CCNA Project 1 ASSESSMENT INSTRUCTIONS This project forms the compulsory part of the competency assessment for this course. You must successfully attempt and complete all the tasks for this project before you are judged as competent for this project assessment. The activities in this project conform to the elements for these units standards:  ICTNWK507 Install, operate and troubleshoot medium enterprise routers  ICTNWK508 Install, operate and troubleshoot medium enterprise switches  ICTTEN6206A Produce an ICT network architecture design This is an assessment – instructors are not allowed to help you with these tasks but can provide advice. If you find that you're stuck, return to an earlier activity that requires the same skills, and if required, request assistance with that activity. Then transfer that knowledge to this competency. If you have not met the minimum required standard by completing all tasks, the assessor will not sign the project off – you will be asked to re-submit the project for marking and sign-off again. The main objective of this project assessment is to test your understanding in a practical way of some of the concepts and skills you have learnt throughout the course and to assess that you meet the competencies of the elements from the unit standard as follows: ICTNWK507 - Install, operate and troubleshoot medium enterprise routers The performance criteria/learning outcomes are:  Element 1 - Prepare to install a medium enterprise router  Element 2 - Configure basic router operation  Element 3 - Configure and verify dynamic classless routing protocols  Element 4 – Applying sound troubleshooting processes to determine network connectivity ICTNWK508 - Install, operate and troubleshoot medium enterprise switches The performance criteria/learning outcomes are:  Element 1 - Prepare to install an medium enterprise switch  Element 2 - Configure basic switch operation  Element 3 - Configure and verify advanced switching functions  Element 4 - Troubleshoot medium enterprise switches ICTTEN6206A - Produce an ICT network architecture design The performance criteria/learning outcomes are:  Element 1 - Prepare to produce ICT architecture design  Element 2 - Produce the preliminary ICT network architecture design  Element 3 - Evaluate preliminary design and likely performance using forecast demands  Element 4 - Finalise network design and obtain approval CCNA PROJECTCCNA Project 2 A student must demonstrate an understanding of all elements of a particular competency to be deemed competent. Assessment methods have been designed to measure achievement of each competency in a flexible manner over a range of assessment tasks. Project Instructions The CCNA Project must be completed and submitted as part of this course is one of the assessment methods used to assess competency for this course. The project is a self-directed project which you must complete on your own, but you are allowed to ask an Instructor for advice. This project should only be completed after you have studied the study guide. You must complete this assessment on your own and research any extra information you feel is needed to complete the project. You can ask an instructor to clarify the instructions and for advice but they cannot assist you in completing the tasks required – you must carry out the tasks yourself! Skills that are important for any IT professional in the workplace include problem solving and decision making, curiosity and the ability to find, select, structure, and evaluate information, and creative and critical evaluation. This project is designed to assess you meet the competencies of the units of competency for ICTNWK507, ICTNWK508, and ICTTEN6206A, and help you learn these soft skills which are vital to your success in the workplace. The project is split into two parts as follows:  Part A: Cisco IOS Skills Auditing.  Part B: Scenario based mini case studies for ICT network design and building testing prototypes on Cisco Packet Tracer. Each part maps directly to elements of the units of competency ICTNWK507, ICTNWK508 and ICTTEN6206A. If competency is not achieved, the project will be returned to you for further work on the task(s) identified as being unsatisfactory. You must undertake further work and resubmit the task(s) for re-assessment or re-marking. A Pass (PX) or Fail (N) result for this unit will be awarded for these competency assessment tasks. When you have completed the project, submit the required documentation via the CCN Project Upload link on the LMS system. The required list of files required for submission is listed at the end of the project tasks. If there are parts of the project that you have not completed, the assessor will not sign the project off – you will be asked to resubmit the document when it is completeCCNA Project 3 PROJECT TASKS Part A: Cisco IOS Skills Auditing Create a word document called CCNA_P1_xxxx.docx (where xxx is your student ID). You need to put the answers for each of the following questions into this document. If the question is an IOS configuration related question, you need to save the Cisco Packet Tracer file into the pkt file format as directed. 1. You run the show version command on the Cisco 3600 router IOS interface, and receive the following output: 3600#show version Cisco Internetwork Operating System Software IOS (tm) 3600 Software (C3640-I-M), Version 12.2(7b), RELEASE SOFTWARE (fc1) Copyright (c) 1986-2002 by cisco Systems, Inc. Compiled Mon 04-Mar-02 20:23 by pwade Image text-base: 0x600089A8, data-base: 0x60A6A000 ROM: System Bootstrap, Version 11.1(19) AA, EARLY DEPLOYMENT RELEASE SOFTWARE (f) Router uptime is 2 minutes System returned to ROM by reload System image file is "slot1:c3640-i-mz.122-7b.bin" cisco 3640 (R4700) processor (revision 0x00) with 59392K/6144K bytes of memory. Processor board ID 10524422 R4700 CPU at 100 MHz, Implementation 33, Rev 1.0 Bridging software. X.25 software, Version 3.0.0. 4 Ethernet/IEEE 802.3 interface(s) DRAM configuration is 64 bits wide with parity disabled. 125K bytes of non-volatile configuration memory. 4096K bytes of processor board System flash (Read/Write) 20480K bytes of processor board PCMCIA Slot0 flash (Read/Write) 20480K bytes of processor board PCMCIA Slot1 flash (Read/Write) Configuration register is 0x2102 After reading the above output you decide to complete an IOS maintenance job for your Cisco 3600 router. After completing the maintenance job, you run the show version command again to verify the Cisco IOS. You get the latest output as follows: 3600#show version 00:22:25: %SYS-5-CONFIG_I: Configured from console by console Cisco IOS Software, C2600 Software (C2600-ADVENTERPRISEK9-M), Version 12.4(12), RELEASE SOFTWARE (fc1) Technical Support: http://www.cisco.com/techsupport Copyright (c) 1986-2006 by Cisco Systems, Inc. Compiled Fri 17-Nov-06 11:18 by prod_rel_teamCCNA Project 4 ROM: System Bootstrap, Version 12.2(8r) [cmong 8r], RELEASE SOFTWARE (fc1) 2610 uptime is 22 minutes System returned to ROM by reload System image file is "flash: c2600-adventerprisek9-mz.124-12.bin" Answer the following questions based on this scenario: a) Which Cisco IOS maintenance job did you complete on your Cisco 3600 Router? b) What happens to the Cisco IOS after the maintenance? c) This maintenance job was done via a TFTP server with an IP address 192.168.1.2 to your Router flash memory. Please write down the complete commands for this maintenance job. Note: Please create document P1Q1_xxxx.docx (where XXX is your student number) and include answers to Questions 1a) and 1b) . Take a screen shot of c) above as you do it to show all commands input and output from router as it updates. Attach this screen shot as an appendix to P1Q1 document. 2. Answer the following questions on Access Control Lists. a) What are ACLs? b) Why create ACLs? c) Study the given example below. RouterA(config)#access-list 101 deny tcp host 192.168.1.100 host 192.168.1.254 eq www RouterA(config)#access-list 101 permit ip any any RouterA(config)#int e0 RouterA(config-if)#ip access-group 101 in Which type of ACL does it belong to? Explain the meaning of the given ACL. (Note: 192.168.1.100 is a host, and 192.168.1.254 is a Web Server) 3. Review the following WAN configuration between Router A and Router B, and then answer the following questions. NOTE: Cisco Switch IOS maintenance works as same as the Cisco Router IOS. (Refer to cisco.com for more details.)CCNA Project 5 Figure 1 Router A Router B RouterA#config t RouterB#config t RouterA(config)#int s0 RouterB(config)#int s0 RouterA(config-if)#encap ppp RouterB(config-if)#encap ppp RouterA(config-if)#ppp authentication chap pap RouterB(config-if)#ppp authentication chap pap RouterA(config-if)#exit RouterB(config-if)#exit RouterA(config)#username RouterB password cisco1234 RouterB(config)#username RouterA password cisco1234 Table 1 a) What is the authentication protocol applied on the routers' WAN interfaces? b) What are the pros and cons of using this protocol? Explain why. 4. Static Routing Configuration a. Based on the diagram and information provided below, you need to configure static routing between direct neighbouring routers on Cisco Packet Tracer, and then make sure each PC can ping each other. b. You should also include in the description line of the of the interface configuration an indication as to where this interface is connected to. E.g. (Interface Serial1/0 description This is the Interface that connects to Router X c. You must save the file as P1Q4_xxxx.pkt (where xxx is your student ID).CCNA Project 6 Figure 2 d. You are to provide the running config from each of the routers by entering "show running-config" for each of the routers. Attached the screen shots of all router configuration to your P1Q4 document as well as the results of Ping test between each of the PC's. Router Name Router Type Fast Ethernet Interface Serial Interface Subnet Mask RouterA 2621XM With NM- 4A/S WAN Interface 0/0 172.16.0.1 1/0 172.17.0.1 255.255.0.0 RouterB 2621XM With NM- 4A/S WAN Interface 0/0 172.18.0.1 1/0 172.19.0.1 255.255.0.0 RouterC 2621XM With NM- 4A/S WAN Interface 0/0 172.20.0.1 1/0 172.17.0.2 1/1 172.19.0.2 1/2 172.21.0.2 255.255.0.0 RouterD 2621XM With NM- 4A/S WAN Interface 0/1 172.22.0.1 1/0 172.21.0.1 255.255.0.0 Switch A to D 2960-24TT NA NA NA PCA General PC 172.16.0.100 NA 255.255.0.0 PCB General PC 172.18.0.100 NA 255.255.0.0 PCC General PC 172.20.0.100 NA 255.255.0.0 PCD General PC 172.22.0.100 NA 255.255.0.0CCNA Project 7 Table 2 5. EIGRP Configuration a. Based on the diagram and information provided below, you need to configure EIGRP as the routing on each router on Cisco Packet Tracer, and then make sure each PC can ping each other. b. You should also include in the description line of the of the interface configuration an indication as to where this interface is connected to. E.g. (Interface Serial1/0 description This is the Interface that connects to Router X c. Include a banner statement indication connection to an eHealth Software Solutions router and include warning of unauthorised access to data d. You are to provide the running config from each of the routers by entering "show running-config" for each of the routers. Attached the screen shots of all router configuration to your P1Q4 document as well as the results of Ping test between each of the PC's. You must save the file as P1Q5_xxxx.pkt (where xxx is your student ID). Figure 3 Router Name Router Type Fast Ethernet Interface Serial Interface Notes RouterA 2621XM With NM- 4A/S WAN Interface 0/0 192.168.1.1 255.255.255.0 1/0 100.0.0.1 255.0.0.0 Routing Protocol ERGIP RouterB 2621XM With NM- 4A/S WAN Interface 0/0 192.168.2.1 255.255.255.0 1/0 100.0.0.2 255.0.0.0 1/1 110.0.0.1 255.0.0.0 Routing Protocol ERGIP RouterC 2621XM 0/0 192.168.3.1 255.255.255.0 1/0 110.0.0.2 255.0.0.0 Routing Protocol ERGIPCCNA Project 8 With NM- 4A/S WAN Interface 1/1 120.0.0.1 255.0.0.0 1/2 130.130.0.1 255.255.0.0 RouterD 2621XM With NM- 4A/S WAN Interface 0/1 192.168.4.1 255.255.255.0 1/0 120.0.0.2 255.0.0.0 Routing Protocol ERGIP RouterE 2621XM With NM- 4A/S WAN Interface 0/1 193.168.5.2 255.255.255.0 1/0 130.130.0.2 255.255.0.0 Routing Protocol ERGIP Switch A to D 2960-24TT NA NA ServerA Server runs NOS on it 192.168.1.10 255.255.255.0 NA Runs DHCP, DNS, WWW, & FTP services. Set cisco as the user name and password for accessing FTP. ServerB Server runs NOS on it 192.168.2.10 255.255.255.0 NA Runs DHCP, DNS, WWW, & FTP services. Set cisco as the user name and password for accessing FTP. ServerC Server runs NOS on it 192.168.3.10 255.255.255.0 NA Runs DHCP, DNS, WWW, & FTP services. Set cisco as the user name and password for accessing FTP. ServerD Server runs NOS on it 192.168.4.10 255.255.255.0 NA Runs DHCP, DNS, WWW, & FTP services. Set cisco as the user name and password for accessing FTP. ServerE Server runs NOS on it 192.168.5.10 255.255.255.0 Runs DHCP, DNS, WWW, & FTP services. Set cisco as the user name and password for accessing FTP.CCNA Project 9 All PCs General PC Get IP Address from DHCP Service that runs from the Server next to it, and the Gateway is the default router. NA Access WWW & FTP services from all servers cross the Internetwork. Table 3 6. Open your P1Q5_xxx.pkt file (from Question 5) and then save this the file as P1Q6_xxxx.pkt (where xxx is your student ID). Make sure that you don't overwrite your P1Q5_xxx.pkt as you are required to submit this. Working on top of your configuration for question 5, you must block anyone passing Router D to access the WWW service on Server D. You also must block anyone passing Router E to access the FTP service on Server E. However, other services, such as the FTP service on Sever D and the WWW service on Server E must still be open for anyone to access. You need to test all your security configurations to ensure it works. 7. There are three departments located in one building. These departments are the Admin Group, the Technical Group, and the Accounting Group. These groups are shown below. Figure 4 I. At Level 1 - PC1, PC4, and PC7 are connected to port 1 , 2 and 3 on Switch 1 II. At level 2 – PC2, PC5, and PC6 are connected to port 1 , 2 and 3 on Switch 2 III. At level 3 – PC3, PC6, and PC9 are connected to port 1 , 2 and 3 on Switch 3 IV. All switches connect to each other by using their up and down link port IMPORTANT: Access Control Lists activate immediately after you apply them to the router interface. As a result of this you must ensure you take a backup of the current configuration before you make any changes so you can revert back to the original configuration in case there are any problems. This will ensure that any disruption to users will be kept to a minimum.CCNA Project 10 V. Switch 1 connects to Router0 Fast Ethernet Interface VI. PC1, 2 and 3 belongs to Admin Group VII. PC4, 5 and 6 belongs to Technical Group VIII. PC7, 8 and 9 belongs to Accounting Group IX. IP Addresses for the Admin Group are from the network address 192.168.10.0 /24 X. IP Addresses for the Technical Group are from the network address 192.168.20.0 /24 XI. IP Addresses for the Accounting Group are from the network address 192.168.30.0 /24 XII. When you issue the IP addresses to the PCs manually (static address), you must reserve the lowest usable address for your gateway (the router interface) 8. You are required to design and configure three VLANs for each group based on the given information on Cisco Packet Tracer. All PCs in each VLAN can ping any PC in other VLANs. Turn on inter-VLAN routing so that you can route between the 3 VLANs. 9. You need to complete the VLAN Design Forms first. The form template "Template for Part A Question 7" document can be downloaded from the Project Section on the LMS. 10. You should copy and paste these tables into your CCNA_P1_xxx.docx (where xx is your student id) document and fill them out. Once you have completed the VLAN Design Forms, configure and test your VLAN, and then complete an Evaluation Report Form on predicted LAN performance by running LAN connective Assessment for Admin, Technical, and Accounting Groups. You must save all your forms into the P1_xxxx.docx document, and save your VLAN configuration file as P1Q7_xxxx.pkt (where xxx is your student ID) on the Cisco Packet Tracer. Note: Make sure that you only select LAN Switches from the device list on the Cisco Packet Tracer that support VLAN technology as some switches do not support VLANs.CCNA Project 11 Part B: Scenario based mini case studies Scenario 1 Digital Learning is a newly Registered Training Organisation (RTO) provide computing related training courses in Melbourne. Currently, the RTO has leased a building in South Bank. It is preparing for Open Business next month. The building has three levels. Each level is a 20M (W) x 100M ((L) x 3M (H) open space as shown below. Figure 5 Each floor has a drop down false ceiling, and the working space looks like that shown below: (20M (w) x 100M (L) x 3M (H)). Figure 6 The ground floor is used for the front reception, Administrative staff offices, and trainers' offices. The first and second floors are for training. All three floors are designed as an open spaceCCNA Project 12 working/learning environment without physical barriers. At Digital Learning, they use the studentcentred self-directed training method for campus students. There will be 130 workstations plus 3 printers in this building with the following breakdown:  30 Workstations for staff on the ground floor that includes:  2 Workstations for the front reception.  16 Workstations for the Administrative officers.  12 Workstations for trainers.  100 workstations for students training purpose on the first and second floor (50 workstations per each floor).  3 Network printers (one per each floor). Currently, the RTO doesn't have a network infrastructure in place. The managing director of the RTO has hired you to manage their network infrastructure design and installation. Your tasks for this project are as follows: Project Preparation To prepare for this project, it would be a good time for you to revisit your PE1, PE2 and CPY courses and then think about how you would be preparing for this project by using soft skills in a professional manner together with Network computing knowledge and skills. The preparation would be according to legislation, OHS codes and regulations, including arranging access to the site, and communicating with the clients and any other action you deem will assist you with this project. Task 1 Design and Documentation Complete a network infrastructure design based on the following requirements: a) Select a location for your server room and Main Distribution Facility (MDF). You are allowed to create a small lockable room for storing all your servers, network devices, wiring closet, and telecommunication devices. You have an option to create additional Intermediate Distribution Facility if needed. You must provide detailed reasons to explain why you choose this location for MDF and IDF (if any). b) Select a suitable cable infrastructure and provide a detailed cabling diagram that clearly shows the backbone cable runs, LAN cable runs, the location of all servers, and the wiring closet. Show locations of MDF and all IDF if any. Give reasons for your choice of cabling and type. c) Select a location for the workstations indicating each position and why. d) Choose suitable LAN devices from cisco.com, and then provide technical details of all your selected network devices such which must include  Model  Type of interfaces the device  Number of interfaces and type the device hasCCNA Project 13  Which interface you will use for LAN connection  Any other pertinent information e) Your design will include one Domain Controller which will run AD, DHCP, DNS, and database services. The design will also include a member server acting as the FTP, web, and file server. f) Create a Domain Name for your network, and also design a Servers and Workstations Naming Standard policy. Your Naming Standard policy must be designed carefully in order to accommodate any future network infrastructure growth. g) You are given a network address of 192.168.100.0/24 to design the IP addressing scheme for your network infrastructure. Using this as a guide, provide detailed IP Addressing scheme for the Servers including Domain Controllers, Workstations, Network Devices, and other devices if any. h) Design and provide configuration details for routers and switches. Create a report and attach the required appendixes, and save this as P2T1_xxx.docx (where xxx is your student id). Your report will describe the design plan and must cover all of the following areas a) The Device Naming Standard Policy for your Network. b) List the o Domain name, o Server Name, o Router Name, o Switch Name, o Network Printer Name, o Workstation Name, o Building Name, o Floor Name, o Other devices name (if any) shown on your diagram. c) For all the selected switches, you must include the following: I. Explain why you selected this type of switch for your network II. What features does the switch has that will benefit your design III. Model number IV. How many Ethernet Ports are on the switch, and the transmission rates for each port V. How many Uplinks are on the switch, and the transmission rates for the Uplink port VI. Are there any PoE Output Ports available on the switch VII. Attached the selected switch's Data Sheet as the appendix at the end of your report NOTE: Students you should use the Configuration Details Record Forms from Part A (or simliar format) as the template for the LAN design.CCNA Project 14 VIII. Estimate the total cost of your switches. d) For the selected router, you must include the following: I. Explain why you selected this type of router for your network II. What features does the router have III. Model number IV. Which Cisco Services Modules does the router support V. Which protocols does the router support VI. Which type of encapsulations does the router support VII. Explain the Traffic Management feature of the router VIII. Attach the selected router's Data Sheet as an appendix at the end of your report IX. Estimate the total cost of your routers e) Create a detailed cabling diagram by using either Cisco Packet Tracer, or Microsoft Visio. On your diagram, you must include the following: I. Explain why you chose this cable design. The design must include both Backbone and LAN cabling specifications II. Data cable type III. Connector used for this type of cable IV. The location for MDF (and IDF if any), and which devices are located inside of the MDF. V. The Server Room and its location VI. The location of workstations on each floor VII. The location of each Network Printer on each floor VIII. How to connect servers, workstations, switches, and router together IX. Estimate total cost of the cabling used for this project f) A detailed IP addressing scheme that includes the following: I. Network address and subnet mask II. Domain Controller address and subnet mask III. The router LAN interface address and subnet mask (the Gateway Address) IV. The switch addresses and subnet mask V. DNS server address and subnet mask VI. DHCP server address and subnet mask VII. Web server address and subnet mask VIII. FTP server address and subnet mask IX. Database server address and subnet mask X. Network printer addresses and subnet mask XI. Workstations address range and subnet mask XII. How is the IP Address assigned to all workstations? Give a brief explanation g) Server configuration details that includes: I. Each server's name II. Each server's IP Address III. Each server's server roles IV. Each server's location V. Which ports on which switch will you plan to connect servers, and explain why you choose these ports? VI. Server admin account user name and passwordCCNA Project 15 h) Switch configuration details that includes: I. Each switch's host name II. Each switch's IP address III. Each switch's location IV. Map and list each switch's port number to the connected devices name V. Map and list each switch's Uplink Port number to the connected device name, port number/interface name VI. Switch enable password VII. Switch Secret password VIII. Switch Telnet logon password IX. Switch Console logon password X. Commands for set up current time, date, and time zone XI. Commands for adding a login banner as "Warning, this is a Digital Learning RTO Switch. Unauthorised Access Forbidden." i) Router configuration details that includes: I. Router's host name II. Router's IP address III. Router's location IV. Map and list each router interface name to the connected device name, port number/interface name V. Router enable password VI. Router secret password VII. Router Telnet logon password VIII. Router Console logon password IX. Commands for set up current time, date, and time zone X. Commands for adding a login banner as "Warning, this is a Digital Learning RTO Switch. Unauthorised Access Forbidden." XI. Commands for set up routing if your design requires them j) Workstation configuration details that includes: I. How to issue workstation names based on your Device Naming Standard policy II. Workstation location III. Workstation role IV. Workstation IP address range and subnet mask k) Network printer configuration details that includes: I. Each network printer name II. Each network printer address and subnet mask III. The network printer location IV. Which ports on which switch will you plan to connect network printers, and explain why you choose these ports? V. The network printer permission settings Task 2 Configuration and Testing Use Cisco Packet Tracer to create a logical topology (prototype), and then configure and test all requirements based on your design from Task 1. You need to save your topology as P2T2_xxx.pkt.CCNA Project 16 Computer Power Institute Your assessor will test your configurations as per the following steps: Ensure to include all the requirements in your design to achieve the correct result. a) Check each device configuration based on the student's design/plan from P2T1_xxx.docx. b) All pings between IP Addresses and Device Names of workstation, servers, and network printers should work c) The assessor can access FTP and WWW services by using the web browser from any workstations d) Run Show command on each switch ISO to check the configuration to see if it maps to your configuration design e) Run Show command on router ISO to check the configuration to see if it maps to your configuration design Scenario 2 After two years of successfully operating, Digital Learning has decided to expand their courses range to include Business Management, Accounting, and marketing areas. They have also leased a new building as a part of their new development as shown below. The new building is located 5km away from the first building. The new building has three levels, and each floor has a drop down false celling. Each level has a 100M (W) x 200M ((L) x 15M (H) open space. Figure 7 All three floors are designed for the open space learning environment without physical barriers similar to the first building. There will be 360 workstations and 3 printers in this building with the following breakdown:  120 workstations on each floor.  20 workstation for Trainers  100 workstations for students training purposes  3 Network printers (one per each floor). Task 3 Re-design and DocumentationCCNA Project 17 Currently, the managing director of the RTO has hired you again to help them redesign their network infrastructure in order to meet their growth needs. He also requests that the new network infrastructure must:  Connect two buildings together to share resources and services e. g. Web.  Set up IP Phone service for staff. Each staff will have an IP Phone. The RTO has 45 staff currently. 30 staff located at the ground floor in the first building as shown in Scenario 1. Another 15 academic staff (5 staff per floor) are in the new building.  Enforce data security due to a case of one student hacking into the RTO's file server last year. The RTO wishes to separate different network resources and services by apply advanced control on the switch and router level.  Set up secure wireless facilities that allow students and staff to access resources by using their laptop, tablets, or smart phones.  Set up the router that only allows incoming Web Access traffic to access the web server on port 80. Your network design must cover all of the following areas and be entered in a report format together with required appendixes, and save this as P2T3_xxx.docx (where xxx is your student id). Please use Microsoft Visio 2013 to create your network design a) Create a classless IP addressing scheme using VLSM based on 172.16.0.0/16 being the network address for your LAN and ensure it can accommodate the increased number of the hosts such as workstations, IP phones, wireless clients, and so on. You must explain why classless should be used and the benefit of VLSM in your new IP Addressing Scheme: The new IP Addressing Scheme should: I. Explain your design regarding which Subnet content which type of node, and how you allocate host address to the node within each subnet II. Include all the subnet Addresses and related subnet masks that you created for your LAN III. Include Host Address range and subnet mask from each subnet IV. List all the server addresses o Network Printer addresses o Router interfaces addresses o Switch addresses o Wireless Access Points address o Address range for IP Phone service o Reserved Address range for Remote Access session to run e-campus b) List the Domain name, i. Server Name ii. Router Name iii. Switch Name iv. Network Printer Name v. Workstation Name vi. wireless access point name vii. Building NameCCNA Project 18 viii. Floor Name ix. Other device names (if any) that will show on your diagram c) Explain how you would connect the two building together? And explain why you selected this type of connection. d) Which type of data cables will you choose for connecting nodes together within the building? Explain the reasons as to why you selected this type of cable? What connectors can be used? e) Create a detailed cabling diagram that covers two buildings by using either Cisco Packet Tracer or Microsoft Visio. On your diagram, you must include the following: I. Data cable type and why you selected this type. II. Connector for this type of cable. III. The location for MDF and IDF, and which devices are located inside of the MDF and IDF. IV. The Server Room. V. The location of workstations on each floor. VI. The location of each Network Printer on each floor. VII. The location of each wireless access point. VIII. The location of IP phones. IX. How to connect servers, workstations, wireless access points, IP Phones, switches, and routers together. X. Estimate total of cabling for this scenario f) Select the LAN switches. You must include the following: I. Give a brief explanation of Advanced Switching technologies such as Spanning Tree and Vlans II. Explain your selected switch type for your network design III. Model number IV. How many Ethernet Ports are on the switch, and the transmission rates for each port V. How many Uplinks are on the switch, and the transmission rates for the Uplink port VI. Are there any PoE Output Ports available on the switch VII. What features does the switch have to support Data Security and Voice over IP VIII. Attached the selected switch's Data Sheet as the appendix at the end of your report IX. Estimate the total cost of your switches g) Select the required routers. You must include the following: I. Explanation as to why you selected these type of routers for your network II. Explain basic routing concepts III. Model number of selected router IV. Which Cisco Services Modules does the router support V. Which protocols does the router support VI. Which type of Encapsulations does the router support VII. How does the router support Traffic Management on a network VIII. What features does the router have to support Data Security and Removing Access for e-campus students IX. Attach the selected router's Data Sheet as the appendix at the end of your report X. Estimate the total cost of your routers.CCNA Project 19 h) Switches configuration details that includes: I. Each switch's host name II. Each switch's IP address and subnet mask III. Each switch's location IV. Map and list each switch's port number to the connected device name V. Map and list each switch's Uplink Port number to the connected device name, port number/interface name VI. Switch enable password VII. Switch secret password VIII. Switch Telnet logon password IX. Switch Console logon password X. Commands for set up current time, date, and time zone XI. Commands for adding a login banner as "Warning, this is a Digital Learning RTO Switch. Unauthorised Access Forbidden." XII. Commands for switch configuration regarding to Data Security and Voice over IP i) Routers configuration details that includes: I. Router's host name II. Router's interface IP Addresses and subnet mask III. Router's location IV. Map and list each router interface name to the connected device name, port number/interface name V. Router enable password VI. Router secret password VII. Router Telnet logon password VIII. Router Console logon password IX. Commands for set up current time, date, and time zone X. Commands for adding a login banner as "Warning, this is a Digital Learning RTO Switch. Unauthorised Access Forbidden." XI. Commands for router configuration regarding to Data Security and Remove Access Service XII. Explain how you configure routing protocols, and explain the in pros and cons between RIP, EIGRP, and OSPF and where they are used j) Server configuration details that includes: I. Each server's name II. Each server's IP Address and subnet mask III. Each server's server role IV. Each server's location V. Which ports on which switch will you plan to connect servers, and explain why you choose these ports? VI. Server admin account user name and password VII. Apart of these servers from Scenario 1, would you add any more servers into your network infrastructure? If yes, what are these servers? k) Workstation configuration details that includes: I. How to issue workstation names based on your Device Naming Standard policy. II. Workstation location.CCNA Project 20 III. Workstation address range and subnet mask IV. How to issue an IP address to a workstation l) Network printer configuration details that includes: I. Each network printer name II. Each network printer address and subnet mask III. The network printer location IV. Which ports on which switch will you connect network printers, and explain why you choose these ports on that type of switch V. The network printer permission settings m) IP Phone configuration details that includes: I. Each IP Phone name II. Each IP Phone IP address and subnet mask III. Location of each IP Phone IV. Which ports on the switches will you connect the IP Phones, and explain why you selected these ports on that type of switch n) Wireless Access Points. I. Each Wireless Access Point name. II. Each Wireless Access Point's IP address and subnet mask. III. Location of each Wireless Access Point. IV. Which ports on which switch will you connect these Wireless Access Points, and explain why you choose these ports on that type of switch. V. What are the security setting on the Wireless Access Points in order to prevent from unauthorised access? o) Implementation Plans for propose Network I. Design Scope of works for the installation of the proposed Network. Design should include steps to : o Minimise disruption to clients o To Failover in case of Problems (only on the LAN) o Migrate Clients to new network o Sign off by Management. Task 4 Re-configuration and Testing Run Cisco Packet Tracer to create a logical topology (prototype) that covers the two buildings, and then configure and test all the requirements based on your design from Task 3. You need to save your topology as P2T4_xxx.pkt. Your assessor will open your P2T4_xxx.pkt to check each device configuration and topology setup based on your design from Task 3. Your Configuration Design from Task 3 must be mapped to your configuration on the topology in this task as follows: a) Check the IP address scheme that is used on the running topology to see if it maps to the configuration design.CCNA Project 21 b) All pings between IP addresses between nodes based on the designed subnets, VLAN, & ACLs settings, to see if it maps to the configuration design. c) Run Show command on each router ISO to check the configuration to see if it maps to your configuration design. d) Go to the properties of each IP Phone to check the configuration to see if it maps to your configuration design. e) Go to the properties of each Wireless Access Point to check the configuration to see if it maps to your configuration design. f) Go to the properties of each Remote campus workstation to check the configuration to see if it maps to your configuration design. g) Go to the properties of each wired on-campus workstation to check the configuration to see if it maps to your configuration design. h) Go to the properties of each wireless on-campus laptop to check the configuration to see if it maps to your configuration design. i) Go to the properties of each network printers to check the configuration to see if it maps to your configuration design. j) Check the location of MDF and IDFs to see if it maps to your configuration design. k) Check how the cable runs on the topology to see if it maps to your configuration design. Scenario 3 The managing director of the RTO is very happy with your work. However, he is confused by IPv4 and IPv6 concepts, and is worried about the impact of IPv6 on the network infrastructure in the future. So he asks you to provide a research report regarding how IPv6 would impact the RTO network services, and also for you to recommend an IPv6 address scheme for future development. Task 5 Research Report on IPv6 and recommend an IPv6 address scheme for future development Your document must cover all above areas in a report format, and then attach the recommend IPv6 address scheme as the appendix to your report. You need to save the document as P2T5_xxx.docx. Students are to answer all the questions below and include them as part of the document P2T5_xxx.docx. The answers should be in your own words and should relate to the project you are working on in the Unit of Competency a) Why the need to develop IPv6 addresses? b) What are the new features of IPv6 addresses? c) How big the IPv6 address space is? d) Comparing with IPv4, what is the IPv6 Maximum Transmission Unit (MTU) size?CCNA Project 22 e) How does IPv6 interact with Upper Layer Protocols? f) Comparing with IPv4, what are the differences in the address structure to an IPv6 address? And then give an example of an IPv6 address g) Explain the usage of subnet mask for IPv4 and prefix lengths for IPv6 h) Rules of the IP v6 address structure. i) Convert the following IPv6 Full Address structure into Compact Format Full Address Compact Format 2014:0000:1234:0000:0000:A1B2:D3E4:6789 3fff:0a00:0000:0000:0002:0000:0000:000c ff01:0000:0000:0000:0000:0000:0000:0001 0000:0000:0000:0000:0000:0000:0000:0001 0000:0000:0000:0000:0000:0000:0000:0000 Table 4 j) How to replace a Domain name with an IPv6 address on the web browser URL address location? k) Define the IPv6 Global Unicast Addresses? l) What is the Loopback address in IPv4 and IPv6? m) How to assign the IPv6 address on a host? n) What is an Auto Generated IP v6 address and give an example? o) Identify any staff training regarding the IP v6 Address implement in future if requires. p) Research and design a solution for supporting the RTO's future IPv6 address scheme that includes the IP v6 network address ID and the prefix lengths, how to assign IP v6 address on the network infrastructure, explain how your solution works, and any benefits from your suggested solution. You need to attach your IPv6 address scheme as the appendix at the end of your report. Project Submission When you have completed the project, submit the required documentation via the CCN Project Upload link on the LMS system as detailed below.  A zip file called xxx_ccn_project.zip (where xxx is your student number) which contains all your documents and Cisco Packet Tracer pkt files. It should contain the following files:  P1_xxxx.docxCCNA Project 23  P1Q4_xxxx.pkt  P1Q5_xxxx.pkt  P1Q6_xxxx.pkt  P1Q7_xxxx.pkt  P2T1_xxx.docx  P2T2_xxx.pkt  P2T3_xxx.docx  P2T4_xxx.pkt  P2T5_xxx.docx