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denoland-deno/ext/fs/30_fs.js
Nathan Whitaker dadc606419
fix(ext/node): Add fs.lutimes / fs.lutimesSync (#23172)
Part of #18218


- Adds `fs.lutimes` and `fs.lutimesSync` to our node polyfills. To do
this I added methods to the `FileSystem` trait + ops to expose the
functionality to JS.
- Exports `fs._toUnixTimestamp`. Node exposes an internal util
`toUnixTimestamp` from the fs module to be used by unit tests (so we
need it for the unit test to pass unmodified). It's weird because it's
only supposed to be used internally but it's still publicly accessible
- Matches up error handling and timestamp handling for fs.futimes and
fs.utimes with node
- Enables the node_compat utimes test - this exercises futimes, lutimes,
and utimes.
2024-07-02 19:33:32 -07:00

1050 lines
21 KiB
JavaScript

// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
import { core, internals, primordials } from "ext:core/mod.js";
const {
isDate,
internalRidSymbol,
createCancelHandle,
} = core;
import {
op_fs_chdir,
op_fs_chmod_async,
op_fs_chmod_sync,
op_fs_chown_async,
op_fs_chown_sync,
op_fs_copy_file_async,
op_fs_copy_file_sync,
op_fs_cwd,
op_fs_fdatasync_async,
op_fs_fdatasync_sync,
op_fs_file_stat_async,
op_fs_file_stat_sync,
op_fs_flock_async,
op_fs_flock_async_unstable,
op_fs_flock_sync,
op_fs_flock_sync_unstable,
op_fs_fsync_async,
op_fs_fsync_sync,
op_fs_ftruncate_async,
op_fs_ftruncate_sync,
op_fs_funlock_async,
op_fs_funlock_async_unstable,
op_fs_funlock_sync,
op_fs_funlock_sync_unstable,
op_fs_futime_async,
op_fs_futime_sync,
op_fs_link_async,
op_fs_link_sync,
op_fs_lstat_async,
op_fs_lstat_sync,
op_fs_make_temp_dir_async,
op_fs_make_temp_dir_sync,
op_fs_make_temp_file_async,
op_fs_make_temp_file_sync,
op_fs_mkdir_async,
op_fs_mkdir_sync,
op_fs_open_async,
op_fs_open_sync,
op_fs_read_dir_async,
op_fs_read_dir_sync,
op_fs_read_file_async,
op_fs_read_file_sync,
op_fs_read_file_text_async,
op_fs_read_file_text_sync,
op_fs_read_link_async,
op_fs_read_link_sync,
op_fs_realpath_async,
op_fs_realpath_sync,
op_fs_remove_async,
op_fs_remove_sync,
op_fs_rename_async,
op_fs_rename_sync,
op_fs_seek_async,
op_fs_seek_sync,
op_fs_stat_async,
op_fs_stat_sync,
op_fs_symlink_async,
op_fs_symlink_sync,
op_fs_truncate_async,
op_fs_truncate_sync,
op_fs_umask,
op_fs_utime_async,
op_fs_utime_sync,
op_fs_write_file_async,
op_fs_write_file_sync,
op_set_raw,
} from "ext:core/ops";
const {
ArrayPrototypeFilter,
Date,
DatePrototypeGetTime,
Error,
Function,
MathTrunc,
ObjectEntries,
ObjectDefineProperty,
ObjectPrototypeIsPrototypeOf,
ObjectValues,
StringPrototypeSlice,
StringPrototypeStartsWith,
SymbolAsyncIterator,
SymbolIterator,
SymbolFor,
TypeError,
Uint32Array,
} = primordials;
import { read, readSync, write, writeSync } from "ext:deno_io/12_io.js";
import * as abortSignal from "ext:deno_web/03_abort_signal.js";
import {
readableStreamForRid,
ReadableStreamPrototype,
writableStreamForRid,
} from "ext:deno_web/06_streams.js";
import { pathFromURL, SymbolDispose } from "ext:deno_web/00_infra.js";
function chmodSync(path, mode) {
op_fs_chmod_sync(pathFromURL(path), mode);
}
async function chmod(path, mode) {
await op_fs_chmod_async(pathFromURL(path), mode);
}
function chownSync(
path,
uid,
gid,
) {
op_fs_chown_sync(pathFromURL(path), uid, gid);
}
async function chown(
path,
uid,
gid,
) {
await op_fs_chown_async(
pathFromURL(path),
uid,
gid,
);
}
function copyFileSync(
fromPath,
toPath,
) {
op_fs_copy_file_sync(
pathFromURL(fromPath),
pathFromURL(toPath),
);
}
async function copyFile(
fromPath,
toPath,
) {
await op_fs_copy_file_async(
pathFromURL(fromPath),
pathFromURL(toPath),
);
}
function cwd() {
return op_fs_cwd();
}
function chdir(directory) {
op_fs_chdir(pathFromURL(directory));
}
function makeTempDirSync(options = { __proto__: null }) {
return op_fs_make_temp_dir_sync(
options.dir,
options.prefix,
options.suffix,
);
}
function makeTempDir(options = { __proto__: null }) {
return op_fs_make_temp_dir_async(
options.dir,
options.prefix,
options.suffix,
);
}
function makeTempFileSync(options = { __proto__: null }) {
return op_fs_make_temp_file_sync(
options.dir,
options.prefix,
options.suffix,
);
}
function makeTempFile(options = { __proto__: null }) {
return op_fs_make_temp_file_async(
options.dir,
options.prefix,
options.suffix,
);
}
function mkdirSync(path, options) {
op_fs_mkdir_sync(
pathFromURL(path),
options?.recursive ?? false,
options?.mode,
);
}
async function mkdir(path, options) {
await op_fs_mkdir_async(
pathFromURL(path),
options?.recursive ?? false,
options?.mode,
);
}
function readDirSync(path) {
return op_fs_read_dir_sync(pathFromURL(path))[
SymbolIterator
]();
}
function readDir(path) {
const array = op_fs_read_dir_async(
pathFromURL(path),
);
return {
async *[SymbolAsyncIterator]() {
const dir = await array;
for (let i = 0; i < dir.length; ++i) {
yield dir[i];
}
},
};
}
function readLinkSync(path) {
return op_fs_read_link_sync(pathFromURL(path));
}
function readLink(path) {
return op_fs_read_link_async(pathFromURL(path));
}
function realPathSync(path) {
return op_fs_realpath_sync(pathFromURL(path));
}
function realPath(path) {
return op_fs_realpath_async(pathFromURL(path));
}
function removeSync(
path,
options = { __proto__: null },
) {
op_fs_remove_sync(
pathFromURL(path),
!!options.recursive,
);
}
async function remove(
path,
options = { __proto__: null },
) {
await op_fs_remove_async(
pathFromURL(path),
!!options.recursive,
);
}
function renameSync(oldpath, newpath) {
op_fs_rename_sync(
pathFromURL(oldpath),
pathFromURL(newpath),
);
}
async function rename(oldpath, newpath) {
await op_fs_rename_async(
pathFromURL(oldpath),
pathFromURL(newpath),
);
}
// Extract the FsStat object from the encoded buffer.
// See `runtime/ops/fs.rs` for the encoder.
//
// This is not a general purpose decoder. There are 4 types:
//
// 1. date
// offset += 4
// 1/0 | extra padding | high u32 | low u32
// if date[0] == 1, new Date(u64) else null
//
// 2. bool
// offset += 2
// 1/0 | extra padding
//
// 3. u64
// offset += 2
// high u32 | low u32
//
// 4. ?u64 converts a zero u64 value to JS null on Windows.
// ?bool converts a false bool value to JS null on Windows.
function createByteStruct(types) {
// types can be "date", "bool" or "u64".
let offset = 0;
let str =
'const unix = Deno.build.os === "darwin" || Deno.build.os === "linux" || Deno.build.os === "android" || Deno.build.os === "openbsd" || Deno.build.os === "freebsd"; return {';
const typeEntries = ObjectEntries(types);
for (let i = 0; i < typeEntries.length; ++i) {
let { 0: name, 1: type } = typeEntries[i];
const optional = StringPrototypeStartsWith(type, "?");
if (optional) type = StringPrototypeSlice(type, 1);
if (type == "u64") {
if (!optional) {
str += `${name}: view[${offset}] + view[${offset + 1}] * 2**32,`;
} else {
str += `${name}: (unix ? (view[${offset}] + view[${
offset + 1
}] * 2**32) : (view[${offset}] + view[${
offset + 1
}] * 2**32) || null),`;
}
} else if (type == "date") {
str += `${name}: view[${offset}] === 0 ? null : new Date(view[${
offset + 2
}] + view[${offset + 3}] * 2**32),`;
offset += 2;
} else {
if (!optional) {
str += `${name}: !!(view[${offset}] + view[${offset + 1}] * 2**32),`;
} else {
str += `${name}: (unix ? !!((view[${offset}] + view[${
offset + 1
}] * 2**32)) : !!((view[${offset}] + view[${
offset + 1
}] * 2**32)) || null),`;
}
}
offset += 2;
}
str += "};";
// ...so you don't like eval huh? don't worry, it only executes during snapshot :)
return [new Function("view", str), new Uint32Array(offset)];
}
const { 0: statStruct, 1: statBuf } = createByteStruct({
isFile: "bool",
isDirectory: "bool",
isSymlink: "bool",
size: "u64",
mtime: "date",
atime: "date",
birthtime: "date",
dev: "u64",
ino: "?u64",
mode: "?u64",
nlink: "?u64",
uid: "?u64",
gid: "?u64",
rdev: "?u64",
blksize: "?u64",
blocks: "?u64",
isBlockDevice: "?bool",
isCharDevice: "?bool",
isFifo: "?bool",
isSocket: "?bool",
});
function parseFileInfo(response) {
const unix = core.build.os === "darwin" ||
core.build.os === "linux" ||
core.build.os === "android" ||
core.build.os === "freebsd" ||
core.build.os === "openbsd";
return {
isFile: response.isFile,
isDirectory: response.isDirectory,
isSymlink: response.isSymlink,
size: response.size,
mtime: response.mtimeSet === true ? new Date(response.mtime) : null,
atime: response.atimeSet === true ? new Date(response.atime) : null,
birthtime: response.birthtimeSet === true
? new Date(response.birthtime)
: null,
dev: response.dev,
ino: unix ? response.ino : null,
mode: unix ? response.mode : null,
nlink: unix ? response.nlink : null,
uid: unix ? response.uid : null,
gid: unix ? response.gid : null,
rdev: unix ? response.rdev : null,
blksize: unix ? response.blksize : null,
blocks: unix ? response.blocks : null,
isBlockDevice: unix ? response.isBlockDevice : null,
isCharDevice: unix ? response.isCharDevice : null,
isFifo: unix ? response.isFifo : null,
isSocket: unix ? response.isSocket : null,
};
}
function fstatSync(rid) {
op_fs_file_stat_sync(rid, statBuf);
return statStruct(statBuf);
}
async function fstat(rid) {
return parseFileInfo(await op_fs_file_stat_async(rid));
}
async function lstat(path) {
const res = await op_fs_lstat_async(pathFromURL(path));
return parseFileInfo(res);
}
function lstatSync(path) {
op_fs_lstat_sync(pathFromURL(path), statBuf);
return statStruct(statBuf);
}
async function stat(path) {
const res = await op_fs_stat_async(pathFromURL(path));
return parseFileInfo(res);
}
function statSync(path) {
op_fs_stat_sync(pathFromURL(path), statBuf);
return statStruct(statBuf);
}
function coerceLen(len) {
if (len == null || len < 0) {
return 0;
}
return len;
}
function ftruncateSync(rid, len) {
op_fs_ftruncate_sync(rid, coerceLen(len));
}
async function ftruncate(rid, len) {
await op_fs_ftruncate_async(rid, coerceLen(len));
}
function truncateSync(path, len) {
op_fs_truncate_sync(path, coerceLen(len));
}
async function truncate(path, len) {
await op_fs_truncate_async(path, coerceLen(len));
}
function umask(mask) {
return op_fs_umask(mask);
}
function linkSync(oldpath, newpath) {
op_fs_link_sync(oldpath, newpath);
}
async function link(oldpath, newpath) {
await op_fs_link_async(oldpath, newpath);
}
function toUnixTimeFromEpoch(value) {
if (isDate(value)) {
const time = DatePrototypeGetTime(value);
const seconds = MathTrunc(time / 1e3);
const nanoseconds = MathTrunc(time - (seconds * 1e3)) * 1e6;
return [
seconds,
nanoseconds,
];
}
const seconds = MathTrunc(value);
const nanoseconds = MathTrunc((value * 1e3) - (seconds * 1e3)) * 1e6;
return [
seconds,
nanoseconds,
];
}
function futimeSync(
rid,
atime,
mtime,
) {
const { 0: atimeSec, 1: atimeNsec } = toUnixTimeFromEpoch(atime);
const { 0: mtimeSec, 1: mtimeNsec } = toUnixTimeFromEpoch(mtime);
op_fs_futime_sync(rid, atimeSec, atimeNsec, mtimeSec, mtimeNsec);
}
async function futime(
rid,
atime,
mtime,
) {
const { 0: atimeSec, 1: atimeNsec } = toUnixTimeFromEpoch(atime);
const { 0: mtimeSec, 1: mtimeNsec } = toUnixTimeFromEpoch(mtime);
await op_fs_futime_async(
rid,
atimeSec,
atimeNsec,
mtimeSec,
mtimeNsec,
);
}
function utimeSync(
path,
atime,
mtime,
) {
const { 0: atimeSec, 1: atimeNsec } = toUnixTimeFromEpoch(atime);
const { 0: mtimeSec, 1: mtimeNsec } = toUnixTimeFromEpoch(mtime);
op_fs_utime_sync(
pathFromURL(path),
atimeSec,
atimeNsec,
mtimeSec,
mtimeNsec,
);
}
async function utime(
path,
atime,
mtime,
) {
const { 0: atimeSec, 1: atimeNsec } = toUnixTimeFromEpoch(atime);
const { 0: mtimeSec, 1: mtimeNsec } = toUnixTimeFromEpoch(mtime);
await op_fs_utime_async(
pathFromURL(path),
atimeSec,
atimeNsec,
mtimeSec,
mtimeNsec,
);
}
function symlinkSync(
oldpath,
newpath,
options,
) {
op_fs_symlink_sync(
pathFromURL(oldpath),
pathFromURL(newpath),
options?.type,
);
}
async function symlink(
oldpath,
newpath,
options,
) {
await op_fs_symlink_async(
pathFromURL(oldpath),
pathFromURL(newpath),
options?.type,
);
}
function fdatasyncSync(rid) {
op_fs_fdatasync_sync(rid);
}
async function fdatasync(rid) {
await op_fs_fdatasync_async(rid);
}
function fsyncSync(rid) {
op_fs_fsync_sync(rid);
}
async function fsync(rid) {
await op_fs_fsync_async(rid);
}
function flockSync(rid, exclusive) {
op_fs_flock_sync_unstable(rid, exclusive === true);
}
async function flock(rid, exclusive) {
await op_fs_flock_async_unstable(rid, exclusive === true);
}
function funlockSync(rid) {
op_fs_funlock_sync_unstable(rid);
}
async function funlock(rid) {
await op_fs_funlock_async_unstable(rid);
}
function seekSync(
rid,
offset,
whence,
) {
return op_fs_seek_sync(rid, offset, whence);
}
function seek(
rid,
offset,
whence,
) {
return op_fs_seek_async(rid, offset, whence);
}
function openSync(
path,
options,
) {
if (options) checkOpenOptions(options);
const rid = op_fs_open_sync(
pathFromURL(path),
options,
);
return new FsFile(rid, SymbolFor("Deno.internal.FsFile"));
}
async function open(
path,
options,
) {
if (options) checkOpenOptions(options);
const rid = await op_fs_open_async(
pathFromURL(path),
options,
);
return new FsFile(rid, SymbolFor("Deno.internal.FsFile"));
}
function createSync(path) {
return openSync(path, {
read: true,
write: true,
truncate: true,
create: true,
});
}
function create(path) {
return open(path, {
read: true,
write: true,
truncate: true,
create: true,
});
}
class FsFile {
#rid = 0;
#readable;
#writable;
constructor(rid, symbol) {
ObjectDefineProperty(this, internalRidSymbol, {
enumerable: false,
value: rid,
});
this.#rid = rid;
if (!symbol || symbol !== SymbolFor("Deno.internal.FsFile")) {
internals.warnOnDeprecatedApi(
"new Deno.FsFile()",
new Error().stack,
"Use `Deno.open` or `Deno.openSync` instead.",
);
if (internals.future) {
throw new TypeError(
"`Deno.FsFile` cannot be constructed, use `Deno.open()` or `Deno.openSync()` instead.",
);
}
}
}
get rid() {
internals.warnOnDeprecatedApi(
"Deno.FsFile.rid",
new Error().stack,
"Use `Deno.FsFile` methods directly instead.",
);
return this.#rid;
}
write(p) {
return write(this.#rid, p);
}
writeSync(p) {
return writeSync(this.#rid, p);
}
truncate(len) {
return ftruncate(this.#rid, len);
}
truncateSync(len) {
return ftruncateSync(this.#rid, len);
}
read(p) {
return read(this.#rid, p);
}
readSync(p) {
return readSync(this.#rid, p);
}
seek(offset, whence) {
return seek(this.#rid, offset, whence);
}
seekSync(offset, whence) {
return seekSync(this.#rid, offset, whence);
}
stat() {
return fstat(this.#rid);
}
statSync() {
return fstatSync(this.#rid);
}
async syncData() {
await op_fs_fdatasync_async(this.#rid);
}
syncDataSync() {
op_fs_fdatasync_sync(this.#rid);
}
close() {
core.close(this.#rid);
}
get readable() {
if (this.#readable === undefined) {
this.#readable = readableStreamForRid(this.#rid);
}
return this.#readable;
}
get writable() {
if (this.#writable === undefined) {
this.#writable = writableStreamForRid(this.#rid);
}
return this.#writable;
}
async sync() {
await op_fs_fsync_async(this.#rid);
}
syncSync() {
op_fs_fsync_sync(this.#rid);
}
async utime(atime, mtime) {
await futime(this.#rid, atime, mtime);
}
utimeSync(atime, mtime) {
futimeSync(this.#rid, atime, mtime);
}
isTerminal() {
return core.isTerminal(this.#rid);
}
setRaw(mode, options = { __proto__: null }) {
const cbreak = !!(options.cbreak ?? false);
op_set_raw(this.#rid, mode, cbreak);
}
lockSync(exclusive = false) {
op_fs_flock_sync(this.#rid, exclusive);
}
async lock(exclusive = false) {
await op_fs_flock_async(this.#rid, exclusive);
}
unlockSync() {
op_fs_funlock_sync(this.#rid);
}
async unlock() {
await op_fs_funlock_async(this.#rid);
}
[SymbolDispose]() {
core.tryClose(this.#rid);
}
}
function checkOpenOptions(options) {
if (
ArrayPrototypeFilter(
ObjectValues(options),
(val) => val === true,
).length === 0
) {
throw new Error("OpenOptions requires at least one option to be true");
}
if (options.truncate && !options.write) {
throw new Error("'truncate' option requires 'write' option");
}
const createOrCreateNewWithoutWriteOrAppend =
(options.create || options.createNew) &&
!(options.write || options.append);
if (createOrCreateNewWithoutWriteOrAppend) {
throw new Error(
"'create' or 'createNew' options require 'write' or 'append' option",
);
}
}
const File = FsFile;
function readFileSync(path) {
return op_fs_read_file_sync(pathFromURL(path));
}
async function readFile(path, options) {
let cancelRid;
let abortHandler;
if (options?.signal) {
options.signal.throwIfAborted();
cancelRid = createCancelHandle();
abortHandler = () => core.tryClose(cancelRid);
options.signal[abortSignal.add](abortHandler);
}
try {
const read = await op_fs_read_file_async(
pathFromURL(path),
cancelRid,
);
return read;
} finally {
if (options?.signal) {
options.signal[abortSignal.remove](abortHandler);
// always throw the abort error when aborted
options.signal.throwIfAborted();
}
}
}
function readTextFileSync(path) {
return op_fs_read_file_text_sync(pathFromURL(path));
}
async function readTextFile(path, options) {
let cancelRid;
let abortHandler;
if (options?.signal) {
options.signal.throwIfAborted();
cancelRid = createCancelHandle();
abortHandler = () => core.tryClose(cancelRid);
options.signal[abortSignal.add](abortHandler);
}
try {
const read = await op_fs_read_file_text_async(
pathFromURL(path),
cancelRid,
);
return read;
} finally {
if (options?.signal) {
options.signal[abortSignal.remove](abortHandler);
// always throw the abort error when aborted
options.signal.throwIfAborted();
}
}
}
function writeFileSync(
path,
data,
options = { __proto__: null },
) {
options.signal?.throwIfAborted();
op_fs_write_file_sync(
pathFromURL(path),
options.mode,
options.append ?? false,
options.create ?? true,
options.createNew ?? false,
data,
);
}
async function writeFile(
path,
data,
options = { __proto__: null },
) {
let cancelRid;
let abortHandler;
if (options.signal) {
options.signal.throwIfAborted();
cancelRid = createCancelHandle();
abortHandler = () => core.tryClose(cancelRid);
options.signal[abortSignal.add](abortHandler);
}
try {
if (ObjectPrototypeIsPrototypeOf(ReadableStreamPrototype, data)) {
const file = await open(path, {
mode: options.mode,
append: options.append ?? false,
create: options.create ?? true,
createNew: options.createNew ?? false,
truncate: !(options.append ?? false),
write: true,
});
await data.pipeTo(file.writable, {
signal: options.signal,
});
} else {
await op_fs_write_file_async(
pathFromURL(path),
options.mode,
options.append ?? false,
options.create ?? true,
options.createNew ?? false,
data,
cancelRid,
);
}
} finally {
if (options.signal) {
options.signal[abortSignal.remove](abortHandler);
// always throw the abort error when aborted
options.signal.throwIfAborted();
}
}
}
function writeTextFileSync(
path,
data,
options = { __proto__: null },
) {
const encoder = new TextEncoder();
return writeFileSync(path, encoder.encode(data), options);
}
function writeTextFile(
path,
data,
options = { __proto__: null },
) {
if (ObjectPrototypeIsPrototypeOf(ReadableStreamPrototype, data)) {
return writeFile(
path,
data.pipeThrough(new TextEncoderStream()),
options,
);
} else {
const encoder = new TextEncoder();
return writeFile(path, encoder.encode(data), options);
}
}
export {
chdir,
chmod,
chmodSync,
chown,
chownSync,
copyFile,
copyFileSync,
create,
createSync,
cwd,
fdatasync,
fdatasyncSync,
File,
flock,
flockSync,
FsFile,
fstat,
fstatSync,
fsync,
fsyncSync,
ftruncate,
ftruncateSync,
funlock,
funlockSync,
futime,
futimeSync,
link,
linkSync,
lstat,
lstatSync,
makeTempDir,
makeTempDirSync,
makeTempFile,
makeTempFileSync,
mkdir,
mkdirSync,
open,
openSync,
readDir,
readDirSync,
readFile,
readFileSync,
readLink,
readLinkSync,
readTextFile,
readTextFileSync,
realPath,
realPathSync,
remove,
removeSync,
rename,
renameSync,
seek,
seekSync,
stat,
statSync,
symlink,
symlinkSync,
truncate,
truncateSync,
umask,
utime,
utimeSync,
writeFile,
writeFileSync,
writeTextFile,
writeTextFileSync,
};