469 lines
17 KiB
Rust
469 lines
17 KiB
Rust
use ethers_core::types::{
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transaction::{eip2718::TypedTransaction, eip2930::AccessListWithGasUsed},
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Address, BlockId, Bytes, Signature, U256,
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};
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use ethers_providers::{maybe, FromErr, Middleware, PendingTransaction};
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use ethers_signers::Signer;
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use async_trait::async_trait;
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use thiserror::Error;
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#[derive(Clone, Debug)]
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/// Middleware used for locally signing transactions, compatible with any implementer
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/// of the [`Signer`] trait.
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///
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/// # Example
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///
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/// ```no_run
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/// use ethers_providers::{Middleware, Provider, Http};
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/// use ethers_signers::LocalWallet;
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/// use ethers_middleware::SignerMiddleware;
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/// use ethers_core::types::{Address, TransactionRequest};
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/// use std::convert::TryFrom;
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///
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/// # async fn foo() -> Result<(), Box<dyn std::error::Error>> {
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/// let provider = Provider::<Http>::try_from("http://localhost:8545")
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/// .expect("could not instantiate HTTP Provider");
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///
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/// // Transactions will be signed with the private key below and will be broadcast
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/// // via the eth_sendRawTransaction API)
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/// let wallet: LocalWallet = "380eb0f3d505f087e438eca80bc4df9a7faa24f868e69fc0440261a0fc0567dc"
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/// .parse()?;
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///
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/// let mut client = SignerMiddleware::new(provider, wallet);
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///
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/// // You can sign messages with the key
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/// let signed_msg = client.sign(b"hello".to_vec(), &client.address()).await?;
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///
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/// // ...and sign transactions
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/// let tx = TransactionRequest::pay("vitalik.eth", 100);
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/// let pending_tx = client.send_transaction(tx, None).await?;
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///
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/// // You can `await` on the pending transaction to get the receipt with a pre-specified
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/// // number of confirmations
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/// let receipt = pending_tx.confirmations(6).await?;
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///
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/// // You can connect with other wallets at runtime via the `with_signer` function
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/// let wallet2: LocalWallet = "cd8c407233c0560f6de24bb2dc60a8b02335c959a1a17f749ce6c1ccf63d74a7"
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/// .parse()?;
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///
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/// let signed_msg2 = client.with_signer(wallet2).sign(b"hello".to_vec(), &client.address()).await?;
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///
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/// // This call will be made with `wallet2` since `with_signer` takes a mutable reference.
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/// let tx2 = TransactionRequest::new()
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/// .to("0xd8da6bf26964af9d7eed9e03e53415d37aa96045".parse::<Address>()?)
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/// .value(200);
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/// let tx_hash2 = client.send_transaction(tx2, None).await?;
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///
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/// # Ok(())
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/// # }
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/// ```
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///
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/// [`Signer`]: ethers_signers::Signer
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pub struct SignerMiddleware<M, S> {
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pub(crate) inner: M,
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pub(crate) signer: S,
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pub(crate) address: Address,
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}
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impl<M: Middleware, S: Signer> FromErr<M::Error> for SignerMiddlewareError<M, S> {
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fn from(src: M::Error) -> SignerMiddlewareError<M, S> {
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SignerMiddlewareError::MiddlewareError(src)
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}
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}
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#[derive(Error, Debug)]
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/// Error thrown when the client interacts with the blockchain
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pub enum SignerMiddlewareError<M: Middleware, S: Signer> {
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#[error("{0}")]
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/// Thrown when the internal call to the signer fails
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SignerError(S::Error),
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#[error("{0}")]
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/// Thrown when an internal middleware errors
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MiddlewareError(M::Error),
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/// Thrown if the `nonce` field is missing
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#[error("no nonce was specified")]
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NonceMissing,
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/// Thrown if the `gas_price` field is missing
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#[error("no gas price was specified")]
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GasPriceMissing,
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/// Thrown if the `gas` field is missing
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#[error("no gas was specified")]
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GasMissing,
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/// Thrown if a signature is requested from a different address
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#[error("specified from address is not signer")]
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WrongSigner,
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/// Thrown if the signer's chain_id is different than the chain_id of the transaction
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#[error("specified chain_id is different than the signer's chain_id")]
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DifferentChainID,
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}
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// Helper functions for locally signing transactions
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impl<M, S> SignerMiddleware<M, S>
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where
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M: Middleware,
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S: Signer,
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{
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/// Creates a new client from the provider and signer.
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/// Sets the address of this middleware to the address of the signer.
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/// The chain_id of the signer will not be set to the chain id of the provider. If the signer
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/// passed here is initialized with a different chain id, then the client may throw errors, or
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/// methods like `sign_transaction` may error.
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/// To automatically set the signer's chain id, see `new_with_provider_chain`.
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///
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/// [`Middleware`] ethers_providers::Middleware
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/// [`Signer`] ethers_signers::Signer
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pub fn new(inner: M, signer: S) -> Self {
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let address = signer.address();
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SignerMiddleware { inner, signer, address }
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}
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/// Signs and returns the RLP encoding of the signed transaction.
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/// If the transaction does not have a chain id set, it sets it to the signer's chain id.
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/// Returns an error if the transaction's existing chain id does not match the signer's chain
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/// id.
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async fn sign_transaction(
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&self,
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tx: TypedTransaction,
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) -> Result<Bytes, SignerMiddlewareError<M, S>> {
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// compare chain_id and use signer's chain_id if the tranasaction's chain_id is None,
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// return an error if they are not consistent
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let chain_id = self.signer.chain_id();
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match tx.chain_id() {
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Some(id) if id.as_u64() != chain_id => {
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return Err(SignerMiddlewareError::DifferentChainID)
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}
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None => {
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let mut tx = tx.clone();
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tx.set_chain_id(chain_id);
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}
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_ => {}
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}
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let signature =
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self.signer.sign_transaction(&tx).await.map_err(SignerMiddlewareError::SignerError)?;
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// Return the raw rlp-encoded signed transaction
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Ok(tx.rlp_signed(&signature))
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}
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/// Returns the client's address
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pub fn address(&self) -> Address {
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self.address
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}
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/// Returns a reference to the client's signer
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pub fn signer(&self) -> &S {
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&self.signer
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}
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/// Builds a SignerMiddleware with the given Signer.
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#[must_use]
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pub fn with_signer(&self, signer: S) -> Self
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where
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S: Clone,
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M: Clone,
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{
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let mut this = self.clone();
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this.address = signer.address();
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this.signer = signer;
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this
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}
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/// Creates a new client from the provider and signer.
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/// Sets the address of this middleware to the address of the signer.
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/// Sets the chain id of the signer to the chain id of the inner [`Middleware`] passed in,
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/// using the [`Signer`]'s implementation of with_chain_id.
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///
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/// [`Middleware`] ethers_providers::Middleware
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/// [`Signer`] ethers_signers::Signer
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pub async fn new_with_provider_chain(
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inner: M,
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signer: S,
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) -> Result<Self, SignerMiddlewareError<M, S>> {
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let address = signer.address();
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let chain_id =
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inner.get_chainid().await.map_err(|e| SignerMiddlewareError::MiddlewareError(e))?;
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let signer = signer.with_chain_id(chain_id.as_u64());
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Ok(SignerMiddleware { inner, signer, address })
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}
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fn set_tx_from_if_none(&self, tx: &TypedTransaction) -> TypedTransaction {
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let mut tx = tx.clone();
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if tx.from().is_none() {
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tx.set_from(self.address);
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}
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tx
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}
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}
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#[cfg_attr(target_arch = "wasm32", async_trait(?Send))]
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#[cfg_attr(not(target_arch = "wasm32"), async_trait)]
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impl<M, S> Middleware for SignerMiddleware<M, S>
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where
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M: Middleware,
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S: Signer,
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{
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type Error = SignerMiddlewareError<M, S>;
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type Provider = M::Provider;
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type Inner = M;
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fn inner(&self) -> &M {
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&self.inner
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}
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/// Returns the client's address
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fn default_sender(&self) -> Option<Address> {
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Some(self.address)
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}
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/// `SignerMiddleware` is instantiated with a signer.
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async fn is_signer(&self) -> bool {
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true
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}
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async fn sign_transaction(
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&self,
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tx: &TypedTransaction,
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_: Address,
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) -> Result<Signature, Self::Error> {
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Ok(self.signer.sign_transaction(tx).await.map_err(SignerMiddlewareError::SignerError)?)
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}
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/// Helper for filling a transaction's nonce using the wallet
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async fn fill_transaction(
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&self,
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tx: &mut TypedTransaction,
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block: Option<BlockId>,
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) -> Result<(), Self::Error> {
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// get the `from` field's nonce if it's set, else get the signer's nonce
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let from = if tx.from().is_some() && tx.from() != Some(&self.address()) {
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*tx.from().unwrap()
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} else {
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self.address
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};
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tx.set_from(from);
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// get the signer's chain_id if the transaction does not set it
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let chain_id = self.signer.chain_id();
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if tx.chain_id().is_none() {
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tx.set_chain_id(chain_id);
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}
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let nonce = maybe(tx.nonce().cloned(), self.get_transaction_count(from, block)).await?;
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tx.set_nonce(nonce);
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self.inner()
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.fill_transaction(tx, block)
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.await
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.map_err(SignerMiddlewareError::MiddlewareError)?;
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Ok(())
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}
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/// Signs and broadcasts the transaction. The optional parameter `block` can be passed so that
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/// gas cost and nonce calculations take it into account. For simple transactions this can be
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/// left to `None`.
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async fn send_transaction<T: Into<TypedTransaction> + Send + Sync>(
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&self,
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tx: T,
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block: Option<BlockId>,
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) -> Result<PendingTransaction<'_, Self::Provider>, Self::Error> {
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let mut tx = tx.into();
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// fill any missing fields
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self.fill_transaction(&mut tx, block).await?;
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// If the from address is set and is not our signer, delegate to inner
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if tx.from().is_some() && tx.from() != Some(&self.address()) {
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return self
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.inner
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.send_transaction(tx, block)
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.await
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.map_err(SignerMiddlewareError::MiddlewareError)
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}
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// if we have a nonce manager set, we should try handling the result in
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// case there was a nonce mismatch
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let signed_tx = self.sign_transaction(tx).await?;
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// Submit the raw transaction
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self.inner
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.send_raw_transaction(signed_tx)
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.await
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.map_err(SignerMiddlewareError::MiddlewareError)
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}
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/// Signs a message with the internal signer, or if none is present it will make a call to
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/// the connected node's `eth_call` API.
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async fn sign<T: Into<Bytes> + Send + Sync>(
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&self,
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data: T,
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_: &Address,
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) -> Result<Signature, Self::Error> {
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self.signer.sign_message(data.into()).await.map_err(SignerMiddlewareError::SignerError)
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}
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async fn estimate_gas(&self, tx: &TypedTransaction) -> Result<U256, Self::Error> {
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let tx = self.set_tx_from_if_none(tx);
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self.inner.estimate_gas(&tx).await.map_err(SignerMiddlewareError::MiddlewareError)
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}
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async fn create_access_list(
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&self,
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tx: &TypedTransaction,
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block: Option<BlockId>,
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) -> Result<AccessListWithGasUsed, Self::Error> {
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let tx = self.set_tx_from_if_none(tx);
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self.inner
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.create_access_list(&tx, block)
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.await
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.map_err(SignerMiddlewareError::MiddlewareError)
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}
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async fn call(
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&self,
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tx: &TypedTransaction,
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block: Option<BlockId>,
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) -> Result<Bytes, Self::Error> {
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let tx = self.set_tx_from_if_none(tx);
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self.inner().call(&tx, block).await.map_err(SignerMiddlewareError::MiddlewareError)
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}
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}
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#[cfg(all(test, not(feature = "celo"), not(target_arch = "wasm32")))]
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mod tests {
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use super::*;
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use ethers_core::{
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types::TransactionRequest,
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utils::{self, keccak256, Ganache},
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};
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use ethers_providers::Provider;
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use ethers_signers::LocalWallet;
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use std::convert::TryFrom;
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#[tokio::test]
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async fn signs_tx() {
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// retrieved test vector from:
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// https://web3js.readthedocs.io/en/v1.2.0/web3-eth-accounts.html#eth-accounts-signtransaction
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let tx = TransactionRequest {
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from: None,
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to: Some("F0109fC8DF283027b6285cc889F5aA624EaC1F55".parse::<Address>().unwrap().into()),
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value: Some(1_000_000_000.into()),
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gas: Some(2_000_000.into()),
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nonce: Some(0.into()),
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gas_price: Some(21_000_000_000u128.into()),
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data: None,
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chain_id: None,
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}
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.into();
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let chain_id = 1u64;
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// Signer middlewares now rely on a working provider which it can query the chain id from,
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// so we make sure ganache is started with the chain id that the expected tx was signed
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// with
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let ganache =
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Ganache::new().args(vec!["--chain.chainId".to_string(), chain_id.to_string()]).spawn();
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let provider = Provider::try_from(ganache.endpoint()).unwrap();
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let key = "4c0883a69102937d6231471b5dbb6204fe5129617082792ae468d01a3f362318"
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.parse::<LocalWallet>()
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.unwrap()
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.with_chain_id(chain_id);
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let client = SignerMiddleware::new(provider, key);
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let tx = client.sign_transaction(tx).await.unwrap();
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assert_eq!(
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keccak256(&tx)[..],
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hex::decode("de8db924885b0803d2edc335f745b2b8750c8848744905684c20b987443a9593")
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.unwrap()
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);
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let expected_rlp = Bytes::from(hex::decode("f869808504e3b29200831e848094f0109fc8df283027b6285cc889f5aa624eac1f55843b9aca008025a0c9cf86333bcb065d140032ecaab5d9281bde80f21b9687b3e94161de42d51895a0727a108a0b8d101465414033c3f705a9c7b826e596766046ee1183dbc8aeaa68").unwrap());
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assert_eq!(tx, expected_rlp);
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}
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#[tokio::test]
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async fn ganache_consistent_chainid() {
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let ganache = Ganache::new().spawn();
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let provider = Provider::try_from(ganache.endpoint()).unwrap();
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let chain_id = provider.get_chainid().await.unwrap();
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assert_eq!(chain_id, U256::from(1337));
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// Intentionally do not set the chain id here so we ensure that the signer pulls the
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// provider's chain id.
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let key = LocalWallet::new(&mut rand::thread_rng());
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// combine the provider and wallet and test that the chain id is the same for both the
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// signer returned by the middleware and through the middleware itself.
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let client = SignerMiddleware::new_with_provider_chain(provider, key).await.unwrap();
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let middleware_chainid = client.get_chainid().await.unwrap();
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assert_eq!(chain_id, middleware_chainid);
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let signer = client.signer();
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let signer_chainid = signer.chain_id();
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assert_eq!(chain_id.as_u64(), signer_chainid);
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}
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#[tokio::test]
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async fn ganache_consistent_chainid_not_default() {
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let ganache = Ganache::new().args(vec!["--chain.chainId", "13371337"]).spawn();
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let provider = Provider::try_from(ganache.endpoint()).unwrap();
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let chain_id = provider.get_chainid().await.unwrap();
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assert_eq!(chain_id, U256::from(13371337));
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// Intentionally do not set the chain id here so we ensure that the signer pulls the
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// provider's chain id.
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let key = LocalWallet::new(&mut rand::thread_rng());
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// combine the provider and wallet and test that the chain id is the same for both the
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// signer returned by the middleware and through the middleware itself.
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let client = SignerMiddleware::new_with_provider_chain(provider, key).await.unwrap();
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let middleware_chainid = client.get_chainid().await.unwrap();
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assert_eq!(chain_id, middleware_chainid);
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let signer = client.signer();
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let signer_chainid = signer.chain_id();
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assert_eq!(chain_id.as_u64(), signer_chainid);
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}
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#[tokio::test]
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async fn handles_tx_from_field() {
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let ganache = Ganache::new().spawn();
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let acc = ganache.addresses()[0];
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let provider = Provider::try_from(ganache.endpoint()).unwrap();
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let key = LocalWallet::new(&mut rand::thread_rng()).with_chain_id(1u32);
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provider
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.send_transaction(
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TransactionRequest::pay(key.address(), utils::parse_ether(1u64).unwrap()).from(acc),
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None,
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)
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.await
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.unwrap();
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let client = SignerMiddleware::new_with_provider_chain(provider, key).await.unwrap();
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let request = TransactionRequest::new();
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// signing a TransactionRequest with a from field of None should yield
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// a signed transaction from the signer address
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let request_from_none = request.clone();
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let hash = *client.send_transaction(request_from_none, None).await.unwrap();
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let tx = client.get_transaction(hash).await.unwrap().unwrap();
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assert_eq!(tx.from, client.address());
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// signing a TransactionRequest with the signer as the from address
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// should yield a signed transaction from the signer
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let request_from_signer = request.clone().from(client.address());
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let hash = *client.send_transaction(request_from_signer, None).await.unwrap();
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let tx = client.get_transaction(hash).await.unwrap().unwrap();
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assert_eq!(tx.from, client.address());
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|
|
|
// signing a TransactionRequest with a from address that is not the
|
|
// signer should result in the default ganache account being used
|
|
let request_from_other = request.from(acc);
|
|
let hash = *client.send_transaction(request_from_other, None).await.unwrap();
|
|
let tx = client.get_transaction(hash).await.unwrap().unwrap();
|
|
assert_eq!(tx.from, acc);
|
|
}
|
|
}
|