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WiFiAnalyzer.py
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WiFiAnalyzer.py
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# coding=UTF-8
from Tkinter import *
import ttk
import pywifi
import random
from threading import Timer
# Channel Data From https://zh.wikipedia.org/wiki/WLAN%E4%BF%A1%E9%81%93%E5%88%97%E8%A1%A8
freq_24 = { # 14 Channel
1:2412,
2:2417,
3:2422,
4:2427,
5:2432,
6:2437,
7:2442,
8:2447,
9:2452,
10:2457,
11:2462,
12:2467,
13:2472,
14:2484
}
china_deny_24 = [14]
temp_dict = {v : k for k, v in freq_24.items()}
freq_24 = temp_dict
freq_5 = { # 27 Channel
34:5170,
36:5180,
38:5190,
40:5200,
42:5210,
44:5220,
46:5230,
48:5240,
52:5260,
56:5280,
60:5300,
64:5320,
100:5500,
104:5520,
108:5540,
112:5560,
116:5580,
120:5600,
124:5620,
128:5640,
132:5660,
136:5680,
140:5700,
149:5745,
153:5765,
157:5785,
161:5805,
165:5825
}
china_deny_5 = [34,100,104,108,112,116,120,124,128,132,136,140]
temp_dict = {v : k for k, v in freq_5.items()}
freq_5 = temp_dict
# 2.4GHz mode = False , 5GHz mode = True
# freq_flag = False
# freq_cur = freq_24 if not freq_flag else freq_5
# freq_list = freq_cur.values()
# freq_list.sort()
def random_RGB():
while 1:
RGB_list = []
for i in range(3):
RGB_list.append(random.randint(0,255))
sum = 0
for i in RGB_list:
sum += i
if sum > 180: # 统计RGB值加起来是否大于180 因为背景为黑色 防止颜色太深看起来不清楚
RGB = '#'
for i in RGB_list:
shex = str(hex(i))[2:]
# print shex
if len(shex) == 1:
RGB += '0'
RGB += shex
# print RGB
return RGB
root = Tk()
root.resizable(False, False)
root.configure(bg='black')
w = pywifi.PyWiFi()
il = w.interfaces()
# interface = il[0]
color_reg = {}
def start_print():
global freq_cur
global freq_list
freq_cur = freq_24 if not freq_flag else freq_5
freq_list = freq_cur.values()
freq_list.sort()
root_width = len(freq_cur)*30+(len(freq_cur)-1)*10+20+2
root.geometry(str(root_width)+"x452")
if not freq_flag:
root.title('WiFiAnalyzer - 2.4GHz')
else:
root.title('WiFiAnalyzer - 5GHz')
print_bg()
print_item()
cv.pack()
def select_24():
global freq_flag
freq_flag = False
global interface
interface = il[Hs['values'].index(Hs.get())]
Hf.destroy()
start_print()
def select_5():
global freq_flag
freq_flag = True
global interface
interface = il[Hs['values'].index(Hs.get())]
Hf.destroy()
start_print()
def print_Home():
root.geometry("572x452")
root.title('WiFiAnalyzer')
global Hf
Hf = Frame(root,bg='black')
Hf.pack(expand=True)
Ht = Label(Hf,fg='white',bg='black',text='WiFiAnalyzer',font=('Helvetica','30'))
Ht.pack()
global Hs
Hs = ttk.Combobox(Hf, width=30, font=("Times New Roman", 20), justify=CENTER)
Hs.configure(state='readonly')
Hs.configure(values = [i.name() for i in il])
if len(Hs['values']) != 0:
Hs.current(0)
Hs.pack()
Hb24 = Button(Hf, text='2.4GHz', command=select_24, bg='black',fg='white', font=('Helvetica','20'))
Hb5 = Button(Hf, text='5GHz', command=select_5, bg='black',fg='white', font=('Helvetica','20'))
Hb24.pack(side=LEFT,pady=10,padx=60)
Hb5.pack(side=LEFT,pady=10,padx=60)
def print_bg():
global cv
cv_width = len(freq_cur)*30+(len(freq_cur)-1)*10+20
cv = Canvas(root,bg='black',width=cv_width,height=450)
china_deny = china_deny_24 if not freq_flag else china_deny_5
cv.create_line(10,30,cv_width-10,30,fill='white')
for freq_no in range(len(freq_list)):
x = 10*(freq_no+1)+30*freq_no+15
freq_channel = freq_list[freq_no]
color = 'white'
if freq_channel in china_deny:
color = 'red'
cv.create_text(x,15,fill=color,text=str(freq_channel),font=('Helvetica','14'))
def print_item():
interface.scan()
r = interface.scan_results()
cv.delete("item")
for ap in r:
# | flag | <= 2484000 | pass |
# | ---- | ---------- | ---- |
# | 0 | 1 | 1 |
# | 0 | 0 | 0 |
# | 1 | 1 | 0 |
# | 1 | 0 | 1 |
# XOR NB 666!
if freq_flag ^ (ap.freq <= 2484000):
freq_channel = freq_cur[int(ap.freq)/1000]
freq_no = freq_list.index(freq_channel)
x = 10*(freq_no+1)+30*freq_no
y = 450-ap.signal*(-4)
global color_reg
if color_reg.has_key(ap.bssid):
color = color_reg[ap.bssid]
else:
color = random_RGB()
color_reg[ap.bssid] = color
cv.create_rectangle(x,31,x+30,y,outline=color,tags='item')
cv.create_text(x+15,y+5,fill=color,text=ap.ssid,tags='item')
global t
t = Timer(2, print_item, ())
t.start()
def freq_switch(event):
t.cancel()
cv.destroy()
global freq_flag
freq_flag = not freq_flag
start_print()
root.bind_all('<Tab>', freq_switch)
def break_Home(event):
t.cancel()
cv.destroy()
print_Home()
root.bind_all('<Escape>', break_Home)
def closeWindow():
try:
t.cancel()
except NameError:
pass
root.destroy()
print_Home()
root.protocol('WM_DELETE_WINDOW', closeWindow)
root.mainloop()