lighthouse/testing/eth1_test_rig/src/lib.rs
realbigsean ae5b141dc4 Updates to tests and local testnet for Ganache 7 (#3056)
## Issue Addressed

#2961

## Proposed Changes

-- update `--chainId` -> `--chain.chainId`
-- remove `--keepAliveTimeout`
-- fix log to listen for
-- rename `ganache-cli` to `ganache` everywhere


Co-authored-by: realbigsean <sean@sigmaprime.io>
2022-03-20 22:48:14 +00:00

294 lines
9.2 KiB
Rust

//! Provides utilities for deploying and manipulating the eth2 deposit contract on the eth1 chain.
//!
//! Presently used with [`ganache`](https://github.com/trufflesuite/ganache) to simulate
//! the deposit contract for testing beacon node eth1 integration.
//!
//! Not tested to work with actual clients (e.g., geth). It should work fine, however there may be
//! some initial issues.
mod ganache;
use deposit_contract::{
encode_eth1_tx_data, testnet, ABI, BYTECODE, CONTRACT_DEPLOY_GAS, DEPOSIT_GAS,
};
use ganache::GanacheInstance;
use std::time::Duration;
use tokio::time::sleep;
use types::DepositData;
use types::{test_utils::generate_deterministic_keypair, EthSpec, Hash256, Keypair, Signature};
use web3::contract::{Contract, Options};
use web3::transports::Http;
use web3::types::{Address, TransactionRequest, U256};
use web3::Web3;
pub const DEPLOYER_ACCOUNTS_INDEX: usize = 0;
pub const DEPOSIT_ACCOUNTS_INDEX: usize = 0;
/// Provides a dedicated ganache instance with the deposit contract already deployed.
pub struct GanacheEth1Instance {
pub ganache: GanacheInstance,
pub deposit_contract: DepositContract,
}
impl GanacheEth1Instance {
pub async fn new(network_id: u64, chain_id: u64) -> Result<Self, String> {
let ganache = GanacheInstance::new(network_id, chain_id)?;
DepositContract::deploy(ganache.web3.clone(), 0, None)
.await
.map(|deposit_contract| Self {
ganache,
deposit_contract,
})
}
pub fn endpoint(&self) -> String {
self.ganache.endpoint()
}
pub fn web3(&self) -> Web3<Http> {
self.ganache.web3.clone()
}
}
/// Deploys and provides functions for the eth2 deposit contract, deployed on the eth1 chain.
#[derive(Clone, Debug)]
pub struct DepositContract {
web3: Web3<Http>,
contract: Contract<Http>,
}
impl DepositContract {
pub async fn deploy(
web3: Web3<Http>,
confirmations: usize,
password: Option<String>,
) -> Result<Self, String> {
Self::deploy_bytecode(web3, confirmations, BYTECODE, ABI, password).await
}
pub async fn deploy_testnet(
web3: Web3<Http>,
confirmations: usize,
password: Option<String>,
) -> Result<Self, String> {
Self::deploy_bytecode(
web3,
confirmations,
testnet::BYTECODE,
testnet::ABI,
password,
)
.await
}
async fn deploy_bytecode(
web3: Web3<Http>,
confirmations: usize,
bytecode: &[u8],
abi: &[u8],
password: Option<String>,
) -> Result<Self, String> {
let address = deploy_deposit_contract(
web3.clone(),
confirmations,
bytecode.to_vec(),
abi.to_vec(),
password,
)
.await
.map_err(|e| {
format!(
"Failed to deploy contract: {}. Is scripts/ganache_tests_node.sh running?.",
e
)
})?;
Contract::from_json(web3.clone().eth(), address, ABI)
.map_err(|e| format!("Failed to init contract: {:?}", e))
.map(move |contract| Self { web3, contract })
}
/// The deposit contract's address in `0x00ab...` format.
pub fn address(&self) -> String {
format!("0x{:x}", self.contract.address())
}
/// A helper to return a fully-formed `DepositData`. Does not submit the deposit data to the
/// smart contact.
pub fn deposit_helper<E: EthSpec>(
&self,
keypair: Keypair,
withdrawal_credentials: Hash256,
amount: u64,
) -> DepositData {
let mut deposit = DepositData {
pubkey: keypair.pk.into(),
withdrawal_credentials,
amount,
signature: Signature::empty().into(),
};
deposit.signature = deposit.create_signature(&keypair.sk, &E::default_spec());
deposit
}
/// Creates a random, valid deposit and submits it to the deposit contract.
///
/// The keypairs are created randomly and destroyed.
pub async fn deposit_random<E: EthSpec>(&self) -> Result<(), String> {
let keypair = Keypair::random();
let mut deposit = DepositData {
pubkey: keypair.pk.into(),
withdrawal_credentials: Hash256::zero(),
amount: 32_000_000_000,
signature: Signature::empty().into(),
};
deposit.signature = deposit.create_signature(&keypair.sk, &E::default_spec());
self.deposit(deposit).await
}
/// Perfoms a blocking deposit.
pub async fn deposit(&self, deposit_data: DepositData) -> Result<(), String> {
self.deposit_async(deposit_data)
.await
.map_err(|e| format!("Deposit failed: {:?}", e))
}
pub async fn deposit_deterministic_async<E: EthSpec>(
&self,
keypair_index: usize,
amount: u64,
) -> Result<(), String> {
let keypair = generate_deterministic_keypair(keypair_index);
let mut deposit = DepositData {
pubkey: keypair.pk.into(),
withdrawal_credentials: Hash256::zero(),
amount,
signature: Signature::empty().into(),
};
deposit.signature = deposit.create_signature(&keypair.sk, &E::default_spec());
self.deposit_async(deposit).await
}
/// Performs a non-blocking deposit.
pub async fn deposit_async(&self, deposit_data: DepositData) -> Result<(), String> {
let from = self
.web3
.eth()
.accounts()
.await
.map_err(|e| format!("Failed to get accounts: {:?}", e))
.and_then(|accounts| {
accounts
.get(DEPOSIT_ACCOUNTS_INDEX)
.cloned()
.ok_or_else(|| "Insufficient accounts for deposit".to_string())
})?;
let tx_request = TransactionRequest {
from,
to: Some(self.contract.address()),
gas: Some(U256::from(DEPOSIT_GAS)),
gas_price: None,
value: Some(from_gwei(deposit_data.amount)),
// Note: the reason we use this `TransactionRequest` instead of just using the
// function in `self.contract` is so that the `eth1_tx_data` function gets used
// during testing.
//
// It's important that `eth1_tx_data` stays correct and does not suffer from
// code-rot.
data: encode_eth1_tx_data(&deposit_data).map(Into::into).ok(),
nonce: None,
condition: None,
transaction_type: None,
access_list: None,
};
self.web3
.eth()
.send_transaction(tx_request)
.await
.map_err(|e| format!("Failed to call deposit fn: {:?}", e))?;
Ok(())
}
/// Peforms many deposits, each preceded by a delay.
pub async fn deposit_multiple(&self, deposits: Vec<DelayThenDeposit>) -> Result<(), String> {
for deposit in deposits.into_iter() {
sleep(deposit.delay).await;
self.deposit_async(deposit.deposit).await?;
}
Ok(())
}
}
/// Describes a deposit and a delay that should should precede it's submission to the deposit
/// contract.
#[derive(Clone)]
pub struct DelayThenDeposit {
/// Wait this duration ...
pub delay: Duration,
/// ... then submit this deposit.
pub deposit: DepositData,
}
fn from_gwei(gwei: u64) -> U256 {
U256::from(gwei) * U256::exp10(9)
}
/// Deploys the deposit contract to the given web3 instance using the account with index
/// `DEPLOYER_ACCOUNTS_INDEX`.
async fn deploy_deposit_contract(
web3: Web3<Http>,
confirmations: usize,
bytecode: Vec<u8>,
abi: Vec<u8>,
password_opt: Option<String>,
) -> Result<Address, String> {
let bytecode = String::from_utf8(bytecode).expect("bytecode must be valid utf8");
let from_address = web3
.eth()
.accounts()
.await
.map_err(|e| format!("Failed to get accounts: {:?}", e))
.and_then(|accounts| {
accounts
.get(DEPLOYER_ACCOUNTS_INDEX)
.cloned()
.ok_or_else(|| "Insufficient accounts for deployer".to_string())
})?;
let deploy_address = if let Some(password) = password_opt {
let result = web3
.personal()
.unlock_account(from_address, &password, None)
.await;
match result {
Ok(true) => return Ok(from_address),
Ok(false) => return Err("Eth1 node refused to unlock account".to_string()),
Err(e) => return Err(format!("Eth1 unlock request failed: {:?}", e)),
};
} else {
from_address
};
let pending_contract = Contract::deploy(web3.eth(), &abi)
.map_err(|e| format!("Unable to build contract deployer: {:?}", e))?
.confirmations(confirmations)
.options(Options {
gas: Some(U256::from(CONTRACT_DEPLOY_GAS)),
..Options::default()
})
.execute(bytecode, (), deploy_address);
pending_contract
.await
.map(|contract| contract.address())
.map_err(|e| format!("Unable to resolve pending contract: {:?}", e))
}