/// Utilities for launching a ganache-cli testnet instance #[cfg(not(target_arch = "wasm32"))] mod ganache; #[cfg(not(target_arch = "wasm32"))] pub use ganache::{Ganache, GanacheInstance}; /// Utilities for launching a go-ethereum dev-mode instance #[cfg(not(target_arch = "wasm32"))] mod geth; #[cfg(not(target_arch = "wasm32"))] pub use geth::{Geth, GethInstance}; /// Solidity compiler bindings #[cfg(not(target_arch = "wasm32"))] mod solc; #[cfg(not(target_arch = "wasm32"))] pub use solc::{CompiledContract, Solc}; #[cfg(not(target_arch = "wasm32"))] #[cfg(feature = "setup")] mod setup; #[cfg(not(target_arch = "wasm32"))] #[cfg(feature = "setup")] pub use setup::*; mod hash; pub use hash::{hash_message, id, keccak256, serialize}; mod units; pub use units::Units; /// Re-export RLP pub use rlp; use crate::types::{Address, Bytes, U256}; use k256::{ecdsa::SigningKey, EncodedPoint as K256PublicKey}; use std::convert::TryInto; /// 1 Ether = 1e18 Wei == 0x0de0b6b3a7640000 Wei pub const WEI_IN_ETHER: U256 = U256([0x0de0b6b3a7640000, 0x0, 0x0, 0x0]); /// Format the output for the user which prefer to see values /// in ether (instead of wei) /// /// Divides the input by 1e18 pub fn format_ether>(amount: T) -> U256 { amount.into() / WEI_IN_ETHER } /// Divides the provided amount with 10^{units} provided. pub fn format_units, K: Into>(amount: T, units: K) -> U256 { let units = units.into(); let amount = amount.into(); amount / 10u64.pow(units.as_num()) } /// Converts the input to a U256 and converts from Ether to Wei. /// /// ``` /// use ethers::{types::U256, utils::{parse_ether, WEI_IN_ETHER}}; /// /// let eth = U256::from(WEI_IN_ETHER); /// assert_eq!(eth, parse_ether(1u8).unwrap()); /// assert_eq!(eth, parse_ether(1usize).unwrap()); /// assert_eq!(eth, parse_ether("1").unwrap()); pub fn parse_ether(eth: S) -> Result where S: TryInto, { Ok(eth.try_into()? * WEI_IN_ETHER) } /// Multiplies the provided amount with 10^{units} provided. pub fn parse_units(amount: S, units: K) -> Result where S: TryInto, K: Into, { Ok(amount.try_into()? * 10u64.pow(units.into().as_num())) } /// The address for an Ethereum contract is deterministically computed from the /// address of its creator (sender) and how many transactions the creator has /// sent (nonce). The sender and nonce are RLP encoded and then hashed with Keccak-256. pub fn get_contract_address(sender: impl Into
, nonce: impl Into) -> Address { let mut stream = rlp::RlpStream::new(); stream.begin_list(2); stream.append(&sender.into()); stream.append(&nonce.into()); let hash = keccak256(&stream.out()); let mut bytes = [0u8; 20]; bytes.copy_from_slice(&hash[12..]); Address::from(bytes) } /// Returns the CREATE2 of a smart contract as specified in /// [EIP1014](https://github.com/ethereum/EIPs/blob/master/EIPS/eip-1014.md) /// /// keccak256( 0xff ++ senderAddress ++ salt ++ keccak256(init_code))[12..] pub fn get_create2_address( from: impl Into
, salt: impl Into, init_code: impl Into, ) -> Address { let bytes = [ &[0xff], from.into().as_bytes(), salt.into().as_ref(), &keccak256(init_code.into().as_ref()), ] .concat(); let hash = keccak256(&bytes); let mut bytes = [0u8; 20]; bytes.copy_from_slice(&hash[12..]); Address::from(bytes) } /// Converts a K256 SigningKey to an Ethereum Address pub fn secret_key_to_address(secret_key: &SigningKey) -> Address { // TODO: Can we do this in a better way? let uncompressed_pub_key = K256PublicKey::from(&secret_key.verifying_key()).decompress(); let public_key = uncompressed_pub_key.unwrap().to_bytes(); debug_assert_eq!(public_key[0], 0x04); let hash = keccak256(&public_key[1..]); Address::from_slice(&hash[12..]) } /// Converts an Ethereum address to the checksum encoding /// Ref: https://github.com/ethereum/EIPs/blob/master/EIPS/eip-55.md pub fn to_checksum(addr: &Address, chain_id: Option) -> String { let prefixed_addr = match chain_id { Some(chain_id) => format!("{}0x{:x}", chain_id, addr), None => format!("{:x}", addr), }; let hash = hex::encode(keccak256(&prefixed_addr)); let hash = hash.as_bytes(); let addr_hex = hex::encode(addr.as_bytes()); let addr_hex = addr_hex.as_bytes(); addr_hex .iter() .zip(hash) .fold("0x".to_owned(), |mut encoded, (addr, hash)| { encoded.push(if *hash >= 56 { addr.to_ascii_uppercase() as char } else { addr.to_ascii_lowercase() as char }); encoded }) } /// A bit of hack to find an unused TCP port. /// /// Does not guarantee that the given port is unused after the function exists, just that it was /// unused before the function started (i.e., it does not reserve a port). pub(crate) fn unused_port() -> u16 { let listener = std::net::TcpListener::bind("127.0.0.1:0") .expect("Failed to create TCP listener to find unused port"); let local_addr = listener .local_addr() .expect("Failed to read TCP listener local_addr to find unused port"); local_addr.port() } #[cfg(test)] mod tests { use super::*; #[test] fn wei_in_ether() { assert_eq!(WEI_IN_ETHER.as_u64(), 1e18 as u64); } #[test] fn test_format_units() { let gwei_in_ether = format_units(WEI_IN_ETHER, 9); assert_eq!(gwei_in_ether.as_u64(), 1e9 as u64); let eth = format_units(WEI_IN_ETHER, "ether"); assert_eq!(eth.as_u64(), 1); } #[test] fn test_parse_units() { let gwei = parse_units(1, 9).unwrap(); assert_eq!(gwei.as_u64(), 1e9 as u64); let eth = parse_units(1, "ether").unwrap(); assert_eq!(eth, WEI_IN_ETHER); } #[test] fn addr_checksum() { let addr_list = vec![ // mainnet ( None, "27b1fdb04752bbc536007a920d24acb045561c26", "0x27b1fdb04752bbc536007a920d24acb045561c26", ), ( None, "3599689e6292b81b2d85451025146515070129bb", "0x3599689E6292b81B2d85451025146515070129Bb", ), ( None, "42712d45473476b98452f434e72461577d686318", "0x42712D45473476b98452f434e72461577D686318", ), ( None, "52908400098527886e0f7030069857d2e4169ee7", "0x52908400098527886E0F7030069857D2E4169EE7", ), ( None, "5aaeb6053f3e94c9b9a09f33669435e7ef1beaed", "0x5aAeb6053F3E94C9b9A09f33669435E7Ef1BeAed", ), ( None, "6549f4939460de12611948b3f82b88c3c8975323", "0x6549f4939460DE12611948b3f82b88C3C8975323", ), ( None, "66f9664f97f2b50f62d13ea064982f936de76657", "0x66f9664f97F2b50F62D13eA064982f936dE76657", ), ( None, "88021160c5c792225e4e5452585947470010289d", "0x88021160C5C792225E4E5452585947470010289D", ), // rsk mainnet ( Some(30), "27b1fdb04752bbc536007a920d24acb045561c26", "0x27b1FdB04752BBc536007A920D24ACB045561c26", ), ( Some(30), "3599689e6292b81b2d85451025146515070129bb", "0x3599689E6292B81B2D85451025146515070129Bb", ), ( Some(30), "42712d45473476b98452f434e72461577d686318", "0x42712D45473476B98452f434E72461577d686318", ), ( Some(30), "52908400098527886e0f7030069857d2e4169ee7", "0x52908400098527886E0F7030069857D2E4169ee7", ), ( Some(30), "5aaeb6053f3e94c9b9a09f33669435e7ef1beaed", "0x5aaEB6053f3e94c9b9a09f33669435E7ef1bEAeD", ), ( Some(30), "6549f4939460de12611948b3f82b88c3c8975323", "0x6549F4939460DE12611948B3F82B88C3C8975323", ), ( Some(30), "66f9664f97f2b50f62d13ea064982f936de76657", "0x66F9664f97f2B50F62d13EA064982F936de76657", ), ]; for (chain_id, addr, checksummed_addr) in addr_list { let addr = addr.parse::
().unwrap(); assert_eq!(to_checksum(&addr, chain_id), String::from(checksummed_addr)); } } #[test] fn contract_address() { // http://ethereum.stackexchange.com/questions/760/how-is-the-address-of-an-ethereum-contract-computed let from = "6ac7ea33f8831ea9dcc53393aaa88b25a785dbf0" .parse::
() .unwrap(); for (nonce, expected) in [ "cd234a471b72ba2f1ccf0a70fcaba648a5eecd8d", "343c43a37d37dff08ae8c4a11544c718abb4fcf8", "f778b86fa74e846c4f0a1fbd1335fe81c00a0c91", "fffd933a0bc612844eaf0c6fe3e5b8e9b6c1d19c", ] .iter() .enumerate() { let address = get_contract_address(from, nonce); assert_eq!(address, expected.parse::
().unwrap()); } } #[test] // Test vectors from https://github.com/ethereum/EIPs/blob/master/EIPS/eip-1014.md#examples fn create2_address() { for (from, salt, init_code, expected) in &[ ( "0000000000000000000000000000000000000000", "0000000000000000000000000000000000000000000000000000000000000000", "00", "4D1A2e2bB4F88F0250f26Ffff098B0b30B26BF38", ), ( "deadbeef00000000000000000000000000000000", "0000000000000000000000000000000000000000000000000000000000000000", "00", "B928f69Bb1D91Cd65274e3c79d8986362984fDA3", ), ( "deadbeef00000000000000000000000000000000", "000000000000000000000000feed000000000000000000000000000000000000", "00", "D04116cDd17beBE565EB2422F2497E06cC1C9833", ), ( "0000000000000000000000000000000000000000", "0000000000000000000000000000000000000000000000000000000000000000", "deadbeef", "70f2b2914A2a4b783FaEFb75f459A580616Fcb5e", ), ( "00000000000000000000000000000000deadbeef", "00000000000000000000000000000000000000000000000000000000cafebabe", "deadbeef", "60f3f640a8508fC6a86d45DF051962668E1e8AC7", ), ( "00000000000000000000000000000000deadbeef", "00000000000000000000000000000000000000000000000000000000cafebabe", "deadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeefdeadbeef", "1d8bfDC5D46DC4f61D6b6115972536eBE6A8854C", ), ( "0000000000000000000000000000000000000000", "0000000000000000000000000000000000000000000000000000000000000000", "", "E33C0C7F7df4809055C3ebA6c09CFe4BaF1BD9e0", ), ] { let from = from.parse::
().unwrap(); let salt = hex::decode(salt).unwrap(); let init_code = hex::decode(init_code).unwrap(); let expected = expected.parse::
().unwrap(); assert_eq!(expected, get_create2_address(from, salt, init_code)) } } }