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fuswim
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fuswim.py 0 → 100755
View file @ 317984f1
#!/usr/bin/env python3
import iwlist
import iw_parse
from pprint import pprint
netw = iw_parse.get_interfaces(interface="wlan0")
pprint(netw)
#networks = iwlist.parse(iwlist.scan('wlan0'))
#pprint(networks)
iw_parse.py 0 → 100644
View file @ 317984f1
#! /usr/bin/env python
# Hugo Chargois - 17 jan. 2010 - v.0.1
# Parses the output of iwlist scan into a table
# You can add or change the functions to parse the properties
# of each AP (cell) below. They take one argument, the bunch of text
# describing one cell in iwlist scan and return a property of that cell.
import re
import subprocess
VERSION_RGX = re.compile("version\s+\d+", re.IGNORECASE)
def get_name(cell):
""" Gets the name / essid of a network / cell.
@param string cell
A network / cell from iwlist scan.
@return string
The name / essid of the network.
"""
essid = matching_line(cell, "ESSID:")
if not essid:
return ""
return essid[1:-1]
def get_quality(cell):
""" Gets the quality of a network / cell.
@param string cell
A network / cell from iwlist scan.
@return string
The quality of the network.
"""
quality = matching_line(cell, "Quality=")
if quality is None:
return ""
quality = quality.split()[0].split("/")
quality = matching_line(cell, "Quality=").split()[0].split("/")
return str(int(round(float(quality[0]) / float(quality[1]) * 100)))
def get_signal_level(cell):
""" Gets the signal level of a network / cell.
@param string cell
A network / cell from iwlist scan.
@return string
The signal level of the network.
"""
signal = matching_line(cell, "Signal level=")
if signal is None:
return ""
signal = signal.split("=")[1].split("/")
if len(signal) == 2:
return str(int(round(float(signal[0]) / float(signal[1]) * 100)))
elif len(signal) == 1:
return signal[0].split(' ')[0]
else:
return ""
def get_noise_level(cell):
""" Gets the noise level of a network / cell.
@param string cell
A network / cell from iwlist scan.
@return string
The noise level of the network.
"""
noise = matching_line(cell, "Noise level=")
if noise is None:
return ""
noise = noise.split("=")[1]
return noise.split(' ')[0]
def get_channel(cell):
""" Gets the channel of a network / cell.
@param string cell
A network / cell from iwlist scan.
@return string
The channel of the network.
"""
channel = matching_line(cell, "Channel:")
if channel:
return channel
frequency = matching_line(cell, "Frequency:")
channel = re.sub(r".*\(Channel\s(\d{1,3})\).*", r"\1", frequency)
return channel
def get_frequency(cell):
""" Gets the frequency of a network / cell.
@param string cell
A network / cell from iwlist scan.
@return string
The frequency of the network.
"""
frequency = matching_line(cell, "Frequency:")
if frequency is None:
return ""
return frequency.split()[0]
def get_encryption(cell, emit_version=False):
""" Gets the encryption type of a network / cell.
@param string cell
A network / cell from iwlist scan.
@return string
The encryption type of the network.
"""
enc = ""
if matching_line(cell, "Encryption key:") == "off":
enc = "Open"
else:
for line in cell:
matching = match(line,"IE:")
if matching == None:
continue
wpa = match(matching,"WPA")
if wpa == None:
continue
version_matches = VERSION_RGX.search(wpa)
if len(version_matches.regs) == 1:
version = version_matches \
.group(0) \
.lower() \
.replace("version", "") \
.strip()
wpa = wpa.replace(version_matches.group(0), "").strip()
if wpa == "":
wpa = "WPA"
if emit_version:
enc = "{0} v.{1}".format(wpa, version)
else:
enc = wpa
if wpa == "WPA2":
return enc
else:
enc = wpa
if enc == "":
enc = "WEP"
return enc
def get_mode(cell):
""" Gets the mode of a network / cell.
@param string cell
A network / cell from iwlist scan.
@return string
The IEEE 802.11 mode of the network.
"""
mode = matching_line(cell, "Extra:ieee_mode=")
if mode is None:
mode = matching_line(cell, "Mode:")
if mode is None:
return ""
return mode
def get_address(cell):
""" Gets the address of a network / cell.
@param string cell
A network / cell from iwlist scan.
@return string
The address of the network.
"""
return matching_line(cell, "Address: ")
def get_bit_rates(cell):
""" Gets the bit rate of a network / cell.
@param string cell
A network / cell from iwlist scan.
@return string
The bit rate of the network.
"""
return matching_line(cell, "Bit Rates:")
# Here you can choose the way of sorting the table. sortby should be a key of
# the dictionary rules.
def sort_cells(cells):
sortby = "Quality"
reverse = True
cells.sort(key=lambda el:el[sortby], reverse=reverse)
# Below here goes the boring stuff. You shouldn't have to edit anything below
# this point
def matching_line(lines, keyword):
""" Returns the first matching line in a list of lines.
@see match()
"""
for line in lines:
matching = match(line,keyword)
if matching != None:
return matching
return None
def match(line, keyword):
""" If the first part of line (modulo blanks) matches keyword,
returns the end of that line. Otherwise checks if keyword is
anywhere in the line and returns that section, else returns None"""
line = line.lstrip()
length = len(keyword)
if line[:length] == keyword:
return line[length:]
else:
if keyword in line:
return line[line.index(keyword):]
else:
return None
def parse_cell(cell, rules):
""" Applies the rules to the bunch of text describing a cell.
@param string cell
A network / cell from iwlist scan.
@param dictionary rules
A dictionary of parse rules.
@return dictionary
parsed networks. """
parsed_cell = {}
for key in rules:
rule = rules[key]
parsed_cell.update({key: rule(cell)})
return parsed_cell
def print_table(table):
# Functional black magic.
widths = list(map(max, map(lambda l: map(len, l), zip(*table))))
justified_table = []
for line in table:
justified_line = []
for i, el in enumerate(line):
justified_line.append(el.ljust(widths[i] + 2))
justified_table.append(justified_line)
for line in justified_table:
print("\t".join(line))
def print_cells(cells, columns):
table = [columns]
for cell in cells:
cell_properties = []
for column in columns:
if column == 'Quality':
# make print nicer
cell[column] = cell[column].rjust(3) + " %"
cell_properties.append(cell[column])
table.append(cell_properties)
print_table(table)
def get_parsed_cells(iw_data, rules=None):
""" Parses iwlist output into a list of networks.
@param list iw_data
Output from iwlist scan.
A list of strings.
@return list
properties: Name, Address, Quality, Channel, Frequency, Encryption, Signal Level, Noise Level, Bit Rates, Mode.
"""
# Here's a dictionary of rules that will be applied to the description
# of each cell. The key will be the name of the column in the table.
# The value is a function defined above.
rules = rules or {
"Name": get_name,
"Quality": get_quality,
"Channel": get_channel,
"Frequency": get_frequency,
"Encryption": get_encryption,
"Address": get_address,
"Signal Level": get_signal_level,
"Noise Level": get_noise_level,
"Bit Rates": get_bit_rates,
"Mode": get_mode,
}
cells = [[]]
parsed_cells = []
for line in iw_data:
cell_line = match(line, "Cell ")
if cell_line != None:
cells.append([])
line = cell_line[-27:]
cells[-1].append(line.rstrip())
cells = cells[1:]
for cell in cells:
parsed_cells.append(parse_cell(cell, rules))
sort_cells(parsed_cells)
return parsed_cells
def call_iwlist(interface='wlan0'):
""" Get iwlist output via subprocess
@param string interface
interface to scan
default is wlan0
@return string
properties: iwlist output
"""
return subprocess.check_output(['iwlist', interface, 'scanning'])
def get_interfaces(interface="wlan0"):
""" Get parsed iwlist output
@param string interface
interface to scan
default is wlan0
@param list columns
default data attributes to return
@return dict
properties: dictionary of iwlist attributes
"""
#return get_parsed_cells(call_iwlist(interface).split('\n'))
return get_parsed_cells(str(call_iwlist(interface)).split('\\n'))
iwlist.py 0 → 100644
View file @ 317984f1
import re
import subprocess
cellNumberRe = re.compile(r"^Cell\s+(?P<cellnumber>.+)\s+-\s+Address:\s(?P<mac>.+)$")
regexps = [
re.compile(r"^ESSID:\"(?P<essid>.*)\"$"),
re.compile(r"^Protocol:(?P<protocol>.+)$"),
re.compile(r"^Mode:(?P<mode>.+)$"),
re.compile(r"^Frequency:(?P<frequency>[\d.]+) (?P<frequency_units>.+) \(Channel (?P<channel>\d+)\)$"),
re.compile(r"^Encryption key:(?P<encryption>.+)$"),
re.compile(r"^Quality=(?P<signal_quality>\d+)/(?P<signal_total>\d+)\s+Signal level=(?P<signal_level_dBm>.+) d.+$"),
re.compile(r"^Signal level=(?P<signal_quality>\d+)/(?P<signal_total>\d+).*$"),
]
# Detect encryption type
wpaRe = re.compile(r"IE:\ WPA\ Version\ 1$")
wpa2Re = re.compile(r"IE:\ IEEE\ 802\.11i/WPA2\ Version\ 1$")
# Runs the comnmand to scan the list of networks.
# Must run as super user.
# Does not specify a particular device, so will scan all network devices.
def scan(interface='wlan0'):
cmd = ["iwlist", interface, "scan"]
proc = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
points = proc.stdout.read().decode('utf-8')
return points
# Parses the response from the command "iwlist scan"
def parse(content):
cells = []
lines = content.split('\n')
for line in lines:
line = line.strip()
cellNumber = cellNumberRe.search(line)
if cellNumber is not None:
cells.append(cellNumber.groupdict())
continue
wpa = wpaRe.search(line)
if wpa is not None :
cells[-1].update({'encryption':'wpa'})
wpa2 = wpa2Re.search(line)
if wpa2 is not None :
cells[-1].update({'encryption':'wpa2'})
for expression in regexps:
result = expression.search(line)
if result is not None:
if 'encryption' in result.groupdict() :
if result.groupdict()['encryption'] == 'on' :
cells[-1].update({'encryption': 'wep'})
else :
cells[-1].update({'encryption': 'off'})
else :
cells[-1].update(result.groupdict())
continue
return cells
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