fish-shell/src/autoload.rs
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Rust

//! The classes responsible for autoloading functions and completions.
use crate::common::{escape, ScopeGuard};
use crate::env::Environment;
use crate::io::IoChain;
use crate::parser::Parser;
#[cfg(test)]
use crate::tests::prelude::*;
use crate::wchar::{wstr, WString, L};
use crate::wutil::{file_id_for_path, FileId, INVALID_FILE_ID};
use lru::LruCache;
use std::collections::{HashMap, HashSet};
use std::num::NonZeroUsize;
use std::time;
/// autoload_t is a class that knows how to autoload .fish files from a list of directories. This
/// is used by autoloading functions and completions. It maintains a file cache, which is
/// responsible for potentially cached accesses of files, and then a list of files that have
/// actually been autoloaded. A client may request a file to autoload given a command name, and may
/// be returned a path which it is expected to source.
/// autoload_t does not have any internal locks; it is the responsibility of the caller to lock
/// it.
#[derive(Default)]
pub struct Autoload {
/// The environment variable whose paths we observe.
env_var_name: &'static wstr,
/// A map from command to the files we have autoloaded.
autoloaded_files: HashMap<WString, FileId>,
/// The list of commands that we are currently autoloading.
current_autoloading: HashSet<WString>,
/// The autoload cache.
/// This is a unique_ptr because want to change it if the value of our environment variable
/// changes. This is never null (but it may be a cache with no paths).
cache: Box<AutoloadFileCache>,
}
impl Autoload {
/// Construct an autoloader that loads from the paths given by `env_var_name`.
pub fn new(env_var_name: &'static wstr) -> Self {
Self {
env_var_name,
..Default::default()
}
}
/// Given a command, get a path to autoload.
/// For example, if the environment variable is 'fish_function_path' and the command is 'foo',
/// this will look for a file 'foo.fish' in one of the directories given by fish_function_path.
/// If there is no such file, OR if the file has been previously resolved and is now unchanged,
/// this will return none. But if the file is either new or changed, this will return the path.
/// After returning a path, the command is marked in-progress until the caller calls
/// mark_autoload_finished() with the same command. Note this does not actually execute any
/// code; it is the caller's responsibility to load the file.
pub fn resolve_command(&mut self, cmd: &wstr, env: &dyn Environment) -> Option<WString> {
if let Some(var) = env.get(self.env_var_name) {
self.resolve_command_impl(cmd, var.as_list())
} else {
self.resolve_command_impl(cmd, &[])
}
}
/// Helper to actually perform an autoload.
/// This is a static function because it executes fish script, and so must be called without
/// holding any particular locks.
pub fn perform_autoload(path: &wstr, parser: &Parser) {
// We do the useful part of what exec_subshell does ourselves
// - we source the file.
// We don't create a buffer or check ifs or create a read_limit
let script_source = L!("source ").to_owned() + &escape(path)[..];
let prev_statuses = parser.get_last_statuses();
let _put_back = ScopeGuard::new((), |()| parser.set_last_statuses(prev_statuses));
parser.eval(&script_source, &IoChain::new());
}
/// Mark that a command previously returned from path_to_autoload is finished autoloading.
pub fn mark_autoload_finished(&mut self, cmd: &wstr) {
let removed = self.current_autoloading.remove(cmd);
assert!(removed, "cmd was not being autoloaded");
}
/// \return whether a command is currently being autoloaded.
pub fn autoload_in_progress(&self, cmd: &wstr) -> bool {
self.current_autoloading.contains(cmd)
}
/// \return whether a command could potentially be autoloaded.
/// This does not actually mark the command as being autoloaded.
pub fn can_autoload(&mut self, cmd: &wstr) -> bool {
self.cache.check(cmd, true /* allow stale */).is_some()
}
/// \return whether autoloading has been attempted for a command.
pub fn has_attempted_autoload(&self, cmd: &wstr) -> bool {
self.cache.is_cached(cmd)
}
/// \return the names of all commands that have been autoloaded. Note this includes "in-flight"
/// commands.
pub fn get_autoloaded_commands(&self) -> Vec<WString> {
let mut result = Vec::with_capacity(self.autoloaded_files.len());
for k in self.autoloaded_files.keys() {
result.push(k.to_owned());
}
// Sort the output to make it easier to test.
result.sort();
result
}
/// Mark that all autoloaded files have been forgotten.
/// Future calls to path_to_autoload() will return previously-returned paths.
pub fn clear(&mut self) {
// Note there is no reason to invalidate the cache here.
self.autoloaded_files.clear();
}
/// Invalidate any underlying cache.
/// This is exposed for testing.
#[cfg(test)]
fn invalidate_cache(&mut self) {
self.cache = Box::new(AutoloadFileCache::with_dirs(self.cache.dirs().to_owned()));
}
/// Like resolve_autoload(), but accepts the paths directly.
/// This is exposed for testing.
fn resolve_command_impl(&mut self, cmd: &wstr, paths: &[WString]) -> Option<WString> {
// Are we currently in the process of autoloading this?
if self.current_autoloading.contains(cmd) {
return None;
}
// Check to see if our paths have changed. If so, replace our cache.
// Note we don't have to modify autoloadable_files_. We'll naturally detect if those have
// changed when we query the cache.
if paths != self.cache.dirs() {
self.cache = Box::new(AutoloadFileCache::with_dirs(paths.to_owned()));
}
// Do we have an entry to load?
let file = self.cache.check(cmd, false)?;
// Is this file the same as what we previously autoloaded?
if let Some(loaded_file) = self.autoloaded_files.get(cmd) {
if *loaded_file == file.file_id {
// The file has been autoloaded and is unchanged.
return None;
}
}
// We're going to (tell our caller to) autoload this command.
self.current_autoloading.insert(cmd.to_owned());
self.autoloaded_files.insert(cmd.to_owned(), file.file_id);
Some(file.path)
}
}
/// The time before we'll recheck an autoloaded file.
const AUTOLOAD_STALENESS_INTERVALL: u64 = 15;
/// Represents a file that we might want to autoload.
#[derive(Clone)]
struct AutoloadableFile {
/// The path to the file.
path: WString,
/// The metadata for the file.
file_id: FileId,
}
// A timestamp is a monotonic point in time.
type Timestamp = time::Instant;
type MissesLruCache = LruCache<WString, Timestamp>;
struct KnownFile {
file: AutoloadableFile,
last_checked: Timestamp,
}
/// Class representing a cache of files that may be autoloaded.
/// This is responsible for performing cached accesses to a set of paths.
struct AutoloadFileCache {
/// The directories from which to load.
dirs: Vec<WString>,
/// Our LRU cache of checks that were misses.
/// The key is the command, the value is the time of the check.
misses_cache: MissesLruCache,
/// The set of files that we have returned to the caller, along with the time of the check.
/// The key is the command (not the path).
known_files: HashMap<WString, KnownFile>,
}
impl Default for AutoloadFileCache {
fn default() -> Self {
Self::new()
}
}
impl AutoloadFileCache {
/// Initialize with a set of directories.
fn with_dirs(dirs: Vec<WString>) -> Self {
Self {
dirs,
misses_cache: MissesLruCache::new(NonZeroUsize::new(1024).unwrap()),
known_files: HashMap::new(),
}
}
/// Initialize with empty directories.
fn new() -> Self {
Self::with_dirs(vec![])
}
/// \return the directories.
fn dirs(&self) -> &[WString] {
&self.dirs
}
/// Check if a command `cmd` can be loaded.
/// If `allow_stale` is true, allow stale entries; otherwise discard them.
/// This returns an autoloadable file, or none() if there is no such file.
fn check(&mut self, cmd: &wstr, allow_stale: bool) -> Option<AutoloadableFile> {
// Check hits.
if let Some(value) = self.known_files.get(cmd) {
if allow_stale || Self::is_fresh(value.last_checked, Self::current_timestamp()) {
// Re-use this cached hit.
return Some(value.file.clone());
}
// The file is stale, remove it.
self.known_files.remove(cmd);
}
// Check misses.
if let Some(miss) = self.misses_cache.get(cmd) {
if allow_stale || Self::is_fresh(*miss, Self::current_timestamp()) {
// Re-use this cached miss.
return None;
}
// The miss is stale, remove it.
self.misses_cache.pop(cmd);
}
// We couldn't satisfy this request from the cache. Hit the disk.
let file = self.locate_file(cmd);
if let Some(file) = file.as_ref() {
let old_value = self.known_files.insert(
cmd.to_owned(),
KnownFile {
file: file.clone(),
last_checked: Self::current_timestamp(),
},
);
assert!(
old_value.is_none(),
"Known files cache should not have contained this cmd"
);
} else {
let old_value = self
.misses_cache
.put(cmd.to_owned(), Self::current_timestamp());
assert!(
old_value.is_none(),
"Misses cache should not have contained this cmd",
);
}
file
}
/// \return true if a command is cached (either as a hit or miss).
fn is_cached(&self, cmd: &wstr) -> bool {
self.known_files.contains_key(cmd) || self.misses_cache.contains(cmd)
}
/// \return the current timestamp.
fn current_timestamp() -> Timestamp {
Timestamp::now()
}
/// \return whether a timestamp is fresh enough to use.
fn is_fresh(then: Timestamp, now: Timestamp) -> bool {
let seconds = now.duration_since(then).as_secs();
seconds < AUTOLOAD_STALENESS_INTERVALL
}
/// Attempt to find an autoloadable file by searching our path list for a given command.
/// \return the file, or none() if none.
fn locate_file(&self, cmd: &wstr) -> Option<AutoloadableFile> {
// If the command is empty or starts with NULL (i.e. is empty as a path)
// we'd try to source the *directory*, which exists.
// So instead ignore these here.
if cmd.is_empty() {
return None;
}
if cmd.as_char_slice()[0] == '\0' {
return None;
}
// Re-use the storage for path.
let mut path;
for dir in self.dirs() {
// Construct the path as dir/cmd.fish
path = dir.to_owned();
path.push('/');
path.push_utfstr(cmd);
path.push_str(".fish");
let file_id = file_id_for_path(&path);
if file_id != INVALID_FILE_ID {
// Found it.
return Some(AutoloadableFile { path, file_id });
}
}
None
}
}
#[test]
#[serial]
fn test_autoload() {
let _cleanup = test_init();
use crate::common::{charptr2wcstring, wcs2zstring};
use crate::fds::wopen_cloexec;
use crate::wutil::sprintf;
use nix::fcntl::OFlag;
macro_rules! run {
( $fmt:expr $(, $arg:expr )* $(,)? ) => {
let cmd = wcs2zstring(&sprintf!($fmt $(, $arg)*));
let status = unsafe { libc::system(cmd.as_ptr()) };
assert!(status == 0);
};
}
fn touch_file(path: &wstr) {
use nix::sys::stat::Mode;
use std::io::Write;
let mut file = wopen_cloexec(
path,
OFlag::O_RDWR | OFlag::O_CREAT,
Mode::from_bits_truncate(0o666),
)
.unwrap();
file.write_all(b"Hello").unwrap();
}
let mut t1 = "/tmp/fish_test_autoload.XXXXXX\0".as_bytes().to_vec();
let p1 = charptr2wcstring(unsafe { libc::mkdtemp(t1.as_mut_ptr().cast()) });
let mut t2 = "/tmp/fish_test_autoload.XXXXXX\0".as_bytes().to_vec();
let p2 = charptr2wcstring(unsafe { libc::mkdtemp(t2.as_mut_ptr().cast()) });
let paths = &[p1.clone(), p2.clone()];
let mut autoload = Autoload::new(L!("test_var"));
assert!(autoload.resolve_command_impl(L!("file1"), paths).is_none());
assert!(autoload
.resolve_command_impl(L!("nothing"), paths)
.is_none());
assert!(autoload.get_autoloaded_commands().is_empty());
run!("touch %ls/file1.fish", p1);
run!("touch %ls/file2.fish", p2);
autoload.invalidate_cache();
assert!(!autoload.autoload_in_progress(L!("file1")));
assert!(autoload.resolve_command_impl(L!("file1"), paths).is_some());
assert!(autoload.resolve_command_impl(L!("file1"), paths).is_none());
assert!(autoload.autoload_in_progress(L!("file1")));
assert!(autoload.get_autoloaded_commands() == vec![L!("file1")]);
autoload.mark_autoload_finished(L!("file1"));
assert!(!autoload.autoload_in_progress(L!("file1")));
assert!(autoload.get_autoloaded_commands() == vec![L!("file1")]);
assert!(autoload.resolve_command_impl(L!("file1"), paths).is_none());
assert!(autoload
.resolve_command_impl(L!("nothing"), paths)
.is_none());
assert!(autoload.resolve_command_impl(L!("file2"), paths).is_some());
assert!(autoload.resolve_command_impl(L!("file2"), paths).is_none());
autoload.mark_autoload_finished(L!("file2"));
assert!(autoload.resolve_command_impl(L!("file2"), paths).is_none());
assert!((autoload.get_autoloaded_commands() == vec![L!("file1"), L!("file2")]));
autoload.clear();
assert!(autoload.resolve_command_impl(L!("file1"), paths).is_some());
autoload.mark_autoload_finished(L!("file1"));
assert!(autoload.resolve_command_impl(L!("file1"), paths).is_none());
assert!(autoload
.resolve_command_impl(L!("nothing"), paths)
.is_none());
assert!(autoload.resolve_command_impl(L!("file2"), paths).is_some());
assert!(autoload.resolve_command_impl(L!("file2"), paths).is_none());
autoload.mark_autoload_finished(L!("file2"));
assert!(autoload.resolve_command_impl(L!("file1"), paths).is_none());
touch_file(&sprintf!("%ls/file1.fish", p1));
autoload.invalidate_cache();
assert!(autoload.resolve_command_impl(L!("file1"), paths).is_some());
autoload.mark_autoload_finished(L!("file1"));
run!(L!("rm -Rf %ls"), p1);
run!(L!("rm -Rf %ls"), p2);
}