Run arbitrary functions & commands asynchronously before process termination, programatically or via CLI.
If you find it useful, consider starring the project 💪 and/or following its author ❤️ -there's more on the way!
exits
can conditionally intercept signals ('SIGINT'
, 'SIGHUP'
, 'SIGQUIT'
, 'SIGTERM'
), uncaughtException
s, unhandledRejection
s, or end of execution (beforeExit
) on Node.
The only instance in which it will not be able to complete work scheduled via add()
before end of execution is if process.exit()
or SIGKILL
-meant to terminate the process forcefully- are explicitly called.
It can also be used as an executable, allowing you to run a command after a previous one exits, regardless of the cause.
If global CLI usage is intended, you can install globally by running: npm install -g exits
.
Run a command after a main command terminates.
Usage:
$ exits [options] [firstCmd] [lastCmd]
Options:
--stdio <value> stdio options to spawn children processes with.
Can be inherit, pipe, ignore, or a comma separated combination for stdin,stdout,stderr.
Default: inherit.
Example: --stdio pipe,inherit,inherit
--at <value> Termination cases of the first process in which the last command will run.
Can be one of signal, error, success, or a comma separated combination of those.
Default: signal,error,success.
Example: --at signal,error
--log <level> Logging level, one of trace, debug, info, warn, error, or silent.
Default: info.
Example: --log info
--fail <value> Exits with code 1 if command execution fails.
Can be one of first, last, both, or none.
Default: both.
Example: --fail both
-h, --help Show help
-v, --version Show version number
Examples:
$ exits "echo foo" "echo bar"
attach()
starts listening to termination events.unattach()
stops listening to termination events.add()
adds and removes tasks to be run on listened to events before termination.clear()
removes all added tasks.options()
setsexits
options.state()
returns an object with the currentexits
state.on()
subscribes to state changes.control()
controls async execution flow in order to stop parallel execution on triggered termination events.terminate()
explicitly terminates execution while still waiting forexits
tasks to finish.spawn()
safely handles execution of child processes.
import { attach, add } from 'exits';
// By default, attach() will intercept signals, exceptions,
// unhandled rejections, and end of execution events.
// Once we call attach, all hooks added via add() will execute before
// process termination.
attach();
// We can add() before or after we call attach(). Just keep in
// mind only after attach() is called will we intercept process termination.
// add() can be passed a sync or an async function.
add(async () => {
// Do any async op.
await new Promise((resolve) => setTimeout(resolve, 3000));
console.log('Second task has finished');
});
// Tasks added via add() execute serially
// in reverse order of addition by default (LIFO).
add(async () => {
await new Promise((resolve) => setTimeout(resolve, 1000));
console.log('First task has finished');
});
Starts listening to termination events. By default, attach()
will listen to all available events. Calling attach()
several times will have no effect if a particular event is already being listened for.
options
: Object, optional with keys:signal
: boolean; default:true
. Whether to listen to and intercept'SIGINT'
,'SIGHUP'
,'SIGQUIT'
, and'SIGTERM'
events.exception
: boolean; default:true
. Whether to listen to and interceptuncaughtException
(errors).rejection
: boolean; default:true
. Whether to listen to and interceptunhandledRejection
(unhandled promise rejections).exit
: boolean; default:true
. Whether to listen to and interceptbeforeExit
.
import { attach } from 'exits';
// In order to listen to all events we just do:
attach();
// These are all equivalent
attach();
attach({ signal: true, rejection: true });
attach({ signal: true, exception: true, rejection: false, exit: true });
// If we wanted to listen ONLY to exceptions
// we'd do either of these (they are equivalent):
attach({ signal: false, rejection: false, exit: false });
attach({ signal: false, exception: true, rejection: false, exit: false });
Stop listening to all or some termination events. By default, it will stop listening to all currently being listened to. It will only have effect if we are currently listening to some or all of the events passed. It will be automatically called when all tasks have run in order to allow for process exit.
options
:signal
: boolean; default:true
.exception
: boolean; default:true
.rejection
: boolean; default:true
.exit
: boolean; default:true
.
import { unattach } from 'exits';
// Stop listening to all
unattach();
// Stop listening only to exceptions
unattach({ signal: false, rejection: false, exit: false });
Adds a task to be run on attach()
ed events. Returns a removal function.
It can also be called without priority
, with signature: add(fn: function, options?: object): function
.
priority
: number | null | undefined; default:0
. For an equal priority index, tasks added viaadd()
will execute serially, in reverse order of addition (LIFO). Tasks with a lower priority index will always execute first.fn
: function for the task to run on theattach()
ed events, with signature (can be async):(type: string, arg: any, context: any) => Promise<void> | void
:- if
type
is'signal'
,arg
will be any of'SIGINT'
,'SIGHUP'
,'SIGQUIT'
,'SIGTERM'
. - if
type
is either'exception'
or'rejection'
,arg
will be an Error. - if
type
is'exit'
,arg
will be the exit code number. context
is an initially empty object that is passed to all tasks. Tasks can share state by mutating the object.
- if
options
: A task can be marked to apply only for some cases. This would allow, as an example, to only run certain tasks if the process throws an exception, others, if the process is terminated via signal, and others in all cases. It will only act for signals that have beenattach()
ed.signal
: boolean; default:true
.exception
: boolean; default:true
.rejection
: boolean; default:true
.exit
: boolean; default:true
.
import { add } from 'exits';
// Some cleanup task that won't run on signals ('SIGINT',
// 'SIGHUP', 'SIGQUIT', 'SIGTERM')
add(async (type, arg, context) => {
await new Promise((resolve) => setTimeout(resolve, 3000));
console.log('Cleanup is done');
}, null, { signal: false });
// We'll add a task and then remove it.
const remove = add(() => {
// Some task...
});
remove();
Removes all tasks scheduled via add()
. If run inside a task, it will prevent any other following task from executing.
import { clear } from 'exits';
clear();
Sets exits
global options.
options
: object, with optional properties:logger
: string, any of'trace'
,'debug'
,'info'
,'warn'
,'error'
,'silent'
. Setsexits
logging level. Default:'info'
.spawned
: object, determinesexits
behavior in relation to spawned commands. Seespawn()
.resolver
: a resolver function.
import { options } from 'exits';
options({
logger: 'debug'
});
Returns an object with the current exits
state. It will not be mutated on updates, so you need to call state()
each time you want to check it.
The returned object will have properties:
attached
: Which events wasexits
attached to viaattach()
. object, with keys:signal
: booleanexception
: booleanrejection
: booleanexit
: boolean
triggered
: Whether tasks have started running. null if not, otherwise an object containing information as to the termination event that caused it, with keys:type
: One of'signal'
,'exception'
,'rejection'
,'exit'
;arg
:- One of
'SIGINT'
,'SIGHUP'
,'SIGQUIT'
,'SIGTERM'
iftype
is'signal'
. - An Error if
type
is'exception'
or'rejection'
. - A number if
type
isexit
signaling the exit code.
- One of
done
: boolean, whether all task calls have run and finished.
import { state } from 'exits';
state();
Initial state:
{
attached: {
signal: false,
exception: false,
rejection: false,
exit: false
},
triggered: null,
done: false
}
Subscribes to state
changes.
event
: string, any of:'attached'
:cb
will be called whenever theattach()
orunattach()
methods are called and successfully attach or unattach from one or more events.'triggered'
:cb
will be called whenexits
tasks are first started.'done'
:cb
will be called once allexits
tasks complete.
cb
: function, if asynchronous, they will execute in parallel and will be waited for before or afterexits
tasks execute, depending on the nature of theevent
. For convenience, it receives thestate()
method as an argument in order to recover the updated state if needed.
import { on } from 'exits';
on('triggered', (getState) => {
const state = getState();
// do something
});
Used to control async flow. It might occur that some function throws or reject within your library, hence you'd expect exits
task to run, but all other ongoing processes to terminate, particularly if doing costly async operations. For that use case, generate will return an async function from a generator. When the generator is run, it will only continue yielding if exits
tasks have not been triggered.
import { control } from 'exits';
const myAsyncFunction = control(function*(n = 10) {
// You can use yield as you'd use await; res = 20
let res = yield Promise.resolve(n * 2);
// If tasks have been triggered by some event this won't execute
res = yield Promise.resolve(res * 5);
// res = 100
return res;
});
myAsyncFunction(10).then(console.log) // 100
As any explicit call to process.exit()
will terminate the process without running exits
tasks, terminate()
is provided as a replacement.
It will produce termination by that or any other event ('signal'
, 'exception'
, 'rejection'
, or 'exit'
), run all tasks associated with it, and call the resolver function with the type
and arg
passed. Hence, exits
will behave just as if the event hadn't been manually raised.
type
: string, any of'exit'
,'signal'
,'exception'
, or'rejection'
.arg
:- if
type
is'signal'
, it should be the signal string, - if
type
is'exception'
or'rejection'
, it should be an Error, - if
type
is'exit'
, it should be the exit code number.
- if
import { terminate } from 'exits';
// This will run all tasks bound to exit and call the resolver
// with type 'exit' and arg 1. The default resolver will
// then exit the process with code 1.
terminate('exit', 1);
// This will run all tasks bound to exception and call the resolver
// with type 'error' and the error as arg. The default resolver will
// then throw the error, which will cause the process to terminate.
terminate('exception', Error('some error'));
Spawning child processes in a way that behaves coherently with exits
tasks is tricky. To simplify it, even while still offering a relatively low level api, spawn()
is available.
It can also be called without args
, with signature: spawn(cmd: string, options?: object): object
.
cmd
: string, a command to run.args
: string array, optional, arguments forcmd
.options
: object, optional, Node.js'child_process.spawn
options.
spawn()
returns an object, with keys:
ps
: a Node.jsChildProcess
.promise
: a promise, that will:- reject:
- if the child process terminates on error,
- if it exits with a code other than 0,
- or if it terminates with a signal other than
'SIGINT'
,'SIGHUP'
,'SIGQUIT'
or'SIGTERM'
.
- resolve:
- with a
null
value if the process exits with code 0, - or with any of
'SIGINT'
,'SIGHUP'
,'SIGQUIT'
or'SIGTERM'
if the child process terminates on any of those signals.
- with a
- reject:
import { spawn } from 'exits';
const { ps, promise } = spawn('echo', ['hello'], { stdio: 'inherit' });
The way we deal with spawned processes and exits
tasks initialization is defined through spawned
options()
:.
signals
: string, whether to stop listening for'SIGINT'
,'SIGHUP'
,'SIGQUIT'
and'SIGTERM'
signals on the main process while there is a spawned process running. Can be any of:'all'
: stop listening to signals if there is any spawned process running.'bind'
: stop listening only if there is at least one non detached spawned process running.'detached'
: stop listening only if there is at least one detached spawned process running.'none'
: don't stop listening.
wait
: string, whether to wait for spawned processes to exit before and after executingexits
tasks on main process termination. Can be any of:'all'
: wait for all spawned processes to exit.'bind'
: wait for all non detached spawned processes to exit.'detached'
: wait for all detached spawned processes to exit.'none'
: don't wait for any process to exit.
sigterm
: null or number, timeout in milliseconds before sending a'SIGTERM'
signal to all waited for processes that haven't exited by then. Ifnull
, it won't be sent. Only valid whenwait
is not'none'
.sigkill
: null or number, timeout in milliseconds before sending a'SIGKILL'
signal to all waited for processes that haven't exited by then. Ifsigterm
is notnull
, it starts counting after the'SIGTERM'
signal has been sent. Ifnull
, it won't be sent. Only valid whenwait
is not'none'
. Bear in mind if processes are waited for and no'SIGKILL'
is sent, the waiting process might carry on indefinitely if their dueful termination is not handled manually.
These are the defaults:
import { options } from 'exits';
options({
spawned: {
signals: 'bind',
wait: 'bind',
sigterm: 5000,
sigkill: 10000
}
});
The resolver function gets called whenever exits
tasks finalize in order to terminate the current process in a way that is coherent with the first event that caused the tasks to initialize. Hence, it takes two arguments: type
and arg
, in the same fashion as the add()
cb
.
You can switch this function globally by passing a resolver
key to the object taken by options()
.
Simplified default implementation:
import { options } from 'exits';
options({
resolver(type, arg) {
switch (type) {
case 'signal':
return process.kill(process.pid, arg);
case 'exit':
return process.exit(Number(arg));
case 'exception':
case 'rejection':
return setImmediate(() => {
throw arg;
});
default:
return;
}
}
});
The default resolver is also exported, so you could call it inside a function like so:
import { resolver, options } from 'exits';
options({
resolver(type, arg) {
if (type === 'rejection') {
// do something
}
return resolver(type, arg);
}
});
There are two instances in which exits
tasks won't run: when calling process.exit()
explicitly, and when a SIGKILL
signal is received. See terminate()
.
// This will immediately exit the process with a 0 code
process.exit(0);
// This will terminate the process with a SIGKILL signal
process.kill(process.pid, 'SIGKILL');