Uncovering the Next Infrastructure Blind Spot: SSL

By: Ananda Rajagopal, Vice President of Product Management AnandaRajagopal

Visibility: the Merriam-Webster dictionary defines it as the “capability of affording an unobstructed view”. In the world of business, visibility delivers relevant insight, which can be the difference between just-in-time action and a missed opportunity. This is why traffic-based visibility powers the business of NOW! Yet, the nature of traffic visibility is such that underlying shifts in payload types and patterns requires solutions that can readily adapt to these shifts and provide an unobstructed view of traffic to the administrator.

Many security and network administrators are facing up to an underlying shift in enterprise traffic: a growing portion of it is encrypted within SSL. According to an independent study done by NSS Labs, anywhere from 25%-35% of enterprise traffic is encrypted in SSL and is growing further every month. In some verticals, that number is already higher. By itself, this statistic would not cause a flutter but this is exacerbated by other findings on the state of today’s security and performance monitoring infrastructure:

  • Although inline devices such as ADCs, firewalls etc. have integrated SSL support, out-of-band monitoring and security tools often do not have the ability to access decrypted traffic to perform security and performance analysis. This allows SSL traffic to fly under the radar, creating a potential security loophole.
  • Consequently, performance management tools and many out-of-band security tools are either completely blind to SSL traffic or get overloaded if they decrypt SSL. In discussions with many of our customers, they have pointed out a drop in performance by almost 80% if the tool decrypts SSL.
  • Many security administrators are using larger ciphers for increased security today. A study by NSS Labs noted a performance degradation of 81% in existing SSL architectures.
  • Hackers and cybercriminals are increasingly using SSL sessions to dodge network security defenses. Indeed, a Dec. 9, 2013 Gartner report titled “Security Leaders Must Address Threats From Rising SSL Traffic” by Jeremy D’Hoinne and Adam Hils, “Gartner believes that, in 2017, more than half of the network attacks targeting enterprises will use encrypted traffic to bypass controls, up from less than 5% today”.

In short, the very technology that was supposed to ensure confidentiality is now being exploited by nefarious actors. These are precisely the reasons that have driven us at Gigamon to come with the next innovation in visibility—the industry’s first and only visibility solution with integrated SSL support. With built-in hardware to decrypt SSL sessions at high performance, this new capability provides visibility into a critical blind spot facing administrators today. It is not without reason that analysts, customers and our technology ecosystem partners who have been privy to this development are all agog with excitement!

This new capability is yet another proof point of what GigaSMART can offer to IT and security administrators. GigaSMART is a platform that allows advanced traffic intelligence to be extracted via various applications that can be dynamically enabled and run in combination on a common underlying platform. Contrast this with other visibility products that offer point features to address point problems with point hardware—over time, both capital and operational costs of managing point products rapidly add up until they can no longer offer visibility to the next blind spot the administrator seeks to uncover. Gigamon’s GigaSMART technology solves visibility challenges holistically with a platform-based architectural approach. If you are a Gigamon customer who has already invested in GigaSMART on any of the GigaVUE-H Series platforms, you do not need any new hardware to run this new SSL application! The benefits of this platform-based approach are considerable. Here are three examples related to SSL decryption:

  • You can service chain multiple GigaSMART applications together. Interested in sending encrypted traffic at a remote site to a centrally located data loss prevention appliance? Not a problem. You can run both the tunneling and SSL decryption applications on GigaSMART in combination. Want to monitor secure VM-VM traffic between specific enterprise applications and generate NetFlow records on that traffic? Amen! You can combine tunneling, SSL decryption and the NetFlow generation applications on GigaSMART to generate NetFlow records on encrypted traffic. Have a concern about data misuse after decryption? You can combine SSL decryption with the packet masking/slicing applications on GigaSMART to support compliance with regulatory and/or organizational policies.
  • By combining SSL decryption with clustering in a Visibility Fabric, traffic from low-cost edge ports in the visibility infrastructure is automatically routed to the node in the cluster that has SSL decryption capability. This eliminates the need for SSL decryption solutions to be distributed at multiple locations, saving cost and ensuring better security in key management.
  • By delivering ‘Decryption as a Service’ via the Gigamon Visibility Fabric implemented with GigaSMART, administrators can increase the overall performance of their tooling infrastructure. The SSL traffic is decrypted once and then delivered to every tool that needs it, such as IDS, DLP, anti-malware, and even APM and other non-security tools.

For those who think that visibility can be obtained through mere “tap aggregation”, think again. Visibility must provide insight into infrastructure blind spots. Visibility is about extracting traffic intelligence to increase the performance of security and operational tools connected to the visibility infrastructure so that administrators can get the right insight. The nature of visibility is such that new challenges will arise tomorrow that today’s visibility solution should be able to adapt to—something that a repurposed Ethernet switch is simply not designed for. After all, isn’t visibility about offering an “unobstructed view”?

For more information including example use cases, visit our webpage on SSL Visibility.

Accelerating the Deployment of the Software-Defined Data Center (SDDC) Through Active Visibility

By: Shehzad Merchant, Chief Strategy Officer at Gigamon Shehzad Merchant

The software defined data center promises to be a very dynamic environment. Micro-segmentation, network virtualization and on-demand virtual machine (VM) migration, all bring with them the promise of a highly agile, yet highly optimized data center. However, the move to the SDDC will not happen overnight and migration strategies that help IT administrators make the transition to the SDDC are going to be a key element in the transition to the SDDC and realizing its full promise.

One of the key elements of making the move to the SDDC is the ability of IT to manage, monitor and secure the SDDC while continuing to leverage their investments in their existing tools, as well as their human capital. This can be challenging at times. For example, network virtualization introduces the concepts of overlay and underlay networks. Overlay networks are typically virtual networks that provide tenant isolation as well as service isolation in addition to the separation of location and identity. The physical network infrastructure typically serves as the underlay network. Virtual overlays can be instantiated, extended and removed dynamically based on tenant subscriptions, service guarantees and VM mobility; all of which makes the underlying physical infrastructure more efficient. However, they also make the job of troubleshooting and monitoring more complex for several reasons. The dynamic nature of the overlays, the need to correlate and track traffic between the underlay and overlays, the existing departmental silos between the server and network teams – particularly when the overlays are instantiated in the server/hypervisor domain, but are routed over a physical underlay network – can all be barriers to rapid troubleshooting, performance optimization and security. Furthermore, they introduce multiple planes of traffic to monitor and secure. Similarly, VM migration can now occur over a segmented Layer 3 underlay network through the use of network overlays, thereby maintaining session continuity. This allows the underlying physical infrastructure to scale out through Layer 3 segmentation. However, it also poses a challenge from the perspective of application performance management (APM) and security monitoring. This is because the tools that depend on traffic visibility for analyzing application performance or for managing and limiting the threat envelope, can encounter blind spots when VMs move to different locations and their traffic is no longer visible to the tool at its original location.

In order to better address the operational aspects of managing, troubleshooting, and securing the SDDC, Gigamon and VMware have recently announced a new partnership that promises to simplify, and indeed accelerate, the migration to the SDDC through solutions that work in an NSX environment. The solutions extend the ability of IT Operations and Management (ITOM) to monitor and manage NSX environments while continuing to leverage their investment in their monitoring tools, as the data center evolves to a software defined model. Gigamon’s solutions will bring active, traffic-based visibility into dynamic virtual environments enabled by NSX, by automating monitoring policies to actively track VMs in an NSX environment thereby eliminating blind spots. The solution will bring visibility into east-west as well as north-south traffic flows in an NSX environment. In addition, Gigamon’s solutions will also enable active traffic- visibility into VXLAN-based overlays and physical underlays in the NSX environment, thereby simplifying and indeed adapting the traffic to the needs of the monitoring tools.

The role of traffic based visibility is only increasing as applications are virtualized and infrastructure moves to a software defined model. Looking at actual traffic provides a true assessment of real time conditions both from a performance monitoring perspective as well as from a security perspective. Gigamon, along with VMware, are committed to bringing solutions to the market that increase traffic visibility as the data center transforms into a more agile, software defined data center.

Putting the (Whitebox) Cart Before the (SDN) Horse?

By: Shehzad Merchant, Chief Strategy Officer at Gigamon Shehzad Merchant

The network today is more critical to the success of IT than ever before. As such, any disruptive change in networking has to be one that is assimilated into the production environment using a measured and carefully phased approach.

We are early in the SDN cycle and the deployment challenges associated with making SDN mainstream, including areas such as security, resiliency and scale, are still in the process of being ironed out.

One area that is still quite nascent when it comes to SDN is the area of monitoring, troubleshooting, and instrumentation. The ability for tools to monitor and manage SDN deployments is evolving, and with it, the ability to troubleshoot, manage, and respond to network issues in real time. All of this points to the fact that the success of SDN will largely depend on the quality of the implementations, the support model behind those implementations and the commitment of vendors to invest in quality, scalable and enterprise or carrier class SDN implementations.

However, we are seeing a big push towards cheaper bare metal and whitebox types of solutions leveraging merchant silicon in parallel to the interest in SDN. In isolation, these are both powerful and empowering trends; SDN for the operational simplicity it brings to the table, whitebox technology for driving down cost and opening up an eco-system of vendors.

But, this is worrisome because if history is any indicator, the adoption and maturing of a new disruptive technology or set of technologies, such as SDN, has typically preceded the commoditization of that technology. In other words, gaining a good understanding of a new technology, securing it, scaling it, and having the ability to manage and troubleshoot it, need to be resolved before the technology can be successfully commoditized.

Are we putting the whitebox cart before the SDN horse?

In my blog post on SDN Central, I explore why I think whitebox networking combined with SDN concurrently seems like taking on too much risk.

For the full blog post, visit SDN Central.

RSA 2014 Recap: The Year of Pervasive Security and Analytics

by: Neal Allen, Sr. Worldwide Training Engineer, GigamonNeal-Allen

According to ESG research and Jon Oltsik, Sr. Principal Analyst at ESG: 44% of organizations believe that their current level of security data collection and analysis could be classified as “big data,” while another 44% believe that their security data collection and analysis will be classified as “big data” within the next two years. (note: In this case, big data security analytics is defined as, ‘security data sets that grow so large that they become awkward to work with using on-hand security analytics tools’).

This trend was highlighted at the RSA Conference the week before last with many organizations including Gigamon talking about ways security professionals can sift through the noise to find “the needle in the haystack.” Large amounts of security related data is driving the need for Big Data security analytics tools that can make sense of all this information to uncover and identify malicious and anomalous behavior.

Prior to a few years ago, threats were largely script kiddies and other unsophisticated hackers looking to disrupt communications. Organized crime then discovered they could make a lot of money selling access into corporate networks – so they started hiring really smart people to hack in. Around the same time, some governments created formal, but unofficial, departments whose job it was to steal third party intellectual property in order to advance their nation.

Between organized crime and state-sponsored industrial espionage, the interior of the network is at as much risk as the perimeter. This is particularly true with the growth in BYOD and mobility in general. If security analytics and security tool vendors are having problems keeping up with newly upgraded 10Gb edge links, then how will they deal with core networks where there are lots and lots of 10Gb, 40Gb or faster links? Not to mention, user edge traffic often times is not even tapped or spanned because of the potentially high costs of monitoring copious amounts of data across expansive networks.

The nature of security is evolving quickly and no one technique or approach to securing the network suffices anymore. Companies focused around security are now embracing multiple approaches in parallel to address security effectively. These include solutions that are inline and out-of-band, as well as solutions that do packet-level analysis and flow-level analysis. Gigamon, together with its Ecosystem Partners, presented at RSA and highlighted the critical role Gigamon’s Visibility Fabric™ plays in enabling pervasive security for best-in-breed solutions from Sourcefire/Cisco, ForeScout, FireEye, Websense, TrendMicro, Riverbed, Narus, LogRhythm and nPulse.

An effective solution that enables pervasive security should serve up the ability to address a multitude of approaches. The Gigamon Visibility Fabric does exactly that with highly scalable and intelligent solutions to address inline, out-of-band, packet-based and now flow-based security tools and approaches. In addition, Gigamon’s Visibility Fabric has the ability to combine approaches effectively, including packet-based pre-filtering prior to generating NetFlow. Gigamon’s Visibility Fabric is necessary to accelerate post analysis – through granular filtering and forwarding of packets, as well as pervasive flow-level visibility – to find that “needle in the haystack.”

We’ve entered into a new world of network security and providing insightful security analytics can be just as important as the ability to detect threats from across the network in real time. Walking around the booths at RSA, it was clear that without pervasive visibility most networks will be left with limited or delayed situational awareness, security intelligence and operational responsiveness. In a rapidly moving world, this delay may be too late.