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python之路:Day8-Socket编程进阶
阅读量:5836 次
发布时间:2019-06-18

本文共 10150 字,大约阅读时间需要 33 分钟。

本节内容:

1.Socket语法及相

2.SocketServer实现多并发

Socket语法及相关                                         

 

 socket概念

  socket本质上就是在两台网络互通的电脑之间,建立一个通道,两台电脑通过这个通道来实现数据的互相传递。我们知道网络通信都给予ip+port方能定位到目标的具体机器上的具体服务,操作系统有0-65535个端口,每个端口都可以独立对外提供服务,如果把一个公司比作一台电脑,那公司的总机号码就相当于ip地址,每个员工的分机号就相当于端口。你想找公司某个人,必须先打电话到总机,然后再转分机。

 

    建立一个socket必须至少有两个端,一个服务端,一个客户端,服务点被动等待接收请求,客户端主动发起请求,连接建立之后,双方可以互发数据。

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 . If the  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 方法

socket.socket(family=AF_INETtype=SOCK_STREAMproto=0fileno=None)

Create a new socket using the given address family, socket type and protocol number. The address family should be  (the default), , ,  or . The socket type should be (the default), ,  or perhaps one of the other SOCK_ constants. The protocol number is usually zero and may be omitted or in the case where the address family is  the protocol should be one of CAN_RAW or . If fileno is specified, the other arguments are ignored, causing the socket with the specified file descriptor to return. Unlike , fileno will return the same socket and not a duplicate. This may help close a detached socket using .

socket.socketpair([family[, type[, proto]]])

Build a pair of connected socket objects using the given address family, socket type, and protocol number. Address family, socket type, and protocol number are as for the  function above. The default family is  if defined on the platform; otherwise, the default is .

socket.create_connection(address[, timeout[, source_address]])

Connect to a TCP service listening on the Internet address (a 2-tuple (host, port)), and return the socket object. This is a higher-level function than : if host is a non-numeric hostname, it will try to resolve it for both  and , and then try to connect to all possible addresses in turn until a connection succeeds. This makes it easy to write clients that are compatible to both IPv4 and IPv6.

 Passing the optional timeout parameter will set the timeout on the socket instance before attempting to connect. If no timeout is supplied, the global default timeout setting returned by  is used.

If supplied, source_address must be a 2-tuple (host, port) for the socket to bind to as its source address before connecting. If host or port are ‘’ or 0 respectively the OS default behavior will be used.

socket.getaddrinfo(hostportfamily=0type=0proto=0flags=0) #获取要连接的对端主机地址

sk.bind(address)

    s.bind(address)将套接字绑定到地址。address地址的格式取决于地址粗。在AF_INET下,以元组(host,port)的形式表示地址

sk.listen(backlog)

  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)

  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()

  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)

  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()

  关闭套接字

sk.recv(bufsize[,flag])

  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])

  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])

  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)

  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()

  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(fileoffset=0count=None)

     发送文件 ,但目前多数情况下并无什么卵用。

SocketServer

The  module simplifies the task of writing network servers.

There are four basic concrete server classes:

class socketserver.TCPServer(server_addressRequestHandlerClassbind_and_activate=True)

This uses the Internet TCP protocol, which provides for continuous streams of data between the client and server. If bind_and_activate is true, the constructor automatically attempts to invoke  and. The other parameters are passed to the  base class.

class socketserver.UDPServer(server_addressRequestHandlerClassbind_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 .

class socketserver.UnixStreamServer(server_addressRequestHandlerClassbind_and_activate=True)
class socketserver.UnixDatagramServer(server_addressRequestHandlerClass,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 .

These four classes process requests synchronously; each request must be completed before the next request can be started. This isn’t suitable if each request takes a long time to complete, because it requires a lot of computation, or because it returns a lot of data which the client is slow to process. The solution is to create a separate process or thread to handle each request; the  and  mix-in classes can be used to support asynchronous behaviour.

There are five classes in an inheritance diagram, four of which represent synchronous servers of four types:

+------------+| BaseServer |+------------+      | v +-----------+ +------------------+ | TCPServer |------->| UnixStreamServer | +-----------+ +------------------+ | v +-----------+ +--------------------+ | UDPServer |------->| UnixDatagramServer | +-----------+ +--------------------+

Note that  derives from , not from  — the only difference between an IP and a Unix stream server is the address family, which is simply repeated in both Unix server classes.

class socketserver.ForkingMixIn
class socketserver.ThreadingMixIn

Forking and threading versions of each type of server can be created using these mix-in classes. For instance,  is created as follows:

class ThreadingUDPServer(ThreadingMixIn, UDPServer): pass

The mix-in class comes first, since it overrides a method defined in . Setting the various attributes also changes the behavior of the underlying server mechanism.

class socketserver.ForkingTCPServer
class socketserver.ForkingUDPServer
class socketserver.ThreadingTCPServer
class socketserver.ThreadingUDPServer

These classes are pre-defined using the mix-in classes.

 

 

 

Request Handler Objects

class socketserver.BaseRequestHandler

This is the superclass of all request handler objects. It defines the interface, given below. A concrete request handler subclass must define a new  method, and can override any of the other methods. A new instance of the subclass is created for each request.

setup()

Called before the  method to perform any initialization actions required. The default implementation does nothing.

handle()

This function must do all the work required to service a request. The default implementation does nothing. Several instance attributes are available to it; the request is available as self.request; the client address as self.client_address; and the server instance as self.server, in case it needs access to per-server information.

The type of self.request is different for datagram or stream services. For stream services,self.request is a socket object; for datagram services, self.request is a pair of string and socket.

finish()

Called after the  method to perform any clean-up actions required. The default implementation does nothing. If  raises an exception, this function will not be called.

 

 

 

 Example

 

 

server side

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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 
= 
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()

client side

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import 
socket
import 
sys
 
HOST, PORT 
= 
"localhost"
9999
data 
= 
" "
.join(sys.argv[
1
:])
 
# Create a socket (SOCK_STREAM means a TCP socket)
sock 
= 
socket.socket(socket.AF_INET, socket.SOCK_STREAM)
 
try
:
    
# Connect to server and send data
    
sock.connect((HOST, PORT))
    
sock.sendall(bytes(data 
+ 
"\n"
"utf-8"
))
 
    
# Receive data from the server and shut down
    
received 
= 
str
(sock.recv(
1024
), 
"utf-8"
)
finally
:
    
sock.close()
 
print
(
"Sent:     {}"
.
format
(data))
print
(
"Received: {}"
.
format
(received))

上面这个例子你会发现,依然不能实现多并发,哈哈,在server端做一下更改就可以了

1
server 
= 
socketserver.TCPServer((HOST, PORT), MyTCPHandler)

改成

 

1
server 
= 
socketserver.ThreadingTCPServer((HOST, PORT), MyTCPHandler)

线程与进程

http://www.cnblogs.com/alex3714/articles/5230609.html   

  

 

 

主机管理之paramiko模块学习 

http://www.cnblogs.com/wupeiqi/articles/5095821.html 

 

作业1:用socketserver继续完善FTP作业

作业2:开发一个批量主机管理工具

需求:

  1. 可以对机器进行分组
  2. 可以对指定的一组或多组机器执行批量命令,分发文件(发送\接收)
  3. 纪录操作日志

 

转载于:https://www.cnblogs.com/allen-zhang/p/6113527.html

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