pezkuwi-subxt/substrate/test-utils/client/src/lib.rs

// This file is part of Substrate.

// Copyright (C) 2019-2022 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.

//! Client testing utilities.

#![warn(missing_docs)]

pub mod client_ext;

pub use self::client_ext::{ClientBlockImportExt, ClientExt};
pub use sc_client_api::{
	execution_extensions::{ExecutionExtensions, ExecutionStrategies},
	BadBlocks, ForkBlocks,
};
pub use sc_client_db::{self, Backend, BlocksPruning};
pub use sc_executor::{self, NativeElseWasmExecutor, WasmExecutionMethod};
pub use sc_service::{client, RpcHandlers};
pub use sp_consensus;
pub use sp_keyring::{
	ed25519::Keyring as Ed25519Keyring, sr25519::Keyring as Sr25519Keyring, AccountKeyring,
};
pub use sp_keystore::{SyncCryptoStore, SyncCryptoStorePtr};
pub use sp_runtime::{Storage, StorageChild};
pub use sp_state_machine::ExecutionStrategy;

use futures::{future::Future, stream::StreamExt};
use sc_client_api::BlockchainEvents;
use sc_service::client::{ClientConfig, LocalCallExecutor};
use serde::Deserialize;
use sp_core::storage::ChildInfo;
use sp_runtime::{codec::Encode, traits::Block as BlockT, OpaqueExtrinsic};
use std::{
	collections::{HashMap, HashSet},
	pin::Pin,
	sync::Arc,
};

/// A genesis storage initialization trait.
pub trait GenesisInit: Default {
	/// Construct genesis storage.
	fn genesis_storage(&self) -> Storage;
}

impl GenesisInit for () {
	fn genesis_storage(&self) -> Storage {
		Default::default()
	}
}

/// A builder for creating a test client instance.
pub struct TestClientBuilder<Block: BlockT, ExecutorDispatch, Backend, G: GenesisInit> {
	execution_strategies: ExecutionStrategies,
	genesis_init: G,
	/// The key is an unprefixed storage key, this only contains
	/// default child trie content.
	child_storage_extension: HashMap<Vec<u8>, StorageChild>,
	backend: Arc<Backend>,
	_executor: std::marker::PhantomData<ExecutorDispatch>,
	keystore: Option<SyncCryptoStorePtr>,
	fork_blocks: ForkBlocks<Block>,
	bad_blocks: BadBlocks<Block>,
	enable_offchain_indexing_api: bool,
	no_genesis: bool,
}

impl<Block: BlockT, ExecutorDispatch, G: GenesisInit> Default
	for TestClientBuilder<Block, ExecutorDispatch, Backend<Block>, G>
{
	fn default() -> Self {
		Self::with_default_backend()
	}
}

impl<Block: BlockT, ExecutorDispatch, G: GenesisInit>
	TestClientBuilder<Block, ExecutorDispatch, Backend<Block>, G>
{
	/// Create new `TestClientBuilder` with default backend.
	pub fn with_default_backend() -> Self {
		let backend = Arc::new(Backend::new_test(std::u32::MAX, std::u64::MAX));
		Self::with_backend(backend)
	}

	/// Create new `TestClientBuilder` with default backend and pruning window size
	pub fn with_pruning_window(blocks_pruning: u32) -> Self {
		let backend = Arc::new(Backend::new_test(blocks_pruning, 0));
		Self::with_backend(backend)
	}

	/// Create new `TestClientBuilder` with default backend and storage chain mode
	pub fn with_tx_storage(blocks_pruning: u32) -> Self {
		let backend =
			Arc::new(Backend::new_test_with_tx_storage(BlocksPruning::Some(blocks_pruning), 0));
		Self::with_backend(backend)
	}
}

impl<Block: BlockT, ExecutorDispatch, Backend, G: GenesisInit>
	TestClientBuilder<Block, ExecutorDispatch, Backend, G>
{
	/// Create a new instance of the test client builder.
	pub fn with_backend(backend: Arc<Backend>) -> Self {
		TestClientBuilder {
			backend,
			execution_strategies: ExecutionStrategies::default(),
			child_storage_extension: Default::default(),
			genesis_init: Default::default(),
			_executor: Default::default(),
			keystore: None,
			fork_blocks: None,
			bad_blocks: None,
			enable_offchain_indexing_api: false,
			no_genesis: false,
		}
	}

	/// Set the keystore that should be used by the externalities.
	pub fn set_keystore(mut self, keystore: SyncCryptoStorePtr) -> Self {
		self.keystore = Some(keystore);
		self
	}

	/// Alter the genesis storage parameters.
	pub fn genesis_init_mut(&mut self) -> &mut G {
		&mut self.genesis_init
	}

	/// Give access to the underlying backend of these clients
	pub fn backend(&self) -> Arc<Backend> {
		self.backend.clone()
	}

	/// Extend child storage
	pub fn add_child_storage(
		mut self,
		child_info: &ChildInfo,
		key: impl AsRef<[u8]>,
		value: impl AsRef<[u8]>,
	) -> Self {
		let storage_key = child_info.storage_key();
		let entry = self.child_storage_extension.entry(storage_key.to_vec()).or_insert_with(|| {
			StorageChild { data: Default::default(), child_info: child_info.clone() }
		});
		entry.data.insert(key.as_ref().to_vec(), value.as_ref().to_vec());
		self
	}

	/// Set the execution strategy that should be used by all contexts.
	pub fn set_execution_strategy(mut self, execution_strategy: ExecutionStrategy) -> Self {
		self.execution_strategies = ExecutionStrategies {
			syncing: execution_strategy,
			importing: execution_strategy,
			block_construction: execution_strategy,
			offchain_worker: execution_strategy,
			other: execution_strategy,
		};
		self
	}

	/// Sets custom block rules.
	pub fn set_block_rules(
		mut self,
		fork_blocks: ForkBlocks<Block>,
		bad_blocks: BadBlocks<Block>,
	) -> Self {
		self.fork_blocks = fork_blocks;
		self.bad_blocks = bad_blocks;
		self
	}

	/// Enable the offchain indexing api.
	pub fn enable_offchain_indexing_api(mut self) -> Self {
		self.enable_offchain_indexing_api = true;
		self
	}

	/// Disable writing genesis.
	pub fn set_no_genesis(mut self) -> Self {
		self.no_genesis = true;
		self
	}

	/// Build the test client with the given native executor.
	pub fn build_with_executor<RuntimeApi>(
		self,
		executor: ExecutorDispatch,
	) -> (
		client::Client<Backend, ExecutorDispatch, Block, RuntimeApi>,
		sc_consensus::LongestChain<Backend, Block>,
	)
	where
		ExecutorDispatch:
			sc_client_api::CallExecutor<Block> + sc_executor::RuntimeVersionOf + 'static,
		Backend: sc_client_api::backend::Backend<Block>,
		<Backend as sc_client_api::backend::Backend<Block>>::OffchainStorage: 'static,
	{
		let storage = {
			let mut storage = self.genesis_init.genesis_storage();
			// Add some child storage keys.
			for (key, child_content) in self.child_storage_extension {
				storage.children_default.insert(
					key,
					StorageChild {
						data: child_content.data.into_iter().collect(),
						child_info: child_content.child_info,
					},
				);
			}

			storage
		};

		let client = client::Client::new(
			self.backend.clone(),
			executor,
			&storage,
			self.fork_blocks,
			self.bad_blocks,
			ExecutionExtensions::new(
				self.execution_strategies,
				self.keystore,
				sc_offchain::OffchainDb::factory_from_backend(&*self.backend),
			),
			None,
			None,
			ClientConfig {
				offchain_indexing_api: self.enable_offchain_indexing_api,
				no_genesis: self.no_genesis,
				..Default::default()
			},
		)
		.expect("Creates new client");

		let longest_chain = sc_consensus::LongestChain::new(self.backend);

		(client, longest_chain)
	}
}

impl<Block: BlockT, D, Backend, G: GenesisInit>
	TestClientBuilder<
		Block,
		client::LocalCallExecutor<Block, Backend, NativeElseWasmExecutor<D>>,
		Backend,
		G,
	> where
	D: sc_executor::NativeExecutionDispatch,
{
	/// Build the test client with the given native executor.
	pub fn build_with_native_executor<RuntimeApi, I>(
		self,
		executor: I,
	) -> (
		client::Client<
			Backend,
			client::LocalCallExecutor<Block, Backend, NativeElseWasmExecutor<D>>,
			Block,
			RuntimeApi,
		>,
		sc_consensus::LongestChain<Backend, Block>,
	)
	where
		I: Into<Option<NativeElseWasmExecutor<D>>>,
		D: sc_executor::NativeExecutionDispatch + 'static,
		Backend: sc_client_api::backend::Backend<Block> + 'static,
	{
		let executor = executor.into().unwrap_or_else(|| {
			NativeElseWasmExecutor::new(WasmExecutionMethod::Interpreted, None, 8, 2)
		});
		let executor = LocalCallExecutor::new(
			self.backend.clone(),
			executor,
			Box::new(sp_core::testing::TaskExecutor::new()),
			Default::default(),
		)
		.expect("Creates LocalCallExecutor");

		self.build_with_executor(executor)
	}
}

/// The output of an RPC transaction.
pub struct RpcTransactionOutput {
	/// The output string of the transaction if any.
	pub result: String,
	/// An async receiver if data will be returned via a callback.
	pub receiver: futures::channel::mpsc::UnboundedReceiver<String>,
}

impl std::fmt::Debug for RpcTransactionOutput {
	fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
		write!(f, "RpcTransactionOutput {{ result: {:?}, receiver }}", self.result)
	}
}

/// An error for when the RPC call fails.
#[derive(Deserialize, Debug)]
pub struct RpcTransactionError {
	/// A Number that indicates the error type that occurred.
	pub code: i64,
	/// A String providing a short description of the error.
	pub message: String,
	/// A Primitive or Structured value that contains additional information about the error.
	pub data: Option<serde_json::Value>,
}

impl std::fmt::Display for RpcTransactionError {
	fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
		std::fmt::Debug::fmt(self, f)
	}
}

/// An extension trait for `RpcHandlers`.
#[async_trait::async_trait]
pub trait RpcHandlersExt {
	/// Send a transaction through the RpcHandlers.
	async fn send_transaction(
		&self,
		extrinsic: OpaqueExtrinsic,
	) -> Result<RpcTransactionOutput, RpcTransactionError>;
}

#[async_trait::async_trait]
impl RpcHandlersExt for RpcHandlers {
	async fn send_transaction(
		&self,
		extrinsic: OpaqueExtrinsic,
	) -> Result<RpcTransactionOutput, RpcTransactionError> {
		let (result, rx) = self
			.rpc_query(&format!(
				r#"{{
						"jsonrpc": "2.0",
						"method": "author_submitExtrinsic",
						"params": ["0x{}"],
						"id": 0
					}}"#,
				array_bytes::bytes2hex("", &extrinsic.encode())
			))
			.await
			.expect("valid JSON-RPC request object; qed");
		parse_rpc_result(result, rx)
	}
}

pub(crate) fn parse_rpc_result(
	result: String,
	receiver: futures::channel::mpsc::UnboundedReceiver<String>,
) -> Result<RpcTransactionOutput, RpcTransactionError> {
	let json: serde_json::Value =
		serde_json::from_str(&result).expect("the result can only be a JSONRPC string; qed");
	let error = json.as_object().expect("JSON result is always an object; qed").get("error");

	if let Some(error) = error {
		return Err(serde_json::from_value(error.clone())
			.expect("the JSONRPC result's error is always valid; qed"))
	}

	Ok(RpcTransactionOutput { result, receiver })
}

/// An extension trait for `BlockchainEvents`.
pub trait BlockchainEventsExt<C, B>
where
	C: BlockchainEvents<B>,
	B: BlockT,
{
	/// Wait for `count` blocks to be imported in the node and then exit. This function will not
	/// return if no blocks are ever created, thus you should restrict the maximum amount of time of
	/// the test execution.
	fn wait_for_blocks(&self, count: usize) -> Pin<Box<dyn Future<Output = ()> + Send>>;
}

impl<C, B> BlockchainEventsExt<C, B> for C
where
	C: BlockchainEvents<B>,
	B: BlockT,
{
	fn wait_for_blocks(&self, count: usize) -> Pin<Box<dyn Future<Output = ()> + Send>> {
		assert!(count > 0, "'count' argument must be greater than 0");

		let mut import_notification_stream = self.import_notification_stream();
		let mut blocks = HashSet::new();

		Box::pin(async move {
			while let Some(notification) = import_notification_stream.next().await {
				if notification.is_new_best {
					blocks.insert(notification.hash);
					if blocks.len() == count {
						break
					}
				}
			}
		})
	}
}

#[cfg(test)]
mod tests {
	#[test]
	fn parses_error_properly() {
		let (_, rx) = futures::channel::mpsc::unbounded();
		assert!(super::parse_rpc_result(
			r#"{
				"jsonrpc": "2.0",
				"result": 19,
				"id": 1
			}"#
			.to_string(),
			rx
		)
		.is_ok());

		let (_, rx) = futures::channel::mpsc::unbounded();
		let error = super::parse_rpc_result(
			r#"{
				"jsonrpc": "2.0",
				"error": {
					"code": -32601,
					"message": "Method not found"
				},
				"id": 1
			}"#
			.to_string(),
			rx,
		)
		.unwrap_err();
		assert_eq!(error.code, -32601);
		assert_eq!(error.message, "Method not found");
		assert!(error.data.is_none());

		let (_, rx) = futures::channel::mpsc::unbounded();
		let error = super::parse_rpc_result(
			r#"{
				"jsonrpc": "2.0",
				"error": {
					"code": -32601,
					"message": "Method not found",
					"data": 42
				},
				"id": 1
			}"#
			.to_string(),
			rx,
		)
		.unwrap_err();
		assert_eq!(error.code, -32601);
		assert_eq!(error.message, "Method not found");
		assert!(error.data.is_some());
	}
}