// This file is part of Substrate. // Copyright (C) 2019-2020 Parity Technologies (UK) Ltd. // SPDX-License-Identifier: Apache-2.0 // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. //! System FRAME specific RPC methods. use std::sync::Arc; use codec::{self, Codec, Decode, Encode}; use sc_client_api::light::{future_header, RemoteBlockchain, Fetcher, RemoteCallRequest}; use jsonrpc_core::{ Error as RpcError, ErrorCode, futures::future::{self as rpc_future,result, Future}, }; use jsonrpc_derive::rpc; use futures::future::{ready, TryFutureExt}; use sp_blockchain::{ HeaderBackend, Error as ClientError }; use sp_runtime::{ generic::BlockId, traits, }; use sp_core::{hexdisplay::HexDisplay, Bytes}; use sp_transaction_pool::{TransactionPool, InPoolTransaction}; use sp_block_builder::BlockBuilder; use sc_rpc_api::DenyUnsafe; pub use frame_system_rpc_runtime_api::AccountNonceApi; pub use self::gen_client::Client as SystemClient; /// Future that resolves to account nonce. pub type FutureResult = Box + Send>; /// System RPC methods. #[rpc] pub trait SystemApi { /// Returns the next valid index (aka nonce) for given account. /// /// This method takes into consideration all pending transactions /// currently in the pool and if no transactions are found in the pool /// it fallbacks to query the index from the runtime (aka. state nonce). #[rpc(name = "system_accountNextIndex", alias("account_nextIndex"))] fn nonce(&self, account: AccountId) -> FutureResult; /// Dry run an extrinsic at a given block. Return SCALE encoded ApplyExtrinsicResult. #[rpc(name = "system_dryRun", alias("system_dryRunAt"))] fn dry_run(&self, extrinsic: Bytes, at: Option) -> FutureResult; } /// Error type of this RPC api. pub enum Error { /// The transaction was not decodable. DecodeError, /// The call to runtime failed. RuntimeError, } impl From for i64 { fn from(e: Error) -> i64 { match e { Error::RuntimeError => 1, Error::DecodeError => 2, } } } /// An implementation of System-specific RPC methods on full client. pub struct FullSystem { client: Arc, pool: Arc

, deny_unsafe: DenyUnsafe, _marker: std::marker::PhantomData, } impl FullSystem { /// Create new `FullSystem` given client and transaction pool. pub fn new(client: Arc, pool: Arc

, deny_unsafe: DenyUnsafe,) -> Self { FullSystem { client, pool, deny_unsafe, _marker: Default::default(), } } } impl SystemApi<::Hash, AccountId, Index> for FullSystem where C: sp_api::ProvideRuntimeApi, C: HeaderBackend, C: Send + Sync + 'static, C::Api: AccountNonceApi, C::Api: BlockBuilder, P: TransactionPool + 'static, Block: traits::Block, AccountId: Clone + std::fmt::Display + Codec, Index: Clone + std::fmt::Display + Codec + Send + traits::AtLeast32Bit + 'static, { fn nonce(&self, account: AccountId) -> FutureResult { let get_nonce = || { let api = self.client.runtime_api(); let best = self.client.info().best_hash; let at = BlockId::hash(best); let nonce = api.account_nonce(&at, account.clone()).map_err(|e| RpcError { code: ErrorCode::ServerError(Error::RuntimeError.into()), message: "Unable to query nonce.".into(), data: Some(format!("{:?}", e).into()), })?; Ok(adjust_nonce(&*self.pool, account, nonce)) }; Box::new(result(get_nonce())) } fn dry_run(&self, extrinsic: Bytes, at: Option<::Hash>) -> FutureResult { if let Err(err) = self.deny_unsafe.check_if_safe() { return Box::new(rpc_future::err(err.into())); } let dry_run = || { let api = self.client.runtime_api(); let at = BlockId::::hash(at.unwrap_or_else(|| // If the block hash is not supplied assume the best block. self.client.info().best_hash )); let uxt: ::Extrinsic = Decode::decode(&mut &*extrinsic).map_err(|e| RpcError { code: ErrorCode::ServerError(Error::DecodeError.into()), message: "Unable to dry run extrinsic.".into(), data: Some(format!("{:?}", e).into()), })?; let result = api.apply_extrinsic(&at, uxt) .map_err(|e| RpcError { code: ErrorCode::ServerError(Error::RuntimeError.into()), message: "Unable to dry run extrinsic.".into(), data: Some(format!("{:?}", e).into()), })?; Ok(Encode::encode(&result).into()) }; Box::new(result(dry_run())) } } /// An implementation of System-specific RPC methods on light client. pub struct LightSystem { client: Arc, remote_blockchain: Arc>, fetcher: Arc, pool: Arc

, } impl LightSystem { /// Create new `LightSystem`. pub fn new( client: Arc, remote_blockchain: Arc>, fetcher: Arc, pool: Arc

, ) -> Self { LightSystem { client, remote_blockchain, fetcher, pool, } } } impl SystemApi<::Hash, AccountId, Index> for LightSystem where P: TransactionPool + 'static, C: HeaderBackend, C: Send + Sync + 'static, F: Fetcher + 'static, Block: traits::Block, AccountId: Clone + std::fmt::Display + Codec + Send + 'static, Index: Clone + std::fmt::Display + Codec + Send + traits::AtLeast32Bit + 'static, { fn nonce(&self, account: AccountId) -> FutureResult { let best_hash = self.client.info().best_hash; let best_id = BlockId::hash(best_hash); let future_best_header = future_header(&*self.remote_blockchain, &*self.fetcher, best_id); let fetcher = self.fetcher.clone(); let call_data = account.encode(); let future_best_header = future_best_header .and_then(move |maybe_best_header| ready( match maybe_best_header { Some(best_header) => Ok(best_header), None => Err(ClientError::UnknownBlock(format!("{}", best_hash))), } )); let future_nonce = future_best_header.and_then(move |best_header| fetcher.remote_call(RemoteCallRequest { block: best_hash, header: best_header, method: "AccountNonceApi_account_nonce".into(), call_data, retry_count: None, }) ).compat(); let future_nonce = future_nonce.and_then(|nonce| Decode::decode(&mut &nonce[..]) .map_err(|e| ClientError::CallResultDecode("Cannot decode account nonce", e))); let future_nonce = future_nonce.map_err(|e| RpcError { code: ErrorCode::ServerError(Error::RuntimeError.into()), message: "Unable to query nonce.".into(), data: Some(format!("{:?}", e).into()), }); let pool = self.pool.clone(); let future_nonce = future_nonce.map(move |nonce| adjust_nonce(&*pool, account, nonce)); Box::new(future_nonce) } fn dry_run(&self, _extrinsic: Bytes, _at: Option<::Hash>) -> FutureResult { Box::new(result(Err(RpcError { code: ErrorCode::MethodNotFound, message: "Unable to dry run extrinsic.".into(), data: None, }))) } } /// Adjust account nonce from state, so that tx with the nonce will be /// placed after all ready txpool transactions. fn adjust_nonce( pool: &P, account: AccountId, nonce: Index, ) -> Index where P: TransactionPool, AccountId: Clone + std::fmt::Display + Encode, Index: Clone + std::fmt::Display + Encode + traits::AtLeast32Bit + 'static, { log::debug!(target: "rpc", "State nonce for {}: {}", account, nonce); // Now we need to query the transaction pool // and find transactions originating from the same sender. // // Since extrinsics are opaque to us, we look for them using // `provides` tag. And increment the nonce if we find a transaction // that matches the current one. let mut current_nonce = nonce.clone(); let mut current_tag = (account.clone(), nonce.clone()).encode(); for tx in pool.ready() { log::debug!( target: "rpc", "Current nonce to {}, checking {} vs {:?}", current_nonce, HexDisplay::from(¤t_tag), tx.provides().iter().map(|x| format!("{}", HexDisplay::from(x))).collect::>(), ); // since transactions in `ready()` need to be ordered by nonce // it's fine to continue with current iterator. if tx.provides().get(0) == Some(¤t_tag) { current_nonce += traits::One::one(); current_tag = (account.clone(), current_nonce.clone()).encode(); } } current_nonce } #[cfg(test)] mod tests { use super::*; use futures::executor::block_on; use substrate_test_runtime_client::{runtime::Transfer, AccountKeyring}; use sc_transaction_pool::{BasicPool, FullChainApi}; use sp_runtime::{ApplyExtrinsicResult, transaction_validity::{TransactionValidityError, InvalidTransaction}}; #[test] fn should_return_next_nonce_for_some_account() { let _ = env_logger::try_init(); // given let client = Arc::new(substrate_test_runtime_client::new()); let pool = Arc::new( BasicPool::new( Default::default(), Arc::new(FullChainApi::new(client.clone())), None, ).0 ); let source = sp_runtime::transaction_validity::TransactionSource::External; let new_transaction = |nonce: u64| { let t = Transfer { from: AccountKeyring::Alice.into(), to: AccountKeyring::Bob.into(), amount: 5, nonce, }; t.into_signed_tx() }; // Populate the pool let ext0 = new_transaction(0); block_on(pool.submit_one(&BlockId::number(0), source, ext0)).unwrap(); let ext1 = new_transaction(1); block_on(pool.submit_one(&BlockId::number(0), source, ext1)).unwrap(); let accounts = FullSystem::new(client, pool, DenyUnsafe::Yes); // when let nonce = accounts.nonce(AccountKeyring::Alice.into()); // then assert_eq!(nonce.wait().unwrap(), 2); } #[test] fn dry_run_should_deny_unsafe() { let _ = env_logger::try_init(); // given let client = Arc::new(substrate_test_runtime_client::new()); let pool = Arc::new( BasicPool::new( Default::default(), Arc::new(FullChainApi::new(client.clone())), None, ).0 ); let accounts = FullSystem::new(client, pool, DenyUnsafe::Yes); // when let res = accounts.dry_run(vec![].into(), None); // then assert_eq!(res.wait(), Err(RpcError::method_not_found())); } #[test] fn dry_run_should_work() { let _ = env_logger::try_init(); // given let client = Arc::new(substrate_test_runtime_client::new()); let pool = Arc::new( BasicPool::new( Default::default(), Arc::new(FullChainApi::new(client.clone())), None, ).0 ); let accounts = FullSystem::new(client, pool, DenyUnsafe::No); let tx = Transfer { from: AccountKeyring::Alice.into(), to: AccountKeyring::Bob.into(), amount: 5, nonce: 0, }.into_signed_tx(); // when let res = accounts.dry_run(tx.encode().into(), None); // then let bytes = res.wait().unwrap().0; let apply_res: ApplyExtrinsicResult = Decode::decode(&mut bytes.as_slice()).unwrap(); assert_eq!(apply_res, Ok(Ok(()))); } #[test] fn dry_run_should_indicate_error() { let _ = env_logger::try_init(); // given let client = Arc::new(substrate_test_runtime_client::new()); let pool = Arc::new( BasicPool::new( Default::default(), Arc::new(FullChainApi::new(client.clone())), None, ).0 ); let accounts = FullSystem::new(client, pool, DenyUnsafe::No); let tx = Transfer { from: AccountKeyring::Alice.into(), to: AccountKeyring::Bob.into(), amount: 5, nonce: 100, }.into_signed_tx(); // when let res = accounts.dry_run(tx.encode().into(), None); // then let bytes = res.wait().unwrap().0; let apply_res: ApplyExtrinsicResult = Decode::decode(&mut bytes.as_slice()).unwrap(); assert_eq!(apply_res, Err(TransactionValidityError::Invalid(InvalidTransaction::Stale))); } }