//! Service and ServiceFactory implementation. Specialized wrapper over substrate service. use std::sync::Arc; use std::time::Duration; use sc_client_api::{ExecutorProvider, RemoteBackend}; use node_template_runtime::{self, opaque::Block, RuntimeApi}; use sc_service::{error::Error as ServiceError, Configuration, ServiceComponents, TaskManager}; use sp_inherents::InherentDataProviders; use sc_executor::native_executor_instance; pub use sc_executor::NativeExecutor; use sp_consensus_aura::sr25519::{AuthorityPair as AuraPair}; use sc_finality_grandpa::{ FinalityProofProvider as GrandpaFinalityProofProvider, StorageAndProofProvider, SharedVoterState, }; // Our native executor instance. native_executor_instance!( pub Executor, node_template_runtime::api::dispatch, node_template_runtime::native_version, ); type FullClient = sc_service::TFullClient; type FullBackend = sc_service::TFullBackend; type FullSelectChain = sc_consensus::LongestChain; pub fn new_full_params(config: Configuration) -> Result<( sc_service::ServiceParams< Block, FullClient, sc_consensus_aura::AuraImportQueue, sc_transaction_pool::FullPool, (), FullBackend, >, FullSelectChain, sp_inherents::InherentDataProviders, sc_finality_grandpa::GrandpaBlockImport, sc_finality_grandpa::LinkHalf ), ServiceError> { let inherent_data_providers = sp_inherents::InherentDataProviders::new(); let (client, backend, keystore, task_manager) = sc_service::new_full_parts::(&config)?; let client = Arc::new(client); let select_chain = sc_consensus::LongestChain::new(backend.clone()); let pool_api = sc_transaction_pool::FullChainApi::new( client.clone(), config.prometheus_registry(), ); let transaction_pool = sc_transaction_pool::BasicPool::new_full( config.transaction_pool.clone(), std::sync::Arc::new(pool_api), config.prometheus_registry(), task_manager.spawn_handle(), client.clone(), ); let (grandpa_block_import, grandpa_link) = sc_finality_grandpa::block_import( client.clone(), &(client.clone() as Arc<_>), select_chain.clone(), )?; let aura_block_import = sc_consensus_aura::AuraBlockImport::<_, _, _, AuraPair>::new( grandpa_block_import.clone(), client.clone(), ); let import_queue = sc_consensus_aura::import_queue::<_, _, _, AuraPair, _>( sc_consensus_aura::slot_duration(&*client)?, aura_block_import, Some(Box::new(grandpa_block_import.clone())), None, client.clone(), inherent_data_providers.clone(), &task_manager.spawn_handle(), config.prometheus_registry(), )?; let provider = client.clone() as Arc>; let finality_proof_provider = Arc::new(GrandpaFinalityProofProvider::new(backend.clone(), provider)); let params = sc_service::ServiceParams { backend, client, import_queue, keystore, task_manager, transaction_pool, config, block_announce_validator_builder: None, finality_proof_request_builder: None, finality_proof_provider: Some(finality_proof_provider), on_demand: None, remote_blockchain: None, rpc_extensions_builder: Box::new(|_| ()), }; Ok(( params, select_chain, inherent_data_providers, grandpa_block_import, grandpa_link, )) } /// Builds a new service for a full client. pub fn new_full(config: Configuration) -> Result { let ( params, select_chain, inherent_data_providers, block_import, grandpa_link, ) = new_full_params(config)?; let ( role, force_authoring, name, enable_grandpa, prometheus_registry, client, transaction_pool, keystore, ) = { let sc_service::ServiceParams { config, client, transaction_pool, keystore, .. } = ¶ms; ( config.role.clone(), config.force_authoring, config.network.node_name.clone(), !config.disable_grandpa, config.prometheus_registry().cloned(), client.clone(), transaction_pool.clone(), keystore.clone(), ) }; let ServiceComponents { task_manager, network, telemetry_on_connect_sinks, .. } = sc_service::build(params)?; if role.is_authority() { let proposer = sc_basic_authorship::ProposerFactory::new( client.clone(), transaction_pool, prometheus_registry.as_ref(), ); let can_author_with = sp_consensus::CanAuthorWithNativeVersion::new(client.executor().clone()); let aura = sc_consensus_aura::start_aura::<_, _, _, _, _, AuraPair, _, _, _>( sc_consensus_aura::slot_duration(&*client)?, client.clone(), select_chain, block_import, proposer, network.clone(), inherent_data_providers.clone(), force_authoring, keystore.clone(), can_author_with, )?; // the AURA authoring task is considered essential, i.e. if it // fails we take down the service with it. task_manager.spawn_essential_handle().spawn_blocking("aura", aura); } // 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 = if role.is_authority() { Some(keystore as sp_core::traits::BareCryptoStorePtr) } else { None }; let grandpa_config = sc_finality_grandpa::Config { // FIXME #1578 make this available through chainspec gossip_duration: Duration::from_millis(333), justification_period: 512, name: Some(name), observer_enabled: false, keystore, is_authority: role.is_network_authority(), }; if enable_grandpa { // start the full GRANDPA voter // NOTE: non-authorities could run the GRANDPA observer protocol, but at // this point the full voter should provide better guarantees of block // and vote data availability than the observer. The observer has not // been tested extensively yet and having most nodes in a network run it // could lead to finality stalls. let grandpa_config = sc_finality_grandpa::GrandpaParams { config: grandpa_config, link: grandpa_link, network, inherent_data_providers, telemetry_on_connect: Some(telemetry_on_connect_sinks.on_connect_stream()), voting_rule: sc_finality_grandpa::VotingRulesBuilder::default().build(), prometheus_registry, shared_voter_state: SharedVoterState::empty(), }; // the GRANDPA voter task is considered infallible, i.e. // if it fails we take down the service with it. task_manager.spawn_essential_handle().spawn_blocking( "grandpa-voter", sc_finality_grandpa::run_grandpa_voter(grandpa_config)? ); } else { sc_finality_grandpa::setup_disabled_grandpa( client, &inherent_data_providers, network, )?; } Ok(task_manager) } /// Builds a new service for a light client. pub fn new_light(config: Configuration) -> Result { let (client, backend, keystore, task_manager, on_demand) = sc_service::new_light_parts::(&config)?; let transaction_pool_api = Arc::new(sc_transaction_pool::LightChainApi::new( client.clone(), on_demand.clone(), )); let transaction_pool = sc_transaction_pool::BasicPool::new_light( config.transaction_pool.clone(), transaction_pool_api, config.prometheus_registry(), task_manager.spawn_handle(), ); let grandpa_block_import = sc_finality_grandpa::light_block_import( client.clone(), backend.clone(), &(client.clone() as Arc<_>), Arc::new(on_demand.checker().clone()) as Arc<_>, )?; let finality_proof_import = grandpa_block_import.clone(); let finality_proof_request_builder = finality_proof_import.create_finality_proof_request_builder(); let import_queue = sc_consensus_aura::import_queue::<_, _, _, AuraPair, _>( sc_consensus_aura::slot_duration(&*client)?, grandpa_block_import, None, Some(Box::new(finality_proof_import)), client.clone(), InherentDataProviders::new(), &task_manager.spawn_handle(), config.prometheus_registry(), )?; let finality_proof_provider = Arc::new(GrandpaFinalityProofProvider::new(backend.clone(), client.clone() as Arc<_>)); sc_service::build(sc_service::ServiceParams { block_announce_validator_builder: None, finality_proof_request_builder: Some(finality_proof_request_builder), finality_proof_provider: Some(finality_proof_provider), on_demand: Some(on_demand), remote_blockchain: Some(backend.remote_blockchain()), rpc_extensions_builder: Box::new(|_| ()), transaction_pool: Arc::new(transaction_pool), config, client, import_queue, keystore, backend, task_manager }).map(|ServiceComponents { task_manager, .. }| task_manager) }