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Wireshark 2 Quick Start Guide

You're reading from   Wireshark 2 Quick Start Guide Secure your network through protocol analysis

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Product type Paperback
Published in Jun 2018
Publisher
ISBN-13 9781789342789
Length 164 pages
Edition 1st Edition
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Author (1):
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Charit Mishra Charit Mishra
Author Profile Icon Charit Mishra
Charit Mishra
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Toc

The layers in the TCP/IP model

The TCP/IP model comprises four layers, as shown in the following diagram. Each layer has a specific purpose to fulfill and utilizes a set of protocols to facilitate communications. Every protocol in every layer has a specific purpose:

The first layer is the Application Layer, which directly interacts with users and subsequent layers and protocols; it is primarily concerned with the representation of the data in a understandable format to the user. The application layer also keeps track of user sessions, monitoring who is connected; it uses a set of protocols that helps to interface with users and other layers in the TCP/IP model. Some popular protocols in the Application Layer are as follows:

  • Hypertext Transfer Protocol (HTTP)
  • File Transfer Protocol (FTP)
  • Simple Network Management Protocol (SNMP)
  • Simple Mail Transfer Protocol (SMTP)

The second layer is the Transport Layer. The purpose of this layer is to create sockets (a combination of the port and IP address) in order to let two endpoints communicate. Sockets facilitate the creation of multiple distinct connections between two or more devices (more than one tab can be opened in Chrome).

An IP address is required for communication between devices in different networks/segments (such as is used between two router interfaces or communication over the internet). It can also be used in local area network (LAN) communication, and is established over physical addresses (MAC). Apart from the restricted range of port numbers, operating systems and applications can choose a random port (other than ports 1 to 1013) for communication.

The transport layer also serves as a backbone for the communication. The two most critical protocols that work in this layer are the TCP and UDP:

  • The TCP is a connection-oriented protocol, also called a reliable protocol. Firstly, a dedicated communication channel is established between the endpoints, which is then followed by data transmission. Equally partitioned chunks are transmitted from the source, and the receiving end sends an acknowledgement for every packet received. The side that is sending the data resends the packet if an acknowledgement is not received within a stated time frame.
  • The UDP is a connectionless protocol and is often called an unreliable communication form. In the UDP, no dedicated channel is established, which also makes it a simpler and faster way of communication. There are also no acknowledgement packets sent by the endpoints. For example, if you are playing an online game, the loss of a few packets over the communication channel is not going to hamper your gaming experience because the number of packets coming through is huge, and a few missing packets will not make much difference to the overall quality of the network stream.

The third layer is the Internet Layer, which is primarily concerned with routing and movement of data between networks. The primary protocol that works in this layer is the IP (Internet Protocol). The IP provides the network packets with the routing capability that they need in order to reach their destination. Other protocols included in this layer are the ICMP and IGMP.

The fourth and final layer is the Link Layer (often called the network interface layer). It interfaces with the physical network hardware. There are no protocols specified in this layer by the TCP/IP; however, several protocols are implemented, such as the Address Resolution Protocol (ARP) and the Point to Point Protocol(PPP). This layer is concerned with how information travels inside the communication channel (wired or wireless). The link layer is responsible for establishing and terminating the connection, as well as converting the signals from analog to digital and vice versa. Devices such as bridges and switches operate in this layer.

As data progresses from the application layer to the link layer, several bits of information are attached to the data in the form of headers or footers, which allow different layers of the TCP/IP to communicate with each other. The process of adding these extra bits is called data encapsulation, and in this process, a protocol data unit (PDU) is created at the end of the networking process (passing through the application to the link layer).

PDU consists of the data along with network addressing and protocol information that gets attached as part of the header or footer. By the time PDU reaches the bottom-most layer, it is embedded with all the required information necessary for transmission. Once the PDU reaches the destination, the attached header and footer PDU elements are ripped off one by one as it passes through each layer of the TCP/IP model and progresses upward in the model.

The following diagram depicts the process of encapsulation:

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