2020-10-02 08:41:16 +00:00
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//! Specific helper functions for loading an offline K256 Private Key stored on disk
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use super::Wallet;
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2021-04-05 08:24:06 +00:00
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use crate::wallet::mnemonic::MnemonicBuilderError;
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2021-04-05 07:44:58 +00:00
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use coins_bip32::Bip32Error;
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use coins_bip39::MnemonicError;
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use elliptic_curve::rand_core;
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use eth_keystore::KeystoreError;
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2020-10-02 08:41:16 +00:00
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use ethers_core::{
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k256::ecdsa::{self, SigningKey},
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2020-10-02 08:41:16 +00:00
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rand::{CryptoRng, Rng},
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utils::secret_key_to_address,
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2020-10-02 08:41:16 +00:00
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};
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2021-01-11 09:39:14 +00:00
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use std::{path::Path, str::FromStr};
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use thiserror::Error;
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#[derive(Error, Debug)]
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/// Error thrown by the Wallet module
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pub enum WalletError {
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/// Error propagated from the BIP-32 crate
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#[error(transparent)]
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Bip32Error(#[from] Bip32Error),
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/// Error propagated from the BIP-39 crate
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#[error(transparent)]
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Bip39Error(#[from] MnemonicError),
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/// Underlying eth keystore error
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#[error(transparent)]
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EthKeystoreError(#[from] KeystoreError),
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/// Error propagated from k256's ECDSA module
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#[error(transparent)]
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EcdsaError(#[from] ecdsa::Error),
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/// Error propagated from the hex crate.
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#[error(transparent)]
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HexError(#[from] hex::FromHexError),
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/// Error propagated by IO operations
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#[error(transparent)]
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IoError(#[from] std::io::Error),
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/// Error propagated from the mnemonic builder module.
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#[error(transparent)]
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MnemonicBuilderError(#[from] MnemonicBuilderError),
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}
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2020-10-02 08:41:16 +00:00
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impl Clone for Wallet<SigningKey> {
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fn clone(&self) -> Self {
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Self {
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// TODO: Can we have a better way to clone here?
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signer: SigningKey::from_bytes(&*self.signer.to_bytes()).unwrap(),
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address: self.address,
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chain_id: self.chain_id,
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}
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}
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}
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impl Wallet<SigningKey> {
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/// Creates a new random encrypted JSON with the provided password and stores it in the
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/// provided directory
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pub fn new_keystore<P, R, S>(dir: P, rng: &mut R, password: S) -> Result<Self, WalletError>
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where
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P: AsRef<Path>,
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R: Rng + CryptoRng + rand_core::CryptoRng,
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S: AsRef<[u8]>,
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{
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let (secret, _) = eth_keystore::new(dir, rng, password)?;
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let signer = SigningKey::from_bytes(secret.as_slice())?;
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let address = secret_key_to_address(&signer);
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Ok(Self {
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signer,
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address,
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chain_id: 1,
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})
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}
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/// Decrypts an encrypted JSON from the provided path to construct a Wallet instance
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pub fn decrypt_keystore<P, S>(keypath: P, password: S) -> Result<Self, WalletError>
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where
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P: AsRef<Path>,
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S: AsRef<[u8]>,
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{
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let secret = eth_keystore::decrypt_key(keypath, password)?;
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let signer = SigningKey::from_bytes(secret.as_slice())?;
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let address = secret_key_to_address(&signer);
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Ok(Self {
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signer,
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address,
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chain_id: 1,
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})
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}
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/// Creates a new random keypair seeded with the provided RNG
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pub fn new<R: Rng + CryptoRng>(rng: &mut R) -> Self {
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let signer = SigningKey::random(rng);
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let address = secret_key_to_address(&signer);
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Self {
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signer,
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address,
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chain_id: 1,
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}
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}
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}
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impl PartialEq for Wallet<SigningKey> {
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fn eq(&self, other: &Self) -> bool {
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self.signer.to_bytes().eq(&other.signer.to_bytes())
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&& self.address == other.address
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&& self.chain_id == other.chain_id
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}
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}
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impl From<SigningKey> for Wallet<SigningKey> {
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fn from(signer: SigningKey) -> Self {
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let address = secret_key_to_address(&signer);
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Self {
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signer,
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address,
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chain_id: 1,
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}
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}
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}
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use ethers_core::k256::SecretKey as K256SecretKey;
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impl From<K256SecretKey> for Wallet<SigningKey> {
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fn from(key: K256SecretKey) -> Self {
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let signer = SigningKey::from_bytes(&*key.to_bytes())
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.expect("private key should always be convertible to signing key");
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let address = secret_key_to_address(&signer);
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Self {
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signer,
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address,
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chain_id: 1,
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}
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}
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}
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impl FromStr for Wallet<SigningKey> {
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type Err = WalletError;
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fn from_str(src: &str) -> Result<Self, Self::Err> {
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let src = hex::decode(src)?;
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let sk = SigningKey::from_bytes(&src)?;
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Ok(sk.into())
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}
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}
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#[cfg(test)]
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mod tests {
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use super::*;
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use crate::Signer;
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use ethers_core::types::Address;
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use std::fs;
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use tempfile::tempdir;
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#[tokio::test]
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async fn encrypted_json_keystore() {
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// create and store a random encrypted JSON keystore in this directory
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let dir = tempdir().unwrap();
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let mut rng = rand::thread_rng();
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let key = Wallet::<SigningKey>::new_keystore(&dir, &mut rng, "randpsswd").unwrap();
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// sign a message using the above key
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let message = "Some data";
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let signature = key.sign_message(message).await.unwrap();
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// read from the encrypted JSON keystore and decrypt it, while validating that the
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// signatures produced by both the keys should match
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let paths = fs::read_dir(dir).unwrap();
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for path in paths {
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let path = path.unwrap().path();
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let key2 = Wallet::<SigningKey>::decrypt_keystore(&path.clone(), "randpsswd").unwrap();
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let signature2 = key2.sign_message(message).await.unwrap();
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assert_eq!(signature, signature2);
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assert!(std::fs::remove_file(&path).is_ok());
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}
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}
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#[tokio::test]
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async fn signs_msg() {
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let message = "Some data";
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let hash = ethers_core::utils::hash_message(message);
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let key = Wallet::<SigningKey>::new(&mut rand::thread_rng());
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let address = key.address;
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// sign a message
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let signature = key.sign_message(message).await.unwrap();
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// ecrecover via the message will hash internally
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let recovered = signature.recover(message).unwrap();
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// if provided with a hash, it will skip hashing
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let recovered2 = signature.recover(hash).unwrap();
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// verifies the signature is produced by `address`
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signature.verify(message, address).unwrap();
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assert_eq!(recovered, address);
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assert_eq!(recovered2, address);
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}
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#[tokio::test]
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#[cfg(not(feature = "celo"))]
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async fn signs_tx() {
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use ethers_core::types::TransactionRequest;
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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(
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"F0109fC8DF283027b6285cc889F5aA624EaC1F55"
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.parse::<Address>()
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.unwrap()
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.into(),
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),
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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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};
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let chain_id = 1u64;
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let wallet: Wallet<SigningKey> =
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"4c0883a69102937d6231471b5dbb6204fe5129617082792ae468d01a3f362318"
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.parse()
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.unwrap();
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let wallet = wallet.with_chain_id(chain_id);
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let sig = wallet.sign_transaction(&tx).await.unwrap();
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let sighash = tx.sighash(chain_id);
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assert!(sig.verify(sighash, wallet.address).is_ok());
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}
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#[test]
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fn key_to_address() {
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let wallet: Wallet<SigningKey> =
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"0000000000000000000000000000000000000000000000000000000000000001"
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.parse()
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.unwrap();
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assert_eq!(
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wallet.address,
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Address::from_str("7E5F4552091A69125d5DfCb7b8C2659029395Bdf").expect("Decoding failed")
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);
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let wallet: Wallet<SigningKey> =
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"0000000000000000000000000000000000000000000000000000000000000002"
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.parse()
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.unwrap();
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assert_eq!(
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wallet.address,
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Address::from_str("2B5AD5c4795c026514f8317c7a215E218DcCD6cF").expect("Decoding failed")
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);
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let wallet: Wallet<SigningKey> =
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"0000000000000000000000000000000000000000000000000000000000000003"
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.parse()
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.unwrap();
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assert_eq!(
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wallet.address,
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Address::from_str("6813Eb9362372EEF6200f3b1dbC3f819671cBA69").expect("Decoding failed")
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);
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}
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}
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