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The JavaScript implementation of the IPFS protocol.




Project status

We've come a long way, but this project is still in Alpha, lots of development is happening, API might change, beware of the Dragons 🐉..

Want to get started? Check our examples folder to learn how to spawn an IPFS node in Node.js and in the Browser.

You can check the development status at the Waffle Board.

Throughput Graph

Please read this: DHT (automatic content discovery) and Circuit Relay (pierce through NATs and dial between any node in the network) are two fundamental pieces that are not finalized yet. There are multiple applications that can be built without these two services but nevertheless they are fundamental to get that magic IPFS experience. If you want to track progress or contribute, please follow:

Weekly Dev Calls

Table of Contents

Install

This project is available through npm. To install run

> npm install ipfs --save

Requires npm@3 and node@6 or above, tested on OSX & Linux, expected to work on Windows.

Use in Node.js

To include this project programmatically:

const IPFS = require('ipfs')
const node = new IPFS()

Through command line tool

In order to use js-ipfs as a CLI, you must install it with the global flag. Run the following (even if you have ipfs installed locally):

> npm install ipfs --global

The CLI is available by using the command jsipfs in your terminal. This is aliased, instead of using ipfs, to make sure it does not conflict with the Go implementation.

Use in the browser

Learn how to bundle with browserify and webpack in the examples folder.

You can also load it using a <script> using the unpkg CDN or the jsDelivr CDN. Inserting one of the following lines will make a Ipfs object available in the global namespace.

<!-- loading the minified version -->
<script src="https://unpkg.com/ipfs/dist/index.min.js"></script>
<script src="https://cdn.jsdelivr.net/npm/ipfs/dist/index.min.js"></script>

<!-- loading the human-readable (not minified) version -->
<script src="https://unpkg.com/ipfs/dist/index.js"></script>
<script src="https://cdn.jsdelivr.net/npm/ipfs/dist/index.js"></script>

Inserting one of the above lines will make an Ipfs object available in the global namespace.

Usage

IPFS CLI

The jsipfs CLI, available when js-ipfs is installed globally, follows(should, it is a WIP) the same interface defined by go-ipfs, you can always use the help command for help menus.

# Install js-ipfs globally
> npm install ipfs --global
> jsipfs --help
Commands:
  bitswap               A set of commands to manipulate the bitswap agent.
  block                 Manipulate raw IPFS blocks.
  bootstrap             Show or edit the list of bootstrap peers.
  commands              List all available commands
  config <key> [value]  Get and set IPFS config values
  daemon                Start a long-running daemon process
# ...

js-ipfs uses some different default config values, so that they don't clash directly with a go-ipfs node running in the same machine. These are:

  • default repo location: ~/.jsipfs (can be changed with env variable IPFS_PATH)
  • default swarm port: 4002
  • default API port: 5002
  • default Bootstrap is off, to enable it set IPFS_BOOTSTRAP=1

IPFS Daemon

The IPFS Daemon exposes the API defined http-api-spec. You can use any of the IPFS HTTP-API client libraries with it, such as: js-ipfs-api.

If you want a programmatic way to spawn a IPFS Daemon using JavaScript, check out ipfsd-ctl module

IPFS Module

Use the IPFS Module as a dependency of a project to spawn in process instances of IPFS.

Create a IPFS node instance

Creating an IPFS instance couldn't be easier, all you have to do is:

// Create the IPFS node instance
const node = new IPFS()

node.on('ready', () => {
  // Your node is now ready to use \o/

  // stopping a node
  node.stop(() => {
    // node is now 'offline'
  })
})

Advanced options when creating an IPFS node.

When starting a node, you can:

// IPFS will need a repo, it can create one for you or you can pass
// it a repo instance of the type IPFS Repo
// https://github.com/ipfs/js-ipfs-repo
const repo = <IPFS Repo instance or repo path>

const node = new IPFS({
  repo: repo,
  init: true, // default
  // init: false,
  // init: {
  //   bits: 1024 // size of the RSA key generated
  // },
  start: true, // default
  // start: false,
  pass: undefined // default
  // pass: 'pass phrase for key access',
  EXPERIMENTAL: { // enable experimental features
    pubsub: true,
    sharding: true, // enable dir sharding
    dht: true, // enable KadDHT, currently not interopable with go-ipfs
    relay: {
      enabled: true, // enable circuit relay dialer and listener
      hop: {
        enabled: true // enable circuit relay HOP (make this node a relay) 
      }
    }
  },
  config: { // overload the default IPFS node config, find defaults at https://github.com/ipfs/js-ipfs/tree/master/src/core/runtime
    Addresses: {
      Swarm: [
        '/ip4/127.0.0.1/tcp/1337'
      ]
    }
  },
  libp2p: { // add custom modules to the libp2p stack of your node
    modules: {}
  }
})

// Events

node.on('ready', () => {})    // Node is ready to use when you first create it
node.on('error', (err) => {}) // Node has hit some error while initing/starting

node.on('init', () => {})     // Node has successfully finished initing the repo
node.on('start', () => {})    // Node has started
node.on('stop', () => {})     // Node has stopped

You can find some examples and tutorials in the examples folder, these exist to help you get started using js-ipfs.

API

A complete API definition is in the works. Meanwhile, you can learn how to you use js-ipfs through the standard interface at .

Files

Graph

Crypto and Key Management

  • key
    • ipfs.key.export(name, password, [callback])
    • ipfs.key.gen(name, options, [callback])
    • ipfs.key.import(name, pem, password, [callback])
    • ipfs.key.list([callback])
    • ipfs.key.rename(oldName, newName, [callback])
    • ipfs.key.rm(name, [callback])
  • crypto (not yet implemented)

Network

Node Management

Domain data types

A set of data types are exposed directly from the IPFS instance under ipfs.types. That way you're not required to import/require the following.

FAQ

How to enable WebRTC support for js-ipfs in the Browser

To add a WebRTC transport to your js-ipfs node, you must add a WebRTC multiaddr. To do that, simple override the config.Addresses.Swarm array which contains all the multiaddrs which the IPFS node will use. See below:

const node = new IPFS({
  config: {
    Addresses: {
      Swarm: [
        '/dns4/wrtc-star.discovery.libp2p.io/tcp/443/wss/p2p-webrtc-star'
      ]
    }
  }
})

node.on('ready', () => {
  // your instance with WebRTC is ready
})

Important: This transport usage is kind of unstable and several users have experienced crashes. Track development of a solution at ipfs#1088.

Is there WebRTC support for js-ipfs with Node.js?

Yes, however, bare in mind that there isn't a 100% stable solution to use WebRTC in Node.js, use it at your own risk. The most tested options are:

To add WebRTC support in a IPFS node instance, do:

const wrtc = require('wrtc') // or require('electron-webrtc')()
const WStar = require('libp2p-webrtc-star')
const wstar = new WStar({ wrtc: wrtc })

const node = new IPFS({
  repo: 'your-repo-path',
  // start: false,
  config: {
    Addresses: {
      Swarm: [
        "/ip4/0.0.0.0/tcp/4002",
        "/ip4/127.0.0.1/tcp/4003/ws",
        "/dns4/wrtc-star.discovery.libp2p.io/tcp/443/wss/p2p-webrtc-star"
      ]
    }
  },
  libp2p: {
    modules: {
      transport: [wstar],
      discovery: [wstar.discovery]
    }
  }
})

node.on('ready', () => {
  // your instance with WebRTC is ready
})

To add WebRTC support to the IPFS daemon, you only need to install one of the WebRTC modules globally:

npm install wrtc --global
# or
npm install electron-webrtc --global

Then, update your IPFS Daemon config to include the multiaddr for this new transport on the Addresses.Swarm array. Add: "/dns4/wrtc-star.discovery.libp2p.io/wss/p2p-webrtc-star"

How can I configure an IPFS node to use a custom signaling endpoint for my WebRTC transport?

You'll need to execute a compatible signaling server (libp2p-webrtc-star works) and include the correct configuration param for your IPFS node:

  • provide the multiaddr for the signaling server
const node = new IPFS({
  repo: 'your-repo-path',
  config: {
    Addresses: {
      Swarm: [
        '/ip4/127.0.0.1/tcp/9090/ws/p2p-webrtc-star'
      ]
    }
  }
})

The code above assumes you are running a local signaling server on port 9090. Provide the correct values accordingly.

Is there a more stable alternative to webrtc-star that offers a similar functionality?

Yes, websocket-star! A WebSockets based transport that uses a Relay to route the messages. To enable it, just do:

const node = new IPFS({
  config: {
    Addresses: {
      Swarm: [
        '/dns4/ws-star.discovery.libp2p.io/tcp/443/wss/p2p-websocket-star'
      ]
    }
  }
})

node.on('ready', () => {
  // your instance with websocket-star is ready
})

I see some slowness when hopping between tabs Chrome with IPFS nodes, is there a reason why?

Yes, unfortunately, due to Chrome aggressive resource throttling policy, it cuts freezes the execution of any background tab, turning an IPFS node that was running on that webpage into a vegetable state.

A way to mitigate this in Chrome, is to run your IPFS node inside a Service Worker, so that the IPFS instance runs in a background process. You can learn how to install an IPFS node as a service worker in here the repo ipfs-service-worker

Can I use IPFS in my Electron App?

Yes you can and in many ways. Read ipfs/notes#256 for the multiple options.

If your electron-rebuild step is failing, all you need to do is:

# Electron's version.
export npm_config_target=1.7.6
# The architecture of Electron, can be ia32 or x64.
export npm_config_arch=x64
export npm_config_target_arch=x64
# Download headers for Electron.
export npm_config_disturl=https://atom.io/download/electron
# Tell node-pre-gyp that we are building for Electron.
export npm_config_runtime=electron
# Tell node-pre-gyp to build module from source code.
export npm_config_build_from_source=true
# Install all dependencies, and store cache to ~/.electron-gyp.
HOME=~/.electron-gyp npm install

If you find any other issue, please check the Electron Support issue.

Running js-ipfs with Docker

We have automatic Docker builds setup with Docker Hub: https://hub.docker.com/r/ipfs/js-ipfs/

All branches in the Github repository maps to a tag in Docker Hub, except master Git branch which is mapped to latest Docker tag.

You can run js-ipfs like this:

$ docker run -it -p 4002:4002 -p 4003:4003 -p 5002:5002 -p 9090:9090 ipfs/js-ipfs:latest

initializing ipfs node at /root/.jsipfs
generating 2048-bit RSA keypair...done
peer identity: Qmbd5jx8YF1QLhvwfLbCTWXGyZLyEJHrPbtbpRESvYs4FS
to get started, enter:

         jsipfs files cat /ipfs/QmfGBRT6BbWJd7yUc2uYdaUZJBbnEFvTqehPFoSMQ6wgdr/readme

Initializing daemon...
Using wrtc for webrtc support
Swarm listening on /ip4/127.0.0.1/tcp/4003/ws/ipfs/Qmbd5jx8YF1QLhvwfLbCTWXGyZLyEJHrPbtbpRESvYs4FS
Swarm listening on /ip4/172.17.0.2/tcp/4003/ws/ipfs/Qmbd5jx8YF1QLhvwfLbCTWXGyZLyEJHrPbtbpRESvYs4FS
Swarm listening on /ip4/127.0.0.1/tcp/4002/ipfs/Qmbd5jx8YF1QLhvwfLbCTWXGyZLyEJHrPbtbpRESvYs4FS
Swarm listening on /ip4/172.17.0.2/tcp/4002/ipfs/Qmbd5jx8YF1QLhvwfLbCTWXGyZLyEJHrPbtbpRESvYs4FS
API is listening on: /ip4/0.0.0.0/tcp/5002
Gateway (readonly) is listening on: /ip4/0.0.0.0/tcp/9090
Daemon is ready

$ curl --silent localhost:5002/api/v0/id | jq .ID
"Qmbd5jx8YF1QLhvwfLbCTWXGyZLyEJHrPbtbpRESvYs4FS"

Packages

Package Version Deps DevDeps Travis Circle AppVeyor Coverage
API Specs
interface-ipfs-core npm Dep devDep Travis
http-api-spec
cli spec
Repo
ipfs-repo npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
DAG
ipld-resolver npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
ipld-dag-pb npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
ipld-dag-cbor npm Dep devDep Travis Circle Appveyor CI Coverage Status
Files
ipfs-unixfs-engine npm Dep devDep Travis Circle Appveyor CI Coverage Status
Exchange
ipfs-block-service npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
ipfs-bitswap npm Dep devDep Travis Circle Appveyor CI Coverage
Swarm/libp2p
js-libp2p npm Dep devDep Travis Circle Appveyor CI Coverage
js-libp2p-circuit npm Dep devDep Travis Circle Appveyor CI Coverage Status
js-libp2p-floodsub npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
js-libp2p-kad-dht npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
js-libp2p-mdns npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
js-libp2p-multiplex npm Dep devDep Travis Circle CI Appveyor CI
js-libp2p-railing npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
js-libp2p-secio npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
js-libp2p-tcp npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
js-libp2p-webrtc-star npm Dep devDep Travis Circle Appveyor CI Coverage
js-libp2p-websocket-star npm Dep devDep Travis Circle Appveyor CI Coverage
js-libp2p-websockets npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
Data Types
ipfs-block npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
ipfs-unixfs npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
peer-id npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
peer-info npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
multiaddr npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
multihashes npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
Generics/Utils
ipfs-api npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
ipfs-multipart npm Dep devDep Travis Appveyor CI Coverage Status
is-ipfs npm Dep devDep Travis Appveyor CI Coverage Status
multihashing npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
mafmt npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
Crypto
libp2p-crypto npm Dep devDep Travis Circle CI Appveyor CI Coverage Status
libp2p-keychain npm Dep devDep Travis Circle CI Appveyor CI Coverage Status

Development

Clone and install dependencies

> git clone https://github.com/ipfs/js-ipfs.git
> cd js-ipfs
> npm install

Run unit tests

# run all the unit tsts
> npm test

# run just IPFS tests in Node.js
> npm run test:node:core

# run just IPFS core tests
> npm run test:node:core

# run just IPFS HTTP-API tests
> npm run test:node:http

# run just IPFS CLI tests
> npm run test:node:cli

# run just IPFS core tests in the Browser (Chrome)
> npm run test:browser

Run interop tests

Run the interop tests with https://github.com/ipfs/interop

Run benchmark tests

# run all the benchmark tests
> npm run benchmark

# run just IPFS benchmarks in Node.js
> npm run benchmark:node

# run just IPFS benchmarks in Node.js for an IPFS instance
> npm run benchmark:node:core

# run just IPFS benchmarks in Node.js for an IPFS daemon
> npm run benchmark:node:http

# run just IPFS benchmarks in the browser (Chrome)
> npm run benchmark:browser

Lint

Conforming to linting rules is a prerequisite to commit to js-ipfs.

> npm run lint

Build a dist version

> npm run build

Code Architecture and folder Structure

Source code
> tree src -L 2
src                 # Main source code folder
├── cli             # Implementation of the IPFS CLI
│   └── ...
├── http-api        # The HTTP-API implementation of IPFS as defined by http-api-spec
├── core            # IPFS implementation, the core (what gets loaded in browser)
│   ├── components  # Each of IPFS subcomponent
│   └── ...
└── ...

Monitoring

The HTTP API exposed with js-ipfs can also be used for exposing metrics about the running js-ipfs node and other Node.js metrics.

To enable it, you need to set the environment variable IPFS_MONITORING (any value)

Once the environment variable is set and the js-ipfs daemon is running, you can get the metrics (in prometheus format) by making a GET request to the following endpoint:

http://localhost:5002/debug/metrics/prometheus

IPFS Core Architecture

What does this image explain?

  • IPFS uses ipfs-repo which picks fs or indexeddb as its storage drivers, depending if it is running in Node.js or in the Browser.
  • The exchange protocol, bitswap, uses the Block Service which in turn uses the Repo, offering a get and put of blocks to the IPFS implementation.
  • The DAG API (previously Object) comes from the IPLD Resolver, it can support several IPLD Formats (i.e: dag-pb, dag-cbor, etc).
  • The Files API uses ipfs-unixfs-engine to import and export files to and from IPFS.
  • Swarm, the component that offers a network API, uses libp2p to dial and listen for connections, to use the DHT, for discovery mechanisms, and more. libp2p-ipfs-nodejs is used when running in Node.js and libp2p-ipfs-browser is used when running in the browser.

Contribute

IPFS implementation in JavaScript is a work in progress. As such, there's a few things you can do right now to help out:

  • Go through the modules below and check out existing issues. This would be especially useful for modules in active development. Some knowledge of IPFS may be required, as well as the infrastructure behind it - for instance, you may need to read up on p2p and more complex operations like muxing to be able to help technically.
  • Perform code reviews. More eyes will help (a) speed the project along, (b) ensure quality, and (c) reduce possible future bugs.
  • Take a look at go-ipfs and some of the planning repositories or issues: for instance, the libp2p spec. Contributions here that would be most helpful are top-level comments about how it should look based on our understanding. Again, the more eyes the better.
  • Add tests. There can never be enough tests.
  • Contribute to the FAQ repository with any questions you have about IPFS or any of the relevant technology. A good example would be asking, 'What is a merkledag tree?'. If you don't know a term, odds are, someone else doesn't either. Eventually, we should have a good understanding of where we need to improve communications and teaching together to make IPFS and IPN better.

Want to hack on IPFS?

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