这篇文章主要介绍“web开发拦截器的方法是什么”,在日常操作中,相信很多人在web开发拦截器的方法是什么问题上存在疑惑,小编查阅了各式资料,整理出简单好用的操作方法,希望对大家解答”web开发拦截器的方法是什么”的疑惑有所帮助!接下来,请跟着小编一起来学习吧!
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类似java的structs框架中的拦截器,servelet中也有拦截器;
根据拦截点不同,分:请求挂载;响应拦截;
根据影响面,分:全局拦截(在Application中拦截);局部拦截(在Router中拦截);
不能在handler中作拦截,即不能在一个完整的功能模块中拦截;
在__call__()进去之后,__call__()return之前作拦截;
注:
依次执行,一环扣一环,上一步的输出是下一步的输入;
拦截器可以是多个,多个拦截器是有顺序的;
数据response之前执行的命名为pre_interceptor,之后的执行命名为post_interceptor;
某些特定功能要求最终返回给用户为404,经fn后rerturn None,这样达到目的就行;
方式1:
Application和Router类中直接加入;
把拦截器的相关方法,属性分别添加到相关类中;
Router的拦截器是每个实例都不一样,适合用此种;
方式2:
Mixin;
Application和Router都需要这个拦截器功能,这两个类有无关系,可用mixin方式,将属性方法组合进来;
Application适合使用此种;
def fn(app,request:Request)->Request: pass #fn不能影响数据继续向下一级的传递,即是透明的,如handle的输入要是request,前面的拦截的输出也要是request,handle处理后是response,经拦截器最终到__call__()也要是response
def fn(app,reqeust:Request)->Request: pass #引入app即Application的实例,是为以后从Application上获取一些全局信息
为把一些应用数据、配置数据、数据库连接等全局共享数据提供给所有对象使用,增加一个字典,存储这些共享数据;
为方便访问,提供字典的属性化访问的类,且该字典可写;
例:
class Context(dict):
def __getattr__(self, item):
try:
return self[item]
except KeyError:
raise AttributeError('Attribute {} Not Found'.fomrat(item))
def __setattr__(self, key, value):
self[key] = value
class Application:
ctx = Context()
ROUTERS = []
def __init__(self, **kwargs):
self.ctx.app = self
for k, v in kwargs:
self.ctx[k] = v
Router的每一个实例中增加上下文属性,实例自己使用;
Router实例如何使用全局上下文?
用新的处理方法,增加NestedContext类,每一个Router实例的上下文字典内部关联一个全局字典的引用,如果自己的字典中找不到,就去全局里找;
Router实例什么时候关联全局字典?
在路由注册时较合适,只需修改下注册函数即可
例,错误示例:
class Mixin:
# def __init__(self): pass #仅实现功能,不能有初始化
class A:
def __init__(self): pass
class C(Mixin, A):
def __init__(self):
super().__init__() #错误,这样用的是Mixin的初始化方法,把A的覆盖掉了
例:
class Context(dict):
def __getattr__(self, item):
try:
return self[item]
except KeyError:
raise AttributeError('Attribute {} Not Found'.format(item))
def __setattr__(self, key, value):
self[key] = value
class NestedContext(Context):
def __init__(self, globalcontext:Context=None):
super().__init__() #此句可没有,父类中未初始化,按标准流程应写上
self.relate(globalcontext)
def relate(self, globalcontext:Context=None):
self.globalcontext = globalcontext
def __getattr__(self, item):
if item in self.keys():
return self[item]
return self.globalcontext[item]
ctx = Context()
ctx.x = 6
ctx.y = 'a'
nc = NestedContext()
nc.relate(ctx)
nc.x = 8
print(nc) #
print(nc.x) #自己的
print(nc.y) #全局的
print(nc.z) #KeyError
输出:
{'globalcontext': {'y': 'a', 'x': 6}, 'x': 8}
8
a
Traceback (most recent call last):
File "E:/git_practice/cmdb/example_wsgi_interceptor.py", line 37, in <module>
print(nc.z)
File "E:/git_practice/cmdb/example_wsgi_interceptor.py", line 24, in __getattr__
return self.globalcontext[item]
KeyError: 'z'
将如下代码改为单例(单例模式,只允许创建一个实例);
多线程时,要么锁要么信号量;
多进程时,用进程中的信号量;
例:
from wsgiref.simple_server import make_server
from webob import Request, Response, dec, exc
import re
class DictObj:
def __init__(self, d: dict):
if not isinstance(d, dict):
self.__dict__['_dict'] = {}
else:
self.__dict__['_dict'] = d
def __getattr__(self, item):
try:
return self._dict[item]
except KeyError:
raise AttributeError('Attribute {} Not Found '.format(self._dict))
def __setattr__(self, key, value):
raise NotImplementedError
class Context(dict):
def __getattr__(self, item):
try:
return self[item]
except KeyError:
raise AttributeError('Attrubute {} Not found'.format(item))
def __setattr__(self, key, value):
self[key] = value
class NestedContext(Context):
def __init__(self, globalcontext:Context=None):
super().__init__()
self.relate(globalcontext)
def relate(self, globalcontext:Context=None):
self.globalcontext = globalcontext
def __getattr__(self, item):
if item in self.keys():
return self[item]
return self.globalcontext[item]
class Router:
pattern = '/({[^{}:]+:?[^{}:]*})' # /{name:str}
regex = re.compile(pattern)
TYPEPATTERNS = {
'str': r'[^/]+',
'word': r'\w+',
'int': r'[+-]?\d+',
'float': r'[+-]\d+.\d+',
'any': r'.+'
}
TYPECAST = {
'str': str,
'word': str,
'int': int,
'float': float,
'any': str
}
def _transform(self, kv: str):
name, _, type = kv.strip('/{}').partition(':')
return '/(?P<{}>{})'.format(name, self.TYPEPATTERNS.get(type, '\w+')), name, self.TYPECAST.get(type, str)
def _parse(self, src: str):
start = 0
res = ''
translator = {}
while True:
matcher = self.regex.search(src, start)
if matcher:
res += matcher.string[start: matcher.start()]
tmp = self._transform(matcher.string[matcher.start():matcher.end()])
res += tmp[0]
translator[tmp[1]] = tmp[2]
start = matcher.end()
else:
break
if res:
return res, translator
else:
return src, translator
def __init__(self, prefix: str=''):
self.__prefix = prefix.rstrip('/\\')
self.__routertable = [] #[(methods, regex, translator, handler)]
self.pre_interceptor = []
self.post_interceptor = []
self.ctx = NestedContext()
@property
def prefix(self):
return self.__prefix
def register_preinterceptor(self, fn):
self.pre_interceptor.append(fn)
return fn
def register_postinterceptor(self, fn):
self.post_interceptor.append(fn)
return fn
def route(self, rule, *methods):
def wrapper(handler):
pattern, translator = self._parse(rule)
self.__routertable.append((methods, re.compile(pattern), translator, handler))
return handler
return wrapper
def get(self, pattern):
return self.route(pattern, 'GET')
def post(self, pattern):
return self.route(pattern, 'POST')
def head(self, pattern):
return self.route(pattern, 'HEAD')
def match(self, request: Request)->Response:
print(request.path)
if not request.path.startswith(self.prefix):
return
for fn in self.pre_interceptor:
request = fn(self.ctx, request)
for methods, regex, translator, handler in self.__routertable:
print(methods, regex, translator, handler)
if not methods or request.method.upper() in methods:
matcher = regex.search(request.path.replace(self.prefix, '', 1))
if matcher:
print(matcher)
newdict = {}
for k, v in matcher.groupdict().items():
newdict[k] = translator[k](v)
print(newdict)
request.vars = DictObj(newdict)
return handler(request)
# return
class Application:
ctx = Context()
ROUTERS = []
def __init__(self, **kwargs):
self.ctx.app = self
for k, v in kwargs:
self.ctx[k] = v
PRE_INTERCEPTOR = []
POST_INTERCEPTOR = []
@classmethod
def register_preinterceptor(cls, fn):
cls.PRE_INTERCEPTOR.append(fn)
return fn
@classmethod
def register_postinterceptor(cls, fn):
cls.POST_INTERCEPTOR.append(fn)
return fn
@classmethod
def register(cls, router: Router):
router.ctx.relate(cls.ctx)
router.ctx.router = router
cls.ROUTERS.append(router)
@dec.wsgify
def __call__(self, request: Request) -> Response:
for fn in self.PRE_INTERCEPTOR:
request = fn(self.ctx, request)
for router in self.ROUTERS:
response = router.match(request)
for fn in self.POST_INTERCEPTOR:
response = fn(self.ctx, request, response)
if response:
return response
raise exc.HTTPNotFound('<h2>the page not found</h2>')
idx = Router()
py = Router('/python')
Application.register(idx)
Application.register(py)
# @py.get('/{name:str}')
# @py.get('/{id:int}')
@py.get('/{name:str}/{id:int}')
def showpython(request):
res = Response()
# print(request.__dict__)
# res.body = '<h2>hello python; vars = {}</h2>'.format(request.vars.name).encode()
res.body = '<h2>hello python; vars = {}</h2>'.format(request.vars.id).encode()
return res
@idx.route('^/$')
def index(request):
res = Response()
res.body = '<h2>welcome</h2>'.encode()
return res
@Application.register_preinterceptor
def showheaders(ctx: Context, request: Request) -> Response:
print(request.path)
print(request.user_agent)
return request
@py.register_preinterceptor
def showprefix(ctx: Context, request: Request)->Response:
print('~~~~~~~prefix = {}'.format(ctx.router.prefix))
return request
if __name__ == '__main__':
ip = '127.0.0.1'
port = 9999
server = make_server(ip, port, Application())
try:
server.serve_forever()
except Exception as e:
print(e)
finally:
server.shutdown()
server.server_close()
到此,关于“web开发拦截器的方法是什么”的学习就结束了,希望能够解决大家的疑惑。理论与实践的搭配能更好的帮助大家学习,快去试试吧!若想继续学习更多相关知识,请继续关注创新互联网站,小编会继续努力为大家带来更多实用的文章!
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