lib.rs

// Copyright (C) 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/>.

//! Polkadot test service only.

#![warn(missing_docs)]

pub mod chain_spec;

pub use chain_spec::*;
use futures::{future::Future, stream::StreamExt};
use polkadot_node_primitives::{CollationGenerationConfig, CollatorFn};
use polkadot_node_subsystem::messages::{CollationGenerationMessage, CollatorProtocolMessage};
use polkadot_overseer::Handle;
use polkadot_primitives::{Balance, CollatorPair, HeadData, Id as ParaId, ValidationCode};
use polkadot_runtime_common::BlockHashCount;
use polkadot_runtime_parachains::paras::{ParaGenesisArgs, ParaKind};
use polkadot_service::{Error, FullClient, IsParachainNode, NewFull, PrometheusConfig};
use polkadot_test_runtime::{
	ParasCall, ParasSudoWrapperCall, Runtime, SignedExtra, SignedPayload, SudoCall,
	UncheckedExtrinsic, VERSION,
};

use sc_chain_spec::ChainSpec;
use sc_client_api::BlockchainEvents;
use sc_network::{
	config::{NetworkConfiguration, TransportConfig},
	multiaddr, NetworkStateInfo,
};
use sc_service::{
	config::{
		DatabaseSource, KeystoreConfig, MultiaddrWithPeerId, WasmExecutionMethod,
		WasmtimeInstantiationStrategy,
	},
	BasePath, BlocksPruning, Configuration, Role, RpcHandlers, TaskManager,
};
use sp_arithmetic::traits::SaturatedConversion;
use sp_blockchain::HeaderBackend;
use sp_keyring::Sr25519Keyring;
use sp_runtime::{codec::Encode, generic, traits::IdentifyAccount, MultiSigner};
use sp_state_machine::BasicExternalities;
use std::{
	collections::HashSet,
	net::{Ipv4Addr, SocketAddr},
	path::PathBuf,
	sync::Arc,
};
use substrate_test_client::{
	BlockchainEventsExt, RpcHandlersExt, RpcTransactionError, RpcTransactionOutput,
};

/// The client type being used by the test service.
pub type Client = FullClient;

pub use polkadot_service::{FullBackend, GetLastTimestamp};

/// Create a new full node.
#[sc_tracing::logging::prefix_logs_with(config.network.node_name.as_str())]
pub fn new_full(
	config: Configuration,
	is_parachain_node: IsParachainNode,
	workers_path: Option<PathBuf>,
) -> Result<NewFull, Error> {
	let workers_path = Some(workers_path.unwrap_or_else(get_relative_workers_path_for_test));

	polkadot_service::new_full(
		config,
		polkadot_service::NewFullParams {
			is_parachain_node,
			grandpa_pause: None,
			enable_beefy: true,
			jaeger_agent: None,
			telemetry_worker_handle: None,
			node_version: None,
			workers_path,
			workers_names: None,
			overseer_gen: polkadot_service::RealOverseerGen,
			overseer_message_channel_capacity_override: None,
			malus_finality_delay: None,
			hwbench: None,
		},
	)
}

fn get_relative_workers_path_for_test() -> PathBuf {
	// If no explicit worker path is passed in, we need to specify it ourselves as test binaries
	// are in the "deps/" directory, one level below where the worker binaries are generated.
	let mut exe_path = std::env::current_exe()
		.expect("for test purposes it's reasonable to expect that this will not fail");
	let _ = exe_path.pop();
	let _ = exe_path.pop();
	exe_path
}

/// Returns a prometheus config usable for testing.
pub fn test_prometheus_config(port: u16) -> PrometheusConfig {
	PrometheusConfig::new_with_default_registry(
		SocketAddr::new(Ipv4Addr::LOCALHOST.into(), port),
		"test-chain".to_string(),
	)
}

/// Create a Polkadot `Configuration`.
///
/// By default an in-memory socket will be used, therefore you need to provide boot
/// nodes if you want the future node to be connected to other nodes.
///
/// The `storage_update_func` function will be executed in an externalities provided environment
/// and can be used to make adjustments to the runtime genesis storage.
pub fn node_config(
	storage_update_func: impl Fn(),
	tokio_handle: tokio::runtime::Handle,
	key: Sr25519Keyring,
	boot_nodes: Vec<MultiaddrWithPeerId>,
	is_validator: bool,
) -> Configuration {
	let base_path = BasePath::new_temp_dir().expect("could not create temporary directory");
	let root = base_path.path().join(key.to_string());
	let role = if is_validator { Role::Authority } else { Role::Full };
	let key_seed = key.to_seed();
	let mut spec = polkadot_local_testnet_config();
	let mut storage = spec.as_storage_builder().build_storage().expect("could not build storage");

	BasicExternalities::execute_with_storage(&mut storage, storage_update_func);
	spec.set_storage(storage);

	let mut network_config = NetworkConfiguration::new(
		key_seed.to_string(),
		"network/test/0.1",
		Default::default(),
		None,
	);

	network_config.boot_nodes = boot_nodes;

	network_config.allow_non_globals_in_dht = true;

	let addr: multiaddr::Multiaddr = multiaddr::Protocol::Memory(rand::random()).into();
	network_config.listen_addresses.push(addr.clone());

	network_config.public_addresses.push(addr);

	network_config.transport = TransportConfig::MemoryOnly;

	Configuration {
		impl_name: "polkadot-test-node".to_string(),
		impl_version: "0.1".to_string(),
		role,
		tokio_handle,
		transaction_pool: Default::default(),
		network: network_config,
		keystore: KeystoreConfig::InMemory,
		database: DatabaseSource::RocksDb { path: root.join("db"), cache_size: 128 },
		trie_cache_maximum_size: Some(64 * 1024 * 1024),
		state_pruning: Default::default(),
		blocks_pruning: BlocksPruning::KeepFinalized,
		chain_spec: Box::new(spec),
		wasm_method: WasmExecutionMethod::Compiled {
			instantiation_strategy: WasmtimeInstantiationStrategy::PoolingCopyOnWrite,
		},
		wasm_runtime_overrides: Default::default(),
		rpc_addr: Default::default(),
		rpc_max_request_size: Default::default(),
		rpc_max_response_size: Default::default(),
		rpc_max_connections: Default::default(),
		rpc_cors: None,
		rpc_methods: Default::default(),
		rpc_id_provider: None,
		rpc_max_subs_per_conn: Default::default(),
		rpc_port: 9944,
		prometheus_config: None,
		telemetry_endpoints: None,
		default_heap_pages: None,
		offchain_worker: Default::default(),
		force_authoring: false,
		disable_grandpa: false,
		dev_key_seed: Some(key_seed),
		tracing_targets: None,
		tracing_receiver: Default::default(),
		max_runtime_instances: 8,
		runtime_cache_size: 2,
		announce_block: true,
		data_path: root,
		base_path,
		informant_output_format: Default::default(),
	}
}

/// Run a test validator node that uses the test runtime and specified `config`.
pub fn run_validator_node(
	config: Configuration,
	worker_program_path: Option<PathBuf>,
) -> PolkadotTestNode {
	let multiaddr = config.network.listen_addresses[0].clone();
	let NewFull { task_manager, client, network, rpc_handlers, overseer_handle, .. } =
		new_full(config, IsParachainNode::No, worker_program_path)
			.expect("could not create Polkadot test service");

	let overseer_handle = overseer_handle.expect("test node must have an overseer handle");
	let peer_id = network.local_peer_id();
	let addr = MultiaddrWithPeerId { multiaddr, peer_id };

	PolkadotTestNode { task_manager, client, overseer_handle, addr, rpc_handlers }
}

/// Run a test collator node that uses the test runtime.
///
/// The node will be using an in-memory socket, therefore you need to provide boot nodes if you
/// want it to be connected to other nodes.
///
/// The `storage_update_func` function will be executed in an externalities provided environment
/// and can be used to make adjustments to the runtime genesis storage.
///
/// # Note
///
/// The collator functionality still needs to be registered at the node! This can be done using
/// [`PolkadotTestNode::register_collator`].
pub fn run_collator_node(
	tokio_handle: tokio::runtime::Handle,
	key: Sr25519Keyring,
	storage_update_func: impl Fn(),
	boot_nodes: Vec<MultiaddrWithPeerId>,
	collator_pair: CollatorPair,
) -> PolkadotTestNode {
	let config = node_config(storage_update_func, tokio_handle, key, boot_nodes, false);
	let multiaddr = config.network.listen_addresses[0].clone();
	let NewFull { task_manager, client, network, rpc_handlers, overseer_handle, .. } =
		new_full(config, IsParachainNode::Collator(collator_pair), None)
			.expect("could not create Polkadot test service");

	let overseer_handle = overseer_handle.expect("test node must have an overseer handle");
	let peer_id = network.local_peer_id();
	let addr = MultiaddrWithPeerId { multiaddr, peer_id };

	PolkadotTestNode { task_manager, client, overseer_handle, addr, rpc_handlers }
}

/// A Polkadot test node instance used for testing.
pub struct PolkadotTestNode {
	/// `TaskManager`'s instance.
	pub task_manager: TaskManager,
	/// Client's instance.
	pub client: Arc<Client>,
	/// A handle to Overseer.
	pub overseer_handle: Handle,
	/// The `MultiaddrWithPeerId` to this node. This is useful if you want to pass it as "boot
	/// node" to other nodes.
	pub addr: MultiaddrWithPeerId,
	/// `RPCHandlers` to make RPC queries.
	pub rpc_handlers: RpcHandlers,
}

impl PolkadotTestNode {
	/// Send a sudo call to this node.
	async fn send_sudo(
		&self,
		call: impl Into<polkadot_test_runtime::RuntimeCall>,
		caller: Sr25519Keyring,
		nonce: u32,
	) -> Result<(), RpcTransactionError> {
		let sudo = SudoCall::sudo { call: Box::new(call.into()) };

		let extrinsic = construct_extrinsic(&self.client, sudo, caller, nonce);
		self.rpc_handlers.send_transaction(extrinsic.into()).await.map(drop)
	}

	/// Send an extrinsic to this node.
	pub async fn send_extrinsic(
		&self,
		function: impl Into<polkadot_test_runtime::RuntimeCall>,
		caller: Sr25519Keyring,
	) -> Result<RpcTransactionOutput, RpcTransactionError> {
		let extrinsic = construct_extrinsic(&self.client, function, caller, 0);

		self.rpc_handlers.send_transaction(extrinsic.into()).await
	}

	/// Register a parachain at this relay chain.
	pub async fn register_parachain(
		&self,
		id: ParaId,
		validation_code: impl Into<ValidationCode>,
		genesis_head: impl Into<HeadData>,
	) -> Result<(), RpcTransactionError> {
		let validation_code: ValidationCode = validation_code.into();
		let call = ParasSudoWrapperCall::sudo_schedule_para_initialize {
			id,
			genesis: ParaGenesisArgs {
				genesis_head: genesis_head.into(),
				validation_code: validation_code.clone(),
				para_kind: ParaKind::Parachain,
			},
		};

		self.send_sudo(call, Sr25519Keyring::Alice, 0).await?;

		// Bypass pvf-checking.
		let call = ParasCall::add_trusted_validation_code { validation_code };
		self.send_sudo(call, Sr25519Keyring::Alice, 1).await
	}

	/// 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.
	pub fn wait_for_blocks(&self, count: usize) -> impl Future<Output = ()> {
		self.client.wait_for_blocks(count)
	}

	/// Wait for `count` blocks to be finalized and then exit. Similarly with `wait_for_blocks` this
	/// function will not return if no block are ever finalized.
	pub async fn wait_for_finalized_blocks(&self, count: usize) {
		let mut import_notification_stream = self.client.finality_notification_stream();
		let mut blocks = HashSet::new();

		while let Some(notification) = import_notification_stream.next().await {
			blocks.insert(notification.hash);
			if blocks.len() == count {
				break
			}
		}
	}

	/// Register the collator functionality in the overseer of this node.
	pub async fn register_collator(
		&mut self,
		collator_key: CollatorPair,
		para_id: ParaId,
		collator: CollatorFn,
	) {
		let config =
			CollationGenerationConfig { key: collator_key, collator: Some(collator), para_id };

		self.overseer_handle
			.send_msg(CollationGenerationMessage::Initialize(config), "Collator")
			.await;

		self.overseer_handle
			.send_msg(CollatorProtocolMessage::CollateOn(para_id), "Collator")
			.await;
	}
}

/// Construct an extrinsic that can be applied to the test runtime.
pub fn construct_extrinsic(
	client: &Client,
	function: impl Into<polkadot_test_runtime::RuntimeCall>,
	caller: Sr25519Keyring,
	nonce: u32,
) -> UncheckedExtrinsic {
	let function = function.into();
	let current_block_hash = client.info().best_hash;
	let current_block = client.info().best_number.saturated_into();
	let genesis_block = client.hash(0).unwrap().unwrap();
	let period =
		BlockHashCount::get().checked_next_power_of_two().map(|c| c / 2).unwrap_or(2) as u64;
	let tip = 0;
	let extra: SignedExtra = (
		frame_system::CheckNonZeroSender::<Runtime>::new(),
		frame_system::CheckSpecVersion::<Runtime>::new(),
		frame_system::CheckTxVersion::<Runtime>::new(),
		frame_system::CheckGenesis::<Runtime>::new(),
		frame_system::CheckEra::<Runtime>::from(generic::Era::mortal(period, current_block)),
		frame_system::CheckNonce::<Runtime>::from(nonce),
		frame_system::CheckWeight::<Runtime>::new(),
		pallet_transaction_payment::ChargeTransactionPayment::<Runtime>::from(tip),
	);
	let raw_payload = SignedPayload::from_raw(
		function.clone(),
		extra.clone(),
		(
			(),
			VERSION.spec_version,
			VERSION.transaction_version,
			genesis_block,
			current_block_hash,
			(),
			(),
			(),
		),
	);
	let signature = raw_payload.using_encoded(|e| caller.sign(e));
	UncheckedExtrinsic::new_signed(
		function.clone(),
		polkadot_test_runtime::Address::Id(caller.public().into()),
		polkadot_primitives::Signature::Sr25519(signature.clone()),
		extra.clone(),
	)
}

/// Construct a transfer extrinsic.
pub fn construct_transfer_extrinsic(
	client: &Client,
	origin: sp_keyring::AccountKeyring,
	dest: sp_keyring::AccountKeyring,
	value: Balance,
) -> UncheckedExtrinsic {
	let function =
		polkadot_test_runtime::RuntimeCall::Balances(pallet_balances::Call::transfer_allow_death {
			dest: MultiSigner::from(dest.public()).into_account().into(),
			value,
		});

	construct_extrinsic(client, function, origin, 0)
}