What's the correct way to handle errors with streams? I already know there's an 'error' event you can listen on, but I want to know some more details about arbitrarily complicated situations.

For starters, what do you do when you want to do a simple pipe chain:


And how do you properly create one of those transforms so that errors are handled correctly?

More related questions:

  • when an error happens, what happens to the 'end' event? Does it never get fired? Does it sometimes get fired? Does it depend on the transform/stream? What are the standards here?
  • are there any mechanisms for propogating errors through the pipes?
  • do domains solve this problem effectively? Examples would be nice.
  • do errors that come out of 'error' events have stack traces? Sometimes? Never? is there a way to get one from them?
  • 1
    This is not trivial. Promise frameworks make it a lot simpler
    – salezica
    Feb 14, 2014 at 5:04
  • 35
    Unfortunately promises/futures can't really help you with streams...
    – B T
    Feb 14, 2014 at 5:06

9 Answers 9



Transform streams are both readable and writeable, and thus are really good 'middle' streams. For this reason, they are sometimes referred to as through streams. They are similar to a duplex stream in this way, except they provide a nice interface to manipulate the data rather than just sending it through. The purpose of a transform stream is to manipulate the data as it is piped through the stream. You may want to do some async calls, for example, or derive a couple of fields, remap some things, etc.

Where you might put a transform stream

For how to create a transform stream see here and here. All you have to do is :

  1. include the stream module
  2. instantiate ( or inherit from) the Transform class
  3. implement a _transform method which takes a (chunk, encoding, callback).

The chunk is your data. Most of the time you won't need to worry about encoding if you are working in objectMode = true. The callback is called when you are done processing the chunk. This chunk is then pushed on to the next stream.

If you want a nice helper module that will enable you to do through stream really really easily, I suggest through2.

For error handling, keep reading.


In a pipe chain, handling errors is indeed non-trivial. According to this thread .pipe() is not built to forward errors. So something like ...

var a = createStream();
a.pipe(b).pipe(c).on('error', function(e){handleError(e)});

... would only listen for errors on the stream c. If an error event was emitted on a, that would not be passed down and, in fact, would throw. To do this correctly:

var a = createStream();
a.on('error', function(e){handleError(e)})
.on('error', function(e){handleError(e)})
.on('error', function(e){handleError(e)});

Now, though the second way is more verbose, you can at least keep the context of where your errors happen. This is usually a good thing.

One library I find helpful though if you have a case where you only want to capture the errors at the destination and you don't care so much about where it happened is event-stream.


When an error event is fired, the end event will not be fired (explicitly). The emitting of an error event will end the stream.


In my experience, domains work really well most of the time. If you have an unhandled error event (i.e. emitting an error on a stream without a listener), the server can crash. Now, as the above article points out, you can wrap the stream in a domain which should properly catch all errors.

var d = domain.create();
 d.on('error', handleAllErrors);
 d.run(function() {
       .pipe(tar.Extract({ path: targetPath }))
       .on('close', cb);

The beauty of domains is that they will preserve the stack traces. Though event-stream does a good job of this as well.

For further reading, check out the stream-handbook1. Pretty in depth, but super useful and gives some great links to lots of helpful modules.

1: Note: this link points to archive.org as the original GitHub repo was deleted around August, 2022.

  • That's really great info, thanks! Could you add a little bit about why you'd want to create a transform stream and why it relates to my question?
    – B T
    Mar 14, 2014 at 0:55
  • Sure - though I figured it related since you asked about it ; ) Mar 14, 2014 at 18:22
  • 1
    Post on this by isaccs on Google Groups- nodejs: groups.google.com/d/msg/nodejs/lJYT9hZxFu0/L59CFbqWGyYJ (not grokbase)
    – jpillora
    May 8, 2014 at 8:44
  • 15
    Note that you do not need to wrap the .on('error') handler in an anonymous function i.e. a.on('error', function(e){handleError(e)}) can just be a.on('error', handleError)
    – timoxley
    Sep 24, 2015 at 9:37
  • 4
    The domain module is being deprecated: nodejs.org/api/domain.html
    – famzah
    Sep 1, 2021 at 5:08

If you are using node >= v10.0.0 you can use stream.pipeline and stream.finished.

For example:

const { pipeline, finished } = require('stream');

  (err) => {
    if (err) {
      console.error('Pipeline failed', err);
    } else {
      console.log('Pipeline succeeded');

finished(input, (err) => {
  if (err) {
    console.error('Stream failed', err);
  } else {
    console.log('Stream is done reading');

See this github PR for more discussion.

  • 2
    Why would you use finished though, when pipeline already has a callback? Jul 1, 2019 at 15:54
  • 5
    You may want to handle errors differently between the pipeline and individual streams.
    – shusson
    Jul 2, 2019 at 10:32
  • Can pipeline be used on duplex streams? If it used on duplex streams, do we need to create 2 pipelines? I have 2 TCP sockets I need to connect to each other, does it make sense to create 2 pipelines? May 9, 2021 at 13:22
  • Thanks, pipeline() is exactly what I was looking for. Feb 19, 2022 at 10:17

domains are deprecated. you dont need them.

for this question, distinctions between transform or writable are not so important.

mshell_lauren's answer is great, but as an alternative you can also explicitly listen for the error event on each stream you think might error. and reuse the handler function if you prefer.

var a = createReadableStream()
var b = anotherTypeOfStream()
var c = createWriteStream()

a.on('error', handler)
b.on('error', handler)
c.on('error', handler)


function handler (err) { console.log(err) }

doing so prevents the infamous uncaught exception should one of those stream fire its error event

  • 5
    lol have fun handling 3 different error events and pray that whoever wrote the 3 different streaming libs implemented error handling correctly Mar 25, 2016 at 18:25
  • 6
    @Alex Mills 1) What is the problem of handling 3 events, and why are they "different", when their type is the same -- error, one may as well then settle with the fact that each event is distinct; 2) what streaming libs are written above, other than native Node.js functionality? and 3) why does it matter how they handle events internally, when this obviously allows anyone to attach additional error handlers on top of whatever is already there? Apr 14, 2016 at 19:37
  • But are the other streams also closed if there is an error in one stream?
    – fishbone
    May 17, 2022 at 13:21

Errors from the whole chain can be propagated to the rightmost stream using a simple function:

function safePipe (readable, transforms) {
    while (transforms.length > 0) {
        var new_readable = transforms.shift();
        readable.on("error", function(e) { new_readable.emit("error", e); });
        readable = new_readable;
    return readable;

which can be used like:

safePipe(readable, [ transform1, transform2, ... ]);

.on("error", handler) only takes care of Stream errors but if you are using custom Transform streams, .on("error", handler) don't catch the errors happening inside _transform function. So one can do something like this for controlling application flow :-

this keyword in _transform function refers to Stream itself, which is an EventEmitter. So you can use try catch like below to catch the errors and later on pass them to the custom event handlers.

// CustomTransform.js
CustomTransformStream.prototype._transform = function (data, enc, done) {
  var stream = this
  try {
    // Do your transform code
  } catch (e) {
    // Now based on the error type, with an if or switch statement
    stream.emit("CTError1", e)
    stream.emit("CTError2", e)

// StreamImplementation.js
  .on("CTError1", function (e) { console.log(e) })
  .on("CTError2", function (e) { /*Lets do something else*/ })

This way, you can keep your logic and error handlers separate. Also , you can opt to handle only some errors and ignore others.

Alternative: RXJS Observable


Use multipipe package to combinate several streams into one duplex stream. And handle errors in one place.

const pipe = require('multipipe')

// pipe streams
const stream = pipe(streamA, streamB, streamC) 

// centralized error handling
stream.on('error', fn)

Use Node.js pattern by creating a Transform stream mechanics and calling its callback done with an argument in order to propagate the error:

var transformStream1 = new stream.Transform(/*{objectMode: true}*/);

transformStream1.prototype._transform = function (chunk, encoding, done) {
  //var stream = this;

  try {
    // Do your transform code
    /* ... */
  } catch (error) {
    // nodejs style for propagating an error
    return done(error);

  // Here, everything went well

// Let's use the transform stream, assuming `someReadStream`
// and `someWriteStream` have been defined before
  .on('error', function (error) {
    console.error('Error in transformStream1:');
  .on('close', function () {
  .on('error', function (error) {
  • Hmm, so you're saying if all stream processors were built like this, errors would propagate?
    – B T
    Sep 28, 2017 at 20:21
  • Thank you. for stream transformer this seems to be the correct way. The error gets propagated by the stram.pipeline which can be very easily wrapped in a promise.
    – AWS User
    Sep 4, 2021 at 20:18
const http = require('http');
const fs = require('fs');
const server = http.createServer();

    const readableStream = fs.createReadStream(__dirname+'/README.md');
    const writeableStream = fs.createWriteStream(__dirname+'/assets/test.txt');
        res.end("File not found")
        res.end("Something went to wrong!")

    console.log("Server is running in 8000 port")
  • I'm pretty sure this does not properly catch errors that happen when piping to writeableStream.
    – B T
    Nov 27, 2021 at 19:50
  • @BT , I have edited my post accroding to your cooments and I believe now we can handle the error whenever we will get some error during piping to writeableStream. Dec 4, 2021 at 11:35

Try catch won't capture the errors that occurred in the stream because as they are thrown after the calling code has already exited. you can refer to the documentation:


  • Thanks, but this doesn't answer the question at all.
    – B T
    Apr 17, 2019 at 21:53
  • Giving me a 40 page document is not helpful. What do you think I should refer to in that giant page? Also, have you read my question? My question is not "does try catch work with streams?" I'm already well aware that try-catch won't work with asynchronous errors, eg ones from stream processing pipelines.
    – B T
    Apr 22, 2019 at 23:17

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