Section 3: OSI Model

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Decapsulation - Layer 7 Application : OSI Model

Action of removing the encapsulation that was applied. If we move upward from layers 1 to 7, we decapsulate data A protocol data unit is a single unit of information transmitted within a computer network ▪ Layer 1 - bits ▪ Layer 2 - frames ▪ Layer 3 - packets ▪ Layer 4 - segments if TCP or datagrams if UDP

Packet Reordering (Connection Services) : Layer 3: OSI Model

Allows packets to be sent over multiple links and across multiple routes for faster service

Logical Link Control (LLC) - Error Control : Layer 2 Data Link - OSI Model

Allows receiver to let sender know when an expected data frame wasn't received or was corrupted by using a checksum

Windowing - Layer 4 Transport : OSI Model

Allows the clients to adjust the amount of data sent in each segment. Continually adjusts to send more or less data per segment transmitted ● Adjusts lower as number of retransmissions occur ● Adjusts upwards as retransmissions are eliminated

Source MAC Address - Layer 7 Application : OSI Model

Allows the source to find the destination by using this type of addressing

Application services - Layer 7 (Application) : OSI model

Application services unite communicating components from more than one network application Examples: ● File transfers and file sharing ● E-mail ● Remote access ● Network management activities ● Client/server processes

Layer 5 - Session / Setting Up a Session : OSI Model

Check user credentials Assign numbers to session to identify them Negotiate services needed for session Negotiate who begins sending data

transmission control protocol (TCP) - Layer 4 Transport : OSI Model

Connection-oriented protocol that's a Reliable transport of segments ● If segment is dropped, protocol detects it and resends segment. Acknowledgements received for successful communications Used for all network data that needs to be assured to get to its destination

user datagram protocol (UDP) - layer 4 transport : OSI Model

Connectionless protocol that's Unreliable transport of segments across the network ● If dropped, sender is unaware ▪ No retransmission ▪ Good for audio/video streaming ▪ Lower overhead for increased performance

Message Switching (routing) - Layer 3: OSI Model

Data is divided into messages, similar to packet switching, except these messages may be stored then forwarded

Packet Switching (routing) - Layer 3: OSI Model

Data is divided into packets and forwarded Ex - its going to keep switching the packet from place to place until it gets to its final destination. Most networks use this. (home network, small office, and the internet)

Which of the following applies to data as it travels from Layer 1 to Layer 7 of the OSI model? - OSI Model Quiz

De-encapsulation - Data encapsulation and de-encapsulation in a computer network is a necessary process. De-encapsulation in networking is performed at the receiver side or destination side as data moves from layer 1 to layer 7 of the OSI model. As information travels up the layers of the OSI layer, information added from the sender's encapsulation process is removed layer by layer.

Circuit Switching (routing) - Layer 3: OSI Model

Dedicated communication link is established between two devices

Buffering - Layer 4 Transport : OSI Model

Devices, such as routers, allocate memory to store segments if bandwidth isn't readily available ▪ When available, it transmits the contents of the buffer ▪ If the buffer overflows, segments will be dropped

(Broadband) : Layer 1 Physical - OSI Model

Divides bandwidth into separate channels ● Example: Cable TV

Layer 4 Transport : OSI Model

Dividing line between upper and lower layers of the OSI model ▪ Data is sent as segments ▪ TCP/UDP ▪ Windowing ▪ Buffering

Layer 5 - Session / Tear Down a Session : OSI Model

Due to mutual agreement ● After the transfer is done Due to other party disconnecting

Layer 7 Application Devices : OSI Model

E-mail (POP3, IMAP, SMTP) Web Browsing (HTTP, HTTPS) Domain Name Service (DNS) File Transfer Protocol (FTP, FTPS) Remote Access (TELNET, SSH) Simple Network Management Protocol (SNMP)

Time-Division Multiplexing (TDM) -- Limited Network: Layer 1 Physical - OSI Model

Each session takes turns, using time slots, to share the medium between all users

(bits represented on the medium) : Layer 1 Physical - OSI Model

Electrical voltage (copper wiring) or light (fiber optics) represent 1's and 0's (bits) Current State ● If 0 volts, then 0 is represented ● If +/- 5 volts, then 1 is represented Transition Modulation - If it changed during the clock cycle, then a 1 is represented, otherwise, a 0

Examples at Layer 1 - Cables : OSI Model

Ethernet Fiber optic

Data Formatting - Layer 6 Presentation : OSI Model

Formats data for proper compatibility between devices ● ASCII ● GIF ● JPG ▪ Ensures data is readable by receiving system ▪ Provides proper data structures ▪ Negotiates data transfer syntax for the Application Layer (Layer 7)

Network Layer 3: OSI model

Forwards traffic (routing) with logical address - Example: IP Address (IPv4 or IPv6) -- Ex - 172.16.254.1 (IPv4) Logical addressing Switching - which is called routing (which is how we transfer things at the network layer, layer 3) Route discovery and selection Connection services Bandwidth usage Multiplexing strategy

Layer 5 Session Device examples : OSI Model

H.323 - Used to setup, maintain, and tear down a voice/video connection. Operates over the RTP (Real time protocol) / Ex - Skype, FaceTime, YouTube NetBIOS - Used by computers to share files over a network

Layer 6 Presentation Device Examples : OSI Model

HTML, XML, PHP, JavaScript, (scripting) ASCII, EBCDIC, UNICODE, (standard text) GIF, JPG, TIF, SVG, PNG (pictures) MPG, MOV, (movie files) TLS, SSL (encryption algorithms)

Which type of network device operates at layer 1 of the OSI model and requires connected devices to operate at half-duplex using CSMA/CD? - OSI Model Quiz

HUB - A hub is a network hardware device for connecting multiple Ethernet devices together and making them act as a single network segment. A hub operates at the physical layer (Layer 1) of the OSI model. All devices connected by a hub are in a single collision domain and a single broadcast domain, therefore they must use half-duplex for communication and CSMA/CD.

Examples at Layer 1 - Infrastructure Devices : OSI Model

Hubs Wireless Access Points Media Converters

Decapsulation - URG (or urgent) flag / Layer 7 Application : OSI Model

It is like the Push flag and identifies incoming data as "urgent" The main difference is PSH is used by a sender to indicate data with a higher priority level where URG is sent to tell the recipient to process it immediately and ignore anything else in queue

According to the OSI model, at which of the following layers is data encapsulated into a frame? - OSI Model Quiz

Layer 2 - The data layer, or layer 2, is the second layer of the seven-layer OSI model. The data link layer encapsulates data into frames for delivery between nodes on the same network. Data is transmitted at Layers 5, 6, and 7 of the OSI model. At Layer 4, the data is encapsulated into segments. At layer 3, the segments are encapsulated into packets. At layer 2, the packets are encapsulated into frames. At layer 1, the frames are encapsulated into bits

Media Access Control (MAC) - Logical Topology : Layer 2 Data Link - OSI Model

Layer 2 devices view networks logically - Ring, bus, star, mesh, hub-and-spoke

Connection Services - Layer 3: OSI Model

Layer 3 augment Layer 2 to improve reliability

What layer of the OSI model is responsible for data encryption and character set conversion, such as ASCII to UTF-8? - OSI Model Quiz

Layer 6 - The presentation layer (layer 6) establishes the way in which information is presented, typically for display or printing. Data encryption and character set conversion (such as ASCII to EBCDIC) are usually associated with this layer. The presentation layer translates information in a way that the application layer understands. This layer also translates information from the application layer to the session layer.

Logical Link Control (LLC) - Flow Control : Layer 2 Data Link - OSI Model

Limits amount of data sender can send at one time to keep receiver from becoming overwhelmed

Frequency Division Multiplexing (FDM) -- Limited Network) : Layer 1 Physical - OSI Model

Medium is divided into various channels based on frequencies and each session is transmitted over a different channel example - Broadband

Statistical Time-Division Multiplexing (StatTDM) -- Limited Network) : Layer 1 Physical - OSI Model

More efficient version of TDM, it dynamically allocates time slots on an as-needed basis instead of statically assigning

Examples at Layer 2 : Data Link - OSI Model

Network Interface Cards (NIC) Bridges Switches - can use logic to learn which physical ports are attached to which devices based on their MAC addresses. They can send data to specific devices in the network, allowing us to pick up and choose different lines of communication to go to different areas

Synchronous : Layer 2 Data Link - OSI Model

Network devices agree on clocking method to indicate beginning and end of frames Uses control characters or separate timing channel

Asynchronous : Layer 2 Data Link - OSI Model

Network devices reference their own internal clocks and use start/stop bits

Isochronous : Layer 2 Data Link - OSI Model

Network devices use a common reference clock source and create time slots for transmission Less overhead than synchronous or asynchronous

Decapsulation - URG (or urgent) flag -- Checksum / Layer 7 Presentation : OSI Model

Not a mandatory field, but it can be used to provide some validation that the UDP data being sent was received with some level of integrity

Layer 2 - Data Link : OSI Model

Packages data into frames and transmitting those frames on the network, performing error detection/correction, and uniquely identifying network devices with an address (MAC), and flow control ● MAC ● Physical addressing ● Logical topology ● Method of Transmission ● Link Layer Control (LLC) - Connection services - Synchronizing transmissions

Flow Control (Connection Services) : Layer 3: OSI Model

Prevents sender from sending data faster than receiver can get it

Layer 7 Application : OSI Model

Provides application-level services and where the users communicate with the computer ● Not Microsoft Word or Notepad Functions: ● Application services ● Service advertisement

Logical Link Control (LLC) : Layer 2 Data Link - OSI Model

Provides connection services and Acknowledgement of receipt of a message

Layer 6 Presentation : OSI Model

Responsible for formatting the data exchanged and securing that data with proper encryption ▪ Functions ▪ Data formatting ▪ Encryption

Layer 3 Network Device Examples : OSI Model

Routers - Looks like a die icon here ( a circle with four arrows, this is a depiction of what a router looks like in a logical diagram) Multilayer switches - Works like a regular switch and a router combined. Has the features of a layer 2 switch and a layer 3 router in the single device, which is why it's considered a layer 3 device. IPv4 protocol IPv6 protocol Internet Control Message Protocol (ICMP)

Route Discovery and Selection - Layer 3: OSI Model

Routers maintain a routing table to understand how to forward a packet based on destination IP address Manually configured as a static route or dynamically through a routing protocol ● RIP ● OSPF ● EIGRP

Service Advertisement - Layer 7 (Application) : OSI Model

Some applications send out announcements to to other devices on the network to state services they offer on the network Some centrally register with the Active Directory server instead - Example: Printers, File servers

Which network device operates at layer 2? - OSI Model Quiz

Switch - A basic switch operates at layer 2 of the OSI model. For the exam, unless they mention a "multilayer switch" or "layer 3 switch", always assume they are referencing a basic layer 2 switch. A router is a layer 3 device. A repeater is a layer 1 device. A firewall will operate layers 3 through 7, depending on the type of firewall.

Layer 4 Transport Device Examples : OSI Model

TCP UDP WAN Accelerators -Where we try to add compression to our IP packets, and then we send over those segments over through using WAN accelerators to get them through our network faster. Load Balancers Firewalls - Blocking and allowing different protocols and ports to go through them

Decapsulation - SYN (or synchronization) flag / Layer 7 Presentation : OSI Model

The most well-known flag in TCP communications because it is used to synchronize the connection during the three-way handshake

Encapsulation - Layer 7 Presentation : OSI Model

The process of putting headers (and sometimes trailers) around some data. If we move down the OSI layers from 7 to 1, we encapsulate data

Layer 5 - Session : OSI Model

Think of a session as a conversation that must be kept separate from others to prevent intermingling of the data ▪ Setting up sessions ▪ Maintaining sessions ▪ Tearing down sessions

Data Types in the OSI Model

Top Data -- Layers 5 - 7 : Application Layer (7), Presentation (6), Session (5) Segments -- Layer 4: Transport Packets -- Layer 3: Network Frames -- Layer 2: Data Link Bits -- Layer 1: Physical Don't Some People Fear Birthdays Bottom

OSI Model Layers : (OSI Model)

Top Layer 7: Application Layer 6: Presentation Layer 5: Session Layer 4: Transport Layer 3: Network Layer 2: Data Link Layer 1: Physical Please Do Not Throw Sausage Pizza Away Bottom

Layer 5 - Session / Maintaining a Session : OSI Model

Transfer the data Reestablish a disconnected session Acknowledging receipt of data

Layer 1 - Physical: OSI Model

Transmission of bits across the network occurs and includes Physical and electrical network characteristics This is will tell us whether we're using fiber or copper cables, whether Cat5 or Cat6, or if we're using radio frequency in the case of Wi-Fi. Characteristics: ● How bits are represented on the medium ● Wiring standards for connectors and jacks ● Physical topology ● Synchronizing bits ● Bandwidth usage ● Multiplexing strategy

Decapsulation - ACK (or acknowledgement) flag / Layer 7 Presentation : OSI Model

Used during the three-way handshake, but it is also used to acknowledge the successful receipt of packets

Decapsulation - PSH (or PUSH) flag / Layer 7 Presentation : OSI Model

Used to ensure that the data is given priority and is processed at the sending or receiving ends

Decapsulation - URG (or urgent) flag -- Length / Layer 7 Presentation : OSI Model

Used to indicate how many bytes the UDP packet is, including its header and its data

EtherType field - Layer 7 Application : OSI Model

Used to indicate which protocol is encapsulated in the payload of the frame As data moves from layer 7 to layer 1, that data is encapsulated ● At layer 4, we add our source and destination ports ● At layer 3, we add our source and destination IP addresses ● At layer 2, we add our source and destination MAC addresses Once we get to layer 1, we are simply transmitting our layer 2 frames as a series of 1's and 0's over the medium Once that host is found, it will keep decapsulating the information all the way up to layer 7, where its application can read and understand the underlying data

encryption - Layer 6 Presentation : OSI Model

Used to scramble the data in transit to keep it secure from prying eyes and Provides confidentiality of data ▪ Example: TLS to secure data between your PC and website

Internet Control Message Protocol (ICMP) - Layer 3: OSI Model

Used to send error messages and operational information about an IP destination Not regularly used by end-user applications Used in troubleshooting (ping and traceroute)

Decapsulation - FIN (or finished) packet / Layer 7 Presentation : OSI Model

Used to tear down the virtual connections created using the three-way handshake and the SYN flag The FIN flag always appears when the last packets are exchanged between a client and server and the host is ready to shutdown the connection

Decapsulation - RST (or reset) flag / Layer 7 Presentation : OSI Model

Used when a client or server receives a packet that it was not expecting during the current connection

Media Access Control (MAC) - Physical Addressing : Layer 2 Data Link - OSI Model

Uses 48-bit address assigned to a network interface card (NIC) by manufacturer Ex - D2:51:F1:3A:34:65 First 24-bits is the vendor code - D2:51:F1 Second 24-bits is a unique value - 3A:34:65

(Synchronous) : Layer 1 Physical - OSI Model

Uses a reference clock to coordinate the transmissions by both sender and receiver

(Baseband) : Layer 1 Physical - OSI Model

Uses all available frequency on a medium (cable) to transmit data and uses a reference clock to coordinate the transmissions by both sender and receiver ● Example: Ethernet

(Asynchronous) : Layer 1 Physical - OSI Model

Uses start bits and stop bits to indicate when transmissions occur from sender to receiver

Examples at Layer 1 - Radio Frequencies : OSI Model

Wi-Fi Bluetooth

Decapsulation - URG (or urgent) flag -- Source & Destination Ports / Layer 7 Application : OSI Model

are just like the ones used in UDP, they dictate where the data is coming from and where it is going to (layer4)

(How are the cables connected) : Layer 1 Physical - OSI Model

devices view networks from a physical topology perspective ▪ Includes: ● Bus ● Ring ● Star ● Hub-and-Spoke ● Full Mesh ● Partial Mesh

(TIA/EIA-568-B Cable) : Layer 1 Physical - OSI Model

is standard wiring for RJ-45 cables and ports

Destination MAC Address - Layer 7 Application OSI Model

physical address that is used to identify a network card on the local area network

traits of transmission control protocol (TCP) - Layer 4 Transport : OSI Model

reliable connection-oriented segement retransmission and flow control through windowing segment sequencing acknowledge segments

(Straight-thru cables) : Layer 1 Physical - OSI Model

typically use T-568B on both ends, but could use T-568A on both

traits of user datagram protocol (UDP) - layer 4 transport : OSI Model

unreliable connectionless no windowing or retransmission no sequencing no acknowledgement

(Crossover cables) : Layer 1 Physical - OSI Model

use T-568A and T-568B


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