// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. use std::collections::HashMap; use std::path::Path; use std::path::PathBuf; use deno_core::error::AnyError; use deno_core::parking_lot::Mutex; use deno_core::serde_json; use deno_core::unsync::spawn; use deno_core::unsync::JoinHandle; use deno_runtime::deno_webstorage::rusqlite::params; use serde::Serialize; use super::cache_db::CacheDB; use super::cache_db::CacheDBConfiguration; use super::cache_db::CacheFailure; use super::common::FastInsecureHasher; pub static INCREMENTAL_CACHE_DB: CacheDBConfiguration = CacheDBConfiguration { table_initializer: "CREATE TABLE IF NOT EXISTS incrementalcache ( file_path TEXT PRIMARY KEY, state_hash TEXT NOT NULL, source_hash TEXT NOT NULL );", on_version_change: "DELETE FROM incrementalcache;", preheat_queries: &[], // If the cache fails, just ignore all caching attempts on_failure: CacheFailure::Blackhole, }; /// Cache used to skip formatting/linting a file again when we /// know it is already formatted or has no lint diagnostics. pub struct IncrementalCache(IncrementalCacheInner); impl IncrementalCache { pub fn new( db: CacheDB, state: &TState, initial_file_paths: &[PathBuf], ) -> Self { IncrementalCache(IncrementalCacheInner::new(db, state, initial_file_paths)) } pub fn is_file_same(&self, file_path: &Path, file_text: &str) -> bool { self.0.is_file_same(file_path, file_text) } pub fn update_file(&self, file_path: &Path, file_text: &str) { self.0.update_file(file_path, file_text) } pub async fn wait_completion(&self) { self.0.wait_completion().await; } } enum ReceiverMessage { Update(PathBuf, u64), Exit, } struct IncrementalCacheInner { previous_hashes: HashMap, sender: tokio::sync::mpsc::UnboundedSender, handle: Mutex>>, } impl IncrementalCacheInner { pub fn new( db: CacheDB, state: &TState, initial_file_paths: &[PathBuf], ) -> Self { let state_hash = FastInsecureHasher::hash(serde_json::to_string(state).unwrap()); let sql_cache = SqlIncrementalCache::new(db, state_hash); Self::from_sql_incremental_cache(sql_cache, initial_file_paths) } fn from_sql_incremental_cache( cache: SqlIncrementalCache, initial_file_paths: &[PathBuf], ) -> Self { let mut previous_hashes = HashMap::new(); for path in initial_file_paths { if let Some(hash) = cache.get_source_hash(path) { previous_hashes.insert(path.to_path_buf(), hash); } } let (sender, mut receiver) = tokio::sync::mpsc::unbounded_channel::(); // sqlite isn't `Sync`, so we do all the updating on a dedicated task let handle = spawn(async move { while let Some(message) = receiver.recv().await { match message { ReceiverMessage::Update(path, hash) => { let _ = cache.set_source_hash(&path, hash); } ReceiverMessage::Exit => break, } } }); IncrementalCacheInner { previous_hashes, sender, handle: Mutex::new(Some(handle)), } } pub fn is_file_same(&self, file_path: &Path, file_text: &str) -> bool { match self.previous_hashes.get(file_path) { Some(hash) => *hash == FastInsecureHasher::hash(file_text), None => false, } } pub fn update_file(&self, file_path: &Path, file_text: &str) { let hash = FastInsecureHasher::hash(file_text); if let Some(previous_hash) = self.previous_hashes.get(file_path) { if *previous_hash == hash { return; // do not bother updating the db file because nothing has changed } } let _ = self .sender .send(ReceiverMessage::Update(file_path.to_path_buf(), hash)); } pub async fn wait_completion(&self) { if self.sender.send(ReceiverMessage::Exit).is_err() { return; } let handle = self.handle.lock().take(); if let Some(handle) = handle { handle.await.unwrap(); } } } struct SqlIncrementalCache { conn: CacheDB, /// A hash of the state used to produce the formatting/linting other than /// the CLI version. This state is a hash of the configuration and ensures /// we format/lint a file when the configuration changes. state_hash: u64, } impl SqlIncrementalCache { pub fn new(conn: CacheDB, state_hash: u64) -> Self { Self { conn, state_hash } } pub fn get_source_hash(&self, path: &Path) -> Option { match self.get_source_hash_result(path) { Ok(option) => option, Err(err) => { if cfg!(debug_assertions) { panic!("Error retrieving hash: {err}"); } else { // fail silently when not debugging None } } } } fn get_source_hash_result( &self, path: &Path, ) -> Result, AnyError> { let query = " SELECT source_hash FROM incrementalcache WHERE file_path=?1 AND state_hash=?2 LIMIT 1"; let res = self.conn.query_row( query, params![path.to_string_lossy(), self.state_hash.to_string()], |row| { let hash: String = row.get(0)?; Ok(hash.parse::()?) }, )?; Ok(res) } pub fn set_source_hash( &self, path: &Path, source_hash: u64, ) -> Result<(), AnyError> { let sql = " INSERT OR REPLACE INTO incrementalcache (file_path, state_hash, source_hash) VALUES (?1, ?2, ?3)"; self.conn.execute( sql, params![ path.to_string_lossy(), &self.state_hash.to_string(), &source_hash, ], )?; Ok(()) } } #[cfg(test)] mod test { use std::path::PathBuf; use super::*; #[test] pub fn sql_cache_general_use() { let conn = CacheDB::in_memory(&INCREMENTAL_CACHE_DB, "1.0.0"); let cache = SqlIncrementalCache::new(conn, 1); let path = PathBuf::from("/mod.ts"); assert_eq!(cache.get_source_hash(&path), None); cache.set_source_hash(&path, 2).unwrap(); assert_eq!(cache.get_source_hash(&path), Some(2)); // try changing the cli version (should clear) let conn = cache.conn.recreate_with_version("2.0.0"); let mut cache = SqlIncrementalCache::new(conn, 1); assert_eq!(cache.get_source_hash(&path), None); // add back the file to the cache cache.set_source_hash(&path, 2).unwrap(); assert_eq!(cache.get_source_hash(&path), Some(2)); // try changing the state hash cache.state_hash = 2; assert_eq!(cache.get_source_hash(&path), None); cache.state_hash = 1; // should return now that everything is back assert_eq!(cache.get_source_hash(&path), Some(2)); // recreating the cache should not remove the data because the CLI version and state hash is the same let conn = cache.conn.recreate_with_version("2.0.0"); let cache = SqlIncrementalCache::new(conn, 1); assert_eq!(cache.get_source_hash(&path), Some(2)); // now try replacing and using another path cache.set_source_hash(&path, 3).unwrap(); cache.set_source_hash(&path, 4).unwrap(); let path2 = PathBuf::from("/mod2.ts"); cache.set_source_hash(&path2, 5).unwrap(); assert_eq!(cache.get_source_hash(&path), Some(4)); assert_eq!(cache.get_source_hash(&path2), Some(5)); } #[tokio::test] pub async fn incremental_cache_general_use() { let conn = CacheDB::in_memory(&INCREMENTAL_CACHE_DB, "1.0.0"); let sql_cache = SqlIncrementalCache::new(conn, 1); let file_path = PathBuf::from("/mod.ts"); let file_text = "test"; let file_hash = FastInsecureHasher::hash(file_text); sql_cache.set_source_hash(&file_path, file_hash).unwrap(); let cache = IncrementalCacheInner::from_sql_incremental_cache( sql_cache, &[file_path.clone()], ); assert!(cache.is_file_same(&file_path, "test")); assert!(!cache.is_file_same(&file_path, "other")); // just ensure this doesn't panic cache.update_file(&file_path, "other"); } }