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README.md

@libp2p/example-protocol-and-stream-muxing

libp2p.io Discuss codecov CI

How to use multiplex protocols streams

Table of contents

The feature of agreeing on a protocol over an established connection is what we call protocol multiplexing and it is possible through multistream-select, another protocol that lets you agree per connection (or stream) which protocol is going to be talked over that connection (select), it also enables you to request the other end to tell you which protocols it supports (ls). You can learn more about multistream-select at its specification repo.

1. Handle multiple protocols

Let's see protocol multiplexing in action! You will need the following modules for this example: libp2p, @libp2p/tcp, @libp2p/peer-id, it-pipe, it-buffer and streaming-iterables. This example reuses the base left by the Transports example. You can see the complete solution at 1.js.

After creating the nodes, we need to tell libp2p which protocols to handle.

import { pipe } from 'it-pipe'
import { map } from 'streaming-iterables'
import { toBuffer } from 'it-buffer'
import { fromString as uint8ArrayFromString } from 'uint8arrays/from-string'
import { toString as uint8ArrayToString } from 'uint8arrays/to-string'

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

// Add node's 2 data to the PeerStore
await node1.peerStore.patch(node2.peerId, {
  multiaddrs: node2.getMultiaddrs()
})

// Here we are telling libp2p that if someone dials this node to talk with the `/your-protocol`
// multicodec, the protocol identifier, please call this handler and give it the stream
// so that incomming data can be handled
node2.handle('/your-protocol', ({ stream }) => {
  pipe(
    stream,
    source => (async function () {
      for await (const msg of source) {
        console.log(uint8ArrayToString(msg.subarray()))
      }
    })()
  )
})

After the protocol is handled, now we can dial to it.

const stream = await node1.dialProtocol(node2.peerId, ['/your-protocol'])

await pipe(
  [uint8ArrayFromString('my own protocol, wow!')],
  stream
)

You might have seen this in the Transports examples. However, what it was not explained is that you can do more than exact string matching, for example, you can use semver.

node2.handle('/another-protocol/1.0.1', ({ stream }) => {
  pipe(
    stream,
    async function (source) {
      for await (const msg of source) {
        console.log(uint8ArrayToString(msg.subarray()))
      }
    }
  )
})
// ...
const stream = await node1.dialProtocol(node2.peerId, ['/another-protocol/1.0.0'])

await pipe(
  [uint8ArrayFromString('my own protocol, wow!')],
  stream
)

This feature is super power for network protocols. It works in the same way as versioning your RPC/REST API, but for anything that goes in the wire. We had to use this feature to upgrade protocols within the IPFS Stack (i.e Bitswap) and we successfully managed to do so without any network splits.

There is still one last feature, you can provide multiple protocols for the same handler. If you have a backwards incompatible change, but it only requires minor changes to the code, you may prefer to do protocol checking instead of having multiple handlers

node2.handle(['/another-protocol/1.0.0', '/another-protocol/2.0.0'], ({ stream }) => {
  if (stream.protocol === '/another-protocol/2.0.0') {
    // handle backwards compatibility
  }

  pipe(
    stream,
    async function (source) {
      for await (const msg of source) {
        console.log(uint8ArrayToString(msg.subarray()))
      }
    }
  )
})

Try all of this out by executing 1.js.

2. Reuse existing connection

The examples above would require a node to create a whole new connection for every time it dials in one of the protocols, this is a waste of resources and also it might be simply not possible (e.g lack of file descriptors, not enough ports being open, etc). What we really want is to dial a connection once and then multiplex several virtual connections (stream) over a single connection, this is where stream multiplexing comes into play.

Stream multiplexing is an old concept, in fact it happens in many of the layers of the OSI System. In libp2p, we make this feature to our avail by letting the user pick which module for stream multiplexing to use.

Currently, we have libp2p-mplex and pluging it in is as easy as adding a transport. Let's revisit our libp2p configuration.

import { createLibp2p } from 'libp2p'
import { tcp } from '@libp2p/tcp'
import { mplex } from '@libp2p/mplex'
import { yamux } from '@chainsafe/libp2p-yamux'

//...

createLibp2p({
  //...
  transports: [
    tcp()
  ],
  streamMuxers: [
    yamux(),
    mplex()
  ]
})

With this, we can dial as many times as we want to a peer and always reuse the same established underlying connection.

node2.handle(['/a', '/b'], ({ stream }) => {
  pipe(
    stream,
    async function (source) {
      for await (const msg of source) {
        console.log(`from: ${stream.protocol}, msg: ${uint8ArrayToString(msg.subarray())}`)
      }
    }
  )
})

const stream = await node1.dialProtocol(node2.peerId, ['/a'])
await pipe(
  [uint8ArrayFromString('protocol (a)')],
  stream
)

const stream2 = await node1.dialProtocol(node2.peerId, ['/b'])
await pipe(
  [uint8ArrayFromString('protocol (b)')],
  stream2
)

const stream3 = await node1.dialProtocol(node2.peerId, ['/b'])
await pipe(
  [uint8ArrayFromString('another stream on protocol (b)')],
  stream3
)

By running 2.js you should see the following result:

> node 2.js
from: /a, msg: protocol (a)
from: /b, msg: protocol (b)
from: /b, msg: another stream on protocol (b)

3. Bidirectional connections

There is one last trick on protocol and stream multiplexing that libp2p uses to make everyone's life easier and that is bidirectional connection.

With the aid of both mechanisms, we can reuse an incomming connection to dial streams out too, this is specially useful when you are behind tricky NAT, firewalls or if you are running in a browser, where you can't have listening addrs, but you can dial out. By dialing out, you enable other peers to talk with you in Protocols that they want, simply by opening a new multiplexed stream.

You can see this working on example 3.js.

As we've seen earlier, we can create our node with this createNode function.

const createNode = async () => {
  const node = await createLibp2p({
    addresses: {
      listen: ['/ip4/0.0.0.0/tcp/0']
    },
    transports: [tcp()],
    streamMuxers: [yamux(), mplex()],
    connectionEncryption: [noise()],
  })

  return node
}

We can now create our two nodes for this example.

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

Since, we want to connect these nodes node1 & node2, we add our node2 multiaddr in key-value pair in node1 peer store.

await node1.peerStore.patch(node2.peerId, {
  multiaddrs: node2.getMultiaddrs()
})

You may notice that we are only adding node2 to node1 peer store. This is because we want to dial up a bidirectional connection between these two nodes.

Finally, let's create protocols for node1 & node2 and dial those protocols.

node1.handle('/node-1', ({ stream }) => {
  pipe(
    stream,
    async function (source) {
      for await (const msg of source) {
        console.log(uint8ArrayToString(msg.subarray()))
      }
    }
  )
})

node2.handle('/node-2', ({ stream }) => {
  pipe(
    stream,
    async function (source) {
      for await (const msg of source) {
        console.log(uint8ArrayToString(msg.subarray()))
      }
    }
  )
})

// Dialing node2 from node1
const stream1 = await node1.dialProtocol(node2.peerId, ['/node-2'])
await pipe(
  [uint8ArrayFromString('from 1 to 2')],
  stream1
)

// Dialing node1 from node2
const stream2 = await node2.dialProtocol(node1.peerId, ['/node-1'])
await pipe(
  [uint8ArrayFromString('from 2 to 1')],
  stream2
)

If we run this code, the result should look like the following:

> node 3.js
from 1 to 2
from 2 to 1

So, we have successfully set up a bidirectional connection with protocol muxing. But you should be aware that we were able to dial from node2 to node1 even we haven't added the node1 peerId to node2 address book is because we dialed node2 from node1 first. Then, we just dialed back our stream out from node2 to node1. So, if we dial from node2 to node1 before dialing from node1 to node2 we will get an error.

The code below will result into an error as the dial address is not valid.

// Dialing from node2 to node1
const stream2 = await node2.dialProtocol(node1.peerId, ['/node-1'])
await pipe(
  [uint8ArrayFromString('from 2 to 1')],
  stream2
)

// Dialing from node1 to node2
const stream1 = await node1.dialProtocol(node2.peerId, ['/node-2'])
await pipe(
  [uint8ArrayFromString('from 1 to 2')],
  stream1
)

License

Licensed under either of

Contribution

Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.