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Don’t let IPv4 exhaustion stop your growth

Carrier-grade networking, including CGNAT and IPv4-IPv6 transition, offers the essential platform for CSP’s long-term, high-speed broadband plans.

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Dont let IPv exhaustion

Carrier-grade networking, including CGNAT and IPv4-IPv6 transition, offers the essential platform for CSP’s long-term, high-speed broadband plans.

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Adrian Taylor

By Adrian Taylor & Sanjai Gangadharan

As rural broadband initiatives help bridge the digital divide, communications service providers (CSPs) have a wealth of opportunities to add subscribers, expand territory, and grow their business. However, they will first need to address the challenges posed by IPv4 exhaustion – and its impact on the cost of new subscriber IP addresses.

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Since November 2019, when the final allocation of publicly available IPv4 addresses was made, new IPv4 addresses have been obtainable only at high open market prices. There is a virtually unlimited stock of IPv6 addresses available, but migration to the new standard is a highly complex prospect and impractical in the short term for many CSPs. They need a more feasible and affordable way to support new subscribers.

Fortunately, there’s another way forward. Carrier-grade NAT (CGNAT), a standard for network address translation (NAT), makes it possible to extend the life of existing IPv4 addresses to support additional subscribers. In this way, CSPs can capture new opportunities for growth while simultaneously positioning their business for IPv6 migration when the time is right.

CGNAT, a standard for network address translation (NAT), makes it possible to extend the life of existing IPv4 addresses to support additional subscribers.

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More opportunities for CSPs

While broadband plays a central role in people’s lives, millions of households in both rural and urban communities still lack access to high-speed internet from broadband services from either fiber to the premises (FTTP), fixed wireless internet, or mobile ISP. This represents a vast potential market CSPs. The accelerated support for rural broadband initiatives and digital divide programs are further turbo-charging the opportunity.

Meanwhile, demand for broadband services is surging. As the COVID-19 pandemic shifted broad swathes of modern life online, average broadband network usage in the UK doubled in 2020 compared to 2019.

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Rural broadband networks have performed well, thanks in part to infrastructure investments by rural broadband providers and an increase in FTTP penetration. This robust connectivity paves the way for new opportunities for both CSPs and underserved communities and customers, facilitating the introduction of new services such rich content experiences, new forms of collaboration, distance learning, telehealth, internet of things (IoT), precision agriculture, and more. However, one problem that CSPs will need to address upfront is IPv4 exhaustion. It is a significant issue, but a solvable one.

Overcoming IPv4 exhaustion

The cost of acquiring more IPv4 addresses to support new growth has escalated rapidly over the last few years, as the last remaining IPv4 addresses from Regional Internet Registries (RIRs) have been fully allocated. IPv6 migration is a complex and long-term prospect, and even if CSPs decide to switch their infrastructure, they’d still need to support IPv4 at the same time in order to carry IPv4 content and accommodate IPv4 devices.

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In order to accommodate large waves of new customers connecting to broadband services, many CSPs will need to find a way to extend the utility of their current IPv4 addresses.

CGNAT, also known as large-scale NAT (LSN), offers a solution. In a standard NAT design, network address translation enables a single public IPv4 address to be shared across the devices on a private network. CGNAT adds an additional translation layer to NAT that allows service providers to share their own public IPv4 addresses across the private IPv4 networks of multiple subscribers, multiple devices of a single subscriber, or multiple businesses.

By using architecture models like NAT44 or NAT444, CGNAT can expand IP address pools by 40-60x or more. This helps CSPs support new subscribers and drive growth without the need to purchase new IPv4 numbers on the open market, or to upgrade or enhance home modems, routers, or cellular phones.

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Even if CSPs chose to switch their infrastructure, they’d still need to support IPv4 in order to carry IPv4 content and accommodate IPv4 devices.

Building DDoS protection into growing networks

As CSPs leverage address translation technologies to grow their footprint and reach new rural broadband initiatives and digital divide customers, they need to keep security top-of-mind; service provider networks are big targets for distributed denial of service (DDoS) attacks. Traditionally, a DDoS attack on a CSP’s infrastructure was somewhat isolated. If an individual subscriber was targeted, the attack was contained to their service. With a NAT gateway in place, however, hackers can target the gateway itself to take down the access of large swaths of subscribers. They can also target an individual subscriber and jump to the corresponding NAT gateway to propagate their attack to other subscribers.

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A CGNAT solution can help CSPs protect subscribers from DDoS attacks and ensure that the NAT gateway itself is not compromised. Mitigation techniques include IP anomaly protection to recognize and drop traffic from common attack signatures; Internet Control Message Protocol (ICMP) rate-limiting; CPU overload protection caused by spoofing attacks; connection rate limiting; and automatic IP address blacklisting to mitigate attacks targeting NAT pool addresses.

Bridging the transition to IPv6

While CSPs address the immediate challenge of IPv4 exhaustion, they should also be making plans for an eventual transition to IPv6 – an evolution that is underway among online content providers and large mobile network operators as they have already migrated networks to 4G and 5G. The interconnected nature of IPv6 adoption makes it a complex and long-term process.

To achieve full IPv6 adoption globally, each link in the chain must be running IPv6, from the end-user to the carrier, to the content provider. Realistically, not all three of these links in the chain will switch over at the same time. Subscribers will always want to connect to as many endpoints as possible, including at least a few IPv4-only websites. As a result, even companies with IPv6 implementation in their networks will need to communicate with legacy IPv4 servers and applications. On the other side of the equation, IPv4 customers need to be able to use services developed with IPv6.

A complete carrier-grade networking (CGN) solution should provide both CGNAT and IPv4-IPv6 migration techniques. By enabling connectivity between IPv4 and IPv6 devices, networks, and internet destinations, these solutions can help CSPs extend the life of their current IPv4 investments while they evolve and manage the hybrid IPv4 and IPv6 infrastructure environment.

A CGNAT solution can help CSPs protect subscribers from DDoS attacks and ensure that the NAT gateway itself is not compromised.

As CSPs seek to offer high-speed broadband, while also dealing with IPv4 exhaustion, and planning for IPv6 adoption, carrier-grade networking including CGNAT and IPv4-IPv6 transition is becoming an essential platform for long-term growth.

Taylor (left) is Regional VP, and Gangadharan is Regional Director, SAARC, A10 Networks

feedbackvnd@cybermedia.co.in

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