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Mastering IP Subnetting Forever

Mastering IP Subnetting Forever

Mastering IP Subnetting Forever

page2me kitarotao

January 15, 2020
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  1. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Tour Guide  Scott Morris, CCIEx4 #4713, CCDE #2009::13, JNCIEx2 – CCIE Route & Switch, ISP/Dial, Security, Service Provider – Cisco Certified Design Expert – Juniper Networks JNCIE-M #153 and JNCIE-ER #102 – CISSP, CCVP and several other random things! – Email: [email protected] – Twitting: @ScottMorrisCCIE 3
  2. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Tour Guide  Keith Barker, CCIEx2 #6783, CCDP, CCSI – CCIE Route & Switch, Security – HP-MASE, Brocade BCNP – Juniper Networks JNCIS-ENT/SP – Twitter: @KeithBarkerCCIE – YouTube: Keith6783 4
  3. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Journey  Understanding an IPv4 Address  Mastering the Mask  Custom Subnetting  VLSM and Beyond 5
  4. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  Setting the stage –Why the mastery of IP Subnetting skills is so important in the real world –What we know…or think we know, can be a factor in our mastery  Key elements in successful execution of the subnetting procedure –Creating a MB-Key, identifying the need in the network, and using your thumbs (and other digits) to create a subnetting addressing scheme  Reverse Engineering any IP Addressing scheme –The magic of application in the real world  Extending our IP Subnetting knowledge into Classless schemes—VLSM and CIDR –Variable Length Subnet Masking –Classless Inter-Domain Routing (Address Summarization, Supernetting, IP Address Aggregation) IPv4 Agenda 6
  5. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  Something to write with, and write on  An open mind… –If you have failed to master IP subnetting before, it’s ok… –If you are already a ‘Jedi Master Subnetter’, this session may not be for you… or you just may learn a shortcut you haven’t used before  Be willing to practice on your own… if you don’t use it, you WILL lose it  Fill out your session evaluation What You Will Need To Be Successful 7
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  7. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Let’s play everyone’s favorite game called… Guess that network! 9
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    Cisco Public What We Know Already… or Maybe Not 10
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    Cisco Public What We Know Already… or Maybe Not 11
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    Cisco Public  An IPv4 address is 32 bits long—4 separate bytes  An IP address is represented in dotted-decimal notation –Each byte is represented by a decimal number separated by a period (called “dotted decimal” notation) –Example: 10.100.30.4 or (010.100.030.004) –Each byte represented as decimal number (0–255)  The first byte may be the most important to you when you start… What We Know Already… or Should 12
  11. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  There are three (3) usable unicast IP address classes - A, B and C  The first byte/number/octet identifies the class that the IP belongs to—“Classification” –Correct Classification is a starting point, for mastering IP subnetting What We Know… or Should (Cont.) Class Example # of Networks # of Hosts on each network A – 1-127 24. 0 .0 .0 127 16,777,214 B – 128-191 150.18. 0 .0 16,384 65,534 C – 192-223 198.23.210. 0 2,097,152 254 D – 224-239 224.0.0.10 Multicast E – 240-255 Reserved 13
  12. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Let’s play… Name that class! 14
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    Cisco Public Practice: Classification—What Class does each IP below belong to? 15
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    Cisco Public Practice: Classification—What Class? 16
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  16. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  Each IP address has two parts: – Network Number Host Number  Each class uses a different default mask, as a default point of separation between Network and Host –Referred to as the “Class Boundary” (note the line position) Why Knowing the Class Matters Class Example Networks Hosts A – 1-127 24. 0 .0 .0 127 16,777,214 B – 128-191 150.18. 0 .0 16,384 65,534 C – 192-223 198.23.210. 0 2,097,152 254 1 2 18
  17. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Please put your thinking caps on, it is time for a quiz. One, two, three…. 19
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    Cisco Public Practice: Class Boundary— Draw the default Line 20
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    Cisco Public Practice: Class Boundary— Draw the Line (Cont.) 21
  20. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  In a classful address, every number to the left of the line is static, and represents the “street” or “network” name. –Classful addresses, left in their classful state, yield exactly ‘1’ subnet (or street) –Every number right of the line is ours to use…for what? Host addresses and/or creating custom subnets  All bits in the mask to the left of the line are set to a binary 1 (which indicates those bits are network bits) –This identifies the Network portion of the address. –The network portion of the address is MASKED with 1s How the Line Is Defined 22
  21. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public 10.1.0.200 0000 1010. 0000 0001 . 0000 0000 . 1100 1000 1111 1111. 0000 0000 . 0000 0000 . 0000 0000 Network | Host bits . Host bits . Host bits 23
  22. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  Identifies the division between the Network and the Host portion of an IP Address  All devices on common network share the same mask, and network bits (same street name).  The default mask is the number of bits that are reserved by the address class—Default Line position –Using the default mask will accommodate only one network (no custom subnets) in the relative class  A custom Subnet Mask can be defined by an administrator to accommodate new subnetworks. Done by moving the the dividing line to the right. Subnet Mask—Where We Draw the Line 24
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    Cisco Public Using the Default ‘Class’ Mask 1 2 1 25
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    Cisco Public Using a Custom Subnet Mask 2 1 26
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    Cisco Public   Why are IPv4 Subnetting skills so important in the real world? –It is what makes it relevant to you and your situation that makes it important… The Question of the Moment… 27
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    Cisco Public  It is the key to mastering the IP subnetting process –Classful subnetting, classless (VLSM), CIDR, supernetting, –summarization, address aggregation – you name it –the customization of the mask is KEY Understanding the Custom Subnet Mask 28
  27. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  Determine the type of IP addressing to use –Become familiar with reserved addresses (RFC 1918, 5735)  Determine your network requirements –Number of subnets and hosts your implementation requires  Identify your base address (Starting point, class A, B, or C)  Write out, and use the “MB-Key” and prepare to use the thumb game. Before Starting the IP Subnetting Process 29
  28. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  Identify the total number of subnets requiring a unique address: –Unique address required for each LAN subnet –Unique address required for each WAN subnet  Verify how many hosts are needed per subnet  Identify and create a subnet mask that accommodates the design –This is where the movement of the line will extend the mask to go beyond its default (moving the mask to the right, bit by bit). Identify Subnetting Requirements 30
  29. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Create the Morris/Barker Key (MB-Key)  Start with finger row, left to right, then Block Size row right to left, then Mask Value row, left to right. 31
  30. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  This is the primary tool that makes the process so easy –This box represents any single number in an IP address byte (1 octet) and may be created in pencil or pen (or digitally). Getting to know the MB-Key 32
  31. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  Classification –A, B or C class boundary (class determines the default mask)  Line position identifies where the subnet mask “on” bits end –Moved further to the right gives you more subnets, but at the same time is restricting how many hosts can be on that subnet  Network subnetting requirements –Number of subnets required and making sure enough room for desired hosts.  The MB-Key –Provides many of the answers needed to accomplish the subnetting tasks –The network block size, determined from the key, will be VERY helpful Subnetting Review 33
  32. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public The process for subnetting  Classify the address!!! –Is it A, B, or C, and what is the default mask.  What are your needs? –How many total subnet are to be created? –On a single subnet, how many hosts do you need to support?  Create a custom subnet mask for the entire network –Accomplished by moving the Line to the right (increasing the bits that are “on” in the mask.)  Determine subnet ranges, as well as the first, last and broadcast addresses for each new subnet. 34
  33. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public A Fantastic Option for “Qty” questions. How many bits, above and beyond the default mask, do we need to allocate as “network bits” to create new subnets? Answer: Play the Finger/thumb game. Example: You need 20 new subnets. (prepare your thumb, which has a “2” on it) (We will walk you through this, right now. Please stand up) 2 35
  34. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Subnetting Example 1: IP Network Design Central Office— Orlando 23 Ethernet segments—200 hosts per subnet Branch Office—Las Vegas 12 Ethernet segments— 150 hosts per subnet Branch Office—Detroit 11 Ethernet segments— 50 hosts per subnet 172.16.0.0 /16 should be used. Branch Office—Lexington 8 Ethernet segments— 50 hosts per subnet 23 + 8 + 12 + 11 + 3 = 57 Maximum number of hosts on any one subnet will be 200 36
  35. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  Base Address:  Sample design indicates accommodation of 57 subnets (Including WAN) with no more than 200 hosts per subnet (Including router interfaces) –57 is the key factor here. We need to support at least 57 subnets, which will require 6 additional bits (stolen from the host portion) assigned to represent network address. –Mask (the ON bits) will grow/move 6 positions to the right. Subnetting Example 1 2 38
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    Cisco Public 6 4 After we move the mask 6 positions, the MB-Key tells us the new mask. Octet 1 Octet 2 Octet 3 6 4 39
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    Cisco Public  Remember the original network design requirements: –57 Subnets needed—we ended up with 64 (a few extra). –Maximum 200 hosts per subnet—there are 254 address available in Octet 4 alone (8 bits) and we have 10 bits to use. We can use the thumb game (with host bits), to identify how may hosts will fit into the host address space (fingers represent host bits). What We Are Left with for Host IPs? 40
  38. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Where We Are in the Process…  Classify the address!!! –Identify the class A-B-C –Draw the initial Line –Fill in the default mask information  Obtain information about your network –How many total subnets are to be created? 57 –On a single subnet, what is the maximum number of hosts needed? 200  Create a custom subnet mask for the entire network –Accomplished by moving the Line to the right –New Subnet Mask number is left of the Line Position  The Line Position provides more information –Find the number directly below the chosen mask value—This is the block size…will give you everything you need to complete the process Subnet addresses | Range of host IDs | Broadcast addresses 41
  39. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  The Block Size Increment Value is used to determine all subnets, host ranges and broadcast addresses. Completing the Last Step in the Process Octet 3 43
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    Cisco Public Allocating the Subnet, Host, and Broadcast Addresses Using , the ‘Block Size’ 4 44
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    Cisco Public Question: If we take some of the host bits, and now use them to be part of the network address, don’t we now have less “host bits” than before? How many host addresses do we have available on each subnet? 45
  42. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Regarding any quantity question, use the thumb/finger game. The goal this time is to see how many hosts, can be given addresses on each new subnet, based on how many host bits are still available. 46
  43. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  To determine how many hosts can exist per subnet, use the thumb game, and verbally count out the number of host bits (bits not taken by the mask, starting from the right). In our case it is 10 bits (1024) and subtract 2 Subtract 2— is because one is the subnet address and the other is the broadcast address of each network. Neither can be assigned as a valid interface IP address for any host. Number of Valid Host IPs Per Subnet 47
  44. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Subnetting Example 1: Applying the Subnets to the Network Locations Central Office – Orlando 23 Ethernet segments Branch Office – Detroit 11 Ethernet segments Branch Office – Lexington 8 Ethernet segments Branch Office – Las Vegas 12 Ethernet segments 172.16.0.0- 88.0 172.16.92.0- 136.0 172.16.140.0- 180.0 172.16.184.0- 212.0 172.16.216.0 172.16.220.0 172.16.224.0 48
  45. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Another way of representing the mask bits that are “ON” /nn 49
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    Cisco Public CIDR Notation for 2nd, 3rd, and 4th octets 128 192 224 240 248 252 254 255 /9 /10 /11 /12 /13 /14 /15 /16 /17 /18 /19 /20 /21 /22 /23 /24 /25 /26 /27 /28 /29 /30 /31 /32 50
  47. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  One of the most powerful troubleshooting skills you can keep in your arsenal –Given an IP address and mask, what is the subnet address? –Given an IP address and mask, what is the subnet broadcast address? –Given an IP address and mask, what are the assignable IP addresses in that network/subnet? –Given a network number and a static subnet mask, what are the valid subnet numbers? –Here is all of the information you may have been given: Reverse Engineering Any IP Scheme 51
  48. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Sometimes a graphic helps. Imagine that the host with the IP address of 10.48.39.106 /21 is a Windows or Unix server, being virtualized in here ... 52
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    Cisco Public Let’s do this one together. Host 10.48.39.106 /21 1. Look at the mask, to determine the block size within that octet. 2. Use block size to identify the ranges as well as the first, last and broadcast addresses for each subnet 54
  51. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Process  Using Block Size, calculate the subnets, to see where the host belongs.  First host address is the subnet +1  Next subnet -1 is current subnet broadcast, -1 more is last valid host. 55
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    Cisco Public 1. Given an IP address and mask, what is the subnet number? 1. Given an IP address and mask, what is the subnet broadcast address? 2. Given an IP address and mask, what are the assignable IP addresses in that network/subnet? 4. Given a network number and a static subnet mask, what are the valid subnet numbers? Reverse Engineering Results 56
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    Cisco Public Subnetting Challenge: Your IP Network Design Central Office—Washington, DC 7 Ethernet segments—200 hosts per subnet Branch Office—Grand Cayman 4 Ethernet segments— 185 hosts per subnet Branch Office—Las Vegas 6 Ethernet segments— 170 hosts per subnet Branch Office—Tampa 6 Ethernet segments— 150 hosts per subnet 7+ 6 + 4 + 6 + 3 = 26 Maximum number of hosts on any one subnet will be 200 Network Assigned 150.1.0.0 /16 57
  54. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Let’s do this one together… 1. Beginning with a class B address, use the thumb game to find out how many bits to use for custom subnetting (for 26 subnets) 2. Move the mask, that many bits 3. Use block size to identify the ranges 4. Verify you have enough host address space 58
  55. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  You have just learned the entire classful subnetting process using not much math –Everything else from here on out, uses these same techniques, tools and processes  Level 2—Classless Subnetting (VLSM)  Level 3—Classless Inter-Domain Routing (CIDR) –Supernetting, address aggregation, summary addressing Great Job! You Have Passed Level 1! 59
  56. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  Variable Length Subnet Masking –Allows for more efficient use of IP space –Less waste on smaller subnets where fewer addresses are necessary Subnetting (Classless) VLSM 60
  57. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  Instead of creating a single subnet mask to accommodate your total IP subnet number (working from the left)…  Identify a subnet mask for each subnet individually (work from the right side) –Move the line as far to the right as you can, while leaving just enough room for the hosts on that subnet –Example, WAN link, with only 2 devices on the network (point to point connection) Understanding VLSM 61
  58. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Getting the most out of a block: 192.168.1.0/24  Allocate biggest networks first.  Use the next valid block as a new starting point, and change the mask as needed, keeping in mind leaving enough host bits for host addressing. 62
  59. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public Rules:  Identify all of the subnets within your operational area and determine their approximate size (host population)  VLSM must be implemented on a standard binary block size: 2, 4, 8,16, 32, and so on  All routers and multi-layer switches must be running a routing protocol capable of exchanging subnet mask information within their route update packets  Classless routing protocols, like EIGRP, OSPF, and RIP2  When Implementing VLSM, allocate subnet IDs to the largest networks first, then work your way down to the smallest networks Applying VLSM to a Network Design 63
  60. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  Same game…many names –CIDR—Classless Inter-Domain Routing –Supernetting –IPv4 address aggregation –IP address summarization  All of these follow the same basic process –Advertise a single IP subnet address/mask on a router which implies multiple IP subnets –10.0.0.0/8 implies all ‘10’ networks –Must have a contiguous ‘block’ to implement ( 2, 4, 8, 16, 32, etc.) Level 3—RFCs 1338 and 1519 (latest) 64
  61. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public  One method to help control IP addresses depletion  Reduce Internet routing table size (BGP Table) –Blocks of contiguous addresses (4, 8,16, etc.) are assigned to ISPs –ISPs assign IP addresses to customers in contiguous blocks –Blocks are summarized to reduce router advertisements and route table size  Check out –www.traceroute.org/#USA—scroll down to route servers where you can telnet to a live Cisco BGP router and view the complete BGP table Classless Interdomain Routing 65
  62. © 2013 Cisco and/or its affiliates. All rights reserved. BRKCRT-9346

    Cisco Public What Is CIDR? The Beginning of the End (binary) Customer Edge Network Requires 4 Class C Addresses 210.40.8.0/24 210.40.9.0/24 210.40.10.0/24 210.40.11.0/24 Internet Service Provider 210.40.8.0/22 PE CE Global Internet 66
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    Cisco Public  Group/summarize: – 172.16.31.0 – 172.16.32.0 – 172.16.33.0 – 172.16.34.0 Summarization or Aggregation 67
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    Cisco Public  Group/summarize: – 172.16.31.31 = 0001 1111 – 172.16.32.32 = 0010 0000 – 172.16.33.33 = 0010 0001 – 172.16.34.34 = 0010 0010 172.16.0.0 /18 Summarization or Aggregation 68
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    Cisco Public  Continue your Networkers at Cisco Live learning experience with further reading from Cisco Press  Check the Recommended Reading flyer for suggested books Recommended Reading Available Onsite at the Cisco Company Store 69
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    Cisco Public Maximize your Cisco Live experience with your free Cisco Live 365 account. Download session PDFs, view sessions on-demand and participate in live activities throughout the year. Click the Enter Cisco Live 365 button in your Cisco Live portal to log in. Complete Your Online Session Evaluation  Give us your feedback and you could win fabulous prizes. Winners announced daily.  Receive 20 Cisco Daily Challenge points for each session evaluation you complete.  Complete your session evaluation online now through either the mobile app or internet kiosk stations. 70
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