如何根据目标WiFi的用户信息,用Python生成一份独特的WPA2密码表?

随着无线网络的不断发展,几乎所有场合都会覆盖WIFI信号,无论是公共地点还是家庭之中。众所周知,目前WIFI普遍的认证方式为wpa2,这种认证方式安全性相当不错,但由于人们设置密码时的随意性和固有思维,使得我们可以利用字典暴力破解。普通的字典大多是全覆盖的、总结性的,针对部分弱口令或许有用,不过1g的字典就算跑也要跑几个小时。那么如何利用已知目标wifi用户的信息生成一个不错的字典呢?

寻找wifi及具体信息

首先,生成字典的目的是为了破解密码,而想要破解密码,得先寻找一个wifi,假设找到了你邻居的wifi,那么接下来要做的就是收集信息。譬如:邻居的名字,生日,工作,老婆叫什么,儿子叫什么,生日是哪天。我们获得的信息越多,生成的密码字典就越丰富,破解可能性就越大。

填写信息文件

收集信息后,要做的是创建一个文件。

根据目标用户信息,Python生成WPA2密码字典

如图,首先创建一个名为information的文件,无后缀。格式如下,以“:”为分界线(英文冒号),左侧为信息名称,右侧为信息的具体内容,内容不清楚则填no,由于代码关系,不要少于20行。

生成字典

信息文件创建完毕后,便可以生成字典。这里我使用python来完成这一工作。生成的算法策略如下。

1.  大于8位的直接保留,小于8位的舍弃。

2.  信息相互组合,小于8位舍弃。

3.  生日提取年份、日月与其他信息组合,小于8位舍弃。

4.  所有小于8位的信息与短数字(0-9的全排列)进行组合,生成8位密码。

5.  所有信息与的9位以内短数字进行组合如(1233456789,000000000)。

6.  所有组合与特殊符号相结合,如“#”、“%”等。特殊字符的位置可以是开头中间和结尾。

接下来,使用python根据以上策略对信息进行结合处理。首先将信息存入一个list中。

 f = open('information','r')
		lines = f.read().split('\r')
		name = lines[0].split(':')[1] list.append(name)

		simple_name = lines[1].split(':')[1] list.append(simple_name)

		family_name = lines[2].split(':')[1] list.append(family_name)

		phone_number = lines[3].split(':')[1] list.append(phone_number)

		study_number = lines[4].split(':')[1] list.append(study_number)

		birthday = lines[5].split(':')[1] list.append(birthday) if birthday!='no' and birthday!= 'NO':
			birthday_month_day = birthday[4:]
			birthday_year = birthday[0:4] list.append(birthday_month_day) list.append(birthday_year) else:
			birthday_month_day = 'no' birthday_year = 'no' list.append(birthday_month_day) list.append(birthday_year)

		idol_name = lines[6].split(':')[1] list.append(idol_name)

		idol_simple_name = lines[7].split(':')[1] list.append(idol_simple_name)

		father_name = lines[8].split(':')[1] list.append(family_name)

		father_simple_name = lines[9].split(':')[1] list.append(father_simple_name)

		mather_name = lines[10].split(':')[1] list.append(mather_name)

		mather_simple_name = lines[11].split(':')[1] list.append(mather_simple_name)

		son_name = lines[12].split(':')[1] list.append(son_name)

		son_simple_name = lines[13].split(':')[1] list.append(son_simple_name)

		father_birthday = lines[14].split(':')[1] list.append(father_birthday) if father_birthday!='no' and father_birthday!= 'NO':
			father_birthday_month_day = father_birthday[4:]
			father_birthday_year = father_birthday[0:4] list.append(father_birthday_month_day) list.append(father_birthday_year) else:
			father_birthday_month_day = 'no' father_birthday_year = 'no' list.append(father_birthday_month_day) list.append(father_birthday_year)

		mather_birthday = lines[15].split(':')[1] list.append(mather_birthday) if mather_birthday!='no' and mather_birthday!= 'NO':
			mather_birthday_month_day = mather_birthday[4:]
			mather_birthday_year = mather_birthday[0:4] list.append(mather_birthday_month_day) list.append(mather_birthday_year) else:
			mather_birthday_month_day = 'no' mather_birthday_year = 'no' list.append(mather_birthday_month_day) list.append(mather_birthday_year)

		son_birthday = lines[16].split(':')[1] list.append(son_birthday) if son_birthday !='no' and son_birthday != 'NO':
			son_birthday_month_day = son_birthday[4:]
			son_birthday_year = son_birthday[0:4] list.append(son_birthday_month_day) list.append(son_birthday_year) else:
			son_birthday_month_day = 'no' son_birthday_year = 'no' list.append(son_birthday_month_day) list.append(son_birthday_year)

		address = lines[17].split(':')[1] list.append(address)

		university_name = lines[18].split(':')[1] list.append(university_name)

		university_simple_name = lines[19].split(':')[1] list.append(university_simple_name) for i in range(20,len(lines)): list.append(lines[i].split(':')[1])
		f.close() 

为了阅读方便,information文件中前20个信息写的很具体。最后三行则是对20行之后的补充。

随后,将短数字与特殊符号放入其他两个list中,代码见最后。并根据策略进行相互组合。最后生成符合我们心意的字典。最后附上代码~

#coding:utf-8 import itertools

def read_file(): try:
		f = open('information','r')
		lines = f.read().split('\r')
		name = lines[0].split(':')[1] list.append(name)

		simple_name = lines[1].split(':')[1] list.append(simple_name)

		family_name = lines[2].split(':')[1] list.append(family_name)

		phone_number = lines[3].split(':')[1] list.append(phone_number)

		study_number = lines[4].split(':')[1] list.append(study_number)

		birthday = lines[5].split(':')[1] list.append(birthday) if birthday!='no' and birthday!= 'NO':
			birthday_month_day = birthday[4:]
			birthday_year = birthday[0:4] list.append(birthday_month_day) list.append(birthday_year) else:
			birthday_month_day = 'no' birthday_year = 'no' list.append(birthday_month_day) list.append(birthday_year)

		idol_name = lines[6].split(':')[1] list.append(idol_name)

		idol_simple_name = lines[7].split(':')[1] list.append(idol_simple_name)

		father_name = lines[8].split(':')[1] list.append(family_name)

		father_simple_name = lines[9].split(':')[1] list.append(father_simple_name)

		mather_name = lines[10].split(':')[1] list.append(mather_name)

		mather_simple_name = lines[11].split(':')[1] list.append(mather_simple_name)

		son_name = lines[12].split(':')[1] list.append(son_name)

		son_simple_name = lines[13].split(':')[1] list.append(son_simple_name)

		father_birthday = lines[14].split(':')[1] list.append(father_birthday) if father_birthday!='no' and father_birthday!= 'NO':
			father_birthday_month_day = father_birthday[4:]
			father_birthday_year = father_birthday[0:4] list.append(father_birthday_month_day) list.append(father_birthday_year) else:
			father_birthday_month_day = 'no' father_birthday_year = 'no' list.append(father_birthday_month_day) list.append(father_birthday_year)

		mather_birthday = lines[15].split(':')[1] list.append(mather_birthday) if mather_birthday!='no' and mather_birthday!= 'NO':
			mather_birthday_month_day = mather_birthday[4:]
			mather_birthday_year = mather_birthday[0:4] list.append(mather_birthday_month_day) list.append(mather_birthday_year) else:
			mather_birthday_month_day = 'no' mather_birthday_year = 'no' list.append(mather_birthday_month_day) list.append(mather_birthday_year)

		son_birthday = lines[16].split(':')[1] list.append(son_birthday) if son_birthday !='no' and son_birthday != 'NO':
			son_birthday_month_day = son_birthday[4:]
			son_birthday_year = son_birthday[0:4] list.append(son_birthday_month_day) list.append(son_birthday_year) else:
			son_birthday_month_day = 'no' son_birthday_year = 'no' list.append(son_birthday_month_day) list.append(son_birthday_year)

		address = lines[17].split(':')[1] list.append(address)

		university_name = lines[18].split(':')[1] list.append(university_name)

		university_simple_name = lines[19].split(':')[1] list.append(university_simple_name) for i in range(20,len(lines)): list.append(lines[i].split(':')[1])
		f.close()
	except:
		pass

def combination():
	f = open('create_key','w') for i in range(len(list)): if list[i]!='no': if len(list[i]) >= 8:
				f.write(list[i]+'\n')

			elif len(list[i])<8:
				n = 8 - len(list[i]) for j in itertools.permutations('1234567890',n):
					f.write(list[i]+''.join(j)+'\n') for j in range(0,len(list)): if len(list[i]+list[j])>=8 and list[i]!='no' and list[j]!='no' and list[i]!=list[j]:
					f.write(list[i]+list[j]+'\n') for m in range(0,len(list_special)):
						f.write(list_special[m]+list[i] + list[j] + '\n')
						f.write(list[i] + list_special[m] + list[j] + '\n')
						f.write(list[i] + list[j] + list_special[m] + '\n') for k in range(0,12): for l in range(10): if len(list[i]+list_number[k][0:l])>=8:
						f.write(list[i]+list_number[k][0:l]+'\n')
						f.write(list_number[k][0:l]+list[i]+'\n') for m in range(0, len(list_special)):
							f.write(list_special[m] + list[i] + list_number[k][0:l] + '\n')
							f.write(list[i] + list_special[m] + list_number[k][0:l] + '\n')
							f.write(list[i] + list_number[k][0:l] + list_special[m] + '\n')
							f.write(list_special[m] + list_number[k][0:l] + list[i] + '\n')
							f.write(list_number[k][0:l] +list_special[m] + list[i] + '\n')
							f.write(list_number[k][0:l] + list[i] + list_special[m]+'\n')

				f.write(list[i]+list_number[k]+'\n') for m in range(0, len(list_special)):
					f.write(list_special[m]+list[i] + list_number[k] + '\n')
					f.write(list[i]+list_special[m]+list_number[k]+'\n')
					f.write(list[i]+list_number[k]+list_special[m]+'\n')

				f.write(list_number[k]+list[i]+'\n') for m in range(0, len(list_special)):
					f.write(list_special[m]+list_number[k] + list[i] + '\n')
					f.write(list_number[k]+list_special[m]+list[i]+'\n')
					f.write(list_number[k]+list[i]+list_special[m]+'\n')

	f.close()

def create_list_number():
	simple_number1 = '123456789' list_number.append(simple_number1)

	simple_number2 = '000000000' list_number.append(simple_number2)

	simple_number3 = '111111111' list_number.append(simple_number3)

	simple_number4 = '222222222' list_number.append(simple_number4)

	simple_number5 = '333333333' list_number.append(simple_number5)

	simple_number6 = '444444444' list_number.append(simple_number6)

	simple_number7 = '555555555' list_number.append(simple_number7)

	simple_number8 = '666666666' list_number.append(simple_number8)

	simple_number9 = '777777777' list_number.append(simple_number9)

	simple_number10 = '888888888' list_number.append(simple_number10)

	simple_number11 = '999999999' list_number.append(simple_number11)

	simple_number12 = '987654321' list_number.append(simple_number12)

def create_list_special():
	list_special.append(',')
	list_special.append('.')
	list_special.append('?')
	list_special.append('#')
	list_special.append('/')
	list_special.append(';')
	list_special.append(':')
	list_special.append('!')
	list_special.append('@')
	list_special.append('$')
	list_special.append('%')
	list_special.append('^')
	list_special.append('&')
	list_special.append('*')

def main(): global list list = [] global list_number
	list_number = [] global list_special
	list_special = []
	create_list_special()
	create_list_number()
	read_file()
	combination() if __name__ == '__main__':
	main() 

*本文作者:koerle