0g-storage-node/node/src/config/convert.rs

#![allow(clippy::field_reassign_with_default)]

use crate::ZgsConfig;
use ethereum_types::{H256, U256};
use log_entry_sync::{CacheConfig, ContractAddress, LogSyncConfig};
use miner::MinerConfig;
use network::NetworkConfig;
use rpc::RPCConfig;
use storage::StorageConfig;

impl ZgsConfig {
    pub fn network_config(&self) -> Result<NetworkConfig, String> {
        let mut network_config = NetworkConfig::default();

        network_config.listen_address = self
            .network_listen_address
            .parse::<std::net::IpAddr>()
            .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;
        network_config.enr_tcp_port = self.network_enr_tcp_port;
        network_config.enr_udp_port = self.network_enr_udp_port;
        network_config.enr_address = self
            .network_enr_address
            .as_ref()
            .map(|x| x.parse::<std::net::IpAddr>().unwrap());

        network_config.boot_nodes_multiaddr = self
            .network_boot_nodes
            .iter()
            .map(|addr| addr.parse::<libp2p::Multiaddr>())
            .collect::<Result<_, _>>()
            .map_err(|e| format!("Unable to parse network_boot_nodes: {:?}", e))?;

        network_config.libp2p_nodes = self
            .network_libp2p_nodes
            .iter()
            .map(|addr| addr.parse::<libp2p::Multiaddr>())
            .collect::<Result<_, _>>()
            .map_err(|e| format!("Unable to parse network_libp2p_nodes: {:?}", e))?;

        network_config.discv5_config.table_filter = |_| true;

        // TODO
        network_config.target_peers = self.network_target_peers;
        network_config.private = self.network_private;

        Ok(network_config)
    }

    pub fn storage_config(&self) -> Result<StorageConfig, String> {
        Ok(StorageConfig {
            db_dir: self.db_dir.clone().into(),
        })
    }

    pub fn rpc_config(&self) -> Result<RPCConfig, String> {
        let listen_address = self
            .rpc_listen_address
            .parse::<std::net::SocketAddr>()
            .map_err(|e| format!("Unable to parse rpc_listen_address: {:?}", e))?;

        let listen_address_admin = if self.rpc_listen_address_admin.is_empty() {
            None
        } else {
            Some(
                self.rpc_listen_address_admin
                    .parse::<std::net::SocketAddr>()
                    .map_err(|e| format!("Unable to parse rpc_listen_address_admin: {:?}", e))?,
            )
        };

        Ok(RPCConfig {
            enabled: self.rpc_enabled,
            listen_address,
            listen_address_admin,
            max_request_body_size: self.max_request_body_size,
            chunks_per_segment: self.rpc_chunks_per_segment,
            max_cache_file_size: self.rpc_max_cache_file_size,
        })
    }

    pub fn log_sync_config(&self) -> Result<LogSyncConfig, String> {
        let contract_address = self
            .log_contract_address
            .parse::<ContractAddress>()
            .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,
        ))
    }

    pub fn mine_config(&self) -> Result<Option<MinerConfig>, String> {
        let flow_address = self
            .log_contract_address
            .parse::<ContractAddress>()
            .map_err(|e| format!("Unable to parse log_contract_address: {:?}", e))?;
        let mine_address = self
            .mine_contract_address
            .parse::<ContractAddress>()
            .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::<H256>()
                    .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::<H256>()
                    .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;
        Ok(MinerConfig::new(
            miner_id,
            miner_key,
            self.blockchain_rpc_endpoint.clone(),
            mine_address,
            flow_address,
            submission_gas,
            cpu_percentage,
            iter_batch,
        ))
    }

    pub fn chunk_pool_config(&self) -> chunk_pool::Config {
        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,
        }
    }

    pub fn router_config(&self, network_config: &NetworkConfig) -> Result<router::Config, String> {
        let mut router_config = router::Config::default();
        router_config.libp2p_nodes = network_config.libp2p_nodes.to_vec();
        Ok(router_config)
    }
}
Initial commit 2024-01-03 10:24:52 +00:00			`#![allow(clippy::field_reassign_with_default)]`

			`use crate::ZgsConfig;`
Configurable mine submission gas limit (#41) * Configurable mine submission gas limit * cargo fmt * More log * update * cargo clippy 2024-04-11 03:52:03 +00:00			`use ethereum_types::{H256, U256};`
Initial commit 2024-01-03 10:24:52 +00:00			`use log_entry_sync::{CacheConfig, ContractAddress, LogSyncConfig};`
			`use miner::MinerConfig;`
			`use network::NetworkConfig;`
			`use rpc::RPCConfig;`
			`use storage::StorageConfig;`

			`impl ZgsConfig {`
			`pub fn network_config(&self) -> Result<NetworkConfig, String> {`
			`let mut network_config = NetworkConfig::default();`

			`network_config.listen_address = self`
			`.network_listen_address`
			`.parse::<std::net::IpAddr>()`
			`.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;`
			`network_config.enr_tcp_port = self.network_enr_tcp_port;`
			`network_config.enr_udp_port = self.network_enr_udp_port;`
			`network_config.enr_address = self`
			`.network_enr_address`
			`.as_ref()`
			`.map(\|x\| x.parse::<std::net::IpAddr>().unwrap());`

			`network_config.boot_nodes_multiaddr = self`
			`.network_boot_nodes`
			`.iter()`
			`.map(\|addr\| addr.parse::<libp2p::Multiaddr>())`
			`.collect::<Result<_, _>>()`
			`.map_err(\|e\| format!("Unable to parse network_boot_nodes: {:?}", e))?;`

			`network_config.libp2p_nodes = self`
			`.network_libp2p_nodes`
			`.iter()`
			`.map(\|addr\| addr.parse::<libp2p::Multiaddr>())`
			`.collect::<Result<_, _>>()`
			`.map_err(\|e\| format!("Unable to parse network_libp2p_nodes: {:?}", e))?;`

			`network_config.discv5_config.table_filter = \|_\| true;`

			`// TODO`
			`network_config.target_peers = self.network_target_peers;`
			`network_config.private = self.network_private;`

			`Ok(network_config)`
			`}`

			`pub fn storage_config(&self) -> Result<StorageConfig, String> {`
			`Ok(StorageConfig {`
			`db_dir: self.db_dir.clone().into(),`
			`})`
			`}`

			`pub fn rpc_config(&self) -> Result<RPCConfig, String> {`
			`let listen_address = self`
			`.rpc_listen_address`
			`.parse::<std::net::SocketAddr>()`
			`.map_err(\|e\| format!("Unable to parse rpc_listen_address: {:?}", e))?;`

Rpc enhancements (#15) * add admin rpc to terminate file or chunks sync * Disallow to change file sync goal when failed * split admin rpc into separate endpoints * Support to launch public and private rpc at one port * use one rpc port for python test * fix lint * restart to sync file or chunks if sync already completed or failed 2024-01-30 08:50:35 +00:00			`let listen_address_admin = if self.rpc_listen_address_admin.is_empty() {`
			`None`
			`} else {`
			`Some(`
			`self.rpc_listen_address_admin`
			`.parse::<std::net::SocketAddr>()`
			`.map_err(\|e\| format!("Unable to parse rpc_listen_address_admin: {:?}", e))?,`
			`)`
			`};`

Initial commit 2024-01-03 10:24:52 +00:00			`Ok(RPCConfig {`
			`enabled: self.rpc_enabled,`
			`listen_address,`
Rpc enhancements (#15) * add admin rpc to terminate file or chunks sync * Disallow to change file sync goal when failed * split admin rpc into separate endpoints * Support to launch public and private rpc at one port * use one rpc port for python test * fix lint * restart to sync file or chunks if sync already completed or failed 2024-01-30 08:50:35 +00:00			`listen_address_admin,`
feat: upload_segments (#21) * feat: upload_segments * feat: max request body 2024-02-06 09:51:31 +00:00			`max_request_body_size: self.max_request_body_size,`
Initial commit 2024-01-03 10:24:52 +00:00			`chunks_per_segment: self.rpc_chunks_per_segment,`
			`max_cache_file_size: self.rpc_max_cache_file_size,`
			`})`
			`}`

			`pub fn log_sync_config(&self) -> Result<LogSyncConfig, String> {`
			`let contract_address = self`
			`.log_contract_address`
			`.parse::<ContractAddress>()`
			`.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,`
replace filter with eth_getLogs (#32) * replace filter with eth_getLogs * update log * store block history into db * fix lints error * add free disk step * set max worker to 3 * resolve comments and refact code * resolve comments * set max-workers to 4 * set max-workers to 3 2024-03-27 05:54:06 +00:00			`self.default_finalized_block_count,`
			`self.remove_finalized_block_interval_minutes,`
			`self.watch_loop_wait_time_ms,`
Initial commit 2024-01-03 10:24:52 +00:00			`))`
			`}`

			`pub fn mine_config(&self) -> Result<Option<MinerConfig>, String> {`
			`let flow_address = self`
			`.log_contract_address`
			`.parse::<ContractAddress>()`
			`.map_err(\|e\| format!("Unable to parse log_contract_address: {:?}", e))?;`
			`let mine_address = self`
			`.mine_contract_address`
			`.parse::<ContractAddress>()`
			`.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::<H256>()`
			`.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::<H256>()`
			`.map_err(\|e\| format!("Unable to parse miner_key: {:?}", e))?,`
			`)`
			`} else {`
			`None`
			`};`
Configurable mine submission gas limit (#41) * Configurable mine submission gas limit * cargo fmt * More log * update * cargo clippy 2024-04-11 03:52:03 +00:00			`let submission_gas = self.miner_submission_gas.map(U256::from);`
Configurable CPU usage on mine (#58) * Configurable CPU usage on mine * Cargo clippy 2024-04-23 04:52:39 +00:00			`let cpu_percentage = self.miner_cpu_percentage;`
			`let iter_batch = self.mine_iter_batch_size;`
Initial commit 2024-01-03 10:24:52 +00:00			`Ok(MinerConfig::new(`
			`miner_id,`
			`miner_key,`
			`self.blockchain_rpc_endpoint.clone(),`
			`mine_address,`
			`flow_address,`
Configurable mine submission gas limit (#41) * Configurable mine submission gas limit * cargo fmt * More log * update * cargo clippy 2024-04-11 03:52:03 +00:00			`submission_gas,`
Configurable CPU usage on mine (#58) * Configurable CPU usage on mine * Cargo clippy 2024-04-23 04:52:39 +00:00			`cpu_percentage,`
			`iter_batch,`
Initial commit 2024-01-03 10:24:52 +00:00			`))`
			`}`

			`pub fn chunk_pool_config(&self) -> chunk_pool::Config {`
			`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,`
			`}`
			`}`

			`pub fn router_config(&self, network_config: &NetworkConfig) -> Result<router::Config, String> {`
			`let mut router_config = router::Config::default();`
			`router_config.libp2p_nodes = network_config.libp2p_nodes.to_vec();`
			`Ok(router_config)`
			`}`
			`}`