Python之Web框架们

Python的WEB框架

Bottle

Bottle是一个快速、简洁、轻量级的基于WSIG的微型Web框架,此框架只由一个 .py 文件,除了Python的标准库外,其不依赖任何其他模块。

pip install bottle
easy_install bottle
apt-get install python-bottle
wget http://bottlepy.org/bottle.py

Bottle框架大致可以分为以下部分:

  • 路由系统,将不同请求交由指定函数处理
  • 模板系统,将模板中的特殊语法渲染成字符串,值得一说的是Bottle的模板引擎可以任意指定:Bottle内置模板、makojinja2cheetah
  • 公共组件,用于提供处理请求相关的信息,如:表单数据、cookies、请求头等
  • 服务,Bottle默认支持多种基于WSGI的服务,如:
server_names = {
'cgi': CGIServer,
'flup': FlupFCGIServer,
'wsgiref': WSGIRefServer,
'waitress': WaitressServer,
'cherrypy': CherryPyServer,
'paste': PasteServer,
'fapws3': FapwsServer,
'tornado': TornadoServer,
'gae': AppEngineServer,
'twisted': TwistedServer,
'diesel': DieselServer,
'meinheld': MeinheldServer,
'gunicorn': GunicornServer,
'eventlet': EventletServer,
'gevent': GeventServer,
'geventSocketIO':GeventSocketIOServer,
'rocket': RocketServer,
'bjoern' : BjoernServer,
'auto': AutoServer,
}

框架的基本使用

#!/usr/bin/env python
# -*- coding:utf-8 -*-
from bottle import template, Bottle
root = Bottle() @root.route('/hello/')
def index():
return "Hello World"
# return template('<b>Hello {{name}}</b>!', name="Alex") root.run(host='localhost', port=8080)

一、路由系统

路由系统是的url对应指定函数,当用户请求某个url时,就由指定函数处理当前请求,对于Bottle的路由系统可以分为一下几类:

  • 静态路由
  • 动态路由
  • 请求方法路由
  • 二级路由

1、静态路由

@root.route('/hello/')
def index():
return template('<b>Hello {{name}}</b>!', name="xs")

2、动态路由

@root.route('/wiki/<pagename>')
def callback(pagename):
... @root.route('/object/<id:int>')
def callback(id):
... @root.route('/show/<name:re:[a-z]+>')
def callback(name):
... @root.route('/static/<path:path>')
def callback(path):
return static_file(path, root='static')

3、请求方法路由

@root.route('/hello/', method='POST')
def index():
... @root.get('/hello/')
def index():
... @root.post('/hello/')
def index():
... @root.put('/hello/')
def index():
... @root.delete('/hello/')
def index():
...

4、二级路由

#!/usr/bin/env python
# -*- coding:utf-8 -*-
from bottle import template, Bottle app01 = Bottle() @app01.route('/hello/', method='GET')
def index():
return template('<b>App01</b>!')

app01.py

#!/usr/bin/env python
# -*- coding:utf-8 -*-
from bottle import template, Bottle app02 = Bottle() @app02.route('/hello/', method='GET')
def index():
return template('<b>App02</b>!')

app02.py

#!/usr/bin/env python
# -*- coding:utf-8 -*-
from bottle import template, Bottle
from bottle import static_file
root = Bottle() @root.route('/hello/')
def index():
return template('<b>Root {{name}}</b>!', name="Alex") from framwork_bottle import app01
from framwork_bottle import app02 root.mount('app01', app01.app01)
root.mount('app02', app02.app02) root.run(host='localhost', port=8080)

二、模板系统

模板系统用于将Html和自定的值两者进行渲染,从而得到字符串,然后将该字符串返回给客户端。我们知道在Bottle中可以使用 内置模板系统、makojinja2cheetah等,以内置模板系统为例:

<!DOCTYPE html>
<html>
<head lang="en">
<meta charset="UTF-8">
<title></title>
</head>
<body>
<h1>{{name}}</h1>
</body>
</html>

hello_template.tpl

#!/usr/bin/env python
# -*- coding:utf-8 -*-
from bottle import template, Bottle
root = Bottle() @root.route('/hello/')
def index():
# 默认情况下去目录:['./', './views/']中寻找模板文件 hello_template.html
# 配置在 bottle.TEMPLATE_PATH 中
return template('hello_template.tpl', name='alex') root.run(host='localhost', port=8080)

1、语法

  • 单值
  • 单行Python代码
  • Python代码快
  • Python、Html混合
<h1>1、单值</h1>
{{name}} <h1>2、单行Python代码</h1>
% s1 = "hello" <h1>3、Python代码块</h1>
<%
# A block of python code
name = name.title().strip()
if name == "Alex":
name="seven"
%> <h1>4、Python、Html混合</h1> % if True:
<span>{{name}}</span>
% end
<ul>
% for item in name:
<li>{{item}}</li>
% end
</ul>

2、函数

include(sub_template, **variables)

# 导入其他模板文件

% include('header.tpl', title='Page Title')
Page Content
% include('footer.tpl')

rebase(name, **variables)

<html>
<head>
<title>{{title or 'No title'}}</title>
</head>
<body>
{{!base}}
</body>
</html>

base.tpl

# 导入母版

% rebase('base.tpl', title='Page Title')
<p>Page Content ...</p>

defined(name)

# 检查当前变量是否已经被定义,已定义True,未定义False

get(name, default=None)

# 获取某个变量的值,不存在时可设置默认值

setdefault(name, default)

# 如果变量不存在时,为变量设置默认值

扩展:自定义函数

<!DOCTYPE html>
<html>
<head lang="en">
<meta charset="UTF-8">
<title></title>
</head>
<body>
<h1>自定义函数</h1>
{{ wupeiqi() }} </body>
</html>

hello_template.tpl

#!/usr/bin/env python
# -*- coding:utf-8 -*-
from bottle import template, Bottle,SimpleTemplate
root = Bottle() def custom():
return '' @root.route('/hello/')
def index():
# 默认情况下去目录:['./', './views/']中寻找模板文件 hello_template.html
# 配置在 bottle.TEMPLATE_PATH 中
return template('hello_template.html', name='alex', wupeiqi=custom) root.run(host='localhost', port=8080)

main.py

注:变量或函数前添加 【 ! 】,则会关闭转义的功能

三、公共组件

由于Web框架就是用来【接收用户请求】-> 【处理用户请求】-> 【响应相关内容】,对于具体如何处理用户请求,开发人员根据用户请求来进行处理,而对于接收用户请求和相应相关的内容均交给框架本身来处理,其处理完成之后将产出交给开发人员和用户。

【接收用户请求】

当框架接收到用户请求之后,将请求信息封装在Bottle的request中,以供开发人员使用

【响应相关内容】

当开发人员的代码处理完用户请求之后,会将其执行内容相应给用户,相应的内容会封装在Bottle的response中,然后再由框架将内容返回给用户

所以,公共组件本质其实就是为开发人员提供接口,使其能够获取用户信息并配置响应内容。

1、request

Bottle中的request其实是一个LocalReqeust对象,其中封装了用户请求的相关信息:

request.headers
请求头信息 request.query
get请求信息 request.forms
post请求信息 request.files
上传文件信息 request.params
get和post请求信息 request.GET
get请求信息 request.POST
post和上传信息 request.cookies
cookie信息 request.environ
环境相关相关

2、response

Bottle中的request其实是一个LocalResponse对象,其中框架即将返回给用户的相关信息:

response
response.status_line
状态行 response.status_code
状态码 response.headers
响应头 response.charset
编码 response.set_cookie
在浏览器上设置cookie response.delete_cookie
在浏览器上删除cookie

实例:

from bottle import route, request

@route('/login')
def login():
return '''
<form action="/login" method="post">
Username: <input name="username" type="text" />
Password: <input name="password" type="password" />
<input value="Login" type="submit" />
</form>
''' @route('/login', method='POST')
def do_login():
username = request.forms.get('username')
password = request.forms.get('password')
if check_login(username, password):
return "<p>Your login information was correct.</p>"
else:
return "<p>Login failed.</p>"

基本Form请求

<form action="/upload" method="post" enctype="multipart/form-data">
Category: <input type="text" name="category" />
Select a file: <input type="file" name="upload" />
<input type="submit" value="Start upload" />
</form> @route('/upload', method='POST')
def do_upload():
category = request.forms.get('category')
upload = request.files.get('upload')
name, ext = os.path.splitext(upload.filename)
if ext not in ('.png','.jpg','.jpeg'):
return 'File extension not allowed.' save_path = get_save_path_for_category(category)
upload.save(save_path) # appends upload.filename automatically
return 'OK'

上传文件

四、服务

对于Bottle框架其本身未实现类似于Tornado自己基于socket实现Web服务,所以必须依赖WSGI,默认Bottle已经实现并且支持的WSGI有:

server_names = {
'cgi': CGIServer,
'flup': FlupFCGIServer,
'wsgiref': WSGIRefServer,
'waitress': WaitressServer,
'cherrypy': CherryPyServer,
'paste': PasteServer,
'fapws3': FapwsServer,
'tornado': TornadoServer,
'gae': AppEngineServer,
'twisted': TwistedServer,
'diesel': DieselServer,
'meinheld': MeinheldServer,
'gunicorn': GunicornServer,
'eventlet': EventletServer,
'gevent': GeventServer,
'geventSocketIO':GeventSocketIOServer,
'rocket': RocketServer,
'bjoern' : BjoernServer,
'auto': AutoServer,
}

WSGI

使用时,只需在主app执行run方法时指定参数即可:

#!/usr/bin/env python
# -*- coding:utf-8 -*-
from bottle import Bottle
root = Bottle() @root.route('/hello/')
def index():
return "Hello World"
# 默认server ='wsgiref'
root.run(host='localhost', port=8080, server='wsgiref')

默认server="wsgiref",即:使用Python内置模块wsgiref,如果想要使用其他时,则需要首先安装相关类库,然后才能使用。如:

# 如果使用Tornado的服务,则需要首先安装tornado才能使用

class TornadoServer(ServerAdapter):
""" The super hyped asynchronous server by facebook. Untested. """
def run(self, handler): # pragma: no cover
# 导入Tornado相关模块
import tornado.wsgi, tornado.httpserver, tornado.ioloop
container = tornado.wsgi.WSGIContainer(handler)
server = tornado.httpserver.HTTPServer(container)
server.listen(port=self.port,address=self.host)
tornado.ioloop.IOLoop.instance().start()

bottle.py源码

PS:以上WSGI中提供了19种,如果想要使期支持其他服务,则需要扩展Bottle源码来自定义一个ServerAdapter

更多参见:http://www.bottlepy.org/docs/dev/index.html

Flask

Flask是一个基于Python开发并且依赖jinja2模板和Werkzeug WSGI服务的一个微型框架,对于Werkzeug本质是Socket服务端,其用于接收http请求并对请求进行预处理,然后触发Flask框架,开发人员基于Flask框架提供的功能对请求进行相应的处理,并返回给用户,如果要返回给用户复杂的内容时,需要借助jinja2模板来实现对模板的处理,即:将模板和数据进行渲染,将渲染后的字符串返回给用户浏览器。

“微”(micro) 并不表示你需要把整个 Web 应用塞进单个 Python 文件(虽然确实可以 ),也不意味着 Flask 在功能上有所欠缺。微框架中的“微”意味着 Flask 旨在保持核心简单而易于扩展。Flask 不会替你做出太多决策——比如使用何种数据库。而那些 Flask 所选择的——比如使用何种模板引擎——则很容易替换。除此之外的一切都由可由你掌握。如此,Flask 可以与您珠联璧合。

默认情况下,Flask 不包含数据库抽象层、表单验证,或是其它任何已有多种库可以胜任的功能。然而,Flask 支持用扩展来给应用添加这些功能,如同是 Flask 本身实现的一样。众多的扩展提供了数据库集成、表单验证、上传处理、各种各样的开放认证技术等功能。Flask 也许是“微小”的,但它已准备好在需求繁杂的生产环境中投入使用。

安装

pip install Flask
#!/usr/bin/env python
# -*- coding:utf-8 -*-
from werkzeug.wrappers import Request, Response @Request.application
def hello(request):
return Response('Hello World!') if __name__ == '__main__':
from werkzeug.serving import run_simple
run_simple('localhost', 4000, hello)

werkzeug

一、第一次

from flask import Flask
app = Flask(__name__) @app.route("/")
def hello():
return "Hello World!" if __name__ == "__main__":
app.run()

二、路由系统

  • @app.route('/user/<username>')
  • @app.route('/post/<int:post_id>')
  • @app.route('/post/<float:post_id>')
  • @app.route('/post/<path:path>')
  • @app.route('/login', methods=['GET', 'POST'])

常用路由系统有以上五种,所有的路由系统都是基于一下对应关系来处理:

DEFAULT_CONVERTERS = {
'default': UnicodeConverter,
'string': UnicodeConverter,
'any': AnyConverter,
'path': PathConverter,
'int': IntegerConverter,
'float': FloatConverter,
'uuid': UUIDConverter,
}

注:对于Flask默认不支持直接写正则表达式的路由,不过可以通过自定义来实现,见:https://segmentfault.com/q/1010000000125259

三、模板

1、模板的使用

Flask使用的是Jinja2模板,所以其语法和Django无差别

2、自定义模板方法

Flask中自定义模板方法的方式和Bottle相似,创建一个函数并通过参数的形式传入render_template,如:

<!DOCTYPE html>
<html>
<head lang="en">
<meta charset="UTF-8">
<title></title>
</head>
<body>
<h1>自定义函数</h1>
{{ww()|safe}} </body>
</html>

index.html

#!/usr/bin/env python
# -*- coding:utf-8 -*-
from flask import Flask,render_template
app = Flask(__name__) def wupeiqi():
return '<h1>Wupeiqi</h1>' @app.route('/login', methods=['GET', 'POST'])
def login():
return render_template('login.html', ww=wupeiqi) app.run()

四、公共组件

1、请求

对于Http请求,Flask会讲请求信息封装在request中(werkzeug.wrappers.BaseRequest),提供的如下常用方法和字段以供使用:

request.method
request.args
request.form
request.values
request.files
request.cookies
request.headers
request.path
request.full_path
request.script_root
request.url
request.base_url
request.url_root
request.host_url
request.host
@app.route('/login', methods=['POST', 'GET'])
def login():
error = None
if request.method == 'POST':
if valid_login(request.form['username'],
request.form['password']):
return log_the_user_in(request.form['username'])
else:
error = 'Invalid username/password'
# the code below is executed if the request method
# was GET or the credentials were invalid
return render_template('login.html', error=error)

表单处理Demo

from flask import request
from werkzeug import secure_filename @app.route('/upload', methods=['GET', 'POST'])
def upload_file():
if request.method == 'POST':
f = request.files['the_file']
f.save('/var/www/uploads/' + secure_filename(f.filename))
...

上传文件Demo

from flask import request

@app.route('/setcookie/')
def index():
username = request.cookies.get('username')
# use cookies.get(key) instead of cookies[key] to not get a
# KeyError if the cookie is missing. from flask import make_response @app.route('/getcookie')
def index():
resp = make_response(render_template(...))
resp.set_cookie('username', 'the username')
return resp

Cookie操作

2、响应

当用户请求被开发人员的逻辑处理完成之后,会将结果发送给用户浏览器,那么就需要对请求做出相应的响应。

a.字符串

@app.route('/index/', methods=['GET', 'POST'])
def index():
return "index"

b.模板引擎

from flask import Flask,render_template,request
app = Flask(__name__) @app.route('/index/', methods=['GET', 'POST'])
def index():
return render_template("index.html") app.run()

c.重定向

#!/usr/bin/env python
# -*- coding:utf-8 -*-
from flask import Flask, redirect, url_for
app = Flask(__name__) @app.route('/index/', methods=['GET', 'POST'])
def index():
# return redirect('/login/')
return redirect(url_for('login')) @app.route('/login/', methods=['GET', 'POST'])
def login():
return "LOGIN" app.run()

d.错误页面

from flask import Flask, abort, render_template
app = Flask(__name__) @app.route('/e1/', methods=['GET', 'POST'])
def index():
abort(404, 'Nothing')
app.run()

指定URL,简单错误

from flask import Flask, abort, render_template
app = Flask(__name__) @app.route('/index/', methods=['GET', 'POST'])
def index():
return "OK" @app.errorhandler(404)
def page_not_found(error):
return render_template('page_not_found.html'), 404 app.run()

e.设置相应信息

使用make_response可以对相应的内容进行操作

from flask import Flask, abort, render_template,make_response
app = Flask(__name__) @app.route('/index/', methods=['GET', 'POST'])
def index():
response = make_response(render_template('index.html'))
# response是flask.wrappers.Response类型
# response.delete_cookie
# response.set_cookie
# response.headers['X-Something'] = 'A value'
return response app.run()

3、Session

除请求对象之外,还有一个 session 对象。它允许你在不同请求间存储特定用户的信息。它是在 Cookies 的基础上实现的,并且对 Cookies 进行密钥签名要使用会话,你需要设置一个密钥。

  • 设置:session['username'] = 'xxx'

  • 删除:session.pop('username', None)
from flask import Flask, session, redirect, url_for, escape, request

app = Flask(__name__)

@app.route('/')
def index():
if 'username' in session:
return 'Logged in as %s' % escape(session['username'])
return 'You are not logged in' @app.route('/login', methods=['GET', 'POST'])
def login():
if request.method == 'POST':
session['username'] = request.form['username']
return redirect(url_for('index'))
return '''
<form action="" method="post">
<p><input type=text name=username>
<p><input type=submit value=Login>
</form>
''' @app.route('/logout')
def logout():
# remove the username from the session if it's there
session.pop('username', None)
return redirect(url_for('index')) # set the secret key. keep this really secret:
app.secret_key = 'A0Zr98j/3yX R~XHH!jmN]LWX/,?RT'

Flask还有众多其他功能,更多参见:
    http://docs.jinkan.org/docs/flask/
    http://flask.pocoo.org/

Tornado

Tornado 是 FriendFeed 使用的可扩展的非阻塞式 web 服务器及其相关工具的开源版本。这个 Web 框架看起来有些像web.py 或者 Google 的 webapp,不过为了能有效利用非阻塞式服务器环境,这个 Web 框架还包含了一些相关的有用工具 和优化。

Tornado 和现在的主流 Web 服务器框架(包括大多数 Python 的框架)有着明显的区别:它是非阻塞式服务器,而且速度相当快。得利于其 非阻塞的方式和对 epoll 的运用,Tornado 每秒可以处理数以千计的连接,这意味着对于实时 Web 服务来说,Tornado 是一个理想的 Web 框架。我们开发这个 Web 服务器的主要目的就是为了处理 FriendFeed 的实时功能 ——在 FriendFeed 的应用里每一个活动用户都会保持着一个服务器连接。(关于如何扩容 服务器,以处理数以千计的客户端的连接的问题,请参阅 C10K problem。)

pip install tornado
源码安装
https://pypi.python.org/packages/source/t/tornado/tornado-4.3.tar.gz

一、快速上手

#!/usr/bin/env python
# -*- coding:utf-8 -*- import tornado.ioloop
import tornado.web class MainHandler(tornado.web.RequestHandler):
def get(self):
self.write("Hello, world") application = tornado.web.Application([
(r"/index", MainHandler),
]) if __name__ == "__main__":
application.listen(8888)
tornado.ioloop.IOLoop.instance().start()

第一步:执行脚本,监听 8888 端口

第二步:浏览器客户端访问 /index  -->  http://127.0.0.1:8888/index

第三步:服务器接受请求,并交由对应的类处理该请求

第四步:类接受到请求之后,根据请求方式(post / get / delete ...)的不同调用并执行相应的方法

第五步:方法返回值的字符串内容发送浏览器

#!/usr/bin/env python
# -*- coding:utf-8 -*-
#!/usr/bin/env python
# -*- coding:utf-8 -*- import tornado.ioloop
import tornado.web
from tornado import httpclient
from tornado.web import asynchronous
from tornado import gen import uimodules as md
import uimethods as mt class MainHandler(tornado.web.RequestHandler):
@asynchronous
@gen.coroutine
def get(self):
print 'start get '
http = httpclient.AsyncHTTPClient()
http.fetch("http://127.0.0.1:8008/post/", self.callback)
self.write('end') def callback(self, response):
print response.body settings = {
'template_path': 'template',
'static_path': 'static',
'static_url_prefix': '/static/',
'ui_methods': mt,
'ui_modules': md,
} application = tornado.web.Application([
(r"/index", MainHandler),
], **settings) if __name__ == "__main__":
application.listen(8009)
tornado.ioloop.IOLoop.instance().start()

异步非阻塞实例

二、路由系统

路由系统其实就是 url 和 类 的对应关系,这里不同于其他框架,其他很多框架均是 url 对应 函数,Tornado中每个url对应的是一个类。

#!/usr/bin/env python
# -*- coding:utf-8 -*- import tornado.ioloop
import tornado.web class MainHandler(tornado.web.RequestHandler):
def get(self):
self.write("Hello, world") class StoryHandler(tornado.web.RequestHandler):
def get(self, story_id):
self.write("You requested the story " + story_id) class BuyHandler(tornado.web.RequestHandler):
def get(self):
self.write("buy.wupeiqi.com/index") application = tornado.web.Application([
(r"/index", MainHandler),
(r"/story/([0-9]+)", StoryHandler),
]) application.add_handlers('buy.wupeiqi.com$', [
(r'/index',BuyHandler),
]) if __name__ == "__main__":
application.listen(80)
tornado.ioloop.IOLoop.instance().start()

三、模板

Tornao中的模板语言和django中类似,模板引擎将模板文件载入内存,然后将数据嵌入其中,最终获取到一个完整的字符串,再将字符串返回给请求者。

Tornado 的模板支持“控制语句”和“表达语句”,控制语句是使用 {% 和 %} 包起来的 例如 {% if len(items) > 2 %}。表达语句是使用 {{ 和 }} 包起来的,例如 {{ items[0] }}

控制语句和对应的 Python 语句的格式基本完全相同。我们支持 ifforwhile 和 try,这些语句逻辑结束的位置需要用 {% end %} 做标记。还通过 extends 和 block 语句实现了模板继承。这些在 template 模块 的代码文档中有着详细的描述。

<!DOCTYPE html>
<html>
<head>
<meta http-equiv="Content-Type" content="text/html; charset=UTF-8"/>
<title>老男孩</title>
<link href="{{static_url("css/common.css")}}" rel="stylesheet" />
{% block CSS %}{% end %}
</head>
<body> <div class="pg-header"> </div> {% block RenderBody %}{% end %} <script src="{{static_url("js/jquery-1.8.2.min.js")}}"></script> {% block JavaScript %}{% end %}
</body>
</html>

layout.html

{% extends 'layout.html'%}
{% block CSS %}
<link href="{{static_url("css/index.css")}}" rel="stylesheet" />
{% end %} {% block RenderBody %}
<h1>Index</h1> <ul>
{% for item in li %}
<li>{{item}}</li>
{% end %}
</ul> {% end %} {% block JavaScript %} {% end %}

index.html

#!/usr/bin/env python
# -*- coding:utf-8 -*- import tornado.ioloop
import tornado.web class MainHandler(tornado.web.RequestHandler):
def get(self):
self.render('home/index.html') settings = {
'template_path': 'template',
} application = tornado.web.Application([
(r"/index", MainHandler),
], **settings) if __name__ == "__main__":
application.listen(80)
tornado.ioloop.IOLoop.instance().start()

在模板中默认提供了一些函数、字段、类以供模板使用:

  • escapetornado.escape.xhtml_escape 的別名
  • xhtml_escapetornado.escape.xhtml_escape 的別名
  • url_escapetornado.escape.url_escape 的別名
  • json_encodetornado.escape.json_encode 的別名
  • squeezetornado.escape.squeeze 的別名
  • linkifytornado.escape.linkify 的別名
  • datetime: Python 的 datetime 模组
  • handler: 当前的 RequestHandler 对象
  • requesthandler.request 的別名
  • current_userhandler.current_user 的別名
  • localehandler.locale 的別名
  • _handler.locale.translate 的別名
  • static_url: for handler.static_url 的別名
  • xsrf_form_htmlhandler.xsrf_form_html 的別名

Tornado默认提供的这些功能其实本质上就是 UIMethod 和 UIModule,我们也可以自定义从而实现类似于Django的simple_tag的功能:
1、定义

# uimethods.py

def tab(self):
return 'UIMethod'

uimethods.py

#!/usr/bin/env python
# -*- coding:utf-8 -*-
from tornado.web import UIModule
from tornado import escape class custom(UIModule): def render(self, *args, **kwargs):
return escape.xhtml_escape('<h1>wupeiqi</h1>')
#return escape.xhtml_escape('<h1>wupeiqi</h1>')

uimodules.py

2、注册

#!/usr/bin/env python
# -*- coding:utf-8 -*-
#!/usr/bin/env python
# -*- coding:utf-8 -*- import tornado.ioloop
import tornado.web
from tornado.escape import linkify
import uimodules as md
import uimethods as mt class MainHandler(tornado.web.RequestHandler):
def get(self):
self.render('index.html') settings = {
'template_path': 'template',
'static_path': 'static',
'static_url_prefix': '/static/',
'ui_methods': mt,
'ui_modules': md,
} application = tornado.web.Application([
(r"/index", MainHandler),
], **settings) if __name__ == "__main__":
application.listen(8009)
tornado.ioloop.IOLoop.instance().start()

main.py

3、使用

<!DOCTYPE html>
<html>
<head lang="en">
<meta charset="UTF-8">
<title></title>
<link href="{{static_url("commons.css")}}" rel="stylesheet" />
</head>
<body>
<h1>hello</h1>
{% module custom(123) %}
{{ tab() }}
</body>

index.html

四、实用功能

1、静态文件

对于静态文件,可以配置静态文件的目录和前段使用时的前缀,并且Tornaodo还支持静态文件缓存。

#!/usr/bin/env python
# -*- coding:utf-8 -*- import tornado.ioloop
import tornado.web class MainHandler(tornado.web.RequestHandler):
def get(self):
self.render('home/index.html') settings = {
'template_path': 'template',
'static_path': 'static',
'static_url_prefix': '/static/',
} application = tornado.web.Application([
(r"/index", MainHandler),
], **settings) if __name__ == "__main__":
application.listen(80)
tornado.ioloop.IOLoop.instance().start()

main.py

<!DOCTYPE html>
<html>
<head lang="en">
<meta charset="UTF-8">
<title></title>
<link href="{{static_url("commons.css")}}" rel="stylesheet" />
</head>
<body>
<h1>hello</h1>
</body>
</html>

index.html

备注:静态文件缓存的实现

def get_content_version(cls, abspath):
"""Returns a version string for the resource at the given path. This class method may be overridden by subclasses. The
default implementation is a hash of the file's contents. .. versionadded:: 3.1
"""
data = cls.get_content(abspath)
hasher = hashlib.md5()
if isinstance(data, bytes):
hasher.update(data)
else:
for chunk in data:
hasher.update(chunk)
return hasher.hexdigest()

静态文件缓存源码

2、csrf

Tornado中的夸张请求伪造和Django中的相似,跨站伪造请求(Cross-site request forgery)

settings = {
"xsrf_cookies": True,
}
application = tornado.web.Application([
(r"/", MainHandler),
(r"/login", LoginHandler),
], **settings)

配置

<form action="/new_message" method="post">
{{ xsrf_form_html() }}
<input type="text" name="message"/>
<input type="submit" value="Post"/>
</form>

普通表单使用

function getCookie(name) {
var r = document.cookie.match("\\b" + name + "=([^;]*)\\b");
return r ? r[1] : undefined;
} jQuery.postJSON = function(url, args, callback) {
args._xsrf = getCookie("_xsrf");
$.ajax({url: url, data: $.param(args), dataType: "text", type: "POST",
success: function(response) {
callback(eval("(" + response + ")"));
}});
};

Ajax使用

注:Ajax使用时,本质上就是去获取本地的cookie,携带cookie再来发送请求

3、cookie

Tornado中可以对cookie进行操作,并且还可以对cookie进行签名以放置伪造。

a、基本操作

class MainHandler(tornado.web.RequestHandler):
def get(self):
if not self.get_cookie("mycookie"):
self.set_cookie("mycookie", "myvalue")
self.write("Your cookie was not set yet!")
else:
self.write("Your cookie was set!")

Code

b、签名

Cookie 很容易被恶意的客户端伪造。加入你想在 cookie 中保存当前登陆用户的 id 之类的信息,你需要对 cookie 作签名以防止伪造。Tornado 通过 set_secure_cookie 和 get_secure_cookie 方法直接支持了这种功能。 要使用这些方法,你需要在创建应用时提供一个密钥,名字为 cookie_secret。 你可以把它作为一个关键词参数传入应用的设置中:

class MainHandler(tornado.web.RequestHandler):
def get(self):
if not self.get_secure_cookie("mycookie"):
self.set_secure_cookie("mycookie", "myvalue")
self.write("Your cookie was not set yet!")
else:
self.write("Your cookie was set!") application = tornado.web.Application([
(r"/", MainHandler),
], cookie_secret="61oETzKXQAGaYdkL5gEmGeJJFuYh7EQnp2XdTP1o/Vo=")

Code

def _create_signature_v1(secret, *parts):
hash = hmac.new(utf8(secret), digestmod=hashlib.sha1)
for part in parts:
hash.update(utf8(part))
return utf8(hash.hexdigest()) def _create_signature_v2(secret, s):
hash = hmac.new(utf8(secret), digestmod=hashlib.sha256)
hash.update(utf8(s))
return utf8(hash.hexdigest())

内部算法

def create_signed_value(secret, name, value, version=None, clock=None,
key_version=None):
if version is None:
version = DEFAULT_SIGNED_VALUE_VERSION
if clock is None:
clock = time.time timestamp = utf8(str(int(clock())))
value = base64.b64encode(utf8(value))
if version == 1:
signature = _create_signature_v1(secret, name, value, timestamp)
value = b"|".join([value, timestamp, signature])
return value
elif version == 2:
# The v2 format consists of a version number and a series of
# length-prefixed fields "%d:%s", the last of which is a
# signature, all separated by pipes. All numbers are in
# decimal format with no leading zeros. The signature is an
# HMAC-SHA256 of the whole string up to that point, including
# the final pipe.
#
# The fields are:
# - format version (i.e. 2; no length prefix)
# - key version (integer, default is 0)
# - timestamp (integer seconds since epoch)
# - name (not encoded; assumed to be ~alphanumeric)
# - value (base64-encoded)
# - signature (hex-encoded; no length prefix)
def format_field(s):
return utf8("%d:" % len(s)) + utf8(s)
to_sign = b"|".join([
b"",
format_field(str(key_version or 0)),
format_field(timestamp),
format_field(name),
format_field(value),
b'']) if isinstance(secret, dict):
assert key_version is not None, 'Key version must be set when sign key dict is used'
assert version >= 2, 'Version must be at least 2 for key version support'
secret = secret[key_version] signature = _create_signature_v2(secret, to_sign)
return to_sign + signature
else:
raise ValueError("Unsupported version %d" % version)

内部算法-加密

def _decode_signed_value_v1(secret, name, value, max_age_days, clock):
parts = utf8(value).split(b"|")
if len(parts) != 3:
return None
signature = _create_signature_v1(secret, name, parts[0], parts[1])
if not _time_independent_equals(parts[2], signature):
gen_log.warning("Invalid cookie signature %r", value)
return None
timestamp = int(parts[1])
if timestamp < clock() - max_age_days * 86400:
gen_log.warning("Expired cookie %r", value)
return None
if timestamp > clock() + 31 * 86400:
# _cookie_signature does not hash a delimiter between the
# parts of the cookie, so an attacker could transfer trailing
# digits from the payload to the timestamp without altering the
# signature. For backwards compatibility, sanity-check timestamp
# here instead of modifying _cookie_signature.
gen_log.warning("Cookie timestamp in future; possible tampering %r",
value)
return None
if parts[1].startswith(b""):
gen_log.warning("Tampered cookie %r", value)
return None
try:
return base64.b64decode(parts[0])
except Exception:
return None def _decode_fields_v2(value):
def _consume_field(s):
length, _, rest = s.partition(b':')
n = int(length)
field_value = rest[:n]
# In python 3, indexing bytes returns small integers; we must
# use a slice to get a byte string as in python 2.
if rest[n:n + 1] != b'|':
raise ValueError("malformed v2 signed value field")
rest = rest[n + 1:]
return field_value, rest rest = value[2:] # remove version number
key_version, rest = _consume_field(rest)
timestamp, rest = _consume_field(rest)
name_field, rest = _consume_field(rest)
value_field, passed_sig = _consume_field(rest)
return int(key_version), timestamp, name_field, value_field, passed_sig def _decode_signed_value_v2(secret, name, value, max_age_days, clock):
try:
key_version, timestamp, name_field, value_field, passed_sig = _decode_fields_v2(value)
except ValueError:
return None
signed_string = value[:-len(passed_sig)] if isinstance(secret, dict):
try:
secret = secret[key_version]
except KeyError:
return None expected_sig = _create_signature_v2(secret, signed_string)
if not _time_independent_equals(passed_sig, expected_sig):
return None
if name_field != utf8(name):
return None
timestamp = int(timestamp)
if timestamp < clock() - max_age_days * 86400:
# The signature has expired.
return None
try:
return base64.b64decode(value_field)
except Exception:
return None def get_signature_key_version(value):
value = utf8(value)
version = _get_version(value)
if version < 2:
return None
try:
key_version, _, _, _, _ = _decode_fields_v2(value)
except ValueError:
return None return key_version

内部算法-解密

签名Cookie的本质是:

写cookie过程:

将值进行base64加密
对除值以外的内容进行签名,哈希算法(无法逆向解析)
拼接 签名 + 加密值
读cookie过程: 读取 签名 + 加密值
对签名进行验证
base64解密,获取值内容

注:许多API验证机制和安全cookie的实现机制相同。

#!/usr/bin/env python
# -*- coding:utf-8 -*- import tornado.ioloop
import tornado.web class MainHandler(tornado.web.RequestHandler): def get(self):
login_user = self.get_secure_cookie("login_user", None)
if login_user:
self.write(login_user)
else:
self.redirect('/login') class LoginHandler(tornado.web.RequestHandler):
def get(self):
self.current_user() self.render('login.html', **{'status': ''}) def post(self, *args, **kwargs): username = self.get_argument('name')
password = self.get_argument('pwd')
if username == 'wupeiqi' and password == '':
self.set_secure_cookie('login_user', '武沛齐')
self.redirect('/')
else:
self.render('login.html', **{'status': '用户名或密码错误'}) settings = {
'template_path': 'template',
'static_path': 'static',
'static_url_prefix': '/static/',
'cookie_secret': 'aiuasdhflashjdfoiuashdfiuh'
} application = tornado.web.Application([
(r"/index", MainHandler),
(r"/login", LoginHandler),
], **settings) if __name__ == "__main__":
application.listen(8888)
tornado.ioloop.IOLoop.instance().start()

Demo-基于cookie进行用户验证

#!/usr/bin/env python
# -*- coding:utf-8 -*- import tornado.ioloop
import tornado.web class BaseHandler(tornado.web.RequestHandler): def get_current_user(self):
return self.get_secure_cookie("login_user") class MainHandler(BaseHandler): @tornado.web.authenticated
def get(self):
login_user = self.current_user
self.write(login_user) class LoginHandler(tornado.web.RequestHandler):
def get(self):
self.current_user() self.render('login.html', **{'status': ''}) def post(self, *args, **kwargs): username = self.get_argument('name')
password = self.get_argument('pwd')
if username == 'wupeiqi' and password == '':
self.set_secure_cookie('login_user', '武沛齐')
self.redirect('/')
else:
self.render('login.html', **{'status': '用户名或密码错误'}) settings = {
'template_path': 'template',
'static_path': 'static',
'static_url_prefix': '/static/',
'cookie_secret': 'aiuasdhflashjdfoiuashdfiuh',
'login_url': '/login'
} application = tornado.web.Application([
(r"/index", MainHandler),
(r"/login", LoginHandler),
], **settings) if __name__ == "__main__":
application.listen(8888)
tornado.ioloop.IOLoop.instance().start()

Demo-Toando内部提供基于cookie进行用户验证

五、扩展功能

1、自定义Session

a.知识储备

#!/usr/bin/env python
# -*- coding:utf-8 -*- class Foo(object): def __getitem__(self, key):
print '__getitem__',key def __setitem__(self, key, value):
print '__setitem__',key,value def __delitem__(self, key):
print '__delitem__',key obj = Foo()
result = obj['k1']
#obj['k2'] = 'xs'
#del obj['k1']

b.session实现机制

#!/usr/bin/env python
# -*- coding:utf-8 -*- import tornado.ioloop
import tornado.web
from hashlib import sha1
import os, time session_container = {} create_session_id = lambda: sha1('%s%s' % (os.urandom(16), time.time())).hexdigest() class Session(object): session_id = "__sessionId__" def __init__(self, request):
session_value = request.get_cookie(Session.session_id)
if not session_value:
self._id = create_session_id()
else:
self._id = session_value
request.set_cookie(Session.session_id, self._id) def __getitem__(self, key):
return session_container[self._id][key] def __setitem__(self, key, value):
if session_container.has_key(self._id):
session_container[self._id][key] = value
else:
session_container[self._id] = {key: value} def __delitem__(self, key):
del session_container[self._id][key] class BaseHandler(tornado.web.RequestHandler): def initialize(self):
# my_session['k1']访问 __getitem__ 方法
self.my_session = Session(self) class MainHandler(BaseHandler): def get(self):
print self.my_session['c_user']
print self.my_session['c_card']
self.write('index') class LoginHandler(BaseHandler): def get(self):
self.render('login.html', **{'status': ''}) def post(self, *args, **kwargs): username = self.get_argument('name')
password = self.get_argument('pwd')
if username == 'wupeiqi' and password == '': self.my_session['c_user'] = 'wupeiqi'
self.my_session['c_card'] = '' self.redirect('/index')
else:
self.render('login.html', **{'status': '用户名或密码错误'}) settings = {
'template_path': 'template',
'static_path': 'static',
'static_url_prefix': '/static/',
'cookie_secret': 'aiuasdhflashjdfoiuashdfiuh',
'login_url': '/login'
} application = tornado.web.Application([
(r"/index", MainHandler),
(r"/login", LoginHandler),
], **settings) if __name__ == "__main__":
application.listen(8888)
tornado.ioloop.IOLoop.instance().start()

c. Session框架

#!/usr/bin/env python
#coding:utf-8 import sys
import math
from bisect import bisect if sys.version_info >= (2, 5):
import hashlib
md5_constructor = hashlib.md5
else:
import md5
md5_constructor = md5.new class HashRing(object):
"""一致性哈希""" def __init__(self,nodes):
'''初始化
nodes : 初始化的节点,其中包含节点已经节点对应的权重
默认每一个节点有32个虚拟节点
对于权重,通过多创建虚拟节点来实现
如:nodes = [
{'host':'127.0.0.1:8000','weight':1},
{'host':'127.0.0.1:8001','weight':2},
{'host':'127.0.0.1:8002','weight':1},
]
''' self.ring = dict()
self._sorted_keys = [] self.total_weight = 0 self.__generate_circle(nodes) def __generate_circle(self,nodes):
for node_info in nodes:
self.total_weight += node_info.get('weight',1) for node_info in nodes:
weight = node_info.get('weight',1)
node = node_info.get('host',None) virtual_node_count = math.floor((32*len(nodes)*weight) / self.total_weight)
for i in xrange(0,int(virtual_node_count)):
key = self.gen_key_thirty_two( '%s-%s' % (node, i) )
if self._sorted_keys.__contains__(key):
raise Exception('该节点已经存在.')
self.ring[key] = node
self._sorted_keys.append(key) def add_node(self,node):
''' 新建节点
node : 要添加的节点,格式为:{'host':'127.0.0.1:8002','weight':1},其中第一个元素表示节点,第二个元素表示该节点的权重。
'''
node = node.get('host',None)
if not node:
raise Exception('节点的地址不能为空.') weight = node.get('weight',1) self.total_weight += weight
nodes_count = len(self._sorted_keys) + 1 virtual_node_count = math.floor((32 * nodes_count * weight) / self.total_weight)
for i in xrange(0,int(virtual_node_count)):
key = self.gen_key_thirty_two( '%s-%s' % (node, i) )
if self._sorted_keys.__contains__(key):
raise Exception('该节点已经存在.')
self.ring[key] = node
self._sorted_keys.append(key) def remove_node(self,node):
''' 移除节点
node : 要移除的节点 '127.0.0.1:8000'
'''
for key,value in self.ring.items():
if value == node:
del self.ring[key]
self._sorted_keys.remove(key) def get_node(self,string_key):
'''获取 string_key 所在的节点'''
pos = self.get_node_pos(string_key)
if pos is None:
return None
return self.ring[ self._sorted_keys[pos]].split(':') def get_node_pos(self,string_key):
'''获取 string_key 所在的节点的索引'''
if not self.ring:
return None key = self.gen_key_thirty_two(string_key)
nodes = self._sorted_keys
pos = bisect(nodes, key)
return pos def gen_key_thirty_two(self, key): m = md5_constructor()
m.update(key)
return long(m.hexdigest(), 16) def gen_key_sixteen(self,key): b_key = self.__hash_digest(key)
return self.__hash_val(b_key, lambda x: x) def __hash_val(self, b_key, entry_fn):
return (( b_key[entry_fn(3)] << 24)|(b_key[entry_fn(2)] << 16)|(b_key[entry_fn(1)] << 8)| b_key[entry_fn(0)] ) def __hash_digest(self, key):
m = md5_constructor()
m.update(key)
return map(ord, m.digest()) """
nodes = [
{'host':'127.0.0.1:8000','weight':1},
{'host':'127.0.0.1:8001','weight':2},
{'host':'127.0.0.1:8002','weight':1},
] ring = HashRing(nodes)
result = ring.get_node('98708798709870987098709879087')
print result """

一致性哈希

from hashlib import sha1
import os, time create_session_id = lambda: sha1('%s%s' % (os.urandom(16), time.time())).hexdigest() class Session(object): session_id = "__sessionId__" def __init__(self, request):
session_value = request.get_cookie(Session.session_id)
if not session_value:
self._id = create_session_id()
else:
self._id = session_value
request.set_cookie(Session.session_id, self._id) def __getitem__(self, key):
# 根据 self._id ,在一致性哈西中找到其对应的服务器IP
# 找到相对应的redis服务器,如: r = redis.StrictRedis(host='localhost', port=6379, db=0)
# 使用python redis api 链接
# 获取数据,即:
# return self._redis.hget(self._id, name) def __setitem__(self, key, value):
# 根据 self._id ,在一致性哈西中找到其对应的服务器IP
# 使用python redis api 链接
# 设置session
# self._redis.hset(self._id, name, value) def __delitem__(self, key):
# 根据 self._id 找到相对应的redis服务器
# 使用python redis api 链接
# 删除,即:
return self._redis.hdel(self._id, name)

Session

2、自定义模型版定

模型绑定有两个主要功能:

  • 自动生成html表单
  • 用户输入验证

在之前学习的Django中为程序员提供了非常便捷的模型绑定功能,但是在Tornado中,一切需要自己动手!!!

<!DOCTYPE html>
<html>
<head lang="en">
<meta charset="UTF-8">
<title></title>
<link href="{{static_url("commons.css")}}" rel="stylesheet" />
</head>
<body>
<h1>hello</h1>
<form action="/index" method="post"> <p>hostname: <input type="text" name="host" /> </p>
<p>ip: <input type="text" name="ip" /> </p>
<p>port: <input type="text" name="port" /> </p>
<p>phone: <input type="text" name="phone" /> </p>
<input type="submit" />
</form>
</body>
</html>

html

#!/usr/bin/env python
# -*- coding:utf-8 -*- import tornado.ioloop
import tornado.web
from hashlib import sha1
import os, time
import re class MainForm(object):
def __init__(self):
self.host = "(.*)"
self.ip = "^(25[0-5]|2[0-4]\d|[0-1]?\d?\d)(\.(25[0-5]|2[0-4]\d|[0-1]?\d?\d)){3}$"
self.port = '(\d+)'
self.phone = '^1[3|4|5|8][0-9]\d{8}$' def check_valid(self, request):
form_dict = self.__dict__
for key, regular in form_dict.items():
post_value = request.get_argument(key)
# 让提交的数据 和 定义的正则表达式进行匹配
ret = re.match(regular, post_value)
print key,ret,post_value class MainHandler(tornado.web.RequestHandler):
def get(self):
self.render('index.html')
def post(self, *args, **kwargs):
obj = MainForm()
result = obj.check_valid(self)
self.write('ok') settings = {
'template_path': 'template',
'static_path': 'static',
'static_url_prefix': '/static/',
'cookie_secret': 'aiuasdhflashjdfoiuashdfiuh',
'login_url': '/login'
} application = tornado.web.Application([
(r"/index", MainHandler),
], **settings) if __name__ == "__main__":
application.listen(8888)
tornado.ioloop.IOLoop.instance().start()

由于请求的验证时,需要考虑是否可以为空以及正则表达式的复用,所以:

#!/usr/bin/env python
# -*- coding:utf-8 -*- import tornado.ioloop
import tornado.web
import re class Field(object): def __init__(self, error_msg_dict, required):
self.id_valid = False
self.value = None
self.error = None
self.name = None
self.error_msg = error_msg_dict
self.required = required def match(self, name, value):
self.name = name if not self.required:
self.id_valid = True
self.value = value
else:
if not value:
if self.error_msg.get('required', None):
self.error = self.error_msg['required']
else:
self.error = "%s is required" % name
else:
ret = re.match(self.REGULAR, value)
if ret:
self.id_valid = True
self.value = ret.group()
else:
if self.error_msg.get('valid', None):
self.error = self.error_msg['valid']
else:
self.error = "%s is invalid" % name class IPField(Field):
REGULAR = "^(25[0-5]|2[0-4]\d|[0-1]?\d?\d)(\.(25[0-5]|2[0-4]\d|[0-1]?\d?\d)){3}$" def __init__(self, error_msg_dict=None, required=True): error_msg = {} # {'required': 'IP不能为空', 'valid': 'IP格式错误'}
if error_msg_dict:
error_msg.update(error_msg_dict) super(IPField, self).__init__(error_msg_dict=error_msg, required=required) class IntegerField(Field):
REGULAR = "^\d+$" def __init__(self, error_msg_dict=None, required=True):
error_msg = {'required': '数字不能为空', 'valid': '数字格式错误'}
if error_msg_dict:
error_msg.update(error_msg_dict) super(IntegerField, self).__init__(error_msg_dict=error_msg, required=required) class CheckBoxField(Field): def __init__(self, error_msg_dict=None, required=True):
error_msg = {} # {'required': 'IP不能为空', 'valid': 'IP格式错误'}
if error_msg_dict:
error_msg.update(error_msg_dict) super(CheckBoxField, self).__init__(error_msg_dict=error_msg, required=required) def match(self, name, value):
self.name = name if not self.required:
self.id_valid = True
self.value = value
else:
if not value:
if self.error_msg.get('required', None):
self.error = self.error_msg['required']
else:
self.error = "%s is required" % name
else:
if isinstance(name, list):
self.id_valid = True
self.value = value
else:
if self.error_msg.get('valid', None):
self.error = self.error_msg['valid']
else:
self.error = "%s is invalid" % name class FileField(Field):
REGULAR = "^(\w+\.pdf)|(\w+\.mp3)|(\w+\.py)$" def __init__(self, error_msg_dict=None, required=True):
error_msg = {} # {'required': '数字不能为空', 'valid': '数字格式错误'}
if error_msg_dict:
error_msg.update(error_msg_dict) super(FileField, self).__init__(error_msg_dict=error_msg, required=required) def match(self, name, value):
self.name = name
self.value = []
if not self.required:
self.id_valid = True
self.value = value
else:
if not value:
if self.error_msg.get('required', None):
self.error = self.error_msg['required']
else:
self.error = "%s is required" % name
else:
m = re.compile(self.REGULAR)
if isinstance(value, list):
for file_name in value:
r = m.match(file_name)
if r:
self.value.append(r.group())
self.id_valid = True
else:
self.id_valid = False
if self.error_msg.get('valid', None):
self.error = self.error_msg['valid']
else:
self.error = "%s is invalid" % name
break
else:
if self.error_msg.get('valid', None):
self.error = self.error_msg['valid']
else:
self.error = "%s is invalid" % name def save(self, request, upload_path=""): file_metas = request.files[self.name]
for meta in file_metas:
file_name = meta['filename']
with open(file_name,'wb') as up:
up.write(meta['body']) class Form(object): def __init__(self):
self.value_dict = {}
self.error_dict = {}
self.valid_status = True def validate(self, request, depth=10, pre_key=""): self.initialize()
self.__valid(self, request, depth, pre_key) def initialize(self):
pass def __valid(self, form_obj, request, depth, pre_key):
"""
验证用户表单请求的数据
:param form_obj: Form对象(Form派生类的对象)
:param request: Http请求上下文(用于从请求中获取用户提交的值)
:param depth: 对Form内容的深度的支持
:param pre_key: Html中name属性值的前缀(多层Form时,内部递归时设置,无需理会)
:return: 是否验证通过,True:验证成功;False:验证失败
""" depth -= 1
if depth < 0:
return None
form_field_dict = form_obj.__dict__
for key, field_obj in form_field_dict.items():
print key,field_obj
if isinstance(field_obj, Form) or isinstance(field_obj, Field):
if isinstance(field_obj, Form):
# 获取以key开头的所有的值,以参数的形式传至
self.__valid(field_obj, request, depth, key)
continue
if pre_key:
key = "%s.%s" % (pre_key, key) if isinstance(field_obj, CheckBoxField):
post_value = request.get_arguments(key, None)
elif isinstance(field_obj, FileField):
post_value = []
file_list = request.request.files.get(key, None)
for file_item in file_list:
post_value.append(file_item['filename'])
else:
post_value = request.get_argument(key, None) print post_value
# 让提交的数据 和 定义的正则表达式进行匹配
field_obj.match(key, post_value)
if field_obj.id_valid:
self.value_dict[key] = field_obj.value
else:
self.error_dict[key] = field_obj.error
self.valid_status = False class ListForm(object):
def __init__(self, form_type):
self.form_type = form_type
self.valid_status = True
self.value_dict = {}
self.error_dict = {} def validate(self, request):
name_list = request.request.arguments.keys() + request.request.files.keys()
index = 0
flag = False
while True:
pre_key = "[%d]" % index
for name in name_list:
if name.startswith(pre_key):
flag = True
break
if flag:
form_obj = self.form_type()
form_obj.validate(request, depth=10, pre_key="[%d]" % index)
if form_obj.valid_status:
self.value_dict[index] = form_obj.value_dict
else:
self.error_dict[index] = form_obj.error_dict
self.valid_status = False
else:
break index += 1
flag = False class MainForm(Form): def __init__(self):
# self.ip = IPField(required=True)
# self.port = IntegerField(required=True)
# self.new_ip = IPField(required=True)
# self.second = SecondForm()
self.fff = FileField(required=True)
super(MainForm, self).__init__() #
# class SecondForm(Form):
#
# def __init__(self):
# self.ip = IPField(required=True)
# self.new_ip = IPField(required=True)
#
# super(SecondForm, self).__init__() class MainHandler(tornado.web.RequestHandler):
def get(self):
self.render('index.html')
def post(self, *args, **kwargs):
# for i in dir(self.request):
# print i
# print self.request.arguments
# print self.request.files
# print self.request.query
# name_list = self.request.arguments.keys() + self.request.files.keys()
# print name_list # list_form = ListForm(MainForm)
# list_form.validate(self)
#
# print list_form.valid_status
# print list_form.value_dict
# print list_form.error_dict # obj = MainForm()
# obj.validate(self)
#
# print "验证结果:", obj.valid_status
# print "符合验证结果:", obj.value_dict
# print "错误信息:"
# for key, item in obj.error_dict.items():
# print key,item
# print self.get_arguments('favor'),type(self.get_arguments('favor'))
# print self.get_argument('favor'),type(self.get_argument('favor'))
# print type(self.get_argument('fff')),self.get_argument('fff')
# print self.request.files
# obj = MainForm()
# obj.validate(self)
# print obj.valid_status
# print obj.value_dict
# print obj.error_dict
# print self.request,type(self.request)
# obj.fff.save(self.request)
# from tornado.httputil import HTTPServerRequest
# name_list = self.request.arguments.keys() + self.request.files.keys()
# print name_list
# print self.request.files,type(self.request.files)
# print len(self.request.files.get('fff')) # obj = MainForm()
# obj.validate(self)
# print obj.valid_status
# print obj.value_dict
# print obj.error_dict
# obj.fff.save(self.request)
self.write('ok') settings = {
'template_path': 'template',
'static_path': 'static',
'static_url_prefix': '/static/',
'cookie_secret': 'aiuasdhflashjdfoiuashdfiuh',
'login_url': '/login'
} application = tornado.web.Application([
(r"/index", MainHandler),
], **settings) if __name__ == "__main__":
application.listen(8888)
tornado.ioloop.IOLoop.instance().start()

Form验证框架

上一篇:《内核kernel:获取系统物理内存信息模块编写》


下一篇:%1 不是有效的Win32应用程序