You might call it ‘living on the edge.’ A growing number of organizations are moving computing out of the data center, out to the edge of the network. The various reasons for this include increasing numbers of mobile devices and remote users requiring access, expanding digital opportunities, cloud adoption, reduction of network latency and backhaul costs, and more. Making this edge computing possible are technologies such as SDN, SD-WAN and cloud access service broker (CASB) capabilities, all of which provide points of presence (POPs) where distributed workforces need them.
Traditionally, however, easy provision of good security has NOT been one of the drivers for this pivot to the network edge. Hence, many companies that have transformed their network architectures haven’t yet modernized their security architectures. They continue to indirectly route traffic to security engines (tromboning, hairpinning, backhauling), defeating the whole latency advantage and racking up in-house equipment costs. Or worse, they’re not adequately inspecting the edge traffic and payload, leaving their users, network endpoints, cloud data and internal network data exposed to increasingly sophisticated cyberattacks.
That’s all changing with the convergence of computer networking and security at the edge, something IT analyst firm Gartner dubbed the secure access service edge (SASE), pronounced “Sassy.”
The secure access service edge is an emerging solution category combining wide-area network (WAN) functions with security capabilities such as secure web gateway (SWG), cloud access security broker (CASB), firewall-as-a-service (FWaaS), and zero trust architecture (ZTA) to support a wide range of digital transformational requirements.
SASE merges edge computing’s distributed approach – bringing computation and data storage closer to the location where it is needed – along with the advanced security near or at these points of access.
Cloud Security-as-a-Service for Your Edge Computing
However, SASE isn’t a security scenario that data center-based hardware appliances are going to feasibly address. When modernizing your network, your traditional security equipment can get bypassed in your traffic’s shift to a software-defined perimeter. Alternatively, equipment deployments and reconfigurations (in your data center and remote sites) may struggle to keep up with today’s pace of secure connectivity requirements.
Your distributed workforce is accessing cloud providers for things like SaaS applications, while your branch offices and mobile workers take advantage of direct Internet access. Meanwhile, the resultant data is no longer being centrally stored on, or accessed from, the premises. More users, devices, applications, services and data are located outside of an enterprise than inside, according to Gartner. With organizations still responsible for data privacy and security of individual employees and customers, that’s a lot of scattered data to protect.
The edge requires agile management, and this is where security software and software-defined perimeters step in.
From a cybersecurity perspective, protection can now come closer to where access is needed. A software-centric SASE approach can deliver zero trust security best practices over Web gateways, cloud access points, tunnels, and the devices themselves, while eliminating inefficient hairpinning of traffic inspection to your data center or nearest branch-office hardware.
The OPAQ SASE Cloud provides more ubiquitous and local points of presence, with the zero trust architecture capabilities you need to ensure secure access, control and segmentation.
The OPAQ Zero Trust Secure Access Service Edge (SASE)
Whether it’s a branch office, remote workstation, router, or VM, all of these endpoint identities need network access. Before they connect into your private network and data, they must be identified, authenticated, and properly segmented.
OPAQ delivers a Zero Trust Secure Access Service Edge that bases decisions on the identity of the entity at the source of the connection (user, device, branch office, edge computing location, time of day, risk assessment of the user device, and the sensitivity of the data or app being accessed).
Primary components of this Zero Trust SASE architecture include:
- User Authentication: IP spoofing, phishing, social engineering, identify theft, and bot break-ins demand a zero trust view of access. Is the device, person, or service attempting to enter into the network authentic? If access is allowed, what might happen next from a security impact perspective? OPAQ checks for a number of factors including user credentials, MFA, access privileges, device certificates, and more.
- Access Control: Access has moved out to the edge, largely outside of the reach of a perceived private enterprise network. The OPAQ Cloud keeps inspections away from your private data containers, and secures traffic and performance at the edge closer to where access and QoE is sought. Tunneling to the nearest POP, OPAQ SASE provides end-to-end encryption of each session, including over public Wi-Fi networks (cafes, airports, malls, etc.).
- Segmentation: Ransomware and other malware seek to spread and capture data and control as they go about their damaging business. Endpoint connections are underdefended by basic on-device antivirus updates, opening the door for the latest sophisticated attacks. OPAQ continuously extends layered next-generation security across the dissolving network perimeter, reinforcing workstations, VMs and other endpoints, and then making sure that distributed endpoints don’t expose vulnerable in-roads into your core network and data.
- Device State: What are your wandering workstations connecting to? Are these devices adequately protected with antivirus, anti-malware, intrusion detection, and more? How are the devices behaving, and are they putting your network and data at risk? OPAQ device state analysis and control secures multidirectional access for your wandering workforce and stationary endpoints and what they can safely connect to.
Transformational edge computing requires a rotating shield of SASE protection.