ethers-rs/ethers-contract/src/base.rs

344 lines
12 KiB
Rust

use crate::contract::ContractInstance;
pub use ethers_core::abi::AbiError;
use ethers_core::{
abi::{Abi, Detokenize, Error, Event, Function, FunctionExt, RawLog, Token, Tokenize},
types::{Address, Bytes, Selector, H256},
};
use ethers_providers::Middleware;
use std::{
borrow::Borrow,
collections::{BTreeMap, HashMap},
fmt::Debug,
hash::Hash,
};
/// A reduced form of `Contract` which just takes the `abi` and produces
/// ABI encoded data for its functions.
#[derive(Debug, Clone)]
pub struct BaseContract {
pub(crate) abi: Abi,
/// A mapping from method signature to a name-index pair for accessing
/// functions in the contract ABI. This is used to avoid allocation when
/// searching for matching functions by signature.
// Adapted from: <https://github.com/gnosis/ethcontract-rs/blob/master/src/contract.rs>
pub methods: HashMap<Selector, (String, usize)>,
}
impl From<Abi> for BaseContract {
/// Creates a new `BaseContract` from the abi.
fn from(abi: Abi) -> Self {
let methods = create_mapping(&abi.functions, |function| function.selector());
Self { abi, methods }
}
}
impl BaseContract {
/// Returns the ABI encoded data for the provided function and arguments
///
/// If the function exists multiple times and you want to use one of the overloaded
/// versions, consider using `encode_with_selector`
pub fn encode<T: Tokenize>(&self, name: &str, args: T) -> Result<Bytes, AbiError> {
let function = self.abi.function(name)?;
encode_function_data(function, args)
}
/// Returns the ABI encoded data for the provided function selector and arguments
pub fn encode_with_selector<T: Tokenize>(
&self,
signature: Selector,
args: T,
) -> Result<Bytes, AbiError> {
let function = self.get_from_signature(signature)?;
encode_function_data(function, args)
}
/// Decodes the provided ABI encoded function arguments with the selected function name.
///
/// If the function exists multiple times and you want to use one of the overloaded
/// versions, consider using `decode_with_selector`
pub fn decode<D: Detokenize, T: AsRef<[u8]>>(
&self,
name: &str,
bytes: T,
) -> Result<D, AbiError> {
let function = self.abi.function(name)?;
decode_function_data(function, bytes, true)
}
/// Decodes the provided ABI encoded function arguments with the selected function name.
///
/// If the function exists multiple times and you want to use one of the overloaded
/// versions, consider using `decode_with_selector`
///
/// Returns a [`Token`] vector, which lets you decode function arguments dynamically
/// without knowing the return type.
pub fn decode_raw<T: AsRef<[u8]>>(&self, name: &str, bytes: T) -> Result<Vec<Token>, AbiError> {
let function = self.abi.function(name)?;
decode_function_data_raw(function, bytes, true)
}
/// Decodes the provided ABI encoded function output with the selected function name.
///
/// If the function exists multiple times and you want to use one of the overloaded
/// versions, consider using `decode_with_selector`
pub fn decode_output<D: Detokenize, T: AsRef<[u8]>>(
&self,
name: &str,
bytes: T,
) -> Result<D, AbiError> {
let function = self.abi.function(name)?;
decode_function_data(function, bytes, false)
}
/// Decodes the provided ABI encoded function output with the selected function name.
///
/// If the function exists multiple times and you want to use one of the overloaded
/// versions, consider using `decode_with_selector`
///
/// Returns a [`Token`] vector, which lets you decode function arguments dynamically
/// without knowing the return type.
pub fn decode_output_raw<T: AsRef<[u8]>>(
&self,
name: &str,
bytes: T,
) -> Result<Vec<Token>, AbiError> {
let function = self.abi.function(name)?;
decode_function_data_raw(function, bytes, false)
}
/// Decodes for a given event name, given the `log.topics` and
/// `log.data` fields from the transaction receipt
pub fn decode_event<D: Detokenize>(
&self,
name: &str,
topics: Vec<H256>,
data: Bytes,
) -> Result<D, AbiError> {
let event = self.abi.event(name)?;
decode_event(event, topics, data)
}
/// Decodes for a given event name, given the `log.topics` and
/// `log.data` fields from the transaction receipt
///
/// Returns a [`Token`] vector, which lets you decode function arguments dynamically
/// without knowing the return type.
pub fn decode_event_raw(
&self,
name: &str,
topics: Vec<H256>,
data: Bytes,
) -> Result<Vec<Token>, AbiError> {
let event = self.abi.event(name)?;
decode_event_raw(event, topics, data)
}
/// Decodes the provided ABI encoded bytes with the selected function selector
///
/// Returns a [`Token`] vector, which lets you decode function arguments dynamically
/// without knowing the return type.
pub fn decode_with_selector_raw<T: AsRef<[u8]>>(
&self,
signature: Selector,
bytes: T,
) -> Result<Vec<Token>, AbiError> {
let function = self.get_from_signature(signature)?;
decode_function_data_raw(function, bytes, true)
}
/// Decodes the provided ABI encoded bytes with the selected function selector
pub fn decode_with_selector<D: Detokenize, T: AsRef<[u8]>>(
&self,
signature: Selector,
bytes: T,
) -> Result<D, AbiError> {
let function = self.get_from_signature(signature)?;
decode_function_data(function, bytes, true)
}
/// Decode the provided ABI encoded bytes as the output of the provided
/// function selector
pub fn decode_output_with_selector<D: Detokenize, T: AsRef<[u8]>>(
&self,
signature: Selector,
bytes: T,
) -> Result<D, AbiError> {
let function = self.get_from_signature(signature)?;
decode_function_data(function, bytes, false)
}
/// Decodes the provided ABI encoded bytes with the selected function selector
///
/// Returns a [`Token`] vector, which lets you decode function arguments dynamically
/// without knowing the return type.
pub fn decode_output_with_selector_raw<T: AsRef<[u8]>>(
&self,
signature: Selector,
bytes: T,
) -> Result<Vec<Token>, AbiError> {
let function = self.get_from_signature(signature)?;
decode_function_data_raw(function, bytes, false)
}
fn get_from_signature(&self, signature: Selector) -> Result<&Function, AbiError> {
Ok(self
.methods
.get(&signature)
.map(|(name, index)| &self.abi.functions[name][*index])
.ok_or_else(|| Error::InvalidName(hex::encode(signature)))?)
}
/// Returns a reference to the contract's ABI
pub fn abi(&self) -> &Abi {
&self.abi
}
/// Upgrades a `BaseContract` into a full fledged contract with an address and middleware.
pub fn into_contract<B, M>(self, address: Address, client: B) -> ContractInstance<B, M>
where
B: Borrow<M>,
M: Middleware,
{
ContractInstance::new(address, self, client)
}
}
impl AsRef<Abi> for BaseContract {
fn as_ref(&self) -> &Abi {
self.abi()
}
}
pub fn decode_event_raw(
event: &Event,
topics: Vec<H256>,
data: Bytes,
) -> Result<Vec<Token>, AbiError> {
Ok(event
.parse_log(RawLog { topics, data: data.to_vec() })?
.params
.into_iter()
.map(|param| param.value)
.collect::<Vec<_>>())
}
pub fn decode_event<D: Detokenize>(
event: &Event,
topics: Vec<H256>,
data: Bytes,
) -> Result<D, AbiError> {
let tokens = decode_event_raw(event, topics, data)?;
Ok(D::from_tokens(tokens)?)
}
/// Helper for ABI encoding arguments for a specific function
pub fn encode_function_data<T: Tokenize>(function: &Function, args: T) -> Result<Bytes, AbiError> {
let tokens = args.into_tokens();
Ok(function.encode_input(&tokens).map(Into::into)?)
}
/// Helper for ABI decoding raw data based on a function's input or output.
pub fn decode_function_data_raw<T: AsRef<[u8]>>(
function: &Function,
bytes: T,
is_input: bool,
) -> Result<Vec<Token>, AbiError> {
let bytes = bytes.as_ref();
Ok(if is_input {
if bytes.len() < 4 || bytes[..4] != function.selector() {
return Err(AbiError::WrongSelector)
}
function.decode_input(&bytes[4..])?
} else {
function.decode_output(bytes)?
})
}
/// Helper for ABI decoding raw data based on a function's input or output.
pub fn decode_function_data<D: Detokenize, T: AsRef<[u8]>>(
function: &Function,
bytes: T,
is_input: bool,
) -> Result<D, AbiError> {
let tokens = decode_function_data_raw(function, bytes, is_input)?;
Ok(D::from_tokens(tokens)?)
}
/// Utility function for creating a mapping between a unique signature and a
/// name-index pair for accessing contract ABI items.
fn create_mapping<T, S, F>(
elements: &BTreeMap<String, Vec<T>>,
signature: F,
) -> HashMap<S, (String, usize)>
where
S: Hash + Eq,
F: Fn(&T) -> S,
{
let signature = &signature;
elements
.iter()
.flat_map(|(name, sub_elements)| {
sub_elements
.iter()
.enumerate()
.map(move |(index, element)| (signature(element), (name.to_owned(), index)))
})
.collect()
}
#[cfg(test)]
mod tests {
use super::*;
use ethers_core::{abi::parse_abi, types::U256};
#[test]
fn can_parse_function_inputs() {
let abi = BaseContract::from(parse_abi(&[
"function approve(address _spender, uint256 value) external view returns (bool, bool)"
]).unwrap());
let spender = "7a250d5630b4cf539739df2c5dacb4c659f2488d".parse::<Address>().unwrap();
let amount = U256::MAX;
let encoded = abi.encode("approve", (spender, amount)).unwrap();
assert_eq!(hex::encode(&encoded), "095ea7b30000000000000000000000007a250d5630b4cf539739df2c5dacb4c659f2488dffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff");
let (spender2, amount2): (Address, U256) = abi.decode("approve", encoded).unwrap();
assert_eq!(spender, spender2);
assert_eq!(amount, amount2);
}
#[test]
fn can_parse_events() {
let abi = BaseContract::from(
parse_abi(&[
"event Approval(address indexed owner, address indexed spender, uint256 value)",
])
.unwrap(),
);
let topics = vec![
"8c5be1e5ebec7d5bd14f71427d1e84f3dd0314c0f7b2291e5b200ac8c7c3b925",
"000000000000000000000000e4e60fdf9bf188fa57b7a5022230363d5bd56d08",
"0000000000000000000000007a250d5630b4cf539739df2c5dacb4c659f2488d",
]
.into_iter()
.map(|hash| hash.parse::<H256>().unwrap())
.collect::<Vec<_>>();
let data = Bytes::from(
hex::decode("ffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffff")
.unwrap(),
);
let (owner, spender, value): (Address, Address, U256) =
abi.decode_event("Approval", topics, data).unwrap();
assert_eq!(value, U256::MAX);
assert_eq!(owner, "e4e60fdf9bf188fa57b7a5022230363d5bd56d08".parse::<Address>().unwrap());
assert_eq!(spender, "7a250d5630b4cf539739df2c5dacb4c659f2488d".parse::<Address>().unwrap());
}
}