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use crate::errors::{HgError, IoErrorContext, IoResultExt};
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use memmap2::{Mmap, MmapOptions};
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use std::io::{ErrorKind, Write};
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use std::path::{Path, PathBuf};
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/// Filesystem access abstraction for the contents of a given "base" diretory
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#[derive(Clone, Copy)]
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pub struct Vfs<'a> {
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pub(crate) base: &'a Path,
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}
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struct FileNotFound(std::io::Error, PathBuf);
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impl Vfs<'_> {
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pub fn join(&self, relative_path: impl AsRef<Path>) -> PathBuf {
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self.base.join(relative_path)
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}
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pub fn symlink_metadata(
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&self,
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relative_path: impl AsRef<Path>,
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) -> Result<std::fs::Metadata, HgError> {
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let path = self.join(relative_path);
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std::fs::symlink_metadata(&path).when_reading_file(&path)
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}
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pub fn read_link(
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&self,
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relative_path: impl AsRef<Path>,
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) -> Result<PathBuf, HgError> {
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let path = self.join(relative_path);
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std::fs::read_link(&path).when_reading_file(&path)
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}
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pub fn read(
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&self,
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relative_path: impl AsRef<Path>,
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) -> Result<Vec<u8>, HgError> {
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let path = self.join(relative_path);
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std::fs::read(&path).when_reading_file(&path)
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}
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/// Returns `Ok(None)` if the file does not exist.
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pub fn try_read(
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&self,
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relative_path: impl AsRef<Path>,
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) -> Result<Option<Vec<u8>>, HgError> {
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match self.read(relative_path) {
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Err(e) => match &e {
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HgError::IoError { error, .. } => match error.kind() {
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ErrorKind::NotFound => Ok(None),
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_ => Err(e),
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},
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_ => Err(e),
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},
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Ok(v) => Ok(Some(v)),
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}
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}
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fn mmap_open_gen(
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&self,
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relative_path: impl AsRef<Path>,
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) -> Result<Result<Mmap, FileNotFound>, HgError> {
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let path = self.join(relative_path);
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let file = match std::fs::File::open(&path) {
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Err(err) => {
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if let ErrorKind::NotFound = err.kind() {
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return Ok(Err(FileNotFound(err, path)));
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};
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return (Err(err)).when_reading_file(&path);
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}
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Ok(file) => file,
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};
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// TODO: what are the safety requirements here?
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let mmap = unsafe { MmapOptions::new().map(&file) }
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.when_reading_file(&path)?;
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Ok(Ok(mmap))
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}
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pub fn mmap_open_opt(
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&self,
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relative_path: impl AsRef<Path>,
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) -> Result<Option<Mmap>, HgError> {
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self.mmap_open_gen(relative_path).map(|res| res.ok())
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}
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pub fn mmap_open(
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&self,
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relative_path: impl AsRef<Path>,
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) -> Result<Mmap, HgError> {
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match self.mmap_open_gen(relative_path)? {
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Err(FileNotFound(err, path)) => Err(err).when_reading_file(&path),
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Ok(res) => Ok(res),
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}
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}
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pub fn rename(
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&self,
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relative_from: impl AsRef<Path>,
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relative_to: impl AsRef<Path>,
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) -> Result<(), HgError> {
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let from = self.join(relative_from);
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let to = self.join(relative_to);
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std::fs::rename(&from, &to)
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.with_context(|| IoErrorContext::RenamingFile { from, to })
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}
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pub fn remove_file(
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&self,
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relative_path: impl AsRef<Path>,
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) -> Result<(), HgError> {
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let path = self.join(relative_path);
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std::fs::remove_file(&path)
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.with_context(|| IoErrorContext::RemovingFile(path))
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}
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#[cfg(unix)]
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pub fn create_symlink(
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&self,
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relative_link_path: impl AsRef<Path>,
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target_path: impl AsRef<Path>,
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) -> Result<(), HgError> {
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let link_path = self.join(relative_link_path);
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std::os::unix::fs::symlink(target_path, &link_path)
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.when_writing_file(&link_path)
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}
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/// Write `contents` into a temporary file, then rename to `relative_path`.
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/// This makes writing to a file "atomic": a reader opening that path will
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/// see either the previous contents of the file or the complete new
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/// content, never a partial write.
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pub fn atomic_write(
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&self,
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relative_path: impl AsRef<Path>,
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contents: &[u8],
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) -> Result<(), HgError> {
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let mut tmp = tempfile::NamedTempFile::new_in(self.base)
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.when_writing_file(self.base)?;
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tmp.write_all(contents)
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.and_then(|()| tmp.flush())
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.when_writing_file(tmp.path())?;
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let path = self.join(relative_path);
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tmp.persist(&path)
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.map_err(|e| e.error)
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.when_writing_file(&path)?;
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Ok(())
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}
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}
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fn fs_metadata(
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path: impl AsRef<Path>,
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) -> Result<Option<std::fs::Metadata>, HgError> {
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let path = path.as_ref();
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match std::fs::metadata(path) {
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Ok(meta) => Ok(Some(meta)),
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Err(error) => match error.kind() {
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// TODO: when we require a Rust version where `NotADirectory` is
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// stable, invert this logic and return None for it and `NotFound`
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// and propagate any other error.
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ErrorKind::PermissionDenied => Err(error).with_context(|| {
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IoErrorContext::ReadingMetadata(path.to_owned())
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}),
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_ => Ok(None),
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},
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}
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}
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pub(crate) fn is_dir(path: impl AsRef<Path>) -> Result<bool, HgError> {
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Ok(fs_metadata(path)?.map_or(false, |meta| meta.is_dir()))
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}
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pub(crate) fn is_file(path: impl AsRef<Path>) -> Result<bool, HgError> {
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Ok(fs_metadata(path)?.map_or(false, |meta| meta.is_file()))
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}
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/// Returns whether the given `path` is on a network file system.
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/// Taken from `cargo`'s codebase.
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#[cfg(target_os = "linux")]
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pub(crate) fn is_on_nfs_mount(path: impl AsRef<Path>) -> bool {
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use std::ffi::CString;
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use std::mem;
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use std::os::unix::prelude::*;
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let path = match CString::new(path.as_ref().as_os_str().as_bytes()) {
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Ok(path) => path,
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Err(_) => return false,
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};
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unsafe {
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let mut buf: libc::statfs = mem::zeroed();
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let r = libc::statfs(path.as_ptr(), &mut buf);
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r == 0 && buf.f_type as u32 == libc::NFS_SUPER_MAGIC as u32
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}
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}
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/// Similar to what Cargo does; although detecting NFS (or non-local
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/// file systems) _should_ be possible on other operating systems,
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/// we'll just assume that mmap() works there, for now; after all,
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/// _some_ functionality is better than a compile error, i.e. none at
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/// all
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#[cfg(not(target_os = "linux"))]
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pub(crate) fn is_on_nfs_mount(_path: impl AsRef<Path>) -> bool {
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false
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}
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