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Python Network Programming Cookbook

You're reading from   Python Network Programming Cookbook Practical solutions to overcome real-world networking challenges

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Product type Paperback
Published in Aug 2017
Publisher Packt
ISBN-13 9781786463999
Length 450 pages
Edition 2nd Edition
Languages
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Concepts
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Authors (3):
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Dr. M. O. Faruque Sarker Dr. M. O. Faruque Sarker
Author Profile Icon Dr. M. O. Faruque Sarker
Dr. M. O. Faruque Sarker
Gary Berger Gary Berger
Author Profile Icon Gary Berger
Gary Berger
Pradeeban Kathiravelu Pradeeban Kathiravelu
Author Profile Icon Pradeeban Kathiravelu
Pradeeban Kathiravelu
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Toc

Table of Contents (15) Chapters Close

Preface 1. Sockets, IPv4, and Simple Client/Server Programming FREE CHAPTER 2. Multiplexing Socket I/O for Better Performance 3. IPv6, Unix Domain Sockets, and Network Interfaces 4. Programming with HTTP for the Internet 5. Email Protocols, FTP, and CGI Programming 6. Programming Across Machine Boundaries 7. Working with Web Services – XML-RPC, SOAP, and REST 8. Network Monitoring and Security 9. Network Modeling 10. Getting Started with SDN 11. Authentication, Authorization, and Accounting (AAA) 12. Open and Proprietary Networking Solutions 13. NFV and Orchestration – A Larger Ecosystem 14. Programming the Internet

Writing a simple TCP echo client/server application

After testing with basic socket APIs in Python, let us create a TCP socket server and client now. Here, you will have the chance to utilize your basic knowledge gained in the previous recipes.

How to do it...

In this example, a server will echo whatever it receives from the client. We will use the Python argparse module to specify the TCP port from a command line. Both the server and client script will take this argument.

First, we create the server. We start by creating a TCP socket object. Then, we set the reuse address so that we can run the server as many times as we need. We bind the socket to the given port on our local machine. In the listening stage, we make sure we listen to multiple clients in a queue using the backlog argument to the listen() method. Finally, we wait for the client to be connected and send some data to the server. When the data is received, the server echoes back the data to the client.

Listing 1.13a shows how to write a simple TCP echo client/server application as follows:

    #!/usr/bin/env python
    # Python Network Programming Cookbook,
Second Edition -- Chapter - 1 # This program is optimized for Python 2.7.12
and Python 3.5.2. # It may run on any other version with/without
modifications. import socket import sys import argparse host = 'localhost' data_payload = 2048 backlog = 5 def echo_server(port): """ A simple echo server """ # Create a TCP socket sock = socket.socket(socket.AF_INET,
socket.SOCK_STREAM) # Enable reuse address/port sock.setsockopt(socket.SOL_SOCKET,
socket.SO_REUSEADDR, 1) # Bind the socket to the port server_address = (host, port) print ("Starting up echo server on %s
port %s" % server_address) sock.bind(server_address) # Listen to clients, backlog argument
specifies the max no.
of queued connections sock.listen(backlog) while True: print ("Waiting to receive message
from client") client, address = sock.accept() data = client.recv(data_payload) if data: print ("Data: %s" %data) client.send(data) print ("sent %s bytes back
to %s" % (data, address)) # end connection client.close() if __name__ == '__main__': parser = argparse.ArgumentParser
(description='Socket Server Example') parser.add_argument('--port',
action="store", dest="port", type=int,
required=True) given_args = parser.parse_args() port = given_args.port echo_server(port)

On the client side code, we create a client socket using the port argument and connect to the server. Then, the client sends the message, Test message. This will be echoed to the server, and the client immediately receives the message back in a few segments. Here, two try-except blocks are constructed to catch any exception during this interactive session.

Listing 1-13b shows the TCP echo client as follows:

#!/usr/bin/env python 
# Python Network Programming Cookbook,
Second Edition -- Chapter - 1 # This program is optimized for Python 2.7.12
and Python 3.5.2. # It may run on any other version with/without modifications. import socket import sys import argparse host = 'localhost' def echo_client(port): """ A simple echo client """ # Create a TCP/IP socket sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) # Connect the socket to the server server_address = (host, port) print ("Connecting to %s port %s" % server_address) sock.connect(server_address) # Send data try: # Send data message = "Test message. This will be
echoed" print ("Sending %s" % message) sock.sendall(message.encode('utf-8')) # Look for the response amount_received = 0 amount_expected = len(message) while amount_received < amount_expected: data = sock.recv(16) amount_received += len(data) print ("Received: %s" % data) except socket.error as e: print ("Socket error: %s" %str(e)) except Exception as e: print ("Other exception: %s" %str(e)) finally: print ("Closing connection to the server") sock.close() if __name__ == '__main__': parser = argparse.ArgumentParser
(description='Socket Server Example') parser.add_argument('--port', action="store",
dest="port", type=int, required=True) given_args = parser.parse_args() port = given_args.port echo_client(port)

How it works...

In order to see the client/server interactions, launch the following server script in one console:

$ python 1_13a_echo_server.py --port=9900 
Starting up echo server  on localhost port 9900 
    
Waiting to receive message from client 
  

Now, run the client from another Terminal as follows:

$ python 1_13b_echo_client.py --port=9900 
Connecting to localhost port 9900 
Sending Test message. This will be echoed 
Received: Test message. Th 
Received: is will be echoe 
Received: d 
Closing connection to the server
  

Upon receiving the message from the client, the server will also print something similar to the following message:

Data: Test message. This will be echoed 
sent Test message. This will be echoed 
bytes back to ('127.0.0.1', 42961)
Waiting to receive message from client
You have been reading a chapter from
Python Network Programming Cookbook - Second Edition
Published in: Aug 2017
Publisher: Packt
ISBN-13: 9781786463999
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