SocketServer 网络服务框架
SocketServer简化了网络服务器的编写。它有4个类:TCPServer,UDPServer,UnixStreamServer,UnixDatagramServer。这4个类是同步进行处理的,另外通过ForkingMixIn和ThreadingMixIn类来支持异步。
创建服务器的步骤。首先,你必须创建一个请求处理类,它是BaseRequestHandler的子类并重载其handle()方法。其次,你必须实例化一个服务器类,传入服务器的地址和请求处理程序类。最后,调用handle_request()(一般是调用其他事件循环或者使用select())或serve_forever()。
集成ThreadingMixIn类时需要处理异常关闭。daemon_threads指示服务器是否要等待线程终止,要是线程互相独立,必须要设置为True,默认是False。
无论用什么网络协议,服务器类有相同的外部方法和属性。
该模块在python3中已经更名为socketserver。
服务器类型
5种类型:BaseServer,TCPServer,UnixStreamServer,UDPServer,UnixDatagramServer。 注意:BaseServer不直接对外服务。
服务器对象
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class SocketServer.BaseServer:这是模块中的所有服务器对象的超类。它定义了接口,如下所述,但是大多数的方法不实现,在子类中进行细化。
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BaseServer.fileno():返回服务器监听套接字的整数文件描述符。通常用来传递给select.select(), 以允许一个进程监视多个服务器。
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BaseServer.handle_request():处理单个请求。处理顺序:get_request(), verify_request(), process_request()。如果用户提供handle()方法抛出异常,将调用服务器的handle_error()方法。如果self.timeout内没有请求收到, 将调用handle_timeout()并返回handle_request()。
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BaseServer.serve_forever(poll_interval=0.5): 处理请求,直到一个明确的shutdown()请求。每poll_interval秒轮询一次shutdown。忽略self.timeout。如果你需要做周期性的任务,建议放置在其他线程。
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BaseServer.shutdown():告诉serve_forever()循环停止并等待其停止。python2.6版本。
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BaseServer.address_family: 地址家族,比如socket.AF_INET和socket.AF_UNIX。
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BaseServer.RequestHandlerClass:用户提供的请求处理类,这个类为每个请求创建实例。
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BaseServer.server_address:服务器侦听的地址。格式根据协议家族地址的各不相同,请参阅socket模块的文档。
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BaseServer.socketSocket:服务器上侦听传入的请求socket对象的服务器。
服务器类支持下面的类变量:
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BaseServer.allow_reuse_address:服务器是否允许地址的重用。默认为false ,并且可在子类中更改。
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BaseServer.request_queue_size
请求队列的大小。如果单个请求需要很长的时间来处理,服务器忙时请求被放置到队列中,最多可以放request_queue_size个。一旦队列已满,来自客户端的请求将得到 “Connection denied”错误。默认值通常为5 ,但可以被子类覆盖。
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BaseServer.socket_type:服务器使用的套接字类型; socket.SOCK_STREAM和socket.SOCK_DGRAM等。
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BaseServer.timeout:超时时间,以秒为单位,或 None表示没有超时。如果handle_request()在timeout内没有收到请求,将调用handle_timeout()。
下面方法可以被子类重载,它们对服务器对象的外部用户没有影响。
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BaseServer.finish_request():实际处理RequestHandlerClass发起的请求并调用其handle()方法。 常用。
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BaseServer.get_request():接受socket请求,并返回二元组包含要用于与客户端通信的新socket对象,以及客户端的地址。
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BaseServer.handle_error(request, client_address):如果RequestHandlerClass的handle()方法抛出异常时调用。默认操作是打印traceback到标准输出,并继续处理其他请求。
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BaseServer.handle_timeout():超时处理。默认对于forking服务器是收集退出的子进程状态,threading服务器则什么都不做。
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BaseServer.process_request(request, client_address) :调用finish_request()创建RequestHandlerClass的实例。如果需要,此功能可以创建新的进程或线程来处理请求,ForkingMixIn和ThreadingMixIn类做到这点。常用。
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BaseServer.server_activate():通过服务器的构造函数来激活服务器。默认的行为只是监听服务器套接字。可重载。
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BaseServer.server_bind():通过服务器的构造函数中调用绑定socket到所需的地址。可重载。
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BaseServer.verify_request(request, client_address):返回一个布尔值,如果该值为True ,则该请求将被处理,反之请求将被拒绝。此功能可以重写来实现对服务器的访问控制。默认的实现始终返回True。client_address可以限定客户端,比如只处理指定ip区间的请求。 常用。
请求处理器
处理器接收数据并决定如何操作。它负责在socket层之上实现协议(i.e., HTTP, XML-RPC, or AMQP),读取数据,处理并写反应。可以重载的方法如下:
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setup(): 准备请求处理. 默认什么都不做,StreamRequestHandler中会创建文件类似的对象以读写socket.
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handle(): 处理请求。解析传入的请求,处理数据,并发送响应。默认什么都不做。常用变量:self.request,self.client_address,self.server。
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finish(): 环境清理。默认什么都不做,如果setup产生异常,不会执行finish。
通常只需要重载handle。self.request的类型和数据报或流的服务不同。对于流服务,self.request是socket 对象;对于数据报服务,self.request是字符串和socket 。可以在子类StreamRequestHandler或DatagramRequestHandler中重载,重写setup()和finish() ,并提供self.rfile和self.wfile属性。 self.rfile和self.wfile可以读取或写入,以获得请求数据或将数据返回到客户端。
Echo实例
TCPServer
TCPServer.py
1 import SocketServerclass MyTCPHandler(SocketServer.BaseRequestHandler): 2 """ 3 The RequestHandler class for our server. 4 5 It is instantiated once per connection to the server, and must 6 override the handle() method to implement communication to the 7 client. 8 """ 9 10 def handle(self): 11 # self.request is the TCP socket connected to the client 12 self.data = self.request.recv(1024).strip() 13 print "{} wrote:".format(self.client_address[0]) 14 print self.data # just send back the same data, but upper-cased 15 self.request.sendall(self.data.upper())if __name__ == "__main__": 16 HOST, PORT = "localhost", 9999 17 18 # Create the server, binding to localhost on port 9999 19 server = SocketServer.TCPServer((HOST, PORT), MyTCPHandler) 20 21 # Activate the server; this will keep running until you 22 # interrupt the program with Ctrl-C 23 server.serve_forever()
另外一种方式是使用流,一次读一行。
1 class MyTCPHandler(SocketServer.StreamRequestHandler): 2 3 def handle(self): 4 # self.rfile is a file-like object created by the handler; 5 # we can now use e.g. readline() instead of raw recv() calls 6 self.data = self.rfile.readline().strip() 7 print "{} wrote:".format(self.client_address[0]) 8 print self.data # Likewise, self.wfile is a file-like object used to write back 9 # to the client 10 self.wfile.write(self.data.upper())
客户端:
1 import socketimport sysHOST, PORT = "localhost", 9999data = " ".join(sys.argv[1:])# Create a socket (SOCK_STREAM means a TCP socket)sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)try: 2 # Connect to server and send data 3 sock.connect((HOST, PORT)) 4 sock.sendall(data + "\n") 6 # Receive data from the server and shut down 7 received = sock.recv(1024)finally: 8 sock.close()print "Sent: {}".format(data)print "Received: {}".format(received)
《The Python Standard Library by Example 2011》有更详细的echo实例,参见11.3.5部分。 执行结果:
1 # python TCPServer.py 2 127.0.0.1 wrote: 3 hello world with TCP 4 127.0.0.1 wrote: 5 python is nice# python TCPClient.py 6 Sent: 7 Received: 8 # python TCPClient.py hello world with TCPSent: hello world with TCP 9 Received: HELLO WORLD WITH TCP# python TCPClient.py python is niceSent: python is nice 10 Received: PYTHON IS NICE
UDPServer.py
1 import SocketServerclass MyUDPHandler(SocketServer.BaseRequestHandler): 2 """ 3 This class works similar to the TCP handler class, except that 4 self.request consists of a pair of data and client socket, and since 5 there is no connection the client address must be given explicitly 6 when sending data back via sendto(). 7 """ 8 9 def handle(self): 10 data = self.request[0].strip() 11 socket = self.request[1] 12 print "{} wrote:".format(self.client_address[0]) 13 print data 14 socket.sendto(data.upper(), self.client_address)if __name__ == "__main__": 15 HOST, PORT = "localhost", 9999 16 server = SocketServer.UDPServer((HOST, PORT), MyUDPHandler) 17 server.serve_forever()
UDPClient.py
import socketimport sysHOST, PORT = "localhost", 9999data = " ".join(sys.argv[1:])# SOCK_DGRAM is the socket type to use for UDP socketssock = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)# As you can see, there is no connect() call; UDP has no connections.# Instead, data is directly sent to the recipient via sendto().sock.sendto(data + "\n", (HOST, PORT))received = sock.recv(1024)print "Sent: {}".format(data)print "Received: {}".format(received)
执行和UDP类似。
异步
ThreadingMixIn的例子
1 import socketimport threadingimport SocketServerclass ThreadedTCPRequestHandler(SocketServer.BaseRequestHandler): 2 3 def handle(self): 4 data = self.request.recv(1024) 5 cur_thread = threading.current_thread() 6 response = "{}: {}".format(cur_thread.name, data) 7 self.request.sendall(response)class ThreadedTCPServer(SocketServer.ThreadingMixIn, SocketServer.TCPServer): 8 passdef client(ip, port, message): 9 sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) 10 sock.connect((ip, port)) 11 try: 12 sock.sendall(message) 13 response = sock.recv(1024) 14 print "Received: {}".format(response) 15 finally: 16 sock.close()if __name__ == "__main__": 17 # Port 0 means to select an arbitrary unused port 18 HOST, PORT = "localhost", 0 19 20 server = ThreadedTCPServer((HOST, PORT), ThreadedTCPRequestHandler) 21 ip, port = server.server_address # Start a thread with the server -- that thread will then start one 22 # more thread for each request 23 server_thread = threading.Thread(target=server.serve_forever) 24 # Exit the server thread when the main thread terminates 25 server_thread.daemon = True 26 server_thread.start() 27 print "Server loop running in thread:", server_thread.name 28 29 client(ip, port, "Hello World 1") 30 client(ip, port, "Hello World 2") 31 client(ip, port, "Hello World 3") 32 33 server.shutdown()
执行结果:
$ python ThreadedTCPServer.py Server loop running in thread: Thread-1 Received: Thread-2: Hello World 1 Received: Thread-3: Hello World 2 Received: Thread-4: Hello World 3
socketserver端口重用
if __name__ == "__main__": HOST, PORT = "localhost", 21577 # Create the server, binding to localhost on port 21577 SocketServer.TCPServer.allow_reuse_address = True #端口重用=True server = SocketServer.TCPServer((HOST, PORT), MyTCPHandler)
ForkingMixIn的使用方法类似,只不过是用进程代替了线程。《The Python Standard Library by Example 2011》中有相关实例。