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lighthouse/common/eth2_network_config/src/lib.rs
Paul Hauner 6a0e9d4353 Add Goerli --network flag as duplicate of Prater: Option A (#3346) 
## Issue Addressed

- Resolves #3338

## Proposed Changes

This PR adds a new `--network goerli` flag that reuses the [Prater network configs](https://github.com/sigp/lighthouse/tree/stable/common/eth2_network_config/built_in_network_configs/prater).

As you'll see in #3338, there are several approaches to the problem of the Goerli/Prater alias. This approach achieves:

1. No duplication of the genesis state between Goerli and Prater.
    - Upside: the genesis state for Prater is ~17mb, duplication would increase the size of the binary by that much.
2. When the user supplies `--network goerli`, they will get a datadir in `~/.lighthouse/goerli`.
    - Upside: our docs stay correct when they declare a datadir is located at `~/.lighthouse/{network}`
    - Downside: switching from `--network prater` to `--network goerli` will require some manual migration. 
3. When using `--network goerli`, the [`config/spec`](https://ethereum.github.io/beacon-APIs/#/Config/getSpec) endpoint will return a [`CONFIG_NAME`](02a2b71d64/configs/mainnet.yaml (L11)) of "prater".
    - Upside: VC running `--network prater` will still think it's on the same network as one using `--network goerli`.
    - Downside: potentially confusing.
    
#3348 achieves the same goal as this PR with a different approach and set of trade-offs.

## Additional Info

### Notes for reviewers:

In e4896c2682 you'll see that I remove the `$name_str` by just using `stringify!($name_ident)` instead. This is a simplification that should have have been there in the first place.

Then, in 90b5e22fca I reclaim that second parameter with a new purpose; to specify the directory from which to load configs.
2022-07-20 23:16:56 +00:00

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//! Provides the `Eth2NetworkConfig` struct which defines the configuration of an eth2 network or
//! test-network (aka "testnet").
//!
//! Whilst the `Eth2NetworkConfig` struct can be used to read a specification from a directory at
//! runtime, this crate also includes some pre-defined network configurations "built-in" to the
//! binary itself (the most notable of these being the "mainnet" configuration). When a network is
//! "built-in", the genesis state and configuration files is included in the final binary via the
//! `std::include_bytes` macro. This provides convenience to the user, the binary is self-sufficient
//! and does not require the configuration to be read from the filesystem at runtime.
//!
//! To add a new built-in testnet, add it to the `define_hardcoded_nets` invocation in the `eth2_config`
//! crate.
use enr::{CombinedKey, Enr};
use eth2_config::{instantiate_hardcoded_nets, HardcodedNet};
use std::fs::{create_dir_all, File};
use std::io::{Read, Write};
use std::path::PathBuf;
use types::{BeaconState, ChainSpec, Config, EthSpec, EthSpecId};
pub const DEPLOY_BLOCK_FILE: &str = "deploy_block.txt";
pub const BOOT_ENR_FILE: &str = "boot_enr.yaml";
pub const GENESIS_STATE_FILE: &str = "genesis.ssz";
pub const BASE_CONFIG_FILE: &str = "config.yaml";
// Creates definitions for:
//
// - Each of the `HardcodedNet` values (e.g., `MAINNET`, `PRATER`, etc).
// - `HARDCODED_NETS: &[HardcodedNet]`
// - `HARDCODED_NET_NAMES: &[&'static str]`
instantiate_hardcoded_nets!(eth2_config);
pub const DEFAULT_HARDCODED_NETWORK: &str = "mainnet";
/// Specifies an Eth2 network.
///
/// See the crate-level documentation for more details.
#[derive(Clone, PartialEq, Debug)]
pub struct Eth2NetworkConfig {
/// Note: instead of the block where the contract is deployed, it is acceptable to set this
/// value to be the block number where the first deposit occurs.
pub deposit_contract_deploy_block: u64,
pub boot_enr: Option<Vec<Enr<CombinedKey>>>,
pub genesis_state_bytes: Option<Vec<u8>>,
pub config: Config,
}
impl Eth2NetworkConfig {
/// When Lighthouse is built it includes zero or more "hardcoded" network specifications. This
/// function allows for instantiating one of these nets by name.
pub fn constant(name: &str) -> Result<Option<Self>, String> {
HARDCODED_NETS
.iter()
.find(|net| net.name == name)
.map(Self::from_hardcoded_net)
.transpose()
}
/// Instantiates `Self` from a `HardcodedNet`.
fn from_hardcoded_net(net: &HardcodedNet) -> Result<Self, String> {
Ok(Self {
deposit_contract_deploy_block: serde_yaml::from_reader(net.deploy_block)
.map_err(|e| format!("Unable to parse deploy block: {:?}", e))?,
boot_enr: Some(
serde_yaml::from_reader(net.boot_enr)
.map_err(|e| format!("Unable to parse boot enr: {:?}", e))?,
),
genesis_state_bytes: Some(net.genesis_state_bytes.to_vec())
.filter(|bytes| !bytes.is_empty()),
config: serde_yaml::from_reader(net.config)
.map_err(|e| format!("Unable to parse yaml config: {:?}", e))?,
})
}
/// Returns an identifier that should be used for selecting an `EthSpec` instance for this
/// network configuration.
pub fn eth_spec_id(&self) -> Result<EthSpecId, String> {
self.config
.eth_spec_id()
.ok_or_else(|| "Config does not match any known preset".to_string())
}
/// Returns `true` if this configuration contains a `BeaconState`.
pub fn beacon_state_is_known(&self) -> bool {
self.genesis_state_bytes.is_some()
}
/// Construct a consolidated `ChainSpec` from the YAML config.
pub fn chain_spec<E: EthSpec>(&self) -> Result<ChainSpec, String> {
ChainSpec::from_config::<E>(&self.config).ok_or_else(|| {
format!(
"YAML configuration incompatible with spec constants for {}",
E::spec_name()
)
})
}
/// Attempts to deserialize `self.beacon_state`, returning an error if it's missing or invalid.
pub fn beacon_state<E: EthSpec>(&self) -> Result<BeaconState<E>, String> {
let spec = self.chain_spec::<E>()?;
let genesis_state_bytes = self
.genesis_state_bytes
.as_ref()
.ok_or("Genesis state is unknown")?;
BeaconState::from_ssz_bytes(genesis_state_bytes, &spec)
.map_err(|e| format!("Genesis state SSZ bytes are invalid: {:?}", e))
}
/// Write the files to the directory.
///
/// Overwrites files if specified to do so.
pub fn write_to_file(&self, base_dir: PathBuf, overwrite: bool) -> Result<(), String> {
if base_dir.exists() && !overwrite {
return Err("Network directory already exists".to_string());
}
self.force_write_to_file(base_dir)
}
/// Write the files to the directory, even if the directory already exists.
pub fn force_write_to_file(&self, base_dir: PathBuf) -> Result<(), String> {
create_dir_all(&base_dir)
.map_err(|e| format!("Unable to create testnet directory: {:?}", e))?;
macro_rules! write_to_yaml_file {
($file: ident, $variable: expr) => {
File::create(base_dir.join($file))
.map_err(|e| format!("Unable to create {}: {:?}", $file, e))
.and_then(|mut file| {
let yaml = serde_yaml::to_string(&$variable)
.map_err(|e| format!("Unable to YAML encode {}: {:?}", $file, e))?;
// Remove the doc header from the YAML file.
//
// This allows us to play nice with other clients that are expecting
// plain-text, not YAML.
let no_doc_header = if let Some(stripped) = yaml.strip_prefix("---\n") {
stripped
} else {
&yaml
};
file.write_all(no_doc_header.as_bytes())
.map_err(|e| format!("Unable to write {}: {:?}", $file, e))
})?;
};
}
write_to_yaml_file!(DEPLOY_BLOCK_FILE, self.deposit_contract_deploy_block);
if let Some(boot_enr) = &self.boot_enr {
write_to_yaml_file!(BOOT_ENR_FILE, boot_enr);
}
write_to_yaml_file!(BASE_CONFIG_FILE, &self.config);
// The genesis state is a special case because it uses SSZ, not YAML.
if let Some(genesis_state_bytes) = &self.genesis_state_bytes {
let file = base_dir.join(GENESIS_STATE_FILE);
File::create(&file)
.map_err(|e| format!("Unable to create {:?}: {:?}", file, e))
.and_then(|mut file| {
file.write_all(genesis_state_bytes)
.map_err(|e| format!("Unable to write {:?}: {:?}", file, e))
})?;
}
Ok(())
}
pub fn load(base_dir: PathBuf) -> Result<Self, String> {
macro_rules! load_from_file {
($file: ident) => {
File::open(base_dir.join($file))
.map_err(|e| format!("Unable to open {}: {:?}", $file, e))
.and_then(|file| {
serde_yaml::from_reader(file)
.map_err(|e| format!("Unable to parse {}: {:?}", $file, e))
})?
};
}
macro_rules! optional_load_from_file {
($file: ident) => {
if base_dir.join($file).exists() {
Some(load_from_file!($file))
} else {
None
}
};
}
let deposit_contract_deploy_block = load_from_file!(DEPLOY_BLOCK_FILE);
let boot_enr = optional_load_from_file!(BOOT_ENR_FILE);
let config = load_from_file!(BASE_CONFIG_FILE);
// The genesis state is a special case because it uses SSZ, not YAML.
let genesis_file_path = base_dir.join(GENESIS_STATE_FILE);
let genesis_state_bytes = if genesis_file_path.exists() {
let mut bytes = vec![];
File::open(&genesis_file_path)
.map_err(|e| format!("Unable to open {:?}: {:?}", genesis_file_path, e))
.and_then(|mut file| {
file.read_to_end(&mut bytes)
.map_err(|e| format!("Unable to read {:?}: {:?}", file, e))
})?;
Some(bytes).filter(|bytes| !bytes.is_empty())
} else {
None
};
Ok(Self {
deposit_contract_deploy_block,
boot_enr,
genesis_state_bytes,
config,
})
}
}
#[cfg(test)]
mod tests {
use super::*;
use ssz::Encode;
use tempfile::Builder as TempBuilder;
use types::{Config, Eth1Data, GnosisEthSpec, Hash256, MainnetEthSpec, GNOSIS};
type E = MainnetEthSpec;
#[test]
fn default_network_exists() {
assert!(HARDCODED_NET_NAMES.contains(&DEFAULT_HARDCODED_NETWORK));
}
#[test]
fn hardcoded_testnet_names() {
assert_eq!(HARDCODED_NET_NAMES.len(), HARDCODED_NETS.len());
for (name, net) in HARDCODED_NET_NAMES.iter().zip(HARDCODED_NETS.iter()) {
assert_eq!(name, &net.name);
}
}
#[test]
fn mainnet_config_eq_chain_spec() {
let config = Eth2NetworkConfig::from_hardcoded_net(&MAINNET).unwrap();
let spec = ChainSpec::mainnet();
assert_eq!(spec, config.chain_spec::<E>().unwrap());
}
#[test]
fn mainnet_genesis_state() {
let config = Eth2NetworkConfig::from_hardcoded_net(&MAINNET).unwrap();
config.beacon_state::<E>().expect("beacon state can decode");
}
#[test]
fn prater_and_goerli_are_equal() {
let goerli = Eth2NetworkConfig::from_hardcoded_net(&GOERLI).unwrap();
let prater = Eth2NetworkConfig::from_hardcoded_net(&PRATER).unwrap();
assert_eq!(goerli, prater);
}
#[test]
fn hard_coded_nets_work() {
for net in HARDCODED_NETS {
let config = Eth2NetworkConfig::from_hardcoded_net(net)
.unwrap_or_else(|_| panic!("{:?}", net.name));
// Ensure we can parse the YAML config to a chain spec.
if net.name == GNOSIS {
config.chain_spec::<GnosisEthSpec>().unwrap();
} else {
config.chain_spec::<MainnetEthSpec>().unwrap();
}
assert_eq!(
config.genesis_state_bytes.is_some(),
net.genesis_is_known,
"{:?}",
net.name
);
assert_eq!(config.config.config_name, Some(net.config_dir.to_string()));
}
}
#[test]
fn round_trip() {
let spec = &E::default_spec();
let eth1_data = Eth1Data {
deposit_root: Hash256::zero(),
deposit_count: 0,
block_hash: Hash256::zero(),
};
// TODO: figure out how to generate ENR and add some here.
let boot_enr = None;
let genesis_state = Some(BeaconState::new(42, eth1_data, spec));
let config = Config::from_chain_spec::<E>(spec);
do_test::<E>(boot_enr, genesis_state, config.clone());
do_test::<E>(None, None, config);
}
fn do_test<E: EthSpec>(
boot_enr: Option<Vec<Enr<CombinedKey>>>,
genesis_state: Option<BeaconState<E>>,
config: Config,
) {
let temp_dir = TempBuilder::new()
.prefix("eth2_testnet_test")
.tempdir()
.expect("should create temp dir");
let base_dir = temp_dir.path().join("my_testnet");
let deposit_contract_deploy_block = 42;
let testnet: Eth2NetworkConfig = Eth2NetworkConfig {
deposit_contract_deploy_block,
boot_enr,
genesis_state_bytes: genesis_state.as_ref().map(Encode::as_ssz_bytes),
config,
};
testnet
.write_to_file(base_dir.clone(), false)
.expect("should write to file");
let decoded = Eth2NetworkConfig::load(base_dir).expect("should load struct");
assert_eq!(testnet, decoded, "should decode as encoded");
}
}
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