// Copyright (C) Parity Technologies (UK) Ltd.
// This file is part of Polkadot.
// Polkadot is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Polkadot is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Polkadot. If not, see .
//! Polkadot service. Specialized wrapper over substrate service.
#![deny(unused_results)]
pub mod benchmarking;
pub mod chain_spec;
mod fake_runtime_api;
mod grandpa_support;
mod parachains_db;
mod relay_chain_selection;
#[cfg(feature = "full-node")]
pub mod overseer;
#[cfg(feature = "full-node")]
pub mod workers;
#[cfg(feature = "full-node")]
pub use self::overseer::{OverseerGen, OverseerGenArgs, RealOverseerGen};
#[cfg(test)]
mod tests;
#[cfg(feature = "full-node")]
use {
grandpa::{self, FinalityProofProvider as GrandpaFinalityProofProvider},
gum::info,
polkadot_node_core_approval_voting::{
self as approval_voting_subsystem, Config as ApprovalVotingConfig,
},
polkadot_node_core_av_store::Config as AvailabilityConfig,
polkadot_node_core_av_store::Error as AvailabilityError,
polkadot_node_core_candidate_validation::Config as CandidateValidationConfig,
polkadot_node_core_chain_selection::{
self as chain_selection_subsystem, Config as ChainSelectionConfig,
},
polkadot_node_core_dispute_coordinator::Config as DisputeCoordinatorConfig,
polkadot_node_network_protocol::{
peer_set::PeerSetProtocolNames, request_response::ReqProtocolNames,
},
sc_client_api::BlockBackend,
sc_transaction_pool_api::OffchainTransactionPoolFactory,
sp_core::traits::SpawnNamed,
sp_trie::PrefixedMemoryDB,
};
use polkadot_node_subsystem_util::database::Database;
#[cfg(feature = "full-node")]
pub use {
polkadot_overseer::{Handle, Overseer, OverseerConnector, OverseerHandle},
polkadot_primitives::runtime_api::ParachainHost,
relay_chain_selection::SelectRelayChain,
sc_client_api::AuxStore,
sp_authority_discovery::AuthorityDiscoveryApi,
sp_blockchain::{HeaderBackend, HeaderMetadata},
sp_consensus_babe::BabeApi,
};
#[cfg(feature = "full-node")]
use polkadot_node_subsystem::jaeger;
use std::{path::PathBuf, sync::Arc, time::Duration};
use prometheus_endpoint::Registry;
#[cfg(feature = "full-node")]
use service::KeystoreContainer;
use service::RpcHandlers;
use telemetry::TelemetryWorker;
#[cfg(feature = "full-node")]
use telemetry::{Telemetry, TelemetryWorkerHandle};
pub use chain_spec::{KusamaChainSpec, PolkadotChainSpec, RococoChainSpec, WestendChainSpec};
pub use consensus_common::{Proposal, SelectChain};
use frame_benchmarking_cli::SUBSTRATE_REFERENCE_HARDWARE;
use mmr_gadget::MmrGadget;
pub use polkadot_primitives::{Block, BlockId, BlockNumber, CollatorPair, Hash, Id as ParaId};
pub use sc_client_api::{Backend, CallExecutor};
pub use sc_consensus::{BlockImport, LongestChain};
pub use sc_executor::NativeExecutionDispatch;
use sc_executor::{HeapAllocStrategy, WasmExecutor, DEFAULT_HEAP_ALLOC_STRATEGY};
pub use service::{
config::{DatabaseSource, PrometheusConfig},
ChainSpec, Configuration, Error as SubstrateServiceError, PruningMode, Role, RuntimeGenesis,
TFullBackend, TFullCallExecutor, TFullClient, TaskManager, TransactionPoolOptions,
};
pub use sp_api::{ApiRef, ConstructRuntimeApi, Core as CoreApi, ProvideRuntimeApi, StateBackend};
pub use sp_runtime::{
generic,
traits::{self as runtime_traits, BlakeTwo256, Block as BlockT, Header as HeaderT, NumberFor},
};
#[cfg(feature = "kusama-native")]
pub use {kusama_runtime, kusama_runtime_constants};
#[cfg(feature = "polkadot-native")]
pub use {polkadot_runtime, polkadot_runtime_constants};
#[cfg(feature = "rococo-native")]
pub use {rococo_runtime, rococo_runtime_constants};
#[cfg(feature = "westend-native")]
pub use {westend_runtime, westend_runtime_constants};
pub use fake_runtime_api::{GetLastTimestamp, RuntimeApi};
#[cfg(feature = "full-node")]
pub type FullBackend = service::TFullBackend;
#[cfg(feature = "full-node")]
pub type FullClient = service::TFullClient<
Block,
RuntimeApi,
WasmExecutor<(sp_io::SubstrateHostFunctions, frame_benchmarking::benchmarking::HostFunctions)>,
>;
/// The minimum period of blocks on which justifications will be
/// imported and generated.
const GRANDPA_JUSTIFICATION_PERIOD: u32 = 512;
/// Provides the header and block number for a hash.
///
/// Decouples `sc_client_api::Backend` and `sp_blockchain::HeaderBackend`.
pub trait HeaderProvider: Send + Sync + 'static
where
Block: BlockT,
Error: std::fmt::Debug + Send + Sync + 'static,
{
/// Obtain the header for a hash.
fn header(
&self,
hash: ::Hash,
) -> Result::Header>, Error>;
/// Obtain the block number for a hash.
fn number(
&self,
hash: ::Hash,
) -> Result::Header as HeaderT>::Number>, Error>;
}
impl HeaderProvider for T
where
Block: BlockT,
T: sp_blockchain::HeaderBackend + 'static,
{
fn header(
&self,
hash: Block::Hash,
) -> sp_blockchain::Result::Header>> {
>::header(self, hash)
}
fn number(
&self,
hash: Block::Hash,
) -> sp_blockchain::Result::Header as HeaderT>::Number>> {
>::number(self, hash)
}
}
/// Decoupling the provider.
///
/// Mandated since `trait HeaderProvider` can only be
/// implemented once for a generic `T`.
pub trait HeaderProviderProvider: Send + Sync + 'static
where
Block: BlockT,
{
type Provider: HeaderProvider + 'static;
fn header_provider(&self) -> &Self::Provider;
}
impl HeaderProviderProvider for T
where
Block: BlockT,
T: sc_client_api::Backend + 'static,
{
type Provider = >::Blockchain;
fn header_provider(&self) -> &Self::Provider {
self.blockchain()
}
}
#[derive(thiserror::Error, Debug)]
pub enum Error {
#[error(transparent)]
Io(#[from] std::io::Error),
#[error(transparent)]
AddrFormatInvalid(#[from] std::net::AddrParseError),
#[error(transparent)]
Sub(#[from] SubstrateServiceError),
#[error(transparent)]
Blockchain(#[from] sp_blockchain::Error),
#[error(transparent)]
Consensus(#[from] consensus_common::Error),
#[error("Failed to create an overseer")]
Overseer(#[from] polkadot_overseer::SubsystemError),
#[error(transparent)]
Prometheus(#[from] prometheus_endpoint::PrometheusError),
#[error(transparent)]
Telemetry(#[from] telemetry::Error),
#[error(transparent)]
Jaeger(#[from] polkadot_node_subsystem::jaeger::JaegerError),
#[cfg(feature = "full-node")]
#[error(transparent)]
Availability(#[from] AvailabilityError),
#[error("Authorities require the real overseer implementation")]
AuthoritiesRequireRealOverseer,
#[cfg(feature = "full-node")]
#[error("Creating a custom database is required for validators")]
DatabasePathRequired,
#[cfg(feature = "full-node")]
#[error("Expected at least one of polkadot, kusama, westend or rococo runtime feature")]
NoRuntime,
#[cfg(feature = "full-node")]
#[error("Worker binaries not executable, prepare binary: {prep_worker_path:?}, execute binary: {exec_worker_path:?}")]
InvalidWorkerBinaries { prep_worker_path: PathBuf, exec_worker_path: PathBuf },
#[cfg(feature = "full-node")]
#[error("Worker binaries could not be found, make sure polkadot was built/installed correctly. Searched given workers path ({given_workers_path:?}), polkadot binary path ({current_exe_path:?}), and lib path (/usr/lib/polkadot), workers names: {workers_names:?}")]
MissingWorkerBinaries {
given_workers_path: Option,
current_exe_path: PathBuf,
workers_names: Option<(String, String)>,
},
#[cfg(feature = "full-node")]
#[error("Version of worker binary ({worker_version}) is different from node version ({node_version}), worker_path: {worker_path}. TESTING ONLY: this check can be disabled with --disable-worker-version-check")]
WorkerBinaryVersionMismatch {
worker_version: String,
node_version: String,
worker_path: PathBuf,
},
}
/// Identifies the variant of the chain.
#[derive(Debug, Clone, Copy, PartialEq)]
pub enum Chain {
/// Polkadot.
Polkadot,
/// Kusama.
Kusama,
/// Rococo or one of its derivations.
Rococo,
/// Westend.
Westend,
/// Unknown chain?
Unknown,
}
/// Can be called for a `Configuration` to identify which network the configuration targets.
pub trait IdentifyVariant {
/// Returns if this is a configuration for the `Polkadot` network.
fn is_polkadot(&self) -> bool;
/// Returns if this is a configuration for the `Kusama` network.
fn is_kusama(&self) -> bool;
/// Returns if this is a configuration for the `Westend` network.
fn is_westend(&self) -> bool;
/// Returns if this is a configuration for the `Rococo` network.
fn is_rococo(&self) -> bool;
/// Returns if this is a configuration for the `Wococo` test network.
fn is_wococo(&self) -> bool;
/// Returns if this is a configuration for the `Versi` test network.
fn is_versi(&self) -> bool;
/// Returns true if this configuration is for a development network.
fn is_dev(&self) -> bool;
/// Identifies the variant of the chain.
fn identify_chain(&self) -> Chain;
}
impl IdentifyVariant for Box {
fn is_polkadot(&self) -> bool {
self.id().starts_with("polkadot") || self.id().starts_with("dot")
}
fn is_kusama(&self) -> bool {
self.id().starts_with("kusama") || self.id().starts_with("ksm")
}
fn is_westend(&self) -> bool {
self.id().starts_with("westend") || self.id().starts_with("wnd")
}
fn is_rococo(&self) -> bool {
self.id().starts_with("rococo") || self.id().starts_with("rco")
}
fn is_wococo(&self) -> bool {
self.id().starts_with("wococo") || self.id().starts_with("wco")
}
fn is_versi(&self) -> bool {
self.id().starts_with("versi") || self.id().starts_with("vrs")
}
fn is_dev(&self) -> bool {
self.id().ends_with("dev")
}
fn identify_chain(&self) -> Chain {
if self.is_polkadot() {
Chain::Polkadot
} else if self.is_kusama() {
Chain::Kusama
} else if self.is_westend() {
Chain::Westend
} else if self.is_rococo() || self.is_versi() || self.is_wococo() {
Chain::Rococo
} else {
Chain::Unknown
}
}
}
#[cfg(feature = "full-node")]
pub fn open_database(db_source: &DatabaseSource) -> Result, Error> {
let parachains_db = match db_source {
DatabaseSource::RocksDb { path, .. } => parachains_db::open_creating_rocksdb(
path.clone(),
parachains_db::CacheSizes::default(),
)?,
DatabaseSource::ParityDb { path, .. } => parachains_db::open_creating_paritydb(
path.parent().ok_or(Error::DatabasePathRequired)?.into(),
parachains_db::CacheSizes::default(),
)?,
DatabaseSource::Auto { paritydb_path, rocksdb_path, .. } => {
if paritydb_path.is_dir() && paritydb_path.exists() {
parachains_db::open_creating_paritydb(
paritydb_path.parent().ok_or(Error::DatabasePathRequired)?.into(),
parachains_db::CacheSizes::default(),
)?
} else {
parachains_db::open_creating_rocksdb(
rocksdb_path.clone(),
parachains_db::CacheSizes::default(),
)?
}
},
DatabaseSource::Custom { .. } => {
unimplemented!("No polkadot subsystem db for custom source.");
},
};
Ok(parachains_db)
}
/// Initialize the `Jeager` collector. The destination must listen
/// on the given address and port for `UDP` packets.
#[cfg(any(test, feature = "full-node"))]
fn jaeger_launch_collector_with_agent(
spawner: impl SpawnNamed,
config: &Configuration,
agent: Option,
) -> Result<(), Error> {
if let Some(agent) = agent {
let cfg = jaeger::JaegerConfig::builder()
.agent(agent)
.named(&config.network.node_name)
.build();
jaeger::Jaeger::new(cfg).launch(spawner)?;
}
Ok(())
}
#[cfg(feature = "full-node")]
type FullSelectChain = relay_chain_selection::SelectRelayChain;
#[cfg(feature = "full-node")]
type FullGrandpaBlockImport =
grandpa::GrandpaBlockImport;
#[cfg(feature = "full-node")]
type FullBeefyBlockImport =
beefy::import::BeefyBlockImport;
#[cfg(feature = "full-node")]
struct Basics {
task_manager: TaskManager,
client: Arc,
backend: Arc,
keystore_container: KeystoreContainer,
telemetry: Option,
}
#[cfg(feature = "full-node")]
fn new_partial_basics(
config: &mut Configuration,
jaeger_agent: Option,
telemetry_worker_handle: Option,
) -> Result {
let telemetry = config
.telemetry_endpoints
.clone()
.filter(|x| !x.is_empty())
.map(move |endpoints| -> Result<_, telemetry::Error> {
let (worker, mut worker_handle) = if let Some(worker_handle) = telemetry_worker_handle {
(None, worker_handle)
} else {
let worker = TelemetryWorker::new(16)?;
let worker_handle = worker.handle();
(Some(worker), worker_handle)
};
let telemetry = worker_handle.new_telemetry(endpoints);
Ok((worker, telemetry))
})
.transpose()?;
let heap_pages = config
.default_heap_pages
.map_or(DEFAULT_HEAP_ALLOC_STRATEGY, |h| HeapAllocStrategy::Static { extra_pages: h as _ });
let executor = WasmExecutor::builder()
.with_execution_method(config.wasm_method)
.with_onchain_heap_alloc_strategy(heap_pages)
.with_offchain_heap_alloc_strategy(heap_pages)
.with_max_runtime_instances(config.max_runtime_instances)
.with_runtime_cache_size(config.runtime_cache_size)
.build();
let (client, backend, keystore_container, task_manager) =
service::new_full_parts::(
&config,
telemetry.as_ref().map(|(_, telemetry)| telemetry.handle()),
executor,
)?;
let client = Arc::new(client);
let telemetry = telemetry.map(|(worker, telemetry)| {
if let Some(worker) = worker {
task_manager.spawn_handle().spawn(
"telemetry",
Some("telemetry"),
Box::pin(worker.run()),
);
}
telemetry
});
jaeger_launch_collector_with_agent(task_manager.spawn_handle(), &*config, jaeger_agent)?;
Ok(Basics { task_manager, client, backend, keystore_container, telemetry })
}
#[cfg(feature = "full-node")]
fn new_partial(
config: &mut Configuration,
Basics { task_manager, backend, client, keystore_container, telemetry }: Basics,
select_chain: ChainSelection,
) -> Result<
service::PartialComponents<
FullClient,
FullBackend,
ChainSelection,
sc_consensus::DefaultImportQueue,
sc_transaction_pool::FullPool,
(
impl Fn(
polkadot_rpc::DenyUnsafe,
polkadot_rpc::SubscriptionTaskExecutor,
) -> Result,
(
babe::BabeBlockImport<
Block,
FullClient,
FullBeefyBlockImport>,
>,
grandpa::LinkHalf,
babe::BabeLink,
beefy::BeefyVoterLinks,
),
grandpa::SharedVoterState,
sp_consensus_babe::SlotDuration,
Option,
),
>,
Error,
>
where
ChainSelection: 'static + SelectChain,
{
let transaction_pool = sc_transaction_pool::BasicPool::new_full(
config.transaction_pool.clone(),
config.role.is_authority().into(),
config.prometheus_registry(),
task_manager.spawn_essential_handle(),
client.clone(),
);
let grandpa_hard_forks = if config.chain_spec.is_kusama() {
grandpa_support::kusama_hard_forks()
} else {
Vec::new()
};
let (grandpa_block_import, grandpa_link) = grandpa::block_import_with_authority_set_hard_forks(
client.clone(),
GRANDPA_JUSTIFICATION_PERIOD,
&(client.clone() as Arc<_>),
select_chain.clone(),
grandpa_hard_forks,
telemetry.as_ref().map(|x| x.handle()),
)?;
let justification_import = grandpa_block_import.clone();
let (beefy_block_import, beefy_voter_links, beefy_rpc_links) =
beefy::beefy_block_import_and_links(
grandpa_block_import,
backend.clone(),
client.clone(),
config.prometheus_registry().cloned(),
);
let babe_config = babe::configuration(&*client)?;
let (block_import, babe_link) =
babe::block_import(babe_config.clone(), beefy_block_import, client.clone())?;
let slot_duration = babe_link.config().slot_duration();
let (import_queue, babe_worker_handle) = babe::import_queue(babe::ImportQueueParams {
link: babe_link.clone(),
block_import: block_import.clone(),
justification_import: Some(Box::new(justification_import)),
client: client.clone(),
select_chain: select_chain.clone(),
create_inherent_data_providers: move |_, ()| async move {
let timestamp = sp_timestamp::InherentDataProvider::from_system_time();
let slot =
sp_consensus_babe::inherents::InherentDataProvider::from_timestamp_and_slot_duration(
*timestamp,
slot_duration,
);
Ok((slot, timestamp))
},
spawner: &task_manager.spawn_essential_handle(),
registry: config.prometheus_registry(),
telemetry: telemetry.as_ref().map(|x| x.handle()),
offchain_tx_pool_factory: OffchainTransactionPoolFactory::new(transaction_pool.clone()),
})?;
let justification_stream = grandpa_link.justification_stream();
let shared_authority_set = grandpa_link.shared_authority_set().clone();
let shared_voter_state = grandpa::SharedVoterState::empty();
let finality_proof_provider = GrandpaFinalityProofProvider::new_for_service(
backend.clone(),
Some(shared_authority_set.clone()),
);
let import_setup = (block_import, grandpa_link, babe_link, beefy_voter_links);
let rpc_setup = shared_voter_state.clone();
let rpc_extensions_builder = {
let client = client.clone();
let keystore = keystore_container.keystore();
let transaction_pool = transaction_pool.clone();
let select_chain = select_chain.clone();
let chain_spec = config.chain_spec.cloned_box();
let backend = backend.clone();
move |deny_unsafe,
subscription_executor: polkadot_rpc::SubscriptionTaskExecutor|
-> Result {
let deps = polkadot_rpc::FullDeps {
client: client.clone(),
pool: transaction_pool.clone(),
select_chain: select_chain.clone(),
chain_spec: chain_spec.cloned_box(),
deny_unsafe,
babe: polkadot_rpc::BabeDeps {
babe_worker_handle: babe_worker_handle.clone(),
keystore: keystore.clone(),
},
grandpa: polkadot_rpc::GrandpaDeps {
shared_voter_state: shared_voter_state.clone(),
shared_authority_set: shared_authority_set.clone(),
justification_stream: justification_stream.clone(),
subscription_executor: subscription_executor.clone(),
finality_provider: finality_proof_provider.clone(),
},
beefy: polkadot_rpc::BeefyDeps {
beefy_finality_proof_stream: beefy_rpc_links.from_voter_justif_stream.clone(),
beefy_best_block_stream: beefy_rpc_links.from_voter_best_beefy_stream.clone(),
subscription_executor,
},
backend: backend.clone(),
};
polkadot_rpc::create_full(deps).map_err(Into::into)
}
};
Ok(service::PartialComponents {
client,
backend,
task_manager,
keystore_container,
select_chain,
import_queue,
transaction_pool,
other: (rpc_extensions_builder, import_setup, rpc_setup, slot_duration, telemetry),
})
}
#[cfg(feature = "full-node")]
pub struct NewFullParams {
pub is_collator: IsCollator,
pub grandpa_pause: Option<(u32, u32)>,
pub jaeger_agent: Option,
pub telemetry_worker_handle: Option,
/// The version of the node. TESTING ONLY: `None` can be passed to skip the node/worker version
/// check, both on startup and in the workers.
pub node_version: Option,
/// An optional path to a directory containing the workers.
pub workers_path: Option,
/// Optional custom names for the prepare and execute workers.
pub workers_names: Option<(String, String)>,
pub overseer_enable_anyways: bool,
pub overseer_gen: OverseerGenerator,
pub overseer_message_channel_capacity_override: Option,
#[allow(dead_code)]
pub malus_finality_delay: Option,
pub hwbench: Option,
}
#[cfg(feature = "full-node")]
pub struct NewFull {
pub task_manager: TaskManager,
pub client: Arc,
pub overseer_handle: Option,
pub network: Arc::Hash>>,
pub sync_service: Arc>,
pub rpc_handlers: RpcHandlers,
pub backend: Arc,
}
/// Is this node a collator?
#[cfg(feature = "full-node")]
#[derive(Clone)]
pub enum IsCollator {
/// This node is a collator.
Yes(CollatorPair),
/// This node is not a collator.
No,
}
#[cfg(feature = "full-node")]
impl std::fmt::Debug for IsCollator {
fn fmt(&self, fmt: &mut std::fmt::Formatter) -> std::fmt::Result {
use sp_core::Pair;
match self {
IsCollator::Yes(pair) => write!(fmt, "Yes({})", pair.public()),
IsCollator::No => write!(fmt, "No"),
}
}
}
#[cfg(feature = "full-node")]
impl IsCollator {
/// Is this a collator?
fn is_collator(&self) -> bool {
matches!(self, Self::Yes(_))
}
}
pub const AVAILABILITY_CONFIG: AvailabilityConfig = AvailabilityConfig {
col_data: parachains_db::REAL_COLUMNS.col_availability_data,
col_meta: parachains_db::REAL_COLUMNS.col_availability_meta,
};
/// Create a new full node of arbitrary runtime and executor.
///
/// This is an advanced feature and not recommended for general use. Generally, `build_full` is
/// a better choice.
///
/// `overseer_enable_anyways` always enables the overseer, based on the provided
/// `OverseerGenerator`, regardless of the role the node has. The relay chain selection (longest or
/// disputes-aware) is still determined based on the role of the node. Likewise for authority
/// discovery.
///
/// `workers_path` is used to get the path to the directory where auxiliary worker binaries reside.
/// If not specified, the main binary's directory is searched first, then `/usr/lib/polkadot` is
/// searched. If the path points to an executable rather then directory, that executable is used
/// both as preparation and execution worker (supposed to be used for tests only).
#[cfg(feature = "full-node")]
pub fn new_full(
mut config: Configuration,
NewFullParams {
is_collator,
grandpa_pause,
jaeger_agent,
telemetry_worker_handle,
node_version,
workers_path,
workers_names,
overseer_enable_anyways,
overseer_gen,
overseer_message_channel_capacity_override,
malus_finality_delay: _malus_finality_delay,
hwbench,
}: NewFullParams,
) -> Result {
use polkadot_node_network_protocol::request_response::IncomingRequest;
use sc_network_common::sync::warp::WarpSyncParams;
let is_offchain_indexing_enabled = config.offchain_worker.indexing_enabled;
let role = config.role.clone();
let force_authoring = config.force_authoring;
let backoff_authoring_blocks = {
let mut backoff = sc_consensus_slots::BackoffAuthoringOnFinalizedHeadLagging::default();
if config.chain_spec.is_rococo() ||
config.chain_spec.is_wococo() ||
config.chain_spec.is_versi()
{
// it's a testnet that's in flux, finality has stalled sometimes due
// to operational issues and it's annoying to slow down block
// production to 1 block per hour.
backoff.max_interval = 10;
}
Some(backoff)
};
let enable_beefy = !config.disable_beefy;
// If not on a known test network, warn the user that BEEFY is still experimental.
if enable_beefy &&
!config.chain_spec.is_rococo() &&
!config.chain_spec.is_wococo() &&
!config.chain_spec.is_versi()
{
gum::warn!("BEEFY is still experimental, usage on a production network is discouraged.");
}
let disable_grandpa = config.disable_grandpa;
let name = config.network.node_name.clone();
let basics = new_partial_basics(&mut config, jaeger_agent, telemetry_worker_handle)?;
let prometheus_registry = config.prometheus_registry().cloned();
let overseer_connector = OverseerConnector::default();
let overseer_handle = Handle::new(overseer_connector.handle());
let chain_spec = config.chain_spec.cloned_box();
let keystore = basics.keystore_container.local_keystore();
let auth_or_collator = role.is_authority() || is_collator.is_collator();
let pvf_checker_enabled = role.is_authority() && !is_collator.is_collator();
let select_chain = if auth_or_collator {
let metrics =
polkadot_node_subsystem_util::metrics::Metrics::register(prometheus_registry.as_ref())?;
SelectRelayChain::new_with_overseer(
basics.backend.clone(),
overseer_handle.clone(),
metrics,
Some(basics.task_manager.spawn_handle()),
)
} else {
SelectRelayChain::new_longest_chain(basics.backend.clone())
};
let service::PartialComponents::<_, _, SelectRelayChain<_>, _, _, _> {
client,
backend,
mut task_manager,
keystore_container,
select_chain,
import_queue,
transaction_pool,
other: (rpc_extensions_builder, import_setup, rpc_setup, slot_duration, mut telemetry),
} = new_partial::>(&mut config, basics, select_chain)?;
let shared_voter_state = rpc_setup;
let auth_disc_publish_non_global_ips = config.network.allow_non_globals_in_dht;
let mut net_config = sc_network::config::FullNetworkConfiguration::new(&config.network);
let genesis_hash = client.block_hash(0).ok().flatten().expect("Genesis block exists; qed");
// Note: GrandPa is pushed before the Polkadot-specific protocols. This doesn't change
// anything in terms of behaviour, but makes the logs more consistent with the other
// Substrate nodes.
let grandpa_protocol_name = grandpa::protocol_standard_name(&genesis_hash, &config.chain_spec);
net_config.add_notification_protocol(grandpa::grandpa_peers_set_config(
grandpa_protocol_name.clone(),
));
let beefy_gossip_proto_name =
beefy::gossip_protocol_name(&genesis_hash, config.chain_spec.fork_id());
// `beefy_on_demand_justifications_handler` is given to `beefy-gadget` task to be run,
// while `beefy_req_resp_cfg` is added to `config.network.request_response_protocols`.
let (beefy_on_demand_justifications_handler, beefy_req_resp_cfg) =
beefy::communication::request_response::BeefyJustifsRequestHandler::new(
&genesis_hash,
config.chain_spec.fork_id(),
client.clone(),
prometheus_registry.clone(),
);
if enable_beefy {
net_config.add_notification_protocol(beefy::communication::beefy_peers_set_config(
beefy_gossip_proto_name.clone(),
));
net_config.add_request_response_protocol(beefy_req_resp_cfg);
}
// validation/collation protocols are enabled only if `Overseer` is enabled
let peerset_protocol_names =
PeerSetProtocolNames::new(genesis_hash, config.chain_spec.fork_id());
if auth_or_collator || overseer_enable_anyways {
use polkadot_network_bridge::{peer_sets_info, IsAuthority};
let is_authority = if role.is_authority() { IsAuthority::Yes } else { IsAuthority::No };
for config in peer_sets_info(is_authority, &peerset_protocol_names) {
net_config.add_notification_protocol(config);
}
}
let req_protocol_names = ReqProtocolNames::new(&genesis_hash, config.chain_spec.fork_id());
let (pov_req_receiver, cfg) = IncomingRequest::get_config_receiver(&req_protocol_names);
net_config.add_request_response_protocol(cfg);
let (chunk_req_receiver, cfg) = IncomingRequest::get_config_receiver(&req_protocol_names);
net_config.add_request_response_protocol(cfg);
let (collation_req_receiver, cfg) = IncomingRequest::get_config_receiver(&req_protocol_names);
net_config.add_request_response_protocol(cfg);
let (available_data_req_receiver, cfg) =
IncomingRequest::get_config_receiver(&req_protocol_names);
net_config.add_request_response_protocol(cfg);
let (statement_req_receiver, cfg) = IncomingRequest::get_config_receiver(&req_protocol_names);
net_config.add_request_response_protocol(cfg);
let (dispute_req_receiver, cfg) = IncomingRequest::get_config_receiver(&req_protocol_names);
net_config.add_request_response_protocol(cfg);
let grandpa_hard_forks = if config.chain_spec.is_kusama() {
grandpa_support::kusama_hard_forks()
} else {
Vec::new()
};
let warp_sync = Arc::new(grandpa::warp_proof::NetworkProvider::new(
backend.clone(),
import_setup.1.shared_authority_set().clone(),
grandpa_hard_forks,
));
let (network, system_rpc_tx, tx_handler_controller, network_starter, sync_service) =
service::build_network(service::BuildNetworkParams {
config: &config,
net_config,
client: client.clone(),
transaction_pool: transaction_pool.clone(),
spawn_handle: task_manager.spawn_handle(),
import_queue,
block_announce_validator_builder: None,
warp_sync_params: Some(WarpSyncParams::WithProvider(warp_sync)),
})?;
if config.offchain_worker.enabled {
use futures::FutureExt;
task_manager.spawn_handle().spawn(
"offchain-workers-runner",
"offchain-work",
sc_offchain::OffchainWorkers::new(sc_offchain::OffchainWorkerOptions {
runtime_api_provider: client.clone(),
keystore: Some(keystore_container.keystore()),
offchain_db: backend.offchain_storage(),
transaction_pool: Some(OffchainTransactionPoolFactory::new(
transaction_pool.clone(),
)),
network_provider: network.clone(),
is_validator: role.is_authority(),
enable_http_requests: false,
custom_extensions: move |_| vec![],
})
.run(client.clone(), task_manager.spawn_handle())
.boxed(),
);
}
let parachains_db = open_database(&config.database)?;
let approval_voting_config = ApprovalVotingConfig {
col_approval_data: parachains_db::REAL_COLUMNS.col_approval_data,
slot_duration_millis: slot_duration.as_millis() as u64,
};
let candidate_validation_config = if role.is_authority() && !is_collator.is_collator() {
let (prep_worker_path, exec_worker_path) =
workers::determine_workers_paths(workers_path, workers_names, node_version.clone())?;
log::info!("🚀 Using prepare-worker binary at: {:?}", prep_worker_path);
log::info!("🚀 Using execute-worker binary at: {:?}", exec_worker_path);
Some(CandidateValidationConfig {
artifacts_cache_path: config
.database
.path()
.ok_or(Error::DatabasePathRequired)?
.join("pvf-artifacts"),
node_version,
prep_worker_path,
exec_worker_path,
})
} else {
None
};
let chain_selection_config = ChainSelectionConfig {
col_data: parachains_db::REAL_COLUMNS.col_chain_selection_data,
stagnant_check_interval: Default::default(),
stagnant_check_mode: chain_selection_subsystem::StagnantCheckMode::PruneOnly,
};
let dispute_coordinator_config = DisputeCoordinatorConfig {
col_dispute_data: parachains_db::REAL_COLUMNS.col_dispute_coordinator_data,
};
let rpc_handlers = service::spawn_tasks(service::SpawnTasksParams {
config,
backend: backend.clone(),
client: client.clone(),
keystore: keystore_container.keystore(),
network: network.clone(),
sync_service: sync_service.clone(),
rpc_builder: Box::new(rpc_extensions_builder),
transaction_pool: transaction_pool.clone(),
task_manager: &mut task_manager,
system_rpc_tx,
tx_handler_controller,
telemetry: telemetry.as_mut(),
})?;
if let Some(hwbench) = hwbench {
sc_sysinfo::print_hwbench(&hwbench);
if !SUBSTRATE_REFERENCE_HARDWARE.check_hardware(&hwbench) && role.is_authority() {
log::warn!(
"⚠️ The hardware does not meet the minimal requirements for role 'Authority' find out more at:\n\
https://wiki.polkadot.network/docs/maintain-guides-how-to-validate-polkadot#reference-hardware"
);
}
if let Some(ref mut telemetry) = telemetry {
let telemetry_handle = telemetry.handle();
task_manager.spawn_handle().spawn(
"telemetry_hwbench",
None,
sc_sysinfo::initialize_hwbench_telemetry(telemetry_handle, hwbench),
);
}
}
let (block_import, link_half, babe_link, beefy_links) = import_setup;
let overseer_client = client.clone();
let spawner = task_manager.spawn_handle();
let authority_discovery_service = if auth_or_collator || overseer_enable_anyways {
use futures::StreamExt;
use sc_network::{Event, NetworkEventStream};
let authority_discovery_role = if role.is_authority() {
sc_authority_discovery::Role::PublishAndDiscover(keystore_container.keystore())
} else {
// don't publish our addresses when we're not an authority (collator, cumulus, ..)
sc_authority_discovery::Role::Discover
};
let dht_event_stream =
network.event_stream("authority-discovery").filter_map(|e| async move {
match e {
Event::Dht(e) => Some(e),
_ => None,
}
});
let (worker, service) = sc_authority_discovery::new_worker_and_service_with_config(
sc_authority_discovery::WorkerConfig {
publish_non_global_ips: auth_disc_publish_non_global_ips,
// Require that authority discovery records are signed.
strict_record_validation: true,
..Default::default()
},
client.clone(),
network.clone(),
Box::pin(dht_event_stream),
authority_discovery_role,
prometheus_registry.clone(),
);
task_manager.spawn_handle().spawn(
"authority-discovery-worker",
Some("authority-discovery"),
Box::pin(worker.run()),
);
Some(service)
} else {
None
};
let overseer_handle = if let Some(authority_discovery_service) = authority_discovery_service {
let (overseer, overseer_handle) = overseer_gen
.generate::(
overseer_connector,
OverseerGenArgs {
keystore,
runtime_client: overseer_client.clone(),
parachains_db,
network_service: network.clone(),
sync_service: sync_service.clone(),
authority_discovery_service,
pov_req_receiver,
chunk_req_receiver,
collation_req_receiver,
available_data_req_receiver,
statement_req_receiver,
dispute_req_receiver,
registry: prometheus_registry.as_ref(),
spawner,
is_collator,
approval_voting_config,
availability_config: AVAILABILITY_CONFIG,
candidate_validation_config,
chain_selection_config,
dispute_coordinator_config,
pvf_checker_enabled,
overseer_message_channel_capacity_override,
req_protocol_names,
peerset_protocol_names,
offchain_transaction_pool_factory: OffchainTransactionPoolFactory::new(
transaction_pool.clone(),
),
},
)
.map_err(|e| {
gum::error!("Failed to init overseer: {}", e);
e
})?;
let handle = Handle::new(overseer_handle.clone());
{
let handle = handle.clone();
task_manager.spawn_essential_handle().spawn_blocking(
"overseer",
None,
Box::pin(async move {
use futures::{pin_mut, select, FutureExt};
let forward = polkadot_overseer::forward_events(overseer_client, handle);
let forward = forward.fuse();
let overseer_fut = overseer.run().fuse();
pin_mut!(overseer_fut);
pin_mut!(forward);
select! {
() = forward => (),
() = overseer_fut => (),
complete => (),
}
}),
);
}
Some(handle)
} else {
assert!(
!auth_or_collator,
"Precondition congruence (false) is guaranteed by manual checking. qed"
);
None
};
if role.is_authority() {
let proposer = sc_basic_authorship::ProposerFactory::new(
task_manager.spawn_handle(),
client.clone(),
transaction_pool.clone(),
prometheus_registry.as_ref(),
telemetry.as_ref().map(|x| x.handle()),
);
let client_clone = client.clone();
let overseer_handle =
overseer_handle.as_ref().ok_or(Error::AuthoritiesRequireRealOverseer)?.clone();
let slot_duration = babe_link.config().slot_duration();
let babe_config = babe::BabeParams {
keystore: keystore_container.keystore(),
client: client.clone(),
select_chain,
block_import,
env: proposer,
sync_oracle: sync_service.clone(),
justification_sync_link: sync_service.clone(),
create_inherent_data_providers: move |parent, ()| {
let client_clone = client_clone.clone();
let overseer_handle = overseer_handle.clone();
async move {
let parachain =
polkadot_node_core_parachains_inherent::ParachainsInherentDataProvider::new(
client_clone,
overseer_handle,
parent,
);
let timestamp = sp_timestamp::InherentDataProvider::from_system_time();
let slot =
sp_consensus_babe::inherents::InherentDataProvider::from_timestamp_and_slot_duration(
*timestamp,
slot_duration,
);
Ok((slot, timestamp, parachain))
}
},
force_authoring,
backoff_authoring_blocks,
babe_link,
block_proposal_slot_portion: babe::SlotProportion::new(2f32 / 3f32),
max_block_proposal_slot_portion: None,
telemetry: telemetry.as_ref().map(|x| x.handle()),
};
let babe = babe::start_babe(babe_config)?;
task_manager.spawn_essential_handle().spawn_blocking("babe", None, babe);
}
// if the node isn't actively participating in consensus then it doesn't
// need a keystore, regardless of which protocol we use below.
let keystore_opt = if role.is_authority() { Some(keystore_container.keystore()) } else { None };
if enable_beefy {
let justifications_protocol_name = beefy_on_demand_justifications_handler.protocol_name();
let network_params = beefy::BeefyNetworkParams {
network: network.clone(),
sync: sync_service.clone(),
gossip_protocol_name: beefy_gossip_proto_name,
justifications_protocol_name,
_phantom: core::marker::PhantomData::,
};
let payload_provider = beefy_primitives::mmr::MmrRootProvider::new(client.clone());
let beefy_params = beefy::BeefyParams {
client: client.clone(),
backend: backend.clone(),
payload_provider,
runtime: client.clone(),
key_store: keystore_opt.clone(),
network_params,
min_block_delta: if chain_spec.is_wococo() { 4 } else { 8 },
prometheus_registry: prometheus_registry.clone(),
links: beefy_links,
on_demand_justifications_handler: beefy_on_demand_justifications_handler,
};
let gadget = beefy::start_beefy_gadget::<_, _, _, _, _, _, _>(beefy_params);
// BEEFY currently only runs on testnets, if it fails we'll
// bring the node down with it to make sure it is noticed.
task_manager
.spawn_essential_handle()
.spawn_blocking("beefy-gadget", None, gadget);
if is_offchain_indexing_enabled {
task_manager.spawn_handle().spawn_blocking(
"mmr-gadget",
None,
MmrGadget::start(
client.clone(),
backend.clone(),
sp_mmr_primitives::INDEXING_PREFIX.to_vec(),
),
);
}
}
let config = grandpa::Config {
// FIXME substrate#1578 make this available through chainspec
// Grandpa performance can be improved a bit by tuning this parameter, see:
// https://github.com/paritytech/polkadot/issues/5464
gossip_duration: Duration::from_millis(1000),
justification_generation_period: GRANDPA_JUSTIFICATION_PERIOD,
name: Some(name),
observer_enabled: false,
keystore: keystore_opt,
local_role: role,
telemetry: telemetry.as_ref().map(|x| x.handle()),
protocol_name: grandpa_protocol_name,
};
let enable_grandpa = !disable_grandpa;
if enable_grandpa {
// start the full GRANDPA voter
// NOTE: unlike in substrate we are currently running the full
// GRANDPA voter protocol for all full nodes (regardless of whether
// they're validators or not). at this point the full voter should
// provide better guarantees of block and vote data availability than
// the observer.
// add a custom voting rule to temporarily stop voting for new blocks
// after the given pause block is finalized and restarting after the
// given delay.
let mut builder = grandpa::VotingRulesBuilder::default();
#[cfg(not(feature = "malus"))]
let _malus_finality_delay = None;
if let Some(delay) = _malus_finality_delay {
info!(?delay, "Enabling malus finality delay",);
builder = builder.add(grandpa::BeforeBestBlockBy(delay));
};
let voting_rule = match grandpa_pause {
Some((block, delay)) => {
info!(
block_number = %block,
delay = %delay,
"GRANDPA scheduled voting pause set for block #{} with a duration of {} blocks.",
block,
delay,
);
builder.add(grandpa_support::PauseAfterBlockFor(block, delay)).build()
},
None => builder.build(),
};
let grandpa_config = grandpa::GrandpaParams {
config,
link: link_half,
network: network.clone(),
sync: sync_service.clone(),
voting_rule,
prometheus_registry: prometheus_registry.clone(),
shared_voter_state,
telemetry: telemetry.as_ref().map(|x| x.handle()),
offchain_tx_pool_factory: OffchainTransactionPoolFactory::new(transaction_pool.clone()),
};
task_manager.spawn_essential_handle().spawn_blocking(
"grandpa-voter",
None,
grandpa::run_grandpa_voter(grandpa_config)?,
);
}
network_starter.start_network();
Ok(NewFull {
task_manager,
client,
overseer_handle,
network,
sync_service,
rpc_handlers,
backend,
})
}
#[cfg(feature = "full-node")]
macro_rules! chain_ops {
($config:expr, $jaeger_agent:expr, $telemetry_worker_handle:expr) => {{
let telemetry_worker_handle = $telemetry_worker_handle;
let jaeger_agent = $jaeger_agent;
let mut config = $config;
let basics = new_partial_basics(config, jaeger_agent, telemetry_worker_handle)?;
use ::sc_consensus::LongestChain;
// use the longest chain selection, since there is no overseer available
let chain_selection = LongestChain::new(basics.backend.clone());
let service::PartialComponents { client, backend, import_queue, task_manager, .. } =
new_partial::>(&mut config, basics, chain_selection)?;
Ok((client, backend, import_queue, task_manager))
}};
}
/// Builds a new object suitable for chain operations.
#[cfg(feature = "full-node")]
pub fn new_chain_ops(
config: &mut Configuration,
jaeger_agent: Option,
) -> Result<
(
Arc,
Arc,
sc_consensus::BasicQueue>,
TaskManager,
),
Error,
> {
config.keystore = service::config::KeystoreConfig::InMemory;
if config.chain_spec.is_rococo() ||
config.chain_spec.is_wococo() ||
config.chain_spec.is_versi()
{
chain_ops!(config, jaeger_agent, None)
} else if config.chain_spec.is_kusama() {
chain_ops!(config, jaeger_agent, None)
} else if config.chain_spec.is_westend() {
return chain_ops!(config, jaeger_agent, None)
} else {
chain_ops!(config, jaeger_agent, None)
}
}
/// Build a full node.
///
/// The actual "flavor", aka if it will use `Polkadot`, `Rococo` or `Kusama` is determined based on
/// [`IdentifyVariant`] using the chain spec.
///
/// `overseer_enable_anyways` always enables the overseer, based on the provided
/// `OverseerGenerator`, regardless of the role the node has. The relay chain selection (longest or
/// disputes-aware) is still determined based on the role of the node. Likewise for authority
/// discovery.
#[cfg(feature = "full-node")]
pub fn build_full(
config: Configuration,
mut params: NewFullParams,
) -> Result {
let is_polkadot = config.chain_spec.is_polkadot();
params.overseer_message_channel_capacity_override =
params.overseer_message_channel_capacity_override.map(move |capacity| {
if is_polkadot {
gum::warn!("Channel capacity should _never_ be tampered with on polkadot!");
}
capacity
});
new_full(config, params)
}
/// Reverts the node state down to at most the last finalized block.
///
/// In particular this reverts:
/// - `ApprovalVotingSubsystem` data in the parachains-db;
/// - `ChainSelectionSubsystem` data in the parachains-db;
/// - Low level Babe and Grandpa consensus data.
#[cfg(feature = "full-node")]
pub fn revert_backend(
client: Arc,
backend: Arc,
blocks: BlockNumber,
config: Configuration,
) -> Result<(), Error> {
let best_number = client.info().best_number;
let finalized = client.info().finalized_number;
let revertible = blocks.min(best_number - finalized);
if revertible == 0 {
return Ok(())
}
let number = best_number - revertible;
let hash = client.block_hash_from_id(&BlockId::Number(number))?.ok_or(
sp_blockchain::Error::Backend(format!(
"Unexpected hash lookup failure for block number: {}",
number
)),
)?;
let parachains_db = open_database(&config.database)
.map_err(|err| sp_blockchain::Error::Backend(err.to_string()))?;
revert_approval_voting(parachains_db.clone(), hash)?;
revert_chain_selection(parachains_db, hash)?;
// Revert Substrate consensus related components
babe::revert(client.clone(), backend, blocks)?;
grandpa::revert(client, blocks)?;
Ok(())
}
fn revert_chain_selection(db: Arc, hash: Hash) -> sp_blockchain::Result<()> {
let config = chain_selection_subsystem::Config {
col_data: parachains_db::REAL_COLUMNS.col_chain_selection_data,
stagnant_check_interval: chain_selection_subsystem::StagnantCheckInterval::never(),
stagnant_check_mode: chain_selection_subsystem::StagnantCheckMode::PruneOnly,
};
let chain_selection = chain_selection_subsystem::ChainSelectionSubsystem::new(config, db);
chain_selection
.revert_to(hash)
.map_err(|err| sp_blockchain::Error::Backend(err.to_string()))
}
fn revert_approval_voting(db: Arc, hash: Hash) -> sp_blockchain::Result<()> {
let config = approval_voting_subsystem::Config {
col_approval_data: parachains_db::REAL_COLUMNS.col_approval_data,
slot_duration_millis: Default::default(),
};
let approval_voting = approval_voting_subsystem::ApprovalVotingSubsystem::with_config(
config,
db,
Arc::new(sc_keystore::LocalKeystore::in_memory()),
Box::new(consensus_common::NoNetwork),
approval_voting_subsystem::Metrics::default(),
);
approval_voting
.revert_to(hash)
.map_err(|err| sp_blockchain::Error::Backend(err.to_string()))
}