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Chapter 8 Intro to Routing & Switching
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Upon completion of this chapter, you should be able to: Describe the structure of an IPv4 address. Describe the purpose of the subnet mask. Compare the characteristics and uses of the unicast, broadcast and multicast IPv4 addresses. Compare the use of public and private addresses. Explain the need for IPv6 addressing. Describe the representation of an IPv6 address. Describe types of IPv6 network addresses. Configure global unicast addresses. Describe multicast addresses. Describe the role of ICMP in an IP network. Use ping & traceroute to test network connectivity.
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8.1
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Each host needs IP to communicate Logical address Assigned to the NIC Computers, network printer, router interfaces Remember Packet has source & destination IP
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What protocol translates the name to the IP address? DNS What port does it use? 53
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Logical (not physical like MAC) IPv4 has 32 bits, 4 octets 8 bits in each octet 11111111.10101010.11001100.00100101 Convert that to decimal: 192.101.28.36 Value in each octet from 0-255 That’s a total of 256 numbers.
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Add up the values of the binary 1’s 156 11100101 229 1286432168421 10011100
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8.1.1.4 Binary to Decimal Conversions Add up the bit values to come up with the decimal answer 8.1.1.7 Decimal to Binary Conversions Convert the decimal number to bits 8.1.1.8 Binary Game Create an account on cisco.com
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How many bits in an IPv4 address? 32 How many octets? How many bits in each? 4 octets; 8 bits in each What can be the decimal value range of each octet? 0-255 How many numbers is 0-255? 256
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8.2
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Network portion Identifies network to the router Router cares about this part Host portion Identifies the specific host Router doesn’t care about this part Hierarchical Addressing 192.175.36.9
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Subnet Mask Helps router decide which network packet is on Helps show which part of IP is network & host 32 bits 192.168.6.5 255.255.255.0 Binary 1’s - ID the network portion Binary 0’s - ID the host portion
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199.81.210.17 255.255.255.240 What network does this belong to?
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What is the purpose of the subnet mask? To help the router identify the destination network A packet enters a router. Which address does it look at? Destination IP What process does it do with the destination IP & the subnet mask? ANDs it What is the result of the ANDing? The destination network
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SM helps tells us how many hosts are on that network 255.255.255.00000000 Binary 0= identifies # of hosts on that network 8 ZEROS is 2 8 =256 Subtract 2 for useable number Unusable: 00000000 (.0) is the network ID 11111111 (.255) is the broadcast address for a network Total Useable is 254
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SM 255.255.255.128 128= 10000000 2 7 = 128-2 is 126 hosts SM 255.255.255.224 224= 11100000 2 5 = 32-2 is 30 hosts SM 255.255.240.0 .240.0= 11110000.00000000 2 12 = 4096-2 is 4094 hosts
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One PC is 192.168.18.107 255.255.255.0 What is network does it belong to? How many useable hosts? Give PC’s addresses.
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8.1.4
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Class A Large organizations 1-126 Default SM= 255.0.0.0 One octet for network, 3 octets for hosts How many hosts available? 2 24 = over 16 million 10.52.33.7 N.H.H.H 255.0.0.0 120.111.99.87
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15.7.92.5 255.0.0.0 15= Class A Default SM for Class A= 255.0.0.0 Network portion of address= 15. Host portion=.7.92.5 Network ID= 15.0.0.0 All zero’s in the host portion Broadcast address= 15.255.255.255 All binary one’s in the host portion
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Class B Medium organizations 128-191 Default SM= 255.255.0.0 Two octets for network, 2 octets for hosts How many hosts available? 2 16 = over 65,000 130.52.33.7 N.N.H.H 255.255.0.0 185.111.99.87
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167.101.52.36 255.255.0.0 167= Class B Default SM for Class B= 255.255.0.0 Network portion of address= 167.101 Host portion=.52.36 Network ID= 167.101.0.0 All zero’s in the host portion Broadcast address= 167.101.255.255 All binary one’s in the host portion
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Class C Small organizations 192-223 Default SM= 255.255.255.0 Three octets for network, 1 octet for hosts How many hosts available? 2 8 = 256-2 (254 useable) 199.52.33.7 N.N.N.H 255.255.255.0 220.111.99.87
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210.44.200.89 255.255.255.0 210= Class C Default SM for Class C= 255.255.255.0 Network portion of address= 210.44.200 Host portion=.89 Network ID= 210.44.200.0 All zero’s in the host portion Broadcast address= 210.44.200.255 All binary one’s in the host portion
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Class D not for hosts D is multicast (one to a group) 224.0.0.0- 239.255.255.255 Class E not for hosts For testing only 240-255 All 0’s in host portion(s) = network ID All 1’s in host portion(s)= broadcast CAN NOT USE THESE ADDRESSES FOR HOSTS!
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Address 168.19.203.12 255.255.0.0 What class? What are the network portions? What are the host portions? What is the network address/ID? What is the broadcast address? What is the first usable address?
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8.1.2.8 Lab 8.1.2.9 ANDing Activity Determine the network address Lots of Practice!
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Which version IP addresses are we dealing with? IPv4 How many bits in an IP address? 32 How many octets in an IP address? 4 Which part of this address is the host portion? 199.81.71.6 6
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Which network does this belong on? 201.14.6.5 255.255.255.0 201.14.6.0 network How many total hosts can be on that network? Useable? 256 254, why?
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8.1.4
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Address Class Address Range A10.0.0.0- 10.255.255.255 B172.16.0.0- 172.31.255.255 C192.168.0.0- 192.168.255.255 Some addresses are reserved & can not be routed across Internet You can have a public IP for network/servers & private for hosts inside Saves IP addresses
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If host does not connect DIRECTLY to Internet, it can have a private IP Router BLOCKS private IP’s Great Security!!! Private IP’s can not be seen from Internet 127.0.0.0 range is reserved for loopback testing 169 is APIPA (local link)- no IP received from DHCP server
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8.1.4.2 Pass or Block IP Addresses Decide to pass or block the IP depending upon if it’s private or public 8.1.4.7 Public or Private Drag each IP to public or private Handout Host, Network#, or Broadcast address, Class, default SM, usable/unusable for hosts
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What is the private range for class A? 10 What is the private range for B? 172.16- 172.31 What is the private range for C? 192.168 What is unique about the private addresses? They are not routable What does it mean if your address is 169? APIPA; you did not get an IP from DHCP server
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8.1.3
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One-to-one or Source to destination
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One-to-all (source to all) in segment All hosts will look at it All 1’s in host portion(s) of address Broadcast IP & MAC (all F’s) Default Broadcasts A- 10.255.255.255 255.0.0.0 B- 172.16.255.255 255.255.0.0 C- 192.168.1.255 255.255.255.0
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One-to-group Class D 224.0.0.0- 239.255.255.255 Multicast MAC begins with 01-00-5E Where is it used? Gaming Distance learning
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Unicast, Multicast, or Broadcast
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8.1.3.6 Unicast, Broadcast, Multicast Look at the destination IP & click the devices that will receive it Try it several time Handout DOS Netstat –e Do this every 10 seconds Pay attention to non-unicast packets
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160.50.23.6 255.255.0.0; What network is this on? 160.50.0.0 Which default SM has the most hosts? Class A 255.0.0.0 Over 16 million! How many useable hosts in a Class C? 254 220.101.5.90 255.255.255.0; What network is this on? 220.101.5.0
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What are the private IP addresses? 10, 172.16-172.31, 192.168. What is the MAC broadcast frame in hex? FF-FF-FF-FF-FF-FF What is the MAC for a multicast? 01-00-5E One to one communication is… Unicast To send a unicast message, which addresses do you need? Source & dest. IP & MAC
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Complete the study guide handout Take the quiz on netacad.com Jeopardy review
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In this chapter, you learned:
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Chapter 8 Intro to Routing & Switching
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