1 12-Jan-16 OSI network layer CCNA Exploration Semester 1 Chapter 5.

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Presentation transcript:

1 12-Jan-16 OSI network layer CCNA Exploration Semester 1 Chapter 5

212-Jan-16 OSI network layer OSI model layer 3 TCP/IP model Internet layer Application Presentation Session Transport Network Data link Physical Application Transport Internet Network Access TCP, UDP IP Ethernet, WAN technologies HTTP, FTP, TFTP, SMTP etc Segment Packet Frame Bits Data stream

312-Jan-16 Network layer topics IP version 4 – the most common layer 3 routed protocol Dividing hosts into groups – why and how Routing – sending packets the right way Routing – how routers learn routes IP addressing – in chapter 6

412-Jan-16 Purpose of layer 3 Decide how to get the data from source to destination, then route it.

512-Jan-16 Layer 3 protocol A layer 3 protocol such as IP version 4 must: Provide an addressing scheme to identify networks and individual hosts Encapsulate a segment from layer 4 into a packet and include addresses Direct the packet across one or many networks to the destination host Decapsulate (remove the packet header) and give the segment to layer 4.

612-Jan-16 Network layer protocols Internet Protocol version 4 (IPv4) – the most common Internet Protocol version 6 (IPv6) – designed to replace version 4 eventually Novell Internetwork Packet Exchange (IPX) AppleTalk Connectionless Network Service (CLNS/DECNet)

712-Jan-16 IP characteristics Designed with low overhead for speed – it does only what it needs to do. Connectionless – does not set up connection with destination before sending packet. Best effort (unreliable) no guarantee of safe delivery, no checking or resending. Independent of media, but does need to know maximum packet size.

812-Jan-16 Network layer encapsulation Segment from transport layer Packet header added to make IP packet Sent to data link layer for further encapsulation into frame

912-Jan-16 IPv4 packet header fields IP address of source host, needed so reply can be sent. IP address of destination host, needed so routers can find route.

1012-Jan-16 IPv4 packet header fields Reduced by 1 at each router. Packet dropped if it goes to 0. TCP or UDP used in Transport layer.

1112-Jan-16 IPv4 packet header fields Priority for QoS. E.g. voice data has higher priority than . For checking if header has been corrupted.

1212-Jan-16 IPv4 packet header fields Shows if packet has been fragmented or must not be fragmented. If router has to split a packet, this gives order for putting pieces together.

1312-Jan-16 IPv4 packet header fields Version 4. Length of whole packet.Header length.

1412-Jan-16 Splitting up networks Fully switched network, each device has its own bandwidth. You could have hundreds of computers. Why split it up? Too large to manage efficiently Too much broadcast traffic - congestion Too many addresses for switches to remember Lack of security

1512-Jan-16 How to split the network Geographically – different sites Purpose – what software and shared resources do people use? How much bandwidth do they use? Ownership – different companies or departments in a company, security requirements

1612-Jan-16 Use a router Limits broadcasts Can provide security Addressing scheme based on networks - hierarchical

1712-Jan-16 IPv4 hierarchical address 32 bits in four 8-bit octets, written in decimal Network part then host part Here network part (prefix) is 24 bits /24 Length of network part can vary.

1812-Jan-16 Message to same network

1912-Jan-16 Message to different network

2012-Jan-16 Default gateway Each PC is configured with an IP address and a default gateway. The default gateway is the IP address of a router port on the same network as the PC. It is the router’s job to handle messages to other networks. Each router port is on a different network and has a different IP address.

2112-Jan-16 Hops A packet may pass through many routers on its journey. The trip from one router to the next is called a hop and the next router is called the next hop router. Each router looks at the IP address in the packet header and decides what to do with the packet next.

2212-Jan-16 Routing table and forwarding Each router has a routing table. This contains a list of known networks and the best way to get there – outgoing port and address of next- hop router. The router looks at the IP address of a packet. It decides which network this address is on. If it knows the network it forwards the packet. If it does not know the network it drops the packet.

2312-Jan-16 Directly connected The networks of the router’s own interfaces go into the routing table.

2412-Jan-16 Other networks Routes to other networks can be configured by an administrator (static routes) Or they can be learned from another router using a routing protocol (dynamic routes) A router can have a default route. Packets for unknown networks go on this route instead of being dropped.

2512-Jan-16 Routing table entries Directly connected shown by C

2612-Jan-16 Routing table entries Static, configured by administrator, shown by S

2712-Jan-16 Routing table entries Default, configured by administrator, shown by S*

2812-Jan-16 Routing table entries Learned from another router using RIP routing protocol, shown by R

2912-Jan-16 Router has a route

3012-Jan-16 Routing protocols Routers learn routes from each other and put them in their routing tables. A routing protocol is the set of rules they use to swap information. These routes are dynamic routes

3112-Jan-16 Static routes Dynamic routes Entered by administrator Time consuming, different for each router Must be updated if routes change Little processing No bandwidth used Gives nothing away Learned from other routers Start the protocol then it runs by itself Automatically updates when routes change More processing Uses bandwidth Gives away information

32 12-Jan-16 The End