use std::collections::BTreeMap; use std::sync::Arc; use ethers::prelude::{Address, U256}; use ethers::types::{Transaction, TransactionReceipt, H256}; use eyre::{eyre, Result}; use config::Config; use consensus::rpc::nimbus_rpc::NimbusRpc; use consensus::types::{ExecutionPayload, Header}; use consensus::ConsensusClient; use execution::evm::Evm; use execution::rpc::http_rpc::HttpRpc; use execution::types::{CallOpts, ExecutionBlock}; use execution::ExecutionClient; pub struct Node { consensus: ConsensusClient, execution: ExecutionClient, config: Arc, payloads: BTreeMap, finalized_payloads: BTreeMap, history_size: usize, } impl Node { pub async fn new(config: Arc) -> Result { let consensus_rpc = &config.general.consensus_rpc; let checkpoint_hash = &config.general.checkpoint; let execution_rpc = &config.general.execution_rpc; let consensus = ConsensusClient::new(consensus_rpc, checkpoint_hash, config.clone()).await?; let execution = ExecutionClient::new(execution_rpc)?; let payloads = BTreeMap::new(); let finalized_payloads = BTreeMap::new(); Ok(Node { consensus, execution, config, payloads, finalized_payloads, history_size: 64, }) } pub async fn sync(&mut self) -> Result<()> { self.consensus.sync().await?; self.update_payloads().await } pub async fn advance(&mut self) -> Result<()> { self.consensus.advance().await?; self.update_payloads().await } async fn update_payloads(&mut self) -> Result<()> { let latest_header = self.consensus.get_header(); let latest_payload = self .consensus .get_execution_payload(&Some(latest_header.slot)) .await?; let finalized_header = self.consensus.get_finalized_header(); let finalized_payload = self .consensus .get_execution_payload(&Some(finalized_header.slot)) .await?; self.payloads .insert(latest_payload.block_number, latest_payload); self.payloads .insert(finalized_payload.block_number, finalized_payload.clone()); self.finalized_payloads .insert(finalized_payload.block_number, finalized_payload); while self.payloads.len() > self.history_size { self.payloads.pop_first(); } while self.finalized_payloads.len() > usize::max(self.history_size / 32, 1) { self.finalized_payloads.pop_first(); } Ok(()) } pub fn call(&self, opts: &CallOpts, block: &BlockTag) -> Result> { let payload = self.get_payload(block)?; let mut evm = Evm::new(self.execution.clone(), payload.clone(), self.chain_id()); evm.call(opts) } pub fn estimate_gas(&self, opts: &CallOpts) -> Result { let payload = self.get_payload(&BlockTag::Latest)?; let mut evm = Evm::new(self.execution.clone(), payload.clone(), self.chain_id()); evm.estimate_gas(opts) } pub async fn get_balance(&self, address: &Address, block: &BlockTag) -> Result { let payload = self.get_payload(block)?; let account = self.execution.get_account(&address, None, payload).await?; Ok(account.balance) } pub async fn get_nonce(&self, address: &Address, block: &BlockTag) -> Result { let payload = self.get_payload(block)?; let account = self.execution.get_account(&address, None, payload).await?; Ok(account.nonce) } pub async fn get_code(&self, address: &Address, block: &BlockTag) -> Result> { let payload = self.get_payload(block)?; self.execution.get_code(&address, payload).await } pub async fn get_storage_at(&self, address: &Address, slot: H256) -> Result { let payload = self.get_payload(&BlockTag::Latest)?; let account = self .execution .get_account(address, Some(&[slot]), payload) .await?; let value = account.slots.get(&slot); match value { Some(value) => Ok(*value), None => Err(eyre!("Slot Not Found")), } } pub async fn send_raw_transaction(&self, bytes: &Vec) -> Result { self.execution.send_raw_transaction(bytes).await } pub async fn get_transaction_receipt( &self, tx_hash: &H256, ) -> Result> { self.execution .get_transaction_receipt(tx_hash, &self.payloads) .await } pub async fn get_transaction_by_hash(&self, tx_hash: &H256) -> Result> { self.execution .get_transaction(tx_hash, &self.payloads) .await } pub fn get_gas_price(&self) -> Result { let payload = self.get_payload(&BlockTag::Latest)?; let base_fee = U256::from_little_endian(&payload.base_fee_per_gas.to_bytes_le()); let tip = U256::from(10_u64.pow(9)); Ok(base_fee + tip) } pub fn get_priority_fee(&self) -> Result { let tip = U256::from(10_u64.pow(9)); Ok(tip) } pub fn get_block_number(&self) -> Result { let payload = self.get_payload(&BlockTag::Latest)?; Ok(payload.block_number) } pub fn get_block_by_number(&self, block: &BlockTag) -> Result { let payload = self.get_payload(block)?; self.execution.get_block(payload) } pub fn get_block_by_hash(&self, hash: &Vec) -> Result { let payloads = self .payloads .iter() .filter(|entry| &entry.1.block_hash.to_vec() == hash) .collect::>(); let payload = payloads.get(0).ok_or(eyre!("Block Not Found"))?.1; self.execution.get_block(payload) } pub fn chain_id(&self) -> u64 { self.config.general.chain_id } pub fn get_header(&self) -> &Header { self.consensus.get_header() } pub fn get_last_checkpoint(&self) -> Option> { self.consensus.last_checkpoint.clone() } fn get_payload(&self, block: &BlockTag) -> Result<&ExecutionPayload> { match block { BlockTag::Latest => { let payload = self.payloads.last_key_value(); Ok(payload.ok_or(eyre!("Block Not Found"))?.1) } BlockTag::Finalized => { let payload = self.finalized_payloads.last_key_value(); Ok(payload.ok_or(eyre!("Block Not Found"))?.1) } BlockTag::Number(num) => { let payload = self.payloads.get(num); payload.ok_or(eyre!("Block Not Found")) } } } } pub enum BlockTag { Latest, Finalized, Number(u64), }