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Python Penetration Testing Essentials
Python Penetration Testing Essentials

Python Penetration Testing Essentials: Techniques for ethical hacking with Python , Second Edition

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Python Penetration Testing Essentials

Python with Penetration Testing and Networking

Penetration (pen) tester and hacker are similar terms. The difference is that penetration testers work for an organization to prevent hacking attempts, while hackers hack for any purpose such as fame, selling vulnerability for money, or to exploit the vulnerability of personal enmity.

Lots of well-trained hackers have got jobs in the information security field by hacking into a system and then informing the victim of their security bug(s) so that they might be fixed.

A hacker is called a penetration tester when they work for an organization or company to secure its system. A pentester performs hacking attempts to break into the network after getting legal approval from the client and then presents a report of their findings. To become an expert in pentesting, a person should have a deep knowledge of the concepts of their technology. In this chapter, we will cover the following topics:

  • The scope of pentesting
  • The need for pentesting
  • Components to be tested
  • Qualities of a good pentester
  • Approaches to pentesting
  • Understanding the tests and tools you'll need
  • Network sockets
  • Server socket methods
  • Client socket methods
  • General socket methods
  • Practical examples of sockets
  • Socket exceptions
  • Useful socket methods

Introducing the scope of pentesting

In simple words, penetration testing is used to test the information security measures of a company. Information security measures entail a company's network, database, website, public-facing servers, security policies, and everything else specified by the client. At the end of the day, a pentester must present a detailed report of their findings such as weaknesses, vulnerabilities in the company's infrastructure, and the risk level of particular vulnerabilities, and provide solutions if possible.

The need for pentesting

There are several points that describe the significance of pentesting:

  • Pentesting identifies the threats that might expose the confidentiality of an organization
  • Expert pentesting provides assurance to the organization with a complete and detailed assessment of organizational security
  • Pentesting assesses the network's efficiency by producing a huge amount of traffic and scrutinizes the security of devices such as firewalls, routers, and switches
  • Changing or upgrading the existing infrastructure of software, hardware, or network design might lead to vulnerabilities that can be detected by pentesting
  • In today's world, potential threats are increasing significantly; pentesting is a proactive exercise to minimize the chances of being exploited
  • Pentesting ensures whether suitable security policies are being followed or not

Consider the example of a well-reputed e-commerce company that makes money from an online business. A hacker or a group of black hat hackers find a vulnerability in the company's website and hack it. The amount of loss the company will have to bear will be tremendous.

Components to be tested

An organization should conduct a risk assessment operation before pentesting; this will help identify the main threats such as misconfiguration or vulnerability in:

  • Routers, switches, or gateways
  • Public-facing systems; websites, DMZ, email servers, and remote systems
  • DNS, firewalls, proxy servers, FTP, and web servers

Testing should be performed on all hardware and software components of a network security system.

Qualities of a good pentester

The following points describe the qualities of a good pentester. They should:

  • Choose a suitable set of tests and tools that balance cost and benefits
  • Follow suitable procedures with proper planning and documentation
  • Establish the scope for each penetration test, such as objectives, limitations, and the justification of procedures
  • Be ready to show how to exploit the vulnerabilities that they find
  • State the potential risks and findings clearly in the final report and provide methods to mitigate the risk(s) if possible
  • Keep themselves updated at all times because technology is advancing rapidly

A pentester tests the network using manual techniques or the relevant tools. There are lots of tools available on the market. Some of them are open source and some of them are highly expensive. With the help of programming, a programmer can make his/her own tools. By creating your own tools, you can clear your concepts and also perform more R&D. If you are interested in pentesting and want to make your own tools, then the Python programming language is the best, since extensive and freely available pentesting packages are available in Python, in addition to its ease of programming. This simplicity, along with the third-party libraries such as scapy and mechanize, reduces the code size. In Python, to make a program, you don't need to define big classes such as Java. It's more productive to write code in Python than in C, and high-level libraries are easily available for virtually any imaginable task.

If you know some programming in Python and are interested in pentesting, this book is perfect for you.

Defining the scope of pentesting

Before we get into pentesting, the scope of pentesting should be defined. The following points should be taken into account while defining the scope:

  • You should develop the scope of the project by consulting with the client. For example, if Bob (the client) wants to test the entire network infrastructure of the organization, then pentester Alice would define the scope of pentesting by taking this network into account. Alice will consult Bob on whether any sensitive or restricted areas should be included or not.
  • You should take into account time, people, and money.
  • You should profile the test boundaries on the basis of an agreement signed by the pentester and the client.
  • Changes in business practice might affect the scope. For example, the addition of a subnet, new system component installations, the addition or modification of a web server, and so on, might change the scope of pentesting.

The scope of pentesting is defined in two types of tests:

  • A non-destructive test: This test is limited to finding and carrying out the tests without any potential risks. It performs the following actions:
    • Scans and identifies the remote system for potential vulnerabilities
    • Investigates and verifies the findings
    • Maps the vulnerabilities with proper exploits
    • Exploits the remote system with proper care to avoid disruption
    • Provides a proof of concept
    • Does not attempt a Denial-of-Service (DoS) attack
  • A destructive test: This test can produce risks. It performs the following actions:
    • Attempts a DoS attack and a buffer overflow attack, which have the potential to bring down the system

Approaches to pentesting

There are three types of approaches to pentesting:

  • Black-box pentesting follows a non-deterministic approach of testing:
    • You will be given just a company name
    • It is like hacking with the knowledge of an outside attacker
    • You do not need any prior knowledge of the system
    • It is time-consuming
  • White-box pentesting follows a deterministic approach to testing:
    • You will be given complete knowledge of the infrastructure that needs to be tested
    • This is like working as a malicious employee who has ample knowledge of the company's infrastructure
    • You will be provided information on the company's infrastructure, network type, company's policies, do's and don'ts, the IP address, and the IPS/IDS firewall
  • Gray-box pentesting follows a hybrid approach of black-box and white-box testing:
    • The tester usually has limited information on the target network/system that is provided by the client to lower the costs and decrease trial and error on the part of the pentester
    • It performs the security assessment and testing internally

Introducing Python scripting

Before you start reading this book, you should know the basics of Python programming, such as the basic syntax, variable type, data type tuple, list dictionary, functions, strings, and methods. Two versions, 3.4 and 2.7.8, are available at python.org/downloads/.

In this book, all experiments and demonstrations have been done in Python version 2.7.8. If you use Linux OSes such as Kali or BackTrack, then there will be no issue, because many programs, such as wireless sniffing, do not work on the Windows platform. Kali Linux also uses the 2.7 version. If you love to work on Red Hat or CentOS, then this version is suitable for you.

Most hackers choose this profession because they don't want to do programming. They want to use tools. However, without programming, a hacker cannot enhance his/her skills. Each and every time, they have to search for the tools over the internet. Believe me, after seeing its simplicity, you will love this language.

Understanding the tests and tools you'll need

As you have seen, this book is divided into nine chapters. To conduct scanning and sniffing pentesting, you will need a small network of attached devices. If you don't have a lab, you can make virtual machines on your computer. For wireless traffic analysis, you should have a wireless network. To conduct a web attack, you will need an Apache server running on the Linux platform. It is a good idea to use CentOS or Red Hat Version 5 or 6 for the web server because this contains the RPM of Apache and PHP. For the Python script, we will use the Wireshark tool, which is open source and can be run on Windows as well as Linux platforms.

Learning the common testing platforms with Python

You will now perform some pentesting; I hope you are well acquainted with networking fundamentals such as IP addresses, classful subnetting, classless subnetting, the meaning of ports, network addresses, and broadcast addresses. A pentester must be knowledgeable in networking fundamentals as well as in at least one operating system; if you are thinking of using Linux, then you are on the right track. In this book, we will execute our programs on Windows as well as Linux. In this book, Windows, CentOS, and Kali Linux will be used.

A hacker always loves to work on a Linux system. Since it is a free and open source, Kali Linux marks the rebirth of BackTrack and is like an arsenal of hacking tools. Kali Linux NetHunter is the first open-source Android penetration testing platform for Nexus devices. However, some tools work on both Linux and Windows, but on Windows, you have to install those tools. I expect you to have knowledge of Linux. Now, it's time to work with networking on Python.

Network sockets

A network socket address contains an IP address and port number. In a very simple way, a socket is a way to talk to other computers. By means of a socket, a process can communicate with another process over the network.

In order to create a socket, use the socket.socket() that is available in the socket module. The general syntax of a socket function is as follows:

s = socket.socket (socket_family, socket_type, protocol=0)

Here is the description of the parameters:

socket_family: socket.AF_INET, PF_PACKET

AF_INET is the address family for IPv4. PF_PACKET operates at the device driver layer. The pcap library for Linux uses PF_PACKET. You will see more details on PF_PACKET in Chapter 3, Sniffing and Penetration Testing. These arguments represent the address families and the protocol of the transport layer:

Socket_type : socket.SOCK_DGRAM, socket.SOCK_RAW,socket.SOCK_STREAM

The socket.SOCK_DGRAM argument depicts that UDP is unreliable and connectionless, and socket.SOCK_STREAM depicts that TCP is reliable and a two-way, connection-based service. We will discuss socket.SOCK_RAW in Chapter 3, Sniffing and Penetration Testing:

protocol

Generally, we leave this argument; it takes 0 if it's not specified. We will see the use of this argument in Chapter 3, Sniffing and Penetration Testing.

Server socket methods

In a client-server architecture, there is one centralized server that provides service, and many clients request and receive service from the centralized server. Here are some methods you need to know:

  • socket.bind(address): This method is used to connect the address (IP address, port number) to the socket. The socket must be open before connecting to the address.
  • socket.listen(q): This method starts the TCP listener. The q argument defines the maximum number of lined-up connections.
  • socket.accept(): The use of this method is to accept the connection from the client. Before using this method, the socket.bind(address) and socket.listen(q) methods must be used. The socket.accept() method returns two values, client_socket and address, where client_socket is a new socket object used to send and receive data over the connection, and address is the address of the client. You will see examples of this later.

Client socket methods

The only method dedicated to the client is the following:

  • socket.connect(address): This method connects the client to the server. The address argument is the address of the server.

General socket methods

The general socket methods are as follows:

  • socket.recv(bufsize): This method receives a TCP message from the socket. The bufsize argument defines the maximum data it can receive at any one time.
  • socket.recvfrom(bufsize): This method receives data from the socket. The method returns a pair of values, the first value gives the received data, and the second value gives the address of the socket sending the data.
  • socket.recv_into(buffer): This method receives data less than or equal to buffer. The buffer parameter is created by the bytearray() method. We will discuss this in an example later.
  • socket.recvfrom_into(buffer): This method obtains data from the socket and writes it into the buffer. The return value is a pair (nbytes, address), where nbytes is the number of bytes received, and the address is the address of the socket sending the data.
Be careful while using the socket.recv from_into(buffer) method in older versions of Python. Buffer overflow vulnerability has been found in this method. The name of this vulnerability is CVE-2014-1912, and its vulnerability was published on February 27, 2014. Buffer overflow in the socket.recvfrom_into function in Modules/socketmodule.c in Python 2.5 before 2.7.7, 3.x before 3.3.4, and 3.4.x before 3.4rc1, allows remote attackers to execute arbitrary code via a crafted string.
  • socket.send(bytes): This method is used to send data to the socket. Before sending the data, ensure that the socket is connected to a remote machine. It returns the number of bytes sent.
  • socket.sendto(data, address): This method is used to send data to the socket. Generally, we use this method in UDP. UDP is a connectionless protocol; therefore, the socket should not be connected to a remote machine, and the address argument specifies the address of the remote machine. The returned value tells us the number of bytes sent.
  • socket.sendall(data): As the name implies, this method sends all data to the socket. Before sending the data, ensure that the socket is connected to a remote machine. This method ceaselessly transfers data until an error is seen. If an error is seen, an exception will rise, and socket.close() will close the socket.

Now, it is time for the practical; no more mundane theory.

Moving on to the practical

First, we will make a server-side program that offers a connection to the client and sends a message to the client. Run server1.py:

import socket
host = "192.168.0.1" #Server address
port = 12345  #Port of Server
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.bind((host,port)) #bind server 
s.listen(2) 
conn, addr = s.accept()  
print addr, "Now Connected"
conn.send("Thank you for connecting")
conn.close()

The preceding code is very simple; it is minimal code on the server side.

First, import the socket module and define the host and port number, 192.168.0.1 is the server's IP address. Socket.AF_INET defines the IPv4 protocol's family. Socket.SOCK_STREAM defines the TCP connection. The s.bind((host,port)) statement takes only one argument. It binds the socket to the host and port number. The s.listen(2) statement listens to the connection and waits for the client. The conn, addr = s.accept() statement returns two values: conn and addr. The conn socket is the client socket, as we discussed earlier. The conn.send() function sends the message to the client. Finally, conn.close() closes the socket. From the following examples and screenshot, you will understand conn better.

This is the output of the server1.py program:

  G:PythonNetworking>python server1.py

Now, the server is in the listening mode and is waiting for the client.

Let's see the client-side code. Run client1.py:

import socket
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
host = "192.168.0.1"  # server address
port =12345  #server port 
s.connect((host,port)) 
print s.recv(1024)
s.send("Hello Server")
s.close()

In the preceding code, there are two new methods, s.connect((host,port)), which connects the client to the server, and s.recv(1024), which receives the strings sent by the server.

The output of client.py and the response of the server is shown in the following screenshot:

The preceding screenshot of the output shows that the server accepted the connection from 192.168.0.11. Don't get confused by seeing port 1789; it is the random port of the client. When the server sends a message to the client, it uses the conn socket, as mentioned earlier, and this conn socket contains the client IP address and port number.

The following diagram shows how the client accepts a connection from the server. The server is in listening mode, and the client connects to the server. When you run the server and client program again, the random port gets changed. For the client, the server port, 12345, is the destination port, and for the server, the client random port, 1789, is the destination port:

TCP communication

You can extend the functionality of the server using the while loop, as shown in the following program. Run the server2.py program:

import socket 
host = "192.168.0.1"
port = 12345
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.bind((host,port))
s.listen(2)
while True:
  conn, addr = s.accept()
  print addr, "Now Connected"
  conn.send("Thank you for connecting")
  conn.close()

The preceding code is the same as the previous one, except the infinite while loop has been added.

Run the server2.py program, and from the client, run client1.py.

The output of server2.py is shown here:

One server can give service to many clients. The while loop keeps the server program alive and does not allow the code to end. You can set a connection limit to the while loop; for example, set while i>10 and increment i with each connection.

Before proceeding to the next example, the concept of bytearray should be understood. The bytearray array is a mutable sequence of unsigned integers in the range of 0 to 255. You can delete, insert, or replace arbitrary values or slices. The bytearray array's objects can be created by calling the built-in bytearray array.

The general syntax of bytearray is as follows:

bytearray([source[, encoding[, errors]]])

Let's illustrate this with an example:

>>> m = bytearray("Mohit Mohit")
>>> m[1]
111
>>> m[0]
77
>>> m[:5]= "Hello"
>>> m
bytearray(b'Hello Mohit')
>>>

This is an example of slicing the bytearray.

Now, let's look at the split operation on bytearray():

>>> m = bytearray("Hello Mohit")
>>> m
bytearray(b'Hello Mohit')
>>> m.split()
[bytearray(b'Hello'), bytearray(b'Mohit')]

The following is the append operation on bytearray():

>>> m.append(33)
>>> m
bytearray(b'Hello Mohit!')
>>> bytearray(b'Hello World!')

The next example is of s.recv_into(buff). In this example, we will use bytearray() to create a buffer to store data.

First, run the server-side code. Run server3.py:

import socket
host = "192.168.0.1"
port = 12345
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.bind((host, port))
s.listen(1)
conn, addr = s.accept()
print "connected by", addr
conn.send("Thanks")
conn.close()

The preceding program is the same as the previous one. In this program, the server sends Thanks; six characters.

Let's run the client-side program. Run client3.py:

import socket
host = "192.168.0.1"
port = 12345
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.connect((host, port))
buf = bytearray("-" * 30) # buffer created
print "Number of Bytes ",s.recv_into(buf) 
print buf
s.close

In the preceding program, a buf parameter is created using bytearray(). The s.recv_into(buf) statement gives us the number of bytes received. The buf parameter gives us the string received.

The output of client3.py and server3.py is shown in the following screenshot:

Our client program successfully received 6 bytes of the string, Thanks. You must have an idea of bytearray() by now. I hope you will remember it.

This time, I will create a UDP socket.

Run udp1.py, and we will discuss the code line by line:

import socket
host = "192.168.0.1"
port = 12346
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
s.bind((host,port))
data, addr = s.recvfrom(1024)
print "received from ",addr
print "obtained ", data
s.close()

socket.SOCK_DGRAM creates a UDP socket, and data, addr = s.recvfrom(1024) returns two things, the first is the data and the second is the address of the source.

Now, see the client-side preparations. Run udp2.py:

import socket
host = "192.168.0.1"
port = 12346
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
print s.sendto("hello all",(host,port))
s.close()

Here, I used the UDP socket and the s.sendto() method, as you can see in the definition of socket.sendto(). You will know that UDP is a connectionless protocol, so there is no need to establish a connection here.

The following screenshot shows the output of udp1.py (the UDP server) and udp2.py (the UDP client):

The server program successfully received data.

Let's assume that a server is running and that there is no client start connection, and that the server will have been listening. So, to avoid this situation, use socket.settimeout(value).

Generally, we give a value as an integer; if I give 5 as the value, this would mean wait for five seconds. If the operation doesn't complete within five seconds, then a timeout exception would be raised. You can also provide a non-negative float value.

For example, let's look at the following code:

import socket
host = "192.168.0.1"
port = 12346
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
s.bind((host,port))
s.settimeout(5)
data, addr = s.recvfrom(1024)
print "recevied from ",addr
print "obtained ", data
s.close()

I added one extra line, that is, s.settimeout(5). The program waits for five seconds; only after that will it give us an error message. Run udptime1.py.

The output is shown in the following screenshot:

The program shows an error; however, it does not look good if it gives an error message. The program should handle the exceptions.

Socket exceptions

In order to handle exceptions, we'll use the try and except blocks. The following example will tell you how to handle the exceptions. Run udptime2.py:

import socket
host = "192.168.0.1"
port = 12346
s = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
try:
  
  s.bind((host,port))
  s.settimeout(5)
  data, addr = s.recvfrom(1024)
  print "recevied from ",addr
  print "obtained ", data
  s.close()
  
except socket.timeout :
  print "Client not connected"
  s.close()

The output is shown in the following screenshot:

In the try block, I put my code, and from the except block, a customized message is printed if any exception occurs.

Different types of exceptions are defined in Python's socket library for different errors. These exceptions are described here:

  • exception socket.herror: This block catches the address-related error.
  • exception socket.timeout: This block catches the exception when a timeout on a socket occurs, which has been enabled by settimeout(). In the previous example, you can see that we used socket.timeout.
  • exception socket.gaierror: This block catches any exception that is raised due to getaddrinfo() and getnameinfo().
  • exception socket.error: This block catches any socket-related errors. If you are not sure about any exception, you could use this. In other words, you can say that it is a generic block and can catch any type of exception.

Downloading the example code

You can download the example code files from your account at http://www.packtpub.com for all of the Packt Publishing books you have purchased. If you purchased this book elsewhere, you can visit http://www.packtpub.com/support and register to have the files emailed directly to you.

Useful socket methods

So far, you have gained knowledge of socket and client-server architecture. At this level, you can make a small program of networks. However, the aim of this book is to test the network and gather information. Python offers very beautiful as well as useful methods to gather information. First, import the socket and then use these methods:

  • socket.gethostbyname(hostname): This method converts a hostname to the IPv4 address format. The IPv4 address is returned in the form of a string. Here is an example:
       >>> import socket>>>   
socket.gethostbyname('thapar.edu')'220.227.15.55'>>>>>>
socket.gethostbyname('google.com')'173.194.126.64'>>>

I know you are thinking about the nslookup command. Later, you will see more magic.

  • socket.gethostbyname_ex(name): This method converts a hostname to the IPv4 address pattern. However, the advantage over the previous method is that it gives all the IP addresses of the domain name. It returns a tuple (hostname, canonical name, and IP_addrlist) where the hostname is given by us, the canonical name is a (possibly empty) list of canonical hostnames of the server for the same address, and IP_addrlist is a list of all of the available IP addresses of the same hostname. Often, one domain name is hosted on many IP addresses to balance the load of the server. Unfortunately, this method does not work for IPv6. I hope you are well-acquainted with tuples, lists, and dictionaries. Let's look at an example:
       >>> socket.gethostbyname_ex('thapar.edu')('thapar.edu', [],  
['14.139.242.100', '220.227.15.55'])>>>
socket.gethostbyname_ex('google.com')>>>('google.com', [],
['173.194.36.64', '173.194.36.71', '173.194.36.73',
'173.194.36.70',
'173.194.36.78', '173.194.36.66', '173.194.36.65',
'173.194.36.68',
'173.194.36.69', '173.194.36.72', '173.194.36.67'])>>>

It returns many IP addresses for a single domain name. This means that one domain such as thapar.edu or google.com runs on multiple IPs.

  • socket.gethostname(): This returns the hostname of the system where the Python interpreter is currently running:
      >>> socket.gethostname()'eXtreme'

To glean the current machine's IP address by using the socket module, you can use the following trick using gethostbyname(gethostname()):

      >>> socket.gethostbyname(socket.gethostname())'192.168.10.1'>>>

You know that our computer has many interfaces. If you want to know the IP address of all of the interfaces, use the extended interface:.

      >>> socket.gethostbyname_ex(socket.gethostname())('eXtreme', [],   
['10.0.0.10', '192.168.10.1', '192.168.0.1'])>>>

It returns one tuple containing three elements, the first is the machine name, the second is a list of aliases for the hostname (empty, in this case,) and the third is the list of the IP addresses of interfaces.

  • socket.getfqdn([name]): This is used to find the fully qualified domain name if it's available. The fully qualified domain name consists of a host and domain name; for example, beta might be the hostname, and example.com might be the domain name. The fully qualified domain name (FQDN) becomes beta.example.com:
      >>> socket.getfqdn('facebook.com')'edge-star-shv-12-   
frc3.facebook.com'

In the preceding example, edge-star-shv-12-frc3 is the hostname, and facebook.com is the domain name. In the following example, FQDN is not available for thapar.edu:

      >>> socket.getfqdn('thapar.edu')'thapar.edu'

If the name argument is blank, it returns the current machine name:

      >>> socket.getfqdn()'eXtreme'>>>
  • socket.gethostbyaddr(ip_address): This is like a reverse lookup for the name. It returns a tuple (hostname, canonical name, and IP_addrlist) where hostname is the hostname that responds to the given ip_address, the canonical name is a (possibly empty) list of canonical names of the same address, and IP_addrlist is a list of IP addresses for the same network interface on the same host:
      >>> socket.gethostbyaddr('173.194.36.71')('del01s06-in-
f7.1e100.net', [], ['173.194.36.71'])>>>
socket.gethostbyaddr('119.18.50.66')Traceback (most recent call
last): File "<pyshell#9>", line 1, in <module>
socket.gethostbyaddr('119.18.50.66')herror: [Errno 11004] host
not found

It shows an error in the last query because reverse DNS lookup is not present.

  • socket.getservbyname(servicename[, protocol_name]): This converts any protocol name to the corresponding port number. The Protocol name is optional, either TCP or UDP. For example, the DNS service uses TCP as well as UDP connections. If the protocol name is not given, any protocol could match:
      >>> import socket>>> socket.getservbyname('http')80>>>   
socket.getservbyname('smtp','tcp')25>>>
  • socket.getservbyport(port[, protocol_name]): This converts an internet port number to the corresponding service name. The protocol name is optional, either TCP or UDP:
      >>> socket.getservbyport(80)'http'>>>    
socket.getservbyport(23)'telnet'>>>
socket.getservbyport(445)'microsoft-ds'>>>
  • socket.connect_ex(address): This method returns an error indicator. If successful, it returns 0; otherwise, it returns the errno variable. You can take advantage of this function to scan the ports. Run the connect_ex.py program:
      import socket
      rmip ='127.0.0.1'
      portlist = [22,23,80,912,135,445,20]

      for port in portlist:
      sock= socket.socket(socket.AF_INET,socket.SOCK_STREAM)
      result = sock.connect_ex((rmip,port))
      print port,":", result
      sock.close()

The output is shown in the following screenshot:

The preceding program output shows that ports 80 ,912 ,135 , and 445 are open. This is a rudimentary port scanner. The program is using the IP address 127.0.0.1; this is a loopback address, so it is impossible to have any connectivity issues. However, when you have issues, perform this on another device with a large port list. This time, you will have to use socket.settimeout(value):

socket.getaddrinfo(host, port[, family[, socktype[, proto[, flags]]]])

This socket method converts the host and port arguments into a sequence of five tuples.

Let's take a look at the following example:

   >>> import socket
   >>> socket.getaddrinfo('www.thapar.edu', 'http')
   [(2, 1, 0, '', ('220.227.15.47', 80)), (2, 1, 0, '',  
('14.139.242.100', 80))]
>>>

Output 2 represents the family, 1 represents the socket type, 0 represents the protocol, '' represents the canonical name, and ('220.227.15.47', 80) represents the 2 socket address. However, this number is difficult to comprehend. Open the directory of the socket.

Use the following code to find the result in a readable form:

import socket
def get_protnumber(prefix):
  return dict( (getattr(socket, a), a)
    for a in dir(socket)
      if a.startswith(prefix))

proto_fam = get_protnumber('AF_')
types = get_protnumber('SOCK_')
protocols = get_protnumber('IPPROTO_')

for res in socket.getaddrinfo('www.thapar.edu', 'http'):

  family, socktype, proto, canonname, sockaddr = res

  print 'Family        :', proto_fam[family]
  print 'Type          :', types[socktype]
  print 'Protocol      :', protocols[proto]
  print 'Canonical name:', canonname
  print 'Socket address:', sockaddr

The output of the code is shown in the following screenshot:

The upper part makes a dictionary using the AF_, SOCK_, and IPPROTO_ prefixes that map the protocol number to their names. This dictionary is formed by the list comprehension technique.

The upper part of the code might be confusing sometimes, but we can execute the code separately as follows:

  >>> dict(( getattr(socket,n),n) for n in dir(socket) if 
n.startswith('AF_'))
{0: 'AF_UNSPEC', 2: 'AF_INET', 6: 'AF_IPX', 11: 'AF_SNA', 12:
'AF_DECnet', 16: 'AF_APPLETALK', 23: 'AF_INET6', 26: 'AF_IRDA'}

Now, this is easy to understand. This code is usually used to get the protocol number:

for res in socket.getaddrinfo('www.thapar.edu', 'http'):

The preceding line of code returns the five values, as discussed in the definition. These values are then matched with their corresponding dictionary.

Summary

From reading this chapter, you have got an understanding of networking in Python. The aim of this chapter was to complete the prerequisites of the upcoming chapters. From the start, you have learned the need for pentesting. Pentesting is conducted to identify threats and vulnerabilities in an organization. What should be tested? This is specified in the agreement; don't try to test anything that is not mentioned in the agreement. The agreement is your get out of jail free card. A pentester should have knowledge of the latest technology, and you should have some knowledge of Python before you start reading this book. In order to run Python scripts, you should have a lab setup, a network of computers to test a live system, and dummy websites running on the Apache server.

This chapter also discussed the socket and its methods. The server socket method defines how to make a simple server. The server binds its own address and port to listen to the connections. A client that knows the server address and port number connects to the server to get a service. Some socket methods such as socket.recv(bufsize), socket.recvfrom(bufsize), socket.recv_into(buffer), socket.send(bytes), and so on are useful for the server as well as the client. You learned how to handle different types of exceptions. In the Useful socket methods section, you got an idea of how to get the IP address and hostname of a machine, how to glean the IP address from the domain name, and vice versa.

In the next chapter, we will be looking at scanning pentesting, which includes IP address scanning to detect live hosts. To carry out IP scanning, ping sweep and TCP scanning are used. You will learn how to detect services running on a remote host using a port scanner.

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Key benefits

  • • Detect and avoid various attack types that put the privacy of a system at risk
  • • Leverage Python to build efficient code and eventually build a robust environment
  • • Learn about securing wireless applications and information gathering on a web server

Description

This book gives you the skills you need to use Python for penetration testing (pentesting), with the help of detailed code examples. We start by exploring the basics of networking with Python and then proceed to network hacking. Then, you will delve into exploring Python libraries to perform various types of pentesting and ethical hacking techniques. Next, we delve into hacking the application layer, where we start by gathering information from a website. We then move on to concepts related to website hacking—such as parameter tampering, DDoS, XSS, and SQL injection. By reading this book, you will learn different techniques and methodologies that will familiarize you with Python pentesting techniques, how to protect yourself, and how to create automated programs to find the admin console, SQL injection, and XSS attacks.

Who is this book for?

If you are a Python programmer, a security researcher, or an ethical hacker and are interested in penetration testing with the help of Python, then this book is for you. Even if you are new to the field of ethical hacking, this book can help you find the vulnerabilities in your system so that you are ready to tackle any kind of attack or intrusion.

What you will learn

  • • The basics of network pentesting including network scanning and sniffing
  • • Wireless, wired attacks, and building traps for attack and torrent detection
  • • Web server footprinting and web application attacks, including the XSS and SQL injection attack
  • • Wireless frames and how to obtain information such as SSID, BSSID, and the channel number from a wireless frame using a Python script
  • • The importance of web server signatures, email gathering, and why knowing the server signature is the first step in hacking
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Table of Contents

10 Chapters
Python with Penetration Testing and Networking Chevron down icon Chevron up icon
Scanning Pentesting Chevron down icon Chevron up icon
Sniffing and Penetration Testing Chevron down icon Chevron up icon
Network Attacks and Prevention Chevron down icon Chevron up icon
Wireless Pentesting Chevron down icon Chevron up icon
Honeypot – Building Traps for Attackers Chevron down icon Chevron up icon
Foot Printing a Web Server and a Web Application Chevron down icon Chevron up icon
Client-Side and DDoS Attacks Chevron down icon Chevron up icon
Pentesting SQL and XSS Chevron down icon Chevron up icon
Other Books You May Enjoy Chevron down icon Chevron up icon

Customer reviews

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Rating distribution
Full star icon Full star icon Full star icon Empty star icon Empty star icon 3
(9 Ratings)
5 star 11.1%
4 star 33.3%
3 star 22.2%
2 star 11.1%
1 star 22.2%
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Kindle Customer Mar 25, 2015
Full star icon Full star icon Full star icon Full star icon Full star icon 5
Although the subject of security is not my area of expertise I bought this book with the idea of grasping the principles of systems / networks penetration in order to become more familiar with the tools used for such purposes.This is the kind of book that not only teaches you something new but does it in a refreshing way. I made me wonder: why would anyone rewrite some well known script in bash (or even a bat file for that matter) in Python ? because we can ! I can hear a lot of voices saying it outloud. But what if I told you that you can rewrite complete tools to sniff a network ? or how about using sockets directly from the command line ? If you ever wondered that too, well this is the book for us.Below you can see an image of my (Enthought Canopy) command line trying to get through the office's Proxy Server using one of the book's scripts.
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Finn M Glas Jan 14, 2019
Full star icon Full star icon Full star icon Full star icon Empty star icon 4
Good but long read that tought me a lot
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perceive Mar 15, 2015
Full star icon Full star icon Full star icon Full star icon Empty star icon 4
We have another Python book, this time dedicated to Penetration Testing.The book itself is as much as use case scenario for using Python as a guide to Pen Testing, so if you are expecting a pen testing education I'd suggest more than this book here.However, if what you are after is how to use Python with real world examples this book may suit your needs. The provided code examples (you can download the code as well from Packt) are all very helpful in understanding where Python can be used in this field.If you have some experience in Pen testing already, the code will be more useful than nearly anything else.The main reason that I reduced the mark to 4 stars was that the books examples are all Python 2, not 3. For a book published in 2015 I'd like to know that the future proofing of my learning was in place. While there is an abundance of Python 2 code out there and it will not be going away anytime soon, the general python community is showing signs that the schism between 2 and 3 are reducing with more and more python 3 code being written. This is a minor issue for me, as most OS that I use will be maintaining support for both as far as I can see into the future.
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Tim Crothers Mar 16, 2015
Full star icon Full star icon Full star icon Full star icon Empty star icon 4
Solid introduction to using Python for Pentesting applications. The book doesn't go into an extreme amount of depth but then this is an "essentials" book. Topic was covered logically and the included sample code makes for a good baseline for crafting your own penetration related tools in Python. The book could use some more editing to clean up errors but they were all minor in nature so I only dinged one star as a result. Overall very good starting place if you wish to learn to craft some of your own tools for doing pentesting in Python. Well worth the purchase price.
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Maarten J Broekman Mar 13, 2015
Full star icon Full star icon Full star icon Empty star icon Empty star icon 3
This book has potential, but suffers from a distinct lack of editing and verification. The concepts are great and the examples interesting, but the flaws bring it down.The grammar is broken and I found myself re-reading things multiple times, not because the concepts were hard but because the grammar made it difficult. For example, the author uses "foot printing" as the term that describes the identification of application information (e.g. the web server is Apache, version 2.2.3). From a software and systems perspective, this is the wrong term. The process of identifying an application is "fingerprinting". An application "footprint" is how much memory, cpu, disk space, IO it uses.Additionally, the examples need a little more explanation and / or verification. For example, the follow excerpt is incorrect:“You know that our computer has many interfaces. If you want to know the IP address of all the interfaces, use the extended interface:.>>> socket.gethostbyname_ex(socket.gethostname())('eXtreme', [], ['10.0.0.10', '192.168.10.1', '192.168.0.1'])>>>It returns one tuple containing three elements: first is the machine name, second is a list of aliases for the hostname (empty in this case,) and third is the list of IP addresses of interfaces.” - Excerpt From: “Python Penetration Testing Essentials.” iBooks.socket.gethostname() does return the hostname, but socket.gethostbyname_ex() does NOT return the IP addresses of all the interfaces. It returns all the IP addresses that resolve in DNS. Thus, in order for it to return the IPs of all the local interfaces, you would have to configure them in /etc/hosts to include the local hostname for each.
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