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Python学习-day8
还是继续socket网络编程的学习。
socket.
socket
(family=AF_INET, type=SOCK_STREAM, proto=0, fileno=None)
Socket Families(地址簇)
socket.
AF_UNIX unix本机进程间通信
socket.
AF_INET IPV4
socket.
AF_INET6 IPV6
These constants represent the address (and protocol) families, used for the first argument to
socket()
. If the AF_UNIX
constant is not defined then this protocol is unsupported. More constants may be available depending on the system.
Socket Types
socket.
SOCK_STREAM #for tcp
socket.
SOCK_DGRAM #for udp
socket.
SOCK_RAW #原始套接字,普通的套接字无法处理ICMP、IGMP等网络报文,而SOCK_RAW可以;其次,SOCK_RAW也可以处理特殊的IPv4报文;此外,利用原始套接字,可以通过IP_HDRINCL套接字选项由用户构造IP头。
socket.
SOCK_RDM #是一种可靠的UDP形式,即保证交付数据报但不保证顺序。SOCK_RAM用来提供对原始协议的低级访问,在需要执行某些特殊操作时使用,如发送ICMP报文。SOCK_RAM通常仅限于高级用户或管理员运行的程序使用。
socket.
SOCK_SEQPACKET #废弃了
These constants represent the socket types, used for the second argument to socket()
. More constants may be available depending on the system. (Only SOCK_STREAM
and SOCK_DGRAM
appear to be generally useful.)
sk.bind(address) 必会
s.bind(address) 将套接字绑定到地址。address地址的格式取决于地址族。在AF_INET下,以元组(host,port)的形式表示地址。
sk.listen(backlog) 必会
开始监听传入连接。backlog指定在拒绝连接之前,可以挂起的最大连接数量。
backlog等于5,表示内核已经接到了连接请求,但服务器还没有调用accept进行处理的连接个数最大为5 这个值不能无限大,因为要在内核中维护连接队列
sk.setblocking(bool) 必会
是否阻塞(默认True),如果设置False,那么accept和recv时一旦无数据,则报错。
sk.accept() 必会
接受连接并返回(conn,address),其中conn是新的套接字对象,可以用来接收和发送数据。address是连接客户端的地址。
接收TCP 客户的连接(阻塞式)等待连接的到来
sk.connect(address) 必会
连接到address处的套接字。一般,address的格式为元组(hostname,port),如果连接出错,返回socket.error错误。
sk.connect_ex(address)
同上,只不过会有返回值,连接成功时返回 0 ,连接失败时候返回编码,例如:10061
sk.close() 必会
关闭套接字
sk.recv(bufsize[,flag]) 必会
接受套接字的数据。数据以字符串形式返回,bufsize指定最多可以接收的数量。flag提供有关消息的其他信息,通常可以忽略。
sk.recvfrom(bufsize[.flag])
与recv()类似,但返回值是(data,address)。其中data是包含接收数据的字符串,address是发送数据的套接字地址。
sk.send(string[,flag]) 必会
将string中的数据发送到连接的套接字。返回值是要发送的字节数量,该数量可能小于string的字节大小。即:可能未将指定内容全部发送。
sk.sendall(string[,flag]) 必会
将string中的数据发送到连接的套接字,但在返回之前会尝试发送所有数据。成功返回None,失败则抛出异常。
内部通过递归调用send,将所有内容发送出去。
sk.sendto(string[,flag],address)
将数据发送到套接字,address是形式为(ipaddr,port)的元组,指定远程地址。返回值是发送的字节数。该函数主要用于UDP协议。
sk.settimeout(timeout) 必会
设置套接字操作的超时期,timeout是一个浮点数,单位是秒。值为None表示没有超时期。一般,超时期应该在刚创建套接字时设置,因为它们可能用于连接的操作(如 client 连接最多等待5s )
sk.getpeername() 必会
返回连接套接字的远程地址。返回值通常是元组(ipaddr,port)。
sk.getsockname()
返回套接字自己的地址。通常是一个元组(ipaddr,port)
sk.fileno()
套接字的文件描述符
socket.
sendfile
(file, offset=0, count=None)
发送文件 ,但目前多数情况下并无什么卵用。
基本Socket实例
Server
import socket server = socket.socket() #获得socket实例 server.bind(("localhost",9998)) #绑定ip port server.listen() #开始监听 print("等待客户端的连接...") conn,addr = server.accept() #接受并建立与客户端的连接,程序在此处开始阻塞,只到有客户端连接进来... print("新连接:",addr ) data = conn.recv(1024) print("收到消息:",data) server.close() SocketServer.py
Client
import socket client = socket.socket() client.connect(("localhost",9998)) client.send(b"hey") client.close() SocketClient.py
简单SSH实现
#_*_coding:utf-8_*_ __author__ = ‘Alex Li‘ import socket import os,subprocess server = socket.socket() #获得socket实例 server.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) server.bind(("localhost",9999)) #绑定ip port server.listen() #开始监听 while True: #第一层loop print("等待客户端的连接...") conn,addr = server.accept() #接受并建立与客户端的连接,程序在此处开始阻塞,只到有客户端连接进来... print("新连接:",addr ) while True: data = conn.recv(1024) if not data: print("客户端断开了...") break #这里断开就会再次回到第一次外层的loop print("收到命令:",data) #res = os.popen(data.decode()).read() #py3 里socket发送的只有bytes,os.popen又只能接受str,所以要decode一下 res = subprocess.Popen(data,shell=True,stdout=subprocess.PIPE).stdout.read() #跟上面那条命令的效果是一样的 if len(res) == 0: res = "cmd exec success,has not output!".encode("utf-8") conn.send(str(len(res)).encode("utf-8")) #发送数据之前,先告诉客户端要发多少数据给它 print("等待客户ack应答...") client_final_ack = conn.recv(1024) #等待客户端响应 print("客户应答:",client_final_ack.decode()) print(type(res)) conn.sendall(res) #发送端也有最大数据量限制,所以这里用sendall,相当于重复循环调用conn.send,直至数据发送完毕 server.close() 接收大数据 server端
#_*_coding:utf-8_*_ __author__ = ‘Alex Li‘ import socket import sys client = socket.socket() client.connect(("localhost",9999)) while True: msg = input(">>:").strip() if len(msg) == 0:continue client.send( msg.encode("utf-8") ) res_return_size = client.recv(1024) #接收这条命令执行结果的大小 print("getting cmd result , ", res_return_size) total_rece_size = int(res_return_size) print("total size:",res_return_size) client.send("准备好接收了,发吧loser".encode("utf-8")) received_size = 0 #已接收到的数据 cmd_res = b‘‘ f = open("test_copy.html","wb")#把接收到的结果存下来,一会看看收到的数据 对不对 while received_size != total_rece_size: #代表还没收完 data = http://www.mamicode.com/client.recv(1024) received_size += len(data) #为什么不是直接1024,还判断len干嘛,注意,实际收到的data有可能比1024少 cmd_res += data else: print("数据收完了",received_size) #print(cmd_res.decode()) f.write(cmd_res) #把接收到的结果存下来,一会看看收到的数据 对不对 #print(data.decode()) #命令执行结果 client.close() 接收大数据客户端
SocketServer
The socketserver
module simplifies the task of writing network servers.
socketserver一共有这么几种类型
1
|
class socketserver.TCPServer(server_address, RequestHandlerClass, bind_and_activate = True ) |
This uses the Internet TCP protocol, which provides for continuous streams of data between the client and server.
1
|
class socketserver.UDPServer(server_address, RequestHandlerClass, bind_and_activate = True ) |
This uses datagrams, which are discrete packets of information that may arrive out of order or be lost while in transit. The parameters are the same as for TCPServer
.
1
2
|
class socketserver.UnixStreamServer(server_address, RequestHandlerClass, bind_and_activate = True ) class socketserver.UnixDatagramServer(server_address, RequestHandlerClass,bind_and_activate = True ) |
These more infrequently used classes are similar to the TCP and UDP classes, but use Unix domain sockets; they’re not available on non-Unix platforms. The parameters are the same as for TCPServer
.
There are five classes in an inheritance diagram, four of which represent synchronous servers of four types:
+------------+
| BaseServer |
+------------+
|
v
+-----------+ +------------------+
| TCPServer |------->| UnixStreamServer |
+-----------+ +------------------+
|
v
+-----------+ +--------------------+
| UDPServer |------->| UnixDatagramServer |
+-----------+ +--------------------+
创建一个socketserver 至少分以下几步:
- First, you must create a request handler class by subclassing the
BaseRequestHandler
class and overriding itshandle()
method; this method will process incoming requests. - Second, you must instantiate one of the server classes, passing it the server’s address and the request handler class.
- Then call the
handle_request()
orserve_forever()
method of the server object to process one or many requests. - Finally, call
server_close()
to close the socket.
基本的socketserver代码
import socketserver class MyTCPHandler(socketserver.BaseRequestHandler): """ The request handler class for our server. It is instantiated once per connection to the server, and must override the handle() method to implement communication to the client. """ def handle(self): # self.request is the TCP socket connected to the client self.data = http://www.mamicode.com/self.request.recv(1024).strip() print("{} wrote:".format(self.client_address[0])) print(self.data) # just send back the same data, but upper-cased self.request.sendall(self.data.upper()) if __name__ == "__main__": HOST, PORT = "localhost", 9999 # Create the server, binding to localhost on port 9999 server = socketserver.TCPServer((HOST, PORT), MyTCPHandler) # Activate the server; this will keep running until you # interrupt the program with Ctrl-C server.serve_forever()
让你的socketserver并发起来, 必须选择使用以下一个多并发的类
class socketserver.
ForkingTCPServer
class socketserver.
ForkingUDPServer
class socketserver.
ThreadingTCPServer
class socketserver.
ThreadingUDPServer
Python学习-day8