n2n provides its service through a TAP device which is the virtual ethernet device seen by the computer and user. As a prerequisite, it requires the appropriate TAP driver to be installed. Most Linux systems come with it. If not loaded, `sudo modprobe tap` will do.
If the OS specific driver allows **naming** the virtual Ethernet device created by n2n, the `-d <device>` command-line option can be used to give a name, e.g. `-d n2n0`. This device name makes the virtual ethernet device easily accessible to all `ip` command activity, `iptables`, `tcpdump` and any other of your preferred network tools. It defaults to `edge0` if not provided through `-d`.
One exception applies to Windows: As the installed TAP driver(s) come with fixed names, `-d <device>`**selects** the appropriate device by name out of the present ones. This is only required if more than one TAP devices are present. To help with it, `edge --help` lists the available TAP adapters at the bottom of its output (Windows only).
Even virtual ethernet devices have a MAC address. As in real networks, it should be unique as it is used to identify the different participants and transport packets accordingly. The MAC address can optionally be specified by using the `-m <MAC address>` command line parameter, e.g. `-m 01:02:03:04:05:06`. If omitted, n2n tries to assign a random MAC address.
The command line parameter `-a <static:IP address>` assigns a static IP address, e.g. `-a static:192.168.8.5` to the device. The optional `static` keyword (and the delimiting colon) can be omitted, so `-a 192.168.8.5` works as well.
The netmask in CIDR notation can optionally be appended to the address, e.g. `-a 192.168.8.5/24` for netmask `255.255.255.0` which also is the default should the netmask not be provided.
If `-a` is omitted, the supernode assigns an IP address to the node. This feature uses different IP address pools on a per-community basis. So, all edges of the same community will find themselves in the same sub-network.
By default, `/24`-sized IP address sub-network pools from the upper half of the `10.0.0.0` class A network will be used, that is from `10.128.0.0/24` … `10.255.255.0/24`. The supernode can be configured to assign addresses from a different network range: `-a 10.0.0.0-10.255.0.0/16` would the supernode make use of the complete `10.0.0.0` class A range but handle `/16`-sized sub-networks. Also, named communities could be pre-assigned certain sub-networks, please see the explanatory comments in the `community.list` file.
If an edge of the community runs a DHCP server, the others could draw their IP addresses from there. It requires the new edges to start-up with the `-r -a dhcp:0.0.0.0` parameters (literally).
n2n supports routing the traffic through its network. `-r` enables an edge to accept packets at its TAP interface not originating from the local IP address or not destined to the local IP address. As there is more to routing than just this one command-line option, please refer to the dedicated [Routing](Routing.md) document