use anemo::Network;
use anemo::PeerId;
use anemo_tower::callback::CallbackLayer;
use anemo_tower::trace::DefaultMakeSpan;
use anemo_tower::trace::DefaultOnFailure;
use anemo_tower::trace::TraceLayer;
use anyhow::anyhow;
use anyhow::Context;
use anyhow::Result;
use arc_swap::ArcSwap;
use fastcrypto_zkp::bn254::zk_login::JwkId;
use fastcrypto_zkp::bn254::zk_login::OIDCProvider;
use futures::future::BoxFuture;
use mysten_common::debug_fatal;
use prometheus::Registry;
use std::collections::{BTreeSet, HashMap, HashSet};
use std::fmt;
use std::future::Future;
use std::path::PathBuf;
use std::str::FromStr;
#[cfg(msim)]
use std::sync::atomic::Ordering;
use std::sync::{Arc, Weak};
use std::time::Duration;
use sui_core::authority::authority_store_tables::{
AuthorityPerpetualTablesOptions, AuthorityPrunerTables,
};
use sui_core::authority::backpressure::BackpressureManager;
use sui_core::authority::epoch_start_configuration::EpochFlag;
use sui_core::authority::execution_time_estimator::ExecutionTimeObserver;
use sui_core::authority::shared_object_version_manager::Schedulable;
use sui_core::authority::ExecutionEnv;
use sui_core::authority::RandomnessRoundReceiver;
use sui_core::consensus_adapter::ConsensusClient;
use sui_core::consensus_manager::UpdatableConsensusClient;
use sui_core::epoch::randomness::RandomnessManager;
use sui_core::execution_cache::build_execution_cache;
use sui_network::validator::server::SUI_TLS_SERVER_NAME;
use sui_types::full_checkpoint_content::Checkpoint;
use sui_core::execution_scheduler::SchedulingSource;
use sui_core::global_state_hasher::GlobalStateHashMetrics;
use sui_core::storage::RestReadStore;
use sui_json_rpc::bridge_api::BridgeReadApi;
use sui_json_rpc_api::JsonRpcMetrics;
use sui_network::randomness;
use sui_rpc_api::subscription::SubscriptionService;
use sui_rpc_api::RpcMetrics;
use sui_rpc_api::ServerVersion;
use sui_types::base_types::ConciseableName;
use sui_types::crypto::RandomnessRound;
use sui_types::digests::{
ChainIdentifier, CheckpointDigest, TransactionDigest, TransactionEffectsDigest,
};
use sui_types::executable_transaction::VerifiedExecutableTransaction;
use sui_types::messages_consensus::AuthorityCapabilitiesV2;
use sui_types::messages_consensus::ConsensusTransactionKind;
use sui_types::sui_system_state::SuiSystemState;
use sui_types::transaction::VerifiedCertificate;
use tap::tap::TapFallible;
use tokio::sync::oneshot;
use tokio::sync::{broadcast, mpsc, watch, Mutex};
use tokio::task::JoinHandle;
use tower::ServiceBuilder;
use tracing::{debug, error, warn};
use tracing::{error_span, info, Instrument};
use fastcrypto_zkp::bn254::zk_login::JWK;
pub use handle::SuiNodeHandle;
use mysten_metrics::{spawn_monitored_task, RegistryService};
use mysten_service::server_timing::server_timing_middleware;
use sui_config::node::{DBCheckpointConfig, RunWithRange};
use sui_config::node::{ForkCrashBehavior, ForkRecoveryConfig};
use sui_config::node_config_metrics::NodeConfigMetrics;
use sui_config::{ConsensusConfig, NodeConfig};
use sui_core::authority::authority_per_epoch_store::AuthorityPerEpochStore;
use sui_core::authority::authority_store_tables::AuthorityPerpetualTables;
use sui_core::authority::epoch_start_configuration::EpochStartConfigTrait;
use sui_core::authority::epoch_start_configuration::EpochStartConfiguration;
use sui_core::authority::submitted_transaction_cache::SubmittedTransactionCacheMetrics;
use sui_core::authority_aggregator::{AuthAggMetrics, AuthorityAggregator};
use sui_core::authority_server::{ValidatorService, ValidatorServiceMetrics};
use sui_core::checkpoints::checkpoint_executor::metrics::CheckpointExecutorMetrics;
use sui_core::checkpoints::checkpoint_executor::{CheckpointExecutor, StopReason};
use sui_core::checkpoints::{
CheckpointMetrics, CheckpointService, CheckpointStore, SendCheckpointToStateSync,
SubmitCheckpointToConsensus,
};
use sui_core::consensus_adapter::{
CheckConnection, ConnectionMonitorStatus, ConsensusAdapter, ConsensusAdapterMetrics,
};
use sui_core::consensus_manager::ConsensusManager;
use sui_core::consensus_throughput_calculator::{
ConsensusThroughputCalculator, ConsensusThroughputProfiler, ThroughputProfileRanges,
};
use sui_core::consensus_validator::{SuiTxValidator, SuiTxValidatorMetrics};
use sui_core::db_checkpoint_handler::DBCheckpointHandler;
use sui_core::epoch::committee_store::CommitteeStore;
use sui_core::epoch::consensus_store_pruner::ConsensusStorePruner;
use sui_core::epoch::epoch_metrics::EpochMetrics;
use sui_core::epoch::reconfiguration::ReconfigurationInitiator;
use sui_core::global_state_hasher::GlobalStateHasher;
use sui_core::jsonrpc_index::IndexStore;
use sui_core::module_cache_metrics::ResolverMetrics;
use sui_core::overload_monitor::overload_monitor;
use sui_core::rpc_index::RpcIndexStore;
use sui_core::signature_verifier::SignatureVerifierMetrics;
use sui_core::storage::RocksDbStore;
use sui_core::transaction_orchestrator::TransactionOrchestrator;
use sui_core::{
authority::{AuthorityState, AuthorityStore},
authority_client::NetworkAuthorityClient,
};
use sui_json_rpc::coin_api::CoinReadApi;
use sui_json_rpc::governance_api::GovernanceReadApi;
use sui_json_rpc::indexer_api::IndexerApi;
use sui_json_rpc::move_utils::MoveUtils;
use sui_json_rpc::read_api::ReadApi;
use sui_json_rpc::transaction_builder_api::TransactionBuilderApi;
use sui_json_rpc::transaction_execution_api::TransactionExecutionApi;
use sui_json_rpc::JsonRpcServerBuilder;
use sui_macros::fail_point;
use sui_macros::{fail_point_async, replay_log};
use sui_network::api::ValidatorServer;
use sui_network::discovery;
use sui_network::discovery::TrustedPeerChangeEvent;
use sui_network::state_sync;
use sui_network::validator::server::ServerBuilder;
use sui_protocol_config::{Chain, ProtocolConfig, ProtocolVersion};
use sui_snapshot::uploader::StateSnapshotUploader;
use sui_storage::{
http_key_value_store::HttpKVStore,
key_value_store::{FallbackTransactionKVStore, TransactionKeyValueStore},
key_value_store_metrics::KeyValueStoreMetrics,
};
use sui_types::base_types::{AuthorityName, EpochId};
use sui_types::committee::Committee;
use sui_types::crypto::KeypairTraits;
use sui_types::error::{SuiError, SuiResult};
use sui_types::messages_consensus::{
check_total_jwk_size, AuthorityCapabilitiesV1, ConsensusTransaction,
};
use sui_types::sui_system_state::epoch_start_sui_system_state::EpochStartSystemState;
use sui_types::sui_system_state::epoch_start_sui_system_state::EpochStartSystemStateTrait;
use sui_types::sui_system_state::SuiSystemStateTrait;
use sui_types::supported_protocol_versions::SupportedProtocolVersions;
use typed_store::rocks::default_db_options;
use typed_store::DBMetrics;
use crate::metrics::{GrpcMetrics, SuiNodeMetrics};
pub mod admin;
mod handle;
pub mod metrics;
pub struct ValidatorComponents {
validator_server_handle: SpawnOnce,
validator_overload_monitor_handle: Option<JoinHandle<()>>,
consensus_manager: Arc<ConsensusManager>,
consensus_store_pruner: ConsensusStorePruner,
consensus_adapter: Arc<ConsensusAdapter>,
checkpoint_metrics: Arc<CheckpointMetrics>,
sui_tx_validator_metrics: Arc<SuiTxValidatorMetrics>,
}
pub struct P2pComponents {
p2p_network: Network,
known_peers: HashMap<PeerId, String>,
discovery_handle: discovery::Handle,
state_sync_handle: state_sync::Handle,
randomness_handle: randomness::Handle,
}
#[cfg(msim)]
mod simulator {
use std::sync::atomic::AtomicBool;
use super::*;
pub(super) struct SimState {
pub sim_node: sui_simulator::runtime::NodeHandle,
pub sim_safe_mode_expected: AtomicBool,
_leak_detector: sui_simulator::NodeLeakDetector,
}
impl Default for SimState {
fn default() -> Self {
Self {
sim_node: sui_simulator::runtime::NodeHandle::current(),
sim_safe_mode_expected: AtomicBool::new(false),
_leak_detector: sui_simulator::NodeLeakDetector::new(),
}
}
}
type JwkInjector = dyn Fn(AuthorityName, &OIDCProvider) -> SuiResult<Vec<(JwkId, JWK)>>
+ Send
+ Sync
+ 'static;
fn default_fetch_jwks(
_authority: AuthorityName,
_provider: &OIDCProvider,
) -> SuiResult<Vec<(JwkId, JWK)>> {
use fastcrypto_zkp::bn254::zk_login::parse_jwks;
parse_jwks(
sui_types::zk_login_util::DEFAULT_JWK_BYTES,
&OIDCProvider::Twitch,
true,
)
.map_err(|_| SuiError::JWKRetrievalError)
}
thread_local! {
static JWK_INJECTOR: std::cell::RefCell<Arc<JwkInjector>> = std::cell::RefCell::new(Arc::new(default_fetch_jwks));
}
pub(super) fn get_jwk_injector() -> Arc<JwkInjector> {
JWK_INJECTOR.with(|injector| injector.borrow().clone())
}
pub fn set_jwk_injector(injector: Arc<JwkInjector>) {
JWK_INJECTOR.with(|cell| *cell.borrow_mut() = injector);
}
}
#[cfg(msim)]
pub use simulator::set_jwk_injector;
#[cfg(msim)]
use simulator::*;
use sui_core::authority::authority_store_pruner::{ObjectsCompactionFilter, PrunerWatermarks};
use sui_core::{
consensus_handler::ConsensusHandlerInitializer, safe_client::SafeClientMetricsBase,
validator_tx_finalizer::ValidatorTxFinalizer,
};
use sui_types::execution_config_utils::to_binary_config;
const DEFAULT_GRPC_CONNECT_TIMEOUT: Duration = Duration::from_secs(60);
pub struct SuiNode {
config: NodeConfig,
validator_components: Mutex<Option<ValidatorComponents>>,
#[allow(unused)]
http_servers: HttpServers,
state: Arc<AuthorityState>,
transaction_orchestrator: Option<Arc<TransactionOrchestrator<NetworkAuthorityClient>>>,
registry_service: RegistryService,
metrics: Arc<SuiNodeMetrics>,
checkpoint_metrics: Arc<CheckpointMetrics>,
_discovery: discovery::Handle,
_connection_monitor_handle: consensus_core::ConnectionMonitorHandle,
state_sync_handle: state_sync::Handle,
randomness_handle: randomness::Handle,
checkpoint_store: Arc<CheckpointStore>,
global_state_hasher: Mutex<Option<Arc<GlobalStateHasher>>>,
connection_monitor_status: Arc<ConnectionMonitorStatus>,
end_of_epoch_channel: broadcast::Sender<SuiSystemState>,
trusted_peer_change_tx: watch::Sender<TrustedPeerChangeEvent>,
backpressure_manager: Arc<BackpressureManager>,
_db_checkpoint_handle: Option<tokio::sync::broadcast::Sender<()>>,
#[cfg(msim)]
sim_state: SimState,
_state_snapshot_uploader_handle: Option<broadcast::Sender<()>>,
shutdown_channel_tx: broadcast::Sender<Option<RunWithRange>>,
auth_agg: Arc<ArcSwap<AuthorityAggregator<NetworkAuthorityClient>>>,
subscription_service_checkpoint_sender: Option<tokio::sync::mpsc::Sender<Checkpoint>>,
}
impl fmt::Debug for SuiNode {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_struct("SuiNode")
.field("name", &self.state.name.concise())
.finish()
}
}
static MAX_JWK_KEYS_PER_FETCH: usize = 100;
impl SuiNode {
pub async fn start(
config: NodeConfig,
registry_service: RegistryService,
) -> Result<Arc<SuiNode>> {
Self::start_async(
config,
registry_service,
ServerVersion::new("sui-node", "unknown"),
)
.await
}
fn start_jwk_updater(
config: &NodeConfig,
metrics: Arc<SuiNodeMetrics>,
authority: AuthorityName,
epoch_store: Arc<AuthorityPerEpochStore>,
consensus_adapter: Arc<ConsensusAdapter>,
) {
let epoch = epoch_store.epoch();
let supported_providers = config
.zklogin_oauth_providers
.get(&epoch_store.get_chain_identifier().chain())
.unwrap_or(&BTreeSet::new())
.iter()
.map(|s| OIDCProvider::from_str(s).expect("Invalid provider string"))
.collect::<Vec<_>>();
let fetch_interval = Duration::from_secs(config.jwk_fetch_interval_seconds);
info!(
?fetch_interval,
"Starting JWK updater tasks with supported providers: {:?}", supported_providers
);
fn validate_jwk(
metrics: &Arc<SuiNodeMetrics>,
provider: &OIDCProvider,
id: &JwkId,
jwk: &JWK,
) -> bool {
let Ok(iss_provider) = OIDCProvider::from_iss(&id.iss) else {
warn!(
"JWK iss {:?} (retrieved from {:?}) is not a valid provider",
id.iss, provider
);
metrics
.invalid_jwks
.with_label_values(&[&provider.to_string()])
.inc();
return false;
};
if iss_provider != *provider {
warn!(
"JWK iss {:?} (retrieved from {:?}) does not match provider {:?}",
id.iss, provider, iss_provider
);
metrics
.invalid_jwks
.with_label_values(&[&provider.to_string()])
.inc();
return false;
}
if !check_total_jwk_size(id, jwk) {
warn!("JWK {:?} (retrieved from {:?}) is too large", id, provider);
metrics
.invalid_jwks
.with_label_values(&[&provider.to_string()])
.inc();
return false;
}
true
}
for p in supported_providers.into_iter() {
let provider_str = p.to_string();
let epoch_store = epoch_store.clone();
let consensus_adapter = consensus_adapter.clone();
let metrics = metrics.clone();
spawn_monitored_task!(epoch_store.clone().within_alive_epoch(
async move {
let mut seen = HashSet::new();
loop {
info!("fetching JWK for provider {:?}", p);
metrics.jwk_requests.with_label_values(&[&provider_str]).inc();
match Self::fetch_jwks(authority, &p).await {
Err(e) => {
metrics.jwk_request_errors.with_label_values(&[&provider_str]).inc();
warn!("Error when fetching JWK for provider {:?} {:?}", p, e);
tokio::time::sleep(Duration::from_secs(30)).await;
continue;
}
Ok(mut keys) => {
metrics.total_jwks
.with_label_values(&[&provider_str])
.inc_by(keys.len() as u64);
keys.retain(|(id, jwk)| {
validate_jwk(&metrics, &p, id, jwk) &&
!epoch_store.jwk_active_in_current_epoch(id, jwk) &&
seen.insert((id.clone(), jwk.clone()))
});
metrics.unique_jwks
.with_label_values(&[&provider_str])
.inc_by(keys.len() as u64);
if keys.len() > MAX_JWK_KEYS_PER_FETCH {
warn!("Provider {:?} sent too many JWKs, only the first {} will be used", p, MAX_JWK_KEYS_PER_FETCH);
keys.truncate(MAX_JWK_KEYS_PER_FETCH);
}
for (id, jwk) in keys.into_iter() {
info!("Submitting JWK to consensus: {:?}", id);
let txn = ConsensusTransaction::new_jwk_fetched(authority, id, jwk);
consensus_adapter.submit(txn, None, &epoch_store, None, None)
.tap_err(|e| warn!("Error when submitting JWKs to consensus {:?}", e))
.ok();
}
}
}
tokio::time::sleep(fetch_interval).await;
}
}
.instrument(error_span!("jwk_updater_task", epoch)),
));
}
}
pub async fn start_async(
config: NodeConfig,
registry_service: RegistryService,
server_version: ServerVersion,
) -> Result<Arc<SuiNode>> {
NodeConfigMetrics::new(®istry_service.default_registry()).record_metrics(&config);
let mut config = config.clone();
if config.supported_protocol_versions.is_none() {
info!(
"populating config.supported_protocol_versions with default {:?}",
SupportedProtocolVersions::SYSTEM_DEFAULT
);
config.supported_protocol_versions = Some(SupportedProtocolVersions::SYSTEM_DEFAULT);
}
let run_with_range = config.run_with_range;
let is_validator = config.consensus_config().is_some();
let is_full_node = !is_validator;
let prometheus_registry = registry_service.default_registry();
info!(node =? config.protocol_public_key(),
"Initializing sui-node listening on {}", config.network_address
);
DBMetrics::init(registry_service.clone());
mysten_metrics::init_metrics(&prometheus_registry);
#[cfg(not(msim))]
mysten_metrics::thread_stall_monitor::start_thread_stall_monitor();
let genesis = config.genesis()?.clone();
let secret = Arc::pin(config.protocol_key_pair().copy());
let genesis_committee = genesis.committee()?;
let committee_store = Arc::new(CommitteeStore::new(
config.db_path().join("epochs"),
&genesis_committee,
None,
));
let pruner_watermarks = Arc::new(PrunerWatermarks::default());
let checkpoint_store = CheckpointStore::new(
&config.db_path().join("checkpoints"),
pruner_watermarks.clone(),
);
let checkpoint_metrics = CheckpointMetrics::new(®istry_service.default_registry());
Self::check_and_recover_forks(
&checkpoint_store,
&checkpoint_metrics,
is_validator,
config.fork_recovery.as_ref(),
)
.await?;
let mut pruner_db = None;
if config
.authority_store_pruning_config
.enable_compaction_filter
{
pruner_db = Some(Arc::new(AuthorityPrunerTables::open(
&config.db_path().join("store"),
)));
}
let compaction_filter = pruner_db
.clone()
.map(|db| ObjectsCompactionFilter::new(db, &prometheus_registry));
let enable_write_stall = config.enable_db_write_stall.unwrap_or(is_validator);
let perpetual_tables_options = AuthorityPerpetualTablesOptions {
enable_write_stall,
compaction_filter,
};
let perpetual_tables = Arc::new(AuthorityPerpetualTables::open(
&config.db_path().join("store"),
Some(perpetual_tables_options),
Some(pruner_watermarks.epoch_id.clone()),
));
let is_genesis = perpetual_tables
.database_is_empty()
.expect("Database read should not fail at init.");
let backpressure_manager =
BackpressureManager::new_from_checkpoint_store(&checkpoint_store);
let store =
AuthorityStore::open(perpetual_tables, &genesis, &config, &prometheus_registry).await?;
let cur_epoch = store.get_recovery_epoch_at_restart()?;
let committee = committee_store
.get_committee(&cur_epoch)?
.expect("Committee of the current epoch must exist");
let epoch_start_configuration = store
.get_epoch_start_configuration()?
.expect("EpochStartConfiguration of the current epoch must exist");
let cache_metrics = Arc::new(ResolverMetrics::new(&prometheus_registry));
let signature_verifier_metrics = SignatureVerifierMetrics::new(&prometheus_registry);
let cache_traits = build_execution_cache(
&config.execution_cache,
&prometheus_registry,
&store,
backpressure_manager.clone(),
);
let auth_agg = {
let safe_client_metrics_base = SafeClientMetricsBase::new(&prometheus_registry);
let auth_agg_metrics = Arc::new(AuthAggMetrics::new(&prometheus_registry));
Arc::new(ArcSwap::new(Arc::new(
AuthorityAggregator::new_from_epoch_start_state(
epoch_start_configuration.epoch_start_state(),
&committee_store,
safe_client_metrics_base,
auth_agg_metrics,
),
)))
};
let chain_id = ChainIdentifier::from(*genesis.checkpoint().digest());
let chain = match config.chain_override_for_testing {
Some(chain) => chain,
None => ChainIdentifier::from(*genesis.checkpoint().digest()).chain(),
};
let epoch_options = default_db_options().optimize_db_for_write_throughput(4);
let epoch_store = AuthorityPerEpochStore::new(
config.protocol_public_key(),
committee.clone(),
&config.db_path().join("store"),
Some(epoch_options.options),
EpochMetrics::new(®istry_service.default_registry()),
epoch_start_configuration,
cache_traits.backing_package_store.clone(),
cache_traits.object_store.clone(),
cache_metrics,
signature_verifier_metrics,
&config.expensive_safety_check_config,
(chain_id, chain),
checkpoint_store
.get_highest_executed_checkpoint_seq_number()
.expect("checkpoint store read cannot fail")
.unwrap_or(0),
Arc::new(SubmittedTransactionCacheMetrics::new(
®istry_service.default_registry(),
)),
)?;
info!("created epoch store");
replay_log!(
"Beginning replay run. Epoch: {:?}, Protocol config: {:?}",
epoch_store.epoch(),
epoch_store.protocol_config()
);
if is_genesis {
info!("checking SUI conservation at genesis");
cache_traits
.reconfig_api
.expensive_check_sui_conservation(&epoch_store)
.expect("SUI conservation check cannot fail at genesis");
}
let effective_buffer_stake = epoch_store.get_effective_buffer_stake_bps();
let default_buffer_stake = epoch_store
.protocol_config()
.buffer_stake_for_protocol_upgrade_bps();
if effective_buffer_stake != default_buffer_stake {
warn!(
?effective_buffer_stake,
?default_buffer_stake,
"buffer_stake_for_protocol_upgrade_bps is currently overridden"
);
}
checkpoint_store.insert_genesis_checkpoint(
genesis.checkpoint(),
genesis.checkpoint_contents().clone(),
&epoch_store,
);
info!("creating state sync store");
let state_sync_store = RocksDbStore::new(
cache_traits.clone(),
committee_store.clone(),
checkpoint_store.clone(),
);
let index_store = if is_full_node && config.enable_index_processing {
info!("creating index store");
Some(Arc::new(IndexStore::new(
config.db_path().join("indexes"),
&prometheus_registry,
epoch_store
.protocol_config()
.max_move_identifier_len_as_option(),
config.remove_deprecated_tables,
)))
} else {
None
};
let rpc_index = if is_full_node && config.rpc().is_some_and(|rpc| rpc.enable_indexing()) {
Some(Arc::new(
RpcIndexStore::new(
&config.db_path(),
&store,
&checkpoint_store,
&epoch_store,
&cache_traits.backing_package_store,
config.rpc().and_then(|c| c.index_initialization_config()),
)
.await,
))
} else {
None
};
let chain_identifier = epoch_store.get_chain_identifier();
info!("creating archive reader");
let (trusted_peer_change_tx, trusted_peer_change_rx) = watch::channel(Default::default());
let (randomness_tx, randomness_rx) = mpsc::channel(
config
.p2p_config
.randomness
.clone()
.unwrap_or_default()
.mailbox_capacity(),
);
let P2pComponents {
p2p_network,
known_peers,
discovery_handle,
state_sync_handle,
randomness_handle,
} = Self::create_p2p_network(
&config,
state_sync_store.clone(),
chain_identifier,
trusted_peer_change_rx,
randomness_tx,
&prometheus_registry,
)?;
send_trusted_peer_change(
&config,
&trusted_peer_change_tx,
epoch_store.epoch_start_state(),
)
.expect("Initial trusted peers must be set");
info!("start snapshot upload");
let state_snapshot_handle = Self::start_state_snapshot(
&config,
&prometheus_registry,
checkpoint_store.clone(),
chain_identifier,
)?;
info!("start db checkpoint");
let (db_checkpoint_config, db_checkpoint_handle) = Self::start_db_checkpoint(
&config,
&prometheus_registry,
state_snapshot_handle.is_some(),
)?;
if !epoch_store
.protocol_config()
.simplified_unwrap_then_delete()
{
config
.authority_store_pruning_config
.set_killswitch_tombstone_pruning(true);
}
let authority_name = config.protocol_public_key();
let validator_tx_finalizer =
config
.enable_validator_tx_finalizer
.then_some(Arc::new(ValidatorTxFinalizer::new(
auth_agg.clone(),
authority_name,
&prometheus_registry,
)));
info!("create authority state");
let state = AuthorityState::new(
authority_name,
secret,
config.supported_protocol_versions.unwrap(),
store.clone(),
cache_traits.clone(),
epoch_store.clone(),
committee_store.clone(),
index_store.clone(),
rpc_index,
checkpoint_store.clone(),
&prometheus_registry,
genesis.objects(),
&db_checkpoint_config,
config.clone(),
validator_tx_finalizer,
chain_identifier,
pruner_db,
config.policy_config.clone(),
config.firewall_config.clone(),
pruner_watermarks,
)
.await;
if epoch_store.epoch() == 0 {
let txn = &genesis.transaction();
let span = error_span!("genesis_txn", tx_digest = ?txn.digest());
let transaction =
sui_types::executable_transaction::VerifiedExecutableTransaction::new_unchecked(
sui_types::executable_transaction::ExecutableTransaction::new_from_data_and_sig(
genesis.transaction().data().clone(),
sui_types::executable_transaction::CertificateProof::Checkpoint(0, 0),
),
);
state
.try_execute_immediately(
&transaction,
ExecutionEnv::new().with_scheduling_source(SchedulingSource::NonFastPath),
&epoch_store,
)
.instrument(span)
.await
.unwrap();
}
RandomnessRoundReceiver::spawn(state.clone(), randomness_rx);
if config
.expensive_safety_check_config
.enable_secondary_index_checks()
{
if let Some(indexes) = state.indexes.clone() {
sui_core::verify_indexes::verify_indexes(
state.get_global_state_hash_store().as_ref(),
indexes,
)
.expect("secondary indexes are inconsistent");
}
}
let (end_of_epoch_channel, end_of_epoch_receiver) =
broadcast::channel(config.end_of_epoch_broadcast_channel_capacity);
let transaction_orchestrator = if is_full_node && run_with_range.is_none() {
Some(Arc::new(TransactionOrchestrator::new_with_auth_aggregator(
auth_agg.load_full(),
state.clone(),
end_of_epoch_receiver,
&config.db_path(),
&prometheus_registry,
&config,
)))
} else {
None
};
let (http_servers, subscription_service_checkpoint_sender) = build_http_servers(
state.clone(),
state_sync_store,
&transaction_orchestrator.clone(),
&config,
&prometheus_registry,
server_version,
)
.await?;
let global_state_hasher = Arc::new(GlobalStateHasher::new(
cache_traits.global_state_hash_store.clone(),
GlobalStateHashMetrics::new(&prometheus_registry),
));
let authority_names_to_peer_ids = epoch_store
.epoch_start_state()
.get_authority_names_to_peer_ids();
let network_connection_metrics = consensus_core::QuinnConnectionMetrics::new(
"sui",
®istry_service.default_registry(),
);
let authority_names_to_peer_ids = ArcSwap::from_pointee(authority_names_to_peer_ids);
let connection_monitor_handle = consensus_core::AnemoConnectionMonitor::spawn(
p2p_network.downgrade(),
Arc::new(network_connection_metrics),
known_peers,
);
let connection_monitor_status = ConnectionMonitorStatus {
connection_statuses: connection_monitor_handle.connection_statuses(),
authority_names_to_peer_ids,
};
let connection_monitor_status = Arc::new(connection_monitor_status);
let sui_node_metrics = Arc::new(SuiNodeMetrics::new(®istry_service.default_registry()));
sui_node_metrics
.binary_max_protocol_version
.set(ProtocolVersion::MAX.as_u64() as i64);
sui_node_metrics
.configured_max_protocol_version
.set(config.supported_protocol_versions.unwrap().max.as_u64() as i64);
let validator_components = if state.is_validator(&epoch_store) {
let (components, _) = futures::join!(
Self::construct_validator_components(
config.clone(),
state.clone(),
committee,
epoch_store.clone(),
checkpoint_store.clone(),
state_sync_handle.clone(),
randomness_handle.clone(),
Arc::downgrade(&global_state_hasher),
backpressure_manager.clone(),
connection_monitor_status.clone(),
®istry_service,
sui_node_metrics.clone(),
checkpoint_metrics.clone(),
),
Self::reexecute_pending_consensus_certs(&epoch_store, &state,)
);
let mut components = components?;
components.consensus_adapter.submit_recovered(&epoch_store);
components.validator_server_handle = components.validator_server_handle.start().await;
Some(components)
} else {
None
};
let (shutdown_channel, _) = broadcast::channel::<Option<RunWithRange>>(1);
let node = Self {
config,
validator_components: Mutex::new(validator_components),
http_servers,
state,
transaction_orchestrator,
registry_service,
metrics: sui_node_metrics,
checkpoint_metrics,
_discovery: discovery_handle,
_connection_monitor_handle: connection_monitor_handle,
state_sync_handle,
randomness_handle,
checkpoint_store,
global_state_hasher: Mutex::new(Some(global_state_hasher)),
end_of_epoch_channel,
connection_monitor_status,
trusted_peer_change_tx,
backpressure_manager,
_db_checkpoint_handle: db_checkpoint_handle,
#[cfg(msim)]
sim_state: Default::default(),
_state_snapshot_uploader_handle: state_snapshot_handle,
shutdown_channel_tx: shutdown_channel,
auth_agg,
subscription_service_checkpoint_sender,
};
info!("SuiNode started!");
let node = Arc::new(node);
let node_copy = node.clone();
spawn_monitored_task!(async move {
let result = Self::monitor_reconfiguration(node_copy, epoch_store).await;
if let Err(error) = result {
warn!("Reconfiguration finished with error {:?}", error);
}
});
Ok(node)
}
pub fn subscribe_to_epoch_change(&self) -> broadcast::Receiver<SuiSystemState> {
self.end_of_epoch_channel.subscribe()
}
pub fn subscribe_to_shutdown_channel(&self) -> broadcast::Receiver<Option<RunWithRange>> {
self.shutdown_channel_tx.subscribe()
}
pub fn current_epoch_for_testing(&self) -> EpochId {
self.state.current_epoch_for_testing()
}
pub fn db_checkpoint_path(&self) -> PathBuf {
self.config.db_checkpoint_path()
}
pub async fn close_epoch(&self, epoch_store: &Arc<AuthorityPerEpochStore>) -> SuiResult {
info!("close_epoch (current epoch = {})", epoch_store.epoch());
self.validator_components
.lock()
.await
.as_ref()
.ok_or_else(|| SuiError::from("Node is not a validator"))?
.consensus_adapter
.close_epoch(epoch_store);
Ok(())
}
pub fn clear_override_protocol_upgrade_buffer_stake(&self, epoch: EpochId) -> SuiResult {
self.state
.clear_override_protocol_upgrade_buffer_stake(epoch)
}
pub fn set_override_protocol_upgrade_buffer_stake(
&self,
epoch: EpochId,
buffer_stake_bps: u64,
) -> SuiResult {
self.state
.set_override_protocol_upgrade_buffer_stake(epoch, buffer_stake_bps)
}
pub async fn close_epoch_for_testing(&self) -> SuiResult {
let epoch_store = self.state.epoch_store_for_testing();
self.close_epoch(&epoch_store).await
}
fn start_state_snapshot(
config: &NodeConfig,
prometheus_registry: &Registry,
checkpoint_store: Arc<CheckpointStore>,
chain_identifier: ChainIdentifier,
) -> Result<Option<tokio::sync::broadcast::Sender<()>>> {
if let Some(remote_store_config) = &config.state_snapshot_write_config.object_store_config {
let snapshot_uploader = StateSnapshotUploader::new(
&config.db_checkpoint_path(),
&config.snapshot_path(),
remote_store_config.clone(),
60,
prometheus_registry,
checkpoint_store,
chain_identifier,
)?;
Ok(Some(snapshot_uploader.start()))
} else {
Ok(None)
}
}
fn start_db_checkpoint(
config: &NodeConfig,
prometheus_registry: &Registry,
state_snapshot_enabled: bool,
) -> Result<(
DBCheckpointConfig,
Option<tokio::sync::broadcast::Sender<()>>,
)> {
let checkpoint_path = Some(
config
.db_checkpoint_config
.checkpoint_path
.clone()
.unwrap_or_else(|| config.db_checkpoint_path()),
);
let db_checkpoint_config = if config.db_checkpoint_config.checkpoint_path.is_none() {
DBCheckpointConfig {
checkpoint_path,
perform_db_checkpoints_at_epoch_end: if state_snapshot_enabled {
true
} else {
config
.db_checkpoint_config
.perform_db_checkpoints_at_epoch_end
},
..config.db_checkpoint_config.clone()
}
} else {
config.db_checkpoint_config.clone()
};
match (
db_checkpoint_config.object_store_config.as_ref(),
state_snapshot_enabled,
) {
(None, false) => Ok((db_checkpoint_config, None)),
(_, _) => {
let handler = DBCheckpointHandler::new(
&db_checkpoint_config.checkpoint_path.clone().unwrap(),
db_checkpoint_config.object_store_config.as_ref(),
60,
db_checkpoint_config
.prune_and_compact_before_upload
.unwrap_or(true),
config.authority_store_pruning_config.clone(),
prometheus_registry,
state_snapshot_enabled,
)?;
Ok((
db_checkpoint_config,
Some(DBCheckpointHandler::start(handler)),
))
}
}
}
fn create_p2p_network(
config: &NodeConfig,
state_sync_store: RocksDbStore,
chain_identifier: ChainIdentifier,
trusted_peer_change_rx: watch::Receiver<TrustedPeerChangeEvent>,
randomness_tx: mpsc::Sender<(EpochId, RandomnessRound, Vec<u8>)>,
prometheus_registry: &Registry,
) -> Result<P2pComponents> {
let (state_sync, state_sync_server) = state_sync::Builder::new()
.config(config.p2p_config.state_sync.clone().unwrap_or_default())
.store(state_sync_store)
.archive_config(config.archive_reader_config())
.with_metrics(prometheus_registry)
.build();
let (discovery, discovery_server) = discovery::Builder::new(trusted_peer_change_rx)
.config(config.p2p_config.clone())
.build();
let discovery_config = config.p2p_config.discovery.clone().unwrap_or_default();
let known_peers: HashMap<PeerId, String> = discovery_config
.allowlisted_peers
.clone()
.into_iter()
.map(|ap| (ap.peer_id, "allowlisted_peer".to_string()))
.chain(config.p2p_config.seed_peers.iter().filter_map(|peer| {
peer.peer_id
.map(|peer_id| (peer_id, "seed_peer".to_string()))
}))
.collect();
let (randomness, randomness_router) =
randomness::Builder::new(config.protocol_public_key(), randomness_tx)
.config(config.p2p_config.randomness.clone().unwrap_or_default())
.with_metrics(prometheus_registry)
.build();
let p2p_network = {
let routes = anemo::Router::new()
.add_rpc_service(discovery_server)
.add_rpc_service(state_sync_server);
let routes = routes.merge(randomness_router);
let inbound_network_metrics =
consensus_core::NetworkRouteMetrics::new("sui", "inbound", prometheus_registry);
let outbound_network_metrics =
consensus_core::NetworkRouteMetrics::new("sui", "outbound", prometheus_registry);
let service = ServiceBuilder::new()
.layer(
TraceLayer::new_for_server_errors()
.make_span_with(DefaultMakeSpan::new().level(tracing::Level::INFO))
.on_failure(DefaultOnFailure::new().level(tracing::Level::WARN)),
)
.layer(CallbackLayer::new(
consensus_core::MetricsMakeCallbackHandler::new(
Arc::new(inbound_network_metrics),
config.p2p_config.excessive_message_size(),
),
))
.service(routes);
let outbound_layer = ServiceBuilder::new()
.layer(
TraceLayer::new_for_client_and_server_errors()
.make_span_with(DefaultMakeSpan::new().level(tracing::Level::INFO))
.on_failure(DefaultOnFailure::new().level(tracing::Level::WARN)),
)
.layer(CallbackLayer::new(
consensus_core::MetricsMakeCallbackHandler::new(
Arc::new(outbound_network_metrics),
config.p2p_config.excessive_message_size(),
),
))
.into_inner();
let mut anemo_config = config.p2p_config.anemo_config.clone().unwrap_or_default();
anemo_config.max_frame_size = Some(1 << 30);
let mut quic_config = anemo_config.quic.unwrap_or_default();
if quic_config.socket_send_buffer_size.is_none() {
quic_config.socket_send_buffer_size = Some(20 << 20);
}
if quic_config.socket_receive_buffer_size.is_none() {
quic_config.socket_receive_buffer_size = Some(20 << 20);
}
quic_config.allow_failed_socket_buffer_size_setting = true;
if quic_config.max_concurrent_bidi_streams.is_none() {
quic_config.max_concurrent_bidi_streams = Some(500);
}
if quic_config.max_concurrent_uni_streams.is_none() {
quic_config.max_concurrent_uni_streams = Some(500);
}
if quic_config.stream_receive_window.is_none() {
quic_config.stream_receive_window = Some(100 << 20);
}
if quic_config.receive_window.is_none() {
quic_config.receive_window = Some(200 << 20);
}
if quic_config.send_window.is_none() {
quic_config.send_window = Some(200 << 20);
}
if quic_config.crypto_buffer_size.is_none() {
quic_config.crypto_buffer_size = Some(1 << 20);
}
if quic_config.max_idle_timeout_ms.is_none() {
quic_config.max_idle_timeout_ms = Some(30_000);
}
if quic_config.keep_alive_interval_ms.is_none() {
quic_config.keep_alive_interval_ms = Some(5_000);
}
anemo_config.quic = Some(quic_config);
let server_name = format!("sui-{}", chain_identifier);
let network = Network::bind(config.p2p_config.listen_address)
.server_name(&server_name)
.private_key(config.network_key_pair().copy().private().0.to_bytes())
.config(anemo_config)
.outbound_request_layer(outbound_layer)
.start(service)?;
info!(
server_name = server_name,
"P2p network started on {}",
network.local_addr()
);
network
};
let discovery_handle =
discovery.start(p2p_network.clone(), config.network_key_pair().copy());
let state_sync_handle = state_sync.start(p2p_network.clone());
let randomness_handle = randomness.start(p2p_network.clone());
Ok(P2pComponents {
p2p_network,
known_peers,
discovery_handle,
state_sync_handle,
randomness_handle,
})
}
async fn construct_validator_components(
config: NodeConfig,
state: Arc<AuthorityState>,
committee: Arc<Committee>,
epoch_store: Arc<AuthorityPerEpochStore>,
checkpoint_store: Arc<CheckpointStore>,
state_sync_handle: state_sync::Handle,
randomness_handle: randomness::Handle,
global_state_hasher: Weak<GlobalStateHasher>,
backpressure_manager: Arc<BackpressureManager>,
connection_monitor_status: Arc<ConnectionMonitorStatus>,
registry_service: &RegistryService,
sui_node_metrics: Arc<SuiNodeMetrics>,
checkpoint_metrics: Arc<CheckpointMetrics>,
) -> Result<ValidatorComponents> {
let mut config_clone = config.clone();
let consensus_config = config_clone
.consensus_config
.as_mut()
.ok_or_else(|| anyhow!("Validator is missing consensus config"))?;
let client = Arc::new(UpdatableConsensusClient::new());
let consensus_adapter = Arc::new(Self::construct_consensus_adapter(
&committee,
consensus_config,
state.name,
connection_monitor_status.clone(),
®istry_service.default_registry(),
epoch_store.protocol_config().clone(),
client.clone(),
checkpoint_store.clone(),
));
let consensus_manager = Arc::new(ConsensusManager::new(
&config,
consensus_config,
registry_service,
client,
));
let consensus_store_pruner = ConsensusStorePruner::new(
consensus_manager.get_storage_base_path(),
consensus_config.db_retention_epochs(),
consensus_config.db_pruner_period(),
®istry_service.default_registry(),
);
let sui_tx_validator_metrics =
SuiTxValidatorMetrics::new(®istry_service.default_registry());
let validator_server_handle = Self::start_grpc_validator_service(
&config,
state.clone(),
consensus_adapter.clone(),
®istry_service.default_registry(),
)
.await?;
let validator_overload_monitor_handle = if config
.authority_overload_config
.max_load_shedding_percentage
> 0
{
let authority_state = Arc::downgrade(&state);
let overload_config = config.authority_overload_config.clone();
fail_point!("starting_overload_monitor");
Some(spawn_monitored_task!(overload_monitor(
authority_state,
overload_config,
)))
} else {
None
};
Self::start_epoch_specific_validator_components(
&config,
state.clone(),
consensus_adapter,
checkpoint_store,
epoch_store,
state_sync_handle,
randomness_handle,
consensus_manager,
consensus_store_pruner,
global_state_hasher,
backpressure_manager,
validator_server_handle,
validator_overload_monitor_handle,
checkpoint_metrics,
sui_node_metrics,
sui_tx_validator_metrics,
)
.await
}
async fn start_epoch_specific_validator_components(
config: &NodeConfig,
state: Arc<AuthorityState>,
consensus_adapter: Arc<ConsensusAdapter>,
checkpoint_store: Arc<CheckpointStore>,
epoch_store: Arc<AuthorityPerEpochStore>,
state_sync_handle: state_sync::Handle,
randomness_handle: randomness::Handle,
consensus_manager: Arc<ConsensusManager>,
consensus_store_pruner: ConsensusStorePruner,
state_hasher: Weak<GlobalStateHasher>,
backpressure_manager: Arc<BackpressureManager>,
validator_server_handle: SpawnOnce,
validator_overload_monitor_handle: Option<JoinHandle<()>>,
checkpoint_metrics: Arc<CheckpointMetrics>,
sui_node_metrics: Arc<SuiNodeMetrics>,
sui_tx_validator_metrics: Arc<SuiTxValidatorMetrics>,
) -> Result<ValidatorComponents> {
let checkpoint_service = Self::build_checkpoint_service(
config,
consensus_adapter.clone(),
checkpoint_store.clone(),
epoch_store.clone(),
state.clone(),
state_sync_handle,
state_hasher,
checkpoint_metrics.clone(),
);
let low_scoring_authorities = Arc::new(ArcSwap::new(Arc::new(HashMap::new())));
consensus_adapter.swap_low_scoring_authorities(low_scoring_authorities.clone());
if epoch_store.randomness_state_enabled() {
let randomness_manager = RandomnessManager::try_new(
Arc::downgrade(&epoch_store),
Box::new(consensus_adapter.clone()),
randomness_handle,
config.protocol_key_pair(),
)
.await;
if let Some(randomness_manager) = randomness_manager {
epoch_store
.set_randomness_manager(randomness_manager)
.await?;
}
}
ExecutionTimeObserver::spawn(
epoch_store.clone(),
Box::new(consensus_adapter.clone()),
config
.execution_time_observer_config
.clone()
.unwrap_or_default(),
);
let throughput_calculator = Arc::new(ConsensusThroughputCalculator::new(
None,
state.metrics.clone(),
));
let throughput_profiler = Arc::new(ConsensusThroughputProfiler::new(
throughput_calculator.clone(),
None,
None,
state.metrics.clone(),
ThroughputProfileRanges::from_chain(epoch_store.get_chain_identifier()),
));
consensus_adapter.swap_throughput_profiler(throughput_profiler);
let consensus_handler_initializer = ConsensusHandlerInitializer::new(
state.clone(),
checkpoint_service.clone(),
epoch_store.clone(),
consensus_adapter.clone(),
low_scoring_authorities,
throughput_calculator,
backpressure_manager,
);
info!("Starting consensus manager asynchronously");
tokio::spawn({
let config = config.clone();
let epoch_store = epoch_store.clone();
let sui_tx_validator = SuiTxValidator::new(
state.clone(),
consensus_adapter.clone(),
checkpoint_service.clone(),
sui_tx_validator_metrics.clone(),
);
let consensus_manager = consensus_manager.clone();
async move {
consensus_manager
.start(
&config,
epoch_store,
consensus_handler_initializer,
sui_tx_validator,
)
.await;
}
});
let replay_waiter = consensus_manager.replay_waiter();
info!("Spawning checkpoint service");
let replay_waiter = if std::env::var("DISABLE_REPLAY_WAITER").is_ok() {
None
} else {
Some(replay_waiter)
};
checkpoint_service
.spawn(epoch_store.clone(), replay_waiter)
.await;
if epoch_store.authenticator_state_enabled() {
Self::start_jwk_updater(
config,
sui_node_metrics,
state.name,
epoch_store.clone(),
consensus_adapter.clone(),
);
}
Ok(ValidatorComponents {
validator_server_handle,
validator_overload_monitor_handle,
consensus_manager,
consensus_store_pruner,
consensus_adapter,
checkpoint_metrics,
sui_tx_validator_metrics,
})
}
fn build_checkpoint_service(
config: &NodeConfig,
consensus_adapter: Arc<ConsensusAdapter>,
checkpoint_store: Arc<CheckpointStore>,
epoch_store: Arc<AuthorityPerEpochStore>,
state: Arc<AuthorityState>,
state_sync_handle: state_sync::Handle,
state_hasher: Weak<GlobalStateHasher>,
checkpoint_metrics: Arc<CheckpointMetrics>,
) -> Arc<CheckpointService> {
let epoch_start_timestamp_ms = epoch_store.epoch_start_state().epoch_start_timestamp_ms();
let epoch_duration_ms = epoch_store.epoch_start_state().epoch_duration_ms();
debug!(
"Starting checkpoint service with epoch start timestamp {}
and epoch duration {}",
epoch_start_timestamp_ms, epoch_duration_ms
);
let checkpoint_output = Box::new(SubmitCheckpointToConsensus {
sender: consensus_adapter,
signer: state.secret.clone(),
authority: config.protocol_public_key(),
next_reconfiguration_timestamp_ms: epoch_start_timestamp_ms
.checked_add(epoch_duration_ms)
.expect("Overflow calculating next_reconfiguration_timestamp_ms"),
metrics: checkpoint_metrics.clone(),
});
let certified_checkpoint_output = SendCheckpointToStateSync::new(state_sync_handle);
let max_tx_per_checkpoint = max_tx_per_checkpoint(epoch_store.protocol_config());
let max_checkpoint_size_bytes =
epoch_store.protocol_config().max_checkpoint_size_bytes() as usize;
CheckpointService::build(
state.clone(),
checkpoint_store,
epoch_store,
state.get_transaction_cache_reader().clone(),
state_hasher,
checkpoint_output,
Box::new(certified_checkpoint_output),
checkpoint_metrics,
max_tx_per_checkpoint,
max_checkpoint_size_bytes,
)
}
fn construct_consensus_adapter(
committee: &Committee,
consensus_config: &ConsensusConfig,
authority: AuthorityName,
connection_monitor_status: Arc<ConnectionMonitorStatus>,
prometheus_registry: &Registry,
protocol_config: ProtocolConfig,
consensus_client: Arc<dyn ConsensusClient>,
checkpoint_store: Arc<CheckpointStore>,
) -> ConsensusAdapter {
let ca_metrics = ConsensusAdapterMetrics::new(prometheus_registry);
ConsensusAdapter::new(
consensus_client,
checkpoint_store,
authority,
connection_monitor_status,
consensus_config.max_pending_transactions(),
consensus_config.max_pending_transactions() * 2 / committee.num_members(),
consensus_config.max_submit_position,
consensus_config.submit_delay_step_override(),
ca_metrics,
protocol_config,
)
}
async fn start_grpc_validator_service(
config: &NodeConfig,
state: Arc<AuthorityState>,
consensus_adapter: Arc<ConsensusAdapter>,
prometheus_registry: &Registry,
) -> Result<SpawnOnce> {
let validator_service = ValidatorService::new(
state.clone(),
consensus_adapter,
Arc::new(ValidatorServiceMetrics::new(prometheus_registry)),
config.policy_config.clone().map(|p| p.client_id_source),
);
let mut server_conf = mysten_network::config::Config::new();
server_conf.connect_timeout = Some(DEFAULT_GRPC_CONNECT_TIMEOUT);
server_conf.http2_keepalive_interval = Some(DEFAULT_GRPC_CONNECT_TIMEOUT);
server_conf.http2_keepalive_timeout = Some(DEFAULT_GRPC_CONNECT_TIMEOUT);
server_conf.global_concurrency_limit = config.grpc_concurrency_limit;
server_conf.load_shed = config.grpc_load_shed;
let mut server_builder =
ServerBuilder::from_config(&server_conf, GrpcMetrics::new(prometheus_registry));
server_builder = server_builder.add_service(ValidatorServer::new(validator_service));
let tls_config = sui_tls::create_rustls_server_config(
config.network_key_pair().copy().private(),
SUI_TLS_SERVER_NAME.to_string(),
);
let network_address = config.network_address().clone();
let (ready_tx, ready_rx) = oneshot::channel();
Ok(SpawnOnce::new(ready_rx, async move {
let server = server_builder
.bind(&network_address, Some(tls_config))
.await
.unwrap_or_else(|err| panic!("Failed to bind to {network_address}: {err}"));
let local_addr = server.local_addr();
info!("Listening to traffic on {local_addr}");
ready_tx.send(()).unwrap();
if let Err(err) = server.serve().await {
info!("Server stopped: {err}");
}
info!("Server stopped");
}))
}
async fn reexecute_pending_consensus_certs(
epoch_store: &Arc<AuthorityPerEpochStore>,
state: &Arc<AuthorityState>,
) {
let mut pending_consensus_certificates = Vec::new();
let mut additional_certs = Vec::new();
for tx in epoch_store.get_all_pending_consensus_transactions() {
match tx.kind {
ConsensusTransactionKind::CertifiedTransaction(tx) if !tx.is_consensus_tx() => {
let tx = *tx;
let tx = VerifiedExecutableTransaction::new_from_certificate(
VerifiedCertificate::new_unchecked(tx),
);
if let Some(fx_digest) = epoch_store
.get_signed_effects_digest(tx.digest())
.expect("db error")
{
pending_consensus_certificates.push((
Schedulable::Transaction(tx),
ExecutionEnv::new().with_expected_effects_digest(fx_digest),
));
} else {
additional_certs.push((
Schedulable::Transaction(tx),
ExecutionEnv::new()
.with_scheduling_source(SchedulingSource::NonFastPath),
));
}
}
_ => (),
}
}
let digests = pending_consensus_certificates
.iter()
.map(|(tx, _)| *tx.key().unwrap_digest())
.collect::<Vec<_>>();
info!(
"reexecuting {} pending consensus certificates: {:?}",
digests.len(),
digests
);
state
.execution_scheduler()
.enqueue(pending_consensus_certificates, epoch_store);
state
.execution_scheduler()
.enqueue(additional_certs, epoch_store);
let timeout = if cfg!(msim) { 120 } else { 60 };
if tokio::time::timeout(
std::time::Duration::from_secs(timeout),
state
.get_transaction_cache_reader()
.notify_read_executed_effects_digests(
"SuiNode::notify_read_executed_effects_digests",
&digests,
),
)
.await
.is_err()
{
let executed_effects_digests = state
.get_transaction_cache_reader()
.multi_get_executed_effects_digests(&digests);
let pending_digests = digests
.iter()
.zip(executed_effects_digests.iter())
.filter_map(|(digest, executed_effects_digest)| {
if executed_effects_digest.is_none() {
Some(digest)
} else {
None
}
})
.collect::<Vec<_>>();
debug_fatal!(
"Timed out waiting for effects digests to be executed: {:?}",
pending_digests
);
}
}
pub fn state(&self) -> Arc<AuthorityState> {
self.state.clone()
}
pub fn reference_gas_price_for_testing(&self) -> Result<u64, anyhow::Error> {
self.state.reference_gas_price_for_testing()
}
pub fn clone_committee_store(&self) -> Arc<CommitteeStore> {
self.state.committee_store().clone()
}
pub fn clone_authority_aggregator(
&self,
) -> Option<Arc<AuthorityAggregator<NetworkAuthorityClient>>> {
self.transaction_orchestrator
.as_ref()
.map(|to| to.clone_authority_aggregator())
}
pub fn transaction_orchestrator(
&self,
) -> Option<Arc<TransactionOrchestrator<NetworkAuthorityClient>>> {
self.transaction_orchestrator.clone()
}
pub async fn monitor_reconfiguration(
self: Arc<Self>,
mut epoch_store: Arc<AuthorityPerEpochStore>,
) -> Result<()> {
let checkpoint_executor_metrics =
CheckpointExecutorMetrics::new(&self.registry_service.default_registry());
loop {
let mut hasher_guard = self.global_state_hasher.lock().await;
let hasher = hasher_guard.take().unwrap();
info!(
"Creating checkpoint executor for epoch {}",
epoch_store.epoch()
);
let checkpoint_executor = CheckpointExecutor::new(
epoch_store.clone(),
self.checkpoint_store.clone(),
self.state.clone(),
hasher.clone(),
self.backpressure_manager.clone(),
self.config.checkpoint_executor_config.clone(),
checkpoint_executor_metrics.clone(),
self.subscription_service_checkpoint_sender.clone(),
);
let run_with_range = self.config.run_with_range;
let cur_epoch_store = self.state.load_epoch_store_one_call_per_task();
self.metrics
.current_protocol_version
.set(cur_epoch_store.protocol_config().version.as_u64() as i64);
if let Some(components) = &*self.validator_components.lock().await {
tokio::time::sleep(Duration::from_millis(1)).await;
let config = cur_epoch_store.protocol_config();
let binary_config = to_binary_config(config);
let transaction = if config.authority_capabilities_v2() {
ConsensusTransaction::new_capability_notification_v2(
AuthorityCapabilitiesV2::new(
self.state.name,
cur_epoch_store.get_chain_identifier().chain(),
self.config
.supported_protocol_versions
.expect("Supported versions should be populated")
.truncate_below(config.version),
self.state
.get_available_system_packages(&binary_config)
.await,
),
)
} else {
ConsensusTransaction::new_capability_notification(AuthorityCapabilitiesV1::new(
self.state.name,
self.config
.supported_protocol_versions
.expect("Supported versions should be populated"),
self.state
.get_available_system_packages(&binary_config)
.await,
))
};
info!(?transaction, "submitting capabilities to consensus");
components.consensus_adapter.submit(
transaction,
None,
&cur_epoch_store,
None,
None,
)?;
}
let stop_condition = checkpoint_executor.run_epoch(run_with_range).await;
if stop_condition == StopReason::RunWithRangeCondition {
SuiNode::shutdown(&self).await;
self.shutdown_channel_tx
.send(run_with_range)
.expect("RunWithRangeCondition met but failed to send shutdown message");
return Ok(());
}
let latest_system_state = self
.state
.get_object_cache_reader()
.get_sui_system_state_object_unsafe()
.expect("Read Sui System State object cannot fail");
#[cfg(msim)]
if !self
.sim_state
.sim_safe_mode_expected
.load(Ordering::Relaxed)
{
debug_assert!(!latest_system_state.safe_mode());
}
#[cfg(not(msim))]
debug_assert!(!latest_system_state.safe_mode());
if let Err(err) = self.end_of_epoch_channel.send(latest_system_state.clone()) {
if self.state.is_fullnode(&cur_epoch_store) {
warn!(
"Failed to send end of epoch notification to subscriber: {:?}",
err
);
}
}
cur_epoch_store.record_is_safe_mode_metric(latest_system_state.safe_mode());
let new_epoch_start_state = latest_system_state.into_epoch_start_state();
self.auth_agg.store(Arc::new(
self.auth_agg
.load()
.recreate_with_new_epoch_start_state(&new_epoch_start_state),
));
let next_epoch_committee = new_epoch_start_state.get_sui_committee();
let next_epoch = next_epoch_committee.epoch();
assert_eq!(cur_epoch_store.epoch() + 1, next_epoch);
info!(
next_epoch,
"Finished executing all checkpoints in epoch. About to reconfigure the system."
);
fail_point_async!("reconfig_delay");
let authority_names_to_peer_ids =
new_epoch_start_state.get_authority_names_to_peer_ids();
self.connection_monitor_status
.update_mapping_for_epoch(authority_names_to_peer_ids);
cur_epoch_store.record_epoch_reconfig_start_time_metric();
let _ = send_trusted_peer_change(
&self.config,
&self.trusted_peer_change_tx,
&new_epoch_start_state,
);
let mut validator_components_lock_guard = self.validator_components.lock().await;
let new_epoch_store = self
.reconfigure_state(
&self.state,
&cur_epoch_store,
next_epoch_committee.clone(),
new_epoch_start_state,
hasher.clone(),
)
.await;
let new_validator_components = if let Some(ValidatorComponents {
validator_server_handle,
validator_overload_monitor_handle,
consensus_manager,
consensus_store_pruner,
consensus_adapter,
checkpoint_metrics,
sui_tx_validator_metrics,
}) = validator_components_lock_guard.take()
{
info!("Reconfiguring the validator.");
consensus_manager.shutdown().await;
info!("Consensus has shut down.");
info!("Epoch store finished reconfiguration.");
let global_state_hasher_metrics = Arc::into_inner(hasher)
.expect("Object state hasher should have no other references at this point")
.metrics();
let new_hasher = Arc::new(GlobalStateHasher::new(
self.state.get_global_state_hash_store().clone(),
global_state_hasher_metrics,
));
let weak_hasher = Arc::downgrade(&new_hasher);
*hasher_guard = Some(new_hasher);
consensus_store_pruner.prune(next_epoch).await;
if self.state.is_validator(&new_epoch_store) {
Some(
Self::start_epoch_specific_validator_components(
&self.config,
self.state.clone(),
consensus_adapter,
self.checkpoint_store.clone(),
new_epoch_store.clone(),
self.state_sync_handle.clone(),
self.randomness_handle.clone(),
consensus_manager,
consensus_store_pruner,
weak_hasher,
self.backpressure_manager.clone(),
validator_server_handle,
validator_overload_monitor_handle,
checkpoint_metrics,
self.metrics.clone(),
sui_tx_validator_metrics,
)
.await?,
)
} else {
info!("This node is no longer a validator after reconfiguration");
None
}
} else {
let global_state_hasher_metrics = Arc::into_inner(hasher)
.expect("Object state hasher should have no other references at this point")
.metrics();
let new_hasher = Arc::new(GlobalStateHasher::new(
self.state.get_global_state_hash_store().clone(),
global_state_hasher_metrics,
));
let weak_hasher = Arc::downgrade(&new_hasher);
*hasher_guard = Some(new_hasher);
if self.state.is_validator(&new_epoch_store) {
info!("Promoting the node from fullnode to validator, starting grpc server");
let mut components = Self::construct_validator_components(
self.config.clone(),
self.state.clone(),
Arc::new(next_epoch_committee.clone()),
new_epoch_store.clone(),
self.checkpoint_store.clone(),
self.state_sync_handle.clone(),
self.randomness_handle.clone(),
weak_hasher,
self.backpressure_manager.clone(),
self.connection_monitor_status.clone(),
&self.registry_service,
self.metrics.clone(),
self.checkpoint_metrics.clone(),
)
.await?;
components.validator_server_handle =
components.validator_server_handle.start().await;
Some(components)
} else {
None
}
};
*validator_components_lock_guard = new_validator_components;
cur_epoch_store.release_db_handles();
if cfg!(msim)
&& !matches!(
self.config
.authority_store_pruning_config
.num_epochs_to_retain_for_checkpoints(),
None | Some(u64::MAX) | Some(0)
)
{
self.state
.prune_checkpoints_for_eligible_epochs_for_testing(
self.config.clone(),
sui_core::authority::authority_store_pruner::AuthorityStorePruningMetrics::new_for_test(),
)
.await?;
}
epoch_store = new_epoch_store;
info!("Reconfiguration finished");
}
}
async fn shutdown(&self) {
if let Some(validator_components) = &*self.validator_components.lock().await {
validator_components.consensus_manager.shutdown().await;
}
}
async fn reconfigure_state(
&self,
state: &Arc<AuthorityState>,
cur_epoch_store: &AuthorityPerEpochStore,
next_epoch_committee: Committee,
next_epoch_start_system_state: EpochStartSystemState,
global_state_hasher: Arc<GlobalStateHasher>,
) -> Arc<AuthorityPerEpochStore> {
let next_epoch = next_epoch_committee.epoch();
let last_checkpoint = self
.checkpoint_store
.get_epoch_last_checkpoint(cur_epoch_store.epoch())
.expect("Error loading last checkpoint for current epoch")
.expect("Could not load last checkpoint for current epoch");
let last_checkpoint_seq = *last_checkpoint.sequence_number();
assert_eq!(
Some(last_checkpoint_seq),
self.checkpoint_store
.get_highest_executed_checkpoint_seq_number()
.expect("Error loading highest executed checkpoint sequence number")
);
let epoch_start_configuration = EpochStartConfiguration::new(
next_epoch_start_system_state,
*last_checkpoint.digest(),
state.get_object_store().as_ref(),
EpochFlag::default_flags_for_new_epoch(&state.config),
)
.expect("EpochStartConfiguration construction cannot fail");
let new_epoch_store = self
.state
.reconfigure(
cur_epoch_store,
self.config.supported_protocol_versions.unwrap(),
next_epoch_committee,
epoch_start_configuration,
global_state_hasher,
&self.config.expensive_safety_check_config,
last_checkpoint_seq,
)
.await
.expect("Reconfigure authority state cannot fail");
info!(next_epoch, "Node State has been reconfigured");
assert_eq!(next_epoch, new_epoch_store.epoch());
self.state.get_reconfig_api().update_epoch_flags_metrics(
cur_epoch_store.epoch_start_config().flags(),
new_epoch_store.epoch_start_config().flags(),
);
new_epoch_store
}
pub fn get_config(&self) -> &NodeConfig {
&self.config
}
pub fn randomness_handle(&self) -> randomness::Handle {
self.randomness_handle.clone()
}
fn get_digest_prefix(digest: impl std::fmt::Display) -> String {
let digest_str = digest.to_string();
if digest_str.len() >= 8 {
digest_str[0..8].to_string()
} else {
digest_str
}
}
async fn check_and_recover_forks(
checkpoint_store: &CheckpointStore,
checkpoint_metrics: &CheckpointMetrics,
is_validator: bool,
fork_recovery: Option<&ForkRecoveryConfig>,
) -> Result<()> {
if !is_validator {
return Ok(());
}
if let Some(recovery) = fork_recovery {
Self::try_recover_checkpoint_fork(checkpoint_store, recovery)?;
Self::try_recover_transaction_fork(checkpoint_store, recovery)?;
}
if let Some((checkpoint_seq, checkpoint_digest)) = checkpoint_store
.get_checkpoint_fork_detected()
.map_err(|e| {
error!("Failed to check for checkpoint fork: {:?}", e);
e
})?
{
Self::handle_checkpoint_fork(
checkpoint_seq,
checkpoint_digest,
checkpoint_metrics,
fork_recovery,
)
.await?;
}
if let Some((tx_digest, expected_effects, actual_effects)) = checkpoint_store
.get_transaction_fork_detected()
.map_err(|e| {
error!("Failed to check for transaction fork: {:?}", e);
e
})?
{
Self::handle_transaction_fork(
tx_digest,
expected_effects,
actual_effects,
checkpoint_metrics,
fork_recovery,
)
.await?;
}
Ok(())
}
fn try_recover_checkpoint_fork(
checkpoint_store: &CheckpointStore,
recovery: &ForkRecoveryConfig,
) -> Result<()> {
for (seq, expected_digest_str) in &recovery.checkpoint_overrides {
let Ok(expected_digest) = CheckpointDigest::from_str(expected_digest_str) else {
anyhow::bail!(
"Invalid checkpoint digest override for seq {}: {}",
seq,
expected_digest_str
);
};
if let Some(local_summary) = checkpoint_store.get_locally_computed_checkpoint(*seq)? {
let local_digest = sui_types::message_envelope::Message::digest(&local_summary);
if local_digest != expected_digest {
info!(
seq,
local = %Self::get_digest_prefix(local_digest),
expected = %Self::get_digest_prefix(expected_digest),
"Fork recovery: clearing locally_computed_checkpoints from {} due to digest mismatch",
seq
);
checkpoint_store
.clear_locally_computed_checkpoints_from(*seq)
.context(
"Failed to clear locally computed checkpoints from override seq",
)?;
}
}
}
if let Some((checkpoint_seq, checkpoint_digest)) =
checkpoint_store.get_checkpoint_fork_detected()?
{
if recovery.checkpoint_overrides.contains_key(&checkpoint_seq) {
info!(
"Fork recovery enabled: clearing checkpoint fork at seq {} with digest {:?}",
checkpoint_seq, checkpoint_digest
);
checkpoint_store
.clear_checkpoint_fork_detected()
.expect("Failed to clear checkpoint fork detected marker");
}
}
Ok(())
}
fn try_recover_transaction_fork(
checkpoint_store: &CheckpointStore,
recovery: &ForkRecoveryConfig,
) -> Result<()> {
if recovery.transaction_overrides.is_empty() {
return Ok(());
}
if let Some((tx_digest, _, _)) = checkpoint_store.get_transaction_fork_detected()? {
if recovery
.transaction_overrides
.contains_key(&tx_digest.to_string())
{
info!(
"Fork recovery enabled: clearing transaction fork for tx {:?}",
tx_digest
);
checkpoint_store
.clear_transaction_fork_detected()
.expect("Failed to clear transaction fork detected marker");
}
}
Ok(())
}
fn get_current_timestamp() -> u64 {
std::time::SystemTime::now()
.duration_since(std::time::SystemTime::UNIX_EPOCH)
.unwrap()
.as_secs()
}
async fn handle_checkpoint_fork(
checkpoint_seq: u64,
checkpoint_digest: CheckpointDigest,
checkpoint_metrics: &CheckpointMetrics,
fork_recovery: Option<&ForkRecoveryConfig>,
) -> Result<()> {
checkpoint_metrics
.checkpoint_fork_crash_mode
.with_label_values(&[
&checkpoint_seq.to_string(),
&Self::get_digest_prefix(checkpoint_digest),
&Self::get_current_timestamp().to_string(),
])
.set(1);
let behavior = fork_recovery
.map(|fr| fr.fork_crash_behavior)
.unwrap_or_default();
match behavior {
ForkCrashBehavior::AwaitForkRecovery => {
error!(
checkpoint_seq = checkpoint_seq,
checkpoint_digest = ?checkpoint_digest,
"Checkpoint fork detected! Node startup halted. Sleeping indefinitely."
);
futures::future::pending::<()>().await;
unreachable!("pending() should never return");
}
ForkCrashBehavior::ReturnError => {
error!(
checkpoint_seq = checkpoint_seq,
checkpoint_digest = ?checkpoint_digest,
"Checkpoint fork detected! Returning error."
);
Err(anyhow::anyhow!(
"Checkpoint fork detected! checkpoint_seq: {}, checkpoint_digest: {:?}",
checkpoint_seq,
checkpoint_digest
))
}
}
}
async fn handle_transaction_fork(
tx_digest: TransactionDigest,
expected_effects_digest: TransactionEffectsDigest,
actual_effects_digest: TransactionEffectsDigest,
checkpoint_metrics: &CheckpointMetrics,
fork_recovery: Option<&ForkRecoveryConfig>,
) -> Result<()> {
checkpoint_metrics
.transaction_fork_crash_mode
.with_label_values(&[
&Self::get_digest_prefix(tx_digest),
&Self::get_digest_prefix(expected_effects_digest),
&Self::get_digest_prefix(actual_effects_digest),
&Self::get_current_timestamp().to_string(),
])
.set(1);
let behavior = fork_recovery
.map(|fr| fr.fork_crash_behavior)
.unwrap_or_default();
match behavior {
ForkCrashBehavior::AwaitForkRecovery => {
error!(
tx_digest = ?tx_digest,
expected_effects_digest = ?expected_effects_digest,
actual_effects_digest = ?actual_effects_digest,
"Transaction fork detected! Node startup halted. Sleeping indefinitely."
);
futures::future::pending::<()>().await;
unreachable!("pending() should never return");
}
ForkCrashBehavior::ReturnError => {
error!(
tx_digest = ?tx_digest,
expected_effects_digest = ?expected_effects_digest,
actual_effects_digest = ?actual_effects_digest,
"Transaction fork detected! Returning error."
);
Err(anyhow::anyhow!(
"Transaction fork detected! tx_digest: {:?}, expected_effects: {:?}, actual_effects: {:?}",
tx_digest, expected_effects_digest, actual_effects_digest
))
}
}
}
}
#[cfg(not(msim))]
impl SuiNode {
async fn fetch_jwks(
_authority: AuthorityName,
provider: &OIDCProvider,
) -> SuiResult<Vec<(JwkId, JWK)>> {
use fastcrypto_zkp::bn254::zk_login::fetch_jwks;
let client = reqwest::Client::new();
fetch_jwks(provider, &client, true)
.await
.map_err(|_| SuiError::JWKRetrievalError)
}
}
#[cfg(msim)]
impl SuiNode {
pub fn get_sim_node_id(&self) -> sui_simulator::task::NodeId {
self.sim_state.sim_node.id()
}
pub fn set_safe_mode_expected(&self, new_value: bool) {
info!("Setting safe mode expected to {}", new_value);
self.sim_state
.sim_safe_mode_expected
.store(new_value, Ordering::Relaxed);
}
#[allow(unused_variables)]
async fn fetch_jwks(
authority: AuthorityName,
provider: &OIDCProvider,
) -> SuiResult<Vec<(JwkId, JWK)>> {
get_jwk_injector()(authority, provider)
}
}
enum SpawnOnce {
Unstarted(oneshot::Receiver<()>, Mutex<BoxFuture<'static, ()>>),
#[allow(unused)]
Started(JoinHandle<()>),
}
impl SpawnOnce {
pub fn new(
ready_rx: oneshot::Receiver<()>,
future: impl Future<Output = ()> + Send + 'static,
) -> Self {
Self::Unstarted(ready_rx, Mutex::new(Box::pin(future)))
}
pub async fn start(self) -> Self {
match self {
Self::Unstarted(ready_rx, future) => {
let future = future.into_inner();
let handle = tokio::spawn(future);
ready_rx.await.unwrap();
Self::Started(handle)
}
Self::Started(_) => self,
}
}
}
fn send_trusted_peer_change(
config: &NodeConfig,
sender: &watch::Sender<TrustedPeerChangeEvent>,
epoch_state_state: &EpochStartSystemState,
) -> Result<(), watch::error::SendError<TrustedPeerChangeEvent>> {
sender
.send(TrustedPeerChangeEvent {
new_peers: epoch_state_state.get_validator_as_p2p_peers(config.protocol_public_key()),
})
.tap_err(|err| {
warn!(
"Failed to send validator peer information to state sync: {:?}",
err
);
})
}
fn build_kv_store(
state: &Arc<AuthorityState>,
config: &NodeConfig,
registry: &Registry,
) -> Result<Arc<TransactionKeyValueStore>> {
let metrics = KeyValueStoreMetrics::new(registry);
let db_store = TransactionKeyValueStore::new("rocksdb", metrics.clone(), state.clone());
let base_url = &config.transaction_kv_store_read_config.base_url;
if base_url.is_empty() {
info!("no http kv store url provided, using local db only");
return Ok(Arc::new(db_store));
}
let base_url: url::Url = base_url.parse().tap_err(|e| {
error!(
"failed to parse config.transaction_kv_store_config.base_url ({:?}) as url: {}",
base_url, e
)
})?;
let network_str = match state.get_chain_identifier().chain() {
Chain::Mainnet => "/mainnet",
_ => {
info!("using local db only for kv store");
return Ok(Arc::new(db_store));
}
};
let base_url = base_url.join(network_str)?.to_string();
let http_store = HttpKVStore::new_kv(
&base_url,
config.transaction_kv_store_read_config.cache_size,
metrics.clone(),
)?;
info!("using local key-value store with fallback to http key-value store");
Ok(Arc::new(FallbackTransactionKVStore::new_kv(
db_store,
http_store,
metrics,
"json_rpc_fallback",
)))
}
async fn build_http_servers(
state: Arc<AuthorityState>,
store: RocksDbStore,
transaction_orchestrator: &Option<Arc<TransactionOrchestrator<NetworkAuthorityClient>>>,
config: &NodeConfig,
prometheus_registry: &Registry,
server_version: ServerVersion,
) -> Result<(HttpServers, Option<tokio::sync::mpsc::Sender<Checkpoint>>)> {
if config.consensus_config().is_some() {
return Ok((HttpServers::default(), None));
}
let mut router = axum::Router::new();
let json_rpc_router = {
let traffic_controller = state.traffic_controller.clone();
let mut server = JsonRpcServerBuilder::new(
env!("CARGO_PKG_VERSION"),
prometheus_registry,
traffic_controller,
config.policy_config.clone(),
);
let kv_store = build_kv_store(&state, config, prometheus_registry)?;
let metrics = Arc::new(JsonRpcMetrics::new(prometheus_registry));
server.register_module(ReadApi::new(
state.clone(),
kv_store.clone(),
metrics.clone(),
))?;
server.register_module(CoinReadApi::new(
state.clone(),
kv_store.clone(),
metrics.clone(),
))?;
if config.run_with_range.is_none() {
server.register_module(TransactionBuilderApi::new(state.clone()))?;
}
server.register_module(GovernanceReadApi::new(state.clone(), metrics.clone()))?;
server.register_module(BridgeReadApi::new(state.clone(), metrics.clone()))?;
if let Some(transaction_orchestrator) = transaction_orchestrator {
server.register_module(TransactionExecutionApi::new(
state.clone(),
transaction_orchestrator.clone(),
metrics.clone(),
))?;
}
let name_service_config =
if let (Some(package_address), Some(registry_id), Some(reverse_registry_id)) = (
config.name_service_package_address,
config.name_service_registry_id,
config.name_service_reverse_registry_id,
) {
sui_name_service::NameServiceConfig::new(
package_address,
registry_id,
reverse_registry_id,
)
} else {
match state.get_chain_identifier().chain() {
Chain::Mainnet => sui_name_service::NameServiceConfig::mainnet(),
Chain::Testnet => sui_name_service::NameServiceConfig::testnet(),
Chain::Unknown => sui_name_service::NameServiceConfig::default(),
}
};
server.register_module(IndexerApi::new(
state.clone(),
ReadApi::new(state.clone(), kv_store.clone(), metrics.clone()),
kv_store,
name_service_config,
metrics,
config.indexer_max_subscriptions,
))?;
server.register_module(MoveUtils::new(state.clone()))?;
let server_type = config.jsonrpc_server_type();
server.to_router(server_type).await?
};
router = router.merge(json_rpc_router);
let (subscription_service_checkpoint_sender, subscription_service_handle) =
SubscriptionService::build(prometheus_registry);
let rpc_router = {
let mut rpc_service =
sui_rpc_api::RpcService::new(Arc::new(RestReadStore::new(state.clone(), store)));
rpc_service.with_server_version(server_version);
if let Some(config) = config.rpc.clone() {
rpc_service.with_config(config);
}
rpc_service.with_metrics(RpcMetrics::new(prometheus_registry));
rpc_service.with_subscription_service(subscription_service_handle);
if let Some(transaction_orchestrator) = transaction_orchestrator {
rpc_service.with_executor(transaction_orchestrator.clone())
}
rpc_service.into_router().await
};
let layers = ServiceBuilder::new()
.map_request(|mut request: axum::http::Request<_>| {
if let Some(connect_info) = request.extensions().get::<sui_http::ConnectInfo>() {
let axum_connect_info = axum::extract::ConnectInfo(connect_info.remote_addr);
request.extensions_mut().insert(axum_connect_info);
}
request
})
.layer(axum::middleware::from_fn(server_timing_middleware))
.layer(
tower_http::cors::CorsLayer::new()
.allow_methods([http::Method::GET, http::Method::POST])
.allow_origin(tower_http::cors::Any)
.allow_headers(tower_http::cors::Any),
);
router = router.merge(rpc_router).layer(layers);
let https = if let Some((tls_config, https_address)) = config
.rpc()
.and_then(|config| config.tls_config().map(|tls| (tls, config.https_address())))
{
let https = sui_http::Builder::new()
.tls_single_cert(tls_config.cert(), tls_config.key())
.and_then(|builder| builder.serve(https_address, router.clone()))
.map_err(|e| anyhow::anyhow!(e))?;
info!(
https_address =? https.local_addr(),
"HTTPS rpc server listening on {}",
https.local_addr()
);
Some(https)
} else {
None
};
let http = sui_http::Builder::new()
.serve(&config.json_rpc_address, router)
.map_err(|e| anyhow::anyhow!(e))?;
info!(
http_address =? http.local_addr(),
"HTTP rpc server listening on {}",
http.local_addr()
);
Ok((
HttpServers {
http: Some(http),
https,
},
Some(subscription_service_checkpoint_sender),
))
}
#[cfg(not(test))]
fn max_tx_per_checkpoint(protocol_config: &ProtocolConfig) -> usize {
protocol_config.max_transactions_per_checkpoint() as usize
}
#[cfg(test)]
fn max_tx_per_checkpoint(_: &ProtocolConfig) -> usize {
2
}
#[derive(Default)]
struct HttpServers {
#[allow(unused)]
http: Option<sui_http::ServerHandle>,
#[allow(unused)]
https: Option<sui_http::ServerHandle>,
}
#[cfg(test)]
mod tests {
use super::*;
use prometheus::Registry;
use std::collections::BTreeMap;
use sui_config::node::{ForkCrashBehavior, ForkRecoveryConfig};
use sui_core::checkpoints::{CheckpointMetrics, CheckpointStore};
use sui_types::digests::{CheckpointDigest, TransactionDigest, TransactionEffectsDigest};
#[tokio::test]
async fn test_fork_error_and_recovery_both_paths() {
let checkpoint_store = CheckpointStore::new_for_tests();
let checkpoint_metrics = CheckpointMetrics::new(&Registry::new());
let seq_num = 42;
let digest = CheckpointDigest::random();
checkpoint_store
.record_checkpoint_fork_detected(seq_num, digest)
.unwrap();
let fork_recovery = ForkRecoveryConfig {
transaction_overrides: Default::default(),
checkpoint_overrides: Default::default(),
fork_crash_behavior: ForkCrashBehavior::ReturnError,
};
let r = SuiNode::check_and_recover_forks(
&checkpoint_store,
&checkpoint_metrics,
true,
Some(&fork_recovery),
)
.await;
assert!(r.is_err());
assert!(r
.unwrap_err()
.to_string()
.contains("Checkpoint fork detected"));
let mut checkpoint_overrides = BTreeMap::new();
checkpoint_overrides.insert(seq_num, digest.to_string());
let fork_recovery_with_override = ForkRecoveryConfig {
transaction_overrides: Default::default(),
checkpoint_overrides,
fork_crash_behavior: ForkCrashBehavior::ReturnError,
};
let r = SuiNode::check_and_recover_forks(
&checkpoint_store,
&checkpoint_metrics,
true,
Some(&fork_recovery_with_override),
)
.await;
assert!(r.is_ok());
assert!(checkpoint_store
.get_checkpoint_fork_detected()
.unwrap()
.is_none());
let tx_digest = TransactionDigest::random();
let expected_effects = TransactionEffectsDigest::random();
let actual_effects = TransactionEffectsDigest::random();
checkpoint_store
.record_transaction_fork_detected(tx_digest, expected_effects, actual_effects)
.unwrap();
let fork_recovery = ForkRecoveryConfig {
transaction_overrides: Default::default(),
checkpoint_overrides: Default::default(),
fork_crash_behavior: ForkCrashBehavior::ReturnError,
};
let r = SuiNode::check_and_recover_forks(
&checkpoint_store,
&checkpoint_metrics,
true,
Some(&fork_recovery),
)
.await;
assert!(r.is_err());
assert!(r
.unwrap_err()
.to_string()
.contains("Transaction fork detected"));
let mut transaction_overrides = BTreeMap::new();
transaction_overrides.insert(tx_digest.to_string(), actual_effects.to_string());
let fork_recovery_with_override = ForkRecoveryConfig {
transaction_overrides,
checkpoint_overrides: Default::default(),
fork_crash_behavior: ForkCrashBehavior::ReturnError,
};
let r = SuiNode::check_and_recover_forks(
&checkpoint_store,
&checkpoint_metrics,
true,
Some(&fork_recovery_with_override),
)
.await;
assert!(r.is_ok());
assert!(checkpoint_store
.get_transaction_fork_detected()
.unwrap()
.is_none());
}
}