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mirror of https://github.com/fluencelabs/js-libp2p synced 2025-03-16 23:50:51 +00:00
Vasco Santos efc96c2f19 refactor: examples/discovery-mechanisms ()
* refactor: examples-discovery-mechanisms

* chore: apply suggestions from code review

Co-Authored-By: Jacob Heun <jacobheun@gmail.com>

* chore: suggestion interval

Co-Authored-By: Jacob Heun <jacobheun@gmail.com>

* chore: add peer connected event

Co-authored-by: Jacob Heun <jacobheun@gmail.com>
2020-01-24 14:40:40 +01:00
..

Peer Discovery Mechanisms

A Peer Discovery module enables libp2p to find peers to connect to. Think of these mechanisms as ways to join the rest of the network, as railing points.

With these system, a libp2p node can both have a set of nodes to always connect on boot (bootstraper nodes), discover nodes through locality (e.g connected in the same LAN) or through serendipity (random walks on a DHT).

These mechanisms save configuration and enable a node to operate without any explicit dials, it will just work.

1. Bootstrap list of Peers when booting a node

For this demo, we will connect to IPFS default bootstrapper nodes and so, we will need to support the same set of features those nodes have, that are: TCP, mplex and SECIO. You can see the complete example at 1.js.

First, we create our libp2p node.

const Libp2p = require('libp2p')
const Bootstrap = require('libp2p-bootstrap')

const node = Libp2p.create({
  modules: {
    transport: [ TCP ],
    streamMuxer: [ Mplex ],
    connEncryption: [ SECIO ],
    peerDiscovery: [ Bootstrap ]
  },
  config: {
    peerDiscovery: {
      bootstrap: {
        interval: 60e3,
        enabled: true,
        list: bootstrapers
      }
    }
  }
})

In this configuration, we use a bootstrappers array listing peers to connect on boot. Here is the list used by js-ipfs and go-ipfs.

const bootstrapers = [
  '/ip4/104.131.131.82/tcp/4001/p2p/QmaCpDMGvV2BGHeYERUEnRQAwe3N8SzbUtfsmvsqQLuvuJ',
  '/ip4/104.236.176.52/tcp/4001/p2p/QmSoLnSGccFuZQJzRadHn95W2CrSFmZuTdDWP8HXaHca9z',
  '/ip4/104.236.179.241/tcp/4001/p2p/QmSoLPppuBtQSGwKDZT2M73ULpjvfd3aZ6ha4oFGL1KrGM',
  '/ip4/162.243.248.213/tcp/4001/p2p/QmSoLueR4xBeUbY9WZ9xGUUxunbKWcrNFTDAadQJmocnWm',
  '/ip4/128.199.219.111/tcp/4001/p2p/QmSoLSafTMBsPKadTEgaXctDQVcqN88CNLHXMkTNwMKPnu',
  '/ip4/104.236.76.40/tcp/4001/p2p/QmSoLV4Bbm51jM9C4gDYZQ9Cy3U6aXMJDAbzgu2fzaDs64',
  '/ip4/178.62.158.247/tcp/4001/p2p/QmSoLer265NRgSp2LA3dPaeykiS1J6DifTC88f5uVQKNAd',
  '/ip4/178.62.61.185/tcp/4001/p2p/QmSoLMeWqB7YGVLJN3pNLQpmmEk35v6wYtsMGLzSr5QBU3',
  '/ip4/104.236.151.122/tcp/4001/p2p/QmSoLju6m7xTh3DuokvT3886QRYqxAzb1kShaanJgW36yx'
]

Now, once we create and start the node, we can listen for events such as peer:discovery and peer:connect, these events tell us when we found a peer, independently of the discovery mechanism used and when we actually dialed to that peer.

const node = await Libp2p.create({
  peerInfo,
  modules: {
    transport: [ TCP ],
    streamMuxer: [ Mplex ],
    connEncryption: [ SECIO ],
    peerDiscovery: [ Bootstrap ]
  },
  config: {
    peerDiscovery: {
      bootstrap: {
        interval: 60e3,
        enabled: true,
        list: bootstrapers
      }
    }
  }
})

node.peerInfo.multiaddrs.add('/ip4/0.0.0.0/tcp/0')

node.on('peer:connect', (peer) => {
  console.log('Connection established to:', peer.id.toB58String())	// Emitted when a peer has been found
})

// Emitted when a peer has been found
node.on('peer:discovery', (peer) => {
  console.log('Discovered:', peer.id.toB58String())
})

await node.start()

From running 1.js, you should see the following:

> node 1.js
Discovered: QmaCpDMGvV2BGHeYERUEnRQAwe3N8SzbUtfsmvsqQLuvuJ
Discovered: QmSoLnSGccFuZQJzRadHn95W2CrSFmZuTdDWP8HXaHca9z
Discovered: QmSoLPppuBtQSGwKDZT2M73ULpjvfd3aZ6ha4oFGL1KrGM
Discovered: QmSoLueR4xBeUbY9WZ9xGUUxunbKWcrNFTDAadQJmocnWm
Discovered: QmSoLSafTMBsPKadTEgaXctDQVcqN88CNLHXMkTNwMKPnu
Discovered: QmSoLV4Bbm51jM9C4gDYZQ9Cy3U6aXMJDAbzgu2fzaDs64
Discovered: QmSoLer265NRgSp2LA3dPaeykiS1J6DifTC88f5uVQKNAd
Discovered: QmSoLMeWqB7YGVLJN3pNLQpmmEk35v6wYtsMGLzSr5QBU3
Discovered: QmSoLju6m7xTh3DuokvT3886QRYqxAzb1kShaanJgW36yx

2. MulticastDNS to find other peers in the network

For this example, we need libp2p-mdns, go ahead and npm install it. You can find the complete solution at 2.js.

Update your libp2p configuration to include MulticastDNS.

const Libp2p = require('libp2p')
const MulticastDNS = require('libp2p-mdns')

const createNode = () => {
  return Libp2p.create({
    modules: {
      transport: [ TCP ],
      streamMuxer: [ Mplex ],
      connEncryption: [ SECIO ],
      peerDiscovery: [ MulticastDNS ]
    },
    config: {
      peerDiscovery: {
        mdns: {
          interval: 20e3,
          enabled: true
        }
      }
    }
  })
}

To observe it working, spawn two nodes.

const [node1, node2] = await Promise.all([
  createNode(),
  createNode()
])

node1.on('peer:discovery', (peer) => console.log('Discovered:', peer.id.toB58String()))
node2.on('peer:discovery', (peer) => console.log('Discovered:', peer.id.toB58String()))

If you run this example, you will see the other peers being discovered.

> node 2.js
Discovered: QmSSbQpuKrxkoXHm1v4Pi35hPN5hUHMZoBoawEs2Nhvi8m
Discovered: QmRcXXhtG8vTqwVBRonKWtV4ovDoC1Fe56WYtcrw694eiJ

3. Where to find other Peer Discovery Mechanisms

There are plenty more Peer Discovery Mechanisms out there, you can:

  • Find one in libp2p-webrtc-star. Yes, a transport with discovery capabilities! This happens because WebRTC requires a rendezvous point for peers to exchange SDP offer, which means we have one or more points that can introduce peers to each other. Think of it as MulticastDNS for the Web, as in MulticastDNS only works in LAN.
  • Any DHT will offer you a discovery capability. You can simple random-walk the routing tables to find other peers to connect to.
  • You can create your own Discovery service, a registry, a list, a radio beacon, you name it!