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// Copyright 2017 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 <http://www.gnu.org/licenses/>.
#![warn(unused_extern_crates)]
//! Polkadot service. Specialized wrapper over substrate service.
extern crate ed25519;
extern crate polkadot_primitives;
extern crate polkadot_runtime;
extern crate polkadot_executor;
extern crate polkadot_api;
extern crate polkadot_consensus as consensus;
extern crate polkadot_transaction_pool as transaction_pool;
extern crate polkadot_network;
extern crate substrate_primitives as primitives;
extern crate substrate_network as network;
extern crate substrate_codec as codec;
extern crate substrate_service as service;
extern crate tokio;
#[macro_use]
extern crate hex_literal;
use polkadot_api::{PolkadotApi, light::RemotePolkadotApiWrapper};
use polkadot_primitives::{parachain, AccountId, Block, BlockId, Hash};
use polkadot_runtime::GenesisConfig;
use client::Client;
use polkadot_network::{PolkadotProtocol, consensus::ConsensusNetwork};
use tokio::runtime::TaskExecutor;
use service::FactoryFullConfiguration;
pub use service::{Roles, PruningMode, ExtrinsicPoolOptions,
ErrorKind, Error, ComponentBlock, LightComponents, FullComponents};
pub use client::ExecutionStrategy;
/// Specialised polkadot `ChainSpec`.
pub type ChainSpec = service::ChainSpec<GenesisConfig>;
/// Polkadot client type for specialised `Components`.
pub type ComponentClient<C> = Client<<C as Components>::Backend, <C as Components>::Executor, Block>;
pub type NetworkService = network::Service<Block, <Factory as service::ServiceFactory>::NetworkProtocol>;
/// A collection of type to generalise Polkadot specific components over full / light client.
pub trait Components: service::Components {
/// Polkadot API.
type Api: 'static + PolkadotApi + Send + Sync;
/// Client backend.
type Backend: 'static + client::backend::Backend<Block>;
/// Client executor.
type Executor: 'static + client::CallExecutor<Block> + Send + Sync;
}
impl Components for service::LightComponents<Factory> {
type Api = RemotePolkadotApiWrapper<
<service::LightComponents<Factory> as service::Components>::Backend,
<service::LightComponents<Factory> as service::Components>::Executor,
>;
type Executor = service::LightExecutor<Factory>;
type Backend = service::LightBackend<Factory>;
impl Components for service::FullComponents<Factory> {
type Api = service::FullClient<Factory>;
type Executor = service::FullExecutor<Factory>;
type Backend = service::FullBackend<Factory>;
/// All configuration for the polkadot node.
pub type Configuration = FactoryFullConfiguration<Factory>;
/// Polkadot-specific configuration.
#[derive(Default)]
pub struct CustomConfiguration {
/// Set to `Some` with a collator `AccountId` and desired parachain
/// if the network protocol should be started in collator mode.
pub collating_for: Option<(AccountId, parachain::Id)>,
}
/// Polkadot config for the substrate service.
pub struct Factory;
impl service::ServiceFactory for Factory {
type Block = Block;
type NetworkProtocol = PolkadotProtocol;
type RuntimeDispatch = polkadot_executor::Executor;
type FullExtrinsicPool = TransactionPoolAdapter<
service::FullBackend<Self>,
service::FullExecutor<Self>,
service::FullClient<Self>
>;
type LightExtrinsicPool = TransactionPoolAdapter<
service::LightBackend<Self>,
service::LightExecutor<Self>,
RemotePolkadotApiWrapper<service::LightBackend<Self>, service::LightExecutor<Self>>
>;
type Genesis = GenesisConfig;
type Configuration = CustomConfiguration;
const NETWORK_PROTOCOL_ID: network::ProtocolId = ::polkadot_network::DOT_PROTOCOL_ID;
fn build_full_extrinsic_pool(config: ExtrinsicPoolOptions, client: Arc<service::FullClient<Self>>)
-> Result<Self::FullExtrinsicPool, Error>
{
let api = client.clone();
Ok(TransactionPoolAdapter {
pool: Arc::new(TransactionPool::new(config, api)),
client: client,
imports_external_transactions: true,
})
}
fn build_light_extrinsic_pool(config: ExtrinsicPoolOptions, client: Arc<service::LightClient<Self>>)
-> Result<Self::LightExtrinsicPool, Error>
{
let api = Arc::new(RemotePolkadotApiWrapper(client.clone()));
Ok(TransactionPoolAdapter {
pool: Arc::new(TransactionPool::new(config, api)),
client: client,
imports_external_transactions: false,
})
}
fn build_network_protocol(config: &Configuration)
-> Result<PolkadotProtocol, Error>
{
if let Some((_, ref para_id)) = config.custom.collating_for {
info!("Starting network in Collator mode for parachain {:?}", para_id);
}
Ok(PolkadotProtocol::new(config.custom.collating_for))
}
/// Polkadot service.
pub struct Service<C: Components> {
inner: service::Service<C>,
client: Arc<ComponentClient<C>>,
api: Arc<<C as Components>::Api>,
_consensus: Option<consensus::Service>,
impl <C: Components> Service<C> {
pub fn client(&self) -> Arc<ComponentClient<C>> {
self.client.clone()
}
pub fn network(&self) -> Arc<NetworkService> {
self.network.clone()
}
pub fn api(&self) -> Arc<<C as Components>::Api> {
self.api.clone()
}
}
/// Creates light client and register protocol with the network service
pub fn new_light(config: Configuration, executor: TaskExecutor)
-> Result<Service<LightComponents<Factory>>, Error>
{
let service = service::Service::<LightComponents<Factory>>::new(config, executor)?;
let api = Arc::new(RemotePolkadotApiWrapper(service.client()));
Ok(Service {
client: service.client(),
api: api,
inner: service,
_consensus: None,
})
}
/// Creates full client and register protocol with the network service
pub fn new_full(config: Configuration, executor: TaskExecutor)
-> Result<Service<FullComponents<Factory>>, Error>
{
let is_validator = (config.roles & Roles::AUTHORITY) == Roles::AUTHORITY;
let service = service::Service::<FullComponents<Factory>>::new(config, executor.clone())?;
// Spin consensus service if configured
let consensus = if is_validator {
// Load the first available key
let key = service.keystore().load(&service.keystore().contents()?[0], "")?;
info!("Using authority key {}", key.public());
let consensus_net = ConsensusNetwork::new(service.network(), client.clone());
Some(consensus::Service::new(
client.clone(),
client.clone(),
consensus_net,
service.extrinsic_pool(),
executor,
asynchronous rob
committed
::std::time::Duration::from_secs(4), // TODO: dynamic
key,
))
} else {
None
};
Ok(Service {
client: service.client(),
api: service.client(),
inner: service,
_consensus: consensus,
})
}
/// Creates bare client without any networking.
pub fn new_client(config: Configuration)
-> Result<Arc<service::ComponentClient<FullComponents<Factory>>>, Error>
{
service::new_client::<Factory>(config)
}
impl<C: Components> ::std::ops::Deref for Service<C> {
type Target = service::Service<C>;
fn deref(&self) -> &Self::Target {
&self.inner
/// Transaction pool adapter.
pub struct TransactionPoolAdapter<B, E, A> where A: Send + Sync, E: Send + Sync {
imports_external_transactions: bool,
pool: Arc<TransactionPool<A>>,
client: Arc<Client<B, E, Block>>,
}
impl<B, E, A> TransactionPoolAdapter<B, E, A>
where
A: Send + Sync,
B: client::backend::Backend<Block> + Send + Sync,
E: client::CallExecutor<Block> + Send + Sync,
{
fn best_block_id(&self) -> Option<BlockId> {
self.client.info()
.map(|info| BlockId::hash(info.chain.best_hash))
.map_err(|e| {
debug!("Error getting best block: {:?}", e);
})
.ok()
impl<B, E, A> network::TransactionPool<Block> for TransactionPoolAdapter<B, E, A>
where
B: client::backend::Backend<Block> + Send + Sync,
E: client::CallExecutor<Block> + Send + Sync,
A: polkadot_api::PolkadotApi + Send + Sync,
{
fn transactions(&self) -> Vec<(Hash, Vec<u8>)> {
let best_block_id = match self.best_block_id() {
Some(id) => id,
None => return vec![],
};
self.pool.cull_and_get_pending(best_block_id, |pending| pending
.map(|t| {
let hash = t.hash().clone();
(hash, t.primitive_extrinsic())
})
.collect()
).unwrap_or_else(|e| {
warn!("Error retrieving pending set: {}", e);
vec![]
})
fn import(&self, transaction: &Vec<u8>) -> Option<Hash> {
if !self.imports_external_transactions {
return None;
}
if let Some(uxt) = codec::Decode::decode(&mut &encoded[..]) {
let best_block_id = self.best_block_id()?;
match self.pool.import_unchecked_extrinsic(best_block_id, uxt) {
Ok(xt) => Some(*xt.hash()),
Err(e) => match *e.kind() {
transaction_pool::ErrorKind::AlreadyImported(hash) => Some(hash[..].into()),
_ => {
asynchronous rob
committed
debug!(target: "txpool", "Error adding transaction to the pool: {:?}", e);
asynchronous rob
committed
debug!(target: "txpool", "Error decoding transaction");
fn on_broadcasted(&self, propagations: HashMap<Hash, Vec<String>>) {
self.pool.on_broadcasted(propagations)
impl<B, E, A> service::ExtrinsicPool<Block> for TransactionPoolAdapter<B, E, A>
where
B: client::backend::Backend<Block> + Send + Sync + 'static,
E: client::CallExecutor<Block> + Send + Sync + 'static,
A: polkadot_api::PolkadotApi + Send + Sync + 'static,
{
type Api = TransactionPool<A>;
fn prune_imported(&self, hash: &Hash) {
let block = BlockId::hash(*hash);
if let Err(e) = self.pool.cull(block) {
warn!("Culling error: {:?}", e);
}
if let Err(e) = self.pool.retry_verification(block) {
warn!("Re-verifying error: {:?}", e);
fn api(&self) -> Arc<Self::Api> {
self.pool.clone()
}