// TODO use core::{time::Duration, pin::Pin, future::Future}; use std::collections::HashMap; use rand_core::OsRng; use ciphersuite::group::GroupEncoding; use frost::{Participant, dkg::tests::key_gen}; use tokio::time::timeout; use serai_db::{DbTxn, Db, MemDb}; use serai_client::{ primitives::{NetworkId, Coin, Amount, Balance}, validator_sets::primitives::Session, }; use crate::{ Payment, Plan, networks::{Output, Transaction, Eventuality, Block, Network}, key_gen::NetworkKeyDb, multisigs::{ scanner::{ScannerEvent, Scanner}, scheduler::{self, Scheduler}, }, tests::sign, }; // Tests the Scanner, Scheduler, and Signer together pub async fn test_wallet( new_network: impl Fn(MemDb) -> Pin>>, ) { let mut keys = key_gen(&mut OsRng); for keys in keys.values_mut() { N::tweak_keys(keys); } let key = keys[&Participant::new(1).unwrap()].group_key(); let mut db = MemDb::new(); { let mut txn = db.txn(); NetworkKeyDb::set(&mut txn, Session(0), &key.to_bytes().as_ref().to_vec()); txn.commit(); } let network = new_network(db.clone()).await; // Mine blocks so there's a confirmed block for _ in 0 .. N::CONFIRMATIONS { network.mine_block().await; } let (mut scanner, current_keys) = Scanner::new(network.clone(), db.clone()); assert!(current_keys.is_empty()); let (block_id, outputs) = { let mut txn = db.txn(); scanner.register_key(&mut txn, network.get_latest_block_number().await.unwrap(), key).await; txn.commit(); for _ in 0 .. N::CONFIRMATIONS { network.mine_block().await; } let block = network.test_send(N::external_address(&network, key).await).await; let block_id = block.id(); match timeout(Duration::from_secs(30), scanner.events.recv()).await.unwrap().unwrap() { ScannerEvent::Block { is_retirement_block, block, outputs } => { scanner.multisig_completed.send(false).unwrap(); assert!(!is_retirement_block); assert_eq!(block, block_id); assert_eq!(outputs.len(), 1); (block_id, outputs) } ScannerEvent::Completed(_, _, _, _, _) => { panic!("unexpectedly got eventuality completion"); } } }; let mut txn = db.txn(); assert_eq!(scanner.ack_block(&mut txn, block_id.clone()).await.1, outputs); scanner.release_lock().await; txn.commit(); let mut txn = db.txn(); let mut scheduler = N::Scheduler::new::(&mut txn, key, N::NETWORK); let amount = 2 * N::DUST; let plans = scheduler.schedule::( &mut txn, outputs.clone(), vec![Payment { address: N::external_address(&network, key).await, balance: Balance { coin: match N::NETWORK { NetworkId::Serai => panic!("test_wallet called with Serai"), NetworkId::Bitcoin => Coin::Bitcoin, NetworkId::Ethereum => Coin::Ether, NetworkId::Monero => Coin::Monero, }, amount: Amount(amount), }, }], key, false, ); txn.commit(); assert_eq!(plans.len(), 1); assert_eq!(plans[0].key, key); if std::any::TypeId::of::() == std::any::TypeId::of::>() { assert_eq!(plans[0].inputs, vec![]); } else { assert_eq!(plans[0].inputs, outputs); } assert_eq!( plans[0].payments, vec![Payment { address: N::external_address(&network, key).await, balance: Balance { coin: match N::NETWORK { NetworkId::Serai => panic!("test_wallet called with Serai"), NetworkId::Bitcoin => Coin::Bitcoin, NetworkId::Ethereum => Coin::Ether, NetworkId::Monero => Coin::Monero, }, amount: Amount(amount), } }] ); assert_eq!(plans[0].change, N::change_address(key)); { let mut buf = vec![]; plans[0].write(&mut buf).unwrap(); assert_eq!(plans[0], Plan::::read::<&[u8]>(&mut buf.as_ref()).unwrap()); } // Execute the plan let mut keys_txs = HashMap::new(); let mut eventualities = vec![]; for (i, keys) in keys.drain() { let (signable, eventuality) = network .prepare_send(network.get_block_number(&block_id).await, plans[0].clone(), 0) .await .unwrap() .tx .unwrap(); eventualities.push(eventuality.clone()); keys_txs.insert(i, (keys, (signable, eventuality))); } let claim = sign(network.clone(), Session(0), keys_txs).await; network.mine_block().await; let block_number = network.get_latest_block_number().await.unwrap(); let tx = network.get_transaction_by_eventuality(block_number, &eventualities[0]).await; let block = network.get_block(block_number).await.unwrap(); let outputs = network.get_outputs(&block, key).await; // Don't run if Ethereum as the received output will revert by the contract // (and therefore not actually exist) if N::NETWORK != NetworkId::Ethereum { assert_eq!(outputs.len(), 1 + usize::from(u8::from(plans[0].change.is_some()))); // Adjust the amount for the fees let amount = amount - tx.fee(&network).await; if plans[0].change.is_some() { // Check either output since Monero will randomize its output order assert!( (outputs[0].balance().amount.0 == amount) || (outputs[1].balance().amount.0 == amount) ); } else { assert!(outputs[0].balance().amount.0 == amount); } } for eventuality in eventualities { let completion = network.confirm_completion(&eventuality, &claim).await.unwrap().unwrap(); assert_eq!(N::Eventuality::claim(&completion), claim); } for _ in 1 .. N::CONFIRMATIONS { network.mine_block().await; } if N::NETWORK != NetworkId::Ethereum { match timeout(Duration::from_secs(30), scanner.events.recv()).await.unwrap().unwrap() { ScannerEvent::Block { is_retirement_block, block: block_id, outputs: these_outputs } => { scanner.multisig_completed.send(false).unwrap(); assert!(!is_retirement_block); assert_eq!(block_id, block.id()); assert_eq!(these_outputs, outputs); } ScannerEvent::Completed(_, _, _, _, _) => { panic!("unexpectedly got eventuality completion"); } } // Check the Scanner DB can reload the outputs let mut txn = db.txn(); assert_eq!(scanner.ack_block(&mut txn, block.id()).await.1, outputs); scanner.release_lock().await; txn.commit(); } }