what are the protocols of presentation layer

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Presentation Layer in OSI model

Prerequisite : OSI Model

Introduction : Presentation Layer is the 6th layer in the Open System Interconnection (OSI) model. This layer is also known as Translation layer, as this layer serves as a data translator for the network. The data which this layer receives from the Application Layer is extracted and manipulated here as per the required format to transmit over the network. The main responsibility of this layer is to provide or define the data format and encryption. The presentation layer is also called as Syntax layer since it is responsible for maintaining the proper syntax of the data which it either receives or transmits to other layer(s).

Functions of Presentation Layer :

The presentation layer, being the 6th layer in the OSI model, performs several types of functions, which are described below-

• Presentation layer format and encrypts data to be sent across the network.
• This layer takes care that the data is sent in such a way that the receiver will understand the information (data) and will be able to use the data efficiently and effectively.
• This layer manages the abstract data structures and allows high-level data structures (example- banking records), which are to be defined or exchanged.
• This layer carries out the encryption at the transmitter and decryption at the receiver.
• This layer carries out data compression to reduce the bandwidth of the data to be transmitted (the primary goal of data compression is to reduce the number of bits which is to be transmitted).
• This layer is responsible for interoperability (ability of computers to exchange and make use of information) between encoding methods as different computers use different encoding methods.
• This layer basically deals with the presentation part of the data.
• Presentation layer, carries out the data compression (number of bits reduction while transmission), which in return improves the data throughput.
• This layer also deals with the issues of string representation.
• The presentation layer is also responsible for integrating all the formats into a standardized format for efficient and effective communication.
• This layer encodes the message from the user-dependent format to the common format and vice-versa for communication between dissimilar systems.
• This layer deals with the syntax and semantics of the messages.
• This layer also ensures that the messages which are to be presented to the upper as well as the lower layer should be standardized as well as in an accurate format too.
• Presentation layer is also responsible for translation, formatting, and delivery of information for processing or display.
• This layer also performs serialization (process of translating a data structure or an object into a format that can be stored or transmitted easily).

Features of Presentation Layer in the OSI model: Presentation layer, being the 6th layer in the OSI model, plays a vital role while communication is taking place between two devices in a network.

List of features which are provided by the presentation layer are:

• Presentation layer could apply certain sophisticated compression techniques, so fewer bytes of data are required to represent the information when it is sent over the network.
• If two or more devices are communicating over an encrypted connection, then this presentation layer is responsible for adding encryption on the sender’s end as well as the decoding the encryption on the receiver’s end so that it can represent the application layer with unencrypted, readable data.
• This layer formats and encrypts data to be sent over a network, providing freedom from compatibility problems.
• This presentation layer also negotiates the Transfer Syntax.
• This presentation layer is also responsible for compressing data it receives from the application layer before delivering it to the session layer (which is the 5th layer in the OSI model) and thus improves the speed as well as the efficiency of communication by minimizing the amount of the data to be transferred.

Working of Presentation Layer in the OSI model : Presentation layer in the OSI model, as a translator, converts the data sent by the application layer of the transmitting node into an acceptable and compatible data format based on the applicable network protocol and architecture.  Upon arrival at the receiving computer, the presentation layer translates data into an acceptable format usable by the application layer. Basically, in other words, this layer takes care of any issues occurring when transmitted data must be viewed in a format different from the original format. Being the functional part of the OSI mode, the presentation layer performs a multitude (large number of) data conversion algorithms and character translation functions. Mainly, this layer is responsible for managing two network characteristics: protocol (set of rules) and architecture.

Presentation Layer Protocols : Presentation layer being the 6th layer, but the most important layer in the OSI model performs several types of functionalities, which makes sure that data which is being transferred or received should be accurate or clear to all the devices which are there in a closed network. Presentation Layer, for performing translations or other specified functions, needs to use certain protocols which are defined below –

• Apple Filing Protocol (AFP): Apple Filing Protocol is the proprietary network protocol (communications protocol) that offers services to macOS or the classic macOS. This is basically the network file control protocol specifically designed for Mac-based platforms.
• Lightweight Presentation Protocol (LPP): Lightweight Presentation Protocol is that protocol which is used to provide ISO presentation services on the top of TCP/IP based protocol stacks.
• NetWare Core Protocol (NCP): NetWare Core Protocol is the network protocol which is used to access file, print, directory, clock synchronization, messaging, remote command execution and other network service functions.
• Network Data Representation (NDR): Network Data Representation is basically the implementation of the presentation layer in the OSI model, which provides or defines various primitive data types, constructed data types and also several types of data representations.
• External Data Representation (XDR): External Data Representation (XDR) is the standard for the description and encoding of data. It is useful for transferring data between computer architectures and has been used to communicate data between very diverse machines. Converting from local representation to XDR is called encoding, whereas converting XDR into local representation is called decoding.
• Secure Socket Layer (SSL): The Secure Socket Layer protocol provides security to the data that is being transferred between the web browser and the server. SSL encrypts the link between a web server and a browser, which ensures that all data passed between them remains private and free from attacks.

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The presentation layer is the sixth layer of the OSI Reference Model protocol stack, and second from the top. It is different from the other layers in two key respects. First, it has a much more limited and specific function than the other layers; it's actually somewhat easy to describe, hurray! Second, it is used much less often than the other layers; in many types of connections it is not required.

The name of this layer suggests its main function as well: it deals with the presentation of data. More specifically, the presentation layer is charged with taking care of any issues that might arise where data sent from one system needs to be viewed in a different way by the other system. It also takes care of any special processing that must be done to data from the time an application tries to send it until the time it is sent over the network.

Here are some of the specific types of data handling issues that the presentation layer handles:

The reason that the presentation layer is not always used in network communications is that the jobs mentioned above are simply not always needed. Compression and encryption are usually considered “optional”, and translation features are also only needed in certain circumstances. Another reason why the presentation layer is sometimes not mentioned is that its functions may be performed as part of the application layer.

The fact that the translation job done by the presentation layer isn't always needed means that it is common for it to be “skipped” by actual protocol stack implementations. This means that protocols at layer seven may talk directly with those at layer five. Once again, this is part of the reason why all of the functions of layers five through seven may be included together in the same software package, as described in the overview of layers and layer groupings .

Presentation Layer In OSI Model : A Comprehensive Guide

In the vast landscape of computer networks, the OSI (Open Systems Interconnection) model stands as a fundamental framework for understanding how data is transmitted from one device to another. Among its seven layers, the presentation layer holds an important place, acting as a translator and formatter to ensure seamless communication between different systems. Through this article, we will try to know what is presentation layer in OSI model, what is its role in the field of networking and what is its importance.

Table of Contents

What is the Presentation Layer?

The Presentation Layer, within the OSI (Open Systems Interconnection) model, is the sixth layer. It focuses on the representation of data, ensuring that information exchanged between applications is formatted appropriately for transmission and receipt across a network. This layer handles tasks such as data translation, encryption, compression, and formatting. Its primary function is to ensure that data remains readable and understandable by both the sender and receiver, regardless of differences in data formats. In essence, the Presentation Layer acts as a translator and formatter, facilitating seamless communication between different systems and enhancing the reliability and security of data transmission.

Working of Presentation Layer

The Presentation Layer acts like a language translator and document formatter in the OSI model. It takes data from applications and prepares it for transmission over the network by translating it into a language that both the sender and receiver understand. Think of it as converting a letter into a universal format before mailing it overseas. Additionally, the Presentation Layer ensures that the data looks right by formatting it properly, like adjusting the font and spacing in a document. It also adds extra security by encrypting the data if needed, making it like a secret code that only the intended recipient can understand. Lastly, it might shrink the data down to save space during transmission, similar to compressing a file before emailing it. In short, the Presentation Layer makes sure data is ready for its journey across the network, keeping it secure, readable, and efficient along the way.

Functions of the Presentation Layer

• Data Translation : Converting data from the format used by the application into a format suitable for transmission over the network, and vice versa, ensuring interoperability between different systems.
• Encryption and Decryption : Securing data during transmission by encrypting it before sending and decrypting it upon reception, ensuring confidentiality and integrity of the information.
• Data Compression : Reducing the size of data before transmission to optimize bandwidth usage and speed up the transfer process, improving network efficiency.
• Data Formatting: Formatting data according to predefined standards for transmission, including character encoding, data structure, and multimedia representation, ensuring compatibility between sender and receiver applications.
• Protocol Conversion : Adapting data between different network protocols or data formats, facilitating communication between systems with varying requirements or standards.
• Character Code Translation: Converting characters between different character sets or encoding schemes to ensure proper interpretation of text-based data across systems with different language or encoding preferences.

Protocols are Use in Presentation layer

The Presentation Layer primarily focuses on data representation and formatting rather than specific protocols. However, some protocols or standards are commonly associated with the Presentation Layer due to their role in data representation and formatting. Here are a few examples.

• MIME : MIME stands for Multipurpose Internet Mail Extensions. It’s a protocol that broadens the scope of email messages, enabling the use of text in various character sets beyond ASCII. Additionally, MIME facilitates the inclusion of attachments such as audio, video, images, and application programs within emails.
• SSL/TLS : SSL/TLS protocols provide secure communication over a computer network by encrypting data between the client and server, ensuring data confidentiality and integrity. While SSL/TLS operate at the Transport Layer, they often involve encryption and decryption processes associated with the Presentation Layer.
• ASCII (: ASCII and Unicode are character encoding standards that represent text characters using numerical codes. These standards ensure consistent representation of text characters across different systems and platforms, which is crucial for data interchange.
• JPEG, GIF, PNG : These image file formats are commonly used for encoding and transmitting images over networks. While the specifics of image compression and encoding are often handled by the Application Layer, the Presentation Layer ensures proper interpretation and formatting of these image data.
• PDF : PDF is a file format used to present and exchange documents reliably, independent of software, hardware, or operating systems. The Presentation Layer ensures proper interpretation and rendering of PDF documents for display or printing

the Presentation Layer of the OSI Model acts as a translator and formatter, ensuring that data exchanged between applications remains readable and compatible across diverse systems. By handling tasks such as data translation, encryption, compression, and formatting, it enhances the reliability, efficiency, and security of data transmission over networks. Essentially, the Presentation Layer plays a crucial role in facilitating seamless communication between different systems, ensuring that information is accurately represented and securely transmitted, thus contributing to the smooth functioning of modern networking environments.

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• TCP - Protocol
• Introduction to Reference Models
• OSI Model: Physical Layer
• OSI Model: Datalink Layer
• OSI Model: Network Layer
• OSI Model: Transport Layer
• OSI Model: Session Layer
• OSI Model: Presentation Layer
• OSI Model: Application Layer
• The TCP/IP Reference Model
• Difference between OSI and TCP/IP Model
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Presentation Layer

• HTTP Protocol
• FTP Protocol
• SMTP Protocol
• POP Protocol
• SNMP Protocol
• Electronic Mail
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In this tutorial, we will be covering the Presentation layer of the OSI reference model in Computer Networks.

The presentation layer is layer-6 of the OSI reference model . This layer mainly responds to the service requests from the application layer(that is layer-7) and issues the service requests to layer-6 that is (the session layer).

This layer mainly acts as the translator of the network. Another name of the presentation layer is the Syntax layer.

The primary goal of this layer is to take care of the syntax and semantics of the information exchanged between two communicating systems. The presentation layer takes care that the data is sent in such a way that the receiver will understand the information(data) and will be able to use the data. Languages(syntax) can be different between the two communicating systems. Under this condition, the presentation layer plays a role as translator.

In order to make it possible for computers with different data representations to communicate, the data structures to be exchanged can be defined in an abstract way. The presentation layer manages these abstract data structures and allows higher-level data structures(eg: banking records), to be defined and exchanged.

We can say that the presentation layer may represent or encode the data in various ways (like data compression, data encryption). But the receiving device mainly decodes or converts the encoded message into its original form.

For the same data, the sender and receiver must need to agree upon a messaging format that is commonly known as the Presentation format.

Also, the presentation layer is a part of the operating system that mainly converts the data from one presentation format to another presentation format.

Protocols used at the Presentation layer

Given below are some of the protocols used at the presentation layer:

AFP(Apple filling protocol)

Secure Socket Layer(SSL)

FTP(file transfer protocol)

Lightweight Presentation Protocol(LPP)

SSH(Secure shell)

Functions of Presentation Layer

Translation: Before being transmitted, the information in the form of characters and numbers should be changed to bitstreams. The presentation layer is responsible for interoperability between encoding methods as different computers use different encoding methods. It translates data between the formats the network requires and the format of the computer.

Encryption: It carries out encryption at the transmitter and decryption at the receiver.

Compression: It carries out data compression to reduce the bandwidth of the data to be transmitted. The primary role of Data compression is to reduce the number of bits to be 0transmitted. It is important in transmitting multimedia such as audio, video, text, etc.

Design Issues with Presentation Layer

To manage and maintain the Syntax and Semantics of the information transmitted.

Encoding data in a standard agreed-upon way. Eg: String, double, date, etc.

Perform Standard Encoding on the wire.

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