Connectivity  Colocation  Cloud Services Why You Can’t Ignore IPv6 Presented by Kirk Coviello VP of Support Services, Digital West Networks, Inc.

Slides:

Advertisements

Similar presentations

Where Do We Go From Here? John Curran ARIN President & CEO

Advertisements

IPv6: Hype or Reality? Tim Helming Director of Product Management Corey, Nachreiner, CISSP, Sr. Network Security Strategist,

IPv6 in der Praxis Vortragsreihe von Michael Dirska Hasso-Plattner-Institut Potsdam

Why IPv6? Roque Gagliano LACNIC.

IPv6 Transition Roque Gagliano What is transition? IPv4 only.IPv4 Only Bone is borned IPv4 Only Experimental IPv6. Majority:

Overall Outline Introduction to IPv6, Addressing & Routing ICMPv6 and Neighbour Discovery DNSSecurity QoS, Mobility Multicast, Transition OS and Platform.

IPv6 Transition for Enterprises Light Reading Live 14 July 2011 John Curran President and CEO ARIN.

Planning Your Conversion from IPv4 to IPv6 John Curran ARIN President & CEO This presentation describes the impending depletion of Internet Protocol version.

Deploying IPv6: The time is now Are you ready? SFTA 24 May 2012 John Curran President and CEO, ARIN.

IPv6: No Longer Optional John Curran President & CEO, ARIN.

Migration to IPv6 – Has Tomorrow Finally Arrived? John Curran ARIN President & CEO.

IPv6: Moving to Adoption John Curran ARIN President & CEO 17 May 2010.

How Do We Finally Get to IPv6 Interop–Las Vegas 11 May 2011 John Curran President and CEO ARIN.

Disruption (and Recovery) of the ISP Business Model with IPv4 Depletion PTC12 15 January 2012 John Curran President and CEO, ARIN.

Demystifying IPv6: Ensuring a Smooth Transition John Curran ARIN President & CEO This presentation describes the impending depletion of Internet Protocol.

Supporting Internet growth and evolution: The Transition to IPv6 CNNOS 14 July Sanjaya Services Director, APNIC.

Floating Cloud Tiered Internet Architecture Current: Rochester Institute of Technology, Rensselaer Polytechnic Institute, University of Nevada, Reno Level.

Ch 20. Internet Protocol (IP) Internetworking PHY and data link layers operate locally.

IPv6 Addressing John Rullan Cisco Certified Instructor Trainer Thomas A. Edison CTE HS Stephen Lynch Network Architect, CCIE #36243 ABS Technology Architects.

© 2008 Cisco Systems, Inc. All rights reserved.Cisco ConfidentialPresentation_ID 1 Chapter 8: Subnetting IP Networks Network Fundamentals.

Chapter 20 Network Layer: Internet Protocol

IPv4 to IPv6 Network Address Translation. Introduction 4 What is the current internet addressing scheme and what limitations does it face. 4 A new addressing.

The TCP/IP Model  Internet Protocol Address.  Defined By IANA [Internet Assigned Number Authority] in  IP Address is a Logical Address and it.

1. Also known as IPng (next generation) Developed to alleviate IPv4 address exhaustion A new version of the Internet Protocol Improve upon IP protocol.

Objectives: Chapter 4: IP Addressing  Internet Architecture IPv4 Addressing IP address Classes Subnets and subnet mask Subnets design with IP addressing.

Chapter 9: Subnetting IP Networks

Introduction to IPv6 Presented by: Minal Mishra. Agenda IP Network Addressing IP Network Addressing Classful IP addressing Classful IP addressing Techniques.

IPv4 - IPv6 Integration and Coexistence Strategies Warakorn Sae-Tang Network Specialist Professional Service Department A Subsidiary.

Transitioning to IPv6 April 15,2005 Presented By: Richard Moore PBS Enterprise Technology.

IPv4 to IPv6 Migration strategies. What is IPv4  Second revision in development of internet protocol  First version to be widely implied.  Connection.

IPv6 Victor T. Norman.

Project by: Palak Baid (pb2358) Gaurav Pandey (gip2103) Guided by: Jong Yul Kim.

IPv6-The Next Generation Protocol RAMYA MEKALA UIN:

Implementing IPv6 Module B 8: Implementing IPv6

© 2007 Cisco Systems, Inc. All rights reserved.ICND2 v1.0—7-1 Address Space Management Transitioning to IPv6.

Enabling IPv6 in Corporate Intranet Networks

© 2007 Cisco Systems, Inc. All rights reserved.Cisco Public 1 Addressing the Network – IPv4 Network Fundamentals – Chapter 6.

Module 4: Configuring Network Connectivity

IPv6 Network Security.

Understanding Internet Protocol

© 2007 Cisco Systems, Inc. All rights reserved.Cisco Public 1 Version 4.0 Addressing the Network – IPv4 Network Fundamentals – Chapter 6.

Chapter 6 Network Address Translation (NAT). Network Address Translation  Modification of source or destination IP address  Needed by networks using.

Introduction to IPv6 NSS Wing,BSNL Mobile Services, Ernakulam 1.

1 IPv6 Address Management Rajiv Kumar. 2 Lecture Overview Introduction to IP Address Management Rationale for IPv6 IPv6 Addressing IPv6 Policies & Procedures.

© 2007 Cisco Systems, Inc. All rights reserved.ISCW-Mod3_L7 1 Network Security 2 Module 6 – Configure Remote Access VPN.

30/11/ Q & A on Networking. Question No. 1 What is Networking? Two or more computers that are linked in order to share – Resources (such as printers.

1Group 07 IPv6 2 1.ET/06/ ET/06/ ET/06/ EE/06/ EE/06/ EE/06/6473 Group 07 IPv6.

1 © 2003, Cisco Systems, Inc. All rights reserved. CCNA 4 v3.0 Module 1 Scaling IP Addresses.

© 2006 Cisco Systems, Inc. All rights reserved.Cisco Public BSCI Module 8 Lessons 1 and 2 1 BSCI Module 8 Lessons 1 and 2 Introducing IPv6 and Defining.

Guide to TCP/IP Fourth Edition

Module 3: Designing IP Addressing. Module Overview Designing an IPv4 Addressing Scheme Designing DHCP Implementation Designing DHCP Configuration Options.

© 2007 Cisco Systems, Inc. All rights reserved. 1 Network Addressing Networking for Home and Small Businesses – Chapter 5 Darren Shaver – Modified Fall.

IPv6, the Protocol of the Future, Today Mathew Harris.

1 Objectives Identify the basic components of a network Describe the features of Internet Protocol version 4 (IPv4) and Internet Protocol version 6 (IPv6)

Ch 6: IPv6 Deployment Last modified Topics 6.3 Transition Mechanisms 6.4 Dual Stack IPv4/IPv6 Environments 6.5 Tunneling.

W&L Page 1 CCNA CCNA Training 3.4 Describe the technological requirements for running IPv6 in conjunction with IPv4 Jose Luis Flores /

70-293: MCSE Guide to Planning a Microsoft Windows Server 2003 Network, Enhanced Chapter 4: Planning and Configuring Routing and Switching.

Using IP Addressing in the Network Design

1 Objectives Identify the basic components of a network Describe the features of Internet Protocol version 4 (IPv4) and Internet Protocol version 6 (IPv6)

IPv6 Transition Mechanisms - 6DISS Workshop - 5 March 2006 IPv6 Transition Mechanisms, their Security and Management Georgios Koutepas National Technical.

1 Layer 3: Routing & Addressing Honolulu Community College Cisco Academy Training Center Semester 1 Version

MCTS Guide to Microsoft Windows Server 2008 Network Infrastructure Configuration Chapter 3 Networking with Windows Server 2008.

BGP 1. BGP Overview 2. Multihoming 3. Configuring BGP.

ECSE-6600: Internet Protocols

LESSON 3.3_A Networking Fundamentals Understand IPv6 Part 1.

Chapter 9 Objectives Understand TCP/IP Protocol.

Computer Networks Protocols

Internet Protocol version 6 (IPv6)

Presentation transcript:

Connectivity  Colocation  Cloud Services Why You Can’t Ignore IPv6 Presented by Kirk Coviello VP of Support Services, Digital West Networks, Inc.

Connectivity  Colocation  Cloud Services Agenda What is IPv6 and how does it differ from IPv4? Why do I need to deal with IPv6 now? What should I do about IPv6? How should I go about deploying IPv6?

Connectivity  Colocation  Cloud Services What is IPv6? How does it differ from IPv4?

Connectivity  Colocation  Cloud Services What is IPv6? New numbering scheme for the Internet Think of the phone book: = Now, imagine an Area Code Split…

Connectivity  Colocation  Cloud Services How does IPv6 differ from IPv4? IPv4 Address Range – a 32-bit length divided into 4 “octets”: > Sample IPv4 Address:

Connectivity  Colocation  Cloud Services How does IPv6 differ from IPv4? IPv6 Address Range – 128-bit length divided into 8 hexadecimal groups Sample IPv6 Address: 2001:48C0:1001:0009:0000:0000:00ac:58ce 2001:48C0:1001:0009:0:0:00ac:58ce 2001:48C0:1001:0009::00ac:58ce

Connectivity  Colocation  Cloud Services How does IPv6 differ from IPv4? Total “available”* IPv4 addresses: 4,294,967,296 Total “available” IPv6 addresses: 340,282,366,920,938,463,463,374,607,431, 768,211,456 – 340 “undecillion”!!! (*- not all of these are “usable”)

Connectivity  Colocation  Cloud Services IPv6: Bigger, Better, Leaner, Faster More address space! Built with future features in mind (Multicast and QOS) Smaller routing tables Smaller header Elimination of Network Address Translation

Connectivity  Colocation  Cloud Services A Brief Primer on NAT:

Connectivity  Colocation  Cloud Services A Long Time Ago in a Laboratory Far, Far Away… IP was originally meant for sharing data, not protecting it The Internet was a “closed open” network IPv6 was in development before NAT NAT will be unnecessary in the long term

Connectivity  Colocation  Cloud Services Why do I need to deal with IPv6 now?

Connectivity  Colocation  Cloud Services IPv6 Has Real Benefits Quality of Service (QOS) is better Simplified header = faster processing Scalability (larger # of addresses) Simpler to subnet (consistent /64 parcels) IPv6 is already here…

Connectivity  Colocation  Cloud Services You’re soaking in it already!

Connectivity  Colocation  Cloud Services Can’t Sleep, Hackers Will Eat Me…

Connectivity  Colocation  Cloud Services IPv6, Your Firewall, and You: IPv6 includes auto-discovery protocol IPv6 can tunnel over IPv4 IPv6-aware routers will pass this traffic - unless prevented Documented cases exist of IPv6 “conversations” entering networks via the Internet based on Toredo and other tunneling protocols

Connectivity  Colocation  Cloud Services What should I do about IPv6?

Connectivity  Colocation  Cloud Services Please Don’t Do This:

Connectivity  Colocation  Cloud Services Other Options? Turn OFF IPv6 everywhere? No. Turn ON IPv6 everywhere? No. Run out and apply for IPv6 space? Change to an ISP that offers IPv6? Maybe…

Connectivity  Colocation  Cloud Services Network Administrators: Get RILED About IPv6! Review – IPv6 Technology Investigate – Your network topology Learn – Wireshark or other tools Evaluate – Your security policies and options for internal and external IPv6 Deploy – IPv6 where it makes sense

Connectivity  Colocation  Cloud Services How should I go about deploying IPv6?

Connectivity  Colocation  Cloud Services Divide and Conquer… External resources need IPv6 first Internal resources WILL need it eventually Start querying your software vendors NOW about IPv6

Connectivity  Colocation  Cloud Services Dual-Stack for Your Convenience: Concurrent IPv4 and IPv6 inevitable Multiple IPv6 transition mechanisms: (Teredo, ISATAP, 6to4, 6in4, 6over4, etc.) DNS Records at Digital West started advertising IPv6 over a year ago

Connectivity  Colocation  Cloud Services PPPPPPP… Plan to adopt now so that you’re not forced to later Check with your ISP to see what they are doing with IPv6 Check with your hardware vendors: –Routers (SOHO devices not IPv6-aware) –VoIP PBX/Phones –Print Servers

Connectivity  Colocation  Cloud Services Why You Don’t Want IPv4 Forever Sites and applications with native IPv6 may not behave well with NAT Future Internet resources will have IPv6- only Connectivity issues due to double or triple NAT (latency/troubleshooting)

Connectivity  Colocation  Cloud Services Double NAT = Double Jeopardy c:\>tracert linode.com -d Tracing route to linode.com [ ] over a maximum of 30 hops: 1 <1 ms * <1 ms ms <1 ms <1 ms <1 ms <1 ms <1 ms ms 23 ms 45 ms ms 20 ms 85 ms ms 24 ms 79 ms ms 79 ms 11 ms ms 110 ms 108 ms ms 240 ms 94 ms ms 179 ms 95 ms <- Private IP address on the Internet ms 80 ms 190 ms ms 164 ms 157 ms ms 185 ms 186 ms ms 194 ms 195 ms ms 188 ms 190 ms ms 185 ms 185 ms ms 184 ms 187 ms Trace complete.

Connectivity  Colocation  Cloud Services Digital West - What We Learned Plan ahead Review vendor bug submissions Document needed steps for activation/deactivation of everything in test environment Test after hours! Test more with end users – after hours!

Connectivity  Colocation  Cloud Services Vigilance Required Once IPv6 is deployed, don’t ignore IPv4 Leaving IPv4 in place eternally widens your footprint Take the next step – talk to your IT Department or IT Consulting firm – questions are in your packet!

Connectivity  Colocation  Cloud Services Know That You Are Not the First:

Connectivity  Colocation  Cloud Services Questions?