// Copyright 2021 Axiom-Team
//
// This file is part of Duniter-v2S.
//
// Duniter-v2S is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, version 3 of the License.
//
// Duniter-v2S 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 Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with Duniter-v2S. If not, see <https://www.gnu.org/licenses/>.
//! Service and ServiceFactory implementation. Specialized wrapper over substrate service.
pub mod client;
use self::client::{Client, ClientHandle, RuntimeApiCollection};
use async_io::Timer;
use common_runtime::Block;
use futures::{Stream, StreamExt};
use manual_seal::{run_manual_seal, EngineCommand, ManualSealParams};
use sc_client_api::BlockBackend;
pub use sc_executor::NativeElseWasmExecutor;
use sc_finality_grandpa::SharedVoterState;
use sc_keystore::LocalKeystore;
use sc_service::{error::Error as ServiceError, Configuration, PartialComponents, TaskManager};
use sc_telemetry::{Telemetry, TelemetryWorker};
use sp_core::H256;
use sp_runtime::traits::BlakeTwo256;
use std::{path::PathBuf, sync::Arc, time::Duration};
type FullClient<RuntimeApi, Executor> =
sc_service::TFullClient<Block, RuntimeApi, NativeElseWasmExecutor<Executor>>;
type FullBackend = sc_service::TFullBackend<Block>;
type FullSelectChain = sc_consensus::LongestChain<FullBackend, Block>;
#[cfg(feature = "gdev")]
pub struct GDevExecutor;
#[cfg(feature = "gdev")]
impl sc_executor::NativeExecutionDispatch for GDevExecutor {
/// Only enable the benchmarking host functions when we actually want to benchmark.
#[cfg(feature = "runtime-benchmarks")]
type ExtendHostFunctions = frame_benchmarking::benchmarking::HostFunctions;
/// Otherwise we only use the default Substrate host functions.
#[cfg(not(feature = "runtime-benchmarks"))]
type ExtendHostFunctions = ();
fn dispatch(method: &str, data: &[u8]) -> Option<Vec<u8>> {
gdev_runtime::api::dispatch(method, data)
}
fn native_version() -> sc_executor::NativeVersion {
gdev_runtime::native_version()
}
}
#[cfg(feature = "gtest")]
pub struct GTestExecutor;
#[cfg(feature = "gtest")]
impl sc_executor::NativeExecutionDispatch for GTestExecutor {
/// Only enable the benchmarking host functions when we actually want to benchmark.
#[cfg(feature = "runtime-benchmarks")]
type ExtendHostFunctions = frame_benchmarking::benchmarking::HostFunctions;
/// Otherwise we only use the default Substrate host functions.
#[cfg(not(feature = "runtime-benchmarks"))]
type ExtendHostFunctions = ();
fn dispatch(method: &str, data: &[u8]) -> Option<Vec<u8>> {
gtest_runtime::api::dispatch(method, data)
}
fn native_version() -> sc_executor::NativeVersion {
gtest_runtime::native_version()
}
}
#[cfg(feature = "g1")]
pub struct G1Executor;
#[cfg(feature = "g1")]
impl sc_executor::NativeExecutionDispatch for G1Executor {
/// Only enable the benchmarking host functions when we actually want to benchmark.
#[cfg(feature = "runtime-benchmarks")]
type ExtendHostFunctions = frame_benchmarking::benchmarking::HostFunctions;
/// Otherwise we only use the default Substrate host functions.
#[cfg(not(feature = "runtime-benchmarks"))]
type ExtendHostFunctions = ();
fn dispatch(method: &str, data: &[u8]) -> Option<Vec<u8>> {
g1_runtime::api::dispatch(method, data)
}
fn native_version() -> sc_executor::NativeVersion {
g1_runtime::native_version()
}
}
#[derive(Debug)]
pub enum RuntimeType {
G1,
GDev,
GTest,
}
/// Can be called for a `Configuration` to check if it is a configuration for
/// a particular runtime type.
pub trait IdentifyRuntimeType {
/// Returns the runtime type
fn runtime_type(&self) -> RuntimeType;
}
impl IdentifyRuntimeType for Box<dyn sc_chain_spec::ChainSpec> {
fn runtime_type(&self) -> RuntimeType {
if self.id().starts_with("g1") {
RuntimeType::G1
} else if self.id().starts_with("dev") || self.id().starts_with("gdev") {
RuntimeType::GDev
} else if self.id().starts_with("gtest") {
RuntimeType::GTest
} else {
panic!("unknown runtime")
}
}
}
/// Builds a new object suitable for chain operations.
#[allow(clippy::type_complexity)]
pub fn new_chain_ops(
config: &mut Configuration,
manual_consensus: bool,
) -> Result<
(
Arc<Client>,
Arc<FullBackend>,
sc_consensus::BasicQueue<Block, sp_trie::PrefixedMemoryDB<BlakeTwo256>>,
TaskManager,
),
ServiceError,
> {
match config.chain_spec.runtime_type() {
#[cfg(feature = "g1")]
RuntimeType::G1::G1 => {
let PartialComponents {
client,
backend,
import_queue,
task_manager,
..
} = new_partial::<g1_runtime::RuntimeApi, G1Executor>(config, manual_consensus)?;
Ok((
Arc::new(Client::G1(client)),
backend,
import_queue,
task_manager,
))
}
#[cfg(feature = "gtest")]
RuntimeType::GTest => {
let PartialComponents {
client,
backend,
import_queue,
task_manager,
..
} = new_partial::<gtest_runtime::RuntimeApi, GTestExecutor>(config, manual_consensus)?;
Ok((
Arc::new(Client::GTest(client)),
backend,
import_queue,
task_manager,
))
}
#[cfg(feature = "gdev")]
RuntimeType::GDev => {
let PartialComponents {
client,
backend,
import_queue,
task_manager,
..
} = new_partial::<gdev_runtime::RuntimeApi, GDevExecutor>(config, manual_consensus)?;
Ok((
Arc::new(Client::GDev(client)),
backend,
import_queue,
task_manager,
))
}
_ => panic!("unknown runtime"),
}
}
type FullGrandpaBlockImport<RuntimeApi, Executor> = sc_finality_grandpa::GrandpaBlockImport<
FullBackend,
Block,
FullClient<RuntimeApi, Executor>,
FullSelectChain,
>;
#[allow(clippy::type_complexity)]
pub fn new_partial<RuntimeApi, Executor>(
config: &Configuration,
consensus_manual: bool,
) -> Result<
sc_service::PartialComponents<
FullClient<RuntimeApi, Executor>,
FullBackend,
FullSelectChain,
sc_consensus::DefaultImportQueue<Block, FullClient<RuntimeApi, Executor>>,
sc_transaction_pool::FullPool<Block, FullClient<RuntimeApi, Executor>>,
(
babe::BabeBlockImport<
Block,
FullClient<RuntimeApi, Executor>,
FullGrandpaBlockImport<RuntimeApi, Executor>,
>,
babe::BabeLink<Block>,
sc_finality_grandpa::LinkHalf<Block, FullClient<RuntimeApi, Executor>, FullSelectChain>,
Option<Telemetry>,
),
>,
ServiceError,
>
where
RuntimeApi: sp_api::ConstructRuntimeApi<Block, FullClient<RuntimeApi, Executor>>
+ Send
+ Sync
+ 'static,
RuntimeApi::RuntimeApi:
RuntimeApiCollection<StateBackend = sc_client_api::StateBackendFor<FullBackend, Block>>,
Executor: sc_executor::NativeExecutionDispatch + 'static,
{
if config.keystore_remote.is_some() {
return Err(ServiceError::Other(
"Remote Keystores are not supported.".to_owned(),
));
}
let telemetry = config
.telemetry_endpoints
.clone()
.filter(|x| !x.is_empty())
.map(|endpoints| -> Result<_, sc_telemetry::Error> {
let worker = TelemetryWorker::new(16)?;
let telemetry = worker.handle().new_telemetry(endpoints);
Ok((worker, telemetry))
})
.transpose()?;
let executor = NativeElseWasmExecutor::<Executor>::new(
config.wasm_method,
config.default_heap_pages,
config.max_runtime_instances,
config.runtime_cache_size,
);
let (client, backend, keystore_container, task_manager) =
sc_service::new_full_parts::<Block, RuntimeApi, _>(
config,
telemetry.as_ref().map(|(_, telemetry)| telemetry.handle()),
executor,
)?;
let client = Arc::new(client);
let telemetry = telemetry.map(|(worker, telemetry)| {
task_manager
.spawn_handle()
.spawn("telemetry", None, worker.run());
telemetry
});
let select_chain = sc_consensus::LongestChain::new(backend.clone());
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_block_import, grandpa_link) = sc_finality_grandpa::block_import(
client.clone(),
&(client.clone() as Arc<_>),
select_chain.clone(),
telemetry.as_ref().map(|x| x.handle()),
)?;
let justification_import = grandpa_block_import.clone();
let babe_config = babe::configuration(&*client)?;
let (babe_block_import, babe_link) =
babe::block_import(babe_config, grandpa_block_import, client.clone())?;
let import_queue = if consensus_manual {
manual_seal::import_queue(
Box::new(babe_block_import.clone()),
&task_manager.spawn_essential_handle(),
config.prometheus_registry(),
)
} else {
let slot_duration = babe_link.config().slot_duration();
babe::import_queue(
babe_link.clone(),
babe_block_import.clone(),
Some(Box::new(justification_import)),
client.clone(),
select_chain.clone(),
move |_parent, ()| 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))
},
&task_manager.spawn_essential_handle(),
config.prometheus_registry(),
telemetry.as_ref().map(|x| x.handle()),
)?
};
Ok(sc_service::PartialComponents {
client,
backend,
task_manager,
import_queue,
keystore_container,
select_chain,
transaction_pool,
other: (babe_block_import, babe_link, grandpa_link, telemetry),
})
}
fn remote_keystore(_url: &str) -> Result<Arc<LocalKeystore>, &'static str> {
// FIXME: here would the concrete keystore be built,
// must return a concrete type (NOT `LocalKeystore`) that
// implements `CryptoStore` and `SyncCryptoStore`
Err("Remote Keystore not supported.")
}
/// Builds a new service for a full client.
pub fn new_full<RuntimeApi, Executor>(
mut config: Configuration,
sealing: crate::cli::Sealing,
) -> Result<TaskManager, ServiceError>
where
RuntimeApi: sp_api::ConstructRuntimeApi<Block, FullClient<RuntimeApi, Executor>>
+ Send
+ Sync
+ 'static,
RuntimeApi::RuntimeApi:
RuntimeApiCollection<StateBackend = sc_client_api::StateBackendFor<FullBackend, Block>>,
Executor: sc_executor::NativeExecutionDispatch + 'static,
{
let sc_service::PartialComponents {
client,
backend,
mut task_manager,
import_queue,
mut keystore_container,
select_chain,
transaction_pool,
other: (block_import, babe_link, grandpa_link, mut telemetry),
} = new_partial::<RuntimeApi, Executor>(&config, sealing.is_manual_consensus())?;
if let Some(url) = &config.keystore_remote {
match remote_keystore(url) {
Ok(k) => keystore_container.set_remote_keystore(k),
Err(e) => {
return Err(ServiceError::Other(format!(
"Error hooking up remote keystore for {}: {}",
url, e
)))
}
};
}
let grandpa_protocol_name = sc_finality_grandpa::protocol_standard_name(
&client
.block_hash(0)
.ok()
.flatten()
.expect("Genesis block exists; qed"),
&config.chain_spec,
);
config
.network
.extra_sets
.push(sc_finality_grandpa::grandpa_peers_set_config(
grandpa_protocol_name.clone(),
));
let warp_sync = Arc::new(sc_finality_grandpa::warp_proof::NetworkProvider::new(
backend.clone(),
grandpa_link.shared_authority_set().clone(),
Vec::default(),
));
let (network, system_rpc_tx, tx_handler_controller, network_starter) =
sc_service::build_network(sc_service::BuildNetworkParams {
config: &config,
client: client.clone(),
transaction_pool: transaction_pool.clone(),
spawn_handle: task_manager.spawn_handle(),
import_queue,
block_announce_validator_builder: None,
warp_sync: Some(warp_sync),
})?;
if config.offchain_worker.enabled {
sc_service::build_offchain_workers(
&config,
task_manager.spawn_handle(),
client.clone(),
network.clone(),
);
}
let role = config.role.clone();
let force_authoring = config.force_authoring;
let backoff_authoring_blocks: Option<()> = None;
let name = config.network.node_name.clone();
let enable_grandpa = !config.disable_grandpa;
let prometheus_registry = config.prometheus_registry().cloned();
let mut command_sink_opt = None;
if role.is_authority() {
let distance_dir = config.base_path.as_ref().map_or_else(
|| {
PathBuf::from(format!(
"/tmp/duniter/chains/{}/distance",
config.chain_spec.id()
))
},
|base_path| {
base_path
.config_dir(config.chain_spec.id())
.join("distance")
},
);
let proposer_factory = 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 sync_cryptostore_ptr = keystore_container.sync_keystore();
let client = client.clone();
if sealing.is_manual_consensus() {
let commands_stream: Box<dyn Stream<Item = EngineCommand<H256>> + Send + Sync + Unpin> =
match sealing {
crate::cli::Sealing::Instant => {
Box::new(
// This bit cribbed from the implementation of instant seal.
transaction_pool
.pool()
.validated_pool()
.import_notification_stream()
.map(|_| EngineCommand::SealNewBlock {
create_empty: false,
finalize: false,
parent_hash: None,
sender: None,
}),
)
}
crate::cli::Sealing::Manual => {
let (sink, stream) = futures::channel::mpsc::channel(1000);
// Keep a reference to the other end of the channel. It goes to the RPC.
command_sink_opt = Some(sink);
Box::new(stream)
}
crate::cli::Sealing::Interval(millis) => Box::new(StreamExt::map(
Timer::interval(Duration::from_millis(millis)),
|_| EngineCommand::SealNewBlock {
create_empty: true,
finalize: false,
parent_hash: None,
sender: None,
},
)),
crate::cli::Sealing::Production => unreachable!(),
};
let babe_consensus_data_provider =
manual_seal::consensus::babe::BabeConsensusDataProvider::new(
client.clone(),
keystore_container.sync_keystore(),
babe_link.epoch_changes().clone(),
vec![(
sp_consensus_babe::AuthorityId::from(
sp_keyring::sr25519::Keyring::Alice.public(),
),
1000,
)],
)
.expect("failed to create BabeConsensusDataProvider");
task_manager.spawn_essential_handle().spawn_blocking(
"manual-seal",
Some("block-authoring"),
run_manual_seal(ManualSealParams {
block_import,
env: proposer_factory,
client: client.clone(),
pool: transaction_pool.clone(),
commands_stream,
select_chain,
consensus_data_provider: Some(Box::new(babe_consensus_data_provider)),
create_inherent_data_providers: move |parent, _| {
let client = client.clone();
let distance_dir = distance_dir.clone();
let babe_owner_keys =
std::sync::Arc::new(sp_keystore::SyncCryptoStore::sr25519_public_keys(
sync_cryptostore_ptr.as_ref(),
sp_runtime::KeyTypeId(*b"babe"),
));
async move {
let timestamp =
manual_seal::consensus::timestamp::SlotTimestampProvider::new_babe(
client.clone(),
)
.map_err(|err| format!("{:?}", err))?;
let babe = sp_consensus_babe::inherents::InherentDataProvider::new(
timestamp.slot(),
);
let distance =
dc_distance::create_distance_inherent_data_provider::<
Block,
FullClient<RuntimeApi, Executor>,
FullBackend,
>(
&*client, parent, distance_dir, &babe_owner_keys.clone()
)?;
Ok((timestamp, babe, distance))
}
},
}),
);
} else {
let slot_duration = babe_link.config().slot_duration();
let babe_config = babe::BabeParams {
keystore: keystore_container.sync_keystore(),
client: client.clone(),
select_chain,
block_import,
env: proposer_factory,
sync_oracle: network.clone(),
justification_sync_link: network.clone(),
create_inherent_data_providers: move |parent, ()| {
// This closure is called during each block generation.
let client = client.clone();
let distance_dir = distance_dir.clone();
let babe_owner_keys =
std::sync::Arc::new(sp_keystore::SyncCryptoStore::sr25519_public_keys(
sync_cryptostore_ptr.as_ref(),
sp_runtime::KeyTypeId(*b"babe"),
));
async move {
let uncles = sc_consensus_uncles::create_uncles_inherent_data_provider(
&*client, parent,
)?;
let timestamp = sp_timestamp::InherentDataProvider::from_system_time();
let slot =
sp_consensus_babe::inherents::InherentDataProvider::from_timestamp_and_slot_duration(
*timestamp,
slot_duration,
);
let distance = dc_distance::create_distance_inherent_data_provider::<
Block,
FullClient<RuntimeApi, Executor>,
FullBackend,
>(
&*client, parent, distance_dir, &babe_owner_keys.clone()
)?;
Ok((slot, timestamp, uncles, distance))
}
},
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)?;
// the BABE authoring task is considered essential, i.e. if it
// fails we take down the service with it.
task_manager.spawn_essential_handle().spawn_blocking(
"babe",
Some("block-authoring"),
babe,
);
}
}
let rpc_extensions_builder = {
let client = client.clone();
//let keystore = keystore_container.sync_keystore();
let pool = transaction_pool.clone();
//let select_chain = select_chain.clone();
//let chain_spec = config.chain_spec.cloned_box();
Box::new(move |deny_unsafe, _| {
let deps = crate::rpc::FullDeps {
client: client.clone(),
pool: pool.clone(),
//select_chain: select_chain.clone(),
//chain_spec: chain_spec.cloned_box(),
deny_unsafe,
/*babe: crate::rpc::BabeDeps {
babe_config: babe_config.clone(),
shared_epoch_changes: shared_epoch_changes.clone(),
keystore: keystore.clone(),
},*/
command_sink_opt: command_sink_opt.clone(),
};
crate::rpc::create_full(deps).map_err(Into::into)
})
};
let _rpc_handlers = sc_service::spawn_tasks(sc_service::SpawnTasksParams {
config,
backend,
network: network.clone(),
client,
keystore: keystore_container.sync_keystore(),
task_manager: &mut task_manager,
transaction_pool,
rpc_builder: rpc_extensions_builder,
system_rpc_tx,
tx_handler_controller,
telemetry: telemetry.as_mut(),
})?;
// 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_container.sync_keystore())
} 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,
local_role: role,
telemetry: telemetry.as_ref().map(|x| x.handle()),
protocol_name: grandpa_protocol_name,
};
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,
voting_rule: sc_finality_grandpa::VotingRulesBuilder::default().build(),
prometheus_registry,
shared_voter_state: SharedVoterState::empty(),
telemetry: telemetry.as_ref().map(|x| x.handle()),
};
// 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",
None,
sc_finality_grandpa::run_grandpa_voter(grandpa_config)?,
);
}
network_starter.start_network();
log::info!("***** Duniter has fully started *****");
Ok(task_manager)
}
/// Reverts the node state down to at most the last finalized block.
///
/// In particular this reverts:
/// - Low level Babe and Grandpa consensus data.
pub fn revert_backend(
client: Arc<Client>,
backend: Arc<FullBackend>,
blocks: common_runtime::BlockNumber,
) -> sc_cli::Result<()> {
// Revert Substrate consensus related components
client.execute_with(RevertConsensus { blocks, backend })?;
Ok(())
}
pub(super) struct RevertConsensus {
blocks: common_runtime::BlockNumber,
backend: Arc<FullBackend>,
}
impl client::ExecuteWithClient for RevertConsensus {
type Output = sp_blockchain::Result<()>;
fn execute_with_client<Client, Api, Backend>(self, client: Arc<Client>) -> Self::Output
where
<Api as sp_api::ApiExt<Block>>::StateBackend: sp_api::StateBackend<BlakeTwo256>,
Backend: sc_client_api::Backend<Block> + 'static,
Backend::State: sp_api::StateBackend<BlakeTwo256>,
Api: RuntimeApiCollection<StateBackend = Backend::State>,
Client: client::AbstractClient<Block, Backend, Api = Api> + 'static,
{
// Revert consensus-related components.
// The operations are not correlated, thus call order is not relevant.
babe::revert(client.clone(), self.backend, self.blocks)?;
sc_finality_grandpa::revert(client, self.blocks)?;
Ok(())
}
}