//! [Unlock Notification](http://sqlite.org/unlock_notify.html) use std::os::raw::c_int; use std::os::raw::c_void; use std::panic::catch_unwind; use std::sync::{Condvar, Mutex}; use crate::ffi; struct UnlockNotification { cond: Condvar, // Condition variable to wait on mutex: Mutex, // Mutex to protect structure } #[allow(clippy::mutex_atomic)] impl UnlockNotification { fn new() -> UnlockNotification { UnlockNotification { cond: Condvar::new(), mutex: Mutex::new(false), } } fn fired(&self) { let mut flag = unpoison(self.mutex.lock()); *flag = true; self.cond.notify_one(); } fn wait(&self) { let mut fired = unpoison(self.mutex.lock()); while !*fired { fired = unpoison(self.cond.wait(fired)); } } } #[inline] fn unpoison(r: Result>) -> T { r.unwrap_or_else(std::sync::PoisonError::into_inner) } /// This function is an unlock-notify callback unsafe extern "C" fn unlock_notify_cb(ap_arg: *mut *mut c_void, n_arg: c_int) { use std::slice::from_raw_parts; let args = from_raw_parts(ap_arg as *const &UnlockNotification, n_arg as usize); for un in args { drop(catch_unwind(std::panic::AssertUnwindSafe(|| un.fired()))); } } pub unsafe fn is_locked(db: *mut ffi::sqlite3, rc: c_int) -> bool { rc == ffi::SQLITE_LOCKED_SHAREDCACHE || (rc & 0xFF) == ffi::SQLITE_LOCKED && ffi::sqlite3_extended_errcode(db) == ffi::SQLITE_LOCKED_SHAREDCACHE } /// This function assumes that an SQLite API call (either `sqlite3_prepare_v2()` /// or `sqlite3_step()`) has just returned `SQLITE_LOCKED`. The argument is the /// associated database connection. /// /// This function calls `sqlite3_unlock_notify()` to register for an /// unlock-notify callback, then blocks until that callback is delivered /// and returns `SQLITE_OK`. The caller should then retry the failed operation. /// /// Or, if `sqlite3_unlock_notify()` indicates that to block would deadlock /// the system, then this function returns `SQLITE_LOCKED` immediately. In /// this case the caller should not retry the operation and should roll /// back the current transaction (if any). #[cfg(feature = "unlock_notify")] pub unsafe fn wait_for_unlock_notify(db: *mut ffi::sqlite3) -> c_int { let un = UnlockNotification::new(); /* Register for an unlock-notify callback. */ let rc = ffi::sqlite3_unlock_notify( db, Some(unlock_notify_cb), &un as *const UnlockNotification as *mut c_void, ); debug_assert!( rc == ffi::SQLITE_LOCKED || rc == ffi::SQLITE_LOCKED_SHAREDCACHE || rc == ffi::SQLITE_OK ); if rc == ffi::SQLITE_OK { un.wait(); } rc } #[cfg(test)] mod test { use crate::{Connection, OpenFlags, Result, Transaction, TransactionBehavior}; use std::sync::mpsc::sync_channel; use std::thread; use std::time; #[test] fn test_unlock_notify() -> Result<()> { let url = "file::memory:?cache=shared"; let flags = OpenFlags::SQLITE_OPEN_READ_WRITE | OpenFlags::SQLITE_OPEN_URI; let db1 = Connection::open_with_flags(url, flags)?; db1.execute_batch("CREATE TABLE foo (x)")?; let (rx, tx) = sync_channel(0); let child = thread::spawn(move || { let mut db2 = Connection::open_with_flags(url, flags).unwrap(); let tx2 = Transaction::new(&mut db2, TransactionBehavior::Immediate).unwrap(); tx2.execute_batch("INSERT INTO foo VALUES (42)").unwrap(); rx.send(1).unwrap(); let ten_millis = time::Duration::from_millis(10); thread::sleep(ten_millis); tx2.commit().unwrap(); }); assert_eq!(tx.recv().unwrap(), 1); let the_answer: Result = db1.one_column("SELECT x FROM foo"); assert_eq!(42i64, the_answer?); child.join().unwrap(); Ok(()) } }