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//! Cross-platform file system notification library //! //! Source is on GitHub: https://github.com/passcod/notify //! //! # Installation //! //! ```toml //! [dependencies] //! notify = "4.0.12" //! ``` //! //! # Examples //! //! Notify provides two APIs. The default API _debounces_ events (if the backend reports two //! similar events in close succession, Notify will only report one). The raw API emits file //! changes as soon as they happen. For more details, see //! [`Watcher::new_raw`](trait.Watcher.html#tymethod.new_raw) and //! [`Watcher::new`](trait.Watcher.html#tymethod.new). //! //! ## Default (debounced) API //! //! ```no_run //! extern crate notify; //! //! use notify::{Watcher, RecursiveMode, watcher}; //! use std::sync::mpsc::channel; //! use std::time::Duration; //! //! fn main() { //! // Create a channel to receive the events. //! let (tx, rx) = channel(); //! //! // Create a watcher object, delivering debounced events. //! // The notification back-end is selected based on the platform. //! let mut watcher = watcher(tx, Duration::from_secs(10)).unwrap(); //! //! // Add a path to be watched. All files and directories at that path and //! // below will be monitored for changes. //! watcher.watch("/home/test/notify", RecursiveMode::Recursive).unwrap(); //! //! loop { //! match rx.recv() { //! Ok(event) => println!("{:?}", event), //! Err(e) => println!("watch error: {:?}", e), //! } //! } //! } //! ``` //! //! Using the default API is easy, all possible events are described in the //! [`DebouncedEvent`](enum.DebouncedEvent.html) documentation. But in order to understand the //! subtleties of the event delivery, you should read the [`op`](op/index.html) documentation as //! well. //! //! ## Raw API //! //! ```no_run //! extern crate notify; //! //! use notify::{Watcher, RecursiveMode, RawEvent, raw_watcher}; //! use std::sync::mpsc::channel; //! //! fn main() { //! // Create a channel to receive the events. //! let (tx, rx) = channel(); //! //! // Create a watcher object, delivering raw events. //! // The notification back-end is selected based on the platform. //! let mut watcher = raw_watcher(tx).unwrap(); //! //! // Add a path to be watched. All files and directories at that path and //! // below will be monitored for changes. //! watcher.watch("/home/test/notify", RecursiveMode::Recursive).unwrap(); //! //! loop { //! match rx.recv() { //! Ok(RawEvent{path: Some(path), op: Ok(op), cookie}) => { //! println!("{:?} {:?} ({:?})", op, path, cookie) //! }, //! Ok(event) => println!("broken event: {:?}", event), //! Err(e) => println!("watch error: {:?}", e), //! } //! } //! } //! ``` //! //! The event structure is described in the [`RawEvent`](struct.RawEvent.html) documentation, //! all possible operations delivered in an event are described in the [`op`](op/index.html) //! documentation. #![deny(missing_docs)] #[macro_use] extern crate bitflags; extern crate filetime; #[cfg(target_os = "macos")] extern crate fsevent_sys; extern crate libc; #[cfg(target_os = "linux")] extern crate mio; #[cfg(target_os = "linux")] extern crate mio_extras; #[cfg(target_os = "windows")] extern crate winapi; pub use self::op::Op; use std::convert::AsRef; use std::error::Error as StdError; use std::fmt; use std::io; use std::path::{Path, PathBuf}; use std::result::Result as StdResult; use std::sync::mpsc::Sender; use std::time::Duration; #[cfg(target_os = "macos")] pub use self::fsevent::FsEventWatcher; #[cfg(target_os = "linux")] pub use self::inotify::INotifyWatcher; pub use self::null::NullWatcher; pub use self::poll::PollWatcher; #[cfg(target_os = "windows")] pub use self::windows::ReadDirectoryChangesWatcher; #[cfg(target_os = "macos")] pub mod fsevent; #[cfg(target_os = "linux")] pub mod inotify; #[cfg(target_os = "windows")] pub mod windows; pub mod null; pub mod poll; mod debounce; /// Contains the `Op` type which describes the actions for an event. /// /// `notify` aims to provide unified behavior across platforms. This however is not always possible /// due to the underlying technology of the various operating systems. So there are some issues /// `notify`-API users will have to take care of themselves, depending on their needs. /// /// /// # Chmod /// /// __Linux, macOS__ /// /// On Linux and macOS the `CHMOD` event is emitted whenever attributes or extended attributes /// change. /// /// __Windows__ /// /// On Windows a `WRITE` event is emitted when attributes change. This makes it impossible to /// distinguish between writes to a file or its meta data. /// /// /// # Close-Write /// /// A `CLOSE_WRITE` event is emitted whenever a file that was opened for writing has been closed. /// /// __This event is only available on Linux__. /// /// /// # Create /// /// A `CREATE` event is emitted whenever a new file or directory is created. /// /// Upon receiving a `Create` event for a directory, it is necessary to scan the newly created /// directory for contents. The directory can contain files or directories if those contents were /// created before the directory could be watched, or if the directory was moved into the watched /// directory. /// /// # Remove /// /// ## Remove file or directory within a watched directory /// /// A `REMOVE` event is emitted whenever a file or directory is removed. /// /// ## Remove watched file or directory itself /// /// With the exception of Windows a `REMOVE` event is emitted whenever the watched file or /// directory itself is removed. The behavior after the remove differs between platforms though. /// /// __Linux__ /// /// When a watched file or directory is removed, its watch gets destroyed and no new events will be /// sent. /// /// __Windows__ /// /// If a watched directory is removed, an empty event is emitted. /// /// When watching a single file on Windows, the file path will continue to be watched until either /// the watch is removed by the API user or the parent directory gets removed. /// /// When watching a directory on Windows, the watch will get destroyed and no new events will be /// sent. /// /// __macOS__ /// /// While Linux and Windows monitor "inodes", macOS monitors "paths". So a watch stays active even /// after the watched file or directory has been removed and it will emit events in case a new file /// or directory is created in its place. /// /// /// # Rename /// /// A `RENAME` event is emitted whenever a file or directory has been renamed or moved to a /// different directory. /// /// ## Rename file or directory within a watched directory /// /// __Linux, Windows__ /// /// A rename with both the source and the destination path inside a watched directory produces two /// `RENAME` events. The first event contains the source path, the second contains the destination /// path. Both events share the same cookie. /// /// A rename that originates inside of a watched directory but ends outside of a watched directory /// produces a `DELETE` event. /// /// A rename that originates outside of a watched directory and ends inside of a watched directory /// produces a `CREATE` event. /// /// __macOS__ /// /// A `RENAME` event is produced whenever a file or directory is moved. This includes moves within /// the watched directory as well as moves into or out of the watched directory. It is up to the /// API user to determine what exactly happened. Usually when a move within a watched directory /// occurs, the cookie is set for both connected events. This can however fail eg. if a file gets /// renamed multiple times without a delay (test `fsevents_rename_rename_file_0`). So in some cases /// rename cannot be caught properly but would be interpreted as a sequence of events where a file /// or directory is moved out of the watched directory and a different file or directory is moved /// in. /// /// ## Rename watched file or directory itself /// /// With the exception of Windows a `RENAME` event is emitted whenever the watched file or /// directory itself is renamed. The behavior after the rename differs between platforms though. /// Depending on the platform either the moved file or directory will continue to be watched or the /// old path. If the moved file or directory will continue to be watched, the paths of emitted /// events will still be prefixed with the old path though. /// /// __Linux__ /// /// Linux will continue to watch the moved file or directory. Events will contain paths prefixed /// with the old path. /// /// __Windows__ /// /// Currently there is no event emitted when a watched directory is renamed. But the directory will /// continue to be watched and events will contain paths prefixed with the old path. /// /// When renaming a watched file, a `RENAME` event is emitted but the old path will continue to be /// watched. /// /// __macOS__ /// /// macOS will continue to watch the (now non-existing) path. /// /// ## Rename parent directory of watched file or directory /// /// Currently no event will be emitted when any parent directory of the watched file or directory /// is renamed. Depending on the platform either the moved file or directory will continue to be /// watched or the old path. If the moved file or directory will continue to be watched, the paths /// of emitted events will still be prefixed with the old path though. /// /// __Linux, Windows__ /// /// Linux and Windows will continue to watch the moved file or directory. Events will contain paths /// prefixed with the old path. /// /// __macOS__ /// /// macOS will continue to watch the (now non-existing) path. /// /// /// # Rescan /// /// A `RESCAN` event indicates that an error occurred and the watched directories need to be /// rescanned. This can happen if the internal event queue has overflown and some events were /// dropped. Or with FSEvents if events were coalesced hierarchically. /// /// __Windows__ /// /// At the moment `RESCAN` events aren't emitted on Windows. /// /// __Queue size__ /// /// Linux: `/proc/sys/fs/inotify/max_queued_events` /// /// Windows: 16384 Bytes. The actual amount of events that fit into the queue depends on the length /// of the paths. /// /// /// # Write /// /// A `WRITE` event is emitted whenever a file has been written to. /// /// __Windows__ /// /// On Windows a `WRITE` event is emitted when attributes change. #[allow(missing_docs)] pub mod op { bitflags! { /// Holds a set of bit flags representing the actions for the event. /// /// For a list of possible values, have a look at the [notify::op](index.html) documentation. /// /// Multiple actions may be delivered in a single event. pub struct Op: u32 { /// Attributes changed const CHMOD = 0b0000001; /// Created const CREATE = 0b0000010; /// Removed const REMOVE = 0b0000100; /// Renamed const RENAME = 0b0001000; /// Written const WRITE = 0b0010000; /// File opened for writing was closed const CLOSE_WRITE = 0b0100000; /// Directories need to be rescanned const RESCAN = 0b1000000; } } pub const CHMOD: Op = Op::CHMOD; pub const CREATE: Op = Op::CREATE; pub const REMOVE: Op = Op::REMOVE; pub const RENAME: Op = Op::RENAME; pub const WRITE: Op = Op::WRITE; pub const CLOSE_WRITE: Op = Op::CLOSE_WRITE; pub const RESCAN: Op = Op::RESCAN; } #[cfg(test)] mod op_test { #[test] fn mixed_bitflags_form() { let op = super::op::Op::CHMOD | super::op::WRITE; assert!(op.contains(super::op::CHMOD)); assert!(op.contains(super::op::Op::WRITE)); } #[test] fn new_bitflags_form() { let op = super::op::Op::CHMOD | super::op::Op::WRITE; assert!(op.contains(super::op::Op::WRITE)); } #[test] fn old_bitflags_form() { let op = super::op::CHMOD | super::op::WRITE; assert!(op.contains(super::op::WRITE)); } } /// Event delivered when action occurs on a watched path in _raw_ mode #[derive(Debug)] pub struct RawEvent { /// Path where the event originated. /// /// `path` is always absolute, even if a relative path is used to watch a file or directory. /// /// On **macOS** the path is always canonicalized. /// /// Keep in mind that the path may be false if the watched file or directory or any parent /// directory is renamed. (See: [notify::op](op/index.html#rename)) pub path: Option<PathBuf>, /// Operation detected on that path. /// /// When using the `PollWatcher`, `op` may be `Err` if reading meta data for the path fails. /// /// When using the `INotifyWatcher`, `op` may be `Err` if activity is detected on the file and /// there is an error reading from inotify. pub op: Result<Op>, /// Unique cookie associating related events (for `RENAME` events). /// /// If two consecutive `RENAME` events share the same cookie, it means that the first event /// holds the old path, and the second event holds the new path of the renamed file or /// directory. /// /// For details on handling `RENAME` events with the `FsEventWatcher` have a look at the /// [notify::op](op/index.html) documentation. pub cookie: Option<u32>, } unsafe impl Send for RawEvent {} #[derive(Debug)] /// Event delivered when action occurs on a watched path in debounced mode pub enum DebouncedEvent { /// `NoticeWrite` is emitted immediately after the first write event for the path. /// /// If you are reading from that file, you should probably close it immediately and discard all /// data you read from it. NoticeWrite(PathBuf), /// `NoticeRemove` is emitted immediately after a remove or rename event for the path. /// /// The file will continue to exist until its last file handle is closed. NoticeRemove(PathBuf), /// `Create` is emitted when a file or directory has been created and no events were detected /// for the path within the specified time frame. /// /// `Create` events have a higher priority than `Write` and `Chmod`. These events will not be /// emitted if they are detected before the `Create` event has been emitted. Create(PathBuf), /// `Write` is emitted when a file has been written to and no events were detected for the path /// within the specified time frame. /// /// `Write` events have a higher priority than `Chmod`. `Chmod` will not be emitted if it's /// detected before the `Write` event has been emitted. /// /// Upon receiving a `Create` event for a directory, it is necessary to scan the newly created /// directory for contents. The directory can contain files or directories if those contents /// were created before the directory could be watched, or if the directory was moved into the /// watched directory. Write(PathBuf), /// `Chmod` is emitted when attributes have been changed and no events were detected for the /// path within the specified time frame. Chmod(PathBuf), /// `Remove` is emitted when a file or directory has been removed and no events were detected /// for the path within the specified time frame. Remove(PathBuf), /// `Rename` is emitted when a file or directory has been moved within a watched directory and /// no events were detected for the new path within the specified time frame. /// /// The first path contains the source, the second path the destination. Rename(PathBuf, PathBuf), /// `Rescan` is emitted immediately after a problem has been detected that makes it necessary /// to re-scan the watched directories. Rescan, /// `Error` is emitted immediately after a error has been detected. /// /// This event may contain a path for which the error was detected. Error(Error, Option<PathBuf>), } impl PartialEq for DebouncedEvent { fn eq(&self, other: &DebouncedEvent) -> bool { match (self, other) { (&DebouncedEvent::NoticeWrite(ref a), &DebouncedEvent::NoticeWrite(ref b)) | (&DebouncedEvent::NoticeRemove(ref a), &DebouncedEvent::NoticeRemove(ref b)) | (&DebouncedEvent::Create(ref a), &DebouncedEvent::Create(ref b)) | (&DebouncedEvent::Write(ref a), &DebouncedEvent::Write(ref b)) | (&DebouncedEvent::Chmod(ref a), &DebouncedEvent::Chmod(ref b)) | (&DebouncedEvent::Remove(ref a), &DebouncedEvent::Remove(ref b)) => a == b, (&DebouncedEvent::Rename(ref a1, ref a2), &DebouncedEvent::Rename(ref b1, ref b2)) => { (a1 == b1 && a2 == b2) } (&DebouncedEvent::Rescan, &DebouncedEvent::Rescan) => true, _ => false, } } } /// Errors generated from the `notify` crate #[derive(Debug)] pub enum Error { /// Generic error /// /// May be used in cases where a platform specific error is mapped to this type Generic(String), /// I/O errors Io(io::Error), /// The provided path does not exist PathNotFound, /// Attempted to remove a watch that does not exist WatchNotFound, } impl fmt::Display for Error { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let error = String::from(match *self { Error::PathNotFound => "No path was found.", Error::WatchNotFound => "No watch was found.", Error::Generic(ref err) => err.as_ref(), Error::Io(ref err) => err.description(), }); write!(f, "{}", error) } } /// Type alias to use this library's `Error` type in a Result pub type Result<T> = StdResult<T, Error>; impl StdError for Error { fn description(&self) -> &str { match *self { Error::PathNotFound => "No path was found", Error::WatchNotFound => "No watch was found", Error::Generic(_) => "Generic error", Error::Io(_) => "I/O Error", } } fn cause(&self) -> Option<&StdError> { match *self { Error::Io(ref cause) => Some(cause), _ => None, } } } impl From<io::Error> for Error { fn from(err: io::Error) -> Error { Error::Io(err) } } /// Indicates whether only the provided directory or its sub-directories as well should be watched #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Debug)] pub enum RecursiveMode { /// Watch all sub-directories as well, including directories created after installing the watch Recursive, /// Watch only the provided directory NonRecursive, } impl RecursiveMode { fn is_recursive(&self) -> bool { match *self { RecursiveMode::Recursive => true, RecursiveMode::NonRecursive => false, } } } /// Type that can deliver file activity notifications /// /// Watcher is implemented per platform using the best implementation available on that platform. /// In addition to such event driven implementations, a polling implementation is also provided /// that should work on any platform. pub trait Watcher: Sized { /// Create a new watcher in _raw_ mode. /// /// Events will be sent using the provided `tx` immediately after they occurred. fn new_raw(tx: Sender<RawEvent>) -> Result<Self>; /// Create a new _debounced_ watcher with a `delay`. /// /// Events won't be sent immediately but after the specified delay. /// /// # Advantages /// /// This has the advantage that a lot of logic can be offloaded to `notify`. /// /// For example you won't have to handle `RENAME` events yourself by piecing the two parts of /// rename events together. Instead you will just receive a `Rename{from: PathBuf, to: /// PathBuf}` event. /// /// Also `notify` will detect the beginning and the end of write operations. As soon as /// something is written to a file, a `NoticeWrite` event is emitted. If no new event arrived /// until after the specified `delay`, a `Write` event is emitted. /// /// A practical example would be the safe-saving of a file, where a temporary file is created /// and written to, then only when everything has been written to that file is it renamed to /// overwrite the file that was meant to be saved. Instead of receiving a `CREATE` event for /// the temporary file, `WRITE` events to that file and a `RENAME` event from the temporary /// file to the file being saved, you will just receive a single `Write` event. /// /// If you use a delay of more than 30 seconds, you can avoid receiving repetitions of previous /// events on macOS. /// /// # Disadvantages /// /// Your application might not feel as responsive. /// /// If a file is saved very slowly, you might receive a `Write` event even though the file is /// still being written to. fn new(tx: Sender<DebouncedEvent>, delay: Duration) -> Result<Self>; /// Begin watching a new path. /// /// If the `path` is a directory, `recursive_mode` will be evaluated. If `recursive_mode` is /// `RecursiveMode::Recursive` events will be delivered for all files in that tree. Otherwise /// only the directory and its immediate children will be watched. /// /// If the `path` is a file, `recursive_mode` will be ignored and events will be delivered only /// for the file. /// /// On some platforms, if the `path` is renamed or removed while being watched, behaviour may /// be unexpected. See discussions in [#165] and [#166]. If less surprising behaviour is wanted /// one may non-recursively watch the _parent_ directory as well and manage related events. /// /// [#165]: https://github.com/passcod/notify/issues/165 /// [#166]: https://github.com/passcod/notify/issues/166 fn watch<P: AsRef<Path>>(&mut self, path: P, recursive_mode: RecursiveMode) -> Result<()>; /// Stop watching a path. /// /// # Errors /// /// Returns an error in the case that `path` has not been watched or if removing the watch /// fails. fn unwatch<P: AsRef<Path>>(&mut self, path: P) -> Result<()>; } /// The recommended `Watcher` implementation for the current platform #[cfg(target_os = "linux")] pub type RecommendedWatcher = INotifyWatcher; /// The recommended `Watcher` implementation for the current platform #[cfg(target_os = "macos")] pub type RecommendedWatcher = FsEventWatcher; /// The recommended `Watcher` implementation for the current platform #[cfg(target_os = "windows")] pub type RecommendedWatcher = ReadDirectoryChangesWatcher; /// The recommended `Watcher` implementation for the current platform #[cfg(not(any(target_os = "linux", target_os = "macos", target_os = "windows")))] pub type RecommendedWatcher = PollWatcher; /// Convenience method for creating the `RecommendedWatcher` for the current platform in _raw_ mode. /// /// See [`Watcher::new_raw`](trait.Watcher.html#tymethod.new_raw). pub fn raw_watcher(tx: Sender<RawEvent>) -> Result<RecommendedWatcher> { Watcher::new_raw(tx) } /// Convenience method for creating the `RecommendedWatcher` for the current /// platform in default (debounced) mode. /// /// See [`Watcher::new`](trait.Watcher.html#tymethod.new). pub fn watcher(tx: Sender<DebouncedEvent>, delay: Duration) -> Result<RecommendedWatcher> { Watcher::new(tx, delay) } #[test] fn display_formatted_errors() { let expected = "Some error"; assert_eq!( expected, format!("{}", Error::Generic(String::from(expected))) ); assert_eq!( expected, format!( "{}", Error::Io(io::Error::new(io::ErrorKind::Other, expected)) ) ); }