// This file is part of Substrate. // Copyright (C) 2020-2021 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. //! # Remote Externalities //! //! An equivalent of `sp_io::TestExternalities` that can load its state from a remote substrate //! based chain, or a local state snapshot file. //! //! #### Runtime to Test Against //! //! While not absolutely necessary, you most likely need a `Runtime` equivalent in your test setup //! through which you can infer storage types. There are two options here: //! //! 1. Build a mock runtime, similar how to you would build one in a pallet test (see example //! below). The very important point here is that this mock needs to hold real values for types //! that matter for you, based on the chain of interest. Some typical ones are: //! //! - `sp_runtime::AccountId32` as `AccountId`. //! - `u32` as `BlockNumber`. //! - `u128` as Balance. //! //! Once you have your `Runtime`, you can use it for storage type resolution and do things like //! `>::storage_getter()` or `>::get()`. //! //! 2. Or, you can use a real runtime. //! //! ### Example //! //! With a test runtime //! //! ```ignore //! use remote_externalities::Builder; //! //! #[derive(Clone, Eq, PartialEq, Debug, Default)] //! pub struct TestRuntime; //! //! use frame_system as system; //! impl_outer_origin! { //! pub enum Origin for TestRuntime {} //! } //! //! impl frame_system::Config for TestRuntime { //! .. //! // we only care about these two for now. The rest can be mock. The block number type of //! // kusama is u32. //! type BlockNumber = u32; //! type Header = Header; //! .. //! } //! //! #[test] //! fn test_runtime_works() { //! let hash: Hash = //! hex!["f9a4ce984129569f63edc01b1c13374779f9384f1befd39931ffdcc83acf63a7"].into(); //! let parent: Hash = //! hex!["540922e96a8fcaf945ed23c6f09c3e189bd88504ec945cc2171deaebeaf2f37e"].into(); //! Builder::new() //! .at(hash) //! .module("System") //! .build() //! .execute_with(|| { //! assert_eq!( //! // note: the hash corresponds to 3098546. We can check only the parent. //! // https://polkascan.io/kusama/block/3098546 //! >::block_hash(3098545u32), //! parent, //! ) //! }); //! } //! ``` //! //! Or with the real kusama runtime. //! //! ```ignore //! use remote_externalities::Builder; //! use kusama_runtime::Runtime; //! //! #[test] //! fn test_runtime_works() { //! let hash: Hash = //! hex!["f9a4ce984129569f63edc01b1c13374779f9384f1befd39931ffdcc83acf63a7"].into(); //! Builder::new() //! .at(hash) //! .module("Staking") //! .build() //! .execute_with(|| assert_eq!(>::validator_count(), 400)); //! } //! ``` use std::{ fs, path::{Path, PathBuf}, }; use log::*; use sp_core::hashing::twox_128; pub use sp_io::TestExternalities; use sp_core::{ hexdisplay::HexDisplay, storage::{StorageKey, StorageData}, }; use codec::{Encode, Decode}; use sp_runtime::traits::Block as BlockT; use jsonrpsee_ws_client::{WsClientBuilder, WsClient}; type KeyPair = (StorageKey, StorageData); const LOG_TARGET: &str = "remote-ext"; const DEFAULT_TARGET: &str = "wss://rpc.polkadot.io"; jsonrpsee_proc_macros::rpc_client_api! { RpcApi { #[rpc(method = "state_getStorage", positional_params)] fn get_storage(prefix: StorageKey, hash: Option) -> StorageData; #[rpc(method = "state_getKeysPaged", positional_params)] fn get_keys_paged( prefix: Option, count: u32, start_key: Option, hash: Option, ) -> Vec; #[rpc(method = "chain_getFinalizedHead", positional_params)] fn finalized_head() -> B::Hash; } } /// The execution mode. #[derive(Clone)] pub enum Mode { /// Online. Online(OnlineConfig), /// Offline. Uses a state snapshot file and needs not any client config. Offline(OfflineConfig), } impl Default for Mode { fn default() -> Self { Mode::Online(OnlineConfig::default()) } } /// configuration of the online execution. /// /// A state snapshot config must be present. #[derive(Clone)] pub struct OfflineConfig { /// The configuration of the state snapshot file to use. It must be present. pub state_snapshot: SnapshotConfig, } /// Description of the transport protocol. #[derive(Debug)] pub struct Transport { uri: String, client: Option, } impl Clone for Transport { fn clone(&self) -> Self { Self { uri: self.uri.clone(), client: None } } } impl From for Transport { fn from(t: String) -> Self { Self { uri: t, client: None } } } /// Configuration of the online execution. /// /// A state snapshot config may be present and will be written to in that case. #[derive(Clone)] pub struct OnlineConfig { /// The block number at which to connect. Will be latest finalized head if not provided. pub at: Option, /// An optional state snapshot file to WRITE to, not for reading. Not written if set to `None`. pub state_snapshot: Option, /// The modules to scrape. If empty, entire chain state will be scraped. pub modules: Vec, /// Transport config. pub transport: Transport, } impl Default for OnlineConfig { fn default() -> Self { Self { transport: Transport { uri: DEFAULT_TARGET.to_string(), client: None }, at: None, state_snapshot: None, modules: vec![], } } } impl OnlineConfig { /// Return rpc (ws) client. fn rpc_client(&self) -> &WsClient { self.transport.client.as_ref().expect("ws client must have been initialized by now; qed.") } } /// Configuration of the state snapshot. #[derive(Clone)] pub struct SnapshotConfig { /// The path to the snapshot file. pub path: PathBuf, } impl SnapshotConfig { pub fn new>(path: P) -> Self { Self { path: path.into() } } } impl Default for SnapshotConfig { fn default() -> Self { Self { path: Path::new("SNAPSHOT").into() } } } /// Builder for remote-externalities. pub struct Builder { /// Pallets to inject their prefix into the externalities. inject: Vec, /// connectivity mode, online or offline. mode: Mode, } // NOTE: ideally we would use `DefaultNoBound` here, but not worth bringing in frame-support for // that. impl Default for Builder { fn default() -> Self { Self { inject: Default::default(), mode: Default::default() } } } // Mode methods impl Builder { fn as_online(&self) -> &OnlineConfig { match &self.mode { Mode::Online(config) => &config, _ => panic!("Unexpected mode: Online"), } } fn as_online_mut(&mut self) -> &mut OnlineConfig { match &mut self.mode { Mode::Online(config) => config, _ => panic!("Unexpected mode: Online"), } } } // RPC methods impl Builder { async fn rpc_get_head(&self) -> Result { trace!(target: LOG_TARGET, "rpc: finalized_head"); RpcApi::::finalized_head(self.as_online().rpc_client()).await.map_err(|e| { error!("Error = {:?}", e); "rpc finalized_head failed." }) } /// Get all the keys at `prefix` at `hash` using the paged, safe RPC methods. async fn get_keys_paged( &self, prefix: StorageKey, hash: B::Hash, ) -> Result, &'static str> { const PAGE: u32 = 512; let mut last_key: Option = None; let mut all_keys: Vec = vec![]; let keys = loop { let page = RpcApi::::get_keys_paged( self.as_online().rpc_client(), Some(prefix.clone()), PAGE, last_key.clone(), Some(hash), ) .await .map_err(|e| { error!(target: LOG_TARGET, "Error = {:?}", e); "rpc get_keys failed" })?; let page_len = page.len(); all_keys.extend(page); if page_len < PAGE as usize { debug!(target: LOG_TARGET, "last page received: {}", page_len); break all_keys; } else { let new_last_key = all_keys.last().expect("all_keys is populated; has .last(); qed"); debug!( target: LOG_TARGET, "new total = {}, full page received: {:?}", all_keys.len(), HexDisplay::from(new_last_key) ); last_key = Some(new_last_key.clone()); } }; Ok(keys) } /// Synonym of `rpc_get_pairs_unsafe` that uses paged queries to first get the keys, and then /// map them to values one by one. /// /// This can work with public nodes. But, expect it to be darn slow. pub(crate) async fn rpc_get_pairs_paged( &self, prefix: StorageKey, at: B::Hash, ) -> Result, &'static str> { let keys = self.get_keys_paged(prefix, at).await?; let keys_count = keys.len(); info!(target: LOG_TARGET, "Querying a total of {} keys", keys.len()); let mut key_values: Vec = vec![]; for key in keys { let value = RpcApi::::get_storage(self.as_online().rpc_client(), key.clone(), Some(at)) .await .map_err(|e| { error!(target: LOG_TARGET, "Error = {:?}", e); "rpc get_storage failed" })?; key_values.push((key, value)); if key_values.len() % 1000 == 0 { let ratio: f64 = key_values.len() as f64 / keys_count as f64; debug!( target: LOG_TARGET, "progress = {:.2} [{} / {}]", ratio, key_values.len(), keys_count, ); } } Ok(key_values) } } // Internal methods impl Builder { /// Save the given data as state snapshot. fn save_state_snapshot(&self, data: &[KeyPair], path: &Path) -> Result<(), &'static str> { info!(target: LOG_TARGET, "writing to state snapshot file {:?}", path); fs::write(path, data.encode()).map_err(|_| "fs::write failed.")?; Ok(()) } /// initialize `Self` from state snapshot. Panics if the file does not exist. fn load_state_snapshot(&self, path: &Path) -> Result, &'static str> { info!(target: LOG_TARGET, "scraping keypairs from state snapshot {:?}", path,); let bytes = fs::read(path).map_err(|_| "fs::read failed.")?; Decode::decode(&mut &*bytes).map_err(|_| "decode failed") } /// Build `Self` from a network node denoted by `uri`. async fn load_remote(&self) -> Result, &'static str> { let config = self.as_online(); let at = self .as_online() .at .expect("online config must be initialized by this point; qed.") .clone(); info!(target: LOG_TARGET, "scraping keypairs from remote @ {:?}", at); let keys_and_values = if config.modules.len() > 0 { let mut filtered_kv = vec![]; for f in config.modules.iter() { let hashed_prefix = StorageKey(twox_128(f.as_bytes()).to_vec()); let module_kv = self.rpc_get_pairs_paged(hashed_prefix.clone(), at).await?; info!( target: LOG_TARGET, "downloaded data for module {} (count: {} / prefix: {:?}).", f, module_kv.len(), HexDisplay::from(&hashed_prefix), ); filtered_kv.extend(module_kv); } filtered_kv } else { info!(target: LOG_TARGET, "downloading data for all modules."); self.rpc_get_pairs_paged(StorageKey(vec![]), at).await? }; Ok(keys_and_values) } pub(crate) async fn init_remote_client(&mut self) -> Result<(), &'static str> { let mut online = self.as_online_mut(); info!(target: LOG_TARGET, "initializing remote client to {:?}", online.transport.uri); // First, initialize the ws client. let ws_client = WsClientBuilder::default() .max_request_body_size(u32::MAX) .build(&online.transport.uri) .await .map_err(|_| "failed to build ws client")?; online.transport.client = Some(ws_client); // Then, if `at` is not set, set it. if self.as_online().at.is_none() { let at = self.rpc_get_head().await?; self.as_online_mut().at = Some(at); } Ok(()) } pub(crate) async fn pre_build(mut self) -> Result, &'static str> { let mut base_kv = match self.mode.clone() { Mode::Offline(config) => self.load_state_snapshot(&config.state_snapshot.path)?, Mode::Online(config) => { self.init_remote_client().await?; let kp = self.load_remote().await?; if let Some(c) = config.state_snapshot { self.save_state_snapshot(&kp, &c.path)?; } kp } }; info!( target: LOG_TARGET, "extending externalities with {} manually injected keys", self.inject.len() ); base_kv.extend(self.inject.clone()); Ok(base_kv) } } // Public methods impl Builder { /// Create a new builder. pub fn new() -> Self { Default::default() } /// Inject a manual list of key and values to the storage. pub fn inject(mut self, injections: &[KeyPair]) -> Self { for i in injections { self.inject.push(i.clone()); } self } /// Configure a state snapshot to be used. pub fn mode(mut self, mode: Mode) -> Self { self.mode = mode; self } /// Build the test externalities. pub async fn build(self) -> Result { let kv = self.pre_build().await?; let mut ext = TestExternalities::new_empty(); info!(target: LOG_TARGET, "injecting a total of {} keys", kv.len()); for (k, v) in kv { let (k, v) = (k.0, v.0); ext.insert(k, v); } Ok(ext) } } #[cfg(test)] mod test_prelude { pub(crate) use super::*; pub(crate) use sp_runtime::testing::{H256 as Hash, Block as RawBlock, ExtrinsicWrapper}; pub(crate) type Block = RawBlock>; pub(crate) fn init_logger() { let _ = env_logger::Builder::from_default_env() .format_module_path(true) .format_level(true) .filter_module(LOG_TARGET, log::LevelFilter::Debug) .try_init(); } } #[cfg(test)] mod tests { use super::test_prelude::*; #[tokio::test] async fn can_load_state_snapshot() { init_logger(); Builder::::new() .mode(Mode::Offline(OfflineConfig { state_snapshot: SnapshotConfig::new("test_data/proxy_test"), })) .build() .await .expect("Can't read state snapshot file") .execute_with(|| {}); } } #[cfg(all(test, feature = "remote-test"))] mod remote_tests { use super::test_prelude::*; #[tokio::test] async fn can_build_one_pallet() { init_logger(); Builder::::new() .mode(Mode::Online(OnlineConfig { modules: vec!["Proxy".to_owned()], ..Default::default() })) .build() .await .expect("Can't reach the remote node. Is it running?") .execute_with(|| {}); } #[tokio::test] async fn can_create_state_snapshot() { init_logger(); Builder::::new() .mode(Mode::Online(OnlineConfig { state_snapshot: Some(SnapshotConfig::new("test_snapshot_to_remove.bin")), modules: vec!["Balances".to_owned()], ..Default::default() })) .build() .await .expect("Can't reach the remote node. Is it running?") .execute_with(|| {}); let to_delete = std::fs::read_dir(SnapshotConfig::default().path) .unwrap() .into_iter() .map(|d| d.unwrap()) .filter(|p| p.path().extension().unwrap_or_default() == "bin") .collect::>(); assert!(to_delete.len() > 0); for d in to_delete { std::fs::remove_file(d.path()).unwrap(); } } #[tokio::test] async fn can_fetch_all() { init_logger(); Builder::::new() .build() .await .expect("Can't reach the remote node. Is it running?") .execute_with(|| {}); } }