CCNA ppt Day 2
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Transcript of CCNA ppt Day 2
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OSI Model
To address the problem of networks increasing in size and in number, the International Organization for Standardization (ISO) researched many network schemes and recognized that there was a need to create a network model
This would help network builders implement networks that could communicate and work together
ISO therefore, released the OSI reference model in 1984.
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Open System Interconnect (OSI)
7 Application6 Presentation5 Session4 Transport3 Network2 Data Link1 Physical
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Layer 7- Application layer
7 Application
6 Presentation
5 Session
4 Transport
3 Network
2 Data Link
1 Physical
• User Interaction Layer• Opens applications such as MS –word,
excel, PowerPoint, etc. and networking applications.
• PDU (Protocol Data Unit) is in the form of Data
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Layer- Presentation Layer
7 Application
6 Presentation
5 Session
4 Transport
3 Network
2 Data Link
1 Physical
• This layer gives file extension.• E.g.- .ppt, .doc, .docx• Encryption, decryption,
compression, decompression are done in this layer
• PDU is in Formatted data
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Layer- 5 Session Layer
7 Application
6 Presentation
5 Session
4 Transport
3 Network
2 Data Link
1 Physical
• This layer establishes, manages, and terminates sessions between two communicating hosts.
• Offers three modes of communication1. Simplex2. Half duplex3. Full duplex• PDU is in Formatted Data
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Communication types
Simplex
One way communication that is either send or receive
E.g.- Pager
Half duplex
Two way communication, but either one at a time.
E.g.- Walky talky
Full duplex
Two way communication, both at one time.
E.g.- Telephone
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Layer- 4 Transport Layer
7 Application
6 Presentation
5 Session
4 Transport
3 Network
2 Data Link
1 Physical
• This layer breaks up the data from the sending host and then reassembles it in the receiver.
• It also is used to insure reliable data transport across the network.
• Can be reliable or unreliable• Sequencing• Acknowledgment• Retransmission• Flow Control• PDU is in Data segments
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Layer- 3 Network Layer
7 Application
6 Presentation
5 Session
4 Transport
3 Network
2 Data Link
1 Physical
• Sometimes referred to as the “Cisco Layer”.
• Provide logical addressing that routers use for path determination
• Segments are encapsulated• Error Correction• Packet forwarding• Packet Filtering• Makes “Best Path Determination”• Fragmentation• PDU is in Data Packets
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Layer- 2 Data Link Layer
7 Application
6 Presentation
5 Session
4 Transport
3 Network
2 Data Link
1 Physical
• Performs Physical Addressing• This layer provides reliable transit of data
across a physical link.• Combines bits into bytes and
bytes into frames• Access to media using MAC address• Error detection, not correction• LLC and MAC• Logical Link Control performs Link
establishment• MAC Performs Access method• PDU is in Data Frames
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Layer- 1 Physical Layer
7 Application
6 Presentation
5 Session
4 Transport
3 Network
2 Data Link
1 Physical
• This is the physical media through which the data, represented as electronic signals, is sent from the source host to the destination host.
• Move bits between devices• Encoding
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Data Encapsulation & Decapsulation The process of converting Data into Bits and Bytes is called
Encapsulation
The process of converting Bits and Bytes into Data is called Decapsulation
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Layer 1 Devices- Cables and Connectors Layer 2 Devices- Hub, Switch, NIC, Bridge Layer 3 Devices- Router (Also known as CISCO
layers)
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Collision Domain
Collision Domain is the place where collision occurs.
Hub is a single Collision Domain.
In the case of a Switch each port in a switch is a single Collision Domain
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Broadcast Domain
The maximum area in which the broadcast travels is called Broadcast Domain
Hub and Switch are single Broadcast Domains.
Router will not forward either Collision domains or Broadcast Domains.
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Types of transmission
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DOD Model or TCP/IP Model
Although the OSI reference model is universally recognized, the historical and technical open standard of the Internet is Transmission Control Protocol / Internet Protocol (TCP/IP).
The TCP/IP reference model and the TCP/IP protocol stack make data communication possible between any two computers, anywhere in the world, at nearly the speed of light.
The U.S. Department of Defense (DoD) created the TCP/IP reference model because it wanted a network that could survive any conditions, even a nuclear war.
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5 Layers
Application
Presentation
Session
Transport
Network
Data-Link
Physical
Application
Transport
Internet
Data-Link
Physical
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Application Layer
*Used by the Router
Application
Transport
Internet
Data-Link
Physical
File Transfer- TFTP*- FTP*- NFS
E-Mail- SMTP
Remote Login- Telnet*- rlogin*
Network Management- SNMP*
Name Management- DNS*
File Transfer- TFTP*- FTP*- NFS
E-Mail- SMTP
Remote Login- Telnet*- rlogin*
Network Management- SNMP*
Name Management- DNS*
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Transport Layer
Transmission ControlProtocol (TCP)
User Datagram Protocol (UDP)
Transmission ControlProtocol (TCP)
User Datagram Protocol (UDP)
Application
Transport
Internet
Data-Link
Physical
Connection-Oriented
Connectionless
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TCP Port Numbers
Exit or entry layer from one application
to another are called port numbers.
1- 64711 are well known port numbers
64712- 65535 are unknown
TCP
FTP
TELNET
DNS
SNMP
TFTP
SMTP
UDP
2121 2323 2525 5353 6969 161161
RIP
520520
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TCP Three way Hand Shake
Send SYN (seq = 100 ctl = SYN)
SYN Received
Established(seq = 101 ack = 301 ctl = ack)
Host A Host B
1
2
3
SYN Received
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Windowing
Windowing in networking means the quantity of data segments which is measured in bytes that a machine can transmit/send on the network without receiving an acknowledgement
There are two window sizes—one set to 1 and one set to 3.
When you’ve configured a window size of 1, the sending machine waits for an acknowledgment for each data segment it transmits before transmitting another
If you’ve configured a window size of 3, it’s allowed to transmit three data segments before an acknowledgment is received.
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Flow Control
Another function of the transport layer is to provide optional flow control.
Flow control is used to ensure that networking devices don’t send too much information to the destination, overflowing its receiving buffer space, and causing it to drop the sent information
The purpose of flow control is to ensure the destination doesn't get overrun by too much information sent by the source
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SEQ 1024
SEQ 2048
SEQ 3072
AB
30723
Ack 3073 Win 0
Ack 3073 Win 3072
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UDP (User Datagram Protocol) User Datagram Protocol (UDP) is the connectionless transport protocol in the
TCP/IP protocol stack.
UDP is a simple protocol that exchanges datagrams, without acknowledgments or guaranteed delivery. Error processing and retransmission must be handled by higher layer protocols.
UDP is designed for applications that do not need to put sequences of segments together.
The protocols that use UDP include:
1. TFTP (Trivial File Transfer Protocol)
2. SNMP (Simple Network Management Protocol)
3. DHCP (Dynamic Host Control Protocol)
4. DNS (Domain Name System)
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TCP vs. UDP
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Internet Layer
Internet Protocol (IP)
Internet Control MessageProtocol (ICMP)
Address ResolutionProtocol (ARP)
Reverse AddressResolution Protocol (RARP)
Internet Protocol (IP)
Internet Control MessageProtocol (ICMP)
Address ResolutionProtocol (ARP)
Reverse AddressResolution Protocol (RARP)
Application
Transport
Internet
Data-Link
Physical
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Connectivity Protocols
IP- Used for IP addressing
ICMP- Used to check internet connectivity
ARP- Resolves MAC address from IP
RARP- Resolves IP from MAC address