use failure::*; use nix::unistd; use nix::sys::stat; use std::fs::{File, OpenOptions}; use std::io::Write; use std::path::Path; use std::io::Read; use std::io::ErrorKind; use std::time::Duration; use std::os::unix::io::AsRawFd; pub mod timer; fn map_struct(buffer: &[u8]) -> Result<&T, Error> { if buffer.len() < ::std::mem::size_of::() { bail!("unable to map struct - buffer too small"); } return Ok(unsafe { & * (buffer.as_ptr() as *const T) }); } fn map_struct_mut(buffer: &mut [u8]) -> Result<&mut T, Error> { if buffer.len() < ::std::mem::size_of::() { bail!("unable to map struct - buffer too small"); } return Ok(unsafe { &mut * (buffer.as_ptr() as *mut T) }); } pub fn file_set_contents>( path: P, data: &[u8], perm: Option, ) -> Result<(), Error> { let path = path.as_ref(); // Note: we use mkstemp heŕe, because this worka with different // processes, threads, and even tokio tasks. let mut template = path.to_owned(); template.set_extension("tmp_XXXXXX"); let (fd, tmp_path) = match unistd::mkstemp(&template) { Ok((fd, path)) => (fd, path), Err(err) => bail!("mkstemp {:?} failed: {}", template, err), }; let tmp_path = tmp_path.as_path(); let mode : stat::Mode = perm.unwrap_or(stat::Mode::from( stat::Mode::S_IRUSR | stat::Mode::S_IWUSR | stat::Mode::S_IRGRP | stat::Mode::S_IROTH )); if let Err(err) = stat::fchmod(fd, mode) { let _ = unistd::unlink(tmp_path); bail!("fchmod {:?} failed: {}", tmp_path, err); } use std::os::unix::io::FromRawFd; let mut file = unsafe { File::from_raw_fd(fd) }; if let Err(err) = file.write_all(data) { let _ = unistd::unlink(tmp_path); bail!("write failed: {}", err); } if let Err(err) = std::fs::rename(tmp_path, path) { let _ = unistd::unlink(tmp_path); bail!("Atomic rename failed for file {:?} - {}", path, err); } Ok(()) } pub fn lock_file( file: &mut F, exclusive: bool, timeout: Option, ) -> Result<(), Error> { let lockarg = if exclusive { nix::fcntl::FlockArg::LockExclusive } else { nix::fcntl::FlockArg::LockShared }; let timeout = match timeout { None => { nix::fcntl::flock(file.as_raw_fd(), lockarg)?; return Ok(()); } Some(t) => t, }; // unblock the timeout signal temporarily let _sigblock_guard = timer::unblock_timeout_signal(); // setup a timeout timer let mut timer = timer::Timer::create( timer::Clock::Realtime, timer::TimerEvent::ThisThreadSignal(timer::SIGTIMEOUT))?; timer.arm(timer::TimerSpec::new() .value(Some(timeout)) .interval(Some(Duration::from_millis(10))))?; nix::fcntl::flock(file.as_raw_fd(), lockarg)?; Ok(()) } pub fn open_file_locked>(path: P, timeout: Duration) -> Result { let path = path.as_ref(); let mut file = match OpenOptions::new() .create(true) .append(true) .open(path) { Ok(file) => file, Err(err) => bail!("Unable to open lock {:?} - {}", path, err), }; match lock_file(&mut file, true, Some(timeout)) { Ok(_) => Ok(file), Err(err) => bail!("Unable to aquire lock {:?} - {}", path, err), } } // Note: We cannot implement an Iterator, because Iterators cannot // return a borrowed buffer ref (we want zero-copy) pub fn file_chunker( mut file: R, chunk_size: usize, mut chunk_cb: C ) -> Result<(), Error> where C: FnMut(usize, &[u8]) -> Result, R: Read, { const READ_BUFFER_SIZE: usize = 4*1024*1024; // 4M if chunk_size > READ_BUFFER_SIZE { bail!("chunk size too large!"); } let mut buf = vec![0u8; READ_BUFFER_SIZE]; let mut pos = 0; let mut file_pos = 0; loop { let mut eof = false; let mut tmp = &mut buf[..]; // try to read large portions, at least chunk_size while pos < chunk_size { match file.read(tmp) { Ok(0) => { eof = true; break; }, Ok(n) => { pos += n; if pos > chunk_size { break; } tmp = &mut tmp[n..]; } Err(ref e) if e.kind() == ErrorKind::Interrupted => { /* try again */ } Err(e) => bail!("read chunk failed - {}", e.to_string()), } } let mut start = 0; while start + chunk_size <= pos { if !(chunk_cb)(file_pos, &buf[start..start+chunk_size])? { break; } file_pos += chunk_size; start += chunk_size; } if eof { if start < pos { (chunk_cb)(file_pos, &buf[start..pos])?; //file_pos += pos - start; } break; } else { let rest = pos - start; if rest > 0 { let ptr = buf.as_mut_ptr(); unsafe { std::ptr::copy_nonoverlapping(ptr.add(start), ptr, rest); } pos = rest; } else { pos = 0; } } } Ok(()) }