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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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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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Nowadays, “cybersecurity” is the buzzword du jour, infiltrating every organization, invited or not. Furthermore, this is the case around the world, where an increasing proportion of all services now have an online presence, prompting businesses to reconsider the security of their systems. This, however, is not news to Cisco, as we anticipated it and were prepared to serve and assist clients worldwide.
Secure Cloud Analytics, part of the Cisco Threat, Detection, and Response (TD&R) portfolio, is an industry-leading tool for tackling core Network Detection and Response (NDR) use cases. These workflows focus primarily on threat detection and how security teams may recognize the most critical issues around hunting and forensic investigations to improve their mean-time-to-respond.
Over the last year, the product team worked tirelessly to strengthen the NDR offering. New telemetry sources, more advanced detections, and observations supplement the context of essential infrastructure aspects as well as usability and interoperability improvements. Additionally, the long-awaited solution Cisco Telemetry Broker is now available, providing a richer SecOps experience across the product.
As part of our innovation story on alerting capabilities, Secure Cloud Analytics now features new detections tied to the MITRE ATT&CK framework such as Worm Propagation, Suspicious User Agent, and Azure OAuth Bypass.
Additionally, various new roles and observations were added to the Secure Cloud Analytics to improve and change user alerts, that are foundational pieces of our detections. Alerts now include a direct link to AWS’ assets and their VPC, as well as direct access to Azure Security Groups, enabling further investigation capabilities through simplified workflows. In addition, the Public Cloud Providers are now included in coverage reports that provide a gap analysis to determine which accounts are covered. Alert Details offers new device information, such as host names, subnets, and role metrics that emphasize detection techniques. To better configure alerts, we are adding telemetry to gain contextual reference on their priority. Furthermore, the ingest process has grown more robust due to data from the Talos intelligence feed and ISE.
The highly anticipated SecureX integration is now available in a single click, with no API credentials required and smooth interaction between the two platforms. Most importantly, Secure Cloud Analytics alerts may now be configured to automatically publish as incidents to the SecureX Incident Manager. The Talos Intelligence Watchlist Hits Alert is on by default due to its prominence among the many alert types.
Among other enhancements to graphs and visualizations, the Encrypted Traffic widget allows for an hourly breakdown of data. Simultaneously, the Device Report contains traffic data for a specific timestamp, which may be downloaded as a CSV. Furthermore, the Event Viewer now displays bi-directional session traffic to provide even more context to Secure Cloud Analytics flows, as well as additional columns to help with telemetry log comprehension: Cloud Account, Cloud Region, Cloud VPC, Sensor and Exporter.
On-premises sensors now provide additional telemetry on the overview page and a dedicated page where users can look further into the telemetry flowing through them in Sensor Health. To optimize the Secure Cloud Analytics deployment and improve the user experience, sensors may now be deleted from the interface.
Regarding telemetry, Cisco Telemetry Broker can now serve as a sensor in Secure Cloud Analytics, so users can identify and respond to threats faster with additional context sent to Secure Cloud Analytics. In addition, there will soon be support for other telemetry types besides IPFIX and NetFlow.
As we can see from the vast number of new additions to Secure Cloud Analytics, the product team has been working hard to understand the latest market trends, listen to the customers’ requests, and build one of the finest SaaS products in the NDR industry segment. The efforts strongly underline how Secure Cloud Analytics can solve some of the most important challenges in the NDR space around visibility, fidelity of alerts and deployment complexity by providing a cloud hosted platform that can offer insights on-premise and on cloud environments simultaneously from the same dashboard. Learn more about new features that allow Secure Cloud Analytics to detect, analyze, and respond to the most critical dangers to their company much more quickly.
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Have you ever been browsing online and clicked a link or search result that took you to a site that triggers a “your connection is not private” or “your connection is not secure” error code? If you’re not too interested in that particular result, you may simply move on to another result option. But if you’re tempted to visit the site anyway, you should be sure you understand what the warning means, what the risks are, and how to bypass the error if you need to.
A “your connection is not private” error means that your browser cannot determine with certainty that a website has safe encryption protocols in place to protect your device and data. You can bump into this error on any device connected to the internet — computer, smartphone, or tablet.
So, what exactly is going on when you see the “this connection is not private” error?
For starters, it’s important to know that seeing the error is just a warning, and it does not mean any of your private information is compromised. A “your connection is not private” error means the website you were trying to visit does not have an up-to-date SSL (secure sockets layer) security certificate.
Website owners must maintain the licensing regularly to ensure the site encryption capabilities are up to date. If the website’s SSL certificate is outdated, it means the site owners have not kept their encryption licensing current, but it doesn’t necessarily mean they are up to no good. Even major websites like LinkedIn have had momentary lapses that would throw the error. LinkedIn mistakenly let their subdomain SSL certificates lapse.
In late 2021, a significant provider of SSL certificates, Let’s Encrypt, went out of business. When their root domain officially lapsed, it created issues for many domain names and SSL certificates owned by legitimate companies. The privacy error created problems for unwitting businesses, as many of their website visitors were rightfully concerned about site security.
While it does not always mean a website is unsafe to browse, it should not be ignored. A secure internet connection is critical to protecting yourself online. Many nefarious websites are dangerous to visit, and this SSL certificate error will protect you from walking into them unaware.
SSL certification standards have helped make the web a safer place to transact. It helps ensure online activities like paying bills online, ordering products, connecting to online banking, or keeping your private email accounts safe and secure. Online security continues to improve with a new Transport Layer Security (TLS) standard, which promises to be the successor protocol to SSL.
So be careful whenever visiting sites that trigger the “connection is not private” error, as those sites can potentially make your personal data less secure and make your devices vulnerable to viruses and malware.
Note: The “your connection is not private” error is Google Chrome‘s phrasing. Microsoft Edge or Mozilla Firefox users will instead see a “your connection is not secure” error as the warning message.
If you feel confident that a website or page is safe, despite the warning from your web browser, there are a few things you can do to troubleshoot the error.
Remember, you are taking your chances anytime you ignore an error. As we mentioned, you could leave yourself vulnerable to hackers after your passwords, personal information, and other risks.
Your data and private information are valuable to hackers, so they will continue to find new ways to try and procure it. Here are some ways to protect yourself and your data when browsing online.
As we continue to do more critical business online, we must also do our best to address the risks of the internet’s many conveniences.
A comprehensive cybersecurity tool like McAfee+ Ultimate can help protect you from online scams, identity theft, and phishing attempts, and ensure you always have a secure connection. McAfee helps keep your sensitive information out of the hands of hackers and can help you keep your digital data footprints lighter with personal data cleanup.
With McAfee’s experts on your side, you can enjoy everything the web offers with the confidence of total protection.
The post “This Connection Is Not Private” – What it Means and How to Protect Your Privacy appeared first on McAfee Blog.
Cyber security implies protecting the confidentiality, availability and integrity of computer systems and networks. Often security researchers and security teams focus on threats to software and the risks associated with authenticating and managing users. However, computing systems are built upon a tall stack of computing resources.
Each layer within the stack is exposed to specific threats which need to be considered as part of a cyber security strategy. As the threat landscape evolves and exposure to risk changes, organizations need to review their threat exposure and consider if current mitigations are sufficient for their needs.
The recent disruption of the Nord Stream submarine gas pipeline in the Baltic Sea by an apparent act of sabotage highlights the risks to infrastructure located beneath the waves. The telecommunications infrastructure that carries internet traffic between countries and continents is often provided by submarine cables. These cables are relatively few in number but carry vast amounts of internet and enterprise traffic, potentially from many different service providers.
The seabed is a challenging environment for infrastructure. Sea water is corrosive, the pressure on the ocean floor can be extreme, while earthquakes, ship’s anchors and dredging provide additional risks to may result in the severing of a cable. Submarine cables are only expected to achieve a lifespan in the region of 25 years before failure.
Repairing or replacing a submarine cable is expensive and time consuming. It may be many months before a failed cable can be repaired or replaced. In the absence of a functioning cable, internet connections must be rerouted to avoid disruption. However, this risks saturating the remaining infrastructure and adversely affecting the quality of connections.
Organizations that require high availability international or intercontinental network connections should review their exposure to the risk of submarine cables failure. The nature of this risk will depend on how services are currently delivered.
At the time of writing there is no specific threat to undersea infrastructure. Other than attacks against terrestrial cables, no cable damage has been shown to be due to sabotage. Nevertheless, the Secretary General of NATO has stressed the importance of undersea cables to civilian society and military capability [1]. The British Chief of Defense Staff has warned how seriously intentional damage to telecommunications cables would be taken [2].
Physical infrastructure can not be taken for granted. Organizations would do well to review the impact of one or more submarine cables being taken out of service. Preparing response plans and contingencies in advance ensures that disruption is kept to a minimum in the event that such a scenario occurs.
[1]. Press Conference (22 Oct 2020), NATO Secretary General Jens Stoltenberg.
https://www.nato.int/cps/en/natohq/opinions_178946.htm?selectedLocale=en
[2]. “Chief of Defence Staff: Russia cutting underwater cables could be ‘an act of war’” (8 Jan 2022), Forces.net.
https://www.forces.net/news/chief-defence-staff-russia-cutting-underwater-cables-could-be-act-war
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Organizations embrace the public cloud for the agility, scalability, and reliability it offers when running applications. But just as organizations need these capabilities to ensure their applications operate where needed and as needed, they also require their security does the same. Organizations may introduce multiple individual firewalls into their AWS infrastructure to produce this outcome. In theory, this may be a good decision, but in practice—this could lead to asymmetric routing issues. Complex SNAT configuration can mitigate asymmetric routing issues, but this isn’t practical for sustaining public cloud operations. Organizations are looking out for their long-term cloud strategies by ruling out SNAT and are calling for a more reliable and scalable solution for connecting their applications and security for always-on protection.
To solve these challenges, Cisco created stateful firewall clustering with Secure Firewall in AWS.
Firewall clustering for Secure Firewall Threat Defense Virtual provides a highly resilient and reliable architecture for securing your AWS cloud environment. This capability lets you group multiple Secure Firewall Threat Defense Virtual appliances together as a single logical device, known as a “cluster.”
A cluster provides all the conveniences of a single device (management and integration into a network) while taking advantage of the increased throughput and redundancy you would expect from deploying multiple devices individually. Cisco uses Cluster Control Link (CCL) for forwarding asymmetric traffic across devices in the cluster. Clusters can go up to 16 members, and we use VxLAN for CCL.
In this case, clustering has the following roles:
The above diagram explains traffic flow between the client and the server with the insertion of the firewall cluster in the network. Below defines the roles of clustering and how packet flow interacts at each step.
Owner: The Owner is the node in the cluster that initially receives the connection.
Backup Owner: The node that stores TCP/UDP state information received from the Owner so that the connection can be seamlessly transferred to a new owner in case of failure.
Director: The Director is the node in the cluster that handles owner lookup requests from the Forwarder(s).
Forwarder: The Forwarder is a node in the cluster that redirects packets to the Owner.
Fragment Owner: For fragmented packets, cluster nodes that receive a fragment determine a Fragment Owner using a hash of the fragment source IP address, destination IP address, and the packet ID. All fragments are then redirected to the Fragment Owner over Cluster Control Link.
Cisco brought support for AWS Gateway Load Balancer (Figure 2). This feature enables organizations to scale their firewall presence as needed to meet demand (see details here).
Building off the previous figure, organizations can take advantage of the AWS Gateway Load Balancer with Secure Firewall’s clustering capability to evenly distribute traffic at the Secure Firewall cluster. This enables organizations to maximize the benefits of clustering capabilities including increased throughput and redundancy. Figure 3 shows how positioning a Secure Firewall cluster behind the AWS Gateway Load Balancer creates a resilient architecture. Let’s take a closer look at what is going on in the diagram.
Figure 3 shows an Internet user looking to access a workload. Before the user can access the workload, the user’s traffic is routed to Firewall Node 2 for inspection. The traffic flow for this example includes:
User -> IGW -> GWLBe -> GWLB -> Secure Firewall (2) -> GLWB -> GWLBe -> Workload
In the event of failure, the AWS Gateway Load Balancer cuts off existing connections to the failed node, making the above solution non-stateful.
Recently, AWS announced a new feature for their load balancers known as Target Failover for Existing Flows. This feature enables forwarding of existing connections to another target in the event of failure.
Cisco is an early adaptor of this feature and has combined Target Failover for Existing Flows with Secure Firewall clustering capabilities to create the industry’s first stateful cluster in AWS.
Figure 4 shows a firewall failure event and how the AWS Gateway Load Balancer uses the Target Failover for Existing Flows feature to switch the traffic flow from Firewall Node 2 to Firewall Node 3. The traffic flow for this example includes:
User -> IGW -> GWLBe -> GWLB -> Secure Firewall (3) -> GLWB -> GWLBe -> Workload
Organizations need reliable and scalable security to protect always-on applications in their AWS cloud environment. With stateful firewall clustering capabilities from Cisco, organizations can protect their applications while maintaining cloud benefits such as agility, scalability, and reliability.
Cisco Secure Firewall Threat Defense Virtual is available in the AWS marketplace, providing features like firewalling, application visibility & control, IPS, URL filtering, and malware defense. Cisco offers flexible options for firewall licensing, such as pay-as-you-go (PAYG) and bring-your-own-license (BYOL). To learn more about how Cisco Secure Firewall clustering capabilities can help protect your AWS applications, see our additional resources, check out our 30-day free trial, or speak to your Cisco sales representative.
Cisco Secure Firewall Clustering in the Cloud
Introducing AWS Gateway Load Balancer Target Failover for Existing Flows
Secure Firewall for Public Cloud webpage
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It’s hard to imagine a world without cellphones. Whether it be a smartphone or a flip phone, these devices have truly shaped the late 20th century and will continue to do so for the foreseeable future. But while users have become accustomed to having almost everything they could ever want at fingertips length, cybercriminals were busy setting up shop. To trick unsuspecting users, cybercriminals have set up crafty mobile threats – some that users may not even be fully aware of. These sneaky cyberthreats include SMSishing, fake networks, malicious apps, and grayware, which have all grown in sophistication over time. This means users need to be equipped with the know-how to navigate the choppy waters that come with these smartphone-related cyberthreats. Let’s get started.
If you use email, then you are probably familiar with what phishing is. And while phishing is commonly executed through email and malicious links, there is a form of phishing that specifically targets mobile devices called SMSishing. This growing threat allows cybercriminals to utilize messaging apps to send unsuspecting users a SMSishing message. These messages serve one purpose – to obtain personal information, such as logins and financial information. With that information, cybercriminals could impersonate the user to access banking records or steal their identity.
While this threat was once a rarity, it’s rise in popularity is two-fold. The first aspect being that users have been educated to distrust email messages and the second being the rise in mobile phone usage throughout the world. Although this threat shows no sign of slowing down, there are ways to avoid a cybercriminal’s SMSishing hooks. Get started with these tips:
Public and free Wi-Fi is practically everywhere nowadays, with some destinations even having city-wide Wi-Fi set up. But that Wi-Fi users are connecting their mobile device to may not be the most secure, given cybercriminals can exploit weaknesses in these networks to intercept messages, login credentials, or other personal information. Beyond exploiting weaknesses, some cybercriminals take it a step further and create fake networks with generic names that trick unsuspecting users into connecting their devices. These networks are called “evil-twin” networks. For help in spotting these imposters, there are few tricks the savvy user can deploy to prevent an evil twin network from wreaking havoc on their mobile device:
Fake apps have become a rampant problem for Android and iPhone users alike. This is mainly in part due to malicious apps hiding in plain sight on legitimate sources, such as the Google Play Store and Apple’s App Store. After users download a faulty app, cybercriminals deploy malware that operates in the background of mobile devices which makes it difficult for users to realize anything is wrong. And while users think they’ve just downloaded another run-of-the-mill app, the malware is hard at work obtaining personal data.
In order to keep sensitive information out of the hands of cybercriminals, here are a few things users can look for when they need to determine whether an app is fact or fiction:
With so many types of malware out in the world, it’s hard to keep track of them all. But there is one in particular that mobile device users need to be keenly aware of called grayware. As a coverall term for software or code that sits between normal and malicious, grayware comes in many forms, such as adware, spyware or madware. While adware and spyware can sometimes operate simultaneously on infected computers, madware — or adware on mobile devices — infiltrates smartphones by hiding within rogue apps. Once a mobile device is infected with madware from a malicious app, ads can infiltrate almost every aspect on a user’s phone. Madware isn’t just annoying; it also is a security and privacy risk, as some threats will try to obtain users’ data. To avoid the annoyance, as well as the cybersecurity risks of grayware, users can prepare their devices with these cautionary steps:
The post Cybercrime’s Most Wanted: Four Mobile Threats that Might Surprise You appeared first on McAfee Blog.
A virtual private network (VPN) is a tool that enables users to protect their privacy while using an internet connection. VPNs create an encrypted tunnel — a private link between your device and the VPN server.
Essentially, this private link or tunnel keeps external influences out and allows your data to travel in an encrypted manner, enhancing security. The network’s privacy also makes sure your Internet Protocol (IP) address and browsing history is hidden online.
[Text Wrapping Break]VPNs use several VPN protocols like OpenVPN, IPSec/IKEv2, PPTP, SSTP, and WireGuard to protect you. In particular, McAfee® Safe Connect VPN supports the OpenVPN protocol, which is an open-source and highly secure protocol running on TCP or UDP internet protocol and used by many VPN providers globally. [Text Wrapping Break][Text Wrapping Break]Read on to know more about how VPNs work and learn to install one.
The best way to stay secure online is to minimize your digital footprint. A good VPN service allows you to do exactly this, acting as an additional layer of protection for your online activities.
The primary function of a VPN is encryption. Most websites and online browsers already have some form of encryption. For example, when you purchase something on Amazon, you have to enter your credit card details and address. Encryption creates a private tunnel for data transmission between your device and Amazon to make sure no one else can watch what you’re doing.
A VPN app does the same thing with an added level of security. The data that you pass to a VPN server is anonymized before it goes to the internet. In short, your device establishes an encrypted connection with the VPN server instead of connecting directly through the internet. So, the encryption protects your data and digital footprint from anyone outside the “private tunnel” between you and the secure VPN server.
Additionally, VPNs allow you to change or hide your IP address. An IP address is a number linked to a particular computer and network. Changing your IP address can trick the servers into thinking you’re connecting from a different geographical location. This can help improve security and provide additional benefits discussed below.
You can also use a VPN to hide your IP address. This may be helpful if you’re trying to access content from other countries (for example, Netflix may have different content in different countries) or trying to keep your internet search history away from the prying eyes of a third-party like your internet service provider or a government.
Using a VPN can help improve your online security. Nearly every internet activity — website and social media browsing, paying bills, online shopping, data sharing, and more — can be tracked by others. [Text Wrapping Break][Text Wrapping Break]Read on to learn about who typically uses a VPN and understand whether you should consider installing one.
Given the extra security that VPN connections provide, you can gain something from using a VPN client. So, if you’re an individual concerned about your online privacy or just want to browse online anonymously — consider using a VPN. A VPN enables you to use the internet without third parties seeing your identity or identifying you via your search history since they don’t know what you were searching about or using the internet for.
Big tech has had a long history of tracking private data for their gains. These companies regularly bundle data into coherent profiles and sell it to third parties. Additionally, they use private data to demonstrate targeted advertisements or manipulative content that makes you more likely to purchase their products. [Text Wrapping Break][Text Wrapping Break]So, it’s worthwhile to use a VPN if you regularly shop online or bank online. A VPN gives you that additional protection that can help prevent hackers or malicious third parties from accessing your information.[Text Wrapping Break][Text Wrapping Break]VPNs are excellent mechanisms for you to protect your privacy online. And you should consider your personal context and conduct thorough research to find the best VPN for your needs.
VPNs are particularly helpful if you travel a lot, either for business or for leisure. While traveling, it’s inevitable that you connect to random or unknown Wifi networks and it may be the case that these networks are spying on you. However, if you’re using a VPN to browse the web, these WiFi networks can’t track you or your search history. This ensures you maintain anonymity and are safe while using the internet.
Yes, an additional layer of protection to your online activities is always good practice. A VPN allows individuals using a personal computer to stay vigilant, protect their data, and maintain anonymity while allowing them to still enjoy their online experience.
VPNs provide more benefits than just serving as an additional layer for cybercriminals to pass through.
Depending on the VPN you’re using, it can be a straightforward process to connect a VPN to your Mac, Windows, iPhone, or Android mobile device. McAfee’s VPN works with multiple platforms and operating systems, including Microsoft Windows, macOS, Android, and iOS.
Use this guide to quickly set up a VPN with your device in a few simple steps.
With McAfee +, you can minimize your digital footprint through a secure connection channel without compromising your browsing experience. Connect to public networks, make financial transactions online, and keep your personal data safe with McAfee.
With our bank-grade AES-256 bit encryption technology and automatic protection, McAfee VPN protection can help safeguard all your online activities — allowing you to enjoy the internet the way it was meant to be enjoyed.
Explore our full suite of cybersecurity tools included in McAfee +, including our newest service, Personal Data Cleanup. We can help find and remove your personal data on some of the riskiest data broker sites.
The post What’s the Meaning of VPN? VPN Defined appeared first on McAfee Blog.
The release of Microsoft Azure Gateway Load Balancer is great news for customers, empowering them to simply and easily add Cisco Secure Firewall capabilities to their Azure cloud infrastructure. By combining Azure Gateway Load Balancer with Cisco Secure Firewall, organizations can quickly scale their firewall presence across their Azure cloud environment, providing protection for infrastructure and applications exactly where and when they need it.
With applications and resources hyper-distributed across hybrid-multicloud environments, organizations require agile security to protect their environment at each control point. This integration empowers organizations to dynamically insert Cisco’s security controls and threat defense capabilities in their Azure environment, removing the clunkiness of provisioning and deploying firewalls, as well as the need to rearchitect the network. Organizations can now enjoy highly available threat defense on the fly, protecting their infrastructure and applications from known and unknown threats.
Combining Secure Firewall with Azure Gateway Load Balancer offers a significant reduction in operational complexity when securing cloud infrastructure. Azure Gateway Load Balancer provides bump-in-the-wire functionality ensuring Internet traffic to and from an Azure VM, such as an application server, is inspected by Secure Firewall without requiring any routing changes. It also offers a single entry and exit point at the firewall and allows organizations to maintain visibility of the source IP address. Complementing these features, organizations can take advantage of our new Cloud-delivered Firewall Management Center. It enables organizations to manage their firewall presence 100% through the cloud with the same look and feel as they’ve grown accustomed to with Firewall Management Center. With Cloud-delivered Firewall Management Center, organizations will achieve faster time-to-value with simplified firewall deployment and management.
Azure Gateway Load Balancer support for Cisco Secure Firewall Threat Defense Virtual is available now. To learn more about how Cisco Secure Firewall drives security resilience across your hybrid-multicloud environment, see the additional resources below and reach out to your Cisco sales representative.
Microsoft Blog: Gateway Load Balancer now generally available in all regions
Azure Marketplace listing: Cisco Secure Firewall Threat Defense Virtual
Cisco Secure Firewall At-a-Glance
Cisco Secure Firewall for Public Cloud
Cloud-delivered Firewall Management Center
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We’ve all seen the headlines like “race to the cloud” and “cloud-first.” These articles and publications are true, more and more customers have adopted cloud strategies, but there is more to the story. In these customer conversations, cloud security and network security are often discussed in unison. Why is that?
Customers desire freedom and choice when establishing resilience across every aspect of their business, and this requires both the ability to remain agile, and maintain control of their organization’s most sensitive data. Neither of these can be achieved with just the cloud, or private data center. Organizations are investing in hybrid-multicloud environments to ensure continuity amidst unpredictable threats and change. But these investments will fall short if they do not include security.
The modern enterprise relies on the network more than ever before, and it looks a lot different than it did 10 years ago. According to our 2022 Global Hybrid Cloud Trends Report, where 2,500 global IT leaders were interviewed across 13 countries, 82% said they have adopted hybrid cloud architectures, and 47% of organizations use between two and three public IaaS clouds1. As organizations have grown more dependent on the network, the more complex it has become, making firewall capabilities the most critical element of the hybrid-multicloud security strategy. And Cisco has a firewall capability for every strategy, protecting your most important assets no matter where you choose to deploy it.
In May, Cisco brought offerings from Umbrella and Duo to the AWS Marketplace. Today at AWS Re:Inforce, Cisco Secure announced furthering its partnership with AWS to drive innovation with the goal to protect the integrity of your business. Validating our commitment to hybrid-multicloud security, Cisco has received the AWS Security Competency Partner designation for Network and Infrastructure Security. This designation was awarded through our demonstrated success with customer engagements and rigorous technical validations of Secure Firewall.
This week at AWS Re:Inforce, customers can stop by our booth to see our latest firewall innovation. Cisco Secure Firewall as-a-service on AWS builds on our existing portfolio, giving organizations greater flexibility and choice with a radically simplified SaaS offering. If organizations are truly to embrace security across the multi-environment IT, customers demand simplification without compromising security. With a SaaS-based form factor, management and deployment complexity is reduced. NetOps and SecOps teams will enjoy a simplified security architecture where provisioning of firewalls and control plane infrastructure are managed by Cisco. This will save your teams time by removing the need to rearchitect the network, freeing them to focus on protecting the integrity of your business.
As organizations continue to move more of their day-to-day operations to the cloud, Cisco and AWS are committed to ensure that security is an integral part of their hybrid multi-cloud strategy. We all have seen the impact of security that is bolted on, or too complex. If we are truly to find that balance between agility and protection to ensure business continuity, we need to ensure the same protections we have in the private infrastructure are easily consumed no matter where your data may roam.
Product page: Cisco Secure Firewall for Public Cloud
Partner page: Cisco solutions on AWS
Blog: Securing cloud is everyone’s responsibility
Quick Start page: Cisco solutions on AWS
Amazon Partner Network page: Cisco solutions on AWS
2022 Global Hybrid Cloud Trends Report
1 Henderson, N. & Hanselman, E. (2022, May 25). 2022 Global Hybrid Cloud Trends Report.
S&P Global Market Intelligence, commissioned by Cisco Systems.
https://www.cisco.com/c/en/us/solutions/hybrid-cloud/2022-trends.html ‘
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Cisco Secure Social Channels
The latest Jan. 6 committee hearing on Tuesday examined the role of conspiracy theory communities like 8kun[.]top and TheDonald[.]win in helping to organize and galvanize supporters who responded to former President Trump’s invitation to “be wild” in Washington, D.C. on that chaotic day. At the same time the committee was hearing video testimony from 8kun founder Jim Watkins, 8kun and a slew of similar websites were suddenly yanked offline. Watkins suggested the outage was somehow related to the work of the committee, but the truth is KrebsOnSecurity was responsible and the timing was pure coincidence.
In a follow-up video address to his followers, Watkins said the outage happened shortly after the Jan. 6 committee aired his brief video testimony.
“Then everything that I have anything to do with seemed to crash, so that there was no way for me to go out and talk to anybody,” Watkins said. “The whole network seemed to go offline at the same time, and that affected a lot of people.”
8kun and many other sites that continue to push the false narrative that the 2020 election was stolen from the 45th president have long been connected to the Internet via VanwaTech, a hosting firm based in Vancouver, Wash. In late October 2020, a phone call to VanwaTech’s sole provider of connectivity to the Internet resulted in a similar outage for 8kun.
Jim Waktins (top right), in a video address to his followers on Tuesday after 8kun was taken offline.
Following that 2020 outage, 8kun and a large number of QAnon conspiracy sites found refuge in a Russian hosting provider. But when the anonymous “Q” leader of QAnon suddenly began posting on 8kun again earlier this month, KrebsOnSecurity received a tip that 8kun was once again connected to the larger Internet via a single upstream provider based in the United States.
On Sunday, July 10, KrebsOnSecurity contacted Psychz Networks, a hosting provider in Los Angeles, to see if they were aware that they were the sole Internet lifeline for 8kun et. al. Psychz confirmed that in response to a report from KrebsOnSecurity, VanwaTech was removed from its network around the time of the Jan. 6 hearing on Tuesday.
8kun and its archipelago of conspiracy theory communities have once again drifted back into the arms of a Russian hosting provider (AS207651), which is connected to the larger Internet via two providers. Those include AS31500 — which appears to be owned by Russians but is making a fair pretense at being located in the Caribbean; and AS28917, in Vilnius, Lithuania.
8kun’s newfound Russian connections will likely hold, but Lithuania may be a different story. Late last month, pro-Russian hackers claimed responsibility for an extensive distributed denial-of-service (DDoS) attack against Lithuanian state and private websites, which reportedly was in response to Vilnius’s decision to cease the transit of some goods under European Union sanctions to Russia’s Kaliningrad exclave.
Many have speculated that Jim Watkins and/or his son Ron are in fact “Q,” the anonymous persona behind the QAnon conspiracy theory, which held that Former President Trump was secretly working to save the world from a satanic cult of pedophiles and cannibals.
8chan/8kun has been linked to white supremacism, neo-Nazism, antisemitism, multiple mass shootings, and is known for hosting child pornography. After three mass shootings in 2019 revealed the perpetrators had spread their manifestos on 8chan and even streamed their killings live there, 8chan was ostracized by one Internet provider after another.
In 2019, the FBI identified QAnon as a potential domestic terror threat, noting that some of its followers have been linked to violent incidents motivated by fringe beliefs.
The Jan. 6 hearing referenced in this story is available via CSPAN.
Managed services are an essential and fast-growing part of the security market, growing 14% annually. This opportunity presents new challenges MSPs must juggle day to day, including onboarding vendors and driving customer acquisition, all while making sure to provide robust IT solutions for your diverse set of clients. Clients are demanding more security and capabilities for a hybrid workforce, which provides a great opportunity for MSPs like you to grow your business.
We love our MSP community and want to help you deliver great security solutions to your clients. After speaking with many of you to understand how Cisco can help unlock growth for your businesses today, we developed a simplified buying model that delivers faster time to value. Cisco Secure MSP was born.
Secure MSP center was launched in the US market in November 2021 and MSPs across America have been rapidly transacting their business on MSP Center. We are excited to announce we are expanding this direct buying experience to Canadian MSPs in local Canadian Dollars for faster time to value and better ROI for your business.
It is a lightning fast and direct buying experience of SaaS security- No invoicing. Straightforward market pricing. And easy click-to-accept agreements. Cisco Umbrella’s market-leading DNS security is currently available with more SaaS security products coming soon.
It’s a simple three-step process that takes just minutes, from signup to deployment.
Step 1 – You can sign up here and login with your Cisco ID (or create one)
Step 2 – Provide billing and credit card information and sign a click-to-accept agreement
Step 3 – Get access to our world class Cisco Umbrella DNS security offer
From here, you can onboard your clients and start providing the first line of defense through Umbrella DNS Security product instantly. Sign up to deployment takes minutes – not hours or days.
From here, you can onboard your clients and start providing the first line of defense through Umbrella DNS Security product instantly. Sign up to deployment takes minutes – not hours or days.
There are no minimums or upfront fees. Your credit card will be charged on the first of the month and you’ll receive a detailed invoice. This is a simple, no hassle, and post-paid consumption-based model.
Other perks include a dedicated partner account manager alongside our sales engineer, who will help you not only with product deployments but also work with you to grow your business. We also have an MSP specialist team to answer your questions.
Partners currently using Secure MSP Center have had great things to say –
“Wow, this was a much easier process than I thought it would be”
“I’m glad Cisco created a program and process that was this simple”
“I thought this would be more complicated”
“That’s all there is to it?”
So, what are you waiting for? Come and take the first step in simplifying security offers for your clients. Sign up here: cisco.com/go/securemsp.
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Cisco Secure Social Channels
This article is part of a series in which we will explore several features, principles, and the building blocks of a security detection engine within an extended detection and response (XDR) solution.
In this second installment, we will look at ways of structuring the presentation of machine-generated alerts, so that each alert offers a cohesive and compelling narrative, as if written by a human analyst, at scale and in realtime.
In cyber security, we are used to two types of stories.
The first story is common for reports written by humans. It contains sections such as “impact,” “reproduction,” and “remediation” to help us understand what is at stake and what we need to fix. For example:
IMPACT: An SSH server which supports password authentication is susceptible to brute-forcing attacks.
REPRODUCTION: Use the `ssh` command in verbose mode (`ssh -v`) to determine supported authentication methods. Look for “keyboard-interactive” and “password” methods.
REMEDIATION: Disable unneeded authentication methods.
The second story comes from machine detections. It is much terser in content and sometimes leaves us scratching our heads. “Malware,” the machine says with little explanation, followed by a horde of gibberish-looking data of network flows, executable traces, and so on.
The challenge is now to get the best of both worlds: to enhance machine-generated alerts with the richness of human-written reports. The following sections explain how this can be approached.
In our example of a report written by a human, the “reproduction” section would help us understand, from a factual perspective, how exactly the conclusions were derived.
On the other hand, the machine-generated horde of data provides evidence in a very nondescript way. We would need to be smart enough to spot or reverse-engineer what algorithm the machine was following on said data. Most security analysts do not wish to do this. Instead, they attempt to seek the first story type. “Surely, someone must have written a blog or something more descriptive about this already,” they would say. Then, they would copy-paste anything that looks like a searchable term – an IP address, domain, SHA checksum – and start searching it, either on a threat intelligence search site or even a general-purpose search engine.
Having such cryptic machine-generated alerts is leading us to our first two issues: first, when the story is incomplete or misunderstood, it may lead the analyst astray. For example, the security event might involve requests to communicate with an IP address, and the analyst would say, “This IP address belongs to my DNS server, so the traffic is legitimate.” However, the detection engine was really saying, “I suspect there is DNS tunnelling activity happening through your DNS server—just look at the volume.”
Second, when an analyst seeks explanations from elsewhere, the main function of an advanced detection engine — finding novel, localized, and targeted attacks — cannot work. Information on attacks is generally available only after they have been discovered and analyzed, not when they happen initially.
A common approach to remedy this situation is to include a short description of the algorithm. “This detector works by maintaining a baseline of when during the day a user is active and then reports any deviations,” a help dialog would say. “Okay, that’s clever,” an analyst would reply. But this is not enough. “Wait, what is the baseline, and how was it violated in this particular security event?” To find the answer, we need to go back to the horde of data.
To mimic the “reproduction” section of the human-written report, our security events are enriched with an annotation—a short summary of the behavior described by the event. Here are a few examples of such annotated events:
In the first and second cases, the story is relatively straightforward: in the horde of data, successful communication with said hostnames was observed. An inference through threat intelligence associates these hostnames to the Sality malware.
The third line informs us that, on a factual basis, only a communication with an IP address was observed. Further chain of inferences is that this IP address was associated by a passive DNS mechanism to a hostname which is in turn associated to the Sality malware.
In the fourth event, we have an observation of full HTTP URL requests, and inference through a pattern matcher associates this URL to the Sality malware. In this case, neither the hostname nor the IP address is important to the detector.
In all these annotated events, an analyst can easily grasp the factual circumstances and what the detection engine infers and thinks about the observations. Note that whether these events describe benign, malicious, relevant, or irrelevant behavior, or whether they lead to true or false positives, is not necessarily the concern. The concern is to be specific about the circumstances of the observed behavior and to be transparent about the inferences.
When we eventually succeed in explaining the security events, we might not be finished with the storytelling yet. The analyst would face another dilemma. They would ask: “What relevance does this event have in my environment? Is it part of an attack, an attack technique perhaps? What should I look for next?”
In the human-written report, the “impact” section provides a translation between the fact-based technical language of “how” and the business language of “what.” In this business language, we talk about threats, risks, attacker objectives, their progress, and so on.
This translation is an important part of the story. In our previous example about DNS tunnelling, we might want to express that “an anomaly in DNS traffic is a sign of an attacker communicating with their command-and-control infrastructure,” or that “it is a sign of exfiltration,” or perhaps both. The connotation is that both techniques are post-infection, and that there is probably already a foothold that the attacker has established. Perhaps other security events point to this, or perhaps it needs to be sought after by the analyst.
When it is not explicit, the analyst needs to mentally perform the translation. Again, an analyst might look up some intelligence in external sources and incorrectly interpret the detection engine’s message. Instead, they might conclude that “an anomaly in DNS traffic is a policy violation, user error, or reconnaissance activity,” leading them astray from pivoting and searching for the endpoint foothold that performs the command-and-control activity.
We take special attention not to mix these two different dictionaries. Rather, we express separately the factual observations versus the conclusions in the form of threats and risks. Inbetween, there are the various chains of inferences. Based on the complexity, the depth of the story varies, but the beginning and the end will always be there: facts versus conclusions.
This is very similar to how an analyst would set up their investigation board to organize what they know about the case. Here is an elaborate example:
In this case, from top to bottom:
In all points, the “what” and “how” languages are distinguished from each other. Finally, the whole story is stitched together into one alert by using the alert fusion algorithm described in the Intelligent alert management blog post.
Have we bridged the storytelling gap between machine-generated and human-generated reports?
Threat detections need to be narrated in sufficient detail, so that our users can understand them. Previously, we relied on the human aspect—we would need to document, provide support, and even reverse-engineer what the detection algorithms said.
The two solutions, distinguishing the “what/how” languages and the annotated events, provide the bandwidth to transmit the details and the expert knowledge directly from the detection algorithms. Our stories are now rich with detail and are built automatically in real time.
The result allows for quick orientation in complex detections and lowers the time to triage. It also helps to correctly convey the message, from our team, through the detection engine, and towards the analyst, lowering the possibility of misinterpretation.
This capability is part of Cisco Global Threat Alerts, currently available within Cisco Secure Network Analytics and Cisco Secure Endpoint, and has been continually improved based on customer feedback. In the future, it will also be available in Cisco SecureX XDR.
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Cisco Secure Social Channels
At the outset of their federal criminal trial for hijacking vast swaths of Internet addresses for use in large-scale email spam campaigns, three current or former executives at online advertising firm Adconion Direct (now Amobee) have pleaded guilty to lesser misdemeanor charges of fraud and misrepresentation via email.
In October 2018, prosecutors in the Southern District of California named four Adconion employees — Jacob Bychak, Mark Manoogian, Petr Pacas, and Mohammed Abdul Qayyum — in a ten-count indictment (PDF) on felony charges of conspiracy, wire fraud, and electronic mail fraud.
The government alleged that between December 2010 and September 2014, the defendants engaged in a conspiracy to identify or pay to identify blocks of Internet Protocol (IP) addresses that were registered to others but which were otherwise inactive.
Prosecutors said the men also sent forged letters to an Internet hosting firm claiming they had been authorized by the registrants of the inactive IP addresses to use that space for their own purposes.
All four defendants pleaded not guilty when they were charged back in 2018, but this week Bychak, Manoogian and Qayyum each entered a plea deal.
“The defendants’ jobs with Adconion were to acquire fresh IP addresses and employ other measures to circumvent the spam filters,” reads a statement released today by the U.S. Attorney for the Southern District of California, which said the defendants would pay $100,000 in fines each and perform 100 hours of community service.
“To conceal Adconion’s ties to the stolen IP addresses and the spam sent from these IP addresses, the defendants used a host of DBAs, virtual addresses, and fake names provided by the company,” the statement continues. “While defendants touted ties to well-known name brands, the email marketing campaigns associated with the hijacked IP addresses included advertisements such as ‘BigBeautifulWomen,’ ‘iPhone4S Promos,’ and ‘LatinLove[Cost-per-Click].'”
None of the three plea agreements are currently available on PACER, the online federal court document clearinghouse. However, PACER does show that on June 7 — the same day the pleas were entered by the defendants — the government submitted to the court a superseding set of just two misdemeanor charges (PDF) of fraud in connection with email.
Another document filed in the case says the fourth defendant — Pacas — accepted a deferred prosecution deal, which includes a probationary period and a required $50,000 “donation” to a federal “crime victims fund.”
There are fewer than four billion so-called “Internet Protocol version 4” or IPv4 addresses available for use, but the vast majority of them have already been allocated. The global dearth of available IP addresses has turned them into a commodity wherein each IP can fetch between $15-$25 on the open market.
This has led to boom times for those engaged in the acquisition and sale of IP address blocks, but it has likewise emboldened those who specialize in absconding with and spamming from dormant IP address blocks without permission from the rightful owners.
In May, prosecutors published information about the source of some IP address ranges from which the Adconion employees allegedly spammed. For example, the government found the men leased some of their IP address ranges from a Dutch company that’s been tied to a scandal involving more than four million addresses siphoned from the African Network Information Centre (AFRINIC), the nonprofit responsible for overseeing IP address allocation for African organizations.
In 2019, AFRINIC fired a top employee after it emerged that in 2013 he quietly commandeered millions of IPs from defunct African entities or from those that were long ago acquired by other firms, and then conspired to sell an estimated $50 million worth of the IPs to marketers based outside Africa.
“Exhibit A” in a recent government court filing shows that in 2013 Adconion leased more than 65,000 IP addresses from Inspiring Networks, a Dutch network services company. In 2020, Inspiring Networks and its director Maikel Uerlings were named in a dogged, multi-part investigation by South African news outlet MyBroadband.co.za and researcher Ron Guilmette as one of two major beneficiaries of the four million IP addresses looted from AFRINIC by its former employee.
Exhibit A, from a May 2022 filing by U.S. federal prosecutors.
The address block in the above image — 196.246.0.0/16 — was reportedly later reclaimed by AFRINIC following an investigation. Inspiring Networks has not responded to requests for comment.
Prosecutors allege the Adconion employees also obtained hijacked IP address blocks from Daniel Dye, another man tied to this case who was charged separately. For many years, Dye was a system administrator for Optinrealbig, a Colorado company that relentlessly pimped all manner of junk email, from mortgage leads and adult-related services to counterfeit products and Viagra. In 2018, Dye pleaded guilty to violations of the CAN-SPAM Act.
Optinrealbig’s CEO was the spam king Scott Richter, who changed the name of the company to Media Breakaway after being successfully sued for spamming by AOL, Microsoft, MySpace, and the New York Attorney General Office, among others. In 2008, this author penned a column for The Washington Post detailing how Media Breakaway had hijacked tens of thousands of IP addresses from a defunct San Francisco company for use in its spamming operations.
The last-minute plea deals by the Adconion employees were reminiscent of another recent federal criminal prosecution for IP address sleight-of-hand. In November 2021, the CEO of South Carolina technology firm Micfo pleaded guilty just two days into his trial, admitting 20 counts of wire fraud in connection with an elaborate network of phony companies set up to obtain more than 700,000 IPs from the American Registry for Internet Numbers (ARIN) — AFRINIC’s counterpart in North America.
Adconion was acquired in June 2014 by Amobee, a Redwood City, Calif. online ad platform that has catered to some of the world’s biggest brands. Amobee’s parent firm — Singapore-based communications giant Singtel — bought Amobee for $321 million in March 2012.
But as Reuters reported in 2021, Amobee cost Singtel nearly twice as much in the last year alone — $589 million — in a “non-cash impairment charge” Singtel disclosed to investors. Marketing industry blog Digiday.com reported in February that Singtel was seeking to part ways with its ad tech subsidiary.
One final note about Amobee: In response to my 2019 story on the criminal charges against the Adconion executives, Amobee issued a statement saying “Amobee has fully cooperated with the government’s investigation of this 2017 matter which pertains to alleged activities that occurred years prior to Amobee’s acquisition of the company.”
Yet as the government’s indictment points out, the alleged hijacking activities took place up until September 2014, which was after Amobee’s acquisition of Adconion Direct in June 2014. Also, the IP address ranges that the Adconion executives were prosecuted for hijacking were all related to incidents in 2013 and 2014, which is hardly “years prior to Amobee’s acquisition of the company.”
Amobee has not yet responded to requests for comment.
Authored by Dexter Shin
McAfee’s Mobile Research Team introduced a new Android malware targeting Instagram users who want to increase their followers or likes in the last post. As we researched more about this threat, we found another malware type that uses different technical methods to steal user’s credentials. The target is users who are not satisfied with the default functions provided by Instagram. Various Instagram modification application already exists for those users on the Internet. The new malware we found pretends to be a popular mod app and steals Instagram credentials.
Instander is one of the famous Instagram modification applications available for Android devices to help Instagram users access extra helpful features. The mod app supports uploading high-quality images and downloading posted photos and videos.
The initial screens of this malware and Instander are similar, as shown below.
Figure 1. Instander legitimate app(Left) and Mmalware(Right)
Next, this malware requests an account (username or email) and password. Finally, this malware displays an error message regardless of whether the login information is correct.
Figure 2. Malware requests account and password
The malware steals the user’s username and password in a very unique way. The main trick is to use the Firebase API. First, the user input value is combined with l@gmail.com. This value and static password(=kamalw20051) are then sent via the Firebase API, createUserWithEmailAndPassword. And next, the password process is the same. After receiving the user’s account and password input, this malware will request it twice.
Since we cannot see the dashboard of the malware author, we tested it using the same API. As a result, we checked the user input value in plain text on the dashboard.
According to the Firebase document, createUserWithEmailAndPassword API is to create a new user account associated with the specified email address and password. Because the first parameter is defined as email patterns, the malware author uses the above code to create email patterns regardless of user input values.
It is an API for creating accounts in the Firebase so that the administrator can check the account name in the Firebase dashboard. The victim’s account and password have been requested as Firebase account name, so it should be seen as plain text without hashing or masking.
As an interesting point on the network traffic of the malware, this malware communicates with the Firebase server in Protobuf format in the network. The initial configuration of this Firebase API uses the JSON format. Although the Protobuf format is readable enough, it can be assumed that this malware author intentionally attempts to obfuscate the network traffic through the additional settings. Also, the domain used for data transfer(=www.googleapis.com) is managed by Google. Because it is a domain that is too common and not dangerous, many network filtering and firewall solutions do not detect it.
As mentioned, users should always be careful about installing 3rd party apps. Aside from the types of malware we’ve introduced so far, attackers are trying to steal users’ credentials in a variety of ways. Therefore, you should employ security software on your mobile devices and always keep up to date.
Fortunately, McAfee Mobile Security is able to detect this as Android/InstaStealer and protect you from similar threats. For more information visit McAfee Mobile Security
SHA256:
The post Instagram credentials Stealer: Disguised as Mod App appeared first on McAfee Blog.
Security that is hard to deploy and complex to manage needs to become a distant memory if businesses are to be resilient through times of uncertainty. Even something as critical as a firewall, the sentinel in the security stack, can often require a lengthy setup, ongoing maintenance, and disjointed management. Over the long run, these additional costs accrue and can have a negative impact on security programs. When budgets are constrained, these effects can be exacerbated and become a barrier to providing the level of security organizations need to protect the integrity of their business.
At Cisco we have a rich history overcoming this challenge with Cisco Secure Firewall. Forrester Consulting recently conducted an independent analysis of organizations using Secure Firewall. The study showed that customers realized a 195% in total ROI when managing their firewall fleet through Cisco Secure Firewall Management Center (FMC). Improvements to security workflows through the FMC, which include deploying, managing, and updating policy, were the largest contributing factor to the tune of $18.6 million in total benefits achieved. The Forrester study states that “organizations reduced network operation work streams by up to 95%. Thanks to the latest features of Cisco Secure Firewall and the ease of management via Firewall Management Center.”
We are not done. Today we boost productivity even further, with the new cloud-delivered version of FMC within the Cisco Defense Orchestrator (CDO) platform. This leap brings all the features from FMC into the cloud and consolidates firewall management. Organizations save time, increase security, and gain a positive ROI. With cloud-delivered FMC, manually managing updates is a thing of the past. An agile delivery of updates is built in to ensure uptime, so you can focus on your most important priorities — protecting the integrity of the business with increased firewall capabilities. The CDO platform unifies the lifecycle of policy management across multiple Cisco security solutions in our cloud. By bringing the FMC experience directly into CDO, end users enjoy the same look, functionality, and workflow as on-premises and virtual versions of Firewall Management Center. Without the usual learning curve within a new “experience,” migration to the cloud is simplified. Organizations can now propel cloud-first strategies and enable the rapid delivery of firewall services no matter where your network may roam.
“Moving FMC into CDO isn’t just about cost savings for today and powering security resilience with flexibility and choice. We are also putting a firm foot into the near future for SASE and achieving unified policy across the multienvironment IT.”– Justin Buchanan, Sr. Director Product Management, Cisco Secure
Traditionally, customers have deployed FMC as a physical or virtual appliance. Now in addition to cost savings, security resilience is driving an increased need for hybrid multicloud deployments. Leveraging public cloud infrastructures, organizations are becoming more cost efficient — cloud-delivered applications reduce change management and operational overhead. But they are also ensuring organizations have the agility required to deploy network security workloads where and how they want to remain agile and adapt to uncertainty.
Hybrid work and business continuity is made possible within the CDO platform. A cloud-based and centralized platform unifies firewall management across the Cisco Secure and Meraki portfolio and provides the foundation to unify policy across the distributed network all within a platform that is built to drive increased ROI and preserve the user experience. IT can control and manage firewall policy from anywhere along with a low-touch provisioning and onboarding process for branch and firewall deployments. The cloud-delivered FMC integrates with Cisco Secure Analytics & Logging, and, as a result, enhanced data retention and meeting stringent compliance requirements has never been easier. Whether you are part of a smaller organization or a larger enterprise, you control how many Cisco Secure Firewalls are managed through the cloud-delivered FMC, and easily scale that number. So, when it comes to simplicity at scale, CDO is your answer.
To learn more about Cisco Secure Firewall Management Center, visit our product page and read the entire Forrester report here.
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Cisco Secure Social Channels
Cisco Secure Firewall stops threats faster, empowers collaboration between teams, and enables consistency across your on-premises, hybrid, and multi-cloud environments. With an included entitlement for Cisco SecureX, our XDR and orchestration platform, you’ll experience efficiency at scale and maximize your productivity. New streamlined Secure Firewall integrations make it easier to use SecureX capabilities to increase threat detection, save time and provide the rapid and deeper investigations you require. These new features and workflows provide the integration and automation to simplify your security.
The entire suite of Firewall Management Center APIs is now available in the cloud. This means that existing APIs can now be executed from the cloud. Cisco makes this even easier for you by delivering fully operational workflows as well as pre-built drag-n-drop code blocks that you can use to craft your own custom workflows. SecureX is able to proxy API calls from the cloud to the SSE connector embedded in the FMC codebase. This integration between Firewall 7.2 and SecureX provides your Firewall with modern cloud-based automation.
We’ve dramatically reduced the amount of time needed to fully integrate Firewall into Securex. Even existing Firewall customers who use on-premises Firewall Management Center will be able to upgrade to version 7.2 and start automating/orchestrating in under 15 minutes — a huge time savings! The 7.2 release makes the opportunities for automating your Firewall deployment limitless with our built-in low code orchestration engine.
Previously Firewall admins had to jump through hoops to link their smart licensing account with SecureX which resulted in a very complicated integration process. With the new one-click integration, simply click “Enable SecureX” in your Firewall Management Center and log into SecureX. That’s it! Your Firewalls will automatically be onboarded to SecureX.
Cisco Secure Firewall users now get immense value from SecureX with the orchestration capability built natively into the Firewall. Previously Firewall admins would have to deploy an on-premises virtual machine in vCenter to take advantage of Firewall APIs in the cloud which was a major hurdle to overcome. With the 7.2 release, orchestration is built right into your existing Firewall Management Center. There is no on-premises connector required; SecureX orchestration is able to communicate directly with Firewall APIs highlighting the power of Cisco-on-Cisco integrations.
The PSIRT impact monitoring workflows helps customers streamline their patch management process to ensure their network is always up to date and not vulnerable to CVE’s. This workflow will check for new PSIRTs, determine if device versions are impacted, and suggest a fixed version to upgrade to. By scheduling this workflow to run once a week customers can be notified via email if there is any potential impact from a PSIRT.
This workflow will run every 15 minutes to pull a health report from FMC and proactively notify customers via email if any devices are unhealthy. This means customers can rest assured that their fleet of devices is operating as expected or be notified of things like high CPU usage, low disk space, or interfaces going down.
This workflow highlights the power of automation and showcases what is possible by using the orchestration proxy to use FMC API’s. Managing policy is always an on-going effort but can be made easier by introducing automation. This workflow can be run once a week to search through Firewall policies and determine if any rules are going to expire soon. This makes managing policy much easier because customers will be notified before rules expire and can make changes accordingly.
This workflow is a one-click response action available from the threat response pivot menu. With the click of a button a URL is added to an object in a block rule of your access control policy. This action can be invoked during an investigation in SecureX or from any browser page using the SecureX browser extension. Reducing time to remediation is a critical aspect of keeping your business secure. This workflow turns a multi-step policy change into a single click by taking advantage of Secure Firewall’s integration with SecureX.
A recent Forrester Economic Impact Study of Secure Firewall show that deploying these types of workflows in SecureX with Secure Firewall increased operational efficiency.
In fact, SecureX in combination with Secure Firewall helped to dramatically reduce the risk of a material breach. It’s clear that the integration of the two meant a significant time savings for already overburdened teams.
We continue to innovate new features and workflows that prioritize the efficacy of your teams and help drive the security resilience of your organization.
Ready to add SecureX capabilities to your Firewall environment? Start here.
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As millions of people around the world practice social distancing and work their office jobs from home, video conferencing has quickly become the new norm. Whether you’re attending regular work meetings, partaking in a virtual happy hour with friends, or catching up with extended family across the globe, video conferencing is a convenient alternative to many of the activities we can no longer do in real life. But as the rapid adoption of video conferencing tools and apps occurs, is security falling by the wayside?
One security vulnerability that has recently made headlines is the ability for uninvited attendees to bombard users’ virtual meetings. How? According to Forbes, many users have posted their meeting invite links on social media sites like Twitter. An attacker can simply click on one of these links and interrupt an important conference call or meeting with inappropriate content.
Online conferencing tools allow users to hold virtual meetings and share files via chat. But according to Security Boulevard, communicating confidential business information quickly and privately can be challenging with these tools. For example, users are not always immediately available, even when working from home. In fact, many parents are simultaneously doubling as working parents and teachers with the recent closure of schools and childcare providers. If a user needs to share private information with a coworker but they are unable to connect by video or phone, they might revert to using a messaging platform that lacks end-to-end encryption, a feature that prevents third-party recipients from seeing private messages. This could lead to leaks or unintended sharing of confidential data, whether personal or corporate. What’s more, the lack of using a secure messaging platform could present a hacker with an opportunity to breach a victim’s data or device. Depending on the severity of this type of breach, a victim could be at risk of identity theft.
With the recent surge of new video conferencing users, privacy policies have been placed under a microscope. According to WIRED, some online conferencing tools have had to update their policies to reflect the collection of user information and meeting content used for advertising or other marketing efforts. Another privacy concern was brought to light by a video conferencing tool’s attention-tracking feature. This alerts the virtual meeting host when an attendee hasn’t had the meeting window in their device foreground for 30 seconds, resulting in users feeling that their privacy has been compromised.
As users become accustomed to working from home, video conferencing tools will continue to become a necessary avenue for virtual communication. But how can users do so while putting their online security first? Follow these tips to help ensure that your virtual meetings are safeguarded:
There are plenty of video conferencing tools available online. Before downloading the first one you see, do your research and check for possible security vulnerabilities around the tools. Does the video conferencing tool you’re considering use end-to-end encryption? This ensures that only meeting participants have the ability to decrypt secure meeting content. Additionally, be sure to read the privacy policies listed by the video conferencing programs to find the one that is the most secure and fits your needs.
To ensure that only invited attendees can access your meeting, make sure they are password protected. For maximum safety, activate passwords for new meetings, instant meetings, personal meetings, and people joining by phone.
To keep users (either welcome or unwelcome) from taking control of your screen while you’re video conferencing, select the option to block everyone except the host (you) from screen sharing.
By turning on automatic updates, you are guaranteed to have all the latest security patches and enhancements for your video conferencing tool as soon as they become available.
The post How Secure Is Video Conferencing? appeared first on McAfee Blog.
When contemplating a career change within a different industry, it can be challenging to know where to start. As the world continues to change, many people are wondering how to transition into cybersecurity without experience. Business leaders at Cisco Secure and Duo Security who changed careers, along with recruiting professionals, provided insights for prospective candidates curious about the cybersecurity and tech industries. Learn their top 10 tips for getting a job in cybersecurity.
If passion, innovation, kindness and growth are on your list, Cisco Secure is worth checking out. When Kelly Davenport, manager of the Global Knowledge and Communities team, first connected with folks at Duo, she was “amazed at how nice and excited everyone seemed. I almost thought it seemed too good to be true. But then, when I started working here I realized everyone here really is that nice and smart and good at what they do. I was waiting for that to change, but it’s for real.”
Cisco Secure Talent Acquisition Lead Jeff Edwards shares, “Our senior level folks want fulfilling work. The work we’re doing and products we’re putting out are exciting, new and cutting edge. This is the stuff that’s going to change how we work in the future.”
For those looking to get into cybersecurity with no experience, Edwards suggests, “Pay attention to the jobs posted on cybersecurity career pages and the skills they’re asking for. That lets you know how long a process your career change may take. If you’re switching careers into tech it’s all out there to be able to discern, “Hey, where do I need to focus my efforts to put me in contention for these roles?”’
Cisco Women in Cybersecurity recently hosted a virtual session, Career Journeys Are Not Always a Straight Road – Your Journey Is Your Story, featuring CX Cloud Compliance Leader Deborah Sparma.
Sparma shared, “No matter where you are and have a new goal to break into, see what can transfer. Who knew that theater could transfer to working in a tech company? Who knew that working as a vet tech could lead me into corporate America? The variety of expertise has taught me that there is always room to grow and skills that can be transferred from one role to the next no matter how disparate they may be. For example, my experience in theater has made me a better speaker and presenter.”
Davenport, who was a journalist and librarian before making the switch to health care IT and then Duo, advises, “Figure out the core skills that you have and what job titles and words are used in other industries. Talk about the things you already know how to do, because every industry has its own jargon and that can feel like a barrier until you figure out how to translate it.” Cisco provides a list of common job titles and the experience and certifications needed for key cybersecurity roles.
She continues, “I had no idea what customer enablement was before I joined Duo. I did not know that was a job, and no one would’ve told me that. But it turns out that being a librarian, knowing how to organize things, having worked with the public, being a journalist who can write and create accurate, complex information on a deadline, and then understanding the technology of making something user centered and how people want to consume that information in different formats in different points in time, based on their needs, all of those were things that I knew and had experience in. And so, it was just discovering the opportunities that were already out there but were called something different than I knew about.”
Davenport’s advice for those wanting to enter cybersecurity: “A lot of professions want that super specialist, and we definitely have people who are those people, but I’ve seen Duo hire people from a lot of different backgrounds, and the additional perspective that they come in with and the fresh ideas is what keeps us innovative and what makes it a really fun and interesting place to work.”
She elaborates: “From a journalism background, the level of responsibility that you have as a journalist to be fair and accurate, and the ethics that you learn that are integral to that profession, were super helpful and important coming into any kind of customer-facing role where you’re used to being accountable. You have really high standards for yourself, and that translates into being able to hold those high standards for what customers expect, too.”
For journalists in particular, she says, “I would just like to give a shout out to folks in journalism who are wondering, maybe their career path is taking them in a different direction. (…) you have so many valuable skills that, if you are interested in a career in tech, there’s a lot of opportunities because of some of those things like I talked about earlier. The experience of working on deadline, that accountability and responsibility that you take and the ethics of what you do, those all translate. And so, those are all totally portable to a new context.”
Edwards states, “Start researching all the top cybersecurity companies and what products they offer and then take it another level down: What programs and software are they using? Are there different classes I need to take or certifications I need to get?”
Cisco offers top-notch cybersecurity training and security certifications. Also available are Cisco Certified CyberOps training videos and connection with those learning new cybersecurity skills through the Security Certifications Community and CyberOps Certifications Community.
Sparma highlights, “I believe a lot in teams. We all have skill sets that can complement each other no matter where we are in our career. I know I don’t know it all. I lean on the teams and people around me.”
Davenport reports, “Your experiences are going to give you a fresh perspective that’s actually really valued by the people who maybe came from that industry. Having that diversity of experiences and viewpoints is really celebrated more so here than pretty much any other place I’ve worked. My advice would be to trust that you can learn a totally new industry, and that the experiences that you’re coming with are really valuable.”
Duo Security Lead Recruiter Shannon Curran affirms, “We’ve spoken with many candidates who don’t come from the cybersecurity space.” She says that telling that story in your resume and throughout the application, interview and hiring process allows recruiters to understand why you’d be a match and that kindness goes a long way.
When starting at Duo Security, Davenport shares, “I came in pretty fresh. I knew that I was going to be doing this intensive onboarding program. We have technical trainers who we work with, so that we’re customer-ready. And so, I knew coming in that I would have a lot of support. I felt like, ‘Okay, I’m embracing the unknown and I’m going to learn a bunch of new things, but I’m going to have this great team that’s going to help me learn, is going to teach me.’ And that worked out pretty well.”
“Trust that you can learn, trust that the experiences you’re coming in with are valuable and are going to give you a fresh perspective, and that you will have the support to learn and grow, even if you’re changing industries.” —Manager of Duo Global Knowledge and Communities team Kelly Davenport
A culture of learning helps. Sparma says, “I’m always learning. Cisco especially has all the trainings out there that we can take. Invest in yourself, in learning, and don’t be afraid to ask.”
Davenport took this approach: “Because I’m a writer, I would go to our classes where we’re learning about the product. And then I would write my own summary in my own words, to describe what I was learning. I’d run that by my teacher and say, ‘Okay, am I on the right track?’ And that really helped me metabolize what I was learning and get that feedback in a way that worked for me as a learner.”
Maintaining a strong network can ease the career change process in terms of learning about the cybersecurity industry from people working in it and in terms of referrals. Marketing Specialist Julie Kramer says, “Try to find a networking partner in the company and ask for references for networking purposes. For example, if I have a friend who knows me that works at Cisco and they’re like, ‘Hey, do you mind referring me?’ I’d be happy to give them a referral.”
Sparma said, “Working in technology wasn’t even an option I considered when I started college…I broke into a new career but I had my background working in hospitals, working at the insurance company…someone knew me, knew my personality, helped me get that role… At Cisco, I had applied at other roles where I had a one-to-one fit. This one stretches me, but I could bring a lot to the table at the same time and still grow. That’s what energizes me.”
You never know how your network may come in handy throughout your career. In 2012, Edwards’ very first manager called him with one question: “Hey, do you want to come work at Cisco?”
Sparma’s first mentor “shepherded me. She took me under her wing, supported my wish to go back to school, encouraged me to get certification in something I didn’t know existed. I didn’t know what a mentor was at first, and it didn’t dawn on me until after I’d moved on in my career and traveled around the world that I realized I got there because of my first mentor. What does get difficult is everyday meetings, deliverables, timeframes — sometimes you just have to make it a point to make sure that you invest in yourself and keep that promise to yourself and keep your mentoring relationships going. I’ve had different mentors at Cisco and you can have multiple mentors along the way.” Employee Resource Organizations are another great place to find those mentors or mentor others.
“Find a mentor for support, guidance, knowledge, and motivation. Then pay it forward and mentor others. You can always bring something to the table.” —CX Cloud Compliance Leader Deborah Sparma
Sparma continues, “One of the first things they asked me to do when I started at Cisco was find a mentor. Cisco also allows people to shadow colleagues to learn what they do, network, and for knowledge transfer. We all can benefit from each other.”
To learn more about Cisco Secure and Duo Security and how you can apply your skills, passion, and experience to cybersecurity, check out our open roles.
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Most parents may find it difficult to relate to today’s form of cyberbullying. That’s because, for many of us, bullying might have come in a series of isolated, fleeting moments such as an overheard rumor, a nasty note passed in class, or a few brief hallway confrontations.
Fast forward a few dozen decades, and the picture is spectacularly different and a world few adults today would eagerly step into.
Cyberbullying includes targeting that is non-stop. It’s delivered digitally in an environment that is often anonymous. It’s a far-reaching, esteem-shattering, emotional assault. And the most traumatic component? The perpetual nature of the internet adds the ever-present threat of unlimited accessibility—kids know bullying can happen to anyone, at any time, and spread like wildfire.
The nature of cyberbullying can make a young victim feel hopeless and powerless. Skipping school doesn’t stop it. Summer vacation doesn’t diminish it. That’s because the internet is ever-present.
According to a 2020 Ditch the Label Cyberbullying Study, youth today reveal that carrying the emotional weight of being “connected all the time” is anything but fun and games. Here’s a snapshot.
While all kids are at risk for cyberbullying, studies reveal that some are more vulnerable than others.
According to the Pew Research Center, females experience more cyberbullying than their male counterparts; 38% of girls compared to 26% of boys. Those most likely to receive a threatening or aggressive text, IM, or email: Girls ages 15-17.
More data from the CDC and American University reveals that more than 28.1 % of LGBTQ teens were cyberbullied in 2019, compared to 14.1% of their heterosexual peers. In addition, Black LGTBQ youth are more likely to face mental health issues linked to cyberbullying and other forms of bullying as compared to non-Black LGTBQ and heterosexual youth.
Another community that can experience high cyberbullying is gamers. If your child spends a lot of time playing online games, consider paying close attention to the tone of conversations, the language used, your child’s demeanor during and after gaming, and, as always, stay aware of the risks. In a competitive gaming environment that often includes a variety of age groups, cyberbullying can quickly get out of control.
Lastly, the reality no parent wants to confront—but one that is critical to the conversation—is that cyberbullying and suicide may be linked in some ways. According to JAMA Pediatrics, approximately 80% of young people who commit suicide have depressive thoughts, and in today’s online environment, cyberbullying often leads to more suicidal thoughts than traditional bullying.
Each new year represents 365 new days and 365 new chances to do things a little bit better than we’ve done them in the past. And while it’s impossible to stop our kids from wandering into the crossfire of hurtful words online, we can do everything possible to reduce their vulnerability and protect their self-esteem.
The post Cyberbullying: Words do Hurt When it Comes to Social Media appeared first on McAfee Blog.
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