I need to create a Zip file that consists of a selection of files (videos and images) located in my s3 bucket.

The problem at the moment using my code below is that I quickly hit the memory limit on Lambda.

async.eachLimit(files, 10, function(file, next) {
    var params = {
        Bucket: bucket, // bucket name
        Key: file.key
    s3.getObject(params, function(err, data) {
        if (err) {
            console.log('file', file.key);
            console.log('get image files err',err, err.stack); // an error occurred
        } else {
            console.log('file', file.key);
            zip.file(file.key, data.Body);
function(err) {
    if (err) {
        console.log('err', err);
    } else {
        console.log('zip', zip);
        content = zip.generateNodeStream({
            type: 'nodebuffer',
        var params = {
            Bucket: bucket, // name of dest bucket
            Key: 'zipped/images.zip',
            Body: content
        s3.upload(params, function(err, data) {
            if (err) {
                console.log('upload zip to s3 err',err, err.stack); // an error occurred
            } else {
                console.log(data); // successful response
  • Is this possible using Lambda, or should I look at a different approach?

  • Is it possible to write to a compressed zip file on the fly, therefore eliminating the memory issue somewhat, or do I need to have the files collected before compression?

Any help would be much appreciated.


Okay, I got to do this today and it works. Direct Buffer to Stream, no disk involved. So memory or disk limitation won't be an issue here:

'use strict';

const AWS = require("aws-sdk");
AWS.config.update( { region: "eu-west-1" } );
const s3 = new AWS.S3( { apiVersion: '2006-03-01'} );

const   _archiver = require('archiver');

//This returns us a stream.. consider it as a real pipe sending fluid to S3 bucket.. Don't forget it
const streamTo = (_bucket, _key) => {
	var stream = require('stream');
	var _pass = new stream.PassThrough();
	s3.upload( { Bucket: _bucket, Key: _key, Body: _pass }, (_err, _data) => { /*...Handle Errors Here*/ } );
	return _pass;
exports.handler = async (_req, _ctx, _cb) => {
	var _keys = ['list of your file keys in s3'];
    var _list = await Promise.all(_keys.map(_key => new Promise((_resolve, _reject) => {
            s3.getObject({Bucket:'bucket-name', Key:_key})
                .then(_data => _resolve( { data: _data.Body, name: `${_key.split('/').pop()}` } ));
    ))).catch(_err => { throw new Error(_err) } );

    await new Promise((_resolve, _reject) => { 
        var _myStream = streamTo('bucket-name', 'fileName.zip');		//Now we instantiate that pipe...
        var _archive = _archiver('zip');
        _archive.on('error', err => { throw new Error(err); } );
        //Your promise gets resolved when the fluid stops running... so that's when you get to close and resolve
        _myStream.on('close', _resolve);
        _myStream.on('end', _resolve);
        _myStream.on('error', _reject);
        _archive.pipe(_myStream);			//Pass that pipe to _archive so it can push the fluid straigh down to S3 bucket
        _list.forEach(_itm => _archive.append(_itm.data, { name: _itm.name } ) );		//And then we start adding files to it
        _archive.finalize();				//Tell is, that's all we want to add. Then when it finishes, the promise will resolve in one of those events up there
    }).catch(_err => { throw new Error(_err) } );
    _cb(null, { } );		//Handle response back to server

  • 3
    would it be possible to stream the zip back as the response, directly to the "user" ? – bobmoff Jan 7 '19 at 23:12
  • 2
    @bobmoff, with Lambda, NO because we don't have a direct access to the HTTP response stream. In regular NodeJs environment, YES that's possible. Checking the NodeJs docs, HTTP requests and responses are a part of the Writable Streams objects: link just like zlib, fs etc but we don't have a direct access to that in Lambda; we only use the callback function to communicate back to the client. – iocoker Jan 10 '19 at 4:54
  • 1
    I just noticed that you dont stream the objects from s3, which could cause memory problems if downloading many files, right? I am not sure what the .get method does in tour example, as it doesnt exist on aws-sdk. Guess u mean getObject. But anyway as you are waiting for all the downloaded objects to finish that means that all those object have to live in memory at the same time. Lambda have limited memory, so I guess it would have to use the .getReadStream instead and append those to the archiver, or am I missing something? – bobmoff Jan 10 '19 at 23:03
  • @bobmoff That's correct, sorry we have a wrapper for all s3 operations, should be getObject and you should pass in a return function. – iocoker Jan 11 '19 at 9:54
  • 2
    I just tried it using s3.getObject().createReadStream() and the memory usage stops are around 170mb for the my test of 100 files of around 3-10mb. Compared to without the stream it goes up to 730mb. It is also faster as it doesn't have to wait for all the objects to be downloaded first and THEN start the stream to the bucket. – bobmoff Jan 11 '19 at 10:17

I formated the code according to @iocoker.

main entry

// index.js

'use strict';
const S3Zip = require('./s3-zip')

const params = {
  files: [
      fileName: '1.jpg',
      key: 'key1.JPG'
      fileName: '2.jpg',
      key: 'key2.JPG'
  zippedFileKey: 'zipped-file-key.zip'

exports.handler = async event => {
  const s3Zip = new S3Zip(params);
  await s3Zip.process();

  return {
    statusCode: 200,
    body: JSON.stringify(
        message: 'Zip file successfully!'


Zip file util

// s3-zip.js

'use strict';
const fs = require('fs');
const AWS = require("aws-sdk");

const Archiver = require('archiver');
const Stream = require('stream');

const https = require('https');
const sslAgent = new https.Agent({
  KeepAlive: true,
  rejectUnauthorized: true
  httpOptions: {
    agent: sslAgent,
  region: 'us-east-1'

module.exports = class S3Zip {
  constructor(params, bucketName = 'default-bucket') {
    this.params = params;
    this.BucketName = bucketName;

  async process() {
    const { params, BucketName } = this;
    const s3 = new AWS.S3({ apiVersion: '2006-03-01', params: { Bucket: BucketName } });

    // create readstreams for all the output files and store them
    const createReadStream = fs.createReadStream;
    const s3FileDwnldStreams = params.files.map(item => {
      const stream = s3.getObject({ Key: item.key }).createReadStream();
      return {
        fileName: item.fileName

    const streamPassThrough = new Stream.PassThrough();
    // Create a zip archive using streamPassThrough style for the linking request in s3bucket
    const uploadParams = {
      ACL: 'private',
      Body: streamPassThrough,
      ContentType: 'application/zip',
      Key: params.zippedFileKey

    const s3Upload = s3.upload(uploadParams, (err, data) => {
      if (err) {
        console.error('upload err', err)
      } else {
        console.log('upload data', data);

    s3Upload.on('httpUploadProgress', progress => {
      // console.log(progress); // { loaded: 4915, total: 192915, part: 1, key: 'foo.jpg' }

    // create the archiver
    const archive = Archiver('zip', {
      zlib: { level: 0 }
    archive.on('error', (error) => {
      throw new Error(`${error.name} ${error.code} ${error.message} ${error.path} ${error.stack}`);

    // connect the archiver to upload streamPassThrough and pipe all the download streams to it
    await new Promise((resolve, reject) => {
      console.log("Starting upload of the output Files Zip Archive");

      s3Upload.on('close', resolve());
      s3Upload.on('end', resolve());
      s3Upload.on('error', reject());

      s3FileDwnldStreams.forEach((s3FileDwnldStream) => {
        archive.append(s3FileDwnldStream.stream, { name: s3FileDwnldStream.fileName })

    }).catch((error) => {
      throw new Error(`${error.code} ${error.message} ${error.data}`);

    // Finally wait for the uploader to finish
    await s3Upload.promise();


Using streams may be tricky as I'm not sure how you could pipe multiple streams into an object. I've done this several times using standard file object. It's a multistep process and it's quite fast. Remember that Lambda operates in Linux so you have all Linux resources at hand including the system /tmp directory.

  1. Create a sub-directory in /tmp call "transient" or whatever works for you
  2. Use s3.getObject() and write file objects to /tmp/transient
  3. Use the GLOB package to generate an array[] of paths from /tmp/transient
  4. Loop the array and zip.addLocalFile(array[i]);
  5. zip.writeZip('tmp/files.zip');
  • The only issue I can see with this is that lambda is limited to 500mb storage in the tmp directory. In this case it would also limit the final zip size. – Rabona Aug 30 '16 at 10:29
  • 1
    Not sure if you're running any file processing along side the .zip process, but with that amount of data, you make want to make sure your function can complete within the 5 minute execution time frame. My largest data size is typically around 20-25mg per execution. – jp_inc Aug 31 '16 at 18:57
  • @Rabona did you manage to solve this issue via lambda? I'm having the same issue. We need to zip a 1.5GB video file with about 100Mb of images. We run out of memory. We have also tried with a smaller video file (~1gb) with the same images and get timeouts. Hoping you may have uncovered something useful that could help us out too. – Forer Oct 28 '16 at 10:57
  • 2
    We eventually solved this issue using a Java streaming solution. This allowed us to bypass the memory issues. – Rabona Nov 1 '16 at 12:02
  • 1
    could you please share how did you solve it using Java streaming solution? – Oleg Jul 4 '17 at 14:15

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