Crates.io | typed-path |
lib.rs | typed-path |
version | 0.9.3 |
source | src |
created_at | 2022-08-25 03:16:36.760537 |
updated_at | 2024-10-15 18:45:20.021002 |
description | Provides typed variants of Path and PathBuf for Unix and Windows |
homepage | https://github.com/chipsenkbeil/typed-path |
repository | https://github.com/chipsenkbeil/typed-path |
max_upload_size | |
id | 651917 |
size | 665,422 |
Provides typed variants of Path
and PathBuf
for
Unix and Windows.
[dependencies]
typed-path = "0.9"
As of version 0.7
, this library also supports no_std
environments that
depend on alloc
. To build in this manner, remove the default std
feature:
[dependencies]
typed-path = { version = "...", default-features = false }
Some applications need to manipulate Windows or UNIX paths on different platforms, for a variety of reasons: constructing portable file formats, parsing files from other platforms, handling archive formats, working with certain network protocols, and so on.
-- Josh Triplett
Check out this issue of a discussion for this. The functionality actually exists within the standard library, but is not exposed!
This means that parsing a path like C:\path\to\file.txt
will be parsed
differently by std::path::Path
depending on which platform you are
on!
use std::path::Path;
// On Windows, this prints out:
//
// * Prefix(PrefixComponent { raw: "C:", parsed: Disk(67) })
// * RootDir
// * Normal("path")
// * Normal("to")
// * Normal("file.txt")]
//
// But on Unix, this prints out:
//
// * Normal("C:\\path\\to\\file.txt")
let path = Path::new(r"C:\path\to\file.txt");
for component in path.components() {
println!("* {:?}", component);
}
The library provides a generic Path<T>
and PathBuf<T>
that use [u8]
and Vec<u8>
underneath instead of OsStr
and OsString
. An
encoding generic type is provided to dictate how the underlying bytes are
parsed in order to support consistent path functionality no matter what
operating system you are compiling against!
use typed_path::WindowsPath;
// On all platforms, this prints out:
//
// * Prefix(PrefixComponent { raw: "C:", parsed: Disk(67) })
// * RootDir
// * Normal("path")
// * Normal("to")
// * Normal("file.txt")]
//
let path = WindowsPath::new(r"C:\path\to\file.txt");
for component in path.components() {
println!("* {:?}", component);
}
Alongside the byte paths, this library also supports UTF8-enforced paths
through Utf8Path<T>
and Utf8PathBuf<T>
, which
internally use str
and String
. An encoding generic type is provided to
dictate how the underlying characters are parsed in order to support consistent
path functionality no matter what operating system you are compiling against!
use typed_path::Utf8WindowsPath;
// On all platforms, this prints out:
//
// * Prefix(Utf8WindowsPrefixComponent { raw: "C:", parsed: Disk(67) })
// * RootDir
// * Normal("path")
// * Normal("to")
// * Normal("file.txt")]
//
let path = Utf8WindowsPath::new(r"C:\path\to\file.txt");
for component in path.components() {
println!("* {:?}", component);
}
When working with user-defined paths, there is an additional layer of defense needed to prevent abuse to avoid path traversal attacks and other risks.
To that end, you can use PathBuf::push_checked
and Path::join_checked
(and equivalents) to ensure that the paths being created do not alter pre-existing paths in unexpected ways.
use typed_path::{CheckedPathError, Path, PathBuf, UnixEncoding};
let path = Path::<UnixEncoding>::new("/etc");
// A valid path can be joined onto the existing one
assert_eq!(path.join_checked("passwd"), Ok(PathBuf::from("/etc/passwd")));
// An invalid path will result in an error
assert_eq!(
path.join_checked("/sneaky/replacement"),
Err(CheckedPathError::UnexpectedRoot)
);
let mut path = PathBuf::<UnixEncoding>::from("/etc");
// Pushing a relative path that contains parent directory references that cannot be
// resolved within the path is considered an error as this is considered a path
// traversal attack!
assert_eq!(
path.push_checked(".."),
Err(CheckedPathError::PathTraversalAttack)
);
assert_eq!(path, PathBuf::from("/etc"));
// Pushing an absolute path will fail with an error
assert_eq!(
path.push_checked("/sneaky/replacement"),
Err(CheckedPathError::UnexpectedRoot)
);
assert_eq!(path, PathBuf::from("/etc"));
// Pushing a relative path that is safe will succeed
assert!(path.push_checked("abc/../def").is_ok());
assert_eq!(path, PathBuf::from("/etc/abc/../def"));
There may be times in which you need to convert between encodings such as when
you want to load a native path and convert it into another format. In that
case, you can use the with_encoding
method (or specific variants like
with_unix_encoding
and with_windows_encoding
) to convert a Path
or Utf8Path
into their respective PathBuf
and
Utf8PathBuf
with an explicit encoding:
use typed_path::{Utf8Path, Utf8UnixEncoding, Utf8WindowsEncoding};
// Convert from Unix to Windows
let unix_path = Utf8Path::<Utf8UnixEncoding>::new("/tmp/foo.txt");
let windows_path = unix_path.with_encoding::<Utf8WindowsEncoding>();
assert_eq!(windows_path, Utf8Path::<Utf8WindowsEncoding>::new(r"\tmp\foo.txt"));
// Converting from Windows to Unix will drop any prefix
let windows_path = Utf8Path::<Utf8WindowsEncoding>::new(r"C:\tmp\foo.txt");
let unix_path = windows_path.with_encoding::<Utf8UnixEncoding>();
assert_eq!(unix_path, Utf8Path::<Utf8UnixEncoding>::new(r"/tmp/foo.txt"));
// Converting to itself should retain everything
let path = Utf8Path::<Utf8WindowsEncoding>::new(r"C:\tmp\foo.txt");
assert_eq!(
path.with_encoding::<Utf8WindowsEncoding>(),
Utf8Path::<Utf8WindowsEncoding>::new(r"C:\tmp\foo.txt"),
);
Like with pushing and joining paths using checked variants, we can also ensure that paths created from changing encodings are still valid:
use typed_path::{CheckedPathError, Utf8Path, Utf8UnixEncoding, Utf8WindowsEncoding};
// Convert from Unix to Windows
let unix_path = Utf8Path::<Utf8UnixEncoding>::new("/tmp/foo.txt");
let windows_path = unix_path.with_encoding_checked::<Utf8WindowsEncoding>().unwrap();
assert_eq!(windows_path, Utf8Path::<Utf8WindowsEncoding>::new(r"\tmp\foo.txt"));
// Convert from Unix to Windows will fail if there are characters that are valid in Unix but not in Windows
let unix_path = Utf8Path::<Utf8UnixEncoding>::new("/tmp/|invalid|/foo.txt");
assert_eq!(
unix_path.with_encoding_checked::<Utf8WindowsEncoding>(),
Err(CheckedPathError::InvalidFilename),
);
In the above examples, we were using paths where the encoding (Unix or Windows)
was known at compile time. There may be situations where we need runtime
support to decide and switch between encodings. For that, this crate provides
the TypedPath
and TypedPathBuf
enumerations
(and their Utf8TypedPath
and
Utf8TypedPathBuf
variations):
use typed_path::Utf8TypedPath;
// Derive the path by determining if it is Unix or Windows
let path = Utf8TypedPath::derive(r"C:\path\to\file.txt");
assert!(path.is_windows());
// Change the encoding to Unix
let path = path.with_unix_encoding();
assert_eq!(path, "/path/to/file.txt");
Alongside implementing the standard methods associated with Path
and PathBuf
from the standard library, this crate also
implements several additional methods including the ability to normalize a path
by resolving .
and ..
without the need to have the path exist.
use typed_path::Utf8UnixPath;
assert_eq!(
Utf8UnixPath::new("foo/bar//baz/./asdf/quux/..").normalize(),
Utf8UnixPath::new("foo/bar/baz/asdf"),
);
In addition, you can leverage absolutize
to convert a path to an absolute
form by prepending the current working directory if the path is relative and
then normalizing it (requires std
feature):
use typed_path::{utils, Utf8UnixPath};
// With an absolute path, it is just normalized
// NOTE: This requires `std` feature, otherwise `absolutize` is missing!
let path = Utf8UnixPath::new("/a/b/../c/./d");
assert_eq!(path.absolutize().unwrap(), Utf8UnixPath::new("/a/c/d"));
// With a relative path, it is first joined with the current working directory
// and then normalized
// NOTE: This requires `std` feature, otherwise `utf8_current_dir` and
// `absolutize` are missing!
let cwd = utils::utf8_current_dir().unwrap().with_unix_encoding();
let path = cwd.join(Utf8UnixPath::new("a/b/../c/./d"));
assert_eq!(path.absolutize().unwrap(), cwd.join(Utf8UnixPath::new("a/c/d")));
Helper functions are available in the utils
module (requires std
feature).
Today, there are three mirrored methods to those found in
std::env
:
Each has an implementation to produce a NativePathBuf
and a
Utf8NativePathBuf
.
// Retrieves the current directory as a NativePathBuf:
//
// * For Unix family, this would be PathBuf<UnixEncoding>
// * For Windows family, this would be PathBuf<WindowsEncoding>
//
// NOTE: This requires `std` feature, otherwise `current_dir` is missing!
let _cwd = typed_path::utils::current_dir().unwrap();
// Retrieves the current directory as a Utf8NativePathBuf:
//
// * For Unix family, this would be Utf8PathBuf<Utf8UnixEncoding>
// * For Windows family, this would be Utf8PathBuf<Utf8WindowsEncoding>
//
// NOTE: This requires `std` feature, otherwise `utf8_current_dir` is missing!
let _utf8_cwd = typed_path::utils::utf8_current_dir().unwrap();
// Returns the full filesystem path of the current running executable as a NativePathBuf:
//
// * For Unix family, this would be PathBuf<UnixEncoding>
// * For Windows family, this would be PathBuf<WindowsEncoding>
//
// NOTE: This requires `std` feature, otherwise `current_exe` is missing!
let _exe = typed_path::utils::current_exe().unwrap();
// Returns the full filesystem path of the current running executable as a Utf8NativePathBuf:
//
// * For Unix family, this would be Utf8PathBuf<Utf8UnixEncoding>
// * For Windows family, this would be Utf8PathBuf<Utf8WindowsEncoding>
//
// NOTE: This requires `std` feature, otherwise `utf8_current_exe` is missing!
let _utf8_exe = typed_path::utils::utf8_current_exe().unwrap();
// Returns the path of a temporary directory as a NativePathBuf:
//
// * For Unix family, this would be PathBuf<UnixEncoding>
// * For Windows family, this would be PathBuf<WindowsEncoding>
//
// NOTE: This requires `std` feature, otherwise `temp_dir` is missing!
let _temp_dir = typed_path::utils::temp_dir().unwrap();
// Returns the path of a temporary directory as a Utf8NativePathBuf:
//
// * For Unix family, this would be Utf8PathBuf<Utf8UnixEncoding>
// * For Windows family, this would be Utf8PathBuf<Utf8WindowsEncoding>
//
// NOTE: This requires `std` feature, otherwise `utf8_temp_dir` is missing!
let _utf8_temp_dir = typed_path::utils::utf8_temp_dir().unwrap();
This project is licensed under either of
Apache License, Version 2.0, (LICENSE-APACHE or apache-license) MIT license (LICENSE-MIT or mit-license) at your option.