Curso-lenguaje-python/python-ofensivo/14_escaneres_red/01_network_scanner_icmp.py

# /usr/bin/env python3
"""
Escaner de red ICMP
"""

import argparse
import ipaddress
import re
import signal
import subprocess
from concurrent.futures import ThreadPoolExecutor
from termcolor import colored


def def_handler(sig, frame):

    print(colored(
        "\n\n[!] Saliendo del programa...\n", "blue")
    )
    exit(1)


signal.signal(signal.SIGINT, def_handler)


def get_arguments():
    """
    Obtiene los argumentos de la linea de comandos
    """

    parser = argparse.ArgumentParser(description="Escaner de red ICMP")
    parser.add_argument(
        "-t", "--target",
        required=True, dest="target",
        help="Host o rango de red a escanear"
    )
    args = parser.parse_args()

    return args.target


def validar_ip(target_str):
    """
    Valida si el target es una IP o un rango de IPs
    """

    # Verificar si es un rango de IPs
    rango_match = re.match(
        r'^(\d{1,3}.\d{1,3}.\d{1,3}.\d{1,3})-(\d{1,3})$', target_str)

    if rango_match:
        ip_inicio = rango_match.group(1)

        ip_fin = int(rango_match.group(2))

        try:
            # Convertir la IP de inicio a un objeto ipaddress
            ipaddress.IPv4Address(ip_inicio)

            # Verificar que el rango sea válido
            if 0 <= ip_fin <= 255:

                # Crear un objeto ipaddress para la IP de inicio
                inicio = ipaddress.IPv4Address(ip_inicio)

                # Crear un objeto ipaddress para la IP de fin
                fin = ipaddress.IPv4Address(
                    ip_inicio.rsplit('.', 1)[0] + '.' + str(ip_fin)
                )

                # Verificar que la IP de inicio sea menor que la IP de fin
                if inicio < fin:

                    print(colored(
                        f"\n[+] Escaneando el rango de IPs: {inicio} - {fin}",
                        "blue")
                    )
                    rango_ips = ipaddress.summarize_address_range(inicio, fin)
                    return rango_ips

                else:

                    print(colored(
                        "\n[!] Error: El rango debe ser de menor a mayor",
                        "red")
                    )
                    return False

            else:

                print(colored(
                    "\n[!] Error: El rango especificado no es válido",
                    "red")
                )
                return False

        except ipaddress.AddressValueError:

            print(colored(
                "\n[!] Error: El rango especificado no son IPs válidas",
                "red")
            )
            return False

    else:

        # Si no es un rango, verificar si es una IP individual
        try:

            ipaddress.IPv4Address(target_str)
            print(colored(
                f"\n[+] Escaneando IP: {target_str}", "blue")
            )
            return target_str

        except ipaddress.AddressValueError:
            print(colored(
                "\n[!] Error: El target especificado no es una IP válida",
                "red")
            )
            return False


def parse_target(target_str):
    """
    Parsea el target y devuelve una lista de IPs
    """

    if "-" in target_str:

        ip_list = target_str.split('-')

        ip_inicio = ip_list[0]
        ip_fin = int(ip_list[1])

        inicio = ipaddress.IPv4Address(ip_inicio)

        fin = ipaddress.IPv4Address(
            ip_inicio.rsplit('.', 1)[0] + '.' + str(ip_fin)
        )

        ips_return = []

        for ip in range(int(ip_inicio.split('.')[3]), ip_fin + 1):

            ip_address = ip_inicio.rsplit('.', 1)[0] + '.' + str(ip)

            ips_return.append(ip_address)

        return ips_return

    else:

        # Si target_str es una IP individual, crear una lista con esa IP
        target_list = [target_str]

        return target_list


def host_discovwery(target):

    try:

        ping = subprocess.run(
            ["ping", "-c", "1", target],
            timeout=1, stdout=subprocess.DEVNULL
        )

        if ping.returncode == 0:

            print(colored(
                f"[+] {target} está activo", "green")
            )

    except subprocess.TimeoutExpired:
        pass


def main():
    """
    Funcion principal
    """

    target_str = get_arguments()

    if not validar_ip(target_str):

        print(colored(
            "\n[!] Introduce un target válido", "red")
        )

        return

    targets = parse_target(target_str)

    with ThreadPoolExecutor(max_workers=50) as executor:

        executor.map(host_discovwery, targets)


if __name__ == "__main__":
    main()
Add network scan 2024-01-28 16:06:28 +01:00			`# /usr/bin/env python3`
			`"""`
			`Escaner de red ICMP`
			`"""`

			`import argparse`
			`import ipaddress`
			`import re`
			`import signal`
			`import subprocess`
			`from concurrent.futures import ThreadPoolExecutor`
			`from termcolor import colored`


			`def def_handler(sig, frame):`

			`print(colored(`
			`"\n\n[!] Saliendo del programa...\n", "blue")`
			`)`
			`exit(1)`


			`signal.signal(signal.SIGINT, def_handler)`


			`def get_arguments():`
			`"""`
			`Obtiene los argumentos de la linea de comandos`
			`"""`

			`parser = argparse.ArgumentParser(description="Escaner de red ICMP")`
			`parser.add_argument(`
			`"-t", "--target",`
			`required=True, dest="target",`
			`help="Host o rango de red a escanear"`
			`)`
			`args = parser.parse_args()`

			`return args.target`


			`def validar_ip(target_str):`
			`"""`
			`Valida si el target es una IP o un rango de IPs`
			`"""`

			`# Verificar si es un rango de IPs`
			`rango_match = re.match(`
			`r'^(\d{1,3}.\d{1,3}.\d{1,3}.\d{1,3})-(\d{1,3})$', target_str)`

			`if rango_match:`
			`ip_inicio = rango_match.group(1)`

			`ip_fin = int(rango_match.group(2))`

			`try:`
			`# Convertir la IP de inicio a un objeto ipaddress`
			`ipaddress.IPv4Address(ip_inicio)`

			`# Verificar que el rango sea válido`
			`if 0 <= ip_fin <= 255:`

			`# Crear un objeto ipaddress para la IP de inicio`
			`inicio = ipaddress.IPv4Address(ip_inicio)`

			`# Crear un objeto ipaddress para la IP de fin`
			`fin = ipaddress.IPv4Address(`
			`ip_inicio.rsplit('.', 1)[0] + '.' + str(ip_fin)`
			`)`

			`# Verificar que la IP de inicio sea menor que la IP de fin`
			`if inicio < fin:`

			`print(colored(`
			`f"\n[+] Escaneando el rango de IPs: {inicio} - {fin}",`
			`"blue")`
			`)`
			`rango_ips = ipaddress.summarize_address_range(inicio, fin)`
			`return rango_ips`

			`else:`

			`print(colored(`
			`"\n[!] Error: El rango debe ser de menor a mayor",`
			`"red")`
			`)`
			`return False`

			`else:`

			`print(colored(`
			`"\n[!] Error: El rango especificado no es válido",`
			`"red")`
			`)`
			`return False`

			`except ipaddress.AddressValueError:`

			`print(colored(`
			`"\n[!] Error: El rango especificado no son IPs válidas",`
			`"red")`
			`)`
			`return False`

			`else:`

			`# Si no es un rango, verificar si es una IP individual`
			`try:`

			`ipaddress.IPv4Address(target_str)`
			`print(colored(`
			`f"\n[+] Escaneando IP: {target_str}", "blue")`
			`)`
			`return target_str`

			`except ipaddress.AddressValueError:`
			`print(colored(`
			`"\n[!] Error: El target especificado no es una IP válida",`
			`"red")`
			`)`
			`return False`


			`def parse_target(target_str):`
			`"""`
			`Parsea el target y devuelve una lista de IPs`
			`"""`

			`if "-" in target_str:`

			`ip_list = target_str.split('-')`

			`ip_inicio = ip_list[0]`
			`ip_fin = int(ip_list[1])`

			`inicio = ipaddress.IPv4Address(ip_inicio)`

			`fin = ipaddress.IPv4Address(`
			`ip_inicio.rsplit('.', 1)[0] + '.' + str(ip_fin)`
			`)`

			`ips_return = []`

			`for ip in range(int(ip_inicio.split('.')[3]), ip_fin + 1):`

			`ip_address = ip_inicio.rsplit('.', 1)[0] + '.' + str(ip)`

			`ips_return.append(ip_address)`

			`return ips_return`

			`else:`

			`# Si target_str es una IP individual, crear una lista con esa IP`
			`target_list = [target_str]`

			`return target_list`


			`def host_discovwery(target):`

			`try:`

			`ping = subprocess.run(`
			`["ping", "-c", "1", target],`
			`timeout=1, stdout=subprocess.DEVNULL`
			`)`

			`if ping.returncode == 0:`

			`print(colored(`
			`f"[+] {target} está activo", "green")`
			`)`

			`except subprocess.TimeoutExpired:`
			`pass`


			`def main():`
			`"""`
			`Funcion principal`
			`"""`

			`target_str = get_arguments()`

			`if not validar_ip(target_str):`

			`print(colored(`
			`"\n[!] Introduce un target válido", "red")`
			`)`

			`return`

			`targets = parse_target(target_str)`

			`with ThreadPoolExecutor(max_workers=50) as executor:`

			`executor.map(host_discovwery, targets)`


			`if __name__ == "__main__":`
			`main()`