//! The `validator` module hosts all the validator microservices. use crate::{ broadcast_stage::BroadcastStageType, cluster_info::{ClusterInfo, Node}, cluster_info_vote_listener::VoteTracker, contact_info::ContactInfo, gossip_service::{discover_cluster, GossipService}, poh_recorder::{PohRecorder, GRACE_TICKS_FACTOR, MAX_GRACE_SLOTS}, poh_service::PohService, rewards_recorder_service::{RewardsRecorderSender, RewardsRecorderService}, rpc::JsonRpcConfig, rpc_pubsub_service::PubSubService, rpc_service::JsonRpcService, rpc_subscriptions::RpcSubscriptions, serve_repair::ServeRepair, serve_repair_service::ServeRepairService, sigverify, snapshot_packager_service::SnapshotPackagerService, tpu::Tpu, transaction_status_service::TransactionStatusService, tvu::{Sockets, Tvu, TvuConfig}, }; use crossbeam_channel::unbounded; use rand::{thread_rng, Rng}; use solana_banks_server::rpc_banks_service::RpcBanksService; use solana_ledger::{ bank_forks_utils, blockstore::{Blockstore, CompletedSlotsReceiver, PurgeType}, blockstore_db::BlockstoreRecoveryMode, blockstore_processor::{self, TransactionStatusSender}, create_new_tmp_ledger, leader_schedule::FixedSchedule, leader_schedule_cache::LeaderScheduleCache, }; use solana_measure::measure::Measure; use solana_metrics::datapoint_info; use solana_runtime::{ bank::Bank, bank_forks::{BankForks, SnapshotConfig}, commitment::BlockCommitmentCache, hardened_unpack::{open_genesis_config, MAX_GENESIS_ARCHIVE_UNPACKED_SIZE}, }; use solana_sdk::{ clock::Slot, epoch_schedule::MAX_LEADER_SCHEDULE_EPOCH_OFFSET, genesis_config::GenesisConfig, hash::Hash, pubkey::Pubkey, shred_version::compute_shred_version, signature::{Keypair, Signer}, timing::timestamp, }; use solana_vote_program::vote_state::VoteState; use std::{ collections::HashSet, net::{IpAddr, Ipv4Addr, SocketAddr}, path::{Path, PathBuf}, process, sync::atomic::{AtomicBool, Ordering}, sync::mpsc::Receiver, sync::{mpsc::channel, Arc, Mutex, RwLock}, thread::{sleep, Result}, time::Duration, }; #[derive(Clone, Debug)] pub struct ValidatorConfig { pub dev_halt_at_slot: Option, pub expected_genesis_hash: Option, pub expected_bank_hash: Option, pub expected_shred_version: Option, pub voting_disabled: bool, pub account_paths: Vec, pub rpc_config: JsonRpcConfig, pub rpc_ports: Option<(u16, u16, u16)>, // (JsonRpc, JsonRpcPubSub, Banks) pub snapshot_config: Option, pub max_ledger_shreds: Option, pub broadcast_stage_type: BroadcastStageType, pub enable_partition: Option>, pub fixed_leader_schedule: Option, pub wait_for_supermajority: Option, pub new_hard_forks: Option>, pub trusted_validators: Option>, // None = trust all pub halt_on_trusted_validators_accounts_hash_mismatch: bool, pub accounts_hash_fault_injection_slots: u64, // 0 = no fault injection pub frozen_accounts: Vec, pub no_rocksdb_compaction: bool, pub accounts_hash_interval_slots: u64, pub max_genesis_archive_unpacked_size: u64, pub wal_recovery_mode: Option, } impl Default for ValidatorConfig { fn default() -> Self { Self { dev_halt_at_slot: None, expected_genesis_hash: None, expected_bank_hash: None, expected_shred_version: None, voting_disabled: false, max_ledger_shreds: None, account_paths: Vec::new(), rpc_config: JsonRpcConfig::default(), rpc_ports: None, snapshot_config: None, broadcast_stage_type: BroadcastStageType::Standard, enable_partition: None, fixed_leader_schedule: None, wait_for_supermajority: None, new_hard_forks: None, trusted_validators: None, halt_on_trusted_validators_accounts_hash_mismatch: false, accounts_hash_fault_injection_slots: 0, frozen_accounts: vec![], no_rocksdb_compaction: false, accounts_hash_interval_slots: std::u64::MAX, max_genesis_archive_unpacked_size: MAX_GENESIS_ARCHIVE_UNPACKED_SIZE, wal_recovery_mode: None, } } } #[derive(Default)] pub struct ValidatorExit { exits: Vec>, } impl ValidatorExit { pub fn register_exit(&mut self, exit: Box) { self.exits.push(exit); } pub fn exit(self) { for exit in self.exits { exit(); } } } #[derive(Default)] struct TransactionHistoryServices { transaction_status_sender: Option, transaction_status_service: Option, rewards_recorder_sender: Option, rewards_recorder_service: Option, } pub struct Validator { pub id: Pubkey, validator_exit: Arc>>, rpc_service: Option<(JsonRpcService, PubSubService, RpcBanksService)>, transaction_status_service: Option, rewards_recorder_service: Option, gossip_service: GossipService, serve_repair_service: ServeRepairService, snapshot_packager_service: Option, poh_recorder: Arc>, poh_service: PohService, tpu: Tpu, tvu: Tvu, ip_echo_server: solana_net_utils::IpEchoServer, } impl Validator { #[allow(clippy::cognitive_complexity)] pub fn new( mut node: Node, keypair: &Arc, ledger_path: &Path, vote_account: &Pubkey, mut authorized_voter_keypairs: Vec>, entrypoint_info_option: Option<&ContactInfo>, poh_verify: bool, config: &ValidatorConfig, ) -> Self { let id = keypair.pubkey(); assert_eq!(id, node.info.id); warn!("identity: {}", id); warn!("vote account: {}", vote_account); if config.voting_disabled { warn!("voting disabled"); authorized_voter_keypairs.clear(); } else { for authorized_voter_keypair in &authorized_voter_keypairs { warn!("authorized voter: {}", authorized_voter_keypair.pubkey()); } } report_target_features(); info!("entrypoint: {:?}", entrypoint_info_option); if solana_perf::perf_libs::api().is_some() { info!("Initializing sigverify, this could take a while..."); } else { info!("Initializing sigverify..."); } sigverify::init(); info!("Done."); if let Some(shred_version) = config.expected_shred_version { if let Some(wait_for_supermajority_slot) = config.wait_for_supermajority { backup_and_clear_blockstore( ledger_path, wait_for_supermajority_slot + 1, shred_version, ); } } info!("Cleaning accounts paths.."); let mut start = Measure::start("clean_accounts_paths"); for accounts_path in &config.account_paths { cleanup_accounts_path(accounts_path); } start.stop(); info!("done. {}", start); let mut validator_exit = ValidatorExit::default(); let exit = Arc::new(AtomicBool::new(false)); let exit_ = exit.clone(); validator_exit.register_exit(Box::new(move || exit_.store(true, Ordering::Relaxed))); let validator_exit = Arc::new(RwLock::new(Some(validator_exit))); let (replay_vote_sender, replay_vote_receiver) = unbounded(); let ( genesis_config, bank_forks, blockstore, ledger_signal_receiver, completed_slots_receiver, leader_schedule_cache, snapshot_hash, TransactionHistoryServices { transaction_status_sender, transaction_status_service, rewards_recorder_sender, rewards_recorder_service, }, ) = new_banks_from_ledger(config, ledger_path, poh_verify, &exit); let leader_schedule_cache = Arc::new(leader_schedule_cache); let bank = bank_forks.working_bank(); let bank_forks = Arc::new(RwLock::new(bank_forks)); info!("Starting validator with working bank slot {}", bank.slot()); { let hard_forks: Vec<_> = bank.hard_forks().read().unwrap().iter().copied().collect(); if !hard_forks.is_empty() { info!("Hard forks: {:?}", hard_forks); } } node.info.wallclock = timestamp(); node.info.shred_version = compute_shred_version( &genesis_config.hash(), Some(&bank.hard_forks().read().unwrap()), ); Self::print_node_info(&node); if let Some(expected_shred_version) = config.expected_shred_version { if expected_shred_version != node.info.shred_version { error!( "shred version mismatch: expected {} found: {}", expected_shred_version, node.info.shred_version, ); process::exit(1); } } let cluster_info = Arc::new(ClusterInfo::new(node.info.clone(), keypair.clone())); let mut block_commitment_cache = BlockCommitmentCache::default(); block_commitment_cache.initialize_slots(bank.slot()); let block_commitment_cache = Arc::new(RwLock::new(block_commitment_cache)); let subscriptions = Arc::new(RpcSubscriptions::new( &exit, bank_forks.clone(), block_commitment_cache.clone(), )); let rpc_override_health_check = Arc::new(AtomicBool::new(false)); let rpc_service = config .rpc_ports .map(|(rpc_port, rpc_pubsub_port, rpc_banks_port)| { if ContactInfo::is_valid_address(&node.info.rpc) { assert!(ContactInfo::is_valid_address(&node.info.rpc_pubsub)); assert_eq!(rpc_port, node.info.rpc.port()); assert_eq!(rpc_pubsub_port, node.info.rpc_pubsub.port()); assert_eq!(rpc_banks_port, node.info.rpc_banks.port()); } else { assert!(!ContactInfo::is_valid_address(&node.info.rpc_pubsub)); } let tpu_address = cluster_info.my_contact_info().tpu; ( JsonRpcService::new( SocketAddr::new(IpAddr::V4(Ipv4Addr::new(0, 0, 0, 0)), rpc_port), config.rpc_config.clone(), config.snapshot_config.clone(), bank_forks.clone(), block_commitment_cache.clone(), blockstore.clone(), cluster_info.clone(), genesis_config.hash(), ledger_path, validator_exit.clone(), config.trusted_validators.clone(), rpc_override_health_check.clone(), ), PubSubService::new( &subscriptions, SocketAddr::new(IpAddr::V4(Ipv4Addr::new(0, 0, 0, 0)), rpc_pubsub_port), &exit, ), RpcBanksService::new( SocketAddr::new(IpAddr::V4(Ipv4Addr::new(0, 0, 0, 0)), rpc_banks_port), tpu_address, &bank_forks, &block_commitment_cache, &exit, ), ) }); info!( "Starting PoH: epoch={} slot={} tick_height={} blockhash={} leader={:?}", bank.epoch(), bank.slot(), bank.tick_height(), bank.last_blockhash(), leader_schedule_cache.slot_leader_at(bank.slot(), Some(&bank)) ); if config.dev_halt_at_slot.is_some() { // Simulate a confirmed root to avoid RPC errors with CommitmentConfig::max() and // to ensure RPC endpoints like getConfirmedBlock, which require a confirmed root, work block_commitment_cache .write() .unwrap() .set_highest_confirmed_root(bank_forks.read().unwrap().root()); // Park with the RPC service running, ready for inspection! warn!("Validator halted"); std::thread::park(); } let poh_config = Arc::new(genesis_config.poh_config); let (mut poh_recorder, entry_receiver) = PohRecorder::new_with_clear_signal( bank.tick_height(), bank.last_blockhash(), bank.slot(), leader_schedule_cache.next_leader_slot( &id, bank.slot(), &bank, Some(&blockstore), GRACE_TICKS_FACTOR * MAX_GRACE_SLOTS, ), bank.ticks_per_slot(), &id, &blockstore, blockstore.new_shreds_signals.first().cloned(), &leader_schedule_cache, &poh_config, ); if config.snapshot_config.is_some() { poh_recorder.set_bank(&bank); } let poh_recorder = Arc::new(Mutex::new(poh_recorder)); let ip_echo_server = solana_net_utils::ip_echo_server(node.sockets.ip_echo.unwrap()); let gossip_service = GossipService::new( &cluster_info, Some(bank_forks.clone()), node.sockets.gossip, &exit, ); let serve_repair = Arc::new(RwLock::new(ServeRepair::new(cluster_info.clone()))); let serve_repair_service = ServeRepairService::new( &serve_repair, Some(blockstore.clone()), node.sockets.serve_repair, &exit, ); // Insert the entrypoint info, should only be None if this node // is the bootstrap validator if let Some(entrypoint_info) = entrypoint_info_option { cluster_info.set_entrypoint(entrypoint_info.clone()); } let (snapshot_packager_service, snapshot_package_sender) = if config.snapshot_config.is_some() { // Start a snapshot packaging service let (sender, receiver) = channel(); let snapshot_packager_service = SnapshotPackagerService::new(receiver, snapshot_hash, &exit, &cluster_info); (Some(snapshot_packager_service), Some(sender)) } else { (None, None) }; if wait_for_supermajority(config, &bank, &cluster_info, rpc_override_health_check) { std::process::exit(1); } let poh_service = PohService::new(poh_recorder.clone(), &poh_config, &exit); assert_eq!( blockstore.new_shreds_signals.len(), 1, "New shred signal for the TVU should be the same as the clear bank signal." ); let vote_tracker = Arc::new(VoteTracker::new(bank_forks.read().unwrap().root_bank())); let (retransmit_slots_sender, retransmit_slots_receiver) = unbounded(); let (verified_vote_sender, verified_vote_receiver) = unbounded(); let tvu = Tvu::new( vote_account, authorized_voter_keypairs, &bank_forks, &cluster_info, Sockets { repair: node .sockets .repair .try_clone() .expect("Failed to clone repair socket"), retransmit: node .sockets .retransmit_sockets .iter() .map(|s| s.try_clone().expect("Failed to clone retransmit socket")) .collect(), fetch: node .sockets .tvu .iter() .map(|s| s.try_clone().expect("Failed to clone TVU Sockets")) .collect(), forwards: node .sockets .tvu_forwards .iter() .map(|s| s.try_clone().expect("Failed to clone TVU forwards Sockets")) .collect(), }, blockstore.clone(), ledger_signal_receiver, &subscriptions, &poh_recorder, &leader_schedule_cache, &exit, completed_slots_receiver, block_commitment_cache, config.enable_partition.clone(), transaction_status_sender.clone(), rewards_recorder_sender, snapshot_package_sender, vote_tracker.clone(), retransmit_slots_sender, verified_vote_receiver, replay_vote_sender.clone(), TvuConfig { max_ledger_shreds: config.max_ledger_shreds, halt_on_trusted_validators_accounts_hash_mismatch: config .halt_on_trusted_validators_accounts_hash_mismatch, shred_version: node.info.shred_version, trusted_validators: config.trusted_validators.clone(), accounts_hash_fault_injection_slots: config.accounts_hash_fault_injection_slots, }, ); let tpu = Tpu::new( &cluster_info, &poh_recorder, entry_receiver, retransmit_slots_receiver, node.sockets.tpu, node.sockets.tpu_forwards, node.sockets.broadcast, &subscriptions, transaction_status_sender, &blockstore, &config.broadcast_stage_type, &exit, node.info.shred_version, vote_tracker, bank_forks, verified_vote_sender, replay_vote_receiver, replay_vote_sender, ); datapoint_info!("validator-new", ("id", id.to_string(), String)); Self { id, gossip_service, serve_repair_service, rpc_service, transaction_status_service, rewards_recorder_service, snapshot_packager_service, tpu, tvu, poh_service, poh_recorder, ip_echo_server, validator_exit, } } // Used for notifying many nodes in parallel to exit pub fn exit(&mut self) { if let Some(x) = self.validator_exit.write().unwrap().take() { x.exit() } } pub fn close(mut self) -> Result<()> { self.exit(); self.join() } fn print_node_info(node: &Node) { info!("{:?}", node.info); info!( "local gossip address: {}", node.sockets.gossip.local_addr().unwrap() ); info!( "local broadcast address: {}", node.sockets .broadcast .first() .unwrap() .local_addr() .unwrap() ); info!( "local repair address: {}", node.sockets.repair.local_addr().unwrap() ); info!( "local retransmit address: {}", node.sockets.retransmit_sockets[0].local_addr().unwrap() ); } pub fn join(self) -> Result<()> { self.poh_service.join()?; drop(self.poh_recorder); if let Some((rpc_service, rpc_pubsub_service, rpc_banks_service)) = self.rpc_service { rpc_service.join()?; rpc_pubsub_service.join()?; rpc_banks_service.join()?; } if let Some(transaction_status_service) = self.transaction_status_service { transaction_status_service.join()?; } if let Some(rewards_recorder_service) = self.rewards_recorder_service { rewards_recorder_service.join()?; } if let Some(s) = self.snapshot_packager_service { s.join()?; } self.gossip_service.join()?; self.serve_repair_service.join()?; self.tpu.join()?; self.tvu.join()?; self.ip_echo_server.shutdown_now(); Ok(()) } } #[allow(clippy::type_complexity)] fn new_banks_from_ledger( config: &ValidatorConfig, ledger_path: &Path, poh_verify: bool, exit: &Arc, ) -> ( GenesisConfig, BankForks, Arc, Receiver, CompletedSlotsReceiver, LeaderScheduleCache, Option<(Slot, Hash)>, TransactionHistoryServices, ) { info!("loading ledger from {:?}...", ledger_path); let genesis_config = open_genesis_config(ledger_path, config.max_genesis_archive_unpacked_size); // This needs to be limited otherwise the state in the VoteAccount data // grows too large let leader_schedule_slot_offset = genesis_config.epoch_schedule.leader_schedule_slot_offset; let slots_per_epoch = genesis_config.epoch_schedule.slots_per_epoch; let leader_epoch_offset = (leader_schedule_slot_offset + slots_per_epoch - 1) / slots_per_epoch; assert!(leader_epoch_offset <= MAX_LEADER_SCHEDULE_EPOCH_OFFSET); let genesis_hash = genesis_config.hash(); info!("genesis hash: {}", genesis_hash); if let Some(expected_genesis_hash) = config.expected_genesis_hash { if genesis_hash != expected_genesis_hash { error!("genesis hash mismatch: expected {}", expected_genesis_hash); error!("Delete the ledger directory to continue: {:?}", ledger_path); process::exit(1); } } let (mut blockstore, ledger_signal_receiver, completed_slots_receiver) = Blockstore::open_with_signal(ledger_path, config.wal_recovery_mode.clone()) .expect("Failed to open ledger database"); blockstore.set_no_compaction(config.no_rocksdb_compaction); let process_options = blockstore_processor::ProcessOptions { poh_verify, dev_halt_at_slot: config.dev_halt_at_slot, new_hard_forks: config.new_hard_forks.clone(), frozen_accounts: config.frozen_accounts.clone(), ..blockstore_processor::ProcessOptions::default() }; let blockstore = Arc::new(blockstore); let transaction_history_services = if config.rpc_ports.is_some() && config.rpc_config.enable_rpc_transaction_history { initialize_rpc_transaction_history_services(blockstore.clone(), exit) } else { TransactionHistoryServices::default() }; let (mut bank_forks, mut leader_schedule_cache, snapshot_hash) = bank_forks_utils::load( &genesis_config, &blockstore, config.account_paths.clone(), config.snapshot_config.as_ref(), process_options, transaction_history_services .transaction_status_sender .clone(), ) .unwrap_or_else(|err| { error!("Failed to load ledger: {:?}", err); process::exit(1); }); leader_schedule_cache.set_fixed_leader_schedule(config.fixed_leader_schedule.clone()); bank_forks.set_snapshot_config(config.snapshot_config.clone()); bank_forks.set_accounts_hash_interval_slots(config.accounts_hash_interval_slots); ( genesis_config, bank_forks, blockstore, ledger_signal_receiver, completed_slots_receiver, leader_schedule_cache, snapshot_hash, transaction_history_services, ) } fn backup_and_clear_blockstore(ledger_path: &Path, start_slot: Slot, shred_version: u16) { use std::time::Instant; let blockstore = Blockstore::open(ledger_path).unwrap(); let mut do_copy_and_clear = false; // Search for shreds with incompatible version in blockstore if let Ok(slot_meta_iterator) = blockstore.slot_meta_iterator(start_slot) { for (slot, _meta) in slot_meta_iterator { if let Ok(shreds) = blockstore.get_data_shreds_for_slot(slot, 0) { for shred in &shreds { if shred.version() != shred_version { do_copy_and_clear = true; break; } } } } } // If found, then copy shreds to another db and clear from start_slot if do_copy_and_clear { let folder_name = format!("backup_rocksdb_{}", thread_rng().gen_range(0, 99999)); let backup_blockstore = Blockstore::open(&ledger_path.join(folder_name)); let mut last_print = Instant::now(); let mut copied = 0; let mut last_slot = None; let slot_meta_iterator = blockstore.slot_meta_iterator(start_slot).unwrap(); for (slot, _meta) in slot_meta_iterator { if let Ok(shreds) = blockstore.get_data_shreds_for_slot(slot, 0) { if let Ok(ref backup_blockstore) = backup_blockstore { copied += shreds.len(); let _ = backup_blockstore.insert_shreds(shreds, None, true); } } if last_print.elapsed().as_millis() > 3000 { info!( "Copying shreds from slot {} copied {} so far.", start_slot, copied ); last_print = Instant::now(); } last_slot = Some(slot); } let end_slot = last_slot.unwrap(); info!("Purging slots {} to {}", start_slot, end_slot); blockstore.purge_slots(start_slot, end_slot, PurgeType::Exact); blockstore.purge_from_next_slots(start_slot, end_slot); info!("Purging done, compacting db.."); if let Err(e) = blockstore.compact_storage(start_slot, end_slot) { warn!( "Error from compacting storage from {} to {}: {:?}", start_slot, end_slot, e ); } info!("done"); } drop(blockstore); } fn initialize_rpc_transaction_history_services( blockstore: Arc, exit: &Arc, ) -> TransactionHistoryServices { let (transaction_status_sender, transaction_status_receiver) = unbounded(); let transaction_status_sender = Some(transaction_status_sender); let transaction_status_service = Some(TransactionStatusService::new( transaction_status_receiver, blockstore.clone(), exit, )); let (rewards_recorder_sender, rewards_receiver) = unbounded(); let rewards_recorder_sender = Some(rewards_recorder_sender); let rewards_recorder_service = Some(RewardsRecorderService::new( rewards_receiver, blockstore, exit, )); TransactionHistoryServices { transaction_status_sender, transaction_status_service, rewards_recorder_sender, rewards_recorder_service, } } // Return true on error, indicating the validator should exit. fn wait_for_supermajority( config: &ValidatorConfig, bank: &Bank, cluster_info: &ClusterInfo, rpc_override_health_check: Arc, ) -> bool { if let Some(wait_for_supermajority) = config.wait_for_supermajority { match wait_for_supermajority.cmp(&bank.slot()) { std::cmp::Ordering::Less => return false, std::cmp::Ordering::Greater => { error!("Ledger does not have enough data to wait for supermajority, please enable snapshot fetch. Has {} needs {}", bank.slot(), wait_for_supermajority); return true; } _ => {} } } else { return false; } if let Some(expected_bank_hash) = config.expected_bank_hash { if bank.hash() != expected_bank_hash { error!( "Bank hash({}) does not match expected value: {}", bank.hash(), expected_bank_hash ); return true; } } info!( "Waiting for 80% of activated stake at slot {} to be in gossip...", bank.slot() ); for i in 1.. { let gossip_stake_percent = get_stake_percent_in_gossip(&bank, &cluster_info, i % 10 == 0); if gossip_stake_percent >= 80 { break; } // The normal RPC health checks don't apply as the node is waiting, so feign health to // prevent load balancers from removing the node from their list of candidates during a // manual restart. rpc_override_health_check.store(true, Ordering::Relaxed); sleep(Duration::new(1, 0)); } rpc_override_health_check.store(false, Ordering::Relaxed); false } pub struct TestValidator { pub server: Validator, pub leader_data: ContactInfo, pub alice: Keypair, pub ledger_path: PathBuf, pub genesis_hash: Hash, pub vote_pubkey: Pubkey, } pub struct TestValidatorOptions { pub fees: u64, pub bootstrap_validator_lamports: u64, pub mint_lamports: u64, } impl Default for TestValidatorOptions { fn default() -> Self { use solana_ledger::genesis_utils::BOOTSTRAP_VALIDATOR_LAMPORTS; TestValidatorOptions { fees: 0, bootstrap_validator_lamports: BOOTSTRAP_VALIDATOR_LAMPORTS, mint_lamports: 1_000_000, } } } impl TestValidator { pub fn run() -> Self { Self::run_with_options(TestValidatorOptions::default()) } pub fn run_with_options(options: TestValidatorOptions) -> Self { use solana_ledger::genesis_utils::{ create_genesis_config_with_leader_ex, GenesisConfigInfo, }; use solana_sdk::fee_calculator::FeeRateGovernor; let TestValidatorOptions { fees, bootstrap_validator_lamports, mint_lamports, } = options; let node_keypair = Arc::new(Keypair::new()); let node = Node::new_localhost_with_pubkey(&node_keypair.pubkey()); let contact_info = node.info.clone(); let GenesisConfigInfo { mut genesis_config, mint_keypair, voting_keypair, } = create_genesis_config_with_leader_ex( mint_lamports, &contact_info.id, &Keypair::new(), &Pubkey::new_rand(), 42, bootstrap_validator_lamports, ); genesis_config.rent.lamports_per_byte_year = 1; genesis_config.rent.exemption_threshold = 1.0; genesis_config.fee_rate_governor = FeeRateGovernor::new(fees, 0); let (ledger_path, blockhash) = create_new_tmp_ledger!(&genesis_config); let config = ValidatorConfig { rpc_ports: Some(( node.info.rpc.port(), node.info.rpc_pubsub.port(), node.info.rpc_banks.port(), )), ..ValidatorConfig::default() }; let vote_pubkey = voting_keypair.pubkey(); let node = Validator::new( node, &node_keypair, &ledger_path, &voting_keypair.pubkey(), vec![Arc::new(voting_keypair)], None, true, &config, ); discover_cluster(&contact_info.gossip, 1).expect("Node startup failed"); TestValidator { server: node, leader_data: contact_info, alice: mint_keypair, ledger_path, genesis_hash: blockhash, vote_pubkey, } } } fn report_target_features() { warn!( "CUDA is {}abled", if solana_perf::perf_libs::api().is_some() { "en" } else { "dis" } ); #[cfg(any(target_arch = "x86", target_arch = "x86_64"))] { // Validator binaries built on a machine with AVX support will generate invalid opcodes // when run on machines without AVX causing a non-obvious process abort. Instead detect // the mismatch and error cleanly. #[target_feature(enable = "avx")] { if is_x86_feature_detected!("avx") { info!("AVX detected"); } else { error!("Your machine does not have AVX support, please rebuild from source on your machine"); process::exit(1); } } } } // Get the activated stake percentage (based on the provided bank) that is visible in gossip fn get_stake_percent_in_gossip(bank: &Bank, cluster_info: &ClusterInfo, log: bool) -> u64 { let mut online_stake = 0; let mut wrong_shred_stake = 0; let mut wrong_shred_nodes = vec![]; let mut offline_stake = 0; let mut offline_nodes = vec![]; let mut total_activated_stake = 0; let all_tvu_peers = cluster_info.all_tvu_peers(); let my_shred_version = cluster_info.my_shred_version(); let my_id = cluster_info.id(); for (activated_stake, vote_account) in bank.vote_accounts().values() { let vote_state = VoteState::from(&vote_account).unwrap_or_default(); total_activated_stake += activated_stake; if *activated_stake == 0 { continue; } if let Some(peer) = all_tvu_peers .iter() .find(|peer| peer.id == vote_state.node_pubkey) { if peer.shred_version == my_shred_version { trace!( "observed {} in gossip, (activated_stake={})", vote_state.node_pubkey, activated_stake ); online_stake += activated_stake; } else { wrong_shred_stake += activated_stake; wrong_shred_nodes.push((*activated_stake, vote_state.node_pubkey)); } } else if vote_state.node_pubkey == my_id { online_stake += activated_stake; // This node is online } else { offline_stake += activated_stake; offline_nodes.push((*activated_stake, vote_state.node_pubkey)); } } if log { info!( "{}% of active stake visible in gossip", online_stake * 100 / total_activated_stake ); if !wrong_shred_nodes.is_empty() { info!( "{}% of active stake has the wrong shred version in gossip", wrong_shred_stake * 100 / total_activated_stake, ); for (stake, identity) in wrong_shred_nodes { info!( " {}% - {}", stake * 100 / total_activated_stake, identity ); } } if !offline_nodes.is_empty() { info!( "{}% of active stake is not visible in gossip", offline_stake * 100 / total_activated_stake ); for (stake, identity) in offline_nodes { info!( " {}% - {}", stake * 100 / total_activated_stake, identity ); } } } online_stake * 100 / total_activated_stake } // Cleanup anything that looks like an accounts append-vec fn cleanup_accounts_path(account_path: &std::path::Path) { if std::fs::remove_dir_all(account_path).is_err() { warn!( "encountered error removing accounts path: {:?}", account_path ); } } #[cfg(test)] mod tests { use super::*; use solana_ledger::genesis_utils::create_genesis_config_with_leader; use std::fs::remove_dir_all; #[test] fn validator_exit() { solana_logger::setup(); let leader_keypair = Keypair::new(); let leader_node = Node::new_localhost_with_pubkey(&leader_keypair.pubkey()); let validator_keypair = Keypair::new(); let validator_node = Node::new_localhost_with_pubkey(&validator_keypair.pubkey()); let genesis_config = create_genesis_config_with_leader(10_000, &leader_keypair.pubkey(), 1000) .genesis_config; let (validator_ledger_path, _blockhash) = create_new_tmp_ledger!(&genesis_config); let voting_keypair = Arc::new(Keypair::new()); let config = ValidatorConfig { rpc_ports: Some(( validator_node.info.rpc.port(), validator_node.info.rpc_pubsub.port(), validator_node.info.rpc_banks.port(), )), ..ValidatorConfig::default() }; let validator = Validator::new( validator_node, &Arc::new(validator_keypair), &validator_ledger_path, &voting_keypair.pubkey(), vec![voting_keypair.clone()], Some(&leader_node.info), true, &config, ); validator.close().unwrap(); remove_dir_all(validator_ledger_path).unwrap(); } #[test] fn test_backup_and_clear_blockstore() { use std::time::Instant; solana_logger::setup(); use solana_ledger::get_tmp_ledger_path; use solana_ledger::{blockstore, entry}; let blockstore_path = get_tmp_ledger_path!(); { let blockstore = Blockstore::open(&blockstore_path).unwrap(); let entries = entry::create_ticks(1, 0, Hash::default()); info!("creating shreds"); let mut last_print = Instant::now(); for i in 1..10 { let shreds = blockstore::entries_to_test_shreds(entries.clone(), i, i - 1, true, 1); blockstore.insert_shreds(shreds, None, true).unwrap(); if last_print.elapsed().as_millis() > 5000 { info!("inserted {}", i); last_print = Instant::now(); } } drop(blockstore); backup_and_clear_blockstore(&blockstore_path, 5, 2); let blockstore = Blockstore::open(&blockstore_path).unwrap(); assert!(blockstore.meta(4).unwrap().unwrap().next_slots.is_empty()); for i in 5..10 { assert!(blockstore .get_data_shreds_for_slot(i, 0) .unwrap() .is_empty()); } } } #[test] fn validator_parallel_exit() { let leader_keypair = Keypair::new(); let leader_node = Node::new_localhost_with_pubkey(&leader_keypair.pubkey()); let mut ledger_paths = vec![]; let mut validators: Vec = (0..2) .map(|_| { let validator_keypair = Keypair::new(); let validator_node = Node::new_localhost_with_pubkey(&validator_keypair.pubkey()); let genesis_config = create_genesis_config_with_leader(10_000, &leader_keypair.pubkey(), 1000) .genesis_config; let (validator_ledger_path, _blockhash) = create_new_tmp_ledger!(&genesis_config); ledger_paths.push(validator_ledger_path.clone()); let vote_account_keypair = Keypair::new(); let config = ValidatorConfig { rpc_ports: Some(( validator_node.info.rpc.port(), validator_node.info.rpc_pubsub.port(), validator_node.info.rpc_banks.port(), )), ..ValidatorConfig::default() }; Validator::new( validator_node, &Arc::new(validator_keypair), &validator_ledger_path, &vote_account_keypair.pubkey(), vec![Arc::new(vote_account_keypair)], Some(&leader_node.info), true, &config, ) }) .collect(); // Each validator can exit in parallel to speed many sequential calls to join` validators.iter_mut().for_each(|v| v.exit()); // While join is called sequentially, the above exit call notified all the // validators to exit from all their threads validators.into_iter().for_each(|validator| { validator.join().unwrap(); }); for path in ledger_paths { remove_dir_all(path).unwrap(); } } #[test] fn test_wait_for_supermajority() { solana_logger::setup(); use solana_sdk::genesis_config::create_genesis_config; use solana_sdk::hash::hash; let node_keypair = Arc::new(Keypair::new()); let cluster_info = ClusterInfo::new( ContactInfo::new_localhost(&node_keypair.pubkey(), timestamp()), node_keypair, ); let (genesis_config, _mint_keypair) = create_genesis_config(1); let bank = Arc::new(Bank::new(&genesis_config)); let mut config = ValidatorConfig::default(); let rpc_override_health_check = Arc::new(AtomicBool::new(false)); assert!(!wait_for_supermajority( &config, &bank, &cluster_info, rpc_override_health_check.clone() )); // bank=0, wait=1, should fail config.wait_for_supermajority = Some(1); assert!(wait_for_supermajority( &config, &bank, &cluster_info, rpc_override_health_check.clone() )); // bank=1, wait=0, should pass, bank is past the wait slot let bank = Bank::new_from_parent(&bank, &Pubkey::default(), 1); config.wait_for_supermajority = Some(0); assert!(!wait_for_supermajority( &config, &bank, &cluster_info, rpc_override_health_check.clone() )); // bank=1, wait=1, equal, but bad hash provided config.wait_for_supermajority = Some(1); config.expected_bank_hash = Some(hash(&[1])); assert!(wait_for_supermajority( &config, &bank, &cluster_info, rpc_override_health_check )); } }