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windows10-wifi.py
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windows10-wifi.py
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#! py
######################################
#Copyright of David Bombal, 2021 #
#https://www.davidbombal.com #
#https://www.youtube.com/davidbombal #
######################################
# Import subprocess so we can use system commands.
import subprocess
# Import the re module so we can make use of regular expressions.
import re
# Python allows us to run system commands using the function
# provided by the subprocess module;
# (subprocess.run(<list of command line arguments go here>, <specify the second argument if you want to capture the output>)).
#
# This script is a parent process that creates a child process which
# runs a system command and will only continue once the child process
# is completed.
#
# To save the contents that get sent to the standard output stream
# (the terminal), we must first specify that we want to capture the output.
# To do this we specify the second argument as capture_output = True.
# This information gets stored in the stdout attribute as bytes and
# needs to be decoded before being used as a String in Python.
command_output = subprocess.run(["netsh", "wlan", "show", "profiles"], capture_output = True).stdout.decode()
# We imported the re module to make use of regular expressions.
# We want to find all the wifi names which are listed after
# "ALL User Profile :". Using regular expressions we can create
# a group of all characters until the return escape sequence (\r) appears.
profile_names = (re.findall("All User Profile : (.*)\r", command_output))
# We create an empty list outside of the loop where dictionaries
# containing all the wifi usernames and passwords will be saved.
wifi_list = []
# If any profile names are not found this means that wifi connections
# have also not been found. So we run this part to check the
# details of the wifi and see whether we can get their passwords.
if len(profile_names) != 0:
for name in profile_names:
# Every wifi connection will need its own dictionary which
# will be appended to the variable wifi_list.
wifi_profile = {}
# We can now run a more specific command to see the information
# about the wifi connection and if the Security key
# is not absent it may be possible to get the password.
profile_info = subprocess.run(["netsh", "wlan", "show", "profile", name], capture_output = True).stdout.decode()
# We use the regular expression to only look for the absent cases so we can ignore them.
if re.search("Security key : Absent", profile_info):
continue
else:
# Assign the ssid of the wifi profile to the dictionary.
wifi_profile["ssid"] = name
# These cases aren't absent and we should run the
# "key=clear" command part to get the password.
profile_info_pass = subprocess.run(["netsh", "wlan", "show", "profile", name, "key=clear"], capture_output = True).stdout.decode()
# Again run the regular expression to capture the
# group after the : (which is the password).
password = re.search("Key Content : (.*)\r", profile_info_pass)
# Check if we found a password using the regular expression.
# Some wifi connections may not have passwords.
if password == None:
wifi_profile["password"] = None
else:
# We assign the grouping (where the password is contained) that
# we are interested in to the password key in the dictionary.
wifi_profile["password"] = password[1]
# We append the wifi information to the variable wifi_list.
wifi_list.append(wifi_profile)
for x in range(len(wifi_list)):
print(wifi_list[x])