Showing posts with label NAT. Show all posts
Showing posts with label NAT. Show all posts

Monday, July 13, 2026

IP Addressing, IPv4, IPv6 & Subnetting | A/L ICT Chapter 06 Complete guide to Internet Protocol (IP) for Sri Lankan A/L ICT. Covers IPv4 Classes, Subnet Masks, CIDR, DHCP (DORA), NAT, IPv6, DNS, ARP & Routing

🌐 Internet Protocol (IP) Masterclass

A/L ICT Chapter 06 | Data Communication & Networking

📚 About this guide: Complete theory guide for the Internet Protocol (IP) covering IPv4 Addressing, Classes, Subnet Masks, CIDR, DHCP (DORA), NAT, IPv6, DNS, ARP, and Routing. Designed specifically for the Sri Lankan G.C.E. Advanced Level ICT syllabus with simple explanations, real-world examples, and exam tips!
Concept 1

What is an IP Address?

Theory: A unique logical address assigned to every device on an IP network. It allows devices to identify each other and communicate.

Example: Just like your house has a postal address (No. 25, Main Street) for the post office, a computer has an IP (e.g., 192.168.1.20) for routers to deliver data.

Concept 2

IPv4 Structure (32-bit)

Theory: IPv4 is a 32-bit logical address divided into 4 equal parts called octets (8 bits each). Each octet ranges from 0 to 255 in decimal.

192 . 168 . 10 . 25
│      │     │    │
Oct1  Oct2  Oct3 Oct4

Binary: 11000000.10101000.00001010.00011001

Concept 3

Network ID vs Host ID

Network ID: Identifies the specific network (like the street name). All devices on the same LAN share this.

Host ID: Identifies the individual device (like the house number).

Example: In 192.168.1.20, if the network is 192.168.1, then the Host ID is 20.

Concept 4

Rules for Valid IPv4

  • Must contain exactly four octets.
  • Each octet must be between 0 and 255.
  • Must be unique within the same network (otherwise, IP conflict occurs).
Concept 5

Special IPv4 Addresses

  • Network Address: Host ID is all 0s (e.g., 192.168.1.0). Represents the network itself.
  • Broadcast Address: Host ID is all 1s (e.g., 192.168.1.255). Sends data to all devices.
  • Loopback: 127.0.0.1. Used to test the local TCP/IP stack.
  • Unspecified: 0.0.0.0. Represents an unknown address during startup.
Concept 6

Types of Communication

  • Unicast: One-to-One (e.g., Sending an email).
  • Broadcast: One-to-All (e.g., ARP request in a LAN).
  • Multicast: One-to-Many/Selected Group (e.g., Live online lecture).
Concept 7

IPv4 Address Classes

Class1st OctetDefault MaskUse
A1 – 126255.0.0.0 (/8)Large Networks
B128 – 191255.255.0.0 (/16)Medium Networks
C192 – 223255.255.255.0 (/24)Small Networks
D224 – 239N/AMulticast
E240 – 255N/AExperimental
Concept 8

Subnet Mask & CIDR

Theory: A 32-bit number that separates the Network ID (1s) from the Host ID (0s).

CIDR Notation: A shorter way to write the mask by counting the 1s.

  • 255.0.0.0 = /8 (8 ones)
  • 255.255.0.0 = /16 (16 ones)
  • 255.255.255.0 = /24 (24 ones)
Concept 9

Public vs Private IP

Public IP: Globally unique, assigned by ISP, accessible on the Internet.

Private IP: Used only inside a LAN. Cannot be routed on the Internet.

Private Ranges:

  • Class A: 10.0.0.0 to 10.255.255.255
  • Class B: 172.16.0.0 to 172.31.255.255
  • Class C: 192.168.0.0 to 192.168.255.255
Concept 10

Static vs Dynamic & DHCP (DORA)

Static IP: Manually configured, permanent (used for servers).

Dynamic IP: Automatically assigned by a DHCP server.

DHCP DORA Process:

  • D - Discover: Client broadcasts looking for a DHCP server.
  • O - Offer: Server offers an available IP.
  • R - Request: Client requests to use that IP.
  • A - Acknowledge: Server confirms and finalizes the lease.
Concept 11

NAT (Network Address Translation)

Theory: Translates multiple Private IPs inside a LAN into a single Public IP for Internet access. Conserves public IPv4 addresses and adds security by hiding internal IPs.

Concept 12

IPv6 Structure

Theory: Uses 128-bit addresses divided into 8 groups of 16 bits, written in Hexadecimal and separated by colons (:).

Example: 2001:0db8:85a3:0000:0000:8a2e:0370:7334

Simplification Rules:

  • Remove leading zeros: 0db8db8
  • Replace continuous zeros with :: (only once): 2001:db8::1
Concept 13

IPv4 vs IPv6 Comparison

FeatureIPv4IPv6
Size32-bit128-bit
FormatDecimalHexadecimal
Addresses~4.3 BillionVirtually Unlimited
SecurityOptionalBuilt-in (IPsec)
ConfigurationManual/DHCPAuto-configuration
Concept 14

Routing, Gateway & TTL

Router: Connects different networks and forwards packets based on IP addresses using a Routing Table.

Default Gateway: The router's IP that a device uses to communicate with outside networks (e.g., the Internet).

TTL (Time To Live): A value in the IP header that decreases by 1 at each router. Prevents packets from looping endlessly. Discarded when it reaches 0.

Concept 15

DNS, ARP & ICMP

  • DNS (Domain Name System): Resolves human-friendly domain names (www.google.com) into IP addresses.
  • ARP (Address Resolution Protocol): Maps a known IP address to an unknown MAC address within a local LAN.
  • ICMP: Used for error reporting and diagnostics. Tools include Ping (tests reachability) and Traceroute (shows the path taken).
Concept 16

Complete IP Communication Journey

Example: Opening www.google.com

  • 1. DNS: Browser asks DNS for Google's IP.
  • 2. TCP: Connection established with the server.
  • 3. IP Packet: Source/Dest IPs added.
  • 4. ARP: Finds the MAC address of the Default Gateway.
  • 5. Routing: Routers forward the packet across the Internet.
  • 6. Response: Google server sends data back.

Important A/L Short Questions

Q: What is an IP address?

A: A unique logical address assigned to a device for identification and communication over an IP network.

Q: State two differences between IPv4 and IPv6.

A: 1) IPv4 uses 32-bit addresses (decimal), while IPv6 uses 128-bit addresses (hexadecimal). 2) IPv6 has built-in security, whereas it is optional in IPv4.

Q: What is the purpose of ARP?

A: ARP (Address Resolution Protocol) is used to find the physical MAC address corresponding to a known IP address within a local network.

Q: What is the function of TTL?

A: TTL (Time To Live) prevents packets from travelling indefinitely in a network by discarding them when the TTL counter reaches zero.

💡 A/L Exam Memory Sheet:
🌐 IP → Logical addressing + Routing
🏠 DNS → Domain name → IP address
🔗 ARP → IP address → MAC address
📢 DHCP → Automatic IP assignment (DORA)
🎭 NAT → Private IP ↔ Public IP translation
🛡️ ICMP → Error reporting + Ping/Traceroute

❓ Frequently Asked Questions (FAQ)

Q: What is an IP Address and why is it needed? A: An IP (Internet Protocol) address is a unique logical address assigned to every device on a network. It is needed to uniquely identify devices, allow routers to determine where to send data, and enable communication across networks and the Internet.
Q: What is the difference between a Public IP and a Private IP? A: A Public IP is globally unique, assigned by an ISP, and accessible directly over the Internet. A Private IP is used only within a local network (LAN), is not accessible directly from the Internet, and can be reused across different private networks.
Q: What is the DHCP DORA process? A: DORA is the process DHCP uses to assign dynamic IP addresses: Discover (client broadcasts for a server), Offer (server offers an IP), Request (client requests the offered IP), and Acknowledge (server confirms the assignment).
Q: What is the difference between IPv4 and IPv6? A: IPv4 uses 32-bit addresses (decimal format, ~4.3 billion addresses) while IPv6 uses 128-bit addresses (hexadecimal format, virtually unlimited addresses). IPv6 also has built-in security and better routing efficiency.
Q: What is the purpose of ARP and DNS? A: DNS (Domain Name System) converts human-readable domain names (like www.google.com) into IP addresses. ARP (Address Resolution Protocol) converts known IP addresses into physical MAC addresses within a local network.