A Pass grade assignment in cyber security. This exercise presents a report on how to connect IP addresses, connection methods to routers, switches, and dynamic static IP addresses to help better understand the network system.
ASSIGNMENT FRONT SHEET Qualification BTEC Level HND Diploma in Computing Unit number and title Unit 2: Networking Infrastructure Submission date 16/12/2022 Date Received 1st submission Re-submission Date 16/12/2022 Date Received 2nd submission Student Name Tran Duc Long Student ID Class GCH1106 Assessor name GCH210562 Michael Omar Student declaration I certify that the assignment submission is entirely my own work and I fully understand the consequences of plagiarism I understand that making a false declaration is a form of malpractice Student’s signature Grading grid P5 P6 P7 P8 M3 M4 D2 D3 2.1 Summative Feedback: Resubmission Feedback: 3.1 Grade: Assessor Signature: Date: Table of Contents A.Introduction B Task - Provide a logical/physical design of the networked system with clear explanation and addressing table (P5): Explain the difference between logical and physical design Discuss and explain the user requirements for general network design Provide a logical design of the network based on the specific requirements of the user Provide a physical design of this network based on the specific requirements of the user The address table of the network devices used in the design above C Task - Evaluate the design to meet the requirements (P6) Test plan: Evaluate network design -Benefits: - Drawback: - Conclusion: 10 D Task 2.1 - Install and configure network services and applications on your choice (M3) 10 Configure DHCP services 10 E Task - Implement a networked system based on a prepared design (P7) 14 Network Implementation 14 Diagrams: 32 F Task - Document and analyse test results against expected results (P8) 35 Implementation process 35 Document 36 Test result 37 G Task 1- Recommend potential enhancements for the networked systems 40 H Task 1.1 Use critical reflection to evaluate own work and justify valid conclusions 41 I Conclusion 42 K Reference 42 5.1 Table of Figure Figure 1: Physical Topology Figure 2:Logical Topology Figure 3: Logical design Figure 4:Physical design Figure 5: Router Fa0/0 15 Figure 6: Router S2/0 16 Figure 7: Router Fa0/0 17 Figure 8: Router fa1/0 18 Figure 9:Router S2/0 19 Figure 10: Router Fa6/0 20 Figure 11:DHCP1 IP address 21 Figure 12: HTTP IP address 22 Figure 13:DNS IP address 23 Figure 14: DHCP2 IP address 24 Figure 15: Salemans IP address 25 Figure 16: Manager IP address 26 Figure 17:IT2 IP address 27 Figure 18: Customers IP address 28 Figure 19:IT1 IP address 29 Figure 20: IT IP address 30 Figure 21: Customer1 IP address 31 Figure 22:Customer2 IP address 32 Figure 23: Ground floor 33 Figure 24: First Floor 34 Figure 25: Second Floor 34 Figure 26: Overview 35 A.Introduction The logical and physical designs will be introduced and compared in this project The major topic presented and described is the customer's network design needs It's a system for a local educational institution that includes 50 lab computers, 35 staff PCs, and three printers, all of which have dynamic IP addresses A logical design, as well as a physical design and an IP address table, will be delivered in response to that request Following the creation of a test plan and the evaluation of this network system, a solution to solve the limitations will be provided The network design process, as well as the overall device results table, will be shown Finally, provide the testing findings and compare them to the customer's initial request B Task - Provide a logical/physical design of the networked system with clear explanation and addressing table (P5): 6.1 Explain the difference between logical and physical design - What is the difference between logical and physical network diagrams? Logical network diagrams are concerned with how traffic moves throughout the network, IP addresses, admin domains, domain routing, control points, and so on A physical network diagram should depict the network architecture precisely as it is: with all of the devices and their connections The physical signaling medium of a network (often a LAN) consists of devices, locations, and cables Figure 1: Physical Topology Logical network topology: refers to the manner in which data moves via a network between devices (computers, phones, etc.); it is independent of the physical connection The data channel in the circuit travels logistically Figure 2:Logical Topology - What is the difference between a logical connection and a physical connection? A logical network arrangement is the communication strategy that connects two networked computers A logical arrangement is the flow of data between two systems In reality, the network connection is defined by the network's logical design The physical arrangement is configured using logical scheduling Logical networking may be improved and utilized to link two or more machines The virtual network design is logical, while the physical network design specifies the operation of the network hardware Physical designs govern the flow of data or communication between two networks, whereas logical designs control the flow of data or communication between two computers connected by a cable Discuss and explain the user requirements for general network design User needs (as stated in the report): As we can see, I have designed the requirements with three floors: the ground floor, first floor, and second floor For specifically, I will introduce each floor below: Ground Floor: There will be 33 people on the first floor, including 15 salesmans, 12 employees, managers and IT, so I decided to use switches with 24 ports, room for salesmans and managers, and room for it and the employees I installed a router in case some guests come over and use their equipment Also, I set up printers so that salesmans, employee and managers can easily use them, and they are on the same VLAN as the PCs The bottom VLAN It can ping the It room on the first floor First floor: On the first floor, I designed an IT laboratory, a laboratory where customers learn about computers, and a waiting room that already has routers for guests I have 20 PCs set up for customers in a customer lab So I chose the underlying 24-port switch From ports to 22, I created a VLAN customer to help the customer's lab ping the other labs on the second floor The remaining ports I created VLANs for it and the router Second floor: Customer PC room, equipped with 31 PCs and routers, convenient for customers and IT to study and connect easily The customer VLAN helps the student labs and IT employees ping each other as well as the labs on the first floor On the first level, I installed a router to link the network and a multiplayer switch This switch is more powerful and efficient than others, and it can link three LAN networks Provide a logical design of the network based on the specific requirements of the user Figure 3: Logical design Provide a physical design of this network based on the specific requirements of the user Figure 4:Physical design The address table of the network devices used in the design above Device Interface IP R1 Fa0/0 Serial2/0 Fa0/0 Fa1/0 Fa6/0 Serial2/0 NIC NIC NIC NIC 192.168.10.1 10.0.1.1 192.168.20.1 192.168.60.3 192.168.30.2 10.0.1.2 192.168.30.1 192.168.60.30 192.168.10.2 192.168.20.2 R2 DNS HTTP DHCP1 DHCP2 Default Gateway 192.168.20.1 192.168.40.3 192.168.10.1 192.168.20.1 Subnet mask DNS server 255.255.255.0 255.255.255.0 255.255.255.0 255.255.255.0 255.255.255.0 255.255.255.0 255.255.255.0 255.255.255.0 255.255.255.0 255.255.255.0 192.168.10.2 192.168.10.2 192.168.10.2 192.168.10.2 Ground Floor PC salesmans PC IT2 PC manager PC employees Printer salesmans Printer managers Printer employees DHCP DHCP DHCP F0 F0 F0 F0 PC customers PC IT1 DHCP DHCP PC customer1 PC customer2 DHCP DHCP 192.168.10.1 192.168.10.2 192.168.10.1 First Floor 192.168.10.2 192.168.10.2 192.168.10.2 Second Floor C Task - Evaluate the design to meet the requirements (P6) Test plan: Activity Ping salesmans PCs to Printer salesmans Expected Reason Successful Same