// Copyright 2020 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 . //! Polkadot test service only. #![warn(missing_docs)] pub mod chain_spec; pub use chain_spec::*; use futures::future::Future; use polkadot_overseer::OverseerHandler; use polkadot_primitives::v1::{ Id as ParaId, HeadData, ValidationCode, Balance, CollatorPair, CollatorId, }; use polkadot_runtime_common::BlockHashCount; use polkadot_service::{ Error, NewFull, FullClient, ClientHandle, ExecuteWithClient, IsCollator, }; use polkadot_node_subsystem::messages::{CollatorProtocolMessage, CollationGenerationMessage}; use polkadot_test_runtime::{ Runtime, SignedExtra, SignedPayload, VERSION, ParasSudoWrapperCall, SudoCall, UncheckedExtrinsic, }; use polkadot_node_primitives::{CollatorFn, CollationGenerationConfig}; use polkadot_runtime_parachains::paras::ParaGenesisArgs; use sc_chain_spec::ChainSpec; use sc_client_api::execution_extensions::ExecutionStrategies; use sc_executor::native_executor_instance; use sc_network::{ config::{NetworkConfiguration, TransportConfig}, multiaddr, }; use service::{ config::{DatabaseConfig, KeystoreConfig, MultiaddrWithPeerId, WasmExecutionMethod}, RpcHandlers, TaskExecutor, TaskManager, KeepBlocks, TransactionStorageMode, }; use service::{BasePath, Configuration, Role}; 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::sync::Arc; use substrate_test_client::{BlockchainEventsExt, RpcHandlersExt, RpcTransactionOutput, RpcTransactionError}; native_executor_instance!( pub PolkadotTestExecutor, polkadot_test_runtime::api::dispatch, polkadot_test_runtime::native_version, frame_benchmarking::benchmarking::HostFunctions, ); /// The client type being used by the test service. pub type Client = FullClient; pub use polkadot_service::FullBackend; /// Create a new full node. #[sc_tracing::logging::prefix_logs_with(config.network.node_name.as_str())] pub fn new_full( config: Configuration, is_collator: IsCollator, ) -> Result< NewFull>, Error, > { polkadot_service::new_full::( config, is_collator, None, None, polkadot_parachain::wasm_executor::IsolationStrategy::InProcess, ) } /// A wrapper for the test client that implements `ClientHandle`. pub struct TestClient(pub Arc); impl ClientHandle for TestClient { fn execute_with(&self, t: T) -> T::Output { T::execute_with_client::<_, _, polkadot_service::FullBackend>(t, self.0.clone()) } } /// 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 adjustements to the runtime genesis storage. pub fn node_config( storage_update_func: impl Fn(), task_executor: TaskExecutor, key: Sr25519Keyring, boot_nodes: Vec, is_validator: bool, ) -> Configuration { let base_path = BasePath::new_temp_dir().expect("could not create temporary directory"); let root = base_path.path(); 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, task_executor, transaction_pool: Default::default(), network: network_config, keystore: KeystoreConfig::InMemory, keystore_remote: Default::default(), database: DatabaseConfig::RocksDb { path: root.join("db"), cache_size: 128, }, state_cache_size: 16777216, state_cache_child_ratio: None, state_pruning: Default::default(), keep_blocks: KeepBlocks::All, transaction_storage: TransactionStorageMode::BlockBody, chain_spec: Box::new(spec), wasm_method: WasmExecutionMethod::Interpreted, wasm_runtime_overrides: Default::default(), // NOTE: we enforce the use of the native runtime to make the errors more debuggable execution_strategies: ExecutionStrategies { syncing: sc_client_api::ExecutionStrategy::NativeWhenPossible, importing: sc_client_api::ExecutionStrategy::NativeWhenPossible, block_construction: sc_client_api::ExecutionStrategy::NativeWhenPossible, offchain_worker: sc_client_api::ExecutionStrategy::NativeWhenPossible, other: sc_client_api::ExecutionStrategy::NativeWhenPossible, }, rpc_http: None, rpc_ws: None, rpc_ipc: None, rpc_ws_max_connections: None, rpc_cors: None, rpc_methods: Default::default(), prometheus_config: None, telemetry_endpoints: None, telemetry_external_transport: 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, announce_block: true, base_path: Some(base_path), informant_output_format: Default::default(), disable_log_reloading: false, telemetry_handle: None, telemetry_span: None, } } /// Run a test validator 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 adjustements to the runtime genesis storage. pub fn run_validator_node( task_executor: TaskExecutor, key: Sr25519Keyring, storage_update_func: impl Fn(), boot_nodes: Vec, ) -> PolkadotTestNode { let config = node_config(storage_update_func, task_executor, key, boot_nodes, true); let multiaddr = config.network.listen_addresses[0].clone(); let NewFull { task_manager, client, network, rpc_handlers, overseer_handler, .. } = new_full(config, IsCollator::No).expect("could not create Polkadot test service"); let overseer_handler = overseer_handler.expect("test node must have an overseer handler"); let peer_id = network.local_peer_id().clone(); let addr = MultiaddrWithPeerId { multiaddr, peer_id }; PolkadotTestNode { task_manager, client, overseer_handler, 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 adjustements to the runtime genesis storage. /// /// # Note /// /// The collator functionionality still needs to be registered at the node! This can be done using /// [`PolkadotTestNode::register_collator`]. pub fn run_collator_node( task_executor: TaskExecutor, key: Sr25519Keyring, storage_update_func: impl Fn(), boot_nodes: Vec, collator_id: CollatorId, ) -> PolkadotTestNode { let config = node_config(storage_update_func, task_executor, key, boot_nodes, false); let multiaddr = config.network.listen_addresses[0].clone(); let NewFull { task_manager, client, network, rpc_handlers, overseer_handler, .. } = new_full(config, IsCollator::Yes(collator_id)).expect("could not create Polkadot test service"); let overseer_handler = overseer_handler.expect("test node must have an overseer handler"); let peer_id = network.local_peer_id().clone(); let addr = MultiaddrWithPeerId { multiaddr, peer_id }; PolkadotTestNode { task_manager, client, overseer_handler, 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, /// The overseer handler. pub overseer_handler: OverseerHandler, /// 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 an extrinsic to this node. pub async fn send_extrinsic( &self, function: impl Into, caller: Sr25519Keyring, ) -> Result { let extrinsic = construct_extrinsic(&*self.client, function, caller); 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, genesis_head: impl Into, ) -> Result<(), RpcTransactionError> { let call = ParasSudoWrapperCall::sudo_schedule_para_initialize( id, ParaGenesisArgs { genesis_head: genesis_head.into(), validation_code: validation_code.into(), parachain: true, }, ); self.send_extrinsic(SudoCall::sudo(Box::new(call.into())), Sr25519Keyring::Alice).await.map(drop) } /// 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 { self.client.wait_for_blocks(count) } /// 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, para_id, }; self.overseer_handler .send_msg(CollationGenerationMessage::Initialize(config)) .await; self.overseer_handler .send_msg(CollatorProtocolMessage::CollateOn(para_id)) .await; } } /// Construct an extrinsic that can be applied to the test runtime. pub fn construct_extrinsic( client: &Client, function: impl Into, caller: Sr25519Keyring, ) -> 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 nonce = 0; 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::CheckSpecVersion::::new(), frame_system::CheckTxVersion::::new(), frame_system::CheckGenesis::::new(), frame_system::CheckEra::::from(generic::Era::mortal(period, current_block)), frame_system::CheckNonce::::from(nonce), frame_system::CheckWeight::::new(), pallet_transaction_payment::ChargeTransactionPayment::::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::v0::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::Call::Balances( pallet_balances::Call::transfer( MultiSigner::from(dest.public()).into_account().into(), value, ), ); construct_extrinsic(client, function, origin) }