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//! Various utilities for working with files and paths.
use anyhow::{Context, Result};
use filetime::FileTime;
use std::env;
use std::ffi::{OsStr, OsString};
use std::fs::{self, File, Metadata, OpenOptions};
use std::io;
use std::io::prelude::*;
use std::iter;
use std::path::{Component, Path, PathBuf};
use tempfile::Builder as TempFileBuilder;
/// Joins paths into a string suitable for the `PATH` environment variable.
///
/// This is equivalent to [`std::env::join_paths`], but includes a more
/// detailed error message. The given `env` argument is the name of the
/// environment variable this is will be used for, which is included in the
/// error message.
pub fn join_paths<T: AsRef<OsStr>>(paths: &[T], env: &str) -> Result<OsString> {
env::join_paths(paths.iter()).with_context(|| {
let mut message = format!(
"failed to join paths from `${env}` together\n\n\
Check if any of path segments listed below contain an \
unterminated quote character or path separator:"
);
for path in paths {
use std::fmt::Write;
write!(&mut message, "\n {:?}", Path::new(path)).unwrap();
}
message
})
}
/// Returns the name of the environment variable used for searching for
/// dynamic libraries.
pub fn dylib_path_envvar() -> &'static str {
if cfg!(windows) {
"PATH"
} else if cfg!(target_os = "macos") {
// When loading and linking a dynamic library or bundle, dlopen
// searches in LD_LIBRARY_PATH, DYLD_LIBRARY_PATH, PWD, and
// DYLD_FALLBACK_LIBRARY_PATH.
// In the Mach-O format, a dynamic library has an "install path."
// Clients linking against the library record this path, and the
// dynamic linker, dyld, uses it to locate the library.
// dyld searches DYLD_LIBRARY_PATH *before* the install path.
// dyld searches DYLD_FALLBACK_LIBRARY_PATH only if it cannot
// find the library in the install path.
// Setting DYLD_LIBRARY_PATH can easily have unintended
// consequences.
//
// Also, DYLD_LIBRARY_PATH appears to have significant performance
// penalty starting in 10.13. Cargo's testsuite ran more than twice as
// slow with it on CI.
"DYLD_FALLBACK_LIBRARY_PATH"
} else if cfg!(target_os = "aix") {
"LIBPATH"
} else {
"LD_LIBRARY_PATH"
}
}
/// Returns a list of directories that are searched for dynamic libraries.
///
/// Note that some operating systems will have defaults if this is empty that
/// will need to be dealt with.
pub fn dylib_path() -> Vec<PathBuf> {
match env::var_os(dylib_path_envvar()) {
Some(var) => env::split_paths(&var).collect(),
None => Vec::new(),
}
}
/// Normalize a path, removing things like `.` and `..`.
///
/// CAUTION: This does not resolve symlinks (unlike
/// [`std::fs::canonicalize`]). This may cause incorrect or surprising
/// behavior at times. This should be used carefully. Unfortunately,
/// [`std::fs::canonicalize`] can be hard to use correctly, since it can often
/// fail, or on Windows returns annoying device paths. This is a problem Cargo
/// needs to improve on.
pub fn normalize_path(path: &Path) -> PathBuf {
let mut components = path.components().peekable();
let mut ret = if let Some(c @ Component::Prefix(..)) = components.peek().cloned() {
components.next();
PathBuf::from(c.as_os_str())
} else {
PathBuf::new()
};
for component in components {
match component {
Component::Prefix(..) => unreachable!(),
Component::RootDir => {
ret.push(component.as_os_str());
}
Component::CurDir => {}
Component::ParentDir => {
ret.pop();
}
Component::Normal(c) => {
ret.push(c);
}
}
}
ret
}
/// Returns the absolute path of where the given executable is located based
/// on searching the `PATH` environment variable.
///
/// Returns an error if it cannot be found.
pub fn resolve_executable(exec: &Path) -> Result<PathBuf> {
if exec.components().count() == 1 {
let paths = env::var_os("PATH").ok_or_else(|| anyhow::format_err!("no PATH"))?;
let candidates = env::split_paths(&paths).flat_map(|path| {
let candidate = path.join(&exec);
let with_exe = if env::consts::EXE_EXTENSION.is_empty() {
None
} else {
Some(candidate.with_extension(env::consts::EXE_EXTENSION))
};
iter::once(candidate).chain(with_exe)
});
for candidate in candidates {
if candidate.is_file() {
return Ok(candidate);
}
}
anyhow::bail!("no executable for `{}` found in PATH", exec.display())
} else {
Ok(exec.into())
}
}
/// Returns metadata for a file (follows symlinks).
///
/// Equivalent to [`std::fs::metadata`] with better error messages.
pub fn metadata<P: AsRef<Path>>(path: P) -> Result<Metadata> {
let path = path.as_ref();
std::fs::metadata(path)
.with_context(|| format!("failed to load metadata for path `{}`", path.display()))
}
/// Returns metadata for a file without following symlinks.
///
/// Equivalent to [`std::fs::metadata`] with better error messages.
pub fn symlink_metadata<P: AsRef<Path>>(path: P) -> Result<Metadata> {
let path = path.as_ref();
std::fs::symlink_metadata(path)
.with_context(|| format!("failed to load metadata for path `{}`", path.display()))
}
/// Reads a file to a string.
///
/// Equivalent to [`std::fs::read_to_string`] with better error messages.
pub fn read(path: &Path) -> Result<String> {
match String::from_utf8(read_bytes(path)?) {
Ok(s) => Ok(s),
Err(_) => anyhow::bail!("path at `{}` was not valid utf-8", path.display()),
}
}
/// Reads a file into a bytes vector.
///
/// Equivalent to [`std::fs::read`] with better error messages.
pub fn read_bytes(path: &Path) -> Result<Vec<u8>> {
fs::read(path).with_context(|| format!("failed to read `{}`", path.display()))
}
/// Writes a file to disk.
///
/// Equivalent to [`std::fs::write`] with better error messages.
pub fn write<P: AsRef<Path>, C: AsRef<[u8]>>(path: P, contents: C) -> Result<()> {
let path = path.as_ref();
fs::write(path, contents.as_ref())
.with_context(|| format!("failed to write `{}`", path.display()))
}
/// Writes a file to disk atomically.
///
/// write_atomic uses tempfile::persist to accomplish atomic writes.
pub fn write_atomic<P: AsRef<Path>, C: AsRef<[u8]>>(path: P, contents: C) -> Result<()> {
let path = path.as_ref();
let mut tmp = TempFileBuilder::new()
.prefix(path.file_name().unwrap())
.tempfile_in(path.parent().unwrap())?;
tmp.write_all(contents.as_ref())?;
tmp.persist(path)?;
Ok(())
}
/// Equivalent to [`write()`], but does not write anything if the file contents
/// are identical to the given contents.
pub fn write_if_changed<P: AsRef<Path>, C: AsRef<[u8]>>(path: P, contents: C) -> Result<()> {
(|| -> Result<()> {
let contents = contents.as_ref();
let mut f = OpenOptions::new()
.read(true)
.write(true)
.create(true)
.open(&path)?;
let mut orig = Vec::new();
f.read_to_end(&mut orig)?;
if orig != contents {
f.set_len(0)?;
f.seek(io::SeekFrom::Start(0))?;
f.write_all(contents)?;
}
Ok(())
})()
.with_context(|| format!("failed to write `{}`", path.as_ref().display()))?;
Ok(())
}
/// Equivalent to [`write()`], but appends to the end instead of replacing the
/// contents.
pub fn append(path: &Path, contents: &[u8]) -> Result<()> {
(|| -> Result<()> {
let mut f = OpenOptions::new()
.write(true)
.append(true)
.create(true)
.open(path)?;
f.write_all(contents)?;
Ok(())
})()
.with_context(|| format!("failed to write `{}`", path.display()))?;
Ok(())
}
/// Creates a new file.
pub fn create<P: AsRef<Path>>(path: P) -> Result<File> {
let path = path.as_ref();
File::create(path).with_context(|| format!("failed to create file `{}`", path.display()))
}
/// Opens an existing file.
pub fn open<P: AsRef<Path>>(path: P) -> Result<File> {
let path = path.as_ref();
File::open(path).with_context(|| format!("failed to open file `{}`", path.display()))
}
/// Returns the last modification time of a file.
pub fn mtime(path: &Path) -> Result<FileTime> {
let meta = metadata(path)?;
Ok(FileTime::from_last_modification_time(&meta))
}
/// Returns the maximum mtime of the given path, recursing into
/// subdirectories, and following symlinks.
pub fn mtime_recursive(path: &Path) -> Result<FileTime> {
let meta = metadata(path)?;
if !meta.is_dir() {
return Ok(FileTime::from_last_modification_time(&meta));
}
let max_meta = walkdir::WalkDir::new(path)
.follow_links(true)
.into_iter()
.filter_map(|e| match e {
Ok(e) => Some(e),
Err(e) => {
// Ignore errors while walking. If Cargo can't access it, the
// build script probably can't access it, either.
tracing::debug!("failed to determine mtime while walking directory: {}", e);
None
}
})
.filter_map(|e| {
if e.path_is_symlink() {
// Use the mtime of both the symlink and its target, to
// handle the case where the symlink is modified to a
// different target.
let sym_meta = match std::fs::symlink_metadata(e.path()) {
Ok(m) => m,
Err(err) => {
// I'm not sure when this is really possible (maybe a
// race with unlinking?). Regardless, if Cargo can't
// read it, the build script probably can't either.
tracing::debug!(
"failed to determine mtime while fetching symlink metadata of {}: {}",
e.path().display(),
err
);
return None;
}
};
let sym_mtime = FileTime::from_last_modification_time(&sym_meta);
// Walkdir follows symlinks.
match e.metadata() {
Ok(target_meta) => {
let target_mtime = FileTime::from_last_modification_time(&target_meta);
Some(sym_mtime.max(target_mtime))
}
Err(err) => {
// Can't access the symlink target. If Cargo can't
// access it, the build script probably can't access
// it either.
tracing::debug!(
"failed to determine mtime of symlink target for {}: {}",
e.path().display(),
err
);
Some(sym_mtime)
}
}
} else {
let meta = match e.metadata() {
Ok(m) => m,
Err(err) => {
// I'm not sure when this is really possible (maybe a
// race with unlinking?). Regardless, if Cargo can't
// read it, the build script probably can't either.
tracing::debug!(
"failed to determine mtime while fetching metadata of {}: {}",
e.path().display(),
err
);
return None;
}
};
Some(FileTime::from_last_modification_time(&meta))
}
})
.max()
// or_else handles the case where there are no files in the directory.
.unwrap_or_else(|| FileTime::from_last_modification_time(&meta));
Ok(max_meta)
}
/// Record the current time on the filesystem (using the filesystem's clock)
/// using a file at the given directory. Returns the current time.
pub fn set_invocation_time(path: &Path) -> Result<FileTime> {
// note that if `FileTime::from_system_time(SystemTime::now());` is determined to be sufficient,
// then this can be removed.
let timestamp = path.join("invoked.timestamp");
write(
×tamp,
"This file has an mtime of when this was started.",
)?;
let ft = mtime(×tamp)?;
tracing::debug!("invocation time for {:?} is {}", path, ft);
Ok(ft)
}
/// Converts a path to UTF-8 bytes.
pub fn path2bytes(path: &Path) -> Result<&[u8]> {
#[cfg(unix)]
{
use std::os::unix::prelude::*;
Ok(path.as_os_str().as_bytes())
}
#[cfg(windows)]
{
match path.as_os_str().to_str() {
Some(s) => Ok(s.as_bytes()),
None => Err(anyhow::format_err!(
"invalid non-unicode path: {}",
path.display()
)),
}
}
}
/// Converts UTF-8 bytes to a path.
pub fn bytes2path(bytes: &[u8]) -> Result<PathBuf> {
#[cfg(unix)]
{
use std::os::unix::prelude::*;
Ok(PathBuf::from(OsStr::from_bytes(bytes)))
}
#[cfg(windows)]
{
use std::str;
match str::from_utf8(bytes) {
Ok(s) => Ok(PathBuf::from(s)),
Err(..) => Err(anyhow::format_err!("invalid non-unicode path")),
}
}
}
/// Returns an iterator that walks up the directory hierarchy towards the root.
///
/// Each item is a [`Path`]. It will start with the given path, finishing at
/// the root. If the `stop_root_at` parameter is given, it will stop at the
/// given path (which will be the last item).
pub fn ancestors<'a>(path: &'a Path, stop_root_at: Option<&Path>) -> PathAncestors<'a> {
PathAncestors::new(path, stop_root_at)
}
pub struct PathAncestors<'a> {
current: Option<&'a Path>,
stop_at: Option<PathBuf>,
}
impl<'a> PathAncestors<'a> {
fn new(path: &'a Path, stop_root_at: Option<&Path>) -> PathAncestors<'a> {
let stop_at = env::var("__CARGO_TEST_ROOT")
.ok()
.map(PathBuf::from)
.or_else(|| stop_root_at.map(|p| p.to_path_buf()));
PathAncestors {
current: Some(path),
//HACK: avoid reading `~/.cargo/config` when testing Cargo itself.
stop_at,
}
}
}
impl<'a> Iterator for PathAncestors<'a> {
type Item = &'a Path;
fn next(&mut self) -> Option<&'a Path> {
if let Some(path) = self.current {
self.current = path.parent();
if let Some(ref stop_at) = self.stop_at {
if path == stop_at {
self.current = None;
}
}
Some(path)
} else {
None
}
}
}
/// Equivalent to [`std::fs::create_dir_all`] with better error messages.
pub fn create_dir_all(p: impl AsRef<Path>) -> Result<()> {
_create_dir_all(p.as_ref())
}
fn _create_dir_all(p: &Path) -> Result<()> {
fs::create_dir_all(p)
.with_context(|| format!("failed to create directory `{}`", p.display()))?;
Ok(())
}
/// Equivalent to [`std::fs::remove_dir_all`] with better error messages.
///
/// This does *not* follow symlinks.
pub fn remove_dir_all<P: AsRef<Path>>(p: P) -> Result<()> {
_remove_dir_all(p.as_ref()).or_else(|prev_err| {
// `std::fs::remove_dir_all` is highly specialized for different platforms
// and may be more reliable than a simple walk. We try the walk first in
// order to report more detailed errors.
fs::remove_dir_all(p.as_ref()).with_context(|| {
format!(
"{:?}\n\nError: failed to remove directory `{}`",
prev_err,
p.as_ref().display(),
)
})
})
}
fn _remove_dir_all(p: &Path) -> Result<()> {
if symlink_metadata(p)?.is_symlink() {
return remove_file(p);
}
let entries = p
.read_dir()
.with_context(|| format!("failed to read directory `{}`", p.display()))?;
for entry in entries {
let entry = entry?;
let path = entry.path();
if entry.file_type()?.is_dir() {
remove_dir_all(&path)?;
} else {
remove_file(&path)?;
}
}
remove_dir(&p)
}
/// Equivalent to [`std::fs::remove_dir`] with better error messages.
pub fn remove_dir<P: AsRef<Path>>(p: P) -> Result<()> {
_remove_dir(p.as_ref())
}
fn _remove_dir(p: &Path) -> Result<()> {
fs::remove_dir(p).with_context(|| format!("failed to remove directory `{}`", p.display()))?;
Ok(())
}
/// Equivalent to [`std::fs::remove_file`] with better error messages.
///
/// If the file is readonly, this will attempt to change the permissions to
/// force the file to be deleted.
pub fn remove_file<P: AsRef<Path>>(p: P) -> Result<()> {
_remove_file(p.as_ref())
}
fn _remove_file(p: &Path) -> Result<()> {
let mut err = match fs::remove_file(p) {
Ok(()) => return Ok(()),
Err(e) => e,
};
if err.kind() == io::ErrorKind::PermissionDenied && set_not_readonly(p).unwrap_or(false) {
match fs::remove_file(p) {
Ok(()) => return Ok(()),
Err(e) => err = e,
}
}
Err(err).with_context(|| format!("failed to remove file `{}`", p.display()))?;
Ok(())
}
fn set_not_readonly(p: &Path) -> io::Result<bool> {
let mut perms = p.metadata()?.permissions();
if !perms.readonly() {
return Ok(false);
}
perms.set_readonly(false);
fs::set_permissions(p, perms)?;
Ok(true)
}
/// Hardlink (file) or symlink (dir) src to dst if possible, otherwise copy it.
///
/// If the destination already exists, it is removed before linking.
pub fn link_or_copy(src: impl AsRef<Path>, dst: impl AsRef<Path>) -> Result<()> {
let src = src.as_ref();
let dst = dst.as_ref();
_link_or_copy(src, dst)
}
fn _link_or_copy(src: &Path, dst: &Path) -> Result<()> {
tracing::debug!("linking {} to {}", src.display(), dst.display());
if same_file::is_same_file(src, dst).unwrap_or(false) {
return Ok(());
}
// NB: we can't use dst.exists(), as if dst is a broken symlink,
// dst.exists() will return false. This is problematic, as we still need to
// unlink dst in this case. symlink_metadata(dst).is_ok() will tell us
// whether dst exists *without* following symlinks, which is what we want.
if fs::symlink_metadata(dst).is_ok() {
remove_file(&dst)?;
}
let link_result = if src.is_dir() {
#[cfg(target_os = "redox")]
use std::os::redox::fs::symlink;
#[cfg(unix)]
use std::os::unix::fs::symlink;
#[cfg(windows)]
// FIXME: This should probably panic or have a copy fallback. Symlinks
// are not supported in all windows environments. Currently symlinking
// is only used for .dSYM directories on macos, but this shouldn't be
// accidentally relied upon.
use std::os::windows::fs::symlink_dir as symlink;
let dst_dir = dst.parent().unwrap();
let src = if src.starts_with(dst_dir) {
src.strip_prefix(dst_dir).unwrap()
} else {
src
};
symlink(src, dst)
} else if env::var_os("__CARGO_COPY_DONT_LINK_DO_NOT_USE_THIS").is_some() {
// This is a work-around for a bug in macOS 10.15. When running on
// APFS, there seems to be a strange race condition with
// Gatekeeper where it will forcefully kill a process launched via
// `cargo run` with SIGKILL. Copying seems to avoid the problem.
// This shouldn't affect anyone except Cargo's test suite because
// it is very rare, and only seems to happen under heavy load and
// rapidly creating lots of executables and running them.
// See https://github.com/rust-lang/cargo/issues/7821 for the
// gory details.
fs::copy(src, dst).map(|_| ())
} else {
if cfg!(target_os = "macos") {
// This is a work-around for a bug on macos. There seems to be a race condition
// with APFS when hard-linking binaries. Gatekeeper does not have signing or
// hash information stored in kernel when running the process. Therefore killing it.
// This problem does not appear when copying files as kernel has time to process it.
// Note that: fs::copy on macos is using CopyOnWrite (syscall fclonefileat) which should be
// as fast as hardlinking.
// See https://github.com/rust-lang/cargo/issues/10060 for the details
fs::copy(src, dst).map(|_| ())
} else {
fs::hard_link(src, dst)
}
};
link_result
.or_else(|err| {
tracing::debug!("link failed {}. falling back to fs::copy", err);
fs::copy(src, dst).map(|_| ())
})
.with_context(|| {
format!(
"failed to link or copy `{}` to `{}`",
src.display(),
dst.display()
)
})?;
Ok(())
}
/// Copies a file from one location to another.
///
/// Equivalent to [`std::fs::copy`] with better error messages.
pub fn copy<P: AsRef<Path>, Q: AsRef<Path>>(from: P, to: Q) -> Result<u64> {
let from = from.as_ref();
let to = to.as_ref();
fs::copy(from, to)
.with_context(|| format!("failed to copy `{}` to `{}`", from.display(), to.display()))
}
/// Changes the filesystem mtime (and atime if possible) for the given file.
///
/// This intentionally does not return an error, as this is sometimes not
/// supported on network filesystems. For the current uses in Cargo, this is a
/// "best effort" approach, and errors shouldn't be propagated.
pub fn set_file_time_no_err<P: AsRef<Path>>(path: P, time: FileTime) {
let path = path.as_ref();
match filetime::set_file_times(path, time, time) {
Ok(()) => tracing::debug!("set file mtime {} to {}", path.display(), time),
Err(e) => tracing::warn!(
"could not set mtime of {} to {}: {:?}",
path.display(),
time,
e
),
}
}
/// Strips `base` from `path`.
///
/// This canonicalizes both paths before stripping. This is useful if the
/// paths are obtained in different ways, and one or the other may or may not
/// have been normalized in some way.
pub fn strip_prefix_canonical<P: AsRef<Path>>(
path: P,
base: P,
) -> Result<PathBuf, std::path::StripPrefixError> {
// Not all filesystems support canonicalize. Just ignore if it doesn't work.
let safe_canonicalize = |path: &Path| match path.canonicalize() {
Ok(p) => p,
Err(e) => {
tracing::warn!("cannot canonicalize {:?}: {:?}", path, e);
path.to_path_buf()
}
};
let canon_path = safe_canonicalize(path.as_ref());
let canon_base = safe_canonicalize(base.as_ref());
canon_path.strip_prefix(canon_base).map(|p| p.to_path_buf())
}
/// Creates an excluded from cache directory atomically with its parents as needed.
///
/// The atomicity only covers creating the leaf directory and exclusion from cache. Any missing
/// parent directories will not be created in an atomic manner.
///
/// This function is idempotent and in addition to that it won't exclude ``p`` from cache if it
/// already exists.
pub fn create_dir_all_excluded_from_backups_atomic(p: impl AsRef<Path>) -> Result<()> {
let path = p.as_ref();
if path.is_dir() {
return Ok(());
}
let parent = path.parent().unwrap();
let base = path.file_name().unwrap();
create_dir_all(parent)?;
// We do this in two steps (first create a temporary directory and exclude
// it from backups, then rename it to the desired name. If we created the
// directory directly where it should be and then excluded it from backups
// we would risk a situation where cargo is interrupted right after the directory
// creation but before the exclusion the directory would remain non-excluded from
// backups because we only perform exclusion right after we created the directory
// ourselves.
//
// We need the tempdir created in parent instead of $TMP, because only then we can be
// easily sure that rename() will succeed (the new name needs to be on the same mount
// point as the old one).
let tempdir = TempFileBuilder::new().prefix(base).tempdir_in(parent)?;
exclude_from_backups(tempdir.path());
exclude_from_content_indexing(tempdir.path());
// Previously std::fs::create_dir_all() (through paths::create_dir_all()) was used
// here to create the directory directly and fs::create_dir_all() explicitly treats
// the directory being created concurrently by another thread or process as success,
// hence the check below to follow the existing behavior. If we get an error at
// rename() and suddenly the directory (which didn't exist a moment earlier) exists
// we can infer from it's another cargo process doing work.
if let Err(e) = fs::rename(tempdir.path(), path) {
if !path.exists() {
return Err(anyhow::Error::from(e));
}
}
Ok(())
}
/// Mark an existing directory as excluded from backups and indexing.
///
/// Errors in marking it are ignored.
pub fn exclude_from_backups_and_indexing(p: impl AsRef<Path>) {
let path = p.as_ref();
exclude_from_backups(path);
exclude_from_content_indexing(path);
}
/// Marks the directory as excluded from archives/backups.
///
/// This is recommended to prevent derived/temporary files from bloating backups. There are two
/// mechanisms used to achieve this right now:
///
/// * A dedicated resource property excluding from Time Machine backups on macOS
/// * CACHEDIR.TAG files supported by various tools in a platform-independent way
fn exclude_from_backups(path: &Path) {
exclude_from_time_machine(path);
let _ = std::fs::write(
path.join("CACHEDIR.TAG"),
"Signature: 8a477f597d28d172789f06886806bc55
# This file is a cache directory tag created by cargo.
# For information about cache directory tags see https://bford.info/cachedir/
",
);
// Similarly to exclude_from_time_machine() we ignore errors here as it's an optional feature.
}
/// Marks the directory as excluded from content indexing.
///
/// This is recommended to prevent the content of derived/temporary files from being indexed.
/// This is very important for Windows users, as the live content indexing significantly slows
/// cargo's I/O operations.
///
/// This is currently a no-op on non-Windows platforms.
fn exclude_from_content_indexing(path: &Path) {
#[cfg(windows)]
{
use std::iter::once;
use std::os::windows::prelude::OsStrExt;
use windows_sys::Win32::Storage::FileSystem::{
GetFileAttributesW, SetFileAttributesW, FILE_ATTRIBUTE_NOT_CONTENT_INDEXED,
};
let path: Vec<u16> = path.as_os_str().encode_wide().chain(once(0)).collect();
unsafe {
SetFileAttributesW(
path.as_ptr(),
GetFileAttributesW(path.as_ptr()) | FILE_ATTRIBUTE_NOT_CONTENT_INDEXED,
);
}
}
#[cfg(not(windows))]
{
let _ = path;
}
}
#[cfg(not(target_os = "macos"))]
fn exclude_from_time_machine(_: &Path) {}
#[cfg(target_os = "macos")]
/// Marks files or directories as excluded from Time Machine on macOS
fn exclude_from_time_machine(path: &Path) {
use core_foundation::base::TCFType;
use core_foundation::{number, string, url};
use std::ptr;
// For compatibility with 10.7 a string is used instead of global kCFURLIsExcludedFromBackupKey
let is_excluded_key: Result<string::CFString, _> = "NSURLIsExcludedFromBackupKey".parse();
let path = url::CFURL::from_path(path, false);
if let (Some(path), Ok(is_excluded_key)) = (path, is_excluded_key) {
unsafe {
url::CFURLSetResourcePropertyForKey(
path.as_concrete_TypeRef(),
is_excluded_key.as_concrete_TypeRef(),
number::kCFBooleanTrue as *const _,
ptr::null_mut(),
);
}
}
// Errors are ignored, since it's an optional feature and failure
// doesn't prevent Cargo from working
}
#[cfg(test)]
mod tests {
use super::join_paths;
use super::write;
use super::write_atomic;
#[test]
fn write_works() {
let original_contents = "[dependencies]\nfoo = 0.1.0";
let tmpdir = tempfile::tempdir().unwrap();
let path = tmpdir.path().join("Cargo.toml");
write(&path, original_contents).unwrap();
let contents = std::fs::read_to_string(&path).unwrap();
assert_eq!(contents, original_contents);
}
#[test]
fn write_atomic_works() {
let original_contents = "[dependencies]\nfoo = 0.1.0";
let tmpdir = tempfile::tempdir().unwrap();
let path = tmpdir.path().join("Cargo.toml");
write_atomic(&path, original_contents).unwrap();
let contents = std::fs::read_to_string(&path).unwrap();
assert_eq!(contents, original_contents);
}
#[test]
fn join_paths_lists_paths_on_error() {
let valid_paths = vec!["/testing/one", "/testing/two"];
// does not fail on valid input
let _joined = join_paths(&valid_paths, "TESTING1").unwrap();
#[cfg(unix)]
{
let invalid_paths = vec!["/testing/one", "/testing/t:wo/three"];
let err = join_paths(&invalid_paths, "TESTING2").unwrap_err();
assert_eq!(
err.to_string(),
"failed to join paths from `$TESTING2` together\n\n\
Check if any of path segments listed below contain an \
unterminated quote character or path separator:\
\n \"/testing/one\"\
\n \"/testing/t:wo/three\"\
"
);
}
#[cfg(windows)]
{
let invalid_paths = vec!["/testing/one", "/testing/t\"wo/three"];
let err = join_paths(&invalid_paths, "TESTING2").unwrap_err();
assert_eq!(
err.to_string(),
"failed to join paths from `$TESTING2` together\n\n\
Check if any of path segments listed below contain an \
unterminated quote character or path separator:\
\n \"/testing/one\"\
\n \"/testing/t\\\"wo/three\"\
"
);
}
}
}