376 lines
14 KiB
Rust
376 lines
14 KiB
Rust
use crate::{
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stream::{interval, DEFAULT_POLL_INTERVAL},
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JsonRpcClient, Middleware, PinBoxFut, Provider, ProviderError,
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};
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use ethers_core::types::{Transaction, TransactionReceipt, TxHash, U64};
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use futures_core::stream::Stream;
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use futures_util::stream::StreamExt;
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use pin_project::pin_project;
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use std::{
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fmt,
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future::Future,
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ops::Deref,
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pin::Pin,
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task::{Context, Poll},
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time::Duration,
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};
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#[cfg(not(target_arch = "wasm32"))]
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use futures_timer::Delay;
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#[cfg(target_arch = "wasm32")]
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use wasm_timer::Delay;
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/// A pending transaction is a transaction which has been submitted but is not yet mined.
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/// `await`'ing on a pending transaction will resolve to a transaction receipt
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/// once the transaction has enough `confirmations`. The default number of confirmations
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/// is 1, but may be adjusted with the `confirmations` method. If the transaction does not
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/// have enough confirmations or is not mined, the future will stay in the pending state.
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///
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/// # Example
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///
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///```
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/// # use ethers_providers::{Provider, Http};
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/// # use ethers_core::utils::Ganache;
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/// # use std::convert::TryFrom;
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/// use ethers_providers::Middleware;
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/// use ethers_core::types::TransactionRequest;
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///
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/// # #[tokio::main(flavor = "current_thread")]
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/// # async fn main() -> Result<(), Box<dyn std::error::Error>> {
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/// # let ganache = Ganache::new().spawn();
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/// # let client = Provider::<Http>::try_from(ganache.endpoint()).unwrap();
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/// # let accounts = client.get_accounts().await?;
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/// # let from = accounts[0];
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/// # let to = accounts[1];
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/// # let balance_before = client.get_balance(to, None).await?;
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/// let tx = TransactionRequest::new().to(to).value(1000).from(from);
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/// let receipt = client
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/// .send_transaction(tx, None)
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/// .await? // PendingTransaction<_>
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/// .log_msg("Pending transfer hash") // print pending tx hash with message
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/// .await?; // Result<Option<TransactionReceipt>, _>
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/// # let _ = receipt;
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/// # let balance_after = client.get_balance(to, None).await?;
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/// # assert_eq!(balance_after, balance_before + 1000);
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/// # Ok(())
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/// # }
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/// ```
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#[pin_project]
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pub struct PendingTransaction<'a, P> {
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tx_hash: TxHash,
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confirmations: usize,
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provider: &'a Provider<P>,
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state: PendingTxState<'a>,
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interval: Box<dyn Stream<Item = ()> + Send + Unpin>,
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}
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impl<'a, P: JsonRpcClient> PendingTransaction<'a, P> {
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/// Creates a new pending transaction poller from a hash and a provider
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pub fn new(tx_hash: TxHash, provider: &'a Provider<P>) -> Self {
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let delay = Box::pin(Delay::new(DEFAULT_POLL_INTERVAL));
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Self {
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tx_hash,
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confirmations: 1,
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provider,
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state: PendingTxState::InitialDelay(delay),
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interval: Box::new(interval(DEFAULT_POLL_INTERVAL)),
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}
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}
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/// Returns the Provider associated with the pending transaction
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pub fn provider(&self) -> Provider<P>
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where
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P: Clone,
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{
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self.provider.clone()
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}
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/// Returns the transaction hash of the pending transaction
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pub fn tx_hash(&self) -> TxHash {
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self.tx_hash
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}
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/// Sets the number of confirmations for the pending transaction to resolve
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/// to a receipt
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#[must_use]
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pub fn confirmations(mut self, confs: usize) -> Self {
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self.confirmations = confs;
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self
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}
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/// Sets the polling interval
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#[must_use]
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pub fn interval<T: Into<Duration>>(mut self, duration: T) -> Self {
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let duration = duration.into();
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self.interval = Box::new(interval(duration));
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if matches!(self.state, PendingTxState::InitialDelay(_)) {
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self.state = PendingTxState::InitialDelay(Box::pin(Delay::new(duration)))
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}
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self
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}
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}
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impl<'a, P> PendingTransaction<'a, P> {
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/// Allows inspecting the content of a pending transaction in a builder-like way to avoid
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/// more verbose calls, e.g.:
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/// `let mined = token.transfer(recipient, amt).send().await?.inspect(|tx| println!(".{}",
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/// *tx)).await?;`
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pub fn inspect<F>(self, mut f: F) -> Self
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where
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F: FnMut(&Self),
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{
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f(&self);
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self
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}
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/// Logs the pending transaction hash along with a custom message before it.
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pub fn log_msg<S: std::fmt::Display>(self, msg: S) -> Self {
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self.inspect(|s| println!("{}: {:?}", msg, **s))
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}
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/// Logs the pending transaction's hash
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pub fn log(self) -> Self {
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self.inspect(|s| println!("Pending hash: {:?}", **s))
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}
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}
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macro_rules! rewake_with_new_state {
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($ctx:ident, $this:ident, $new_state:expr) => {
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*$this.state = $new_state;
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$ctx.waker().wake_by_ref();
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return Poll::Pending
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};
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}
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macro_rules! rewake_with_new_state_if {
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($condition:expr, $ctx:ident, $this:ident, $new_state:expr) => {
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if $condition {
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rewake_with_new_state!($ctx, $this, $new_state);
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}
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};
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}
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impl<'a, P: JsonRpcClient> Future for PendingTransaction<'a, P> {
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type Output = Result<Option<TransactionReceipt>, ProviderError>;
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fn poll(self: Pin<&mut Self>, ctx: &mut Context) -> Poll<Self::Output> {
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let this = self.project();
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match this.state {
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PendingTxState::InitialDelay(fut) => {
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let _ready = futures_util::ready!(fut.as_mut().poll(ctx));
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tracing::debug!("Starting to poll pending tx {:?}", *this.tx_hash);
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let fut = Box::pin(this.provider.get_transaction(*this.tx_hash));
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rewake_with_new_state!(ctx, this, PendingTxState::GettingTx(fut));
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}
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PendingTxState::PausedGettingTx => {
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// Wait the polling period so that we do not spam the chain when no
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// new block has been mined
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let _ready = futures_util::ready!(this.interval.poll_next_unpin(ctx));
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let fut = Box::pin(this.provider.get_transaction(*this.tx_hash));
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*this.state = PendingTxState::GettingTx(fut);
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ctx.waker().wake_by_ref();
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}
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PendingTxState::GettingTx(fut) => {
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let tx_res = futures_util::ready!(fut.as_mut().poll(ctx));
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// If the provider errors, just try again after the interval.
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// nbd.
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rewake_with_new_state_if!(
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tx_res.is_err(),
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ctx,
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this,
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PendingTxState::PausedGettingTx
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);
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let tx_opt = tx_res.unwrap();
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// If the tx is no longer in the mempool, return Ok(None)
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if tx_opt.is_none() {
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tracing::debug!("Dropped from mempool, pending tx {:?}", *this.tx_hash);
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*this.state = PendingTxState::Completed;
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return Poll::Ready(Ok(None))
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}
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// If it hasn't confirmed yet, poll again later
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let tx = tx_opt.unwrap();
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rewake_with_new_state_if!(
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tx.block_number.is_none(),
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ctx,
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this,
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PendingTxState::PausedGettingTx
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);
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// Start polling for the receipt now
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tracing::debug!("Getting receipt for pending tx {:?}", *this.tx_hash);
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let fut = Box::pin(this.provider.get_transaction_receipt(*this.tx_hash));
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rewake_with_new_state!(ctx, this, PendingTxState::GettingReceipt(fut));
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}
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PendingTxState::PausedGettingReceipt => {
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// Wait the polling period so that we do not spam the chain when no
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// new block has been mined
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let _ready = futures_util::ready!(this.interval.poll_next_unpin(ctx));
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let fut = Box::pin(this.provider.get_transaction_receipt(*this.tx_hash));
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*this.state = PendingTxState::GettingReceipt(fut);
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ctx.waker().wake_by_ref();
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}
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PendingTxState::GettingReceipt(fut) => {
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if let Ok(receipt) = futures_util::ready!(fut.as_mut().poll(ctx)) {
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tracing::debug!("Checking receipt for pending tx {:?}", *this.tx_hash);
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*this.state = PendingTxState::CheckingReceipt(receipt)
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} else {
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*this.state = PendingTxState::PausedGettingReceipt
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}
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ctx.waker().wake_by_ref();
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}
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PendingTxState::CheckingReceipt(receipt) => {
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rewake_with_new_state_if!(
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receipt.is_none(),
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ctx,
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this,
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PendingTxState::PausedGettingReceipt
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);
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// If we requested more than 1 confirmation, we need to compare the receipt's
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// block number and the current block
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if *this.confirmations > 1 {
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tracing::debug!("Waiting on confirmations for pending tx {:?}", *this.tx_hash);
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let fut = Box::pin(this.provider.get_block_number());
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*this.state = PendingTxState::GettingBlockNumber(fut, receipt.take());
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// Schedule the waker to poll again
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ctx.waker().wake_by_ref();
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} else {
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let receipt = receipt.take();
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*this.state = PendingTxState::Completed;
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return Poll::Ready(Ok(receipt))
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}
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}
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PendingTxState::PausedGettingBlockNumber(receipt) => {
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// Wait the polling period so that we do not spam the chain when no
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// new block has been mined
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let _ready = futures_util::ready!(this.interval.poll_next_unpin(ctx));
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// we need to re-instantiate the get_block_number future so that
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// we poll again
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let fut = Box::pin(this.provider.get_block_number());
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*this.state = PendingTxState::GettingBlockNumber(fut, receipt.take());
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ctx.waker().wake_by_ref();
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}
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PendingTxState::GettingBlockNumber(fut, receipt) => {
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let current_block = futures_util::ready!(fut.as_mut().poll(ctx))?;
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// This is safe so long as we only enter the `GettingBlock`
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// loop from `CheckingReceipt`, which contains an explicit
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// `is_none` check
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let receipt = receipt.take().expect("GettingBlockNumber without receipt");
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// Wait for the interval
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let inclusion_block = receipt
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.block_number
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.expect("Receipt did not have a block number. This should never happen");
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// if the transaction has at least K confirmations, return the receipt
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// (subtract 1 since the tx already has 1 conf when it's mined)
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if current_block > inclusion_block + *this.confirmations - 1 {
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let receipt = Some(receipt);
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*this.state = PendingTxState::Completed;
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return Poll::Ready(Ok(receipt))
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} else {
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tracing::trace!(tx_hash = ?this.tx_hash, "confirmations {}/{}", current_block - inclusion_block + 1, this.confirmations);
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*this.state = PendingTxState::PausedGettingBlockNumber(Some(receipt));
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ctx.waker().wake_by_ref();
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}
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}
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PendingTxState::Completed => {
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panic!("polled pending transaction future after completion")
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}
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};
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Poll::Pending
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}
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}
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impl<'a, P> fmt::Debug for PendingTransaction<'a, P> {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
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f.debug_struct("PendingTransaction")
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.field("tx_hash", &self.tx_hash)
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.field("confirmations", &self.confirmations)
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.field("state", &self.state)
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.finish()
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}
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}
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impl<'a, P> PartialEq for PendingTransaction<'a, P> {
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fn eq(&self, other: &Self) -> bool {
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self.tx_hash == other.tx_hash
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}
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}
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impl<'a, P> PartialEq<TxHash> for PendingTransaction<'a, P> {
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fn eq(&self, other: &TxHash) -> bool {
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&self.tx_hash == other
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}
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}
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impl<'a, P> Eq for PendingTransaction<'a, P> {}
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impl<'a, P> Deref for PendingTransaction<'a, P> {
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type Target = TxHash;
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fn deref(&self) -> &Self::Target {
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&self.tx_hash
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}
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}
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// We box the TransactionReceipts to keep the enum small.
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enum PendingTxState<'a> {
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/// Initial delay to ensure the GettingTx loop doesn't immediately fail
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InitialDelay(Pin<Box<Delay>>),
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/// Waiting for interval to elapse before calling API again
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PausedGettingTx,
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/// Polling The blockchain to see if the Tx has confirmed or dropped
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GettingTx(PinBoxFut<'a, Option<Transaction>>),
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/// Waiting for interval to elapse before calling API again
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PausedGettingReceipt,
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/// Polling the blockchain for the receipt
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GettingReceipt(PinBoxFut<'a, Option<TransactionReceipt>>),
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/// If the pending tx required only 1 conf, it will return early. Otherwise it will
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/// proceed to the next state which will poll the block number until there have been
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/// enough confirmations
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CheckingReceipt(Option<TransactionReceipt>),
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/// Waiting for interval to elapse before calling API again
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PausedGettingBlockNumber(Option<TransactionReceipt>),
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/// Polling the blockchain for the current block number
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GettingBlockNumber(PinBoxFut<'a, U64>, Option<TransactionReceipt>),
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/// Future has completed and should panic if polled again
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Completed,
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}
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impl<'a> fmt::Debug for PendingTxState<'a> {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
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let state = match self {
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PendingTxState::InitialDelay(_) => "InitialDelay",
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PendingTxState::PausedGettingTx => "PausedGettingTx",
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PendingTxState::GettingTx(_) => "GettingTx",
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PendingTxState::PausedGettingReceipt => "PausedGettingReceipt",
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PendingTxState::GettingReceipt(_) => "GettingReceipt",
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PendingTxState::GettingBlockNumber(_, _) => "GettingBlockNumber",
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PendingTxState::PausedGettingBlockNumber(_) => "PausedGettingBlockNumber",
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PendingTxState::CheckingReceipt(_) => "CheckingReceipt",
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PendingTxState::Completed => "Completed",
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};
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f.debug_struct("PendingTxState").field("state", &state).finish()
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}
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}
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