pnpm
Version:
1,438 lines (1,432 loc) • 330 kB
JavaScript
"use strict";
var __getOwnPropNames = Object.getOwnPropertyNames;
var __commonJS = (cb, mod) => function __require() {
return mod || (0, cb[__getOwnPropNames(cb)[0]])((mod = { exports: {} }).exports, mod), mod.exports;
};
// ../node_modules/.pnpm/graceful-fs@4.2.11_patch_hash=68ebc232025360cb3dcd3081f4067f4e9fc022ab6b6f71a3230e86c7a5b337d1/node_modules/graceful-fs/polyfills.js
var require_polyfills = __commonJS({
"../node_modules/.pnpm/graceful-fs@4.2.11_patch_hash=68ebc232025360cb3dcd3081f4067f4e9fc022ab6b6f71a3230e86c7a5b337d1/node_modules/graceful-fs/polyfills.js"(exports2, module2) {
var constants = require("constants");
var origCwd = process.cwd;
var cwd = null;
var platform = process.env.GRACEFUL_FS_PLATFORM || process.platform;
process.cwd = function() {
if (!cwd)
cwd = origCwd.call(process);
return cwd;
};
try {
process.cwd();
} catch (er) {
}
if (typeof process.chdir === "function") {
chdir = process.chdir;
process.chdir = function(d) {
cwd = null;
chdir.call(process, d);
};
if (Object.setPrototypeOf) Object.setPrototypeOf(process.chdir, chdir);
}
var chdir;
module2.exports = patch;
function patch(fs) {
if (constants.hasOwnProperty("O_SYMLINK") && process.version.match(/^v0\.6\.[0-2]|^v0\.5\./)) {
patchLchmod(fs);
}
if (!fs.lutimes) {
patchLutimes(fs);
}
fs.chown = chownFix(fs.chown);
fs.fchown = chownFix(fs.fchown);
fs.lchown = chownFix(fs.lchown);
fs.chmod = chmodFix(fs.chmod);
fs.fchmod = chmodFix(fs.fchmod);
fs.lchmod = chmodFix(fs.lchmod);
fs.chownSync = chownFixSync(fs.chownSync);
fs.fchownSync = chownFixSync(fs.fchownSync);
fs.lchownSync = chownFixSync(fs.lchownSync);
fs.chmodSync = chmodFixSync(fs.chmodSync);
fs.fchmodSync = chmodFixSync(fs.fchmodSync);
fs.lchmodSync = chmodFixSync(fs.lchmodSync);
fs.stat = statFix(fs.stat);
fs.fstat = statFix(fs.fstat);
fs.lstat = statFix(fs.lstat);
fs.statSync = statFixSync(fs.statSync);
fs.fstatSync = statFixSync(fs.fstatSync);
fs.lstatSync = statFixSync(fs.lstatSync);
if (fs.chmod && !fs.lchmod) {
fs.lchmod = function(path, mode, cb) {
if (cb) process.nextTick(cb);
};
fs.lchmodSync = function() {
};
}
if (fs.chown && !fs.lchown) {
fs.lchown = function(path, uid, gid, cb) {
if (cb) process.nextTick(cb);
};
fs.lchownSync = function() {
};
}
if (platform === "win32") {
fs.rename = typeof fs.rename !== "function" ? fs.rename : function(fs$rename) {
function rename(from, to, cb) {
var start = Date.now();
var backoff = 0;
fs$rename(from, to, function CB(er) {
if (er && (er.code === "EACCES" || er.code === "EPERM" || er.code === "EBUSY") && Date.now() - start < 6e4) {
setTimeout(function() {
fs.stat(to, function(stater, st) {
if (stater && stater.code === "ENOENT")
fs$rename(from, to, CB);
else
cb(er);
});
}, backoff);
if (backoff < 100)
backoff += 10;
return;
}
if (cb) cb(er);
});
}
if (Object.setPrototypeOf) Object.setPrototypeOf(rename, fs$rename);
return rename;
}(fs.rename);
}
fs.read = typeof fs.read !== "function" ? fs.read : function(fs$read) {
function read(fd, buffer, offset, length, position, callback_) {
var callback;
if (callback_ && typeof callback_ === "function") {
var eagCounter = 0;
callback = function(er, _, __) {
if (er && er.code === "EAGAIN" && eagCounter < 10) {
eagCounter++;
return fs$read.call(fs, fd, buffer, offset, length, position, callback);
}
callback_.apply(this, arguments);
};
}
return fs$read.call(fs, fd, buffer, offset, length, position, callback);
}
if (Object.setPrototypeOf) Object.setPrototypeOf(read, fs$read);
return read;
}(fs.read);
fs.readSync = typeof fs.readSync !== "function" ? fs.readSync : /* @__PURE__ */ function(fs$readSync) {
return function(fd, buffer, offset, length, position) {
var eagCounter = 0;
while (true) {
try {
return fs$readSync.call(fs, fd, buffer, offset, length, position);
} catch (er) {
if (er.code === "EAGAIN" && eagCounter < 10) {
eagCounter++;
continue;
}
throw er;
}
}
};
}(fs.readSync);
function patchLchmod(fs2) {
fs2.lchmod = function(path, mode, callback) {
fs2.open(
path,
constants.O_WRONLY | constants.O_SYMLINK,
mode,
function(err, fd) {
if (err) {
if (callback) callback(err);
return;
}
fs2.fchmod(fd, mode, function(err2) {
fs2.close(fd, function(err22) {
if (callback) callback(err2 || err22);
});
});
}
);
};
fs2.lchmodSync = function(path, mode) {
var fd = fs2.openSync(path, constants.O_WRONLY | constants.O_SYMLINK, mode);
var threw = true;
var ret;
try {
ret = fs2.fchmodSync(fd, mode);
threw = false;
} finally {
if (threw) {
try {
fs2.closeSync(fd);
} catch (er) {
}
} else {
fs2.closeSync(fd);
}
}
return ret;
};
}
function patchLutimes(fs2) {
if (constants.hasOwnProperty("O_SYMLINK") && fs2.futimes) {
fs2.lutimes = function(path, at, mt, cb) {
fs2.open(path, constants.O_SYMLINK, function(er, fd) {
if (er) {
if (cb) cb(er);
return;
}
fs2.futimes(fd, at, mt, function(er2) {
fs2.close(fd, function(er22) {
if (cb) cb(er2 || er22);
});
});
});
};
fs2.lutimesSync = function(path, at, mt) {
var fd = fs2.openSync(path, constants.O_SYMLINK);
var ret;
var threw = true;
try {
ret = fs2.futimesSync(fd, at, mt);
threw = false;
} finally {
if (threw) {
try {
fs2.closeSync(fd);
} catch (er) {
}
} else {
fs2.closeSync(fd);
}
}
return ret;
};
} else if (fs2.futimes) {
fs2.lutimes = function(_a, _b, _c, cb) {
if (cb) process.nextTick(cb);
};
fs2.lutimesSync = function() {
};
}
}
function chmodFix(orig) {
if (!orig) return orig;
return function(target, mode, cb) {
return orig.call(fs, target, mode, function(er) {
if (chownErOk(er)) er = null;
if (cb) cb.apply(this, arguments);
});
};
}
function chmodFixSync(orig) {
if (!orig) return orig;
return function(target, mode) {
try {
return orig.call(fs, target, mode);
} catch (er) {
if (!chownErOk(er)) throw er;
}
};
}
function chownFix(orig) {
if (!orig) return orig;
return function(target, uid, gid, cb) {
return orig.call(fs, target, uid, gid, function(er) {
if (chownErOk(er)) er = null;
if (cb) cb.apply(this, arguments);
});
};
}
function chownFixSync(orig) {
if (!orig) return orig;
return function(target, uid, gid) {
try {
return orig.call(fs, target, uid, gid);
} catch (er) {
if (!chownErOk(er)) throw er;
}
};
}
function statFix(orig) {
if (!orig) return orig;
return function(target, options, cb) {
if (typeof options === "function") {
cb = options;
options = null;
}
function callback(er, stats) {
if (stats) {
if (stats.uid < 0) stats.uid += 4294967296;
if (stats.gid < 0) stats.gid += 4294967296;
}
if (cb) cb.apply(this, arguments);
}
return options ? orig.call(fs, target, options, callback) : orig.call(fs, target, callback);
};
}
function statFixSync(orig) {
if (!orig) return orig;
return function(target, options) {
var stats = options ? orig.call(fs, target, options) : orig.call(fs, target);
if (stats) {
if (stats.uid < 0) stats.uid += 4294967296;
if (stats.gid < 0) stats.gid += 4294967296;
}
return stats;
};
}
function chownErOk(er) {
if (!er)
return true;
if (er.code === "ENOSYS")
return true;
var nonroot = !process.getuid || process.getuid() !== 0;
if (nonroot) {
if (er.code === "EINVAL" || er.code === "EPERM")
return true;
}
return false;
}
}
}
});
// ../node_modules/.pnpm/graceful-fs@4.2.11_patch_hash=68ebc232025360cb3dcd3081f4067f4e9fc022ab6b6f71a3230e86c7a5b337d1/node_modules/graceful-fs/legacy-streams.js
var require_legacy_streams = __commonJS({
"../node_modules/.pnpm/graceful-fs@4.2.11_patch_hash=68ebc232025360cb3dcd3081f4067f4e9fc022ab6b6f71a3230e86c7a5b337d1/node_modules/graceful-fs/legacy-streams.js"(exports2, module2) {
var Stream = require("stream").Stream;
module2.exports = legacy;
function legacy(fs) {
return {
ReadStream,
WriteStream
};
function ReadStream(path, options) {
if (!(this instanceof ReadStream)) return new ReadStream(path, options);
Stream.call(this);
var self2 = this;
this.path = path;
this.fd = null;
this.readable = true;
this.paused = false;
this.flags = "r";
this.mode = 438;
this.bufferSize = 64 * 1024;
options = options || {};
var keys = Object.keys(options);
for (var index = 0, length = keys.length; index < length; index++) {
var key = keys[index];
this[key] = options[key];
}
if (this.encoding) this.setEncoding(this.encoding);
if (this.start !== void 0) {
if ("number" !== typeof this.start) {
throw TypeError("start must be a Number");
}
if (this.end === void 0) {
this.end = Infinity;
} else if ("number" !== typeof this.end) {
throw TypeError("end must be a Number");
}
if (this.start > this.end) {
throw new Error("start must be <= end");
}
this.pos = this.start;
}
if (this.fd !== null) {
process.nextTick(function() {
self2._read();
});
return;
}
fs.open(this.path, this.flags, this.mode, function(err, fd) {
if (err) {
self2.emit("error", err);
self2.readable = false;
return;
}
self2.fd = fd;
self2.emit("open", fd);
self2._read();
});
}
function WriteStream(path, options) {
if (!(this instanceof WriteStream)) return new WriteStream(path, options);
Stream.call(this);
this.path = path;
this.fd = null;
this.writable = true;
this.flags = "w";
this.encoding = "binary";
this.mode = 438;
this.bytesWritten = 0;
options = options || {};
var keys = Object.keys(options);
for (var index = 0, length = keys.length; index < length; index++) {
var key = keys[index];
this[key] = options[key];
}
if (this.start !== void 0) {
if ("number" !== typeof this.start) {
throw TypeError("start must be a Number");
}
if (this.start < 0) {
throw new Error("start must be >= zero");
}
this.pos = this.start;
}
this.busy = false;
this._queue = [];
if (this.fd === null) {
this._open = fs.open;
this._queue.push([this._open, this.path, this.flags, this.mode, void 0]);
this.flush();
}
}
}
}
});
// ../node_modules/.pnpm/graceful-fs@4.2.11_patch_hash=68ebc232025360cb3dcd3081f4067f4e9fc022ab6b6f71a3230e86c7a5b337d1/node_modules/graceful-fs/clone.js
var require_clone = __commonJS({
"../node_modules/.pnpm/graceful-fs@4.2.11_patch_hash=68ebc232025360cb3dcd3081f4067f4e9fc022ab6b6f71a3230e86c7a5b337d1/node_modules/graceful-fs/clone.js"(exports2, module2) {
"use strict";
module2.exports = clone;
var getPrototypeOf = Object.getPrototypeOf || function(obj) {
return obj.__proto__;
};
function clone(obj) {
if (obj === null || typeof obj !== "object")
return obj;
if (obj instanceof Object)
var copy = { __proto__: getPrototypeOf(obj) };
else
var copy = /* @__PURE__ */ Object.create(null);
Object.getOwnPropertyNames(obj).forEach(function(key) {
Object.defineProperty(copy, key, Object.getOwnPropertyDescriptor(obj, key));
});
return copy;
}
}
});
// ../node_modules/.pnpm/graceful-fs@4.2.11_patch_hash=68ebc232025360cb3dcd3081f4067f4e9fc022ab6b6f71a3230e86c7a5b337d1/node_modules/graceful-fs/graceful-fs.js
var require_graceful_fs = __commonJS({
"../node_modules/.pnpm/graceful-fs@4.2.11_patch_hash=68ebc232025360cb3dcd3081f4067f4e9fc022ab6b6f71a3230e86c7a5b337d1/node_modules/graceful-fs/graceful-fs.js"(exports2, module2) {
var fs = require("fs");
var polyfills = require_polyfills();
var legacy = require_legacy_streams();
var clone = require_clone();
var util = require("util");
var gracefulQueue;
var previousSymbol;
if (typeof Symbol === "function" && typeof Symbol.for === "function") {
gracefulQueue = Symbol.for("graceful-fs.queue");
previousSymbol = Symbol.for("graceful-fs.previous");
} else {
gracefulQueue = "___graceful-fs.queue";
previousSymbol = "___graceful-fs.previous";
}
function noop() {
}
function publishQueue(context, queue2) {
Object.defineProperty(context, gracefulQueue, {
get: function() {
return queue2;
}
});
}
var debug = noop;
if (util.debuglog)
debug = util.debuglog("gfs4");
else if (/\bgfs4\b/i.test(process.env.NODE_DEBUG || ""))
debug = function() {
var m = util.format.apply(util, arguments);
m = "GFS4: " + m.split(/\n/).join("\nGFS4: ");
console.error(m);
};
if (!fs[gracefulQueue]) {
queue = global[gracefulQueue] || [];
publishQueue(fs, queue);
fs.close = function(fs$close) {
function close(fd, cb) {
return fs$close.call(fs, fd, function(err) {
if (!err) {
resetQueue();
}
if (typeof cb === "function")
cb.apply(this, arguments);
});
}
Object.defineProperty(close, previousSymbol, {
value: fs$close
});
return close;
}(fs.close);
fs.closeSync = function(fs$closeSync) {
function closeSync(fd) {
fs$closeSync.apply(fs, arguments);
resetQueue();
}
Object.defineProperty(closeSync, previousSymbol, {
value: fs$closeSync
});
return closeSync;
}(fs.closeSync);
if (/\bgfs4\b/i.test(process.env.NODE_DEBUG || "")) {
process.on("exit", function() {
debug(fs[gracefulQueue]);
require("assert").equal(fs[gracefulQueue].length, 0);
});
}
}
var queue;
if (!global[gracefulQueue]) {
publishQueue(global, fs[gracefulQueue]);
}
module2.exports = patch(clone(fs));
if (process.env.TEST_GRACEFUL_FS_GLOBAL_PATCH && !fs.__patched) {
module2.exports = patch(fs);
fs.__patched = true;
}
function patch(fs2) {
polyfills(fs2);
fs2.gracefulify = patch;
fs2.createReadStream = createReadStream;
fs2.createWriteStream = createWriteStream;
var fs$readFile = fs2.readFile;
fs2.readFile = readFile;
function readFile(path, options, cb) {
if (typeof options === "function")
cb = options, options = null;
return go$readFile(path, options, cb);
function go$readFile(path2, options2, cb2, startTime) {
return fs$readFile(path2, options2, function(err) {
if (err && (err.code === "EMFILE" || err.code === "ENFILE"))
enqueue([go$readFile, [path2, options2, cb2], err, startTime || Date.now(), Date.now()]);
else {
if (typeof cb2 === "function")
cb2.apply(this, arguments);
}
});
}
}
var fs$writeFile = fs2.writeFile;
fs2.writeFile = writeFile;
function writeFile(path, data, options, cb) {
if (typeof options === "function")
cb = options, options = null;
return go$writeFile(path, data, options, cb);
function go$writeFile(path2, data2, options2, cb2, startTime) {
return fs$writeFile(path2, data2, options2, function(err) {
if (err && (err.code === "EMFILE" || err.code === "ENFILE"))
enqueue([go$writeFile, [path2, data2, options2, cb2], err, startTime || Date.now(), Date.now()]);
else {
if (typeof cb2 === "function")
cb2.apply(this, arguments);
}
});
}
}
var fs$appendFile = fs2.appendFile;
if (fs$appendFile)
fs2.appendFile = appendFile;
function appendFile(path, data, options, cb) {
if (typeof options === "function")
cb = options, options = null;
return go$appendFile(path, data, options, cb);
function go$appendFile(path2, data2, options2, cb2, startTime) {
return fs$appendFile(path2, data2, options2, function(err) {
if (err && (err.code === "EMFILE" || err.code === "ENFILE"))
enqueue([go$appendFile, [path2, data2, options2, cb2], err, startTime || Date.now(), Date.now()]);
else {
if (typeof cb2 === "function")
cb2.apply(this, arguments);
}
});
}
}
var fs$copyFile = fs2.copyFile;
if (fs$copyFile)
fs2.copyFile = copyFile;
function copyFile(src, dest, flags, cb) {
if (typeof flags === "function") {
cb = flags;
flags = 0;
}
return go$copyFile(src, dest, flags, cb);
function go$copyFile(src2, dest2, flags2, cb2, startTime) {
return fs$copyFile(src2, dest2, flags2, function(err) {
if (err && (err.code === "EMFILE" || err.code === "ENFILE" || err.code === "EBUSY"))
enqueue([go$copyFile, [src2, dest2, flags2, cb2], err, startTime || Date.now(), Date.now()]);
else {
if (typeof cb2 === "function")
cb2.apply(this, arguments);
}
});
}
}
var fs$readdir = fs2.readdir;
fs2.readdir = readdir;
var noReaddirOptionVersions = /^v[0-5]\./;
function readdir(path, options, cb) {
if (typeof options === "function")
cb = options, options = null;
var go$readdir = noReaddirOptionVersions.test(process.version) ? function go$readdir2(path2, options2, cb2, startTime) {
return fs$readdir(path2, fs$readdirCallback(
path2,
options2,
cb2,
startTime
));
} : function go$readdir2(path2, options2, cb2, startTime) {
return fs$readdir(path2, options2, fs$readdirCallback(
path2,
options2,
cb2,
startTime
));
};
return go$readdir(path, options, cb);
function fs$readdirCallback(path2, options2, cb2, startTime) {
return function(err, files) {
if (err && (err.code === "EMFILE" || err.code === "ENFILE"))
enqueue([
go$readdir,
[path2, options2, cb2],
err,
startTime || Date.now(),
Date.now()
]);
else {
if (files && files.sort)
files.sort();
if (typeof cb2 === "function")
cb2.call(this, err, files);
}
};
}
}
if (process.version.substr(0, 4) === "v0.8") {
var legStreams = legacy(fs2);
ReadStream = legStreams.ReadStream;
WriteStream = legStreams.WriteStream;
}
var fs$ReadStream = fs2.ReadStream;
if (fs$ReadStream) {
ReadStream.prototype = Object.create(fs$ReadStream.prototype);
ReadStream.prototype.open = ReadStream$open;
}
var fs$WriteStream = fs2.WriteStream;
if (fs$WriteStream) {
WriteStream.prototype = Object.create(fs$WriteStream.prototype);
WriteStream.prototype.open = WriteStream$open;
}
Object.defineProperty(fs2, "ReadStream", {
get: function() {
return ReadStream;
},
set: function(val) {
ReadStream = val;
},
enumerable: true,
configurable: true
});
Object.defineProperty(fs2, "WriteStream", {
get: function() {
return WriteStream;
},
set: function(val) {
WriteStream = val;
},
enumerable: true,
configurable: true
});
var FileReadStream = ReadStream;
Object.defineProperty(fs2, "FileReadStream", {
get: function() {
return FileReadStream;
},
set: function(val) {
FileReadStream = val;
},
enumerable: true,
configurable: true
});
var FileWriteStream = WriteStream;
Object.defineProperty(fs2, "FileWriteStream", {
get: function() {
return FileWriteStream;
},
set: function(val) {
FileWriteStream = val;
},
enumerable: true,
configurable: true
});
function ReadStream(path, options) {
if (this instanceof ReadStream)
return fs$ReadStream.apply(this, arguments), this;
else
return ReadStream.apply(Object.create(ReadStream.prototype), arguments);
}
function ReadStream$open() {
var that = this;
open(that.path, that.flags, that.mode, function(err, fd) {
if (err) {
if (that.autoClose)
that.destroy();
that.emit("error", err);
} else {
that.fd = fd;
that.emit("open", fd);
that.read();
}
});
}
function WriteStream(path, options) {
if (this instanceof WriteStream)
return fs$WriteStream.apply(this, arguments), this;
else
return WriteStream.apply(Object.create(WriteStream.prototype), arguments);
}
function WriteStream$open() {
var that = this;
open(that.path, that.flags, that.mode, function(err, fd) {
if (err) {
that.destroy();
that.emit("error", err);
} else {
that.fd = fd;
that.emit("open", fd);
}
});
}
function createReadStream(path, options) {
return new fs2.ReadStream(path, options);
}
function createWriteStream(path, options) {
return new fs2.WriteStream(path, options);
}
var fs$open = fs2.open;
fs2.open = open;
function open(path, flags, mode, cb) {
if (typeof mode === "function")
cb = mode, mode = null;
return go$open(path, flags, mode, cb);
function go$open(path2, flags2, mode2, cb2, startTime) {
return fs$open(path2, flags2, mode2, function(err, fd) {
if (err && (err.code === "EMFILE" || err.code === "ENFILE"))
enqueue([go$open, [path2, flags2, mode2, cb2], err, startTime || Date.now(), Date.now()]);
else {
if (typeof cb2 === "function")
cb2.apply(this, arguments);
}
});
}
}
return fs2;
}
function enqueue(elem) {
debug("ENQUEUE", elem[0].name, elem[1]);
fs[gracefulQueue].push(elem);
retry();
}
var retryTimer;
function resetQueue() {
var now = Date.now();
for (var i = 0; i < fs[gracefulQueue].length; ++i) {
if (fs[gracefulQueue][i].length > 2) {
fs[gracefulQueue][i][3] = now;
fs[gracefulQueue][i][4] = now;
}
}
retry();
}
function retry() {
clearTimeout(retryTimer);
retryTimer = void 0;
if (fs[gracefulQueue].length === 0)
return;
var elem = fs[gracefulQueue].shift();
var fn = elem[0];
var args = elem[1];
var err = elem[2];
var startTime = elem[3];
var lastTime = elem[4];
if (startTime === void 0) {
debug("RETRY", fn.name, args);
fn.apply(null, args);
} else if (Date.now() - startTime >= 6e4) {
debug("TIMEOUT", fn.name, args);
var cb = args.pop();
if (typeof cb === "function")
cb.call(null, err);
} else {
var sinceAttempt = Date.now() - lastTime;
var sinceStart = Math.max(lastTime - startTime, 1);
var desiredDelay = Math.min(sinceStart * 1.2, 100);
if (sinceAttempt >= desiredDelay) {
debug("RETRY", fn.name, args);
fn.apply(null, args.concat([startTime]));
} else {
fs[gracefulQueue].push(elem);
}
}
if (retryTimer === void 0) {
retryTimer = setTimeout(retry, 0);
}
}
}
});
// ../fs/graceful-fs/lib/index.js
var require_lib = __commonJS({
"../fs/graceful-fs/lib/index.js"(exports2) {
"use strict";
var __createBinding = exports2 && exports2.__createBinding || (Object.create ? function(o, m, k, k2) {
if (k2 === void 0) k2 = k;
var desc = Object.getOwnPropertyDescriptor(m, k);
if (!desc || ("get" in desc ? !m.__esModule : desc.writable || desc.configurable)) {
desc = { enumerable: true, get: function() {
return m[k];
} };
}
Object.defineProperty(o, k2, desc);
} : function(o, m, k, k2) {
if (k2 === void 0) k2 = k;
o[k2] = m[k];
});
var __setModuleDefault = exports2 && exports2.__setModuleDefault || (Object.create ? function(o, v) {
Object.defineProperty(o, "default", { enumerable: true, value: v });
} : function(o, v) {
o["default"] = v;
});
var __importStar = exports2 && exports2.__importStar || function(mod) {
if (mod && mod.__esModule) return mod;
var result = {};
if (mod != null) {
for (var k in mod) if (k !== "default" && Object.prototype.hasOwnProperty.call(mod, k)) __createBinding(result, mod, k);
}
__setModuleDefault(result, mod);
return result;
};
var __importDefault = exports2 && exports2.__importDefault || function(mod) {
return mod && mod.__esModule ? mod : { "default": mod };
};
Object.defineProperty(exports2, "__esModule", { value: true });
var util_1 = __importStar(require("util"));
var graceful_fs_1 = __importDefault(require_graceful_fs());
exports2.default = {
copyFile: (0, util_1.promisify)(graceful_fs_1.default.copyFile),
copyFileSync: withEagainRetry(graceful_fs_1.default.copyFileSync),
createReadStream: graceful_fs_1.default.createReadStream,
link: (0, util_1.promisify)(graceful_fs_1.default.link),
linkSync: withEagainRetry(graceful_fs_1.default.linkSync),
mkdirSync: withEagainRetry(graceful_fs_1.default.mkdirSync),
renameSync: withEagainRetry(graceful_fs_1.default.renameSync),
readFile: (0, util_1.promisify)(graceful_fs_1.default.readFile),
readFileSync: graceful_fs_1.default.readFileSync,
readdirSync: graceful_fs_1.default.readdirSync,
stat: (0, util_1.promisify)(graceful_fs_1.default.stat),
statSync: graceful_fs_1.default.statSync,
unlinkSync: graceful_fs_1.default.unlinkSync,
writeFile: (0, util_1.promisify)(graceful_fs_1.default.writeFile),
writeFileSync: withEagainRetry(graceful_fs_1.default.writeFileSync)
};
function withEagainRetry(fn, maxRetries = 15) {
return (...args) => {
let attempts = 0;
while (attempts <= maxRetries) {
try {
return fn(...args);
} catch (err) {
if (util_1.default.types.isNativeError(err) && "code" in err && err.code === "EAGAIN" && attempts < maxRetries) {
attempts++;
const delay = Math.min(Math.pow(2, attempts), 300);
Atomics.wait(new Int32Array(new SharedArrayBuffer(4)), 0, 0, delay);
continue;
}
throw err;
}
}
throw new Error("Unreachable");
};
}
}
});
// ../node_modules/.pnpm/minipass@7.1.2/node_modules/minipass/dist/commonjs/index.js
var require_commonjs = __commonJS({
"../node_modules/.pnpm/minipass@7.1.2/node_modules/minipass/dist/commonjs/index.js"(exports2) {
"use strict";
var __importDefault = exports2 && exports2.__importDefault || function(mod) {
return mod && mod.__esModule ? mod : { "default": mod };
};
Object.defineProperty(exports2, "__esModule", { value: true });
exports2.Minipass = exports2.isWritable = exports2.isReadable = exports2.isStream = void 0;
var proc = typeof process === "object" && process ? process : {
stdout: null,
stderr: null
};
var node_events_1 = require("node:events");
var node_stream_1 = __importDefault(require("node:stream"));
var node_string_decoder_1 = require("node:string_decoder");
var isStream = (s) => !!s && typeof s === "object" && (s instanceof Minipass || s instanceof node_stream_1.default || (0, exports2.isReadable)(s) || (0, exports2.isWritable)(s));
exports2.isStream = isStream;
var isReadable = (s) => !!s && typeof s === "object" && s instanceof node_events_1.EventEmitter && typeof s.pipe === "function" && // node core Writable streams have a pipe() method, but it throws
s.pipe !== node_stream_1.default.Writable.prototype.pipe;
exports2.isReadable = isReadable;
var isWritable = (s) => !!s && typeof s === "object" && s instanceof node_events_1.EventEmitter && typeof s.write === "function" && typeof s.end === "function";
exports2.isWritable = isWritable;
var EOF = Symbol("EOF");
var MAYBE_EMIT_END = Symbol("maybeEmitEnd");
var EMITTED_END = Symbol("emittedEnd");
var EMITTING_END = Symbol("emittingEnd");
var EMITTED_ERROR = Symbol("emittedError");
var CLOSED = Symbol("closed");
var READ = Symbol("read");
var FLUSH = Symbol("flush");
var FLUSHCHUNK = Symbol("flushChunk");
var ENCODING = Symbol("encoding");
var DECODER = Symbol("decoder");
var FLOWING = Symbol("flowing");
var PAUSED = Symbol("paused");
var RESUME = Symbol("resume");
var BUFFER = Symbol("buffer");
var PIPES = Symbol("pipes");
var BUFFERLENGTH = Symbol("bufferLength");
var BUFFERPUSH = Symbol("bufferPush");
var BUFFERSHIFT = Symbol("bufferShift");
var OBJECTMODE = Symbol("objectMode");
var DESTROYED = Symbol("destroyed");
var ERROR = Symbol("error");
var EMITDATA = Symbol("emitData");
var EMITEND = Symbol("emitEnd");
var EMITEND2 = Symbol("emitEnd2");
var ASYNC = Symbol("async");
var ABORT = Symbol("abort");
var ABORTED = Symbol("aborted");
var SIGNAL = Symbol("signal");
var DATALISTENERS = Symbol("dataListeners");
var DISCARDED = Symbol("discarded");
var defer = (fn) => Promise.resolve().then(fn);
var nodefer = (fn) => fn();
var isEndish = (ev) => ev === "end" || ev === "finish" || ev === "prefinish";
var isArrayBufferLike = (b) => b instanceof ArrayBuffer || !!b && typeof b === "object" && b.constructor && b.constructor.name === "ArrayBuffer" && b.byteLength >= 0;
var isArrayBufferView = (b) => !Buffer.isBuffer(b) && ArrayBuffer.isView(b);
var Pipe = class {
src;
dest;
opts;
ondrain;
constructor(src, dest, opts) {
this.src = src;
this.dest = dest;
this.opts = opts;
this.ondrain = () => src[RESUME]();
this.dest.on("drain", this.ondrain);
}
unpipe() {
this.dest.removeListener("drain", this.ondrain);
}
// only here for the prototype
/* c8 ignore start */
proxyErrors(_er) {
}
/* c8 ignore stop */
end() {
this.unpipe();
if (this.opts.end)
this.dest.end();
}
};
var PipeProxyErrors = class extends Pipe {
unpipe() {
this.src.removeListener("error", this.proxyErrors);
super.unpipe();
}
constructor(src, dest, opts) {
super(src, dest, opts);
this.proxyErrors = (er) => dest.emit("error", er);
src.on("error", this.proxyErrors);
}
};
var isObjectModeOptions = (o) => !!o.objectMode;
var isEncodingOptions = (o) => !o.objectMode && !!o.encoding && o.encoding !== "buffer";
var Minipass = class extends node_events_1.EventEmitter {
[FLOWING] = false;
[PAUSED] = false;
[PIPES] = [];
[BUFFER] = [];
[OBJECTMODE];
[ENCODING];
[ASYNC];
[DECODER];
[EOF] = false;
[EMITTED_END] = false;
[EMITTING_END] = false;
[CLOSED] = false;
[EMITTED_ERROR] = null;
[BUFFERLENGTH] = 0;
[DESTROYED] = false;
[SIGNAL];
[ABORTED] = false;
[DATALISTENERS] = 0;
[DISCARDED] = false;
/**
* true if the stream can be written
*/
writable = true;
/**
* true if the stream can be read
*/
readable = true;
/**
* If `RType` is Buffer, then options do not need to be provided.
* Otherwise, an options object must be provided to specify either
* {@link Minipass.SharedOptions.objectMode} or
* {@link Minipass.SharedOptions.encoding}, as appropriate.
*/
constructor(...args) {
const options = args[0] || {};
super();
if (options.objectMode && typeof options.encoding === "string") {
throw new TypeError("Encoding and objectMode may not be used together");
}
if (isObjectModeOptions(options)) {
this[OBJECTMODE] = true;
this[ENCODING] = null;
} else if (isEncodingOptions(options)) {
this[ENCODING] = options.encoding;
this[OBJECTMODE] = false;
} else {
this[OBJECTMODE] = false;
this[ENCODING] = null;
}
this[ASYNC] = !!options.async;
this[DECODER] = this[ENCODING] ? new node_string_decoder_1.StringDecoder(this[ENCODING]) : null;
if (options && options.debugExposeBuffer === true) {
Object.defineProperty(this, "buffer", { get: () => this[BUFFER] });
}
if (options && options.debugExposePipes === true) {
Object.defineProperty(this, "pipes", { get: () => this[PIPES] });
}
const { signal } = options;
if (signal) {
this[SIGNAL] = signal;
if (signal.aborted) {
this[ABORT]();
} else {
signal.addEventListener("abort", () => this[ABORT]());
}
}
}
/**
* The amount of data stored in the buffer waiting to be read.
*
* For Buffer strings, this will be the total byte length.
* For string encoding streams, this will be the string character length,
* according to JavaScript's `string.length` logic.
* For objectMode streams, this is a count of the items waiting to be
* emitted.
*/
get bufferLength() {
return this[BUFFERLENGTH];
}
/**
* The `BufferEncoding` currently in use, or `null`
*/
get encoding() {
return this[ENCODING];
}
/**
* @deprecated - This is a read only property
*/
set encoding(_enc) {
throw new Error("Encoding must be set at instantiation time");
}
/**
* @deprecated - Encoding may only be set at instantiation time
*/
setEncoding(_enc) {
throw new Error("Encoding must be set at instantiation time");
}
/**
* True if this is an objectMode stream
*/
get objectMode() {
return this[OBJECTMODE];
}
/**
* @deprecated - This is a read-only property
*/
set objectMode(_om) {
throw new Error("objectMode must be set at instantiation time");
}
/**
* true if this is an async stream
*/
get ["async"]() {
return this[ASYNC];
}
/**
* Set to true to make this stream async.
*
* Once set, it cannot be unset, as this would potentially cause incorrect
* behavior. Ie, a sync stream can be made async, but an async stream
* cannot be safely made sync.
*/
set ["async"](a) {
this[ASYNC] = this[ASYNC] || !!a;
}
// drop everything and get out of the flow completely
[ABORT]() {
this[ABORTED] = true;
this.emit("abort", this[SIGNAL]?.reason);
this.destroy(this[SIGNAL]?.reason);
}
/**
* True if the stream has been aborted.
*/
get aborted() {
return this[ABORTED];
}
/**
* No-op setter. Stream aborted status is set via the AbortSignal provided
* in the constructor options.
*/
set aborted(_) {
}
write(chunk, encoding, cb) {
if (this[ABORTED])
return false;
if (this[EOF])
throw new Error("write after end");
if (this[DESTROYED]) {
this.emit("error", Object.assign(new Error("Cannot call write after a stream was destroyed"), { code: "ERR_STREAM_DESTROYED" }));
return true;
}
if (typeof encoding === "function") {
cb = encoding;
encoding = "utf8";
}
if (!encoding)
encoding = "utf8";
const fn = this[ASYNC] ? defer : nodefer;
if (!this[OBJECTMODE] && !Buffer.isBuffer(chunk)) {
if (isArrayBufferView(chunk)) {
chunk = Buffer.from(chunk.buffer, chunk.byteOffset, chunk.byteLength);
} else if (isArrayBufferLike(chunk)) {
chunk = Buffer.from(chunk);
} else if (typeof chunk !== "string") {
throw new Error("Non-contiguous data written to non-objectMode stream");
}
}
if (this[OBJECTMODE]) {
if (this[FLOWING] && this[BUFFERLENGTH] !== 0)
this[FLUSH](true);
if (this[FLOWING])
this.emit("data", chunk);
else
this[BUFFERPUSH](chunk);
if (this[BUFFERLENGTH] !== 0)
this.emit("readable");
if (cb)
fn(cb);
return this[FLOWING];
}
if (!chunk.length) {
if (this[BUFFERLENGTH] !== 0)
this.emit("readable");
if (cb)
fn(cb);
return this[FLOWING];
}
if (typeof chunk === "string" && // unless it is a string already ready for us to use
!(encoding === this[ENCODING] && !this[DECODER]?.lastNeed)) {
chunk = Buffer.from(chunk, encoding);
}
if (Buffer.isBuffer(chunk) && this[ENCODING]) {
chunk = this[DECODER].write(chunk);
}
if (this[FLOWING] && this[BUFFERLENGTH] !== 0)
this[FLUSH](true);
if (this[FLOWING])
this.emit("data", chunk);
else
this[BUFFERPUSH](chunk);
if (this[BUFFERLENGTH] !== 0)
this.emit("readable");
if (cb)
fn(cb);
return this[FLOWING];
}
/**
* Low-level explicit read method.
*
* In objectMode, the argument is ignored, and one item is returned if
* available.
*
* `n` is the number of bytes (or in the case of encoding streams,
* characters) to consume. If `n` is not provided, then the entire buffer
* is returned, or `null` is returned if no data is available.
*
* If `n` is greater that the amount of data in the internal buffer,
* then `null` is returned.
*/
read(n) {
if (this[DESTROYED])
return null;
this[DISCARDED] = false;
if (this[BUFFERLENGTH] === 0 || n === 0 || n && n > this[BUFFERLENGTH]) {
this[MAYBE_EMIT_END]();
return null;
}
if (this[OBJECTMODE])
n = null;
if (this[BUFFER].length > 1 && !this[OBJECTMODE]) {
this[BUFFER] = [
this[ENCODING] ? this[BUFFER].join("") : Buffer.concat(this[BUFFER], this[BUFFERLENGTH])
];
}
const ret = this[READ](n || null, this[BUFFER][0]);
this[MAYBE_EMIT_END]();
return ret;
}
[READ](n, chunk) {
if (this[OBJECTMODE])
this[BUFFERSHIFT]();
else {
const c = chunk;
if (n === c.length || n === null)
this[BUFFERSHIFT]();
else if (typeof c === "string") {
this[BUFFER][0] = c.slice(n);
chunk = c.slice(0, n);
this[BUFFERLENGTH] -= n;
} else {
this[BUFFER][0] = c.subarray(n);
chunk = c.subarray(0, n);
this[BUFFERLENGTH] -= n;
}
}
this.emit("data", chunk);
if (!this[BUFFER].length && !this[EOF])
this.emit("drain");
return chunk;
}
end(chunk, encoding, cb) {
if (typeof chunk === "function") {
cb = chunk;
chunk = void 0;
}
if (typeof encoding === "function") {
cb = encoding;
encoding = "utf8";
}
if (chunk !== void 0)
this.write(chunk, encoding);
if (cb)
this.once("end", cb);
this[EOF] = true;
this.writable = false;
if (this[FLOWING] || !this[PAUSED])
this[MAYBE_EMIT_END]();
return this;
}
// don't let the internal resume be overwritten
[RESUME]() {
if (this[DESTROYED])
return;
if (!this[DATALISTENERS] && !this[PIPES].length) {
this[DISCARDED] = true;
}
this[PAUSED] = false;
this[FLOWING] = true;
this.emit("resume");
if (this[BUFFER].length)
this[FLUSH]();
else if (this[EOF])
this[MAYBE_EMIT_END]();
else
this.emit("drain");
}
/**
* Resume the stream if it is currently in a paused state
*
* If called when there are no pipe destinations or `data` event listeners,
* this will place the stream in a "discarded" state, where all data will
* be thrown away. The discarded state is removed if a pipe destination or
* data handler is added, if pause() is called, or if any synchronous or
* asynchronous iteration is started.
*/
resume() {
return this[RESUME]();
}
/**
* Pause the stream
*/
pause() {
this[FLOWING] = false;
this[PAUSED] = true;
this[DISCARDED] = false;
}
/**
* true if the stream has been forcibly destroyed
*/
get destroyed() {
return this[DESTROYED];
}
/**
* true if the stream is currently in a flowing state, meaning that
* any writes will be immediately emitted.
*/
get flowing() {
return this[FLOWING];
}
/**
* true if the stream is currently in a paused state
*/
get paused() {
return this[PAUSED];
}
[BUFFERPUSH](chunk) {
if (this[OBJECTMODE])
this[BUFFERLENGTH] += 1;
else
this[BUFFERLENGTH] += chunk.length;
this[BUFFER].push(chunk);
}
[BUFFERSHIFT]() {
if (this[OBJECTMODE])
this[BUFFERLENGTH] -= 1;
else
this[BUFFERLENGTH] -= this[BUFFER][0].length;
return this[BUFFER].shift();
}
[FLUSH](noDrain = false) {
do {
} while (this[FLUSHCHUNK](this[BUFFERSHIFT]()) && this[BUFFER].length);
if (!noDrain && !this[BUFFER].length && !this[EOF])
this.emit("drain");
}
[FLUSHCHUNK](chunk) {
this.emit("data", chunk);
return this[FLOWING];
}
/**
* Pipe all data emitted by this stream into the destination provided.
*
* Triggers the flow of data.
*/
pipe(dest, opts) {
if (this[DESTROYED])
return dest;
this[DISCARDED] = false;
const ended = this[EMITTED_END];
opts = opts || {};
if (dest === proc.stdout || dest === proc.stderr)
opts.end = false;
else
opts.end = opts.end !== false;
opts.proxyErrors = !!opts.proxyErrors;
if (ended) {
if (opts.end)
dest.end();
} else {
this[PIPES].push(!opts.proxyErrors ? new Pipe(this, dest, opts) : new PipeProxyErrors(this, dest, opts));
if (this[ASYNC])
defer(() => this[RESUME]());
else
this[RESUME]();
}
return dest;
}
/**
* Fully unhook a piped destination stream.
*
* If the destination stream was the only consumer of this stream (ie,
* there are no other piped destinations or `'data'` event listeners)
* then the flow of data will stop until there is another consumer or
* {@link Minipass#resume} is explicitly called.
*/
unpipe(dest) {
const p = this[PIPES].find((p2) => p2.dest === dest);
if (p) {
if (this[PIPES].length === 1) {
if (this[FLOWING] && this[DATALISTENERS] === 0) {
this[FLOWING] = false;
}
this[PIPES] = [];
} else
this[PIPES].splice(this[PIPES].indexOf(p), 1);
p.unpipe();
}
}
/**
* Alias for {@link Minipass#on}
*/
addListener(ev, handler) {
return this.on(ev, handler);
}
/**
* Mostly identical to `EventEmitter.on`, with the following
* behavior differences to prevent data loss and unnecessary hangs:
*
* - Adding a 'data' event handler will trigger the flow of data
*
* - Adding a 'readable' event handler when there is data waiting to be read
* will cause 'readable' to be emitted immediately.
*
* - Adding an 'endish' event handler ('end', 'finish', etc.) which has
* already passed will cause the event to be emitted immediately and all
* handlers removed.
*
* - Adding an 'error' event handler after an error has been emitted will
* cause the event to be re-emitted immediately with the error previously
* raised.
*/
on(ev, handler) {
const ret = super.on(ev, handler);
if (ev === "data") {
this[DISCARDED] = false;
this[DATALISTENERS]++;
if (!this[PIPES].length && !this[FLOWING]) {
this[RESUME]();
}
} else if (ev === "readable" && this[BUFFERLENGTH] !== 0) {
super.emit("readable");
} else if (isEndish(ev) && this[EMITTED_END]) {
super.emit(ev);
this.removeAllListeners(ev);
} else if (ev === "error" && this[EMITTED_ERROR]) {
const h = handler;
if (this[ASYNC])
defer(() => h.call(this, this[EMITTED_ERROR]));
else
h.call(this, this[EMITTED_ERROR]);
}
return ret;
}
/**
* Alias for {@link Minipass#off}
*/
removeListener(ev, handler) {
return this.off(ev, handler);
}
/**
* Mostly identical to `EventEmitter.off`
*
* If a 'data' event handler is removed, and it was the last consumer
* (ie, there are no pipe destinations or other 'data' event listeners),
* then the flow of data will stop until there is another consumer or
* {@link Minipass#resume} is explicitly called.
*/
off(ev, handler) {
const ret = super.off(ev, handler);
if (ev === "data") {
this[DATALISTENERS] = this.listeners("data").length;
if (this[DATALISTENERS] === 0 && !this[DISCARDED] && !this[PIPES].length) {
this[FLOWING] = false;
}
}
return ret;
}
/**
* Mostly identical