import configparser
config=configparser.ConfigParser()
#创建文件和内容
# config["DEFAULT"]={"serveraliveinterbval":"45",
# "Compression":"yes",
# "compressionlevel":"9"}
# config["bitbuvket"]={}
# config["bitbuvket"]["user"]="hg"
# config["topsecret.server.com"]={}
# topsecret=config["topsecret.server.com"]
# topsecret["host port"]="50022"
# topsecret["forwardx11"]="no"
# config["DEFAULT"]["forwardx11"]="yes"
# with open("example.ini","w") as configfile:
# config.write(configfile)
# config.read("example.ini")#读取文件内容
#---------------------------------------查询
# sesc=config.sections()# 对内容进行划分,得到所有的章节名
# print(sesc)# 以列表形式打印章节名
# #['bitbuvket', 'topsecret.server.com']
# print("bitbuvket" in sesc)
# #True
# print(config["bitbuvket"]["user"])
# #hg
# print(config["DEFAULT"]["Compression"])
# #yes
# for i in config["bitbuvket"]:
# print(i)
# # user
# # serveraliveinterbval
# # compression
# # compressionlevel
# # forwardx11
# opts=config.options("topsecret.server.com")
# print(opts)#以列表形式打印topsecret.server.com章节里面的Key(默认值也会打印,但要去除重复名称的)
# #['host port', 'forwardx11', 'serveraliveinterbval', 'compression', 'compressionlevel']
# item=config.items("topsecret.server.com")
# print(item)# 以列表形式打印topsecret.server.com章节的(key, value)
# #[('serveraliveinterbval', '45'), ('compression', 'yes'), ('compressionlevel', '9'), ('forwardx11', 'no'), ('host port', '50022')]
# str_val = config.get("topsecret.server.com", "host port")
# print(str_val)# 返回"topsecret.server.com"章节里面key为"host port"的值,返回为string类型
# #50022
#-------------------------------------增加--
# config.add_section("yuan")#增加一个yuan的章节
# config.set("yuan","k1","11111")#在yuan的章节下添加一个键值对(如果已经存在就不能添加)
#----------------------------------------删除
# config.remove_section("topsecret.server.com")#删除topsecret.server.com章节
# config.remove_option("bitbuvket","user")#删除"bitbuvket"中"user"的键值对
# config.write(open("example.ini","w"))
#==========================================hashlib加密===================
import hashlib
has=hashlib.md5()#md5对象,md5不能反解,但是加密是固定的值,就是关系是一一对应.所以有缺陷,可能被对撞出来
has.update("abdadmin".encode("utf8"))#对那个字符串进行加密
print(has.hexdigest())#21232f297a57a5a743894a0e4a801fc3 #拿到加密字符
has1=hashlib.sha256()#不同算法,hashlib很多加密算法
has1.update("123456789".encode("utf8"))
print(has1.hexdigest())#15e2b0d3c33891ebb0f1ef609ec419420c20e320ce94c65fbc8c3312448eb225
hash3 = hashlib.md5(bytes('abd',encoding='utf-8'))
''' 如果没有参数,所以md5遵守一个规则,生成同一个对应关系,如果加了参数,
就是在原先加密的基础上再加密一层,这样的话参数只有自己知道,防止被撞库,
因为别人永远拿不到这个参数
'''
hash3.update(bytes('admin',encoding='utf-8'))
print(hash3.hexdigest())#9aea3c0a6c51555c1a4d0a5e9b689ded
#这里写一个利用md5进行用户登陆网站进行注册之后密码加密的基本事例,加深理解
#hashliblib简单实用
def md5(arg):
md5_pwd=hashlib.md5()
md5_pwd.update(arg.encode("utf8"))
return md5_pwd.hexdigest()
def login(user,pwd):
with open("text","r") as f:
for i in f:
u,p=i.strip().split(":")
m=md5(p)
if user==u and pwd==m:
return True
def register(user,pwd):
with open("text","a") as f:
temp=":".join([user,pwd])
f.write(temp)
i=input("""
1.表示登陆:
2.表示注册:""")
if i=="1":
user=input("请输入账号")
pwd=input("请输入密码")
pwd=md5(pwd)
if login(user,pwd):
print("登陆成功")
else:
print("账号或密码错误")
elif i=="2":
user=input("请输入账号")
pwd=input("请输入密码")
register(user,pwd)
else:
print("输入有误")
