use crate::monero::{ Amount, CreateWallet, CreateWalletForOutput, CreateWalletForOutputThenReloadWallet, InsufficientFunds, OpenWallet, PrivateViewKey, PublicViewKey, Transfer, TransferProof, TxHash, WatchForTransfer, }; use ::monero::{Address, Network, PrivateKey, PublicKey}; use anyhow::Result; use async_trait::async_trait; use backoff::{backoff::Constant as ConstantBackoff, future::retry}; use bitcoin::hashes::core::sync::atomic::AtomicU32; use monero_rpc::{ wallet, wallet::{BlockHeight, Refreshed}, }; use std::{str::FromStr, sync::atomic::Ordering, time::Duration}; use tokio::sync::Mutex; use tracing::info; use url::Url; #[derive(Debug)] pub struct Wallet { inner: Mutex, network: Network, name: String, } impl Wallet { pub fn new(url: Url, network: Network, name: String) -> Self { Self { inner: Mutex::new(wallet::Client::new(url)), network, name, } } pub fn new_with_client(client: wallet::Client, network: Network, name: String) -> Self { Self { inner: Mutex::new(client), network, name, } } /// Get the balance of the primary account. pub async fn get_balance(&self) -> Result { let amount = self.inner.lock().await.get_balance(0).await?; Ok(Amount::from_piconero(amount)) } pub async fn block_height(&self) -> Result { self.inner.lock().await.block_height().await } pub async fn get_main_address(&self) -> Result
{ let address = self.inner.lock().await.get_address(0).await?; Ok(Address::from_str(address.address.as_str())?) } pub async fn refresh(&self) -> Result { self.inner.lock().await.refresh().await } pub async fn sweep_all(&self, address: Address) -> Result> { self.inner .lock() .await .sweep_all(address.to_string().as_str()) .await .map(|sweep_all| sweep_all.tx_hash_list.into_iter().map(TxHash).collect()) } pub fn static_tx_fee_estimate(&self) -> Amount { // Median tx fees on Monero as found here: https://www.monero.how/monero-transaction-fees, 0.000_015 * 2 (to be on the safe side) Amount::from_monero(0.000_03f64).expect("static fee to be convertible without problems") } } #[async_trait] impl Transfer for Wallet { async fn transfer( &self, public_spend_key: PublicKey, public_view_key: PublicViewKey, amount: Amount, ) -> Result { let destination_address = Address::standard(self.network, public_spend_key, public_view_key.into()); let res = self .inner .lock() .await .transfer(0, amount.as_piconero(), &destination_address.to_string()) .await?; tracing::debug!( "sent transfer of {} to {} in {}", amount, public_spend_key, res.tx_hash ); Ok(TransferProof::new( TxHash(res.tx_hash), PrivateKey::from_str(&res.tx_key)?, )) } } #[async_trait] impl CreateWalletForOutput for Wallet { async fn create_and_load_wallet_for_output( &self, private_spend_key: PrivateKey, private_view_key: PrivateViewKey, restore_height: BlockHeight, ) -> Result<()> { let public_spend_key = PublicKey::from_private_key(&private_spend_key); let public_view_key = PublicKey::from_private_key(&private_view_key.into()); let address = Address::standard(self.network, public_spend_key, public_view_key); let wallet = self.inner.lock().await; // Properly close the wallet before generating the other wallet to ensure that // it saves its state correctly let _ = wallet.close_wallet().await?; let _ = wallet .generate_from_keys( &address.to_string(), &private_spend_key.to_string(), &PrivateKey::from(private_view_key).to_string(), restore_height.height, ) .await?; Ok(()) } } #[async_trait] impl CreateWalletForOutputThenReloadWallet for Wallet { async fn create_and_load_wallet_for_output_then_reload_wallet( &self, private_spend_key: PrivateKey, private_view_key: PrivateViewKey, restore_height: BlockHeight, ) -> Result<()> { let public_spend_key = PublicKey::from_private_key(&private_spend_key); let public_view_key = PublicKey::from_private_key(&private_view_key.into()); let address = Address::standard(self.network, public_spend_key, public_view_key); let wallet = self.inner.lock().await; // Properly close the wallet before generating the other wallet to ensure that // it saves its state correctly let _ = wallet.close_wallet().await?; let _ = wallet .generate_from_keys( &address.to_string(), &private_spend_key.to_string(), &PrivateKey::from(private_view_key).to_string(), restore_height.height, ) .await?; let _ = wallet.open_wallet(self.name.as_str()).await?; Ok(()) } } #[async_trait] impl OpenWallet for Wallet { async fn open(&self) -> Result<()> { self.inner .lock() .await .open_wallet(self.name.as_str()) .await?; Ok(()) } } #[async_trait] impl CreateWallet for Wallet { async fn create(&self) -> Result<()> { self.inner .lock() .await .create_wallet(self.name.as_str()) .await?; Ok(()) } } // TODO: For retry, use `backoff::ExponentialBackoff` in production as opposed // to `ConstantBackoff`. #[async_trait] impl WatchForTransfer for Wallet { async fn watch_for_transfer( &self, public_spend_key: PublicKey, public_view_key: PublicViewKey, transfer_proof: TransferProof, expected_amount: Amount, expected_confirmations: u32, ) -> Result<(), InsufficientFunds> { enum Error { TxNotFound, InsufficientConfirmations, InsufficientFunds { expected: Amount, actual: Amount }, } let address = Address::standard(self.network, public_spend_key, public_view_key.into()); let confirmations = AtomicU32::new(0u32); let res = retry(ConstantBackoff::new(Duration::from_secs(1)), || async { // NOTE: Currently, this is conflicting IO errors with the transaction not being // in the blockchain yet, or not having enough confirmations on it. All these // errors warrant a retry, but the strategy should probably differ per case let proof = self .inner .lock() .await .check_tx_key( &String::from(transfer_proof.tx_hash()), &transfer_proof.tx_key().to_string(), &address.to_string(), ) .await .map_err(|_| backoff::Error::Transient(Error::TxNotFound))?; if proof.received != expected_amount.as_piconero() { return Err(backoff::Error::Permanent(Error::InsufficientFunds { expected: expected_amount, actual: Amount::from_piconero(proof.received), })); } if proof.confirmations > confirmations.load(Ordering::SeqCst) { confirmations.store(proof.confirmations, Ordering::SeqCst); info!( "Monero lock tx received {} out of {} confirmations", proof.confirmations, expected_confirmations ); } if proof.confirmations < expected_confirmations { return Err(backoff::Error::Transient(Error::InsufficientConfirmations)); } Ok(proof) }) .await; if let Err(Error::InsufficientFunds { expected, actual }) = res { return Err(InsufficientFunds { expected, actual }); }; Ok(()) } }