//! Inter-process reader-writer lock builder. //! //! This implemenation uses fcntl record locks with non-blocking //! F_SETLK command (never blocks). use failure::*; use std::sync::{Arc, Mutex}; use std::os::unix::io::AsRawFd; // fixme: use F_OFD_ locks when implemented with nix::fcntl // Note: flock lock conversion is not atomic, so we need to use fcntl /// Inter-process reader-writer lock pub struct ProcessLocker { file: std::fs::File, exclusive: bool, writers: usize, } /// Lock guard for shared locks /// /// Release the lock when it goes out of scope. pub struct ProcessLockSharedGuard { locker: Arc>, } impl Drop for ProcessLockSharedGuard { fn drop(&mut self) { let mut data = self.locker.lock().unwrap(); if data.writers == 0 { panic!("unexpected ProcessLocker state"); } if data.writers == 1 && !data.exclusive { let op = libc::flock { l_type: libc::F_UNLCK as i16, l_whence: libc::SEEK_SET as i16, l_start: 0, l_len: 0, l_pid: 0, }; if let Err(err) = nix::fcntl::fcntl(data.file.as_raw_fd(), nix::fcntl::FcntlArg::F_SETLKW(&op)) { panic!("unable to drop writer lock - {}", err); } data.writers = 0; } } } /// Lock guard for exclusive locks /// /// Release the lock when it goes out of scope. pub struct ProcessLockExclusiveGuard { locker: Arc>, } impl Drop for ProcessLockExclusiveGuard { fn drop(&mut self) { let mut data = self.locker.lock().unwrap(); if !data.exclusive { panic!("unexpected ProcessLocker state"); } let ltype = if data.writers != 0 { libc::F_RDLCK } else { libc::F_UNLCK }; let op = libc::flock { l_type: ltype as i16, l_whence: libc::SEEK_SET as i16, l_start: 0, l_len: 0, l_pid: 0, }; if let Err(err) = nix::fcntl::fcntl(data.file.as_raw_fd(), nix::fcntl::FcntlArg::F_SETLKW(&op)) { panic!("unable to drop exclusive lock - {}", err); } data.exclusive = false; } } impl ProcessLocker { /// Create a new instance for the specified file. /// /// This simply creates the file if it does not exist. pub fn new>(lockfile: P) -> Result>, Error> { let file = std::fs::OpenOptions::new() .create(true) .read(true) .write(true) .open(lockfile)?; Ok(Arc::new(Mutex::new(Self { file: file, exclusive: false, writers: 0, }))) } fn try_lock(file: &std::fs::File, ltype: i32) -> Result<(), Error> { let op = libc::flock { l_type: ltype as i16, l_whence: libc::SEEK_SET as i16, l_start: 0, l_len: 0, l_pid: 0, }; nix::fcntl::fcntl(file.as_raw_fd(), nix::fcntl::FcntlArg::F_SETLK(&op))?; Ok(()) } /// Try to aquire a shared lock /// /// On sucess, this makes sure that no other process can get an exclusive lock for the file. pub fn try_shared_lock(locker: Arc>) -> Result { let mut data = locker.lock().unwrap(); if data.writers == 0 && !data.exclusive { if let Err(err) = Self::try_lock(&data.file, libc::F_RDLCK) { bail!("unable to get shared lock - {}", err); } } data.writers += 1; Ok(ProcessLockSharedGuard { locker: locker.clone() }) } /// Try to aquire a exclusive lock /// /// Make sure the we are the only process which has locks for this file (shared or exclusive). pub fn try_exclusive_lock(locker: Arc>) -> Result { let mut data = locker.lock().unwrap(); if data.exclusive { bail!("already locked exclusively"); } if let Err(err) = Self::try_lock(&data.file, libc::F_WRLCK) { bail!("unable to get exclusive lock - {}", err); } data.exclusive = true; Ok(ProcessLockExclusiveGuard { locker: locker.clone() }) } }