rust/src/libstd/io/fs.rs

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// Copyright 2013 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
/*! Synchronous File I/O
This module provides a set of functions and traits for working
with regular files & directories on a filesystem.
At the top-level of the module are a set of freestanding functions, associated
with various filesystem operations. They all operate on a `Path` object.
All operations in this module, including those as part of `File` et al
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block the task during execution. Most will raise `std::io::io_error`
conditions in the event of failure.
Also included in this module is an implementation block on the `Path` object
defined in `std::path::Path`. The impl adds useful methods about inspecting the
metadata of a file. This includes getting the `stat` information, reading off
particular bits of it, etc.
# Example
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use std::io::{File, fs};
let path = Path::new("foo.txt");
// create the file, whether it exists or not
let mut file = File::create(&path);
file.write(bytes!("foobar"));
// open the file in read-only mode
let mut file = File::open(&path);
file.read_to_end();
println!("{}", path.stat().size);
fs::symlink(&path, &Path::new("bar.txt"));
fs::unlink(&path);
*/
use c_str::ToCStr;
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use clone::Clone;
use iter::Iterator;
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use super::{Reader, Writer, Seek};
use super::{SeekStyle, Read, Write, Open, IoError, Truncate,
FileMode, FileAccess, FileStat, io_error, FilePermission};
use rt::rtio::{RtioFileStream, IoFactory, LocalIo};
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use io;
use option::{Some, None, Option};
use result::{Ok, Err};
use path;
use path::{Path, GenericPath};
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use vec::{OwnedVector, ImmutableVector};
/// Unconstrained file access type that exposes read and write operations
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///
/// Can be constructed via `File::open()`, `File::create()`, and
/// `File::open_mode()`.
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///
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/// # Errors
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///
/// This type will raise an io_error condition if operations are attempted against
/// it for which its underlying file descriptor was not configured at creation
/// time, via the `FileAccess` parameter to `File::open_mode()`.
pub struct File {
priv fd: ~RtioFileStream,
priv path: Path,
priv last_nread: int,
}
impl File {
/// Open a file at `path` in the mode specified by the `mode` and `access`
/// arguments
///
/// # Example
///
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/// use std::io::{File, io_error, Open, ReadWrite};
///
/// let p = Path::new("/some/file/path.txt");
///
/// io_error::cond.trap(|_| {
/// // hoo-boy...
/// }).inside(|| {
/// let file = match File::open_mode(&p, Open, ReadWrite) {
/// Some(s) => s,
/// None => fail!("whoops! I'm sure this raised, anyways..")
/// };
/// // do some stuff with that file
///
/// // the file will be closed at the end of this block
/// })
/// // ..
///
/// `FileMode` and `FileAccess` provide information about the permissions
/// context in which a given stream is created. More information about them
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/// can be found in `std::io`'s docs. If a file is opened with `Write`
/// or `ReadWrite` access, then it will be created it it does not already
/// exist.
///
/// Note that, with this function, a `File` is returned regardless of the
/// access-limitations indicated by `FileAccess` (e.g. calling `write` on a
/// `File` opened as `Read` will raise an `io_error` condition at runtime).
///
/// # Errors
///
/// This function will raise an `io_error` condition under a number of
/// different circumstances, to include but not limited to:
///
/// * Opening a file that does not exist with `Read` access.
/// * Attempting to open a file with a `FileAccess` that the user lacks
/// permissions for
/// * Filesystem-level errors (full disk, etc)
pub fn open_mode(path: &Path,
mode: FileMode,
access: FileAccess) -> Option<File> {
LocalIo::maybe_raise(|io| {
io.fs_open(&path.to_c_str(), mode, access).map(|fd| {
File {
path: path.clone(),
fd: fd,
last_nread: -1
}
})
})
}
/// Attempts to open a file in read-only mode. This function is equivalent to
/// `File::open_mode(path, Open, Read)`, and will raise all of the same
/// errors that `File::open_mode` does.
///
/// For more information, see the `File::open_mode` function.
///
/// # Example
///
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/// use std::io::File;
///
/// let contents = File::open(&Path::new("foo.txt")).read_to_end();
pub fn open(path: &Path) -> Option<File> {
File::open_mode(path, Open, Read)
}
/// Attempts to create a file in write-only mode. This function is
/// equivalent to `File::open_mode(path, Truncate, Write)`, and will
/// raise all of the same errors that `File::open_mode` does.
///
/// For more information, see the `File::open_mode` function.
///
/// # Example
///
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/// use std::io::File;
///
/// let mut f = File::create(&Path::new("foo.txt"));
/// f.write(bytes!("This is a sample file"));
pub fn create(path: &Path) -> Option<File> {
File::open_mode(path, Truncate, Write)
}
/// Returns the original path which was used to open this file.
pub fn path<'a>(&'a self) -> &'a Path {
&self.path
}
/// Synchronizes all modifications to this file to its permanent storage
/// device. This will flush any internal buffers necessary to perform this
/// operation.
///
/// # Errors
///
/// This function will raise on the `io_error` condition on failure.
pub fn fsync(&mut self) {
self.fd.fsync().map_err(|e| io_error::cond.raise(e));
}
/// This function is similar to `fsync`, except that it may not synchronize
/// file metadata to the filesystem. This is intended for use case which
/// must synchronize content, but don't need the metadata on disk. The goal
/// of this method is to reduce disk operations.
///
/// # Errors
///
/// This function will raise on the `io_error` condition on failure.
pub fn datasync(&mut self) {
self.fd.datasync().map_err(|e| io_error::cond.raise(e));
}
/// Either truncates or extends the underlying file, updating the size of
/// this file to become `size`. This is equivalent to unix's `truncate`
/// function.
///
/// If the `size` is less than the current file's size, then the file will
/// be shrunk. If it is greater than the current file's size, then the file
/// will be extended to `size` and have all of the intermediate data filled
/// in with 0s.
///
/// # Errors
///
/// On error, this function will raise on the `io_error` condition.
pub fn truncate(&mut self, size: i64) {
self.fd.truncate(size).map_err(|e| io_error::cond.raise(e));
}
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/// Tests whether this stream has reached EOF.
///
/// If true, then this file will no longer continue to return data via
/// `read`.
pub fn eof(&self) -> bool {
self.last_nread == 0
}
}
/// Unlink a file from the underlying filesystem.
///
/// # Example
///
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/// use std::io::fs;
///
/// let p = Path::new("/some/file/path.txt");
/// fs::unlink(&p);
/// // if we made it here without failing, then the
/// // unlink operation was successful
///
/// Note that, just because an unlink call was successful, it is not
/// guaranteed that a file is immediately deleted (e.g. depending on
/// platform, other open file descriptors may prevent immediate removal)
///
/// # Errors
///
/// This function will raise an `io_error` condition if the path points to a
/// directory, the user lacks permissions to remove the file, or if some
/// other filesystem-level error occurs.
pub fn unlink(path: &Path) {
LocalIo::maybe_raise(|io| io.fs_unlink(&path.to_c_str()));
}
/// Given a path, query the file system to get information about a file,
/// directory, etc. This function will traverse symlinks to query
/// information about the destination file.
///
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/// Returns a fully-filled out stat structure on success, and on failure it
/// will return a dummy stat structure (it is expected that the condition
/// raised is handled as well).
///
/// # Example
///
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/// use std::io;
/// use std::io::fs;
///
/// let p = Path::new("/some/file/path.txt");
/// match io::result(|| fs::stat(&p)) {
/// Ok(stat) => { /* ... */ }
/// Err(e) => { /* handle error */ }
/// }
///
/// # Errors
///
/// This call will raise an `io_error` condition if the user lacks the
/// requisite permissions to perform a `stat` call on the given path or if
/// there is no entry in the filesystem at the provided path.
pub fn stat(path: &Path) -> FileStat {
LocalIo::maybe_raise(|io| {
io.fs_stat(&path.to_c_str())
}).unwrap_or_else(dummystat)
}
fn dummystat() -> FileStat {
FileStat {
path: Path::new(""),
size: 0,
kind: io::TypeFile,
perm: 0,
created: 0,
modified: 0,
accessed: 0,
unstable: io::UnstableFileStat {
device: 0,
inode: 0,
rdev: 0,
nlink: 0,
uid: 0,
gid: 0,
blksize: 0,
blocks: 0,
flags: 0,
gen: 0,
}
}
}
/// Perform the same operation as the `stat` function, except that this
/// function does not traverse through symlinks. This will return
/// information about the symlink file instead of the file that it points
/// to.
///
/// # Errors
///
/// See `stat`
pub fn lstat(path: &Path) -> FileStat {
LocalIo::maybe_raise(|io| {
io.fs_lstat(&path.to_c_str())
}).unwrap_or_else(dummystat)
}
/// Rename a file or directory to a new name.
///
/// # Example
///
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/// use std::io::fs;
///
/// fs::rename(&Path::new("foo"), &Path::new("bar"));
/// // Oh boy, nothing was raised!
///
/// # Errors
///
/// Will raise an `io_error` condition if the provided `path` doesn't exist,
/// the process lacks permissions to view the contents, or if some other
/// intermittent I/O error occurs.
pub fn rename(from: &Path, to: &Path) {
LocalIo::maybe_raise(|io| io.fs_rename(&from.to_c_str(), &to.to_c_str()));
}
/// Copies the contents of one file to another. This function will also
/// copy the permission bits of the original file to the destination file.
///
/// Note that if `from` and `to` both point to the same file, then the file
/// will likely get truncated by this operation.
///
/// # Example
///
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/// use std::io::fs;
///
/// fs::copy(&Path::new("foo.txt"), &Path::new("bar.txt"));
/// // Oh boy, nothing was raised!
///
/// # Errors
///
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/// Will raise an `io_error` condition is the following situations, but is
/// not limited to just these cases:
///
/// * The `from` path is not a file
/// * The `from` file does not exist
/// * The current process does not have the permission rights to access
/// `from` or write `to`
///
/// Note that this copy is not atomic in that once the destination is
/// ensured to not exist, there is nothing preventing the destination from
/// being created and then destroyed by this operation.
pub fn copy(from: &Path, to: &Path) {
if !from.is_file() {
return io_error::cond.raise(IoError {
kind: io::MismatchedFileTypeForOperation,
desc: "the source path is not an existing file",
detail: None,
});
}
let mut reader = match File::open(from) { Some(f) => f, None => return };
let mut writer = match File::create(to) { Some(f) => f, None => return };
let mut buf = [0, ..io::DEFAULT_BUF_SIZE];
loop {
match reader.read(buf) {
Some(amt) => writer.write(buf.slice_to(amt)),
None => break
}
}
chmod(to, from.stat().perm)
}
/// Changes the permission mode bits found on a file or a directory. This
/// function takes a mask from the `io` module
///
/// # Example
///
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/// use std::io;
/// use std::io::fs;
///
/// fs::chmod(&Path::new("file.txt"), io::UserFile);
/// fs::chmod(&Path::new("file.txt"), io::UserRead | io::UserWrite);
/// fs::chmod(&Path::new("dir"), io::UserDir);
/// fs::chmod(&Path::new("file.exe"), io::UserExec);
///
/// # Errors
///
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/// If this function encounters an I/O error, it will raise on the `io_error`
/// condition. Some possible error situations are not having the permission to
/// change the attributes of a file or the file not existing.
pub fn chmod(path: &Path, mode: io::FilePermission) {
LocalIo::maybe_raise(|io| io.fs_chmod(&path.to_c_str(), mode));
}
/// Change the user and group owners of a file at the specified path.
///
/// # Errors
///
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/// This function will raise on the `io_error` condition on failure.
pub fn chown(path: &Path, uid: int, gid: int) {
LocalIo::maybe_raise(|io| io.fs_chown(&path.to_c_str(), uid, gid));
}
/// Creates a new hard link on the filesystem. The `dst` path will be a
/// link pointing to the `src` path. Note that systems often require these
/// two paths to both be located on the same filesystem.
///
/// # Errors
///
/// This function will raise on the `io_error` condition on failure.
pub fn link(src: &Path, dst: &Path) {
LocalIo::maybe_raise(|io| io.fs_link(&src.to_c_str(), &dst.to_c_str()));
}
/// Creates a new symbolic link on the filesystem. The `dst` path will be a
/// symlink pointing to the `src` path.
///
/// # Errors
///
/// This function will raise on the `io_error` condition on failure.
pub fn symlink(src: &Path, dst: &Path) {
LocalIo::maybe_raise(|io| io.fs_symlink(&src.to_c_str(), &dst.to_c_str()));
}
/// Reads a symlink, returning the file that the symlink points to.
///
/// # Errors
///
/// This function will raise on the `io_error` condition on failure. Failure
/// conditions include reading a file that does not exist or reading a file
/// which is not a symlink.
pub fn readlink(path: &Path) -> Option<Path> {
LocalIo::maybe_raise(|io| io.fs_readlink(&path.to_c_str()))
}
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/// Create a new, empty directory at the provided path
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///
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/// # Example
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///
/// use std::libc::S_IRWXU;
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/// use std::io::fs;
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///
/// let p = Path::new("/some/dir");
/// fs::mkdir(&p, S_IRWXU as int);
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/// // If we got here, our directory exists! Hooray!
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///
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/// # Errors
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///
/// This call will raise an `io_error` condition if the user lacks permissions
/// to make a new directory at the provided path, or if the directory already
/// exists.
pub fn mkdir(path: &Path, mode: FilePermission) {
LocalIo::maybe_raise(|io| io.fs_mkdir(&path.to_c_str(), mode));
}
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/// Remove an existing, empty directory
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///
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/// # Example
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///
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/// use std::io::fs;
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///
/// let p = Path::new("/some/dir");
/// fs::rmdir(&p);
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/// // good riddance, you mean ol' directory
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///
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/// # Errors
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///
/// This call will raise an `io_error` condition if the user lacks permissions
/// to remove the directory at the provided path, or if the directory isn't
/// empty.
pub fn rmdir(path: &Path) {
LocalIo::maybe_raise(|io| io.fs_rmdir(&path.to_c_str()));
}
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/// Retrieve a vector containing all entries within a provided directory
///
/// # Example
///
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/// use std::io::fs;
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///
/// // one possible implementation of fs::walk_dir only visiting files
/// fn visit_dirs(dir: &Path, cb: |&Path|) {
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/// if dir.is_dir() {
/// let contents = fs::readdir(dir).unwrap();
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/// for entry in contents.iter() {
/// if entry.is_dir() { visit_dirs(entry, cb); }
/// else { cb(entry); }
/// }
/// }
/// else { fail!("nope"); }
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/// }
///
/// # Errors
///
/// Will raise an `io_error` condition if the provided `from` doesn't exist,
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/// the process lacks permissions to view the contents or if the `path` points
/// at a non-directory file
pub fn readdir(path: &Path) -> ~[Path] {
LocalIo::maybe_raise(|io| {
io.fs_readdir(&path.to_c_str(), 0)
}).unwrap_or_else(|| ~[])
}
/// Returns an iterator which will recursively walk the directory structure
/// rooted at `path`. The path given will not be iterated over, and this will
/// perform iteration in a top-down order.
pub fn walk_dir(path: &Path) -> Directories {
Directories { stack: readdir(path) }
}
/// An iterator which walks over a directory
pub struct Directories {
priv stack: ~[Path],
}
impl Iterator<Path> for Directories {
fn next(&mut self) -> Option<Path> {
match self.stack.shift() {
Some(path) => {
if path.is_dir() {
self.stack.push_all_move(readdir(&path));
}
Some(path)
}
None => None
}
}
}
/// Recursively create a directory and all of its parent components if they
/// are missing.
///
/// # Errors
///
/// This function will raise on the `io_error` condition if an error
/// happens, see `fs::mkdir` for more information about error conditions
/// and performance.
pub fn mkdir_recursive(path: &Path, mode: FilePermission) {
// tjc: if directory exists but with different permissions,
// should we return false?
if path.is_dir() {
return
}
if path.filename().is_some() {
mkdir_recursive(&path.dir_path(), mode);
}
mkdir(path, mode)
}
/// Removes a directory at this path, after removing all its contents. Use
/// carefully!
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///
/// # Errors
///
/// This function will raise on the `io_error` condition if an error
/// happens. See `file::unlink` and `fs::readdir` for possible error
/// conditions.
pub fn rmdir_recursive(path: &Path) {
let children = readdir(path);
for child in children.iter() {
if child.is_dir() {
rmdir_recursive(child);
} else {
unlink(child);
}
}
// Directory should now be empty
rmdir(path);
}
/// Changes the timestamps for a file's last modification and access time.
/// The file at the path specified will have its last access time set to
/// `atime` and its modification time set to `mtime`. The times specified should
/// be in milliseconds.
///
/// # Errors
///
/// This function will raise on the `io_error` condition if an error
/// happens.
// FIXME(#10301) these arguments should not be u64
pub fn change_file_times(path: &Path, atime: u64, mtime: u64) {
LocalIo::maybe_raise(|io| io.fs_utime(&path.to_c_str(), atime, mtime));
}
impl Reader for File {
fn read(&mut self, buf: &mut [u8]) -> Option<uint> {
match self.fd.read(buf) {
Ok(read) => {
self.last_nread = read;
match read {
0 => None,
_ => Some(read as uint)
}
},
Err(ioerr) => {
// EOF is indicated by returning None
if ioerr.kind != io::EndOfFile {
io_error::cond.raise(ioerr);
}
return None;
}
}
}
}
impl Writer for File {
fn write(&mut self, buf: &[u8]) {
match self.fd.write(buf) {
Ok(()) => (),
Err(ioerr) => {
io_error::cond.raise(ioerr);
}
}
}
}
impl Seek for File {
fn tell(&self) -> u64 {
let res = self.fd.tell();
match res {
Ok(cursor) => cursor,
Err(ioerr) => {
io_error::cond.raise(ioerr);
return -1;
}
}
}
fn seek(&mut self, pos: i64, style: SeekStyle) {
match self.fd.seek(pos, style) {
Ok(_) => {
// successful seek resets EOF indicator
self.last_nread = -1;
()
},
Err(ioerr) => {
io_error::cond.raise(ioerr);
}
}
}
}
impl path::Path {
/// Get information on the file, directory, etc at this path.
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///
/// Consult the `file::stat` documentation for more info.
///
/// This call preserves identical runtime/error semantics with `file::stat`.
pub fn stat(&self) -> FileStat { stat(self) }
/// Boolean value indicator whether the underlying file exists on the local
/// filesystem. This will return true if the path points to either a
/// directory or a file.
///
/// # Errors
///
/// Will not raise a condition
pub fn exists(&self) -> bool {
io::result(|| self.stat()).is_ok()
}
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/// Whether the underlying implementation (be it a file path, or something
/// else) points at a "regular file" on the FS. Will return false for paths
/// to non-existent locations or directories or other non-regular files
/// (named pipes, etc).
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///
/// # Errors
///
/// Will not raise a condition
pub fn is_file(&self) -> bool {
match io::result(|| self.stat()) {
Ok(s) => s.kind == io::TypeFile,
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Err(..) => false
}
}
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/// Whether the underlying implementation (be it a file path,
/// or something else) is pointing at a directory in the underlying FS.
/// Will return false for paths to non-existent locations or if the item is
/// not a directory (eg files, named pipes, links, etc)
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///
/// # Errors
///
/// Will not raise a condition
pub fn is_dir(&self) -> bool {
match io::result(|| self.stat()) {
Ok(s) => s.kind == io::TypeDirectory,
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Err(..) => false
}
}
}
#[cfg(test)]
#[allow(unused_imports)]
mod test {
use prelude::*;
use io::{SeekSet, SeekCur, SeekEnd, io_error, Read, Open,
ReadWrite};
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use io;
use str;
use io::fs::{File, rmdir, mkdir, readdir, rmdir_recursive,
mkdir_recursive, copy, unlink, stat, symlink, link,
readlink, chmod, lstat, change_file_times};
use util;
use path::Path;
use io;
use ops::Drop;
struct TempDir(Path);
impl TempDir {
fn join(&self, path: &str) -> Path {
let TempDir(ref p) = *self;
p.join(path)
}
fn path<'a>(&'a self) -> &'a Path {
let TempDir(ref p) = *self;
p
}
}
impl Drop for TempDir {
fn drop(&mut self) {
// Gee, seeing how we're testing the fs module I sure hope that we
// at least implement this correctly!
let TempDir(ref p) = *self;
io::fs::rmdir_recursive(p);
}
}
pub fn tmpdir() -> TempDir {
use os;
use rand;
let ret = os::tmpdir().join(format!("rust-{}", rand::random::<u32>()));
io::fs::mkdir(&ret, io::UserRWX);
TempDir(ret)
}
iotest!(fn file_test_io_smoke_test() {
let message = "it's alright. have a good time";
let tmpdir = tmpdir();
let filename = &tmpdir.join("file_rt_io_file_test.txt");
{
let mut write_stream = File::open_mode(filename, Open, ReadWrite);
write_stream.write(message.as_bytes());
}
{
let mut read_stream = File::open_mode(filename, Open, Read);
let mut read_buf = [0, .. 1028];
let read_str = match read_stream.read(read_buf).unwrap() {
-1|0 => fail!("shouldn't happen"),
n => str::from_utf8_owned(read_buf.slice_to(n).to_owned()).unwrap()
};
assert_eq!(read_str, message.to_owned());
}
unlink(filename);
})
iotest!(fn invalid_path_raises() {
let tmpdir = tmpdir();
let filename = &tmpdir.join("file_that_does_not_exist.txt");
let mut called = false;
io_error::cond.trap(|_| {
called = true;
}).inside(|| {
let result = File::open_mode(filename, Open, Read);
assert!(result.is_none());
});
assert!(called);
})
iotest!(fn file_test_iounlinking_invalid_path_should_raise_condition() {
let tmpdir = tmpdir();
let filename = &tmpdir.join("file_another_file_that_does_not_exist.txt");
let mut called = false;
io_error::cond.trap(|_| {
called = true;
}).inside(|| unlink(filename));
assert!(called);
})
iotest!(fn file_test_io_non_positional_read() {
let message: &str = "ten-four";
let mut read_mem = [0, .. 8];
let tmpdir = tmpdir();
let filename = &tmpdir.join("file_rt_io_file_test_positional.txt");
{
let mut rw_stream = File::open_mode(filename, Open, ReadWrite);
rw_stream.write(message.as_bytes());
}
{
let mut read_stream = File::open_mode(filename, Open, Read);
{
let read_buf = read_mem.mut_slice(0, 4);
read_stream.read(read_buf);
}
{
let read_buf = read_mem.mut_slice(4, 8);
read_stream.read(read_buf);
}
}
unlink(filename);
let read_str = str::from_utf8(read_mem).unwrap();
assert_eq!(read_str, message);
})
iotest!(fn file_test_io_seek_and_tell_smoke_test() {
let message = "ten-four";
let mut read_mem = [0, .. 4];
let set_cursor = 4 as u64;
let mut tell_pos_pre_read;
let mut tell_pos_post_read;
let tmpdir = tmpdir();
let filename = &tmpdir.join("file_rt_io_file_test_seeking.txt");
{
let mut rw_stream = File::open_mode(filename, Open, ReadWrite);
rw_stream.write(message.as_bytes());
}
{
let mut read_stream = File::open_mode(filename, Open, Read);
read_stream.seek(set_cursor as i64, SeekSet);
tell_pos_pre_read = read_stream.tell();
read_stream.read(read_mem);
tell_pos_post_read = read_stream.tell();
}
unlink(filename);
let read_str = str::from_utf8(read_mem).unwrap();
assert_eq!(read_str, message.slice(4, 8));
assert_eq!(tell_pos_pre_read, set_cursor);
assert_eq!(tell_pos_post_read, message.len() as u64);
})
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iotest!(fn file_test_io_seek_and_write() {
let initial_msg = "food-is-yummy";
let overwrite_msg = "-the-bar!!";
let final_msg = "foo-the-bar!!";
let seek_idx = 3;
let mut read_mem = [0, .. 13];
let tmpdir = tmpdir();
let filename = &tmpdir.join("file_rt_io_file_test_seek_and_write.txt");
{
let mut rw_stream = File::open_mode(filename, Open, ReadWrite);
rw_stream.write(initial_msg.as_bytes());
rw_stream.seek(seek_idx as i64, SeekSet);
rw_stream.write(overwrite_msg.as_bytes());
}
{
let mut read_stream = File::open_mode(filename, Open, Read);
read_stream.read(read_mem);
}
unlink(filename);
let read_str = str::from_utf8(read_mem).unwrap();
assert!(read_str == final_msg.to_owned());
})
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iotest!(fn file_test_io_seek_shakedown() {
use std::str; // 01234567890123
let initial_msg = "qwer-asdf-zxcv";
let chunk_one: &str = "qwer";
let chunk_two: &str = "asdf";
let chunk_three: &str = "zxcv";
let mut read_mem = [0, .. 4];
let tmpdir = tmpdir();
let filename = &tmpdir.join("file_rt_io_file_test_seek_shakedown.txt");
{
let mut rw_stream = File::open_mode(filename, Open, ReadWrite);
rw_stream.write(initial_msg.as_bytes());
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}
{
let mut read_stream = File::open_mode(filename, Open, Read);
read_stream.seek(-4, SeekEnd);
read_stream.read(read_mem);
assert_eq!(str::from_utf8(read_mem).unwrap(), chunk_three);
read_stream.seek(-9, SeekCur);
read_stream.read(read_mem);
assert_eq!(str::from_utf8(read_mem).unwrap(), chunk_two);
read_stream.seek(0, SeekSet);
read_stream.read(read_mem);
assert_eq!(str::from_utf8(read_mem).unwrap(), chunk_one);
}
unlink(filename);
})
iotest!(fn file_test_stat_is_correct_on_is_file() {
let tmpdir = tmpdir();
let filename = &tmpdir.join("file_stat_correct_on_is_file.txt");
{
let mut fs = File::open_mode(filename, Open, ReadWrite);
let msg = "hw";
fs.write(msg.as_bytes());
}
let stat_res = stat(filename);
assert_eq!(stat_res.kind, io::TypeFile);
unlink(filename);
})
iotest!(fn file_test_stat_is_correct_on_is_dir() {
let tmpdir = tmpdir();
let filename = &tmpdir.join("file_stat_correct_on_is_dir");
mkdir(filename, io::UserRWX);
let stat_res = filename.stat();
assert!(stat_res.kind == io::TypeDirectory);
rmdir(filename);
})
iotest!(fn file_test_fileinfo_false_when_checking_is_file_on_a_directory() {
let tmpdir = tmpdir();
let dir = &tmpdir.join("fileinfo_false_on_dir");
mkdir(dir, io::UserRWX);
assert!(dir.is_file() == false);
rmdir(dir);
})
iotest!(fn file_test_fileinfo_check_exists_before_and_after_file_creation() {
let tmpdir = tmpdir();
let file = &tmpdir.join("fileinfo_check_exists_b_and_a.txt");
File::create(file).write(bytes!("foo"));
assert!(file.exists());
unlink(file);
assert!(!file.exists());
})
iotest!(fn file_test_directoryinfo_check_exists_before_and_after_mkdir() {
let tmpdir = tmpdir();
let dir = &tmpdir.join("before_and_after_dir");
assert!(!dir.exists());
mkdir(dir, io::UserRWX);
assert!(dir.exists());
assert!(dir.is_dir());
rmdir(dir);
assert!(!dir.exists());
})
iotest!(fn file_test_directoryinfo_readdir() {
use std::str;
let tmpdir = tmpdir();
let dir = &tmpdir.join("di_readdir");
mkdir(dir, io::UserRWX);
let prefix = "foo";
for n in range(0,3) {
let f = dir.join(format!("{}.txt", n));
let mut w = File::create(&f);
let msg_str = (prefix + n.to_str().to_owned()).to_owned();
let msg = msg_str.as_bytes();
w.write(msg);
}
let files = readdir(dir);
let mut mem = [0u8, .. 4];
for f in files.iter() {
{
let n = f.filestem_str();
File::open(f).read(mem);
let read_str = str::from_utf8(mem).unwrap();
let expected = match n {
None|Some("") => fail!("really shouldn't happen.."),
Some(n) => prefix+n
};
assert_eq!(expected.as_slice(), read_str);
}
unlink(f);
}
rmdir(dir);
})
iotest!(fn recursive_mkdir_slash() {
mkdir_recursive(&Path::new("/"), io::UserRWX);
})
iotest!(fn unicode_path_is_dir() {
assert!(Path::new(".").is_dir());
assert!(!Path::new("test/stdtest/fs.rs").is_dir());
let tmpdir = tmpdir();
let mut dirpath = tmpdir.path().clone();
dirpath.push(format!("test-가一ー你好"));
mkdir(&dirpath, io::UserRWX);
assert!(dirpath.is_dir());
let mut filepath = dirpath;
filepath.push("unicode-file-\uac00\u4e00\u30fc\u4f60\u597d.rs");
File::create(&filepath); // ignore return; touch only
assert!(!filepath.is_dir());
assert!(filepath.exists());
})
iotest!(fn unicode_path_exists() {
assert!(Path::new(".").exists());
assert!(!Path::new("test/nonexistent-bogus-path").exists());
let tmpdir = tmpdir();
let unicode = tmpdir.path();
let unicode = unicode.join(format!("test-각丁ー再见"));
mkdir(&unicode, io::UserRWX);
assert!(unicode.exists());
assert!(!Path::new("test/unicode-bogus-path-각丁ー再见").exists());
})
iotest!(fn copy_file_does_not_exist() {
let from = Path::new("test/nonexistent-bogus-path");
let to = Path::new("test/other-bogus-path");
match io::result(|| copy(&from, &to)) {
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Ok(..) => fail!(),
Err(..) => {
assert!(!from.exists());
assert!(!to.exists());
}
}
})
iotest!(fn copy_file_ok() {
let tmpdir = tmpdir();
let input = tmpdir.join("in.txt");
let out = tmpdir.join("out.txt");
File::create(&input).write(bytes!("hello"));
copy(&input, &out);
let contents = File::open(&out).read_to_end();
assert_eq!(contents.as_slice(), bytes!("hello"));
assert_eq!(input.stat().perm, out.stat().perm);
})
iotest!(fn copy_file_dst_dir() {
let tmpdir = tmpdir();
let out = tmpdir.join("out");
File::create(&out);
match io::result(|| copy(&out, tmpdir.path())) {
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Ok(..) => fail!(), Err(..) => {}
}
})
iotest!(fn copy_file_dst_exists() {
let tmpdir = tmpdir();
let input = tmpdir.join("in");
let output = tmpdir.join("out");
File::create(&input).write("foo".as_bytes());
File::create(&output).write("bar".as_bytes());
copy(&input, &output);
assert_eq!(File::open(&output).read_to_end(),
(bytes!("foo")).to_owned());
})
iotest!(fn copy_file_src_dir() {
let tmpdir = tmpdir();
let out = tmpdir.join("out");
match io::result(|| copy(tmpdir.path(), &out)) {
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Ok(..) => fail!(), Err(..) => {}
}
assert!(!out.exists());
})
iotest!(fn copy_file_preserves_perm_bits() {
let tmpdir = tmpdir();
let input = tmpdir.join("in.txt");
let out = tmpdir.join("out.txt");
File::create(&input);
chmod(&input, io::UserRead);
copy(&input, &out);
assert!(out.stat().perm & io::UserWrite == 0);
chmod(&input, io::UserFile);
chmod(&out, io::UserFile);
})
#[cfg(not(windows))] // FIXME(#10264) operation not permitted?
iotest!(fn symlinks_work() {
let tmpdir = tmpdir();
let input = tmpdir.join("in.txt");
let out = tmpdir.join("out.txt");
File::create(&input).write("foobar".as_bytes());
symlink(&input, &out);
if cfg!(not(windows)) {
assert_eq!(lstat(&out).kind, io::TypeSymlink);
}
assert_eq!(stat(&out).size, stat(&input).size);
assert_eq!(File::open(&out).read_to_end(), (bytes!("foobar")).to_owned());
})
#[cfg(not(windows))] // apparently windows doesn't like symlinks
iotest!(fn symlink_noexist() {
let tmpdir = tmpdir();
// symlinks can point to things that don't exist
symlink(&tmpdir.join("foo"), &tmpdir.join("bar"));
assert!(readlink(&tmpdir.join("bar")).unwrap() == tmpdir.join("foo"));
})
iotest!(fn readlink_not_symlink() {
let tmpdir = tmpdir();
match io::result(|| readlink(tmpdir.path())) {
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Ok(..) => fail!("wanted a failure"),
Err(..) => {}
}
})
iotest!(fn links_work() {
let tmpdir = tmpdir();
let input = tmpdir.join("in.txt");
let out = tmpdir.join("out.txt");
File::create(&input).write("foobar".as_bytes());
link(&input, &out);
if cfg!(not(windows)) {
assert_eq!(lstat(&out).kind, io::TypeFile);
assert_eq!(stat(&out).unstable.nlink, 2);
}
assert_eq!(stat(&out).size, stat(&input).size);
assert_eq!(File::open(&out).read_to_end(), (bytes!("foobar")).to_owned());
// can't link to yourself
match io::result(|| link(&input, &input)) {
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Ok(..) => fail!("wanted a failure"),
Err(..) => {}
}
// can't link to something that doesn't exist
match io::result(|| link(&tmpdir.join("foo"), &tmpdir.join("bar"))) {
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Ok(..) => fail!("wanted a failure"),
Err(..) => {}
}
})
iotest!(fn chmod_works() {
let tmpdir = tmpdir();
let file = tmpdir.join("in.txt");
File::create(&file);
assert!(stat(&file).perm & io::UserWrite == io::UserWrite);
chmod(&file, io::UserRead);
assert!(stat(&file).perm & io::UserWrite == 0);
match io::result(|| chmod(&tmpdir.join("foo"), io::UserRWX)) {
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Ok(..) => fail!("wanted a failure"),
Err(..) => {}
}
chmod(&file, io::UserFile);
})
iotest!(fn sync_doesnt_kill_anything() {
let tmpdir = tmpdir();
let path = tmpdir.join("in.txt");
let mut file = File::open_mode(&path, io::Open, io::ReadWrite).unwrap();
file.fsync();
file.datasync();
file.write(bytes!("foo"));
file.fsync();
file.datasync();
drop(file);
})
iotest!(fn truncate_works() {
let tmpdir = tmpdir();
let path = tmpdir.join("in.txt");
let mut file = File::open_mode(&path, io::Open, io::ReadWrite).unwrap();
file.write(bytes!("foo"));
file.fsync();
// Do some simple things with truncation
assert_eq!(stat(&path).size, 3);
file.truncate(10);
assert_eq!(stat(&path).size, 10);
file.write(bytes!("bar"));
file.fsync();
assert_eq!(stat(&path).size, 10);
assert_eq!(File::open(&path).read_to_end(),
(bytes!("foobar", 0, 0, 0, 0)).to_owned());
// Truncate to a smaller length, don't seek, and then write something.
// Ensure that the intermediate zeroes are all filled in (we're seeked
// past the end of the file).
file.truncate(2);
assert_eq!(stat(&path).size, 2);
file.write(bytes!("wut"));
file.fsync();
assert_eq!(stat(&path).size, 9);
assert_eq!(File::open(&path).read_to_end(),
(bytes!("fo", 0, 0, 0, 0, "wut")).to_owned());
drop(file);
})
iotest!(fn open_flavors() {
let tmpdir = tmpdir();
match io::result(|| File::open_mode(&tmpdir.join("a"), io::Open,
io::Read)) {
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Ok(..) => fail!(), Err(..) => {}
}
File::open_mode(&tmpdir.join("b"), io::Open, io::Write).unwrap();
File::open_mode(&tmpdir.join("c"), io::Open, io::ReadWrite).unwrap();
File::open_mode(&tmpdir.join("d"), io::Append, io::Write).unwrap();
File::open_mode(&tmpdir.join("e"), io::Append, io::ReadWrite).unwrap();
File::open_mode(&tmpdir.join("f"), io::Truncate, io::Write).unwrap();
File::open_mode(&tmpdir.join("g"), io::Truncate, io::ReadWrite).unwrap();
File::create(&tmpdir.join("h")).write("foo".as_bytes());
File::open_mode(&tmpdir.join("h"), io::Open, io::Read).unwrap();
{
let mut f = File::open_mode(&tmpdir.join("h"), io::Open,
io::Read).unwrap();
match io::result(|| f.write("wut".as_bytes())) {
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Ok(..) => fail!(), Err(..) => {}
}
}
assert_eq!(stat(&tmpdir.join("h")).size, 3);
{
let mut f = File::open_mode(&tmpdir.join("h"), io::Append,
io::Write).unwrap();
f.write("bar".as_bytes());
}
assert_eq!(stat(&tmpdir.join("h")).size, 6);
{
let mut f = File::open_mode(&tmpdir.join("h"), io::Truncate,
io::Write).unwrap();
f.write("bar".as_bytes());
}
assert_eq!(stat(&tmpdir.join("h")).size, 3);
})
#[test]
fn utime() {
let tmpdir = tmpdir();
let path = tmpdir.join("a");
File::create(&path);
change_file_times(&path, 1000, 2000);
assert_eq!(path.stat().accessed, 1000);
assert_eq!(path.stat().modified, 2000);
}
#[test]
fn utime_noexist() {
let tmpdir = tmpdir();
match io::result(|| change_file_times(&tmpdir.join("a"), 100, 200)) {
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Ok(..) => fail!(),
Err(..) => {}
}
}
}