#![allow(missing_docs)] use std::fmt::{Debug, Display, Formatter}; use std::hash::{Hash, Hasher}; use num_derive::FromPrimitive; use num_traits::FromPrimitive; use strum::{EnumIter, EnumString, IntoStaticStr}; use crate::utils::many_to_one; use crate::{ChainResult, HyperlaneProtocolError, H160, H256}; #[derive(Debug, Clone)] pub struct Address(pub bytes::Bytes); #[derive(Debug, Clone)] pub struct Balance(pub num::BigInt); #[derive(Debug, Clone)] pub struct ContractLocator { pub domain: HyperlaneDomain, pub address: H256, } impl Display for ContractLocator { fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result { write!( f, "{}[@{}]+contract:0x{:x}", self.domain.name(), self.domain.id(), self.address ) } } #[async_trait::async_trait] pub trait Chain { /// Query the balance on a chain async fn query_balance(&self, addr: Address) -> ChainResult; } impl From
for H160 { fn from(addr: Address) -> Self { H160::from_slice(addr.0.as_ref()) } } impl From for Address { fn from(addr: H160) -> Self { Address(addr.as_bytes().to_owned().into()) } } impl From<&'_ Address> for H160 { fn from(addr: &Address) -> Self { H160::from_slice(addr.0.as_ref()) } } /// All domains supported by Hyperlane. #[derive( FromPrimitive, EnumString, IntoStaticStr, strum::Display, EnumIter, PartialEq, Eq, Debug, Clone, Copy, Hash, )] #[strum(serialize_all = "lowercase", ascii_case_insensitive)] pub enum KnownHyperlaneDomain { Ethereum = 1, Goerli = 5, Polygon = 137, Mumbai = 80001, Avalanche = 43114, Fuji = 43113, Arbitrum = 42161, ArbitrumGoerli = 421613, Optimism = 10, OptimismGoerli = 420, #[strum(serialize = "bsc")] BinanceSmartChain = 56, #[strum(serialize = "bsctestnet")] BinanceSmartChainTestnet = 97, Celo = 42220, Alfajores = 44787, Moonbeam = 1284, MoonbaseAlpha = 1287, Gnosis = 100, Zksync2Testnet = 280, // -- Local test chains -- /// Test1 local chain Test1 = 13371, /// Test2 local chain Test2 = 13372, /// Test3 local chain Test3 = 13373, /// Fuel1 local chain FuelTest1 = 13374, } #[derive(Clone)] pub enum HyperlaneDomain { Known(KnownHyperlaneDomain), Unknown { domain_id: u32, chain_name: String, domain_type: HyperlaneDomainType, domain_protocol: HyperlaneDomainProtocol, }, } /// Types of Hyperlane domains. #[derive( FromPrimitive, EnumString, IntoStaticStr, strum::Display, Copy, Clone, Eq, PartialEq, Debug, )] #[strum(serialize_all = "lowercase", ascii_case_insensitive)] pub enum HyperlaneDomainType { /// A mainnet. Mainnet, /// A testnet. Testnet, /// A local chain for testing (i.e. Hardhat node). LocalTestChain, /// User provided chain of an unknown domain type. Unknown, } /// A selector for which base library should handle this domain. #[derive( FromPrimitive, EnumString, IntoStaticStr, strum::Display, Copy, Clone, Eq, PartialEq, Debug, )] #[strum(serialize_all = "lowercase", ascii_case_insensitive)] pub enum HyperlaneDomainProtocol { /// An EVM-based chain type which uses hyperlane-ethereum. Ethereum, /// A Fuel-based chain type which uses hyperlane-fuel. Fuel, } impl HyperlaneDomainProtocol { pub fn fmt_address(&self, addr: H256) -> String { use HyperlaneDomainProtocol::*; match self { Ethereum => format!("{:?}", H160::from(addr)), Fuel => format!("{:?}", addr), } } } impl KnownHyperlaneDomain { pub fn as_str(self) -> &'static str { self.into() } pub const fn domain_type(self) -> HyperlaneDomainType { use self::{HyperlaneDomainType::*, KnownHyperlaneDomain::*}; many_to_one!(match self { Mainnet: [ Ethereum, Avalanche, Arbitrum, Polygon, Optimism, BinanceSmartChain, Celo, Moonbeam, Gnosis ], Testnet: [ Goerli, Mumbai, Fuji, ArbitrumGoerli, OptimismGoerli, BinanceSmartChainTestnet, Alfajores, MoonbaseAlpha, Zksync2Testnet ], LocalTestChain: [Test1, Test2, Test3, FuelTest1], }) } pub const fn domain_protocol(self) -> HyperlaneDomainProtocol { use KnownHyperlaneDomain::*; many_to_one!(match self { HyperlaneDomainProtocol::Ethereum: [ Ethereum, Goerli, Polygon, Mumbai, Avalanche, Fuji, Arbitrum, ArbitrumGoerli, Optimism, OptimismGoerli, BinanceSmartChain, BinanceSmartChainTestnet, Celo, Gnosis, Alfajores, Moonbeam, MoonbaseAlpha, Zksync2Testnet, Test1, Test2, Test3 ], HyperlaneDomainProtocol::Fuel: [FuelTest1], }) } } impl PartialEq for HyperlaneDomain { fn eq(&self, other: &Self) -> bool { self.id() == other.id() } } impl Eq for HyperlaneDomain {} impl Hash for HyperlaneDomain { fn hash(&self, state: &mut H) { self.id().hash(state) } } impl AsRef for HyperlaneDomain { fn as_ref(&self) -> &str { self.name() } } impl From<&HyperlaneDomain> for u32 { fn from(domain: &HyperlaneDomain) -> Self { domain.id() } } impl TryFrom for KnownHyperlaneDomain { type Error = HyperlaneProtocolError; fn try_from(domain_id: u32) -> Result { FromPrimitive::from_u32(domain_id).ok_or(HyperlaneProtocolError::UnknownDomainId(domain_id)) } } impl From<&HyperlaneDomain> for HyperlaneDomainType { fn from(d: &HyperlaneDomain) -> Self { d.domain_type() } } impl From<&HyperlaneDomain> for HyperlaneDomainProtocol { fn from(d: &HyperlaneDomain) -> Self { d.domain_protocol() } } impl Display for HyperlaneDomain { fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result { write!(f, "{}", self.name()) } } impl Debug for HyperlaneDomain { fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result { write!(f, "HyperlaneDomain({} ({}))", self.name(), self.id()) } } impl HyperlaneDomain { pub fn from_config( domain_id: u32, name: &str, protocol: HyperlaneDomainProtocol, ) -> Result { let name = name.to_ascii_lowercase(); if let Ok(domain) = KnownHyperlaneDomain::try_from(domain_id) { if name == domain.as_str() { Ok(HyperlaneDomain::Known(domain)) } else { Err("Chain name does not match the name of a known domain id; the chain name is probably misspelled.") } } else if name.as_str().parse::().is_ok() { Err("Chain name implies a different domain than the domain id provided; the domain id is probably wrong.") } else { Ok(HyperlaneDomain::Unknown { domain_id, chain_name: name, // we might want to support accepting these from the config later domain_type: HyperlaneDomainType::Unknown, domain_protocol: protocol, }) } } pub fn from_config_strs( domain_id: &str, name: &str, protocol: HyperlaneDomainProtocol, ) -> Result { HyperlaneDomain::from_config( domain_id .parse::() .map_err(|_| "Domain id is an invalid uint")?, name, protocol, ) } /// The chain name pub fn name(&self) -> &str { match self { HyperlaneDomain::Known(domain) => domain.as_str(), HyperlaneDomain::Unknown { chain_name, .. } => chain_name.as_str(), } } /// The domain id pub const fn id(&self) -> u32 { match self { HyperlaneDomain::Known(domain) => *domain as u32, HyperlaneDomain::Unknown { domain_id, .. } => *domain_id, } } /// Type of domain this is pub const fn domain_type(&self) -> HyperlaneDomainType { match self { HyperlaneDomain::Known(domain) => domain.domain_type(), HyperlaneDomain::Unknown { domain_type, .. } => *domain_type, } } /// Backend implementation for this domain pub const fn domain_protocol(&self) -> HyperlaneDomainProtocol { match self { HyperlaneDomain::Known(domain) => domain.domain_protocol(), HyperlaneDomain::Unknown { domain_protocol, .. } => *domain_protocol, } } } #[cfg(test)] mod tests { use std::collections::BTreeSet; use std::fs::read_to_string; use std::path::Path; use std::str::FromStr; use config::{Config, File, FileFormat}; use walkdir::WalkDir; use hyperlane_base::Settings; use crate::KnownHyperlaneDomain; /// Relative path to the `hyperlane-monorepo/rust/config/` /// directory, which is where the agent's config files /// currently live. const AGENT_CONFIG_PATH_ROOT: &str = "../config"; /// We will not include any file paths of config/settings files /// in the test suite if *any* substring of the file path matches /// against one of the strings included in the blacklist below. /// This is to ensure that e.g. when a backwards-incompatible /// change is made in config file format, and agents can't parse /// them anymore, we don't fail the test. (E.g. agents cannot /// currently parse the older files in `config/dev/` or /// `config/testnet`. const BLACKLISTED_DIRS: &[&str] = &[ // Ignore only-local names of fake chains used by // e.g. test suites. "test/test_config.json", ]; fn is_blacklisted(path: &Path) -> bool { BLACKLISTED_DIRS .iter() .any(|x| path.to_str().unwrap().contains(x)) } #[derive(Clone, Debug, Ord, PartialEq, PartialOrd, Eq, Hash)] struct ChainCoordinate { name: String, domain: u32, } fn config_paths(root: &Path) -> Vec { WalkDir::new(root) .min_depth(2) .into_iter() .filter_map(|x| x.ok()) .map(|x| x.into_path()) .filter(|x| !is_blacklisted(x)) .map(|x| x.into_os_string()) .filter_map(|x| x.into_string().ok()) .collect() } /// Provides a vector of parsed `hyperlane_base::Settings` objects /// built from all of the version-controlled agent configuration files. /// This is purely a utility to allow us to test a handful of critical /// properties related to those configs and shouldn't be used outside /// of a test env. This test simply tries to do some sanity checks /// against the integrity of that data. fn hyperlane_settings() -> Vec { let root = Path::new(AGENT_CONFIG_PATH_ROOT); let paths = config_paths(root); let files: Vec = paths .iter() .filter_map(|x| read_to_string(x).ok()) .collect(); paths .iter() .zip(files.iter()) .map(|(p, f)| { Config::builder() .add_source(File::from_str(f.as_str(), FileFormat::Json)) .build() .unwrap() .try_deserialize() .unwrap_or_else(|e| { panic!("!cfg({}): {:?}: {}", p, e, f); }) }) .collect() } fn chain_name_domain_records() -> BTreeSet { hyperlane_settings() .iter() .flat_map(|x: &Settings| { x.chains.iter().map(|(_, v)| ChainCoordinate { name: v.name.clone(), domain: v.domain.parse().unwrap(), }) }) .collect() } #[test] fn agent_json_config_consistency_checks() { // TODO(webbhorn): Also verify with this functionality // we have entries for all of the Gelato contract // addresses we need hardcoded in the binary for now. // Verify that the hard-coded, macro-maintained // mapping in `hyperlane-core/src/chain.rs` named // by the macro `domain_and_chain` is complete // and in agreement with our on-disk json-based // configuration data. let chain_coords = chain_name_domain_records(); for ChainCoordinate { name, domain } in chain_coords.into_iter() { assert_eq!( KnownHyperlaneDomain::try_from(domain).unwrap().to_string(), name ); assert_eq!( KnownHyperlaneDomain::from_str(&name).unwrap() as u32, domain ); } } #[test] fn domain_strings() { assert_eq!( KnownHyperlaneDomain::from_str("ethereum").unwrap(), KnownHyperlaneDomain::Ethereum, ); assert_eq!( KnownHyperlaneDomain::Ethereum.to_string(), "ethereum".to_string(), ); } #[test] fn domain_ids() { assert_eq!( KnownHyperlaneDomain::try_from(1).unwrap(), KnownHyperlaneDomain::Ethereum, ); assert_eq!(KnownHyperlaneDomain::Ethereum as u32, 1); } #[test] fn test_name_from_domain_id() { assert_eq!( KnownHyperlaneDomain::try_from(1).unwrap().to_string(), "ethereum" ); assert_eq!( KnownHyperlaneDomain::try_from(1).unwrap().as_str(), "ethereum" ); assert!(KnownHyperlaneDomain::try_from(0xf00u32).is_err()); } #[test] fn test_domain_id_from_name() { assert_eq!( "ethereum".parse::().map(|v| v as u32), Ok(1) ); assert_eq!( "EthEreum".parse::().map(|v| v as u32), Ok(1) ); assert_eq!( "Bsc".parse::().map(|v| v as u32), Ok(56) ); assert!("foo".parse::().is_err()); } }