C C N A FastTrack

1. C C N A FastTrack CCNA 640-802 kcc 2009 Version

2. CCNA FastTrack AGENDA session 1 • Network Concepts review (1/1) • OSI review and example questions (1/2) • LAN Fundamentals review (1/3 + 2/1) • LAB #1 Connecting and access (1/9 + 1/12 + 1/13) • WAN Fundamentals (1/4 + 2/13) • IP Addressing (lab #2) (1/5, 1/6, 2/4, 2/5) KCC June 2009

3. CCNA FastTrack AGENDA session 2 • IP Addressing review (Lab #3) (1/10, 1/14) • LAN Switching (1/7, 1/8, 2/1, 2/2) • 29xx Switch ops (Lab #4) (1/8, 1/10, 2/3) • Routing Basics (review Lab #3) (1/14, 2/7) • WAN Concepts (1/16, 1/17, 2/12, 2/13, 2/14) • day review KCC June 2009

4. CCNA FastTrack AGENDA session 3 • Review (Lab #3 & 4) • Routing Protocols (1/15, 2/8) • Routing RIP review (Lab #5) (2/8) • Routing OSPF & EIGRP (Lab #5) (2/9, 2/10, 2/11) • Access Lists & NAT/PAT (2/6, 2/16) • Design & Build for the real world (2/7, 2/11, 2/14) KCC June 2009

5. CCNA FastTrack AGENDA session 4 • Review to date (Lab #5) (2/14, 2/15) • WiFi review (Lab #5) (1/11) • IPv6 & SDM (Lab #6) (1/16, 2/15, 2/16) • Example Exam Questions • More hands-on troubleshooting (2/3, 2/7, 2/14) • More Example Exam Questions KCC June 2009

6. CCNA FastTrack Progress AFTER DAY ONE BEFORE TRAINING AFTER DAY TWO KCC June 2009

7. CCNA FastTrack IOS REVIEW lab#1 IP ADDRESS = 10. A . B. C Where A = user number B = VLAN or function C = device KCC June 2009

8. CCNA FastTrack IOS REVIEW • CLI Password configuration • For VTY, Console and Aux ports • Key sequence for edit and buffer recall etc • CDP defaults and configuration • Banner commands use and editing • Router memory types and use • Flash IOS and config file control etc • Passwords recovery • Logging messages • Know defaults and how to change KCC June 2009

9. CCNA FastTrack Example IOS questions; What is used to set the router’s boot procedure A command register B flash register C config register D boot status register What is the command to enable CDP on an interface A enable cdp B cdp enable C cdp run D run cdp E cdp What information can be obtained from CDP A neighbor memory size B neighbor address C neighbor platform D neighbor IOS version E neighbor routing protocols What is the command to remove the starting configuration A clear start-up B write erase C erase memory D erase startup-config E clear memory Which command would be used to copy IOS to flash A copy flash tftp B copy tftp flash C copy mem flash D write memory Where are router syslog messages sent by default A null B aux port and console port C console port D syslog server KCC June 2009

10. CCNA FastTrack OSI REVIEW KCC June 2009

11. CCNA FastTrack OSI REVIEW 7 6 5 4 KCC June 2009

12. CCNA FastTrack OSI REVIEW KCC June 2009

13. CCNA FastTrack Example OSI questions Which layer of the OSI model covers Frame Relay A Layer 5 (session) B Layer 2 (data) C Layer 3 (network) D Layer 4 (transport) What OSI layer covers acknowledgement and sequencing A Layer 5 (session) B Layer 3 (network) C Layer 2 (data) D Layer 4 (transport) E Layer 1 (physical) NetBIOS operates at OSI layer A Layer 1 (physical) B Layer 2 (data) C Layer 3 (network) D Layer 4 (transport) E Layer 5 (session) Which protocols are routable A NetBIOS B IP C SNA D Appletalk E IPX Which OSI layer does CDP operate A Layer 1 (physical) B Layer 2 (data) C Layer 3 (network) D Layer 4 (transport) Which OSI layer does a bridge operate A Layer 6 (presentation) B Layer 5 (session) C Layer 4 (transport) D Layer 3 (network) E Layer 2 (data) KCC June 2009

14. CCNA FastTrack WAN – HDLC, PPP & Static Routing lab #2 KCC June 2009

15. CCNA FastTrack Network Protocols Reminder TCP SEGMENT CONSTRUCTION 0 4 8 16 19 24 31 source port destination port FLAGS; U Urgent A Acknowledgement P Push R Reset S Synchronize SYN F FIN sequence number acknowledgement number offset reserved U A P R S F window checksum urgent pointer TCP = IP protocol # 6 options (variable length) padding LAYER 4 d a t a UDP SEGMENT CONSTRUCTION 0 4 8 16 19 24 31 source port destination port UDP = IP protocol # 17 length UDP checksum LAYER 4 d a t a KCC June 2009

16. CCNA FastTrack Network Protocols Reminder 0 4 8 16 19 24 32 version hdr length TOS total packet length identification flags fragment offset IP PACKET TTL protocol # header checksums source address destination address options (variable length) padding d a t a FRAME FRAME HEADER DATA TYPE #0800 = IP content TYPE FIELD if Ethernet DIX (Ethernet II) header format LENGTH FIELD if IEEE Ethernet 802.3 KCC June 2009

17. CCNA FastTrack Network Protocols Reminder FTP HEADER FTP DATA SEGMENT TCP HEADER TCP DATA PORT # 21 = FTP content PACKET IP HEADER IP DATA PROTOCOL #6 = TCP content FRAME FRAME HEADER DATA TYPE #0800 = IP content Preamble DATA SIGNAL KCC June 2009

18. CCNA FastTrack Network Protocols Reminder ETHERNET FRAME CONSTRUCTION LAYER 2 64 to 1518 Bytes long preamble/SD destination mac address source mac address TYPE/LENGTH 802.2 SSAP/DSAP DATA FCS 41 to 1500 Bytes long 4 8 6 6 2 4 (+5) L E N G T H I N B Y T E S NOTE… Ethernet DIX frame preamble is 8 bytes long with no SD byte, Ethernet DIX frame has TYPE field and no LENGTH or 802.2 fields. Ethernet IEEE 802.3 frames have 7 byte preamble, 1 byte SD, Ethernet IEEE 802.3 frames have LENGTH field and no TYPE field, Ethernet IEEE 802.3 frames have 802.2 field for 2 byte DSAP, 2 byte SSAP, 2 control bytes and 5 byte SNAP (if used DSAP and SSAP = 0xAA). Therefore the largest Ethernet frame size should be1518 bytes and the minimum frame size should be 64 bytes in order to stay within the Ethernet specification and be able to detect a collision. The frame size was extended to 1522 bytes by a IEEE 802.3 committee workgroup (802.3ac) to support VLAN tagging using 802.1Q but several manufactures equipment still will not support giant frames (larger than 1518). Frame sizes have been pushed even further with the latest technologies. ISL (Inter Switch Link) VLAN tagging extends the frame by an additional 30 Bytes, MPLS (Multi Protocol Label Switching) adds 4 Bytes for each label….. etc. etc. so it is not unusual to see giant frames on today’s networks. KCC June 2009

19. CCNA FastTrack LAYER 1 UTP & AUI Ethernet Cabling pin assignment; pin # MDI-X function MDI function RJ-45 SOCKET VIEW 1 Rx + Tx + 2 Rx - Tx - 3 Tx + Rx + 6 Tx - Rx - 1 2 3 4 5 6 7 8 NOTE; PC’s, ip phones, WiFi APs, network printers & routers all have MDI ports (Media Dependant Interface), bridges, switches, hubs & aDSL switch ports have MDI-X (cross-over). Newer equipment has auto-polarity MDI/X and some supply switchable MDI/MDI-X ports to enable connection of to devices without the use of a crossover cable. NOTE: Chiron makes use of RJ-11 connectors for the Cat-3 cabling for example an RJ-11 to RJ-45 cable ; RJ-11 pin # RJ-45 pin # 1 5 2 6 3 1 4 2 5 3 6 4 NOTES; Some equipment uses the 15 pin D AUI connection ; pin # function 1 ground 2 CI-A 3 DO-A 4 ground 5 DI-A 6 VDC ground 9 CI-B 10 DO-B 11 ground 12 DI-B 13 VDC +12 14 ground 15 ground KCC Feb 1998

20. CCNA FastTrack T568B T568A T568A configuration at one end of the cable and T568B at the other = a cross over cable. T568A/B have slightly different colour codes/pair assignments, but it does not matter which specifications are used as long as the same specifications are used throughout  KCC Feb 1998

21. CCNA FastTrack Network Routing Protocols Review KCC June 2009

22. CCNA FastTrack STP & Switching lab #4 KCC June 2009

23. CCNA FastTrack VLSM and Basic Routing REVIEW • VLSM and network masks etc • Routing configuration commands • Classless routing (EIGRP, OSPF, RIP v2) • Classful routing (RIP v1, IGRP) • Distance vector vs Link state routing • Administration distances • Routing, static, connected, default route • Routing tables, databases and ARP • Access-lists & NAT KCC June 2009

24. CCNA FastTrack Example VLSM & routing questions Auto summary can be disabled on A EIGRP B RIP v1 C IGRP D RIP v2 What network would provide for 1022 nodes A 164.22.10.0/24 B 164.22.10.0/28 C 172.16.16.0/22 D 172.16.17.0/22 E 192.168.5.0/16 In a routing table, routes from EIGRP are marked A E B O C E1 D E2 E D Which command is used to enable RIP routing A router rip 66 B enable rip C rip enable D router rip E set rip enable The default admin distance for IGRP routes is A 90 B 110 C 100 D 120 E 170 Which of the following is NOT on the same subnet A 164.14.225.7/19 B 164.14.223.4/19 C 164.14.223.0/19 D 164.14.199.16/19 E 164.14.223.8/19 KCC June 2009

25. CCNA FastTrack ROUTING KCC June 2009

26. CCNA FastTrack Switching and Bridging Review • VLANs • Broadcast domains/Collision domains • Spanning Tree (STP, RSTP, PVST, MIST) • VTP modes (server, client, transparent) • Trunking (ISL, 802.1q, VTP & DTP) • 29xx switch IOS • Configuration and defaults • Switching methods • Store and forward • Cut through • Fragment free KCC June 2009

27. CCNA FastTrack Example switching and bridging questions When two VTP servers in the same domain have different VLAN configurations….. A all conflicting VLANS are disabled B VTP server with highest configuration register overwrites the other switch C VTP server with lowest configuration register over writes the other switch D the domain is partitioned into two What is the correct order for 802.1D spanning tree start A Forwarding, Listening, Learning, Blocking B Blocking, Listening, Learning, Forwarding C Listening, Blocking, Forwarding, Learning D Learning, Listening, Blocking, Forwarding What is the default mode for VTP on a 2950 switch A client B transparent C server D passive E none Which of the following are true about a frame received with an unknown mac address into a 2950 switch A frame is forwarded out of all ports B frame is dropped C frame is forwarded toward the root bridge only D frame is forwarded out of all ports except port where the frame was received Broadcasts are automatically forwarded between VLANs A true B false C depends In a network of 9 switches for 2 VLANs, how many route bridges A 9 B 18 C 2 D 8 E 7 KCC June 2009

28. CCNA FastTrack Routing and Access Lists Ref: Lab #2, 3 & 4 • OSPF • EIGRP • RIP • Access Lists & NAT KCC June 2009

29. CCNA FastTrack Access Lists Review • Access Lists & number range • 1 - 99 _________________ • 100 - 199 _________________ • Named _________________ • Reflexive _________________ • Dynamic _________________ • ACL application commands IOS >12.2 • TCP, UDP & IPX port/socket numbers KCC June 2009

30. CCNA FastTrack Example ACL & NAT questions What is the NAT term for the private ip address on a PC connected to a router for Internet access A inside local B inside global C outside local D outside global What command is used to apply an access list to an interface A access-list apply B access-class C access-group D access E interface-access-list Which line would block Telnet access A access-list 101 deny ip any any eq 23 B access-list 101 deny tcp any any eq 23 C access-list 99 deny tcp any any eq 20 D access-list 99 deny tcp any any eq 21 E access-list 105 deny udp any any eq 23 Valid access list for ip extended is… A 1 - 99 B 100 - 199 C 101 - 199 D 0 - 99 E 200 - 299 ACLs are processed in the order that they were configured A true B false C depends Which of the following are NOT valid A access-list 801 permit –1 –1 B access-list 101 deny ip any any eq 162 C access-list 801 deny bad.0.0.1 –1 D access-list 801 deny –1 bad.0.0.1 452 –1 0 E access-list 199 perm tcp any any eq www KCC June 2009

31. CCNA FastTrack VPN, NAT, SDM, IPv6 KCC June 2009

32. CCNA FastTrack Wan Review • Serial defaults • Bandwidth • Encapsulation • DTE/DCE clocking • Frame Relay • LMI type/DLCI • Encapsulation • RFC 1490 • HDLC • PPP • WiFi KCC June 2009

33. CCNA FastTrack Example WAN questions Which authentication mode supports MD5 A PPP B PAP C CHAP D super PAP What is the default bandwidth setting on a Cisco serial interface A 2Mbps B 4Mbps C 1.54Mbps D no default set E 2.04Mbps In PPP, what is used to identify a loopback A PAP B CHAP C Link Quality Monitoring D NCP E Magic Numbers Which protocol manages the connection between router and FR A DLCI B FR-manage C LMI D ILMI E OAM Which is/are NOT Frame Relay terms A BECN B FECN C ILMI D DE E DLCI F X.121 What is the default encapsulation on a Cisco serial interface A HDLC B PPP C SLIP D Frame Relay E X.25 KCC June 2009

34. CCNA FastTrack IPv6 Notes • xxxx:xxxx:xxxx:xxxx:xxxx:xxxx:xxxx:xxxx • – Where x is a 16 bits hexadecimal field • 2001:0000:1234:0000:0000:C1C0:ABCD:0876 • Leading zeros in a field are optional: • 2001:0:1234:0:0:C1C0:ABCD:876 • Abbreviate by removing zeros: • FE80:0000:0000:0000:0000:0010:0000:0123 • becomes FE80::10:0:123 • 2000 – 3FFF Aggregatable unicats global addresses • FE80 Link Local Unicast • FEC0 Site Local Unicast (private much like RFC1918) • FF00 Multicast KCC June 2009

35. CCNA FastTrack IPv6 Notes KCC June 2009

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40. CCNA FastTrack

41. CCNA FastTrack Final Review KCC June 2009