btc_wallet = Arc::new(
swap::bitcoin::Wallet::new("alice", bitcoind.node_url.clone())
.await
.unwrap(),
);
let bob_btc_wallet = Arc::new(
swap::bitcoin::Wallet::new("bob", bitcoind.node_url.clone())
.await
.unwrap(),
);
bitcoind
.mint(bob_btc_wallet.0.new_address().await.unwrap(), btc_bob)
.await
.unwrap();
let (monero, _container) =
Monero::new(&cli, None, vec!["alice".to_string(), "bob".to_string()])
.await
.unwrap();
monero
.init(vec![("alice", xmr_alice), ("bob", xmr_bob)])
.await
.unwrap();
let alice_xmr_wallet = Arc::new(swap::monero::Wallet(
monero.wallet("alice").unwrap().client(),
));
let bob_xmr_wallet = Arc::new(swap::monero::Wallet(monero.wallet("bob").unwrap().client()));
let amounts = SwapAmounts {
let (bob_state, bob_swarm, bob_btc_wallet, bob_xmr_wallet, bob_db) = init_bob(
alice_multiaddr,
alice_peer_id,
&bitcoind,
&monero,
btc,
xmr: xmr_btc::monero::Amount::from_piconero(xmr),
};
btc_bob,
xmr,
xmr_bob,
)
.await;
let alice_behaviour = alice::Behaviour::default();
let alice_peer_id = alice_behaviour.peer_id().clone();
let alice_transport = build(alice_behaviour.identity()).unwrap();
let rng = &mut OsRng;
let alice_state = {
let a = bitcoin::SecretKey::new_random(rng);
let s_a = cross_curve_dleq::Scalar::random(rng);
let v_a = xmr_btc::monero::PrivateViewKey::new_random(rng);
AliceState::Started {
amounts,
a,
s_a,
v_a,
}
};
let alice_swarm =
alice::new_swarm(alice_multiaddr.clone(), alice_transport, alice_behaviour).unwrap();
let config = xmr_btc::config::Config::regtest();
let alice_swap = alice::swap::swap(
alice_state,
alice_swarm,
alice_btc_wallet.clone(),
alice_xmr_wallet.clone(),
config,
Config::regtest(),
);
let bob_db_dir = tempdir().unwrap();
let bob_db = Database::open(bob_db_dir.path()).unwrap();
let bob_behaviour = bob::Behaviour::default();
let bob_transport = build(bob_behaviour.identity()).unwrap();
let refund_address = bob_btc_wallet.new_address().await.unwrap();
let state0 = xmr_btc::bob::State0::new(
rng,
btc,
xmr_btc::monero::Amount::from_piconero(xmr),
REFUND_TIMELOCK,
PUNISH_TIMELOCK,
refund_address,
);
let bob_state = BobState::Started {
state0,
amounts,
peer_id: alice_peer_id,
addr: alice_multiaddr,
};
let bob_swarm = bob::new_swarm(bob_transport, bob_behaviour).unwrap();
let bob_swap = bob::swap::swap(
bob_state,
bob_swarm,
@ -261,3 +94,241 @@ async fn happy_path_recursive_executor() {
assert!(xmr_alice_final.as_piconero() <= xmr_alice - xmr);
assert_eq!(xmr_bob_final.as_piconero(), xmr_bob + xmr);
}
/// Bob locks Btc and Alice locks Xmr. Bob does not act; he fails to send Alice
/// the encsig and fail to refund or redeem. Alice punishes.
#[tokio::test]
async fn alice_punishes_if_bob_never_acts_after_fund() {
init_tracing();
let cli = Cli::default();
let bitcoind = Bitcoind::new(&cli, "0.19.1").unwrap();
let _ = bitcoind.init(5).await;
let (monero, _container) =
Monero::new(&cli, None, vec!["alice".to_string(), "bob".to_string()])
.await
.unwrap();
let btc_to_swap = bitcoin::Amount::from_sat(1_000_000);
let xmr_to_swap = 1_000_000_000_000;
let bob_btc_starting_balance = btc_to_swap * 10;
let bob_xmr_starting_balance = 0;
let alice_btc_starting_balance = bitcoin::Amount::ZERO;
let alice_xmr_starting_balance = xmr_to_swap * 10;
let (
alice_state,
alice_swarm,
alice_btc_wallet,
alice_xmr_wallet,
alice_peer_id,
alice_multiaddr,
) = init_alice(
&bitcoind,
&monero,
btc_to_swap,
alice_btc_starting_balance,
xmr_to_swap,
alice_xmr_starting_balance,
)
.await;
let (bob_state, bob_swarm, bob_btc_wallet, bob_xmr_wallet, bob_db) = init_bob(
alice_multiaddr,
alice_peer_id,
&bitcoind,
&monero,
btc_to_swap,
bob_btc_starting_balance,
xmr_to_swap,
bob_xmr_starting_balance,
)
.await;
let bob_xmr_locked_fut = bob::swap::run_until(
bob_state,
bob::swap::is_xmr_locked,
bob_swarm,
bob_db,
bob_btc_wallet.clone(),
bob_xmr_wallet.clone(),
OsRng,
Uuid::new_v4(),
);
let alice_xmr_locked_fut = alice::swap::run_until(
alice_state,
alice::swap::is_xmr_locked,
alice_swarm,
alice_btc_wallet.clone(),
alice_xmr_wallet.clone(),
Config::regtest(),
);
// Wait until alice has locked xmr and bob has locked btc
let ((alice_state, alice_swarm), _bob_state) =
try_join(alice_xmr_locked_fut, bob_xmr_locked_fut)
.await
.unwrap();
let (punished, _) = alice::swap::swap(
alice_state,
alice_swarm,
alice_btc_wallet.clone(),
alice_xmr_wallet.clone(),
Config::regtest(),
)
.await
.unwrap();
assert!(matches!(punished, AliceState::Punished));
// todo: Add balance assertions
}
#[allow(clippy::too_many_arguments)]
async fn init_alice(
bitcoind: &Bitcoind<'_>,
monero: &Monero,
btc_to_swap: bitcoin::Amount,
_btc_starting_balance: bitcoin::Amount,
xmr_to_swap: u64,
xmr_starting_balance: u64,
) -> (
AliceState,
alice::Swarm,
Arc<swap::bitcoin::Wallet>,
Arc<swap::monero::Wallet>,
PeerId,
Multiaddr,
) {
monero
.init(vec![("alice", xmr_starting_balance)])
.await
.unwrap();
let alice_xmr_wallet = Arc::new(swap::monero::Wallet(
monero.wallet("alice").unwrap().client(),
));
let alice_btc_wallet = Arc::new(
swap::bitcoin::Wallet::new("alice", bitcoind.node_url.clone())
.await
.unwrap(),
);
let amounts = SwapAmounts {
btc: btc_to_swap,
xmr: xmr_btc::monero::Amount::from_piconero(xmr_to_swap),
};
let alice_behaviour = alice::Behaviour::default();
let alice_peer_id = alice_behaviour.peer_id();
let alice_transport = build(alice_behaviour.identity()).unwrap();
let rng = &mut OsRng;
let alice_state = {
let a = bitcoin::SecretKey::new_random(rng);
let s_a = cross_curve_dleq::Scalar::random(rng);
let v_a = xmr_btc::monero::PrivateViewKey::new_random(rng);
AliceState::Started {
amounts,
a,
s_a,
v_a,
}
};
let alice_multiaddr: Multiaddr = "/ip4/127.0.0.1/tcp/9876"
.parse()
.expect("failed to parse Alice's address");
let alice_swarm =
alice::new_swarm(alice_multiaddr.clone(), alice_transport, alice_behaviour).unwrap();
(
alice_state,
alice_swarm,
alice_btc_wallet,
alice_xmr_wallet,
alice_peer_id,
alice_multiaddr,
)
}
#[allow(clippy::too_many_arguments)]
async fn init_bob(
alice_multiaddr: Multiaddr,
alice_peer_id: PeerId,
bitcoind: &Bitcoind<'_>,
monero: &Monero,
btc_to_swap: bitcoin::Amount,
btc_starting_balance: bitcoin::Amount,
xmr_to_swap: u64,
xmr_stating_balance: u64,
) -> (
BobState,
bob::Swarm,
Arc<swap::bitcoin::Wallet>,
Arc<swap::monero::Wallet>,
Database,
) {
let bob_btc_wallet = Arc::new(
swap::bitcoin::Wallet::new("bob", bitcoind.node_url.clone())
.await
.unwrap(),
);
bitcoind
.mint(
bob_btc_wallet.0.new_address().await.unwrap(),
btc_starting_balance,
)
.await
.unwrap();
monero
.init(vec![("bob", xmr_stating_balance)])
.await
.unwrap();
let bob_xmr_wallet = Arc::new(swap::monero::Wallet(monero.wallet("bob").unwrap().client()));
let amounts = SwapAmounts {
btc: btc_to_swap,
xmr: xmr_btc::monero::Amount::from_piconero(xmr_to_swap),
};
let rng = &mut OsRng;
let bob_db_dir = tempdir().unwrap();
let bob_db = Database::open(bob_db_dir.path()).unwrap();
let bob_behaviour = bob::Behaviour::default();
let bob_transport = build(bob_behaviour.identity()).unwrap();
let refund_address = bob_btc_wallet.new_address().await.unwrap();
let state0 = xmr_btc::bob::State0::new(
rng,
btc_to_swap,
xmr_btc::monero::Amount::from_piconero(xmr_to_swap),
REFUND_TIMELOCK,
PUNISH_TIMELOCK,
refund_address,
);
let bob_state = BobState::Started {
state0,
amounts,
peer_id: alice_peer_id,
addr: alice_multiaddr,
};
let bob_swarm = bob::new_swarm(bob_transport, bob_behaviour).unwrap();
(bob_state, bob_swarm, bob_btc_wallet, bob_xmr_wallet, bob_db)
}
fn init_tracing() {
use tracing_subscriber::util::SubscriberInitExt as _;
let _guard = tracing_subscriber::fmt()
.with_env_filter("swap=info,xmr_btc=info")
.with_ansi(false)
.set_default();
}

View File

@ -799,6 +799,9 @@ impl State4 {
t1_timeout.await;
Ok(())
}
pub fn tx_lock_id(&self) -> bitcoin::Txid {
self.tx_lock.txid()
}
}
#[derive(Debug, Clone, Deserialize, Serialize)]

View File

@ -6,6 +6,7 @@ pub struct Config {
pub bob_time_to_act: Duration,
pub bitcoin_finality_confirmations: u32,
pub bitcoin_avg_block_time: Duration,
pub monero_max_finality_time: Duration,
}
impl Config {
@ -14,6 +15,7 @@ impl Config {
bob_time_to_act: *mainnet::BOB_TIME_TO_ACT,
bitcoin_finality_confirmations: mainnet::BITCOIN_FINALITY_CONFIRMATIONS,
bitcoin_avg_block_time: *mainnet::BITCOIN_AVG_BLOCK_TIME,
monero_max_finality_time: *mainnet::MONERO_MAX_FINALITY_TIME,
}
}
@ -22,6 +24,7 @@ impl Config {
bob_time_to_act: *regtest::BOB_TIME_TO_ACT,
bitcoin_finality_confirmations: regtest::BITCOIN_FINALITY_CONFIRMATIONS,
bitcoin_avg_block_time: *regtest::BITCOIN_AVG_BLOCK_TIME,
monero_max_finality_time: *regtest::MONERO_MAX_FINALITY_TIME,
}
}
}
@ -35,15 +38,21 @@ mod mainnet {
pub static BITCOIN_FINALITY_CONFIRMATIONS: u32 = 3;
pub static BITCOIN_AVG_BLOCK_TIME: Lazy<Duration> = Lazy::new(|| Duration::from_secs(10 * 60));
pub static MONERO_MAX_FINALITY_TIME: Lazy<Duration> =
Lazy::new(|| Duration::from_secs_f64(15f64 * 1.5 * 2f64 * 60f64));
}
mod regtest {
use super::*;
// In test, set to 5 seconds to fail fast
pub static BOB_TIME_TO_ACT: Lazy<Duration> = Lazy::new(|| Duration::from_secs(10));
pub static BOB_TIME_TO_ACT: Lazy<Duration> = Lazy::new(|| Duration::from_secs(30));
pub static BITCOIN_FINALITY_CONFIRMATIONS: u32 = 1;
pub static BITCOIN_AVG_BLOCK_TIME: Lazy<Duration> = Lazy::new(|| Duration::from_secs(5));
pub static MONERO_MAX_FINALITY_TIME: Lazy<Duration> =
Lazy::new(|| Duration::from_secs_f64(60f64));
}