Crates.io | lunchbox |
lib.rs | lunchbox |
version | 0.1.4 |
source | src |
created_at | 2022-12-20 04:44:15.340189 |
updated_at | 2023-09-28 16:12:10.457566 |
description | An async virtual filesystem interface. |
homepage | |
repository | https://github.com/vivekpanyam/lunchbox |
max_upload_size | |
id | 741972 |
size | 104,941 |
An async virtual filesystem interface in Rust.
Lunchbox provides a common interface that can be used to interact with any filesystem (e.g. a local FS, in-memory FS, zip filesystem, etc). This interface closely matches tokio::fs::
so it's easy to get started with.
High level features:
Support for read only filesystems and read/write filesystems
A built-in implementation for local filesystems
An async interface
WASM support
Add lunchbox to your Cargo.toml:
[dependencies]
lunchbox = "0.1"
At its core, Lunchbox provides a ReadableFileSystem
and a WritableFileSystem
trait. These traits provide analogues for all the functions available in tokio::fs
.
We'll use the built in LocalFS
, but you can use anything that implements one of the filesystem traits above.
use lunchbox::ReadableFileSystem;
use lunchbox::LocalFS;
// Create a lunchbox filesystem that uses the root of your local filesystem as its root
let local_fs = LocalFS::new()?;
// Create a lunchbox filesystem that uses `/tmp` as its root.
// `/some/path` inside the filesystem would be translated to `/tmp/some/path`
// on your local filesystem
let local_fs = LocalFS::with_base_dir("/tmp").await?;
Note: using LocalFS
requires the localfs
feature
tokio::fs::...
Instead of
tokio::fs::canonicalize("/some/path").await
you'd write
local_fs.canonicalize("/some/path").await
Path
sWe can't use std::path::Path
directly because it contains methods that directly access the filesystem (e.g. exists
) and is not portable across OSs (e.g. a path on Windows is different than a path on Unix).
As an alternative, we use the relative_path crate to give us platform-independent paths. We also provide an extension trait (LunchboxPathUtils
) to add methods like exists
. This is available as lunchbox::path::Path
and lunchbox::path::PathBuf
.
Methods in the lunchbox traits generally accept anything that implements AsRef<lunchbox::path::Path>
. This means you can use str
or String
directly as you would with standard library paths. See the relative_path docs for more details.
In the below methods, note that PathType
is just an alias for AsRef<lunchbox::path::Path> + Send
.
ReadableFileSystem
contains the following methods
// Open a file
async fn open(&self, path: impl PathType) -> Result<Self::FileType>
where
Self::FileType: ReadableFile;
// These are almost identical to tokio::fs::...
async fn canonicalize(&self, path: impl PathType) -> Result<PathBuf>;
async fn metadata(&self, path: impl PathType) -> Result<Metadata>;
async fn read(&self, path: impl PathType) -> Result<Vec<u8>>;
async fn read_dir(&self, path: impl PathType) -> Result</* snip */>;
async fn read_link(&self, path: impl PathType) -> Result<PathBuf>;
async fn read_to_string(&self, path: impl PathType) -> Result<String>;
async fn symlink_metadata(&self, path: impl PathType) -> Result<Metadata>;
WritableFileSystem
contains
// Create a file
async fn create(&self, path: impl PathType) -> Result<Self::FileType>
where
Self::FileType: WritableFile;
// Open a file with options
async fn open_with_opts(
&self,
opts: &OpenOptions,
path: impl PathType,
) -> Result<Self::FileType>
where
Self::FileType: WritableFile;
// These are almost identical to tokio::fs::...
async fn copy(&self, from: impl PathType, to: impl PathType) -> Result<u64>;
async fn create_dir(&self, path: impl PathType) -> Result<()>;
async fn create_dir_all(&self, path: impl PathType) -> Result<()>;
async fn hard_link(&self, src: impl PathType, dst: impl PathType) -> Result<()>;
async fn remove_dir(&self, path: impl PathType) -> Result<()>;
async fn remove_dir_all(&self, path: impl PathType) -> Result<()>;
async fn remove_file(&self, path: impl PathType) -> Result<()>;
async fn rename(&self, from: impl PathType, to: impl PathType) -> Result<()>;
async fn set_permissions(&self, path: impl PathType, perm: Permissions) -> Result<()>;
async fn symlink(&self, src: impl PathType, dst: impl PathType) -> Result<()>;
async fn write(&self, path: impl PathType, contents: impl AsRef<[u8]> + Send) -> Result<()>;
These work with ReadableFile
s and WritableFile
s respectively:
/// A readable file
#[async_trait]
pub trait ReadableFile: AsyncRead
where
Self: Sized,
{
// These are almost identical to tokio::fs::File::...
async fn metadata(&self) -> Result<Metadata>;
async fn try_clone(&self) -> Result<Self>;
}
/// A file that supports both reads and writes
#[async_trait]
pub trait WritableFile: ReadableFile + AsyncWrite {
// These are almost identical to tokio::fs::File::...
async fn sync_all(&self) -> Result<()>;
async fn sync_data(&self) -> Result<()>;
async fn set_len(&self, size: u64) -> Result<()>;
async fn set_permissions(&self, perm: Permissions) -> Result<()>;
}
Note that all WritableFile
s must be ReadableFile
s and all WritableFileSystem
s must be ReadableFileSystem
s as well.
For WASM builds, the Send
and Sync
bounds are removed from all parts of the interface.