use std::{ ffi::{ OsStr, OsString, }, mem, os::unix::ffi::OsStrExt, sync::Weak, }; use inotify_sys as ffi; use crate::fd_guard::FdGuard; use crate::watches::WatchDescriptor; /// Iterator over inotify events /// /// Allows for iteration over the events returned by /// [`Inotify::read_events_blocking`] or [`Inotify::read_events`]. /// /// [`Inotify::read_events_blocking`]: crate::Inotify::read_events_blocking /// [`Inotify::read_events`]: crate::Inotify::read_events #[derive(Debug)] pub struct Events<'a> { fd : Weak, buffer : &'a [u8], num_bytes: usize, pos : usize, } impl<'a> Events<'a> { pub(crate) fn new(fd: Weak, buffer: &'a [u8], num_bytes: usize) -> Self { Events { fd, buffer, num_bytes, pos: 0, } } } impl<'a> Iterator for Events<'a> { type Item = Event<&'a OsStr>; fn next(&mut self) -> Option { if self.pos < self.num_bytes { let (step, event) = Event::from_buffer(self.fd.clone(), &self.buffer[self.pos..]); self.pos += step; Some(event) } else { None } } } /// An inotify event /// /// A file system event that describes a change that the user previously /// registered interest in. To watch for events, call [`Watches::add`]. To /// retrieve events, call [`Inotify::read_events_blocking`] or /// [`Inotify::read_events`]. /// /// [`Watches::add`]: crate::Watches::add /// [`Inotify::read_events_blocking`]: crate::Inotify::read_events_blocking /// [`Inotify::read_events`]: crate::Inotify::read_events #[derive(Clone, Debug)] pub struct Event { /// Identifies the watch this event originates from /// /// This [`WatchDescriptor`] is equal to the one that [`Watches::add`] /// returned when interest for this event was registered. The /// [`WatchDescriptor`] can be used to remove the watch using /// [`Watches::remove`], thereby preventing future events of this type /// from being created. /// /// [`Watches::add`]: crate::Watches::add /// [`Watches::remove`]: crate::Watches::remove pub wd: WatchDescriptor, /// Indicates what kind of event this is pub mask: EventMask, /// Connects related events to each other /// /// When a file is renamed, this results two events: [`MOVED_FROM`] and /// [`MOVED_TO`]. The `cookie` field will be the same for both of them, /// thereby making is possible to connect the event pair. /// /// [`MOVED_FROM`]: EventMask::MOVED_FROM /// [`MOVED_TO`]: EventMask::MOVED_TO pub cookie: u32, /// The name of the file the event originates from /// /// This field is set only if the subject of the event is a file or directory in a /// watched directory. If the event concerns a file or directory that is /// watched directly, `name` will be `None`. pub name: Option, } impl<'a> Event<&'a OsStr> { fn new(fd: Weak, event: &ffi::inotify_event, name: &'a OsStr) -> Self { let mask = EventMask::from_bits(event.mask) .expect("Failed to convert event mask. This indicates a bug."); let wd = crate::WatchDescriptor { id: event.wd, fd, }; let name = if name.is_empty() { None } else { Some(name) }; Event { wd, mask, cookie: event.cookie, name, } } /// Create an `Event` from a buffer /// /// Assumes that a full `inotify_event` plus its name is located at the /// beginning of `buffer`. /// /// Returns the number of bytes used from the buffer, and the event. /// /// # Panics /// /// Panics if the buffer does not contain a full event, including its name. pub(crate) fn from_buffer( fd : Weak, buffer: &'a [u8], ) -> (usize, Self) { let event_size = mem::size_of::(); // Make sure that the buffer is big enough to contain an event, without // the name. Otherwise we can't safely convert it to an `inotify_event`. assert!(buffer.len() >= event_size); let ffi_event_ptr = buffer.as_ptr() as *const ffi::inotify_event; // We have a pointer to an `inotify_event`, pointing to the beginning of // `buffer`. Since we know, as per the assertion above, that there are // enough bytes in the buffer for at least one event, we can safely // read that `inotify_event`. // We call `read_unaligned()` since the byte buffer has alignment 1 // and `inotify_event` has a higher alignment, so `*` cannot be used to dereference // the unaligned pointer (undefined behavior). let ffi_event = unsafe { ffi_event_ptr.read_unaligned() }; // The name's length is given by `event.len`. There should always be // enough bytes left in the buffer to fit the name. Let's make sure that // is the case. let bytes_left_in_buffer = buffer.len() - event_size; assert!(bytes_left_in_buffer >= ffi_event.len as usize); // Directly after the event struct should be a name, if there's one // associated with the event. Let's make a new slice that starts with // that name. If there's no name, this slice might have a length of `0`. let bytes_consumed = event_size + ffi_event.len as usize; let name = &buffer[event_size..bytes_consumed]; // Remove trailing '\0' bytes // // The events in the buffer are aligned, and `name` is filled up // with '\0' up to the alignment boundary. Here we remove those // additional bytes. // // The `unwrap` here is safe, because `splitn` always returns at // least one result, even if the original slice contains no '\0'. let name = name .splitn(2, |b| b == &0u8) .next() .unwrap(); let event = Event::new( fd, &ffi_event, OsStr::from_bytes(name), ); (bytes_consumed, event) } /// Returns an owned copy of the event. #[deprecated = "use `to_owned()` instead; methods named `into_owned()` usually take self by value"] #[allow(clippy::wrong_self_convention)] pub fn into_owned(&self) -> EventOwned { self.to_owned() } /// Returns an owned copy of the event. #[must_use = "cloning is often expensive and is not expected to have side effects"] pub fn to_owned(&self) -> EventOwned { Event { wd: self.wd.clone(), mask: self.mask, cookie: self.cookie, name: self.name.map(OsStr::to_os_string), } } } /// An owned version of `Event` pub type EventOwned = Event; bitflags! { /// Indicates the type of an event /// /// This struct can be retrieved from an [`Event`] via its `mask` field. /// You can determine the [`Event`]'s type by comparing the `EventMask` to /// its associated constants. /// /// Please refer to the documentation of [`Event`] for a usage example. #[derive(PartialEq, Eq, PartialOrd, Ord, Hash, Debug, Clone, Copy)] pub struct EventMask: u32 { /// File was accessed /// /// When watching a directory, this event is only triggered for objects /// inside the directory, not the directory itself. /// /// See [`inotify_sys::IN_ACCESS`]. const ACCESS = ffi::IN_ACCESS; /// Metadata (permissions, timestamps, ...) changed /// /// When watching a directory, this event can be triggered for the /// directory itself, as well as objects inside the directory. /// /// See [`inotify_sys::IN_ATTRIB`]. const ATTRIB = ffi::IN_ATTRIB; /// File opened for writing was closed /// /// When watching a directory, this event is only triggered for objects /// inside the directory, not the directory itself. /// /// See [`inotify_sys::IN_CLOSE_WRITE`]. const CLOSE_WRITE = ffi::IN_CLOSE_WRITE; /// File or directory not opened for writing was closed /// /// When watching a directory, this event can be triggered for the /// directory itself, as well as objects inside the directory. /// /// See [`inotify_sys::IN_CLOSE_NOWRITE`]. const CLOSE_NOWRITE = ffi::IN_CLOSE_NOWRITE; /// File/directory created in watched directory /// /// When watching a directory, this event is only triggered for objects /// inside the directory, not the directory itself. /// /// See [`inotify_sys::IN_CREATE`]. const CREATE = ffi::IN_CREATE; /// File/directory deleted from watched directory /// /// When watching a directory, this event is only triggered for objects /// inside the directory, not the directory itself. const DELETE = ffi::IN_DELETE; /// Watched file/directory was deleted /// /// See [`inotify_sys::IN_DELETE_SELF`]. const DELETE_SELF = ffi::IN_DELETE_SELF; /// File was modified /// /// When watching a directory, this event is only triggered for objects /// inside the directory, not the directory itself. /// /// See [`inotify_sys::IN_MODIFY`]. const MODIFY = ffi::IN_MODIFY; /// Watched file/directory was moved /// /// See [`inotify_sys::IN_MOVE_SELF`]. const MOVE_SELF = ffi::IN_MOVE_SELF; /// File was renamed/moved; watched directory contained old name /// /// When watching a directory, this event is only triggered for objects /// inside the directory, not the directory itself. /// /// See [`inotify_sys::IN_MOVED_FROM`]. const MOVED_FROM = ffi::IN_MOVED_FROM; /// File was renamed/moved; watched directory contains new name /// /// When watching a directory, this event is only triggered for objects /// inside the directory, not the directory itself. /// /// See [`inotify_sys::IN_MOVED_TO`]. const MOVED_TO = ffi::IN_MOVED_TO; /// File or directory was opened /// /// When watching a directory, this event can be triggered for the /// directory itself, as well as objects inside the directory. /// /// See [`inotify_sys::IN_OPEN`]. const OPEN = ffi::IN_OPEN; /// Watch was removed /// /// This event will be generated, if the watch was removed explicitly /// (via [`Watches::remove`]), or automatically (because the file was /// deleted or the file system was unmounted). /// /// See [`inotify_sys::IN_IGNORED`]. /// /// [`Watches::remove`]: crate::Watches::remove const IGNORED = ffi::IN_IGNORED; /// Event related to a directory /// /// The subject of the event is a directory. /// /// See [`inotify_sys::IN_ISDIR`]. const ISDIR = ffi::IN_ISDIR; /// Event queue overflowed /// /// The event queue has overflowed and events have presumably been lost. /// /// See [`inotify_sys::IN_Q_OVERFLOW`]. const Q_OVERFLOW = ffi::IN_Q_OVERFLOW; /// File system containing watched object was unmounted. /// File system was unmounted /// /// The file system that contained the watched object has been /// unmounted. An event with [`EventMask::IGNORED`] will subsequently be /// generated for the same watch descriptor. /// /// See [`inotify_sys::IN_UNMOUNT`]. const UNMOUNT = ffi::IN_UNMOUNT; } } impl EventMask { /// Wrapper around [`Self::from_bits_retain`] for backwards compatibility /// /// # Safety /// /// This function is not actually unsafe. It is just a wrapper around the /// safe [`Self::from_bits_retain`]. #[deprecated = "Use the safe `from_bits_retain` method instead"] pub unsafe fn from_bits_unchecked(bits: u32) -> Self { Self::from_bits_retain(bits) } } #[cfg(test)] mod tests { use std::{ io::prelude::*, mem, slice, sync, }; use inotify_sys as ffi; use super::Event; #[test] fn from_buffer_should_not_mistake_next_event_for_name_of_previous_event() { let mut buffer = [0u8; 1024]; // First, put a normal event into the buffer let event = ffi::inotify_event { wd: 0, mask: 0, cookie: 0, len: 0, // no name following after event }; let event = unsafe { slice::from_raw_parts( &event as *const _ as *const u8, mem::size_of_val(&event), ) }; (&mut buffer[..]).write(event) .expect("Failed to write into buffer"); // After that event, simulate an event that starts with a non-zero byte. buffer[mem::size_of_val(&event)] = 1; // Now create the event and verify that the name is actually `None`, as // dictated by the value `len` above. let (_, event) = Event::from_buffer( sync::Weak::new(), &buffer, ); assert_eq!(event.name, None); } }