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== Easy Breakdown by Layer ==
== Easy Breakdown by Layer ==


This section gives a simplified explanation of each OSI layer and its function in the network stack. Each layer builds on the one below it, and together they define how data moves from one device to another.
Each layer in the OSI model has a specific role. Together, they describe how data moves across a network — from your device to another system, step by step.




=== Layer 1 – Physical ===   
=== Layer 1 – Physical ===   


Responsible for the actual transmission of bits over a medium.   
Moves raw bits (0s and 1s) over cables or air.   


Covers physical components like voltage levels, timing, connectors, and media types.   
Involves physical elements like Ethernet cables, fiber optics, and Wi-Fi signals.   
Defines how 0s and 1s are converted into signals and sent.
 
Example: When you plug in a network cable or connect to Wi-Fi, Layer 1 is active.




=== Layer 2 – Data Link ===   
=== Layer 2 – Data Link ===   


Ensures that data is correctly delivered between two devices on the same network.   
Connects devices on the same local network
 
Uses MAC addresses to make sure data reaches the right device.   


Handles addressing at the hardware level and controls access to the transmission medium. 
Example: Your router sends a frame to your laptop using its MAC address.
Detects and may correct errors that occurred at the physical layer.




=== Layer 3 – Network ===   
=== Layer 3 – Network ===   


Enables communication between devices across different networks.   
Routes data between networks
 
Uses IP addresses to find the best path for packets.   


Provides logical addressing and determines the best route for data. 
Example: Sending a ping to a website shows Layer 3 in action.
Handles packet forwarding and fragmentation.




=== Layer 4 – Transport ===   
=== Layer 4 – Transport ===   


Manages reliable or fast delivery of data across a connection.   
Ensures complete delivery of data.   


Splits data into segments and reassembles it on arrival.   
Splits information into segments and reassembles them correctly.   
Handles flow control and error correction for end-to-end communication.
 
Example: TCP guarantees a webpage loads fully, UDP is used for faster but less reliable connections like video calls.




=== Layer 5 – Session ===   
=== Layer 5 – Session ===   


Establishes and maintains sessions between devices.   
Manages the start, duration, and end of communication sessions.   


Coordinates when communication starts, how long it lasts, and how it is terminated.   
Keeps track of active connections between systems.   
Useful when multiple streams or long-lasting connections are needed.
 
Example: Maintaining a stable connection while using SSH or video conferencing.




=== Layer 6 – Presentation ===   
=== Layer 6 – Presentation ===   


Transforms data into formats the receiving system can understand.   
Makes data readable and secure.   


Handles translation between data types, encryption, and compression.   
Handles file formats, encryption, and compression.   
Ensures consistency in how data is interpreted across different systems.
 
Example: TLS secures your connection when using HTTPS, and JPEG ensures images display correctly.




=== Layer 7 – Application ===   
=== Layer 7 – Application ===   


Provides services that allow software to interact with the network.   
Connects software to the network. 
 
Defines how user-facing programs communicate over the network. Often includes a graphical user interface (GUI) for interacting with network services.   


Manages how user-facing programs access and use network resources. 
Example: Opening a website in a browser (HTTP), sending an email from an app (SMTP), or resolving a domain name using DNS.
Defines network operations at the highest level, including authentication and data exchange.


== What You Can Do with It ==
== What You Can Do with It ==

Latest revision as of 17:59, 7 June 2025

OSI Model[edit | edit source]

The OSI model explains how data travels through a network. It splits this process into **seven layers**. Each layer has its own job — from moving raw bits to showing a website.

Understanding the OSI model helps break down complex systems, and shows where tools, attacks, or failures happen.

OSI Layer Overview[edit | edit source]

The OSI model goes from Layer 1 (bottom) to Layer 7 (top). Each layer depends on the functionality of the ones above and below it. Knowing what happens at each layer helps in analyzing protocols, spotting weaknesses, and understanding where specific tools operate.

Layer Number What it does Common Examples
Application 7 Interfaces with user applications and defines network services HTTP, HTTPS, DNS, FTP, SMTP, IMAP, SSH, Telnet
Presentation 6 Translates, encrypts, and compresses data for the application layer TLS/SSL, ASCII, JPEG, MPEG, GZIP, Base64
Session 5 Manages and maintains sessions between systems NetBIOS, RPC, SMB, PPTP, SOCKS
Transport 4 Provides reliable or fast delivery of data streams TCP, UDP, SCTP, QUIC
Network 3 Handles routing and logical addressing across networks IP, ICMP, IGMP, IPsec, BGP, OSPF
Data Link 2 Transfers frames between directly connected devices using MAC addressing Ethernet, ARP, PPP, VLAN (802.1Q), LLDP
Physical 1 Moves electrical or optical signals across physical media Ethernet (cabling), Wi-Fi (802.11), fiber optics, hubs, radio signals

Easy Breakdown by Layer[edit | edit source]

Each layer in the OSI model has a specific role. Together, they describe how data moves across a network — from your device to another system, step by step.


Layer 1 – Physical[edit | edit source]

Moves raw bits (0s and 1s) over cables or air.

Involves physical elements like Ethernet cables, fiber optics, and Wi-Fi signals.

Example: When you plug in a network cable or connect to Wi-Fi, Layer 1 is active.


Layer 2 – Data Link[edit | edit source]

Connects devices on the same local network.

Uses MAC addresses to make sure data reaches the right device.

Example: Your router sends a frame to your laptop using its MAC address.


Layer 3 – Network[edit | edit source]

Routes data between networks.

Uses IP addresses to find the best path for packets.

Example: Sending a ping to a website shows Layer 3 in action.


Layer 4 – Transport[edit | edit source]

Ensures complete delivery of data.

Splits information into segments and reassembles them correctly.

Example: TCP guarantees a webpage loads fully, UDP is used for faster but less reliable connections like video calls.


Layer 5 – Session[edit | edit source]

Manages the start, duration, and end of communication sessions.

Keeps track of active connections between systems.

Example: Maintaining a stable connection while using SSH or video conferencing.


Layer 6 – Presentation[edit | edit source]

Makes data readable and secure.

Handles file formats, encryption, and compression.

Example: TLS secures your connection when using HTTPS, and JPEG ensures images display correctly.


Layer 7 – Application[edit | edit source]

Connects software to the network.

Defines how user-facing programs communicate over the network. Often includes a graphical user interface (GUI) for interacting with network services.

Example: Opening a website in a browser (HTTP), sending an email from an app (SMTP), or resolving a domain name using DNS.

What You Can Do with It[edit | edit source]

Understanding the OSI layers helps you:

  • Know where a tool or attack operates
  • Analyze traffic at the right level
  • Identify weak points or misconfigurations
  • Work smarter with packet captures, scans, or payloads

Protocols by Layer[edit | edit source]

Layer Number Function Summary Common Protocols
Application 7 Interfaces with apps like browsers and mail HTTP, FTP, DNS, SMTP
Presentation 6 Formats, encrypts, and compresses data TLS/SSL, Base64, JPEG
Session 5 Manages connections and sessions NetBIOS, PPTP, SMB
Transport 4 Ensures reliable or fast delivery TCP, UDP
Network 3 Routes packets between networks IP, ICMP, IPsec
Data Link 2 Sends frames on the local network Ethernet, ARP
Physical 1 Transfers raw bits via cables or air Wi-Fi (802.11), Ethernet (cabling)

See Also[edit | edit source]

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