The use of unmanaged and IoT devices in enterprises is growing exponentially, and will account for 55.7 billion connected devices by the end of 2025. A critical concern is deploying IoT devices without requisite security controls.
While these numbers are numbing, their reality is undeniable. 90% of customers believe digitization has accelerated the importance placed upon security. The World Economic Forum now lists cybersecurity failure as a critical threat, and estimates a gap of more than 3 million security experts worldwide, hindering secure deployments at scale. Furthermore, 83% of IoT-based transactions happen over plaintext channels and not SSL, making them especially risky.
Securing an IoT device can be achieved either through securing the IoT device itself, or hardening the network it accesses. Securing devices can be cumbersome, requiring complex manufacturing partnerships and increasing unit prices, thereby reducing adoption. On the other hand, securing the network is always desirable as it helps secure access, encrypt traffic, and ease management.
Being a leader in both security and networking, Cisco continues to bring security closer to networking, providing the network with built-in security, and enabling the network to act both as sensor and as an enforcer. The convergence of security and networking leverages the network’s intelligence and visibility to enable more-informed decisions on policy and threats.
Cisco uniquely integrates security and networking, for instance we recently integrated Cisco Secure Firewall to operate on Cisco Catalyst 9000 Series switches. Additionally, Secure Firewall can be deployed in a containerized form, on-premises and in clouds. Cisco Secure Firewall classifies traffic and protects applications while stopping exploitation of vulnerable systems. Additionally, we offer Identity Services Engine with AI Endpoint Analytics to passively identify IoT devices and apply segmentation policies. Furthermore, Cisco offers management flexibility by integrating with Cisco Defense Orchestrator and DNA Center and with existing customer tools like SIEMs and XDRs.
Let’s look at three use cases where the addition of Secure Firewall capability on Catalyst 9000 Series switches solves real world problems:
Use case 1: Securing the Smart Building: This solution is ideal to secure smart buildings, converging various IoT systems into a single IT-managed network infrastructure. Smart buildings lower the operational and energy costs. Smarter building systems, however, pose serious security risks as these include so many unmanaged devices such as window shades, lighting, tailored HVAC, and more. One of the methods to secure smart buildings is to control access to avoid manipulation of sensors. Such control is attained with a networking switch with enhanced firewall capability. The firewall ensures granular segmentation, directing policies for traffic generated out of IoT devices, providing access to the right users. This integration also brings security closer to endpoints, making policy orchestration simpler.
Use Case 2: Centrally manage isolated IoT network clusters: IoT devices which communicate with each other in the same subnet typically cannot be routed, which is a challenge. By default, most IoT networks are configured in the same subnet, making it difficult to manage them centrally. Administrators are forced to physically connect to the IoT network to manage and collect telemetry. Furthermore, IoT vendors often charge hefty amounts to update IP addresses of devices. Cisco Secure Firewall, hosted on the Catalyst switch, solves this problem and not only inspects traffic from the IoT network but also translates duplicate IoT IP addresses to unique global IP addresses using NAT for centralized management of isolated IoT networks.
Use Case 3: Securely encrypt IoT traffic passing through a shared IT network: At airports, for example, multiple vendors manage unique systems such as baggage, air quality, biometric access control, etc, which share a common network. IoT traffic is usually in plain text, making it susceptible to packet sniffing, eavesdropping, man-in-the-middle attacks, and other such exploits. The IPSec capability on Cisco Secure Firewall encrypts IoT traffic, securing data transfer and reducing risk.
Cisco’s IoT initiatives join the once disconnected worlds of IT and IoT, unifying networking and security. For further details refer to the At-A Glance and see how and an Australian oil company, Ampol, fortified its retail IoT with Cisco Secure!
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Julius “Zeekill” Kivimäki, a 25-year-old Finnish man charged with extorting a local online psychotherapy practice and leaking therapy notes for more than 22,000 patients online, was arrested this week in France. A notorious hacker convicted of perpetrating tens of thousands of cybercrimes, Kivimäki had been in hiding since October 2022, when he failed to show up in court and Finland issued an international warrant for his arrest.
In late October 2022, Kivimäki was charged (and “arrested in absentia,” according to the Finns) with attempting to extort money from the Vastaamo Psychotherapy Center. In that breach, which occurred in October 2020, a hacker using the handle “Ransom Man” threatened to publish patient psychotherapy notes if Vastaamo did not pay a six-figure ransom demand.
Vastaamo refused, so Ransom Man shifted to extorting individual patients — sending them targeted emails threatening to publish their therapy notes unless paid a 500-euro ransom.
When Ransom Man found little success extorting patients directly, they uploaded to the dark web a large compressed file containing all of the stolen Vastaamo patient records.
But as documented by KrebsOnSecurity in November 2022, security experts soon discovered Ransom Man had mistakenly included an entire copy of their home folder, where investigators found many clues pointing to Kivimäki’s involvement. From that story:
“Among those who grabbed a copy of the database was Antti Kurittu, a team lead at Nixu Corporation and a former criminal investigator. In 2013, Kurittu worked on an investigation involving Kivimäki’s use of the Zbot botnet, among other activities Kivimäki engaged in as a member of the hacker group Hack the Planet (HTP).”
“It was a huge opsec [operational security] fail, because they had a lot of stuff in there — including the user’s private SSH folder, and a lot of known hosts that we could take a very good look at,” Kurittu told KrebsOnSecurity, declining to discuss specifics of the evidence investigators seized. “There were also other projects and databases.”
According to the French news site actu.fr, Kivimäki was arrested around 7 a.m. on Feb. 3, after authorities in Courbevoie responded to a domestic violence report. Kivimäki had been out earlier with a woman at a local nightclub, and later the two returned to her home but reportedly got into a heated argument.
Police responding to the scene were admitted by another woman — possibly a roommate — and found the man inside still sleeping off a long night. When they roused him and asked for identification, the 6′ 3″ blonde, green-eyed man presented an ID that stated he was of Romanian nationality.
The French police were doubtful. After consulting records on most-wanted criminals, they quickly identified the man as Kivimäki and took him into custody.
Kivimäki initially gained notoriety as a self-professed member of the Lizard Squad, a mainly low-skilled hacker group that specialized in DDoS attacks. But American and Finnish investigators say Kivimäki’s involvement in cybercrime dates back to at least 2008, when he was introduced to a founding member of what would soon become HTP.
Finnish police said Kivimäki also used the nicknames “Ryan”, “RyanC” and “Ryan Cleary” (Ryan Cleary was actually a member of a rival hacker group — LulzSec — who was sentenced to prison for hacking).
Kivimaki and other HTP members were involved in mass-compromising web servers using known vulnerabilities, and by 2012 Kivimäki’s alias Ryan Cleary was selling access to those servers in the form of a DDoS-for-hire service. Kivimäki was 15 years old at the time.
The DDoS-for-hire service allegedly operated by Kivimäki in 2012.
In 2013, investigators going through devices seized from Kivimäki found computer code that had been used to crack more than 60,000 web servers using a previously unknown vulnerability in Adobe’s ColdFusion software.
KrebsOnSecurity detailed the work of HTP in September 2013, after the group compromised servers inside data brokers LexisNexis, Kroll, and Dun & Bradstreet.
The group used the same ColdFusion flaws to break into the National White Collar Crime Center (NWC3), a non-profit that provides research and investigative support to the U.S. Federal Bureau of Investigation (FBI).
As KrebsOnSecurity reported at the time, this small ColdFusion botnet of data broker servers was being controlled by the same cybercriminals who’d assumed control over ssndob[.]ms, which operated one of the underground’s most reliable services for obtaining Social Security Number, dates of birth and credit file information on U.S. residents.
Multiple law enforcement sources told KrebsOnSecurity that Kivimäki was responsible for making an August 2014 bomb threat against former Sony Online Entertainment President John Smedley that grounded an American Airlines plane. That incident was widely reported to have started with a tweet from the Lizard Squad, but Smedley and others said it started with a call from Kivimäki.
Kivimäki also was involved in calling in multiple fake bomb threats and “swatting” incidents — reporting fake hostage situations at an address to prompt a heavily armed police response to that location.
Kivimäki’s apparent indifference to hiding his tracks drew the interest of Finnish and American cybercrime investigators, and soon Finnish prosecutors charged him with an array of cybercrime violations. At trial, prosecutors presented evidence showing he’d used stolen credit cards to buy luxury goods and shop vouchers, and participated in a money laundering scheme that he used to fund a trip to Mexico.
Kivimäki was ultimately convicted of orchestrating more than 50,000 cybercrimes. But largely because he was still a minor at the time (17) , he was given a 2-year suspended sentence and ordered to forfeit EUR 6,558.
As I wrote in 2015 following Kivimäki’s trial:
“The danger in such a decision is that it emboldens young malicious hackers by reinforcing the already popular notion that there are no consequences for cybercrimes committed by individuals under the age of 18.
Kivimäki is now crowing about the sentence; He’s changed the description on his Twitter profile to “Untouchable hacker god.” The Twitter account for the Lizard Squad tweeted the news of Kivimäki’s non-sentencing triumphantly: “All the people that said we would rot in prison don’t want to comprehend what we’ve been saying since the beginning, we have free passes.”
Something tells me Kivimäki won’t get off so easily this time, assuming he is successfully extradited back to Finland. A statement by the Finnish police says they are seeking Kivimäki’s extradition and that they expect the process to go smoothly.
Kivimäki could not be reached for comment. But he has been discussing his case on Reddit using his legal first name — Aleksanteri (he stopped using his middle name Julius when he moved abroad several years ago). In a post dated Jan. 31, 2022, Kivimäki responded to another Finnish-speaking Reddit user who said they were a fugitive from justice.
“Same thing,” Kivimäki replied. “Shall we start some kind of club? A support organization for wanted persons?”
Be impeccable with your words. It’s the first of the Four Agreements – a set of universal life principles outlined in the bestselling book by Don Miguel Ruiz. ‘Being impeccable with your words’ is my favorite, and it’s no surprise. As a product marketer, I spend most of my daily existence casting about for the perfect word to use in web copy, a webinar, or video script.
Words can connect us, as well as divide us. In helping to develop the message that Cisco takes to the market about zero trust, I try to be as impeccable as I can with each word. After all, cybersecurity is too important to be cavalier about what is possible – within a particular use case, product, or service.
Clarifying what zero trust means to you comes first. The zero trust principles reflect another of the four agreements: ‘Don’t make assumptions’. Don’t assume that a user or device is trusted based on their presence on the network, their type of device, or any other aspect of the connection request. Instead, verify it.
At the same time, don’t assume that everyone in your organization is in accord with, or clear on the goals of a zero trust initiative. Confirm goals and clearly communicate them. Over the past year, I’ve met with several customers keen to embark on zero trust and generally those goals involve one or more of the following:
The phrase zero trust does not inspire trust, clarity, or transparency. No name is perfect, but the challenge with calling an architecture that is consistent with a ‘never assume trust, always verify it, and enforce the principle of least-privilege’ policy ‘zero trust’ is that it sends the message that ‘one cannot ever be trusted’.
Changing the mindset of anyone is already a complex undertaking, but
starting off with a lack of trust (even if it’s only a word) doesn’t help.
Zero trust is simply good security. Zero trust is a conversation about the totality of the security stack, and how to bring it to bear in ways that allow teams to…
Simply put, make sure that one only has access to resources they need and that any violations of this policy are investigated.
Relationships build trust – an essential ingredient for zero trust momentum. In the Harvard Business Review’s “Begin with Trust”, Frances Frei and Anne Morriss describe three key drivers for trust: authenticity, logic, and empathy. Perhaps we can apply these drivers within the context of zero trust security:
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In today’s security climate, NetOps and SecOps teams are witnessing increased attack surface area as applications and workloads move far beyond the boundaries of their data center. These applications/workloads move to, and reside in multi-cloud architecture, adding complexity to connectivity, visibility, and control. In the multi-cloud world, the SecOps teams use a distributed security model that is expensive, difficult to deploy, and complex to manage.
Cisco has partnered with Alkira to help secure your multi-cloud environment. Combining Alkira’s simplified cloud connection through their cloud network-as-a-service platform (SaaS-like model) with Cisco’s industry-leading security controls, we can deliver a centralized security model for multi-cloud architecture that is easy to deploy, manage, and increases visibility and control.
Cisco Secure Firewall Threat Defense Virtual provides unmatched security controls such as stateful firewalling, Snort3 IPS, URL filtering, malware defense, application visibility and control, and more. Additionally, with the purchase of Secure Firewall Threat Defense Virtual, you will receive license entitlement to Cisco SecureX, our open XDR and orchestration platform, helping you accelerate threat detection, investigation, and remediation.
Cisco Secure Firewall Management Center (FMC) is required for managing Secure Firewall Threat Defense Virtual, helping administrators enforce consistent access policies, rapidly troubleshoot security events, and view summarized reports across the deployment.
Secure Firewall Threat Defense Virtual is available on Alkira’s service marketplace through Bring-Your-Own-License (BYOL) and Pay-As-You-Go licensing options. Customers can seamlessly deploy and insert Secure Firewall in their Alkira Cloud Exchange Points (CXP).
Benefits of this integrated architecture include:
The Cisco Secure Firewall Threat Defense brings the following capabilities to the environment:
Figure 1 shows a multi-cloud environment inter-connected using Alkira Cloud Exhange Platform (CXP). In the above architecture, Cisco provides seamless insertion of security controls and enables the following use cases for firewall insertion:
Using Alkira’s customer portal, Cisco Secure Firewall Threat Defense Virtual can be easily inserted in the traffic path within minutes. Figure 2 shows how automation & orchestration eliminates additional configuration required in the legacy insertion model.
Cisco Secure Firewall Threat Defense Virtual is managed using Cisco Secure Firewall Management Center (FMC). Customers can use on-premises FMC or build a virtual FMC instance in the cloud. Cisco and Alkira support both models of deployment.
Cisco Secure Firewall Threat Defense Virtual protects the following traffic flows in Alkira CXP:
Alkira and Cisco’s partnership simplifies the deployment of enterprise-grade security in the cloud while enabling multi-cloud visibility and end-to-end threat defense for customers.
Additional Resources:
Cisco Secure Firewall Threat Defense
Cisco Secure Firewall Data Sheet
Cisco Secure Firewall Management Center
Alkira blog on Cisco Secure Firewall Threat Defense
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Lose what you don’t use and other easy ways to limit your digital footprint and strengthen your online privacy and security
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