#![allow(clippy::field_reassign_with_default)] use crate::ZgsConfig; use ethereum_types::{H256, U256}; use ethers::prelude::{Http, Middleware, Provider}; use log_entry_sync::{CacheConfig, ContractAddress, LogSyncConfig}; use miner::MinerConfig; use network::{EnrExt, NetworkConfig}; use pruner::PrunerConfig; use shared_types::{NetworkIdentity, ProtocolVersion}; use std::net::IpAddr; use std::sync::Arc; use std::time::Duration; use storage::config::ShardConfig; use storage::log_store::log_manager::LogConfig; use storage::StorageConfig; impl ZgsConfig { pub async fn network_config(&self) -> Result { let mut network_config = NetworkConfig::default(); network_config.listen_address = self .network_listen_address .parse::() .map_err(|e| format!("Unable to parse network_listen_address: {:?}", e))?; network_config.network_dir = self.network_dir.clone().into(); network_config.libp2p_port = self.network_libp2p_port; network_config.disable_discovery = self.network_disable_discovery; network_config.discovery_port = self.network_discovery_port; let flow_address = self .log_contract_address .parse::() .map_err(|e| format!("Unable to parse log_contract_address: {:?}", e))?; let provider = Provider::::try_from(&self.blockchain_rpc_endpoint) .map_err(|e| format!("Can not parse blockchain endpoint: {:?}", e))?; let chain_id = provider .get_chainid() .await .map_err(|e| format!("Unable to get chain id: {:?}", e))? .as_u64(); let local_network_id = NetworkIdentity { chain_id, flow_address, p2p_protocol_version: ProtocolVersion { major: network::PROTOCOL_VERSION[0], minor: network::PROTOCOL_VERSION[1], build: network::PROTOCOL_VERSION[2], }, }; network_config.network_id = local_network_id.clone(); if !self.network_disable_discovery { network_config.enr_tcp_port = Some(self.network_enr_tcp_port); network_config.enr_udp_port = Some(self.network_enr_udp_port); network_config.enr_address = match &self.network_enr_address { Some(addr) => Some(addr.parse().unwrap()), None => match public_ip::addr_v4().await { Some(ipv4_addr) => { info!(?ipv4_addr, "Auto detect public IP as ENR address"); Some(IpAddr::V4(ipv4_addr)) } None => { return Err( "ENR address not configured and failed to detect public IP address" .into(), ) } }, }; } network_config.boot_nodes_multiaddr = self .network_boot_nodes .iter() .map(|addr| addr.parse::()) .collect::>() .map_err(|e| format!("Unable to parse network_boot_nodes: {:?}", e))?; network_config.libp2p_nodes = self .network_libp2p_nodes .iter() .map(|addr| addr.parse::()) .collect::>() .map_err(|e| format!("Unable to parse network_libp2p_nodes: {:?}", e))?; network_config.discv5_config.table_filter = if self.discv5_disable_enr_network_id { Arc::new(|_| true) } else { Arc::new( move |enr| matches!(enr.network_identity(), Some(Ok(id)) if id == local_network_id), ) }; network_config.discv5_config.request_timeout = Duration::from_secs(self.discv5_request_timeout_secs); network_config.discv5_config.query_peer_timeout = Duration::from_secs(self.discv5_query_peer_timeout_secs); network_config.discv5_config.request_retries = self.discv5_request_retries; network_config.discv5_config.query_parallelism = self.discv5_query_parallelism; network_config.discv5_config.report_discovered_peers = self.discv5_report_discovered_peers; network_config.discv5_config.enable_packet_filter = !self.discv5_disable_packet_filter; network_config.discv5_config.ip_limit = !self.discv5_disable_ip_limit; network_config.target_peers = self.network_target_peers; network_config.private = self.network_private; network_config.peer_db = self.network_peer_db; network_config.peer_manager = self.network_peer_manager; network_config.disable_enr_network_id = self.discv5_disable_enr_network_id; Ok(network_config) } pub fn storage_config(&self) -> Result { let mut log_config = LogConfig::default(); log_config.flow.merkle_node_cache_capacity = self.merkle_node_cache_capacity; Ok(StorageConfig { db_dir: self.db_dir.clone().into(), log_config, }) } pub fn log_sync_config(&self) -> Result { let contract_address = self .log_contract_address .parse::() .map_err(|e| format!("Unable to parse log_contract_address: {:?}", e))?; let cache_config = CacheConfig { // 100 MB. max_data_size: self.max_cache_data_size, // This should be enough if we have about one Zgs tx per block. tx_seq_ttl: self.cache_tx_seq_ttl, }; Ok(LogSyncConfig::new( self.blockchain_rpc_endpoint.clone(), contract_address, self.log_sync_start_block_number, self.confirmation_block_count, cache_config, self.log_page_size, self.rate_limit_retries, self.timeout_retries, self.initial_backoff, self.recover_query_delay, self.default_finalized_block_count, self.remove_finalized_block_interval_minutes, self.watch_loop_wait_time_ms, self.force_log_sync_from_start_block_number, Duration::from_secs(self.blockchain_rpc_timeout_secs), )) } pub fn mine_config(&self) -> Result, String> { let flow_address = self .log_contract_address .parse::() .map_err(|e| format!("Unable to parse log_contract_address: {:?}", e))?; let mine_address = self .mine_contract_address .parse::() .map_err(|e| format!("Unable to parse mine_address: {:?}", e))?; let miner_id = if let Some(ref miner_id) = self.miner_id { Some( miner_id .parse::() .map_err(|e| format!("Unable to parse miner_id: {:?}", e))?, ) } else { None }; let miner_key = if let Some(ref miner_key) = self.miner_key { Some( miner_key .parse::() .map_err(|e| format!("Unable to parse miner_key: {:?}", e))?, ) } else { None }; let submission_gas = self.miner_submission_gas.map(U256::from); let cpu_percentage = self.miner_cpu_percentage; let iter_batch = self.mine_iter_batch_size; let context_query_seconds = self.mine_context_query_seconds; let shard_config = self.shard_config()?; Ok(MinerConfig::new( miner_id, miner_key, self.blockchain_rpc_endpoint.clone(), mine_address, flow_address, submission_gas, cpu_percentage, iter_batch, context_query_seconds, shard_config, self.rate_limit_retries, self.timeout_retries, self.initial_backoff, )) } pub fn chunk_pool_config(&self) -> Result { Ok(chunk_pool::Config { write_window_size: self.chunk_pool_write_window_size, max_cached_chunks_all: self.chunk_pool_max_cached_chunks_all, max_writings: self.chunk_pool_max_writings, expiration_time_secs: self.chunk_pool_expiration_time_secs, shard_config: self.shard_config()?, }) } pub fn router_config(&self, network_config: &NetworkConfig) -> Result { let mut router_config = self.router.clone(); router_config.libp2p_nodes = network_config.libp2p_nodes.to_vec(); if router_config.public_address.is_none() { if let Some(addr) = &self.network_enr_address { router_config.public_address = Some(addr.parse().unwrap()); } } Ok(router_config) } pub fn pruner_config(&self) -> Result, String> { if let Some(max_num_sectors) = self.db_max_num_sectors { let shard_config = self.shard_config()?; let reward_address = self .reward_contract_address .parse::() .map_err(|e| format!("Unable to parse reward_contract_address: {:?}", e))?; Ok(Some(PrunerConfig { shard_config, db_path: self.db_dir.clone().into(), max_num_sectors, check_time: Duration::from_secs(self.prune_check_time_s), batch_size: self.prune_batch_size, batch_wait_time: Duration::from_millis(self.prune_batch_wait_time_ms), rpc_endpoint_url: self.blockchain_rpc_endpoint.clone(), reward_address, rate_limit_retries: self.rate_limit_retries, timeout_retries: self.timeout_retries, initial_backoff: self.initial_backoff, })) } else { Ok(None) } } pub fn shard_config(&self) -> Result { self.shard_position.clone().try_into() } }