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https://github.com/denoland/deno.git
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28aa489de9
This is the initial support for npm and node specifiers in `deno compile`. The npm packages are included in the binary and read from it via a virtual file system. This also supports the `--node-modules-dir` flag, dependencies specified in a package.json, and npm binary commands (ex. `deno compile --unstable npm:cowsay`) Closes #16632
337 lines
8.3 KiB
Rust
337 lines
8.3 KiB
Rust
// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
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use std::path::Path;
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use std::path::PathBuf;
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use std::rc::Rc;
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use std::sync::Arc;
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use deno_runtime::deno_fs::FileSystem;
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use deno_runtime::deno_fs::FsDirEntry;
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use deno_runtime::deno_fs::FsFileType;
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use deno_runtime::deno_fs::OpenOptions;
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use deno_runtime::deno_fs::RealFs;
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use deno_runtime::deno_io::fs::File;
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use deno_runtime::deno_io::fs::FsError;
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use deno_runtime::deno_io::fs::FsResult;
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use deno_runtime::deno_io::fs::FsStat;
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use super::virtual_fs::FileBackedVfs;
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#[derive(Debug, Clone)]
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pub struct DenoCompileFileSystem(Arc<FileBackedVfs>);
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impl DenoCompileFileSystem {
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pub fn new(vfs: FileBackedVfs) -> Self {
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Self(Arc::new(vfs))
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}
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fn error_if_in_vfs(&self, path: &Path) -> FsResult<()> {
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if self.0.is_path_within(path) {
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Err(FsError::NotSupported)
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} else {
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Ok(())
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}
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}
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fn copy_to_real_path(&self, oldpath: &Path, newpath: &Path) -> FsResult<()> {
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let old_file = self.0.file_entry(oldpath)?;
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let old_file_bytes = self.0.read_file_all(old_file)?;
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RealFs.write_file_sync(
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newpath,
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OpenOptions {
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read: false,
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write: true,
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create: true,
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truncate: true,
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append: false,
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create_new: false,
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mode: None,
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},
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&old_file_bytes,
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)
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}
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}
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#[async_trait::async_trait(?Send)]
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impl FileSystem for DenoCompileFileSystem {
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fn cwd(&self) -> FsResult<PathBuf> {
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RealFs.cwd()
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}
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fn tmp_dir(&self) -> FsResult<PathBuf> {
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RealFs.tmp_dir()
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}
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fn chdir(&self, path: &Path) -> FsResult<()> {
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self.error_if_in_vfs(path)?;
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RealFs.chdir(path)
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}
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fn umask(&self, mask: Option<u32>) -> FsResult<u32> {
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RealFs.umask(mask)
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}
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fn open_sync(
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&self,
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path: &Path,
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options: OpenOptions,
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) -> FsResult<Rc<dyn File>> {
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if self.0.is_path_within(path) {
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Ok(self.0.open_file(path)?)
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} else {
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RealFs.open_sync(path, options)
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}
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}
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async fn open_async(
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&self,
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path: PathBuf,
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options: OpenOptions,
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) -> FsResult<Rc<dyn File>> {
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if self.0.is_path_within(&path) {
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Ok(self.0.open_file(&path)?)
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} else {
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RealFs.open_async(path, options).await
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}
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}
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fn mkdir_sync(
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&self,
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path: &Path,
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recursive: bool,
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mode: u32,
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) -> FsResult<()> {
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self.error_if_in_vfs(path)?;
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RealFs.mkdir_sync(path, recursive, mode)
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}
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async fn mkdir_async(
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&self,
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path: PathBuf,
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recursive: bool,
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mode: u32,
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) -> FsResult<()> {
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self.error_if_in_vfs(&path)?;
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RealFs.mkdir_async(path, recursive, mode).await
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}
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fn chmod_sync(&self, path: &Path, mode: u32) -> FsResult<()> {
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self.error_if_in_vfs(path)?;
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RealFs.chmod_sync(path, mode)
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}
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async fn chmod_async(&self, path: PathBuf, mode: u32) -> FsResult<()> {
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self.error_if_in_vfs(&path)?;
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RealFs.chmod_async(path, mode).await
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}
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fn chown_sync(
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&self,
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path: &Path,
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uid: Option<u32>,
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gid: Option<u32>,
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) -> FsResult<()> {
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self.error_if_in_vfs(path)?;
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RealFs.chown_sync(path, uid, gid)
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}
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async fn chown_async(
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&self,
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path: PathBuf,
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uid: Option<u32>,
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gid: Option<u32>,
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) -> FsResult<()> {
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self.error_if_in_vfs(&path)?;
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RealFs.chown_async(path, uid, gid).await
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}
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fn remove_sync(&self, path: &Path, recursive: bool) -> FsResult<()> {
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self.error_if_in_vfs(path)?;
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RealFs.remove_sync(path, recursive)
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}
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async fn remove_async(&self, path: PathBuf, recursive: bool) -> FsResult<()> {
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self.error_if_in_vfs(&path)?;
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RealFs.remove_async(path, recursive).await
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}
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fn copy_file_sync(&self, oldpath: &Path, newpath: &Path) -> FsResult<()> {
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self.error_if_in_vfs(newpath)?;
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if self.0.is_path_within(oldpath) {
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self.copy_to_real_path(oldpath, newpath)
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} else {
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RealFs.copy_file_sync(oldpath, newpath)
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}
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}
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async fn copy_file_async(
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&self,
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oldpath: PathBuf,
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newpath: PathBuf,
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) -> FsResult<()> {
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self.error_if_in_vfs(&newpath)?;
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if self.0.is_path_within(&oldpath) {
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let fs = self.clone();
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tokio::task::spawn_blocking(move || {
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fs.copy_to_real_path(&oldpath, &newpath)
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})
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.await?
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} else {
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RealFs.copy_file_async(oldpath, newpath).await
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}
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}
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fn stat_sync(&self, path: &Path) -> FsResult<FsStat> {
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if self.0.is_path_within(path) {
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Ok(self.0.stat(path)?)
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} else {
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RealFs.stat_sync(path)
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}
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}
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async fn stat_async(&self, path: PathBuf) -> FsResult<FsStat> {
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if self.0.is_path_within(&path) {
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Ok(self.0.stat(&path)?)
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} else {
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RealFs.stat_async(path).await
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}
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}
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fn lstat_sync(&self, path: &Path) -> FsResult<FsStat> {
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if self.0.is_path_within(path) {
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Ok(self.0.lstat(path)?)
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} else {
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RealFs.lstat_sync(path)
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}
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}
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async fn lstat_async(&self, path: PathBuf) -> FsResult<FsStat> {
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if self.0.is_path_within(&path) {
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Ok(self.0.lstat(&path)?)
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} else {
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RealFs.lstat_async(path).await
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}
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}
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fn realpath_sync(&self, path: &Path) -> FsResult<PathBuf> {
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if self.0.is_path_within(path) {
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Ok(self.0.canonicalize(path)?)
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} else {
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RealFs.realpath_sync(path)
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}
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}
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async fn realpath_async(&self, path: PathBuf) -> FsResult<PathBuf> {
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if self.0.is_path_within(&path) {
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Ok(self.0.canonicalize(&path)?)
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} else {
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RealFs.realpath_async(path).await
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}
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}
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fn read_dir_sync(&self, path: &Path) -> FsResult<Vec<FsDirEntry>> {
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if self.0.is_path_within(path) {
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Ok(self.0.read_dir(path)?)
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} else {
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RealFs.read_dir_sync(path)
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}
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}
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async fn read_dir_async(&self, path: PathBuf) -> FsResult<Vec<FsDirEntry>> {
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if self.0.is_path_within(&path) {
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Ok(self.0.read_dir(&path)?)
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} else {
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RealFs.read_dir_async(path).await
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}
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}
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fn rename_sync(&self, oldpath: &Path, newpath: &Path) -> FsResult<()> {
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self.error_if_in_vfs(oldpath)?;
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self.error_if_in_vfs(newpath)?;
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RealFs.rename_sync(oldpath, newpath)
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}
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async fn rename_async(
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&self,
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oldpath: PathBuf,
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newpath: PathBuf,
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) -> FsResult<()> {
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self.error_if_in_vfs(&oldpath)?;
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self.error_if_in_vfs(&newpath)?;
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RealFs.rename_async(oldpath, newpath).await
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}
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fn link_sync(&self, oldpath: &Path, newpath: &Path) -> FsResult<()> {
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self.error_if_in_vfs(oldpath)?;
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self.error_if_in_vfs(newpath)?;
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RealFs.link_sync(oldpath, newpath)
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}
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async fn link_async(
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&self,
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oldpath: PathBuf,
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newpath: PathBuf,
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) -> FsResult<()> {
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self.error_if_in_vfs(&oldpath)?;
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self.error_if_in_vfs(&newpath)?;
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RealFs.link_async(oldpath, newpath).await
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}
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fn symlink_sync(
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&self,
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oldpath: &Path,
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newpath: &Path,
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file_type: Option<FsFileType>,
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) -> FsResult<()> {
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self.error_if_in_vfs(oldpath)?;
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self.error_if_in_vfs(newpath)?;
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RealFs.symlink_sync(oldpath, newpath, file_type)
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}
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async fn symlink_async(
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&self,
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oldpath: PathBuf,
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newpath: PathBuf,
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file_type: Option<FsFileType>,
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) -> FsResult<()> {
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self.error_if_in_vfs(&oldpath)?;
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self.error_if_in_vfs(&newpath)?;
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RealFs.symlink_async(oldpath, newpath, file_type).await
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}
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fn read_link_sync(&self, path: &Path) -> FsResult<PathBuf> {
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if self.0.is_path_within(path) {
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Ok(self.0.read_link(path)?)
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} else {
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RealFs.read_link_sync(path)
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}
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}
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async fn read_link_async(&self, path: PathBuf) -> FsResult<PathBuf> {
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if self.0.is_path_within(&path) {
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Ok(self.0.read_link(&path)?)
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} else {
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RealFs.read_link_async(path).await
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}
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}
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fn truncate_sync(&self, path: &Path, len: u64) -> FsResult<()> {
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self.error_if_in_vfs(path)?;
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RealFs.truncate_sync(path, len)
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}
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async fn truncate_async(&self, path: PathBuf, len: u64) -> FsResult<()> {
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self.error_if_in_vfs(&path)?;
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RealFs.truncate_async(path, len).await
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}
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fn utime_sync(
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&self,
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path: &Path,
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atime_secs: i64,
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atime_nanos: u32,
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mtime_secs: i64,
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mtime_nanos: u32,
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) -> FsResult<()> {
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self.error_if_in_vfs(path)?;
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RealFs.utime_sync(path, atime_secs, atime_nanos, mtime_secs, mtime_nanos)
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}
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async fn utime_async(
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&self,
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path: PathBuf,
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atime_secs: i64,
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atime_nanos: u32,
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mtime_secs: i64,
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mtime_nanos: u32,
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) -> FsResult<()> {
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self.error_if_in_vfs(&path)?;
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RealFs
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.utime_async(path, atime_secs, atime_nanos, mtime_secs, mtime_nanos)
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.await
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}
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}
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