Presentation is loading. Please wait.

Presentation is loading. Please wait.

Network Layer4-1 Network layer r transport segment from sending to receiving host r on sending side encapsulates segments into datagrams r on rcving side,

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Network Layer4-1 Network layer r transport segment from sending to receiving host r on sending side encapsulates segments into datagrams r on rcving side,"— Presentation transcript:

1 Network Layer4-1 Network layer r transport segment from sending to receiving host r on sending side encapsulates segments into datagrams r on rcving side, delivers segments to transport layer r network layer protocols in every host, router r router examines header fields in all IP datagrams passing through it application transport network data link physical application transport network data link physical network data link physical network data link physical network data link physical network data link physical network data link physical network data link physical network data link physical network data link physical network data link physical network data link physical network data link physical

2 Network Layer4-2 Key Network-Layer Function r routing: determine route taken by packets from source to dest. analogy: r Mailing a letter: Process of planning intermediate post offices from source to destination requirement: r Need to know the addresses of the post offices: PIN~10019 r What is the address for computers / routers?

3 Network Layer4-3 The Internet Network layer forwarding table Host, router network layer functions: Routing protocols path selection RIP, OSPF, BGP IP protocol addressing conventions datagram format packet handling conventions ICMP protocol error reporting router “signaling” Transport layer: TCP, UDP Link layer physical layer Network layer

4 Network Layer4-4 IP datagram format ver length 32 bits data (variable length, typically a TCP or UDP segment) 16-bit identifier header checksum time to live 32 bit source IP address IP protocol version number header length (bytes) max number remaining hops (decremented at each router) for fragmentation/ reassembly total datagram length (bytes) upper layer protocol to deliver payload to head. len type of service “type” of data flgs fragment offset upper layer 32 bit destination IP address Options (if any) E.g. timestamp, record route taken, specify list of routers to visit.

5 Network Layer4-5 IP Addressing: introduction r IP address: 32-bit identifier for host, router interface r interface: connection between host/router and physical link m router’s typically have multiple interfaces m host typically has one interface m IP addresses associated with each interface 223.1.1.1 223.1.1.2 223.1.1.3 223.1.1.4 223.1.2.9 223.1.2.2 223.1.2.1 223.1.3.2 223.1.3.1 223.1.3.27 223.1.1.1 = 11011111 00000001 00000001 00000001 223 111

6 Class Handouts… (provided in class) Network Layer4-6

7 Network Layer4-7 Subnets r IP address: m subnet part (high order bits) m host part (low order bits) r What’s a subnet ? m device interfaces with same subnet part of IP address m can physically reach each other without intervening router 223.1.1.1 223.1.1.2 223.1.1.3 223.1.1.4 223.1.2.9 223.1.2.2 223.1.2.1 223.1.3.2 223.1.3.1 223.1.3.27 network consisting of 3 subnets subnet

8 Network Layer4-8 Subnets 223.1.1.0/24 223.1.2.0/24 223.1.3.0/24 Recipe r To determine the subnets, detach each interface from its host or router, creating islands of isolated networks. Each isolated network is called a subnet. Subnet mask: /24

9 Network Layer4-9 IP addressing: CIDR CIDR: Classless InterDomain Routing m subnet portion of address of arbitrary length m address format: a.b.c.d/x, where x is # bits in subnet portion of address 11001000 00010111 00010000 00000000 subnet part host part 200.23.16.0/23

10 Network Layer4-10 DHCP: Dynamic Host Configuration Protocol Goal: allow host to dynamically obtain its IP address from network server when it joins network Can renew its lease on address in use Allows reuse of addresses (only hold address while connected an “on”) Support for mobile users who want to join network (more shortly) DHCP overview: m host broadcasts “DHCP discover” msg [optional] m DHCP server responds with “DHCP offer” msg [optional] m host requests IP address: “DHCP request” msg m DHCP server sends address: “DHCP ack” msg

11 Network Layer4-11 DHCP client-server scenario 223.1.1.1 223.1.1.2 223.1.1.3 223.1.1.4 223.1.2.9 223.1.2.2 223.1.2.1 223.1.3.2 223.1.3.1 223.1.3.27 A B E DHCP server arriving DHCP client needs address in this network

12 Network Layer4-12 DHCP client-server scenario DHCP server: 223.1.2.5 arriving client time DHCP discover src : 0.0.0.0, 68 dest.: 255.255.255.255,67 yiaddr: 0.0.0.0 transaction ID: 654 DHCP offer src: 223.1.2.5, 67 dest: 255.255.255.255, 68 yiaddrr: 223.1.2.4 transaction ID: 654 Lifetime: 3600 secs DHCP request src: 0.0.0.0, 68 dest:: 255.255.255.255, 67 yiaddrr: 223.1.2.4 transaction ID: 655 Lifetime: 3600 secs DHCP ACK src: 223.1.2.5, 67 dest: 255.255.255.255, 68 yiaddrr: 223.1.2.4 transaction ID: 655 Lifetime: 3600 secs

Download ppt "Network Layer4-1 Network layer r transport segment from sending to receiving host r on sending side encapsulates segments into datagrams r on rcving side,"

Similar presentations

Network Layer IP: Internet Protocol –Datagram format –IPv4 addressing –ICMP –IPv6.

Network Layer IP: Internet Protocol –Datagram format –IPv4 addressing –ICMP –IPv6.
Discussion Monday (11-3-2014). ver length 32 bits data (variable length, typically a TCP or UDP segment) 16-bit identifier header checksum time to live.

Discussion Monday ( ). ver length 32 bits data (variable length, typically a TCP or UDP segment) 16-bit identifier header checksum time to live.
CPSC 441 - Network Layer4-1 IP addresses: how to get one? Q: How does a host get IP address? r hard-coded by system admin in a file m Windows: control-panel->network->configuration-

CPSC Network Layer4-1 IP addresses: how to get one? Q: How does a host get IP address? r hard-coded by system admin in a file m Windows: control-panel->network->configuration-
4: Network Layer4a-1 IP Addressing: introduction r IP address: 32-bit identifier for host, router interface r interface: connection between host, router.

4: Network Layer4a-1 IP Addressing: introduction r IP address: 32-bit identifier for host, router interface r interface: connection between host, router.
8-1 Last time □ Network layer ♦ Introduction forwarding vs. routing ♦ Virtual circuit vs. datagram details connection setup, teardown VC# switching forwarding.

8-1 Last time □ Network layer ♦ Introduction forwarding vs. routing ♦ Virtual circuit vs. datagram details connection setup, teardown VC# switching forwarding.
Introduction 1-1 1DT066 Distributed Information System Chapter 4 Network Layer.

Introduction 1-1 1DT066 Distributed Information System Chapter 4 Network Layer.
Introduction 1-1 1DT014/1TT821 Computer Networks I Chapter 4 Network Layer.

Introduction 1-1 1DT014/1TT821 Computer Networks I Chapter 4 Network Layer.
Network Layer 4-1 4.1 introduction 4.2 virtual circuit and datagram networks 4.3 what’s inside a router 4.4 IP: Internet Protocol  datagram format  IPv4.

Network Layer introduction 4.2 virtual circuit and datagram networks 4.3 what’s inside a router 4.4 IP: Internet Protocol  datagram format  IPv4.
IP Address 1. 2 Network layer r Network layer protocols in every host, router r Router examines IP address field in all IP datagrams passing through it.

IP Address 1. 2 Network layer r Network layer protocols in every host, router r Router examines IP address field in all IP datagrams passing through it.
The Network Layer Chapter 5. The IP Protocol The IPv4 (Internet Protocol) header.

The Network Layer Chapter 5. The IP Protocol The IPv4 (Internet Protocol) header.
Chapter 5 The Network Layer.

Chapter 5 The Network Layer.
Rensselaer Polytechnic Institute © Shivkumar Kalvanaraman & © Biplab Sikdar 1 ECSE-4670: Computer Communication Networks (CCN) Network Layer Shivkumar.

Rensselaer Polytechnic Institute © Shivkumar Kalvanaraman & © Biplab Sikdar 1 ECSE-4670: Computer Communication Networks (CCN) Network Layer Shivkumar.
11- IP Network Layer4-1. Network Layer4-2 The Internet Network layer forwarding table Host, router network layer functions: Routing protocols path selection.

11- IP Network Layer4-1. Network Layer4-2 The Internet Network layer forwarding table Host, router network layer functions: Routing protocols path selection.
Network Layer4-1 IP: Internet Protocol r Datagram format r IPv4 addressing r DHCP: Dynamic Host Configuration Protocol r NAT: Network Address Translation.

Network Layer4-1 IP: Internet Protocol r Datagram format r IPv4 addressing r DHCP: Dynamic Host Configuration Protocol r NAT: Network Address Translation.
IP Addressing: introduction

IP Addressing: introduction
IP Address 1. 2 Network layer r Network layer protocols in every host, router r Router examines IP address field in all IP datagrams passing through it.

IP Address 1. 2 Network layer r Network layer protocols in every host, router r Router examines IP address field in all IP datagrams passing through it.
Network Layer4-1 Network layer r transport segment from sending to receiving host r on sending side encapsulates segments into datagrams r on rcving side,

Network Layer4-1 Network layer r transport segment from sending to receiving host r on sending side encapsulates segments into datagrams r on rcving side,
IP-UDP-RTP Computer Networking (In Chap 3, 4, 7) 건국대학교 인터넷미디어공학부 임 창 훈.

IP-UDP-RTP Computer Networking (In Chap 3, 4, 7) 건국대학교 인터넷미디어공학부 임 창 훈.
Chapter 4 Queuing, Datagrams, and Addressing

Chapter 4 Queuing, Datagrams, and Addressing
4: Network Layer4a-1 IP datagram format ver length 32 bits data (variable length, typically a TCP or UDP segment) 16-bit identifier Internet checksum time.

4: Network Layer4a-1 IP datagram format ver length 32 bits data (variable length, typically a TCP or UDP segment) 16-bit identifier Internet checksum time.

Similar presentations

Ads by Google