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// Note: since nyc uses this module to output coverage, any lines
// that are in the direct sync flow of nyc's outputCoverage are
// ignored, since we can never get coverage for them.
// grab a reference to node's real process object right away
import { signals } from './signals.js';
export { signals };
const processOk = (process) => !!process &&
typeof process === 'object' &&
typeof process.removeListener === 'function' &&
typeof process.emit === 'function' &&
typeof process.reallyExit === 'function' &&
typeof process.listeners === 'function' &&
typeof process.kill === 'function' &&
typeof process.pid === 'number' &&
typeof process.on === 'function';
const kExitEmitter = Symbol.for('signal-exit emitter');
const global = globalThis;
const ObjectDefineProperty = Object.defineProperty.bind(Object);
// teeny special purpose ee
class Emitter {
emitted = {
afterExit: false,
exit: false,
};
listeners = {
afterExit: [],
exit: [],
};
count = 0;
id = Math.random();
constructor() {
if (global[kExitEmitter]) {
return global[kExitEmitter];
}
ObjectDefineProperty(global, kExitEmitter, {
value: this,
writable: false,
enumerable: false,
configurable: false,
});
}
on(ev, fn) {
this.listeners[ev].push(fn);
}
removeListener(ev, fn) {
const list = this.listeners[ev];
const i = list.indexOf(fn);
/* c8 ignore start */
if (i === -1) {
return;
}
/* c8 ignore stop */
if (i === 0 && list.length === 1) {
list.length = 0;
}
else {
list.splice(i, 1);
}
}
emit(ev, code, signal) {
if (this.emitted[ev]) {
return false;
}
this.emitted[ev] = true;
let ret = false;
for (const fn of this.listeners[ev]) {
ret = fn(code, signal) === true || ret;
}
if (ev === 'exit') {
ret = this.emit('afterExit', code, signal) || ret;
}
return ret;
}
}
class SignalExitBase {
}
const signalExitWrap = (handler) => {
return {
onExit(cb, opts) {
return handler.onExit(cb, opts);
},
load() {
return handler.load();
},
unload() {
return handler.unload();
},
};
};
class SignalExitFallback extends SignalExitBase {
onExit() {
return () => { };
}
load() { }
unload() { }
}
class SignalExit extends SignalExitBase {
// "SIGHUP" throws an `ENOSYS` error on Windows,
// so use a supported signal instead
/* c8 ignore start */
#hupSig = process.platform === 'win32' ? 'SIGINT' : 'SIGHUP';
/* c8 ignore stop */
#emitter = new Emitter();
#process;
#originalProcessEmit;
#originalProcessReallyExit;
#sigListeners = {};
#loaded = false;
constructor(process) {
super();
this.#process = process;
// { <signal>: <listener fn>, ... }
this.#sigListeners = {};
for (const sig of signals) {
this.#sigListeners[sig] = () => {
// If there are no other listeners, an exit is coming!
// Simplest way: remove us and then re-send the signal.
// We know that this will kill the process, so we can
// safely emit now.
const listeners = this.#process.listeners(sig);
let { count } = this.#emitter;
// This is a workaround for the fact that signal-exit v3 and signal
// exit v4 are not aware of each other, and each will attempt to let
// the other handle it, so neither of them do. To correct this, we
// detect if we're the only handler *except* for previous versions
// of signal-exit, and increment by the count of listeners it has
// created.
/* c8 ignore start */
const p = process;
if (typeof p.__signal_exit_emitter__ === 'object' &&
typeof p.__signal_exit_emitter__.count === 'number') {
count += p.__signal_exit_emitter__.count;
}
/* c8 ignore stop */
if (listeners.length === count) {
this.unload();
const ret = this.#emitter.emit('exit', null, sig);
/* c8 ignore start */
const s = sig === 'SIGHUP' ? this.#hupSig : sig;
if (!ret)
process.kill(process.pid, s);
/* c8 ignore stop */
}
};
}
this.#originalProcessReallyExit = process.reallyExit;
this.#originalProcessEmit = process.emit;
}
onExit(cb, opts) {
/* c8 ignore start */
if (!processOk(this.#process)) {
return () => { };
}
/* c8 ignore stop */
if (this.#loaded === false) {
this.load();
}
const ev = opts?.alwaysLast ? 'afterExit' : 'exit';
this.#emitter.on(ev, cb);
return () => {
this.#emitter.removeListener(ev, cb);
if (this.#emitter.listeners['exit'].length === 0 &&
this.#emitter.listeners['afterExit'].length === 0) {
this.unload();
}
};
}
load() {
if (this.#loaded) {
return;
}
this.#loaded = true;
// This is the number of onSignalExit's that are in play.
// It's important so that we can count the correct number of
// listeners on signals, and don't wait for the other one to
// handle it instead of us.
this.#emitter.count += 1;
for (const sig of signals) {
try {
const fn = this.#sigListeners[sig];
if (fn)
this.#process.on(sig, fn);
}
catch (_) { }
}
this.#process.emit = (ev, ...a) => {
return this.#processEmit(ev, ...a);
};
this.#process.reallyExit = (code) => {
return this.#processReallyExit(code);
};
}
unload() {
if (!this.#loaded) {
return;
}
this.#loaded = false;
signals.forEach(sig => {
const listener = this.#sigListeners[sig];
/* c8 ignore start */
if (!listener) {
throw new Error('Listener not defined for signal: ' + sig);
}
/* c8 ignore stop */
try {
this.#process.removeListener(sig, listener);
/* c8 ignore start */
}
catch (_) { }
/* c8 ignore stop */
});
this.#process.emit = this.#originalProcessEmit;
this.#process.reallyExit = this.#originalProcessReallyExit;
this.#emitter.count -= 1;
}
#processReallyExit(code) {
/* c8 ignore start */
if (!processOk(this.#process)) {
return 0;
}
this.#process.exitCode = code || 0;
/* c8 ignore stop */
this.#emitter.emit('exit', this.#process.exitCode, null);
return this.#originalProcessReallyExit.call(this.#process, this.#process.exitCode);
}
#processEmit(ev, ...args) {
const og = this.#originalProcessEmit;
if (ev === 'exit' && processOk(this.#process)) {
if (typeof args[0] === 'number') {
this.#process.exitCode = args[0];
/* c8 ignore start */
}
/* c8 ignore start */
const ret = og.call(this.#process, ev, ...args);
/* c8 ignore start */
this.#emitter.emit('exit', this.#process.exitCode, null);
/* c8 ignore stop */
return ret;
}
else {
return og.call(this.#process, ev, ...args);
}
}
}
const process = globalThis.process;
// wrap so that we call the method on the actual handler, without
// exporting it directly.
export const {
/**
* Called when the process is exiting, whether via signal, explicit
* exit, or running out of stuff to do.
*
* If the global process object is not suitable for instrumentation,
* then this will be a no-op.
*
* Returns a function that may be used to unload signal-exit.
*/
onExit,
/**
* Load the listeners. Likely you never need to call this, unless
* doing a rather deep integration with signal-exit functionality.
* Mostly exposed for the benefit of testing.
*
* @internal
*/
load,
/**
* Unload the listeners. Likely you never need to call this, unless
* doing a rather deep integration with signal-exit functionality.
* Mostly exposed for the benefit of testing.
*
* @internal
*/
unload, } = signalExitWrap(processOk(process) ? new SignalExit(process) : new SignalExitFallback());
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