Crates.io | ip_extractor |
lib.rs | ip_extractor |
version | 0.1.1 |
source | src |
created_at | 2023-12-09 13:07:06.927766 |
updated_at | 2023-12-09 13:07:59.376978 |
description | A Simple crate that wraps around the ifconfig command to extract network interfaces and their ip addresses |
homepage | |
repository | https://github.com/newtoallofthis123/ip_extractor |
max_upload_size | |
id | 1063677 |
size | 16,402 |
A Simple crate that extracts IP addresses for a unix based system.
It is basically a wrapper around the ifconfig
command.
This is my first crate, so please be gentle.
Keep reading for a mini doc, or you can just go to the docs.
use ip_extractor::find_network;
fn main() {
let networks = get_networks().unwrap();
networks.iter().for_each(|network| {
println!("{}", network);
});
}
This crate is basically a wrapper around the ifconfig
command. It runs the command and then parses the output to get the IP addresses.
The parsing is done using a simple split algorithm, so don’t expect it to be perfect. However, it should work for most cases.
Moreover, this crate only works on systems that have the ifconfig command. So it won’t work on windows. I mean, you can probably use it with WSL or Git Bash, but I haven’t tested it. So if you do, please let me know.
There is an internal function that actually executes the command and parses the output. However, it is not exposed to the user. This is the function that failed if the ifconfig command is not found.
This is a simple crate that only has like 5 main functions. So if you have some programming knowledge, in rust, going through the docs would be a breeze. However, if you want a quick overview, here is the mini doc.
Network
StructThe Network
struct is a simple struct that is meant to be the representation of a network interface. It has 5 fields as of version 0.1.0
.
pub struct Network {
pub name: String,
pub inet: String,
pub mac: String,
pub netmask: String,
pub broadcast: String,
}
The ip of the network interface is stored in the inet
field if you are wondering.
This struct only representational, hence, it does not have any methods. By the way, it implements the Display
trait, so you can print it out directly.
get_networks
FunctionThis is the main function of the crate. It returns a Vec<Network>
which is a vector of all the network interfaces on the system.
Remember it returns the networks directly, so you can use it like this:
Signature:
get_networks() -> Vec<Network>
get_networks().iter().for_each(|network| {
println!("{}", network);
});
find_network
FunctionA function that fuzzy searches for a network interface. It takes a &str
as an argument and returns an Option<Network>
.
Signature:
find_network(&str) -> Option<Network>
use ip_extractor::{find_network, Network};
let network = find_network("wlan");
match network {
Some(network) => println!("{:?}", network),
None => println!("No network found."),
}
parse_network
FunctionThis is an internal function that is used to parse the output of the ifconfig
command. It takes a &str
as an argument and returns a Network
.
The parsing is done using a simple split algorithm, so don’t expect it to be perfect. However, it should work for most cases.
Signature:
parse_network(&str) -> Network
use ip_extractor::parse_network;
let network = parse_network("wlp2s0: flags=4163<UP,BROADCAST,RUNNING,MULTICAST> mtu 1500
inet
inet6
ether
");
println!("{:?}", network);
get_wlan
FunctionA method to get all wireless networks on the system. Most unix based systems use wlan or wlp as the prefix for wireless network interfaces.
Hence this method is basically a iterator filter on the get_networks method for finding them. You can also pass in an optional identifier to fuzzy match a wireless network interface’s name.
Signature:
get_wlan(Optional<&str>) -> Vec<Network>
use ip_extractor::{get_wlan, Network};
let networks = get_wlan(None);
for network in networks {
println!("{:?}", network);
}
let networks = get_wlan(Some("wlp"));
for network in networks {
println!("{:?}", network);
}
get_ethernet
FunctionThis is similar to the get_wlan
function, but it is for ethernet network interfaces. The prefix for ethernet network interfaces is usually eth or enp.
Signature:
get_ethernet(Optional<&str>) -> Vec<Network>
use ip_extractor::{get_ethernet, Network};
let networks = get_ethernet(None);
for network in networks {
println!("{:?}", network);
}
let networks = get_ethernet(Some("enp"));
for network in networks {
println!("{:?}", network);
}
Note: The
get_wlan
andget_ethernet
functions are just iterators over theget_networks
function. So you can use theget_networks
function directly if you want.
If you want to contribute to this crate, you can do so by opening an issue or a pull request. I would really appreciate it.
This crate is licensed under the MIT license. You can read the license here. So basically, as long as the thing you are using it for is legal, you can use it (At least, that’s what I think it means).