## Hi all, welcome to the first nim-libp2p tutorial!
##
## !!! tips ""
## This tutorial is for everyone who is interested in building peer-to-peer applications. No Nim programming experience is needed.
##
## To give you a quick overview, **Nim** is the programming language we are using and **nim-libp2p** is the Nim implementation of [libp2p](https://libp2p.io/), a modular library that enables the development of peer-to-peer network applications.
##
## Hope you'll find it helpful in your journey of learning. Happy coding! ;)
##
## ## Before you start
## The only prerequisite here is [Nim](https://nim-lang.org/), the programming language with a Python-like syntax and a performance similar to C. Detailed information can be found [here](https://nim-lang.org/docs/tut1.html).
##
## Install Nim via their [official website](https://nim-lang.org/install.html).
## Check Nim's installation via `nim --version` and its package manager Nimble via `nimble --version`.
##
## You can now install the latest version of `nim-libp2p`:
## ```bash
## nimble install libp2p@#master
## ```
##
## ## A simple ping application
## We'll start by creating a simple application, which is starting two libp2p [switch](https://docs.libp2p.io/concepts/stream-multiplexing/#switch-swarm), and pinging each other using the [Ping](https://docs.libp2p.io/concepts/protocols/#ping) protocol.
##
## !!! tips ""
## You can find the source of this tutorial (and other tutorials) in the [libp2p/examples](https://github.com/status-im/nim-libp2p/tree/master/examples) folder!
##
## Let's create a `part1.nim`, and import our dependencies:
importchronos
importlibp2p
importlibp2p/protocols/ping
## [chronos](https://github.com/status-im/nim-chronos) the asynchronous framework used by `nim-libp2p`
##
## Next, we'll create an helper procedure to create our switches. A switch needs a bit of configuration, and it will be easier to do this configuration only once:
## This will create a switch using [Mplex](https://docs.libp2p.io/concepts/stream-multiplexing/) as a multiplexer, Noise to secure the communication, and TCP as an underlying transport.
##
## You can of course tweak this, to use a different or multiple transport, or tweak the configuration of Mplex and Noise, but this is some sane defaults that we'll use going forward.
## We created some variables that we'll need for the rest of the application: the global `rng` instance, our `localAddress`, and an instance of the `Ping` protocol.
## The address is in the [MultiAddress](https://github.com/multiformats/multiaddr) format. The port `0` means "take any port available".
##
## `tryGet` is procedure which is part of [nim-result](https://github.com/arnetheduck/nim-result/), that will throw an exception if the supplied MultiAddress is invalid.
##
## We can now create our two switches:
let
switch1=createSwitch(localAddress,rng)
switch2=createSwitch(localAddress,rng)
switch1.mount(pingProtocol)
awaitswitch1.start()
awaitswitch2.start()
## We've **mounted** the `pingProtocol` on our first switch. This means that the first switch will actually listen for any ping requests coming in, and handle them accordingly.
##
## Now that we've started the nodes, they are listening for incoming peers.
## We can find out which port was attributed, and the resulting local addresses, by using `switch1.peerInfo.addrs`.
##
## We'll **dial** the first switch from the second one, by specifying it's **Peer ID**, it's **MultiAddress** and the **`Ping` protocol codec**: