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c976358c37
xmr-btc-swap/swap/tests/harness/mod.rs
Daniel Karzel c976358c37
Multiple swaps with the same peer 
- Swap-id is exchanged during execution setup. CLI (Bob) sends the swap-id to be used in his first message.
- Transfer poof and encryption signature messages include the swap-id so it can be properly associated with the correct swap.
- ASB: Encryption signatures are associated with swaps by swap-id, not peer-id.
- ASB: Transfer proofs are still associated to peer-ids (because they have to be sent to the respective peer), but the ASB can buffer multiple
- CLI: Incoming transfer proofs are checked for matching swap-id. If a transfer proof with a different swap-id than the current executing swap is received it will be ignored. We can change this to saving into the database.

Includes concurrent swap tests with the same Bob.

- One test that pauses and starts an additional swap after the transfer proof was received. Results in both swaps being redeemed after resuming the first swap.
- One test that pauses and starts an additional swap before the transfer proof is sent (just after BTC locked). Results in the second swap redeeming and the first swap being refunded (because the transfer proof on Bob's side is lost). Once we store transfer proofs that we receive during executing a different swap into the database both swaps should redeem.

Note that the monero harness was adapted to allow creating wallets with multiple outputs, which is needed for Alice.
2021-04-13 18:16:19 +10:00

968 lines
27 KiB
Rust
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mod bitcoind;
mod electrs;
use crate::harness;
use anyhow::{bail, Context, Result};
use async_trait::async_trait;
use bitcoin_harness::{BitcoindRpcApi, Client};
use futures::Future;
use get_port::get_port;
use libp2p::core::Multiaddr;
use libp2p::{PeerId, Swarm};
use monero_harness::{image, Monero};
use std::cmp::Ordering;
use std::fmt;
use std::path::{Path, PathBuf};
use std::sync::Arc;
use std::time::Duration;
use swap::bitcoin::{CancelTimelock, PunishTimelock};
use swap::database::Database;
use swap::env::{Config, GetConfig};
use swap::network::swarm;
use swap::protocol::alice::event_loop::FixedRate;
use swap::protocol::alice::{AliceState, Swap};
use swap::protocol::bob::BobState;
use swap::protocol::{alice, bob};
use swap::seed::Seed;
use swap::{bitcoin, env, monero};
use tempfile::tempdir;
use testcontainers::clients::Cli;
use testcontainers::{Container, Docker, RunArgs};
use tokio::sync::mpsc;
use tokio::sync::mpsc::Receiver;
use tokio::task::JoinHandle;
use tokio::time::{interval, timeout};
use tracing_subscriber::util::SubscriberInitExt;
use url::Url;
use uuid::Uuid;
const MONERO_WALLET_NAME_BOB: &str = "bob";
const MONERO_WALLET_NAME_ALICE: &str = "alice";
const BITCOIN_TEST_WALLET_NAME: &str = "testwallet";
#[derive(Debug, Clone)]
pub struct StartingBalances {
pub xmr: monero::Amount,
pub xmr_outputs: Vec<monero::Amount>,
pub btc: bitcoin::Amount,
}
impl StartingBalances {
/// If monero_outputs is specified the monero balance will be:
/// monero_outputs * new_xmr = self_xmr
pub fn new(btc: bitcoin::Amount, xmr: monero::Amount, monero_outputs: Option<u64>) -> Self {
match monero_outputs {
None => {
if xmr == monero::Amount::ZERO {
return Self {
xmr,
xmr_outputs: vec![],
btc,
};
}
Self {
xmr,
xmr_outputs: vec![xmr],
btc,
}
}
Some(outputs) => {
let mut xmr_outputs = Vec::new();
let mut sum_xmr = monero::Amount::ZERO;
for _ in 0..outputs {
xmr_outputs.push(xmr);
sum_xmr = sum_xmr + xmr;
}
Self {
xmr: sum_xmr,
xmr_outputs,
btc,
}
}
}
}
}
struct BobParams {
seed: Seed,
db_path: PathBuf,
bitcoin_wallet: Arc<bitcoin::Wallet>,
monero_wallet: Arc<monero::Wallet>,
alice_address: Multiaddr,
alice_peer_id: PeerId,
env_config: Config,
}
impl BobParams {
pub async fn builder(
&self,
event_loop_handle: bob::EventLoopHandle,
swap_id: Uuid,
) -> Result<bob::Builder> {
let receive_address = self.monero_wallet.get_main_address();
Ok(bob::Builder::new(
Database::open(&self.db_path.clone().as_path()).unwrap(),
swap_id,
self.bitcoin_wallet.clone(),
self.monero_wallet.clone(),
self.env_config,
event_loop_handle,
receive_address,
))
}
pub fn new_eventloop(&self, swap_id: Uuid) -> Result<(bob::EventLoop, bob::EventLoopHandle)> {
let mut swarm = swarm::new::<bob::Behaviour>(&self.seed)?;
swarm.add_address(self.alice_peer_id, self.alice_address.clone());
bob::EventLoop::new(
swap_id,
swarm,
self.alice_peer_id,
self.bitcoin_wallet.clone(),
)
}
}
pub struct BobApplicationHandle(JoinHandle<()>);
impl BobApplicationHandle {
pub fn abort(&self) {
self.0.abort()
}
}
pub struct AliceApplicationHandle {
handle: JoinHandle<()>,
peer_id: PeerId,
}
impl AliceApplicationHandle {
pub fn abort(&self) {
self.handle.abort()
}
}
pub struct TestContext {
env_config: Config,
btc_amount: bitcoin::Amount,
xmr_amount: monero::Amount,
alice_seed: Seed,
alice_db_path: PathBuf,
alice_listen_address: Multiaddr,
alice_starting_balances: StartingBalances,
alice_bitcoin_wallet: Arc<bitcoin::Wallet>,
alice_monero_wallet: Arc<monero::Wallet>,
alice_swap_handle: mpsc::Receiver<Swap>,
alice_handle: AliceApplicationHandle,
bob_params: BobParams,
bob_starting_balances: StartingBalances,
bob_bitcoin_wallet: Arc<bitcoin::Wallet>,
bob_monero_wallet: Arc<monero::Wallet>,
}
impl TestContext {
pub async fn restart_alice(&mut self) {
self.alice_handle.abort();
let (alice_handle, alice_swap_handle) = start_alice(
&self.alice_seed,
self.alice_db_path.clone(),
self.alice_listen_address.clone(),
self.env_config,
self.alice_bitcoin_wallet.clone(),
self.alice_monero_wallet.clone(),
);
self.alice_handle = alice_handle;
self.alice_swap_handle = alice_swap_handle;
}
pub async fn alice_next_swap(&mut self) -> alice::Swap {
timeout(Duration::from_secs(20), self.alice_swap_handle.recv())
.await
.expect("No Alice swap within 20 seconds, aborting because this test is likely waiting for a swap forever...")
.unwrap()
}
pub async fn bob_swap(&mut self) -> (bob::Swap, BobApplicationHandle) {
let swap_id = Uuid::new_v4();
let (event_loop, event_loop_handle) = self.bob_params.new_eventloop(swap_id).unwrap();
let swap = self
.bob_params
.builder(event_loop_handle, swap_id)
.await
.unwrap()
.with_init_params(self.btc_amount)
.build()
.unwrap();
// ensure the wallet is up to date for concurrent swap tests
swap.bitcoin_wallet.sync().await.unwrap();
let join_handle = tokio::spawn(event_loop.run());
(swap, BobApplicationHandle(join_handle))
}
pub async fn stop_and_resume_bob_from_db(
&mut self,
join_handle: BobApplicationHandle,
swap_id: Uuid,
) -> (bob::Swap, BobApplicationHandle) {
join_handle.abort();
let (event_loop, event_loop_handle) = self.bob_params.new_eventloop(swap_id).unwrap();
let swap = self
.bob_params
.builder(event_loop_handle, swap_id)
.await
.unwrap()
.build()
.unwrap();
let join_handle = tokio::spawn(event_loop.run());
(swap, BobApplicationHandle(join_handle))
}
pub async fn assert_alice_redeemed(&mut self, state: AliceState) {
assert!(matches!(state, AliceState::BtcRedeemed));
assert_eventual_balance(
self.alice_bitcoin_wallet.as_ref(),
Ordering::Equal,
self.alice_redeemed_btc_balance(),
)
.await
.unwrap();
assert_eventual_balance(
self.alice_monero_wallet.as_ref(),
Ordering::Less,
self.alice_redeemed_xmr_balance(),
)
.await
.unwrap();
}
pub async fn assert_alice_refunded(&mut self, state: AliceState) {
assert!(matches!(state, AliceState::XmrRefunded));
assert_eventual_balance(
self.alice_bitcoin_wallet.as_ref(),
Ordering::Equal,
self.alice_refunded_btc_balance(),
)
.await
.unwrap();
// Alice pays fees - comparison does not take exact lock fee into account
assert_eventual_balance(
self.alice_monero_wallet.as_ref(),
Ordering::Greater,
self.alice_refunded_xmr_balance(),
)
.await
.unwrap();
}
pub async fn assert_alice_punished(&self, state: AliceState) {
assert!(matches!(state, AliceState::BtcPunished));
assert_eventual_balance(
self.alice_bitcoin_wallet.as_ref(),
Ordering::Equal,
self.alice_punished_btc_balance(),
)
.await
.unwrap();
assert_eventual_balance(
self.alice_monero_wallet.as_ref(),
Ordering::Less,
self.alice_punished_xmr_balance(),
)
.await
.unwrap();
}
pub async fn assert_bob_redeemed(&self, state: BobState) {
assert_eventual_balance(
self.bob_bitcoin_wallet.as_ref(),
Ordering::Equal,
self.bob_redeemed_btc_balance(state).await.unwrap(),
)
.await
.unwrap();
// unload the generated wallet by opening the original wallet
self.bob_monero_wallet.re_open().await.unwrap();
assert_eventual_balance(
self.bob_monero_wallet.as_ref(),
Ordering::Greater,
self.bob_redeemed_xmr_balance(),
)
.await
.unwrap();
}
pub async fn assert_bob_refunded(&self, state: BobState) {
self.bob_bitcoin_wallet.sync().await.unwrap();
let lock_tx_id = if let BobState::BtcRefunded(state4) = state {
state4.tx_lock_id()
} else {
panic!("Bob in not in btc refunded state: {:?}", state);
};
let lock_tx_bitcoin_fee = self
.bob_bitcoin_wallet
.transaction_fee(lock_tx_id)
.await
.unwrap();
let btc_balance_after_swap = self.bob_bitcoin_wallet.balance().await.unwrap();
let alice_submitted_cancel = btc_balance_after_swap
== self.bob_starting_balances.btc
- lock_tx_bitcoin_fee
- bitcoin::Amount::from_sat(bitcoin::TX_FEE);
let bob_submitted_cancel = btc_balance_after_swap
== self.bob_starting_balances.btc
- lock_tx_bitcoin_fee
- bitcoin::Amount::from_sat(2 * bitcoin::TX_FEE);
// The cancel tx can be submitted by both Alice and Bob.
// Since we cannot be sure who submitted it we have to assert accordingly
assert!(alice_submitted_cancel || bob_submitted_cancel);
assert_eventual_balance(
self.bob_monero_wallet.as_ref(),
Ordering::Equal,
self.bob_refunded_xmr_balance(),
)
.await
.unwrap();
}
pub async fn assert_bob_punished(&self, state: BobState) {
assert_eventual_balance(
self.bob_bitcoin_wallet.as_ref(),
Ordering::Equal,
self.bob_punished_btc_balance(state).await.unwrap(),
)
.await
.unwrap();
assert_eventual_balance(
self.bob_monero_wallet.as_ref(),
Ordering::Equal,
self.bob_punished_xmr_balance(),
)
.await
.unwrap();
}
fn alice_redeemed_xmr_balance(&self) -> monero::Amount {
self.alice_starting_balances.xmr - self.xmr_amount
}
fn alice_redeemed_btc_balance(&self) -> bitcoin::Amount {
self.alice_starting_balances.btc + self.btc_amount
- bitcoin::Amount::from_sat(bitcoin::TX_FEE)
}
fn bob_redeemed_xmr_balance(&self) -> monero::Amount {
self.bob_starting_balances.xmr
}
async fn bob_redeemed_btc_balance(&self, state: BobState) -> Result<bitcoin::Amount> {
self.bob_bitcoin_wallet.sync().await?;
let lock_tx_id = if let BobState::XmrRedeemed { tx_lock_id } = state {
tx_lock_id
} else {
bail!("Bob in not in xmr redeemed state: {:?}", state);
};
let lock_tx_bitcoin_fee = self.bob_bitcoin_wallet.transaction_fee(lock_tx_id).await?;
Ok(self.bob_starting_balances.btc - self.btc_amount - lock_tx_bitcoin_fee)
}
fn alice_refunded_xmr_balance(&self) -> monero::Amount {
self.alice_starting_balances.xmr - self.xmr_amount
}
fn alice_refunded_btc_balance(&self) -> bitcoin::Amount {
self.alice_starting_balances.btc
}
fn bob_refunded_xmr_balance(&self) -> monero::Amount {
self.bob_starting_balances.xmr
}
fn alice_punished_xmr_balance(&self) -> monero::Amount {
self.alice_starting_balances.xmr - self.xmr_amount
}
fn alice_punished_btc_balance(&self) -> bitcoin::Amount {
self.alice_starting_balances.btc + self.btc_amount
- bitcoin::Amount::from_sat(2 * bitcoin::TX_FEE)
}
fn bob_punished_xmr_balance(&self) -> monero::Amount {
self.bob_starting_balances.xmr
}
async fn bob_punished_btc_balance(&self, state: BobState) -> Result<bitcoin::Amount> {
self.bob_bitcoin_wallet.sync().await?;
let lock_tx_id = if let BobState::BtcPunished { tx_lock_id } = state {
tx_lock_id
} else {
bail!("Bob in not in btc punished state: {:?}", state);
};
let lock_tx_bitcoin_fee = self.bob_bitcoin_wallet.transaction_fee(lock_tx_id).await?;
Ok(self.bob_starting_balances.btc - self.btc_amount - lock_tx_bitcoin_fee)
}
}
async fn assert_eventual_balance<A: fmt::Display + PartialOrd>(
wallet: &impl Wallet<Amount = A>,
ordering: Ordering,
expected: A,
) -> Result<()> {
let ordering_str = match ordering {
Ordering::Less => "less than",
Ordering::Equal => "equal to",
Ordering::Greater => "greater than",
};
let mut current_balance = wallet.get_balance().await?;
let assertion = async {
while current_balance.partial_cmp(&expected).unwrap() != ordering {
tokio::time::sleep(Duration::from_millis(500)).await;
wallet.refresh().await?;
current_balance = wallet.get_balance().await?;
}
tracing::debug!(
"Assertion successful! Balance {} is {} {}",
current_balance,
ordering_str,
expected
);
Result::<_, anyhow::Error>::Ok(())
};
let timeout = Duration::from_secs(10);
tokio::time::timeout(timeout, assertion)
.await
.with_context(|| {
format!(
"Expected balance to be {} {} after at most {}s but was {}",
ordering_str,
expected,
timeout.as_secs(),
current_balance
)
})??;
Ok(())
}
#[async_trait]
trait Wallet {
type Amount;
async fn refresh(&self) -> Result<()>;
async fn get_balance(&self) -> Result<Self::Amount>;
}
#[async_trait]
impl Wallet for monero::Wallet {
type Amount = monero::Amount;
async fn refresh(&self) -> Result<()> {
self.refresh().await?;
Ok(())
}
async fn get_balance(&self) -> Result<Self::Amount> {
self.get_balance().await
}
}
#[async_trait]
impl Wallet for bitcoin::Wallet {
type Amount = bitcoin::Amount;
async fn refresh(&self) -> Result<()> {
self.sync().await
}
async fn get_balance(&self) -> Result<Self::Amount> {
self.balance().await
}
}
pub async fn setup_test<T, F, C>(_config: C, testfn: T)
where
T: Fn(TestContext) -> F,
F: Future<Output = Result<()>>,
C: GetConfig,
{
let cli = Cli::default();
let _guard = tracing_subscriber::fmt()
.with_env_filter("warn,swap=debug,monero_harness=debug,monero_rpc=debug,bitcoin_harness=info,testcontainers=info")
.with_test_writer()
.set_default();
let env_config = C::get_config();
let (monero, containers) = harness::init_containers(&cli).await;
monero.init_miner().await.unwrap();
let btc_amount = bitcoin::Amount::from_sat(1_000_000);
let xmr_amount = monero::Amount::from_monero(btc_amount.as_btc() / FixedRate::RATE).unwrap();
let alice_starting_balances =
StartingBalances::new(bitcoin::Amount::ZERO, xmr_amount, Some(10));
let electrs_rpc_port = containers
.electrs
.get_host_port(harness::electrs::RPC_PORT)
.expect("Could not map electrs rpc port");
let alice_seed = Seed::random().unwrap();
let (alice_bitcoin_wallet, alice_monero_wallet) = init_test_wallets(
MONERO_WALLET_NAME_ALICE,
containers.bitcoind_url.clone(),
&monero,
alice_starting_balances.clone(),
tempdir().unwrap().path(),
electrs_rpc_port,
&alice_seed,
env_config,
)
.await;
let alice_listen_port = get_port().expect("Failed to find a free port");
let alice_listen_address: Multiaddr = format!("/ip4/127.0.0.1/tcp/{}", alice_listen_port)
.parse()
.expect("failed to parse Alice's address");
let alice_db_path = tempdir().unwrap().into_path();
let (alice_handle, alice_swap_handle) = start_alice(
&alice_seed,
alice_db_path.clone(),
alice_listen_address.clone(),
env_config,
alice_bitcoin_wallet.clone(),
alice_monero_wallet.clone(),
);
let bob_seed = Seed::random().unwrap();
let bob_starting_balances = StartingBalances::new(btc_amount * 10, monero::Amount::ZERO, None);
let (bob_bitcoin_wallet, bob_monero_wallet) = init_test_wallets(
MONERO_WALLET_NAME_BOB,
containers.bitcoind_url,
&monero,
bob_starting_balances.clone(),
tempdir().unwrap().path(),
electrs_rpc_port,
&bob_seed,
env_config,
)
.await;
let bob_params = BobParams {
seed: Seed::random().unwrap(),
db_path: tempdir().unwrap().path().to_path_buf(),
bitcoin_wallet: bob_bitcoin_wallet.clone(),
monero_wallet: bob_monero_wallet.clone(),
alice_address: alice_listen_address.clone(),
alice_peer_id: alice_handle.peer_id,
env_config,
};
monero.start_miner().await.unwrap();
let test = TestContext {
env_config,
btc_amount,
xmr_amount,
alice_seed,
alice_db_path,
alice_listen_address,
alice_starting_balances,
alice_bitcoin_wallet,
alice_monero_wallet,
alice_swap_handle,
alice_handle,
bob_params,
bob_starting_balances,
bob_bitcoin_wallet,
bob_monero_wallet,
};
testfn(test).await.unwrap()
}
fn start_alice(
seed: &Seed,
db_path: PathBuf,
listen_address: Multiaddr,
env_config: Config,
bitcoin_wallet: Arc<bitcoin::Wallet>,
monero_wallet: Arc<monero::Wallet>,
) -> (AliceApplicationHandle, Receiver<alice::Swap>) {
let db = Arc::new(Database::open(db_path.as_path()).unwrap());
let mut swarm = swarm::new::<alice::Behaviour>(&seed).unwrap();
Swarm::listen_on(&mut swarm, listen_address).unwrap();
let (event_loop, swap_handle) = alice::EventLoop::new(
swarm,
env_config,
bitcoin_wallet,
monero_wallet,
db,
FixedRate::default(),
bitcoin::Amount::ONE_BTC,
)
.unwrap();
let peer_id = event_loop.peer_id();
let handle = tokio::spawn(event_loop.run());
(AliceApplicationHandle { handle, peer_id }, swap_handle)
}
fn random_prefix() -> String {
use rand::distributions::Alphanumeric;
use rand::{thread_rng, Rng};
use std::iter;
const LEN: usize = 8;
let mut rng = thread_rng();
let chars: String = iter::repeat(())
.map(|()| rng.sample(Alphanumeric))
.map(char::from)
.take(LEN)
.collect();
chars
}
async fn init_containers(cli: &Cli) -> (Monero, Containers<'_>) {
let prefix = random_prefix();
let bitcoind_name = format!("{}_{}", prefix, "bitcoind");
let (bitcoind, bitcoind_url) =
init_bitcoind_container(&cli, prefix.clone(), bitcoind_name.clone(), prefix.clone())
.await
.expect("could not init bitcoind");
let electrs = init_electrs_container(&cli, prefix.clone(), bitcoind_name, prefix)
.await
.expect("could not init electrs");
let (monero, monerods) = init_monero_container(&cli).await;
(monero, Containers {
bitcoind_url,
bitcoind,
monerods,
electrs,
})
}
async fn init_bitcoind_container(
cli: &Cli,
volume: String,
name: String,
network: String,
) -> Result<(Container<'_, Cli, bitcoind::Bitcoind>, Url)> {
let image = bitcoind::Bitcoind::default().with_volume(volume);
let run_args = RunArgs::default().with_name(name).with_network(network);
let docker = cli.run_with_args(image, run_args);
let a = docker
.get_host_port(harness::bitcoind::RPC_PORT)
.context("Could not map bitcoind rpc port")?;
let bitcoind_url = {
let input = format!(
"http://{}:{}@localhost:{}",
bitcoind::RPC_USER,
bitcoind::RPC_PASSWORD,
a
);
Url::parse(&input).unwrap()
};
init_bitcoind(bitcoind_url.clone(), 5).await?;
Ok((docker, bitcoind_url.clone()))
}
pub async fn init_electrs_container(
cli: &Cli,
volume: String,
bitcoind_container_name: String,
network: String,
) -> Result<Container<'_, Cli, electrs::Electrs>> {
let bitcoind_rpc_addr = format!(
"{}:{}",
bitcoind_container_name,
harness::bitcoind::RPC_PORT
);
let image = electrs::Electrs::default()
.with_volume(volume)
.with_daemon_rpc_addr(bitcoind_rpc_addr)
.with_tag("latest");
let run_args = RunArgs::default().with_network(network);
let docker = cli.run_with_args(image, run_args);
Ok(docker)
}
async fn mine(bitcoind_client: Client, reward_address: bitcoin::Address) -> Result<()> {
loop {
tokio::time::sleep(Duration::from_secs(1)).await;
bitcoind_client
.generatetoaddress(1, reward_address.clone(), None)
.await?;
}
}
async fn init_bitcoind(node_url: Url, spendable_quantity: u32) -> Result<Client> {
let bitcoind_client = Client::new(node_url.clone());
bitcoind_client
.createwallet(BITCOIN_TEST_WALLET_NAME, None, None, None, None)
.await?;
let reward_address = bitcoind_client
.with_wallet(BITCOIN_TEST_WALLET_NAME)?
.getnewaddress(None, None)
.await?;
bitcoind_client
.generatetoaddress(101 + spendable_quantity, reward_address.clone(), None)
.await?;
let _ = tokio::spawn(mine(bitcoind_client.clone(), reward_address));
Ok(bitcoind_client)
}
/// Send Bitcoin to the specified address, limited to the spendable bitcoin
/// quantity.
pub async fn mint(node_url: Url, address: bitcoin::Address, amount: bitcoin::Amount) -> Result<()> {
let bitcoind_client = Client::new(node_url.clone());
bitcoind_client
.send_to_address(BITCOIN_TEST_WALLET_NAME, address.clone(), amount)
.await?;
// Confirm the transaction
let reward_address = bitcoind_client
.with_wallet(BITCOIN_TEST_WALLET_NAME)?
.getnewaddress(None, None)
.await?;
bitcoind_client
.generatetoaddress(1, reward_address, None)
.await?;
Ok(())
}
async fn init_monero_container(
cli: &Cli,
) -> (
Monero,
Vec<Container<'_, Cli, monero_harness::image::Monero>>,
) {
let (monero, monerods) = Monero::new(&cli, vec![
MONERO_WALLET_NAME_ALICE.to_string(),
MONERO_WALLET_NAME_BOB.to_string(),
])
.await
.unwrap();
(monero, monerods)
}
#[allow(clippy::too_many_arguments)]
async fn init_test_wallets(
name: &str,
bitcoind_url: Url,
monero: &Monero,
starting_balances: StartingBalances,
datadir: &Path,
electrum_rpc_port: u16,
seed: &Seed,
env_config: Config,
) -> (Arc<bitcoin::Wallet>, Arc<monero::Wallet>) {
monero
.init_wallet(
name,
starting_balances
.xmr_outputs
.into_iter()
.map(|amount| amount.as_piconero())
.collect(),
)
.await
.unwrap();
let xmr_wallet = swap::monero::Wallet::connect(
monero.wallet(name).unwrap().client(),
name.to_string(),
env_config,
)
.await
.unwrap();
let electrum_rpc_url = {
let input = format!("tcp://@localhost:{}", electrum_rpc_port);
Url::parse(&input).unwrap()
};
let btc_wallet = swap::bitcoin::Wallet::new(
electrum_rpc_url,
datadir,
seed.derive_extended_private_key(env_config.bitcoin_network)
.expect("Could not create extended private key from seed"),
env_config,
)
.await
.expect("could not init btc wallet");
if starting_balances.btc != bitcoin::Amount::ZERO {
mint(
bitcoind_url,
btc_wallet.new_address().await.unwrap(),
starting_balances.btc,
)
.await
.expect("could not mint btc starting balance");
let mut interval = interval(Duration::from_secs(1u64));
let mut retries = 0u8;
let max_retries = 30u8;
loop {
retries += 1;
btc_wallet.sync().await.unwrap();
let btc_balance = btc_wallet.balance().await.unwrap();
if btc_balance == starting_balances.btc {
break;
} else if retries == max_retries {
panic!(
"Bitcoin wallet initialization failed, reached max retries upon balance sync"
)
}
interval.tick().await;
}
}
(Arc::new(btc_wallet), Arc::new(xmr_wallet))
}
// This is just to keep the containers alive
#[allow(dead_code)]
struct Containers<'a> {
bitcoind_url: Url,
bitcoind: Container<'a, Cli, bitcoind::Bitcoind>,
monerods: Vec<Container<'a, Cli, image::Monero>>,
electrs: Container<'a, Cli, electrs::Electrs>,
}
pub mod alice_run_until {
use swap::protocol::alice::AliceState;
pub fn is_xmr_lock_transaction_sent(state: &AliceState) -> bool {
matches!(state, AliceState::XmrLockTransactionSent { .. })
}
pub fn is_encsig_learned(state: &AliceState) -> bool {
matches!(state, AliceState::EncSigLearned { .. })
}
}
pub mod bob_run_until {
use swap::protocol::bob::BobState;
pub fn is_btc_locked(state: &BobState) -> bool {
matches!(state, BobState::BtcLocked(..))
}
pub fn is_lock_proof_received(state: &BobState) -> bool {
matches!(state, BobState::XmrLockProofReceived { .. })
}
pub fn is_xmr_locked(state: &BobState) -> bool {
matches!(state, BobState::XmrLocked(..))
}
pub fn is_encsig_sent(state: &BobState) -> bool {
matches!(state, BobState::EncSigSent(..))
}
}
pub struct SlowCancelConfig;
impl GetConfig for SlowCancelConfig {
fn get_config() -> Config {
Config {
bitcoin_cancel_timelock: CancelTimelock::new(180),
..env::Regtest::get_config()
}
}
}
pub struct FastCancelConfig;
impl GetConfig for FastCancelConfig {
fn get_config() -> Config {
Config {
bitcoin_cancel_timelock: CancelTimelock::new(10),
..env::Regtest::get_config()
}
}
}
pub struct FastPunishConfig;
impl GetConfig for FastPunishConfig {
fn get_config() -> Config {
Config {
bitcoin_cancel_timelock: CancelTimelock::new(10),
bitcoin_punish_timelock: PunishTimelock::new(10),
..env::Regtest::get_config()
}
}
}
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