Home  >  Article  >  Backend Development  >  Customized python asynchronous non-blocking web framework example code

Customized python asynchronous non-blocking web framework example code

高洛峰
高洛峰Original
2017-03-15 18:18:441541browse

This article will use 200 lines of code to complete a miniature asynchronous non-blocking Webframework: Snow. It has a very good reference value. Let’s take a look at it with the editor.

Python Tornado is famous for its asynchronous and non-blocking Web framework. This article will use 200 lines of code to complete a miniature asynchronous non-blocking Web framework: Snow.

1. Source code

This article is based on non-blocking Socket and IO multiplexing to implement an asynchronous non-blocking Web framework, among which are many asynchronous non-blocking Web frameworks Internal principles of the framework.

#!/usr/bin/env python
# -*- coding:utf-8 -*-
import re
import socket
import select
import time
class HttpResponse(object):
 """
 封装响应信息
 """
 def init(self, content=''):
  self.content = content
  self.headers = {}
  self.cookies = {}
 def response(self):
  return bytes(self.content, encoding='utf-8')
class HttpNotFound(HttpResponse):
 """
 404时的错误提示
 """
 def init(self):
  super(HttpNotFound, self).init('404 Not Found')
class HttpRequest(object):
 """
 用户封装用户请求信息
 """
 def init(self, conn):
  self.conn = conn
  self.header_bytes = bytes()
  self.header_dict = {}
  self.body_bytes = bytes()
  self.method = ""
  self.url = ""
  self.protocol = ""
  self.initialize()
  self.initialize_headers()
 def initialize(self):
  header_flag = False
  while True:
   try:
    received = self.conn.recv(8096)
   except Exception as e:
    received = None
   if not received:
    break
   if header_flag:
    self.body_bytes += received
    continue
   temp = received.split(b'\r\n\r\n', 1)
   if len(temp) == 1:
    self.header_bytes += temp
   else:
    h, b = temp
    self.header_bytes += h
    self.body_bytes += b
    header_flag = True
 @property
 def header_str(self):
  return str(self.header_bytes, encoding='utf-8')
 def initialize_headers(self):
  headers = self.header_str.split('\r\n')
  first_line = headers[0].split(' ')
  if len(first_line) == 3:
   self.method, self.url, self.protocol = headers[0].split(' ')
   for line in headers:
    kv = line.split(':')
    if len(kv) == 2:
     k, v = kv
     self.header_dict[k] = v
class Future(object):
 """
 异步非阻塞模式时封装回调函数以及是否准备就绪
 """
 def init(self, callback):
  self.callback = callback
  self._ready = False
  self.value = None
 def set_result(self, value=None):
  self.value = value
  self._ready = True
 @property
 def ready(self):
  return self._ready
class TimeoutFuture(Future):
 """
 异步非阻塞超时
 """
 def init(self, timeout):
  super(TimeoutFuture, self).init(callback=None)
  self.timeout = timeout
  self.start_time = time.time()
 @property
 def ready(self):
  current_time = time.time()
  if current_time > self.start_time + self.timeout:
   self._ready = True
  return self._ready
class Snow(object):
 """
 微型Web框架类
 """
 def init(self, routes):
  self.routes = routes
  self.inputs = set()
  self.request = None
  self.async_request_handler = {}
 def run(self, host='localhost', port=9999):
  """
  事件循环
  :param host:
  :param port:
  :return:
  """
  sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
  sock.bind((host, port,))
  sock.setblocking(False)
  sock.listen(128)
  sock.setblocking(0)
  self.inputs.add(sock)
  try:
   while True:
    readable_list, writeable_list, error_list = select.select(self.inputs, [], self.inputs,0.005)
    for conn in readable_list:
     if sock == conn:
      client, address = conn.accept()
      client.setblocking(False)
      self.inputs.add(client)
     else:
      gen = self.process(conn)
      if isinstance(gen, HttpResponse):
       conn.sendall(gen.response())
       self.inputs.remove(conn)
       conn.close()
      else:
       yielded = next(gen)
self.async_request_handler[conn] = yielded
    self.polling_callback()
except Exception as e:
   pass
  finally:
   sock.close()
def polling_callback(self):
  """
  遍历触发异步非阻塞的回调函数
  :return:
  """
  for conn in list(self.async_request_handler.keys()):
   yielded = self.async_request_handler[conn]
   if not yielded.ready:
    continue
   if yielded.callback:
    ret = yielded.callback(self.request, yielded)
    conn.sendall(ret.response())
   self.inputs.remove(conn)
   del self.async_request_handler[conn]
   conn.close()
 def process(self, conn):
  """
  处理路由系统以及执行函数
  :param conn:
  :return:
  """
  self.request = HttpRequest(conn)
  func = None
  for route in self.routes:
   if re.match(route[0], self.request.url):
    func = route[1]
    break
  if not func:
   return HttpNotFound()
  else:
   return func(self.request)
snow.py

2. Use

1. Basic use

from snow import Snow
from snow import HttpResponse
def index(request):
return HttpResponse('OK')
routes = [
 (r'/index/', index),
]
app = Snow(routes)
app.run(port=8012)

2. Asynchronous non-blocking: timeout

from snow import Snow
from snow import HttpResponse
from snow import TimeoutFuture
request_list = []
def async(request):
 obj = TimeoutFuture(5)
 yield obj
def home(request):
 return HttpResponse('home')
routes = [
 (r'/home/', home),
 (r'/async/', async),
]
app = Snow(routes)
app.run(port=8012)

3. Asynchronous non-blocking: waiting

Customized operations can be completed based on the waiting mode

from snow import Snow
from snow import HttpResponse
from snow import Future
request_list = []
def callback(request, future):
 return HttpResponse(future.value)
def req(request):
 obj = Future(callback=callback)
 request_list.append(obj)
 yield obj
def stop(request):
 obj = request_list[0]
 del request_list[0]
 obj.set_result('done')
 return HttpResponse('stop')
routes = [
 (r'/req/', req),
 (r'/stop/', stop),
]
app = Snow(routes)
app.run(port=8012)

The above is the detailed content of Customized python asynchronous non-blocking web framework example code. For more information, please follow other related articles on the PHP Chinese website!

Statement:
The content of this article is voluntarily contributed by netizens, and the copyright belongs to the original author. This site does not assume corresponding legal responsibility. If you find any content suspected of plagiarism or infringement, please contact admin@php.cn