VirtualBox has multiple options when it comes to it's networking settings.
We've already used two different ones, *NAT* and *bridged*, but we'll now try to create our own *internal* network.
For this we'll need a few minimal Debian installations.
I invite you to install at the least two basic installations.
* One will become our router
* The other one our first client
## Static routing
The most basic way of setting your network settings in Debian can be found in the `/etc/network/interfaces` file.
When you open it you'll notice it mentions it sources a folder called `interfaces.d`.
The choice is up to you whether you set your networking settings in this file or create a new file in the folder but I advise you to go for the second way.
Don't just *copy/paste* the code below, check whether the interface names and ranges make sense!
```bash
auto eth0
iface eth0 inet static
address 10.0.0.1
netmask 255.255.255.0
gateway 10.0.0.1
```
![overview](./network_basic.png)
If you set both machines with addresses in the same range, you should be able to ping each other.
Have a go at this until you can make it work.
Which service do you have to restart of reload to apply your changes?
The *easiest* way to achieve routing between your internal network and the outside world is to enable [NAT](https://en.wikipedia.org/wiki/Network_address_translation) on your router.
In order to do this, you need to do 2 things.
First enable the kernel to actually forward packages, secondly `iptables` needs to do masquerading.
You can do both these things with just to simple commands on you router.
From here on out all your clients *should* have internet access but you won't be able to `ping` your clients from outside your network.
Your clients can ping each other and the internet at large but for clients **outside** of their mini network the router will **masquerade** the IP address.
This means that from outside your network, you'll never be able to ping a specific client, just the router itself.
To save `iptables` rules have a look online but [this](http://www.faqs.org/docs/iptables/iptables-save.html) and [this](https://zertrin.org/projects/iptables-persistent/).
We'll start with isc-dhcp-server because it's an industry standard for large scale networks.
The other one, dnsmasq, is lighter and easier to use but consequently it has less features.
It does however has the added benefit of being a [DNS](https://en.wikipedia.org/wiki/Domain_Name_System) server as well!
If you want to use isc-dhcp-server and add a DNS server to your network as well you'll have to install a secondary service.
Large scale networks often combine it with [bind9](https://wiki.debian.org/Bind9) which is a very powerful, but pretty complicated to configure, server.
For our long term purposes dnsmasq is a better option but we'll start with isc-dhcp-server non the less.
### isc-dhcp-server
Installing isc-dhcp-server is pretty straight forward.
An `sudo apt install isc-dhcp-server` should sort you out but you'll get a bunch of errors.
Don't panic, this is pretty normal because we haven't configured the server yet.
A handy new command you'll learn here is `journalctl`.
This is the main interface towards all logging done by all services `systemd` manages.
The `-x` option will 'Augment log lines with explanation texts from the message catalog.' so will be more verbose and the `-e` will jump to the end of the logs.
If want to resolve local domain names on our network we need DNS server.
As mentioned above the classic dns counterpart to isc-dhcp-server is bind9.
An easier to setup DNS server is dnsmasq and as an added benefit it does DHCP as well!
We can't run two DHCP servers on the same machine at the same time, because they will both try to bind to the same port, so we have to stop and disable isc-dhcp-server.
We already know how to stop the server with `systemctl` but disabling is new.
What is the difference?
Well, disabling will prevent the server from starting at boot time.
The counterpart to disable is enable.
```bash
sudo systemctl disable isc-dhcp-server
sudo systemctl stop isc-dhcp-server
```
Now we can install dnsmasq with `sudo apt install dnsmasq`.
The configuration is done by creating a new file at `/etc/dnsmasq.d/`.
You're free to name this file however you want and you can also create multiple files to spread out your configuration.
A slightly modified configuration can make things a bit clearer.
By default dnsmsq is smart enough to distribute on the right interfaces but we can specify this ourselves.
It won't change much to the operation, but will clear things up when we start offering different ranges on different interfaces.
```bash
dhcp-range=eth0,10.0.1.10,10.1.100,24h
```
#### DNS
The DNS aspect of dnsmsq requires a bit more configuration.
By just installing dnsmsq it already *is* a DNS server and you can test this with `nslookup`.
If you don't have that program installed you can install it with the `dnsutils` package.
We will need to add a few more lines of configuration though.
Again, don't just *copy/paste*, modify the lines to your need.
```bash
# specify the interfaces we will listen on to resolve DNS requests
interface=lo
interface=eth1
interface=eth2
# bind only to the interfaces we specify
bind-interfaces
# we can add out clients to our domain
domain=peperoni.lan
local=/peperoni.lan/
# we set which servers our dns uses to resolve
server=127.0.0.1
```
If we want to use our DNS server to [push routes](https://en.wikipedia.org/wiki/Routing) to our clients we need to add it to the configuration as well.
The syntax is as follows, `121,x.x.x.x/yy,z.z.z.z` where `x.x.x.x` is the IP range, `yy` the netmask and `z.z.z.z` is the via which IP address.
You can add as many as you want but there is a practical [limit](https://unix.stackexchange.com/questions/457572/use-dnsmasq-to-pushing-routes-to-my-clients-on-a-small-local-network).
Are wondering what the `121` [means](http://help.sonicwall.com/help/sw/eng/6800/26/2/3/content/Network_DHCP_Server.042.12.htm)?
```bash
dhcp-option=121,10.0.4.0/24,192.168.0.117
```
## Group labo
The goal of this exercise is to create a small network of VM's on each of our workstations and interconnect all of them over the LAN in the classroom.
Your responsibility is to create a functioning mini network of VM's on your workstation.
Once this is operational you can add routes to the mini networks of the other students.
You have to add routes for each student so maybe a script can come in handy.
As I'm running the DHCP and DNS of our LAN I can push these routes to your routers but first you should create them yourself!