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denoland-deno/ext/fs/in_memory_fs.rs

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// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
// Allow using Arc for this module.
#![allow(clippy::disallowed_types)]
use std::collections::hash_map::Entry;
use std::collections::HashMap;
use std::io::Error;
use std::io::ErrorKind;
use std::path::Path;
use std::path::PathBuf;
use std::rc::Rc;
use std::sync::Arc;
use deno_core::normalize_path;
use deno_core::parking_lot::Mutex;
use deno_io::fs::File;
use deno_io::fs::FsError;
use deno_io::fs::FsResult;
use deno_io::fs::FsStat;
use crate::interface::AccessCheckCb;
use crate::interface::FsDirEntry;
use crate::interface::FsFileType;
use crate::FileSystem;
use crate::OpenOptions;
#[derive(Debug)]
enum PathEntry {
Dir,
File(Vec<u8>),
}
/// A very basic in-memory file system useful for swapping out in
/// the place of a RealFs for testing purposes.
///
/// Please develop this out as you need functionality.
#[derive(Debug, Default)]
pub struct InMemoryFs {
entries: Mutex<HashMap<PathBuf, Arc<PathEntry>>>,
}
impl InMemoryFs {
pub fn setup_text_files(&self, files: Vec<(String, String)>) {
for (path, text) in files {
let path = PathBuf::from(path);
self.mkdir_sync(path.parent().unwrap(), true, 0).unwrap();
self
.write_file_sync(
&path,
OpenOptions::write(true, false, false, None),
None,
&text.into_bytes(),
)
.unwrap();
}
}
fn get_entry(&self, path: &Path) -> Option<Arc<PathEntry>> {
let path = normalize_path(path);
self.entries.lock().get(&path).cloned()
}
}
#[async_trait::async_trait(?Send)]
impl FileSystem for InMemoryFs {
fn cwd(&self) -> FsResult<PathBuf> {
Err(FsError::NotSupported)
}
fn tmp_dir(&self) -> FsResult<PathBuf> {
Err(FsError::NotSupported)
}
fn chdir(&self, _path: &Path) -> FsResult<()> {
Err(FsError::NotSupported)
}
fn umask(&self, _mask: Option<u32>) -> FsResult<u32> {
Err(FsError::NotSupported)
}
fn open_sync(
&self,
_path: &Path,
_options: OpenOptions,
_access_check: Option<AccessCheckCb>,
) -> FsResult<Rc<dyn File>> {
Err(FsError::NotSupported)
}
async fn open_async<'a>(
&'a self,
path: PathBuf,
options: OpenOptions,
access_check: Option<AccessCheckCb<'a>>,
) -> FsResult<Rc<dyn File>> {
self.open_sync(&path, options, access_check)
}
fn mkdir_sync(
&self,
path: &Path,
recursive: bool,
_mode: u32,
) -> FsResult<()> {
let path = normalize_path(path);
if let Some(parent) = path.parent() {
let entry = self.entries.lock().get(parent).cloned();
match entry {
Some(entry) => match &*entry {
PathEntry::File(_) => {
return Err(FsError::Io(Error::new(
ErrorKind::InvalidInput,
"Parent is a file",
)))
}
PathEntry::Dir => {}
},
None => {
if recursive {
self.mkdir_sync(parent, true, 0)?;
} else {
return Err(FsError::Io(Error::new(
ErrorKind::NotFound,
"Not found",
)));
}
}
}
}
let entry = self.entries.lock().get(&path).cloned();
match entry {
Some(entry) => match &*entry {
PathEntry::File(_) => Err(FsError::Io(Error::new(
ErrorKind::InvalidInput,
"Is a file",
))),
PathEntry::Dir => Ok(()),
},
None => {
self.entries.lock().insert(path, Arc::new(PathEntry::Dir));
Ok(())
}
}
}
async fn mkdir_async(
&self,
path: PathBuf,
recursive: bool,
mode: u32,
) -> FsResult<()> {
self.mkdir_sync(&path, recursive, mode)
}
fn chmod_sync(&self, _path: &Path, _mode: u32) -> FsResult<()> {
Err(FsError::NotSupported)
}
async fn chmod_async(&self, path: PathBuf, mode: u32) -> FsResult<()> {
self.chmod_sync(&path, mode)
}
fn chown_sync(
&self,
_path: &Path,
_uid: Option<u32>,
_gid: Option<u32>,
) -> FsResult<()> {
Err(FsError::NotSupported)
}
async fn chown_async(
&self,
path: PathBuf,
uid: Option<u32>,
gid: Option<u32>,
) -> FsResult<()> {
self.chown_sync(&path, uid, gid)
}
fn remove_sync(&self, _path: &Path, _recursive: bool) -> FsResult<()> {
Err(FsError::NotSupported)
}
async fn remove_async(&self, path: PathBuf, recursive: bool) -> FsResult<()> {
self.remove_sync(&path, recursive)
}
fn copy_file_sync(&self, _from: &Path, _to: &Path) -> FsResult<()> {
Err(FsError::NotSupported)
}
async fn copy_file_async(&self, from: PathBuf, to: PathBuf) -> FsResult<()> {
self.copy_file_sync(&from, &to)
}
fn cp_sync(&self, _from: &Path, _to: &Path) -> FsResult<()> {
Err(FsError::NotSupported)
}
async fn cp_async(&self, from: PathBuf, to: PathBuf) -> FsResult<()> {
self.cp_sync(&from, &to)
}
fn stat_sync(&self, path: &Path) -> FsResult<FsStat> {
let entry = self.get_entry(path);
match entry {
Some(entry) => match &*entry {
PathEntry::Dir => Ok(FsStat {
is_file: false,
is_directory: true,
is_symlink: false,
size: 0,
mtime: None,
atime: None,
birthtime: None,
dev: 0,
ino: 0,
mode: 0,
nlink: 0,
uid: 0,
gid: 0,
rdev: 0,
blksize: 0,
blocks: 0,
is_block_device: false,
is_char_device: false,
is_fifo: false,
is_socket: false,
}),
PathEntry::File(data) => Ok(FsStat {
is_file: true,
is_directory: false,
is_symlink: false,
size: data.len() as u64,
mtime: None,
atime: None,
birthtime: None,
dev: 0,
ino: 0,
mode: 0,
nlink: 0,
uid: 0,
gid: 0,
rdev: 0,
blksize: 0,
blocks: 0,
is_block_device: false,
is_char_device: false,
is_fifo: false,
is_socket: false,
}),
},
None => Err(FsError::Io(Error::new(ErrorKind::NotFound, "Not found"))),
}
}
async fn stat_async(&self, path: PathBuf) -> FsResult<FsStat> {
self.stat_sync(&path)
}
fn lstat_sync(&self, _path: &Path) -> FsResult<FsStat> {
Err(FsError::NotSupported)
}
async fn lstat_async(&self, path: PathBuf) -> FsResult<FsStat> {
self.lstat_sync(&path)
}
fn realpath_sync(&self, _path: &Path) -> FsResult<PathBuf> {
Err(FsError::NotSupported)
}
async fn realpath_async(&self, path: PathBuf) -> FsResult<PathBuf> {
self.realpath_sync(&path)
}
fn read_dir_sync(&self, _path: &Path) -> FsResult<Vec<FsDirEntry>> {
Err(FsError::NotSupported)
}
async fn read_dir_async(&self, path: PathBuf) -> FsResult<Vec<FsDirEntry>> {
self.read_dir_sync(&path)
}
fn rename_sync(&self, _oldpath: &Path, _newpath: &Path) -> FsResult<()> {
Err(FsError::NotSupported)
}
async fn rename_async(
&self,
oldpath: PathBuf,
newpath: PathBuf,
) -> FsResult<()> {
self.rename_sync(&oldpath, &newpath)
}
fn link_sync(&self, _oldpath: &Path, _newpath: &Path) -> FsResult<()> {
Err(FsError::NotSupported)
}
async fn link_async(
&self,
oldpath: PathBuf,
newpath: PathBuf,
) -> FsResult<()> {
self.link_sync(&oldpath, &newpath)
}
fn symlink_sync(
&self,
_oldpath: &Path,
_newpath: &Path,
_file_type: Option<FsFileType>,
) -> FsResult<()> {
Err(FsError::NotSupported)
}
async fn symlink_async(
&self,
oldpath: PathBuf,
newpath: PathBuf,
file_type: Option<FsFileType>,
) -> FsResult<()> {
self.symlink_sync(&oldpath, &newpath, file_type)
}
fn read_link_sync(&self, _path: &Path) -> FsResult<PathBuf> {
Err(FsError::NotSupported)
}
async fn read_link_async(&self, path: PathBuf) -> FsResult<PathBuf> {
self.read_link_sync(&path)
}
fn truncate_sync(&self, _path: &Path, _len: u64) -> FsResult<()> {
Err(FsError::NotSupported)
}
async fn truncate_async(&self, path: PathBuf, len: u64) -> FsResult<()> {
self.truncate_sync(&path, len)
}
fn utime_sync(
&self,
_path: &Path,
_atime_secs: i64,
_atime_nanos: u32,
_mtime_secs: i64,
_mtime_nanos: u32,
) -> FsResult<()> {
Err(FsError::NotSupported)
}
async fn utime_async(
&self,
path: PathBuf,
atime_secs: i64,
atime_nanos: u32,
mtime_secs: i64,
mtime_nanos: u32,
) -> FsResult<()> {
self.utime_sync(&path, atime_secs, atime_nanos, mtime_secs, mtime_nanos)
}
fn write_file_sync(
&self,
path: &Path,
options: OpenOptions,
_access_check: Option<AccessCheckCb>,
data: &[u8],
) -> FsResult<()> {
let path = normalize_path(path);
let has_parent_dir = path
.parent()
.and_then(|parent| self.get_entry(parent))
.map(|e| matches!(*e, PathEntry::Dir))
.unwrap_or(false);
if !has_parent_dir {
return Err(FsError::Io(Error::new(
ErrorKind::NotFound,
"Parent directory does not exist",
)));
}
let mut entries = self.entries.lock();
let entry = entries.entry(path.clone());
match entry {
Entry::Occupied(mut entry) => {
if let PathEntry::File(existing_data) = &**entry.get() {
if options.create_new {
return Err(FsError::Io(Error::new(
ErrorKind::AlreadyExists,
"File already exists",
)));
}
if options.append {
let mut new_data = existing_data.clone();
new_data.extend_from_slice(data);
entry.insert(Arc::new(PathEntry::File(new_data)));
} else {
entry.insert(Arc::new(PathEntry::File(data.to_vec())));
}
Ok(())
} else {
Err(FsError::Io(Error::new(
ErrorKind::InvalidInput,
"Not a file",
)))
}
}
Entry::Vacant(entry) => {
entry.insert(Arc::new(PathEntry::File(data.to_vec())));
Ok(())
}
}
}
async fn write_file_async<'a>(
&'a self,
path: PathBuf,
options: OpenOptions,
access_check: Option<AccessCheckCb<'a>>,
data: Vec<u8>,
) -> FsResult<()> {
self.write_file_sync(&path, options, access_check, &data)
}
fn read_file_sync(
&self,
path: &Path,
_access_check: Option<AccessCheckCb>,
) -> FsResult<Vec<u8>> {
let entry = self.get_entry(path);
match entry {
Some(entry) => match &*entry {
PathEntry::File(data) => Ok(data.clone()),
PathEntry::Dir => Err(FsError::Io(Error::new(
ErrorKind::InvalidInput,
"Is a directory",
))),
},
None => Err(FsError::Io(Error::new(ErrorKind::NotFound, "Not found"))),
}
}
async fn read_file_async<'a>(
&'a self,
path: PathBuf,
access_check: Option<AccessCheckCb<'a>>,
) -> FsResult<Vec<u8>> {
self.read_file_sync(&path, access_check)
}
}