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// Copyright 2019-2021 Parity Technologies (UK) Ltd.
// This file is part of Parity Bridges Common.
// Parity Bridges Common 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.
// Parity Bridges Common 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 Parity Bridges Common. If not, see <http://www.gnu.org/licenses/>.
//! Substrate node client.
use crate::{
chain::{Chain, ChainWithBalances, TransactionStatusOf},
rpc::Substrate,
ConnectionParams, Error, HashOf, HeaderIdOf, Result,
};
use async_trait::async_trait;
use codec::{Decode, Encode};
use futures::{SinkExt, StreamExt};
types::{
self as jsonrpsee_types, traits::SubscriptionClient, v2::params::JsonRpcParams,
DeserializeOwned,
},
WsClient as RpcClient, WsClientBuilder as RpcClientBuilder,
use num_traits::{Bounded, CheckedSub, One, Zero};
use pallet_transaction_payment::InclusionFee;
use relay_utils::{relay_loop::RECONNECT_DELAY, HeaderId};
use sp_core::{
storage::{StorageData, StorageKey},
Bytes, Hasher,
};
use sp_runtime::{
traits::Header as HeaderT,
transaction_validity::{TransactionSource, TransactionValidity},
};
use std::{convert::TryFrom, future::Future};
const SUB_API_GRANDPA_AUTHORITIES: &str = "GrandpaApi_grandpa_authorities";
const SUB_API_TXPOOL_VALIDATE_TRANSACTION: &str = "TaggedTransactionQueue_validate_transaction";
const MAX_SUBSCRIPTION_CAPACITY: usize = 4096;
/// Opaque justifications subscription type.
pub struct Subscription<T>(Mutex<futures::channel::mpsc::Receiver<Option<T>>>);
/// Opaque GRANDPA authorities set.
pub type OpaqueGrandpaAuthoritiesSet = Vec<u8>;
/// Substrate client type.
/// Cloning `Client` is a cheap operation.
pub struct Client<C: Chain> {
/// Tokio runtime handle.
tokio: Arc<tokio::runtime::Runtime>,
/// Client connection params.
params: ConnectionParams,
/// Substrate RPC client.
/// Genesis block hash.
genesis_hash: HashOf<C>,
/// If several tasks are submitting their transactions simultaneously using
/// `submit_signed_extrinsic` method, they may get the same transaction nonce. So one of
/// transactions will be rejected from the pool. This lock is here to prevent situations like
/// that.
submit_signed_extrinsic_lock: Arc<Mutex<()>>,
#[async_trait]
impl<C: Chain> relay_utils::relay_loop::Client for Client<C> {
type Error = Error;
async fn reconnect(&mut self) -> Result<()> {
let (tokio, client) = Self::build_client(self.params.clone()).await?;
self.tokio = tokio;
self.client = client;
Ok(())
}
}
impl<C: Chain> Clone for Client<C> {
fn clone(&self) -> Self {
Client {
tokio: self.tokio.clone(),
params: self.params.clone(),
client: self.client.clone(),
genesis_hash: self.genesis_hash,
submit_signed_extrinsic_lock: self.submit_signed_extrinsic_lock.clone(),
impl<C: Chain> std::fmt::Debug for Client<C> {
fn fmt(&self, fmt: &mut std::fmt::Formatter) -> std::fmt::Result {
fmt.debug_struct("Client").field("genesis_hash", &self.genesis_hash).finish()
}
}
impl<C: Chain> Client<C> {
/// Returns client that is able to call RPCs on Substrate node over websocket connection.
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///
/// This function will keep connecting to given Substrate node until connection is established
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/// and is functional. If attempt fail, it will wait for `RECONNECT_DELAY` and retry again.
pub async fn new(params: ConnectionParams) -> Self {
loop {
match Self::try_connect(params.clone()).await {
Ok(client) => return client,
Err(error) => log::error!(
target: "bridge",
"Failed to connect to {} node: {:?}. Going to retry in {}s",
C::NAME,
error,
RECONNECT_DELAY.as_secs(),
),
}
async_std::task::sleep(RECONNECT_DELAY).await;
}
}
/// Try to connect to Substrate node over websocket. Returns Substrate RPC client if connection
/// has been established or error otherwise.
pub async fn try_connect(params: ConnectionParams) -> Result<Self> {
let (tokio, client) = Self::build_client(params.clone()).await?;
let number: C::BlockNumber = Zero::zero();
let genesis_hash_client = client.clone();
let genesis_hash = tokio
.spawn(async move {
Substrate::<C>::chain_get_block_hash(&*genesis_hash_client, number).await
})
params,
client,
genesis_hash,
submit_signed_extrinsic_lock: Arc::new(Mutex::new(())),
})
}
/// Build client to use in connection.
async fn build_client(
params: ConnectionParams,
) -> Result<(Arc<tokio::runtime::Runtime>, Arc<RpcClient>)> {
let tokio = tokio::runtime::Runtime::new()?;
let uri = format!(
"{}://{}:{}",
if params.secure { "wss" } else { "ws" },
params.host,
params.port,
);
let client = tokio
.spawn(async move {
RpcClientBuilder::default()
.max_notifs_per_subscription(MAX_SUBSCRIPTION_CAPACITY)
.build(&uri)
.await
})
.await??;
Ok((Arc::new(tokio), Arc::new(client)))
}
}
/// Returns true if client is connected to at least one peer and is in synced state.
pub async fn ensure_synced(&self) -> Result<()> {
self.jsonrpsee_execute(|client| async move {
let health = Substrate::<C>::system_health(&*client).await?;
let is_synced = !health.is_syncing && (!health.should_have_peers || health.peers > 0);
if is_synced {
Ok(())
} else {
Err(Error::ClientNotSynced(health))
}
})
.await
/// Return hash of the genesis block.
pub fn genesis_hash(&self) -> &C::Hash {
&self.genesis_hash
}
/// Return hash of the best finalized block.
pub async fn best_finalized_header_hash(&self) -> Result<C::Hash> {
self.jsonrpsee_execute(|client| async move {
Ok(Substrate::<C>::chain_get_finalized_head(&*client).await?)
})
.await
/// Return number of the best finalized block.
pub async fn best_finalized_header_number(&self) -> Result<C::BlockNumber> {
Ok(*self.header_by_hash(self.best_finalized_header_hash().await?).await?.number())
}
/// Returns the best Substrate header.
pub async fn best_header(&self) -> Result<C::Header>
where
C::Header: DeserializeOwned,
{
self.jsonrpsee_execute(|client| async move {
Ok(Substrate::<C>::chain_get_header(&*client, None).await?)
})
.await
}
/// Get a Substrate block from its hash.
pub async fn get_block(&self, block_hash: Option<C::Hash>) -> Result<C::SignedBlock> {
self.jsonrpsee_execute(move |client| async move {
Ok(Substrate::<C>::chain_get_block(&*client, block_hash).await?)
})
}
/// Get a Substrate header by its hash.
pub async fn header_by_hash(&self, block_hash: C::Hash) -> Result<C::Header>
where
C::Header: DeserializeOwned,
{
self.jsonrpsee_execute(move |client| async move {
Ok(Substrate::<C>::chain_get_header(&*client, block_hash).await?)
})
.await
}
/// Get a Substrate block hash by its number.
pub async fn block_hash_by_number(&self, number: C::BlockNumber) -> Result<C::Hash> {
self.jsonrpsee_execute(move |client| async move {
Ok(Substrate::<C>::chain_get_block_hash(&*client, number).await?)
})
.await
}
/// Get a Substrate header by its number.
pub async fn header_by_number(&self, block_number: C::BlockNumber) -> Result<C::Header>
where
C::Header: DeserializeOwned,
{
let block_hash = Self::block_hash_by_number(self, block_number).await?;
let header_by_hash = Self::header_by_hash(self, block_hash).await?;
Ok(header_by_hash)
/// Return runtime version.
pub async fn runtime_version(&self) -> Result<RuntimeVersion> {
self.jsonrpsee_execute(move |client| async move {
Ok(Substrate::<C>::state_runtime_version(&*client).await?)
})
.await
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/// Read value from runtime storage.
pub async fn storage_value<T: Send + Decode + 'static>(
&self,
storage_key: StorageKey,
block_hash: Option<C::Hash>,
) -> Result<Option<T>> {
self.raw_storage_value(storage_key, block_hash)
.await?
.map(|encoded_value| {
T::decode(&mut &encoded_value.0[..]).map_err(Error::ResponseParseFailed)
})
.transpose()
}
/// Read raw value from runtime storage.
pub async fn raw_storage_value(
&self,
storage_key: StorageKey,
block_hash: Option<C::Hash>,
) -> Result<Option<StorageData>> {
self.jsonrpsee_execute(move |client| async move {
Ok(Substrate::<C>::state_get_storage(&*client, storage_key, block_hash).await?)
})
.await
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}
/// Return native tokens balance of the account.
pub async fn free_native_balance(&self, account: C::AccountId) -> Result<C::Balance>
where
C: ChainWithBalances,
{
self.jsonrpsee_execute(move |client| async move {
let storage_key = C::account_info_storage_key(&account);
let encoded_account_data =
Substrate::<C>::state_get_storage(&*client, storage_key, None)
.await?
.ok_or(Error::AccountDoesNotExist)?;
let decoded_account_data = AccountInfo::<C::Index, AccountData<C::Balance>>::decode(
&mut &encoded_account_data.0[..],
)
.map_err(Error::ResponseParseFailed)?;
Ok(decoded_account_data.data.free)
})
.await
/// Get the nonce of the given Substrate account.
///
/// Note: It's the caller's responsibility to make sure `account` is a valid SS58 address.
pub async fn next_account_index(&self, account: C::AccountId) -> Result<C::Index> {
self.jsonrpsee_execute(move |client| async move {
Ok(Substrate::<C>::system_account_next_index(&*client, account).await?)
})
.await
/// Submit unsigned extrinsic for inclusion in a block.
/// Note: The given transaction needs to be SCALE encoded beforehand.
pub async fn submit_unsigned_extrinsic(&self, transaction: Bytes) -> Result<C::Hash> {
self.jsonrpsee_execute(move |client| async move {
let tx_hash = Substrate::<C>::author_submit_extrinsic(&*client, transaction).await?;
log::trace!(target: "bridge", "Sent transaction to Substrate node: {:?}", tx_hash);
Ok(tx_hash)
})
.await
/// Submit an extrinsic signed by given account.
///
/// All calls of this method are synchronized, so there can't be more than one active
/// `submit_signed_extrinsic()` call. This guarantees that no nonces collision may happen
/// if all client instances are clones of the same initial `Client`.
///
/// Note: The given transaction needs to be SCALE encoded beforehand.
pub async fn submit_signed_extrinsic(
&self,
extrinsic_signer: C::AccountId,
prepare_extrinsic: impl FnOnce(HeaderIdOf<C>, C::Index) -> Bytes + Send + 'static,
) -> Result<C::Hash> {
let _guard = self.submit_signed_extrinsic_lock.lock().await;
let transaction_nonce = self.next_account_index(extrinsic_signer).await?;
let best_header = self.best_header().await?;
// By using parent of best block here, we are protecing again best-block reorganizations.
// E.g. transaction my have been submitted when the best block was `A[num=100]`. Then it has
// been changed to `B[num=100]`. Hash of `A` has been included into transaction signature
// payload. So when signature will be checked, the check will fail and transaction will be
// dropped from the pool.
let best_header_id = match best_header.number().checked_sub(&One::one()) {
Some(parent_block_number) => HeaderId(parent_block_number, *best_header.parent_hash()),
None => HeaderId(*best_header.number(), best_header.hash()),
};
self.jsonrpsee_execute(move |client| async move {
let extrinsic = prepare_extrinsic(best_header_id, transaction_nonce);
let tx_hash = Substrate::<C>::author_submit_extrinsic(&*client, extrinsic).await?;
log::trace!(target: "bridge", "Sent transaction to {} node: {:?}", C::NAME, tx_hash);
Ok(tx_hash)
})
.await
/// Does exactly the same as `submit_signed_extrinsic`, but keeps watching for extrinsic status
/// after submission.
pub async fn submit_and_watch_signed_extrinsic(
&self,
extrinsic_signer: C::AccountId,
prepare_extrinsic: impl FnOnce(HeaderIdOf<C>, C::Index) -> Bytes + Send + 'static,
) -> Result<Subscription<TransactionStatusOf<C>>> {
let _guard = self.submit_signed_extrinsic_lock.lock().await;
let transaction_nonce = self.next_account_index(extrinsic_signer).await?;
let best_header = self.best_header().await?;
let best_header_id = HeaderId(*best_header.number(), best_header.hash());
let subscription = self
.jsonrpsee_execute(move |client| async move {
let extrinsic = prepare_extrinsic(best_header_id, transaction_nonce);
let tx_hash = C::Hasher::hash(&extrinsic.0);
let subscription = client
.subscribe(
"author_submitAndWatchExtrinsic",
JsonRpcParams::Array(vec![jsonrpsee_types::to_json_value(extrinsic)
.map_err(|e| Error::RpcError(e.into()))?]),
"author_unwatchExtrinsic",
)
.await?;
log::trace!(target: "bridge", "Sent transaction to {} node: {:?}", C::NAME, tx_hash);
Ok(subscription)
})
.await?;
let (sender, receiver) = futures::channel::mpsc::channel(MAX_SUBSCRIPTION_CAPACITY);
self.tokio.spawn(Subscription::background_worker(
C::NAME.into(),
"extrinsic".into(),
subscription,
sender,
));
Ok(Subscription(Mutex::new(receiver)))
}
/// Returns pending extrinsics from transaction pool.
pub async fn pending_extrinsics(&self) -> Result<Vec<Bytes>> {
self.jsonrpsee_execute(move |client| async move {
Ok(Substrate::<C>::author_pending_extrinsics(&*client).await?)
})
.await
}
/// Validate transaction at given block state.
pub async fn validate_transaction<SignedTransaction: Encode + Send + 'static>(
&self,
at_block: C::Hash,
transaction: SignedTransaction,
) -> Result<TransactionValidity> {
self.jsonrpsee_execute(move |client| async move {
let call = SUB_API_TXPOOL_VALIDATE_TRANSACTION.to_string();
let data = Bytes((TransactionSource::External, transaction, at_block).encode());
let encoded_response =
Substrate::<C>::state_call(&*client, call, data, Some(at_block)).await?;
let validity = TransactionValidity::decode(&mut &encoded_response.0[..])
.map_err(Error::ResponseParseFailed)?;
Ok(validity)
})
.await
}
/// Estimate fee that will be spent on given extrinsic.
pub async fn estimate_extrinsic_fee(
&self,
transaction: Bytes,
) -> Result<InclusionFee<C::Balance>> {
self.jsonrpsee_execute(move |client| async move {
let fee_details =
Substrate::<C>::payment_query_fee_details(&*client, transaction, None).await?;
let inclusion_fee = fee_details
.inclusion_fee
.map(|inclusion_fee| InclusionFee {
base_fee: C::Balance::try_from(inclusion_fee.base_fee.into_u256())
.unwrap_or_else(|_| C::Balance::max_value()),
len_fee: C::Balance::try_from(inclusion_fee.len_fee.into_u256())
.unwrap_or_else(|_| C::Balance::max_value()),
adjusted_weight_fee: C::Balance::try_from(
inclusion_fee.adjusted_weight_fee.into_u256(),
)
.unwrap_or_else(|_| C::Balance::max_value()),
.unwrap_or_else(|| InclusionFee {
base_fee: Zero::zero(),
len_fee: Zero::zero(),
adjusted_weight_fee: Zero::zero(),
});
Ok(inclusion_fee)
})
.await
/// Get the GRANDPA authority set at given block.
pub async fn grandpa_authorities_set(
&self,
block: C::Hash,
) -> Result<OpaqueGrandpaAuthoritiesSet> {
self.jsonrpsee_execute(move |client| async move {
let call = SUB_API_GRANDPA_AUTHORITIES.to_string();
let data = Bytes(Vec::new());
let encoded_response =
Substrate::<C>::state_call(&*client, call, data, Some(block)).await?;
let authority_list = encoded_response.0;
Ok(authority_list)
})
.await
}
/// Execute runtime call at given block.
pub async fn state_call(
&self,
method: String,
data: Bytes,
at_block: Option<C::Hash>,
) -> Result<Bytes> {
self.jsonrpsee_execute(move |client| async move {
Substrate::<C>::state_call(&*client, method, data, at_block)
.await
.map_err(Into::into)
})
.await
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/// Returns storage proof of given storage keys.
pub async fn prove_storage(
&self,
keys: Vec<StorageKey>,
at_block: C::Hash,
) -> Result<StorageProof> {
self.jsonrpsee_execute(move |client| async move {
Substrate::<C>::state_prove_storage(&*client, keys, Some(at_block))
.await
.map(|proof| StorageProof::new(proof.proof.into_iter().map(|b| b.0).collect()))
.map_err(Into::into)
})
.await
/// Return new justifications stream.
pub async fn subscribe_justifications(&self) -> Result<Subscription<Bytes>> {
let subscription = self
.jsonrpsee_execute(move |client| async move {
Ok(client
.subscribe(
"grandpa_subscribeJustifications",
JsonRpcParams::NoParams,
"grandpa_unsubscribeJustifications",
)
.await?)
})
.await?;
let (sender, receiver) = futures::channel::mpsc::channel(MAX_SUBSCRIPTION_CAPACITY);
self.tokio.spawn(Subscription::background_worker(
C::NAME.into(),
"justification".into(),
subscription,
sender,
));
Ok(Subscription(Mutex::new(receiver)))
}
/// Execute jsonrpsee future in tokio context.
async fn jsonrpsee_execute<MF, F, T>(&self, make_jsonrpsee_future: MF) -> Result<T>
where
MF: FnOnce(Arc<RpcClient>) -> F + Send + 'static,
F: Future<Output = Result<T>> + Send,
T: Send + 'static,
{
let client = self.client.clone();
self.tokio.spawn(async move { make_jsonrpsee_future(client).await }).await?
}
}
impl<T: DeserializeOwned> Subscription<T> {
/// Return next item from the subscription.
pub async fn next(&self) -> Result<Option<T>> {
let mut receiver = self.0.lock().await;
let item = receiver.next().await;
Ok(item.unwrap_or(None))
}
/// Background worker that is executed in tokio context as `jsonrpsee` requires.
async fn background_worker(
chain_name: String,
item_type: String,
mut subscription: jsonrpsee_types::Subscription<T>,
mut sender: futures::channel::mpsc::Sender<Option<T>>,
) {
loop {
match subscription.next().await {
if sender.send(Some(item)).await.is_err() {
Ok(None) => {
log::trace!(
target: "bridge",
"{} {} subscription stream has returned None. Stream needs to be restarted.",
chain_name,
item_type,
);
let _ = sender.send(None).await;
Err(e) => {
log::trace!(
target: "bridge",
"{} {} subscription stream has returned '{:?}'. Stream needs to be restarted.",
chain_name,
item_type,
e,
);
let _ = sender.send(None).await;
}
}
}