套接字是一种具有之前所说的“通信端点”概念的计算网络数据结构。相当于电话插口,没它无法通信,这个比喻非常形象。今天我们就来汇总一下套接字流重定向的实例
将套接字流重定向到标准输入或输出流
#!/usr/bin/env python3 """ 测试socket-stream 重定向模式 """ import sys,os,time from multiprocessing import Process from socket import * def initListenerSocket(port=50008,host=''): """ 初始化在服务器模式下调用者用于监听连接的套接字 """ sock=socket() try: sock.bind((host,port)) except OSError as e: print('Address already in use') os._exit(1) sock.listen(5) conn,addr=sock.accept() return conn def redirecOut(port=50008,host='localhost'): """ 在接受之前其他连接都失败,连接调用者标准输出流 到一个套接字,这个套接字用于gui监听,在收听者启动后,启动调用者 """ sock=socket() try: sock.connect((host,port)) except ConnectionRefusedError as e: print('connection refuse') os._exit(1) file=sock.makefile('w') sys.stdout=file return sock def redirecIn(port=50008,host='localhost'): """ 连接调用者标准输入流到用于gui来提供的套接字 """ sock=socket() try: sock.connect((host,port)) except ConnectionRefusedError as e: print('conenction refuse') os._exit(1) file=sock.makefile('r') sys.stdin=file return sock def redirecBothAsClient(port=50008,host='localhost'): """ 在这种模式下,连接调用者标准输入和输出流到相同的套接字 调用者对于服务器来说就是客户端:发送消息,接受响应答复 """ sock=socket() try: sock.connect((host,port)) except ConnectionRefusedError as e: print('connection refuse') os._exit(1) ofile=sock.makefile('w') ifile=sock.makefile('r') sys.stdout=ofile sys.stdin=ifile return sock def redirecBothAsServer(port=50008,host='localhost'): """ 在这种模式下,连接调用者标准输入和输出流到相同的套接字,调用者对于 服务器来说就是服务端:接受消息,发送响应答复 """ sock=socket() try: sock.bind((host,port)) except OSError as e: print('Address already in use') os._exit(1) sock.listen(5) conn,addr=sock.accept() ofile=conn.makefile('w') ifile=conn.makefile('r') sys.stdout=ofile sys.stdin=ifile return conn def server1(): mypid=os.getpid() conn=initListenerSocket() file=conn.makefile('r') for i in range(3): data=file.readline().rstrip() print('server %s got [%s]' %(mypid,data)) def client1(): time.sleep(1) mypid=os.getpid() redirecOut() for i in range(3): print('client: %s:%s' % (mypid,i)) sys.stdout.flush() def server2(): mypid=os.getpid() conn=initListenerSocket() for i in range(3): conn.send(('server %s got [%s]\n' %(mypid,i)).encode()) def client2(): time.sleep(1) mypid=os.getpid() redirecIn() for i in range(3): data=input() print('client %s got [%s]]'%(mypid,data)) def server3(): mypid=os.getpid() conn=initListenerSocket() file=conn.makefile('r') for i in range(3): data=file.readline().rstrip() conn.send(('server %s got [%s]\n' % (mypid,data)).encode()) def client3(): time.sleep(1) mypid=os.getpid() redirecBothAsClient() for i in range(3): print('Client %s: %s' %(mypid,data)) data=input() sys.stderr.write('client %s got [%s]\n' %(mypid,data)) def server4(port=50008,host='localhost'): mypid=os.getpid() sock=socket() try: sock.connect((host,port)) ConnectionRefusedError as e: print('connection refuse') os._exit(1) file=sock.makefile('r') for i in range(3): sock.send(('server %s: %S\n' %(mypid,i)).encode()) data=file.readline().rstrip() print('server %s got [%s]' %(mypid,data)) def client4(): time.sleep(1) mypid=os.getpid() redirecBothAsServer() for i in range(3): data=input() print('client %s got [%s]'%(mypid,data)) sys.stdout.flush() def server5(): mypid=os.getpid() conn=initListenerSocket() file=conn.makefile('r') for i in range(3): conn.send(('server %s:%s\n' %(mypid,i)).encode()) data=file.readline().rstrip() print('server %s got [%s]' % (mypid,data)) def client5(): mypid=os.getpid() s=redirecBothAsClient() for i in range(3): data=input() print('client %s got [%s]'%(mypid,data)) sys.stdout.flush() def main(): server=eval('server'+sys.argv[1]) client=eval('client'+sys.argv[1]) Process(target=server).start() client() if __name__=='__main__': main()
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