One in five organizations have teetered on the brink of insolvency after a cyberattack. Can your company keep hackers at bay?
The post Cyberattacks: A very real existential threat to organizations appeared first on WeLiveSecurity
The past few months have been chockfull of conversations with security customers, partners, and industry leaders. After two years of virtual engagements, in-person events like our CISO Forum and Cisco Live as well as the industry’s RSA Conference underscore the power of face-to-face interactions. It’s a reminder of just how enriching conversations are and how incredibly interconnected the world is. And it’s only made closer by the security experiences that impact us all.
I had the pleasure of engaging with some of the industry’s best and brightest, sharing ideas, insights, and what keeps us up at night. The conversations offered more than an opportunity to reconnect and put faces with names. It was a chance to discuss some of the most critical cybersecurity issues and implications that are top of mind for organizations.
The collective sentiments are clear. The need for better security has never been so strong. Securing the future is good business. Disruptions are happening faster than ever before, making our interconnected world more unpredictable. Hybrid work is here to stay, hybrid and complex architectures will continue to be a reality for most organizations and that has dramatically expanded the threat surface. More and more businesses are operating as ecosystems—attacks have profound ripple effects across value chains. Attacks are becoming more bespoke, government-sponsored threat actors and ransomware as a service, continue to unravel challenging businesses to minimize the time from initial breach to complete compromise, in the event of a compromise.
Regardless of where organizations are on their digital transformations, they are progressively embarking upon journeys to unify networking and secure connectivity needs. Mobility, BYOD (bring your own device), cloud, increased collaboration, and the consumerization of IT have necessitated a new type of access control security–zero trust security. Supporting a modern enterprise across a distributed network and infrastructure involves the ability to validate user IDs, continuously verify authentication and device trust, and protect every application—
without compromising user experience. Zero trust offers organizations a simpler approach to securing access for everyone, from any device, anywhere—all the while, making it harder for attackers.
Simplicity continues to be a hot topic, and in the context of its functionality. In addition to a frictionless user experience, the real value to customers is improving operational challenges. Security practitioners want an easier way to secure the edge, access, and operations—including threat intelligence and response. Key to this simplified experience is connecting and managing business-critical control points and vulnerabilities, exchanging data, and contextualizing threat intelligence. And it requires a smarter ecosystem that brings together capabilities, unifying admin, policy, visibility, and control. Simplicity that works hard and smart—and enhances their security posture. The ultimate simplicity is improved efficacy for the organization.
Insider cyber-attacks are among the fastest growing threats in the modern security network, an increasingly common cause of data breaches. Using their authorized access, employees are intentionally or inadvertently causing harm by stealing, exposing, or destroying sensitive company data. Regardless, the consequences are the same—costing companies big bucks and massive disruption. It’s also one of the reasons why “identity as the new perimeter” is trending, as the primary objective of all advanced attacks is to gain privileged credentials. Insider attack attempts are not slowing down. However, advanced telemetry, threat detection and protection, and continuous trusted access all help decelerate the trend. Organizations are better able to expose suspicious or malicious activities caused by insider threats. Innovations are enabling business to analyze all network traffic and historical patterns of employee access and determine whether to let an employee continue uninterrupted or prompt to authenticate again.
Supply chain attacks have become one of the biggest security worries for businesses. Not only are disruptions debilitating, but no one knew the impacts or perceived outcomes. Attackers are highly aware that supply chains are comprised of larger entities often tightly connected to a broad array of smaller and less cyber-savvy organizations. Lured by lucrative payouts, attackers seek the weakest supply chain link for a successful breach. In fact, two of the four biggest cyber-attacks that the Cisco Talos team saw in the field last year were supply chain attacks that deployed ransomware on their targets’ networks: SolarWinds and REvil’s attack exploiting the Kaseya managed service provider. While there’s no perfect way to absolutely protect from ransomware, businesses are taking steps to bolster their defenses and protect against disaster.
Security incidents targeting personal information are on the rise. In fact, 86 percent of global consumers were victims of identity theft, credit/debit card fraud, or a data breach in 2020. In a recent engagement discovered by the Cisco Talos team, the API on a customer’s website could have been exploited by an attacker to steal sensitive personal information. The good news is governments and businesses alike are leaning into Data Privacy and Protection, adhering to global regulations that enforce high standards for collecting, using, disclosing, storing, securing, accessing, transferring, and processing personal data. Within the past year, the U.S. government implemented new rules to ensure companies and federal agencies follow required cybersecurity standards. As long as cyber criminals continue seeking to breach our privacy and data, these rules help hold us accountable.
Through all the insightful discussions with customers, partners, and industry leaders, a theme emerged. When it comes to cybersecurity, preparation is key and the cost of being wrong is extraordinary. By acknowledging there will continue to be disruptions, business can prepare for whatever comes next. And when it comes, they’ll not only weather the storm, but they will also come out of it stronger. And the good news is that Cisco Security Business Group is already on the journey actively addressing these headlines, and empowering our customers to reach their full potential, securely.
We’d love to hear what you think. Ask a Question, Comment Below, and Stay Connected with Cisco Secure on social!
Cisco Secure Social Channels
Educating employees about how to spot phishing attacks can strike a much-needed blow for network defenders
The post Phishing awareness training: Help your employees avoid the hook appeared first on WeLiveSecurity
To consumers, the Internet of Things might bring to mind a smart fridge that lets you know when to buy more eggs, or the ability to control your home’s lighting and temperature remotely through your phone.
But for cybersecurity professionals, internet-connected medical devices are more likely to be top-of-mind.
Not only is the Internet of Medical Things, or IoMT, surging — with the global market projected to reach $160 billion by 2027, according to Emergen Research — the stakes can be quite high, and sometimes even matters of life or death.
The risk to the individual patients is very small, experts caution, noting bad actors are far more likely to disrupt hospital operations, use unsecure devices to access other parts of the network or hold machines and data hostage for ransom.
“When people ask me, ’Should I be worried?’ I tell them no, and here’s why,” said Matthew Clapham, a veteran product cybersecurity specialist. “In the medical space, every single time I’ve probed areas that could potentially compromise patient safety, I’ve always been impressed with what I’ve found.”
That doesn’t mean the risk is zero, noted Christos Sarris, a longtime information security analyst. He shared an anecdote in Cisco Secure’s recent e-book, “Building Security Resilience,” about finding malware on an intensive care unit device that compromised a pump used to deliver precise doses of medicine.
Luckily, the threat, which was included in a vendor-provided patch, was caught during testing.
“The self-validation was fine,” Sarris said in a follow-up interview. “The vendor’s technicians signed off on it. So we only found this usual behavior because we tested the system for several days before returning it to use.”
But because such testing protocols take valuable equipment out of service and soak up the attention of often-stretched IT teams, they’re not the norm everywhere, he added.
Sarris and Clapham were among several security experts we spoke to for a deeper dive into the challenges of IoT medical device security and top-line strategies for protecting patients and hospitals.
Connected medical devices are becoming so integral to modern health care that a single hospital room might have 20 of them, Penn Medicine’s Dan Costantino noted in Healthcare IT News.
Sarris, who is currently an information security manager at Sainsbury’s, outlined some of the challenges this reality presents for hospital IT teams.
Health care IT teams are responsible for devices made by a multiplicity of vendors — including large, well-known brands, cheaper off-brand vendors, and small manufacturers of highly speciality instruments, he said. That’s a lot to keep up with, and teams don’t always have direct access to operating systems, patching and security testing, and instead are reliant on vendors to provide necessary updates and maintenance.
“Even today, you will rarely see proper security testing on these devices,” he said. “The biggest challenge is the environment. It’s not tens, it’s hundreds of devices. And each device is designed for a specific purpose. It has its own operating system, its own operational needs and so forth. So it’s very, very difficult — the IT teams can’t know everything.”
Cisco Advisory CISO Wolfgang Goerlich noted that one unique challenge for securing medical devices is that they often can’t be patched or replaced. Capital outlays are high and devices might be kept in service for a decade or more.
“So we effectively have a small window of time — which can be measured in hours or years, depending on how fortunate we are — where a device is not vulnerable to any known attacks,” he said. “And then, when they do become vulnerable, we have a long-tailed window of vulnerability.”
Or, as Clapham summed it up, “The bits are going to break down much faster than the iron.”
The Food and Drug Administration is taking the issue seriously, however, and actively working to improve how security risks are addressed throughout a device’s life cycle, as well as to mandate better disclosure of vulnerabilities when they are discovered.
“FDA seeks to require that devices have the capability to be updated and patched in a timely manner; that premarket submissions to FDA include evidence demonstrating the capability from a design and architecture perspective for device updating and patching… and that device firms publicly disclose when they learn of a cybersecurity vulnerability so users know when a device they use may be vulnerable and to provide direction to customers to reduce their risk,” Kevin Fu, acting director of medical device security at the FDA’s Center for Devices and Radiological Health explained to explained to MedTech Dive last year.
For hospitals and other health care providers, improving the security posture of connected devices boils down to a few key, and somewhat obvious, things: attention to network security, attention to other fundamentals like a zero-trust security framework more broadly, and investing in the necessary staffing and time do to the work right, Goerlich said.
“If everything is properly segmented, the risk of any of these devices being vulnerable and exploited goes way, way down,” he said. “But getting to that point is a journey.”
Sarris agrees, noting many hospitals have flat networks — that is, they reduce the cost and effort needed to administer them by keeping everything connected in a single domain or subdomain. Isolating these critical and potentially vulnerable devices from the rest of the network improves security, but increases the complexity and costs of oversight, including for things like providing remote access to vendors so they can provide support.
“It’s important to connect these devices into a network that’s specifically designed around the challenges they present,” Sarris said. “You may not have security control on the devices themselves, but you can have security controls around them. You can use micro segmentation, you can use network monitoring, et cetera. Some of these systems, they’re handling a lot of sensitive information and they don’t even support the encryption of data in transit — it can really be all over the place.”
The COVID-19 pandemic put a lot of financial pressure on health systems, Goerlich noted. During the virus’ peaks, many non-emergency procedures were delayed or canceled, hitting hospitals’ bottom lines pretty hard over several years. This put even greater pressure on already strained cybersecurity budgets at a time of increasing needs.
“Again, devices have time as a security property,” Goerlich said, “which means we’ve got two years of vulnerabilities that may not have been addressed. And which also probably means we’re going to try to push the lifecycle of that equipment out and try to maintain it for two more years.”
Clapham, who previously served as director of cybersecurity for software and the cloud at GE Healthcare, said device manufacturers are working hard to ensure new devices are as secure as they can be when they’re first rolled out and when new features are added through software updates.
“When you’re adding new functionality that might need to talk to a central service somewhere, either locally or in the cloud, that could have implications for security — so that’s where we go in and do our due diligence,” he said.
The revolution that needs to happen is one of mindset, Clapham said. Companies are waking up to the new reality of not just making a well-functioning device that has to last for over a decade, but of making a software suite to support the device that will need to be updated and have new features added over that long lifespan.
This should include adding additional headroom and flexibility in the hardware, he said. While it adds to costs on the front end, it will add longevity as software is updated over time. (Imagine the computer you bought in 2007 trying to run the operating system you have now.)
“Ultimately, customers should expect a secure device, but they should also expect to pay for the additional overhead it will take to make sure that device stays secure over time,” he said. “And manufacturers need to plan for upgradability and the ability to swap out components with minimal downtime.”
We’d love to hear what you think. Ask a Question, Comment Below, and Stay Connected with Cisco Secure on social!
Cisco Secure Social Channels
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.
API-based data transfer is so rapid, there’s but little time to stop very bad things happening quickly
The post RSA – APIs, your organization’s dedicated backdoors appeared first on WeLiveSecurity
Technology is understandably viewed as a nuisance to be managed in pursuit of the health organizations’ primary mission
The post RSA – Digital healthcare meets security, but does it really want to? appeared first on WeLiveSecurity
Give employees the knowledge needed to spot the warning signs of a cyberattack and to understand when they may be putting sensitive data at risk
The post Cybersecurity awareness training: What is it and what works best? appeared first on WeLiveSecurity
This blog was also published by APNIC.
With so much traffic on the global internet day after day, it’s not always easy to spot the occasional irregularity. After all, there are numerous layers of complexity that go into the serving of webpages, with multiple companies, agencies and organizations each playing a role.
That’s why when something does catch our attention, it’s important that the various entities work together to explore the cause and, more importantly, try to identify whether it’s a malicious actor at work, a glitch in the process or maybe even something entirely intentional.
That’s what occurred last year when Internet Corporation for Assigned Names and Numbers staff and contractors were analyzing names in Domain Name System queries seen at the ICANN Managed Root Server, and the analysis program ran out of memory for one of their data files. After some investigating, they found the cause to be a very large number of mysterious queries for unique names such as f863zvv1xy2qf.surgery, bp639i-3nirf.hiphop, qo35jjk419gfm.net and yyif0aijr21gn.com.
While these were queries for names in existing top-level domains, the first label consisted of 12 or 13 random-looking characters. After ICANN shared their discovery with the other root server operators, Verisign took a closer look to help understand the situation.
One of the first things we noticed was that all of these mysterious queries were of type NS and came from one autonomous system network, AS 15169, assigned to Google LLC. Additionally, we confirmed that it was occurring consistently for numerous TLDs. (See Fig. 1)
Although this phenomenon was newly uncovered, analysis of historical data showed these traffic patterns actually began in late 2019. (See Fig. 2)
Perhaps the most interesting discovery, however, was that these specific query names were not also seen at the .com and .net name servers operated by Verisign. The data in Figure 3 shows the fraction of queried names that appear at A-root and J-root and also appear on the .com and .net name servers. For second-level labels of 12 and 13 characters, this fraction is essentially zero. The graphs also show that there appears to be queries for names with second-level label lengths of 10 and 11 characters, which are also absent from the TLD data.
The final mysterious aspect to this traffic is that it deviated from our normal expectation of caching. Remember that these are queries to a root name server, which returns a referral to the delegated name servers for a TLD. For example, when a root name server receives a query for yyif0aijr21gn.com, the response is a list of the name servers that are authoritative for the .com zone. The records in this response have a time to live of two days, meaning that the recursive name server can cache and reuse this data for that amount of time.
However, in this traffic we see queries for .com domain names from AS 15169 at the rate of about 30 million per day. (See Fig. 4) It is well known that Google Public DNS has thousands of backend servers and limits TTLs to a maximum of six hours. Assuming 4,000 backend servers each cached a .com referral for six hours, we might expect about 16,000 queries over a 24-hour period. The observed count is about 2,000 times higher by this back-of-the-envelope calculation.
From our initial analysis, it was unclear if these queries represented legitimate end-user activity, though we were confident that source IP address spoofing was not involved. However, since the query names shared some similarities to those used by botnets, we could not rule out malicious activity.
These findings were presented last year at the DNS-OARC 35a virtual meeting. In the conference chat room after the talk, the missing piece of this puzzle was mentioned by a conference participant. There is a Google webpage describing its public DNS service that talks about prepending nonce (i.e., random) labels for cache misses to increase entropy. In what came to be known as “the Kaminsky Attack,” an attacker can cause a recursive name server to emit queries for names chosen by the attacker. Prepending a nonce label adds unpredictability to the queries, making it very difficult to spoof a response. Note, however, that nonce prepending only works for queries where the reply is a referral.
In addition, Google DNS has implemented a form of query name minimization (see RFC 7816 and RFC 9156). As such, if a user requests the IP address of www.example.com and Google DNS decides this warrants a query to a root name server, it takes the name, strips all labels except for the TLD and then prepends a nonce string, resulting in something like u5vmt7xanb6rf.com. A root server’s response to that query is identical to one using the original query name.
Now, we are able to explain nearly all of the mysterious aspects of this query traffic from Google. We see random second-level labels because of the nonce strings that are designed to prevent spoofing. The 12- and 13-character-long labels are most likely the result of converting a 64-bit random value into an unpadded ASCII label with encoding similar to Base32. We don’t observe the same queries at TLD name servers because of both the nonce prepending and query name minimization. The query type is always NS because of query name minimization.
With that said, there’s still one aspect that eludes explanation: the high query rate (2000x for .com) and apparent lack of caching. And so, this aspect of the mystery continues.
Even though we haven’t fully closed the books on this case, one thing is certain: without the community’s teamwork to put the pieces of the puzzle together, explanations for this strange traffic may have remained unknown today. The case of the mysterious DNS root query traffic is a perfect example of the collaboration that’s required to navigate today’s ever-changing cyber environment. We’re grateful and humbled to be part of such a dedicated community that is intent on ensuring the security, stability and resiliency of the internet, and we look forward to more productive teamwork in the future.
The post More Mysterious DNS Root Query Traffic from a Large Cloud/DNS Operator appeared first on Verisign Blog.
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.
In part one of our Black Hat Asia 2022 NOC blog, we discussed building the network with Meraki:
In this part two, we will discuss:
SecureX: Bringing Threat Intelligence Together by Ian Redden
In addition to the Meraki networking gear, Cisco Secure also shipped two Umbrella DNS virtual appliances to Black Hat Asia, for internal network visibility with redundancy, in addition to providing:
Cisco Secure Threat Intelligence (correlated through SecureX)
Donated Partner Threat Intelligence (correlated through SecureX)
alphaMountain.ai threat intelligence
Open-Source Threat Intelligence (correlated through SecureX)
Continued Integrations from past Black Hat events
New Integrations Created at Black Hat Asia 2022
Device type spoofing event by Jonny Noble
Overview
During the conference, a NOC Partner informed us that they received an alert from May 10 concerning an endpoint client that accessed two domains that they saw as malicious:
Client details from Partner:
Based on the user agent, the partner derived that the device type was an Apple iPhone.
SecureX analysis
Umbrella Investigate analysis
Umbrella Investigate positions both domains as low risk, both registered recently in Poland, and both hosted on the same IP:
Despite the low-risk score, the nameservers have high counts of malicious associated domains:
Targeting users in ASA, UK, and Nigeria:
Meraki analysis
Based on the time of the incident, we can trace the device’s location (based on its IP address). This is thanks to the effort we invested in mapping out the exact location of all Meraki APs, which we deployed across the convention center with an overlay of the event map covering the area of the event:
Further analysis and conclusions
The device name (LAPTOP-8MLGXXXXXX) and MAC address seen (f4:XX:XX:XX:XX:XX) both matched across the partner and Meraki, so there was no question that we were analyzing the same device.
Based on the useragent captured by the partner, the device type was an Apple iPhone. However, Meraki was reporting the Device and its OS as “Intel, Android”
A quick look up for the MAC address confirmed that the OUI (organizationally unique identifier) for f42679 was Intel Malaysia, making it unlikely that this was an Apple iPhone.
The description for the training “Web Hacking Black Belt Edition” can be seen here:
https://www.blackhat.com/asia-22/training/schedule/#web-hacking-black-belt-edition–day-25388
It is highly likely that the training content included the use of tools and techniques for spoofing the visibility of useragent or device type.
There is also a high probability that the two domains observed were used as part of the training activity, rather than this being part of a live attack.
It is clear that integrating the various Cisco technologies (Meraki wireless infrastructure, SecureX, Umbrella, Investigate) used in the investigation of this incident, together with the close partnership and collaboration of our NOC partners, positioned us where we needed to be and provided us with the tools we needed to swiftly collect the data, join the dots, make conclusions, and successfully bring the incident to closure.
Self Service with SecureX Orchestration and Slack by Matt Vander Horst
Overview
Since Meraki was a new platform for much of the NOC’s staff, we wanted to make information easier to gather and enable a certain amount of self-service. Since the Black Hat NOC uses Slack for messaging, we decided to create a Slack bot that NOC staff could use to interact with the Meraki infrastructure as well as Palo Alto Panorama using the SecureX Orchestration remote appliance. When users communicate with the bot, webhooks are sent to Cisco SecureX Orchestration to do the work on the back end and send the results back to the user.
Design
Here’s how this integration works:
Workflow #1: Handle Slash Commands
Slash commands are a special type of message built into Slack that allow users to interact with a bot. When a Slack user executes a slash command, the command and its arguments are sent to SecureX Orchestration where a workflow handles the command. The table below shows a summary of the slash commands our bot supported for Black Hat Asia 2022:
Here’s a sample of a portion of the SecureX Orchestration workflow that powers the above commands:
And here’s a sample of firewall logs as returned from the “/pan_traffic_history” command:
Workflow #2: Handle Interactivity
A more advanced form of user interaction comes in the form of Slack blocks. Instead of including a command’s arguments in the command itself, you can execute the command and Slack will present you with a form to complete, like this one for the “/update_vlan” command:
These forms are much more user friendly and allow information to be pre-populated for the user. In the example above, the user can simply select the switch to configure from a drop-down list instead of having to enter its name or serial number. When the user submits one of these forms, a webhook is sent to SecureX Orchestration to execute a workflow. The workflow takes the requested action and sends back a confirmation to the user:
Conclusion
While these two workflows only scratched the surface of what can be done with SecureX Orchestration webhooks and Slack, we now have a foundation that can be easily expanded upon going forward. We can add additional commands, new forms of interactivity, and continue to enable NOC staff to get the information they need and take necessary action. The goal of orchestration is to make life simpler, whether it is by automating our interactions with technology or making those interactions easier for the user.
Future Threat Vectors to Consider – Cloud App Discovery by Alejo Calaoagan
Since 2017 (starting in Black Hat USA – Las Vegas), Cisco Umbrella has provided DNS security to the Black Hat attendee network, added layers of traffic visibility previously not seen. Our efforts have largely been successful, identifying thousands of threats over the years and mitigating them via Umbrella’s blocking capabilities when necessary. This was taken a step further at Black Hat London 2021, where we introduced our Virtual Appliances to provide source IP attribution to the devices making requests.
Here at Black Hat Asia 2022, we’ve been noodling on additional ways to provide advanced protection for future shows, and it starts with Umbrella’s Cloud Application Discovery’s feature, which identified 2,286 unique applications accessed by users on the attendee network across the four-day conference. Looking at a snapshot from a single day of the show, Umbrella captured 572,282 DNS requests from all cloud apps, with over 42,000 posing either high or very high risk.
Digging deeper into the data, we see not only the types of apps being accessed…
…but also see the apps themselves…
…and we can flag apps that look suspicious.
We also include risk downs breaks by category…
…and drill downs on each.
While this data alone won’t provide enough information to take action, including this data in analysis, something we have been doing, may provide a window into new threat vectors that may have previously gone unseen. For example, if we identify a compromised device infected with malware or a device attempting to access things on the network that are restricted, we can dig deeper into the types of cloud apps those devices are using and correlate that data with suspicious request activity, potential uncovering tools we should be blocking in the future.
I can’t say for certain how much this extra data set will help us uncover new threats, but, with Black Hat USA just around the corner, we’ll find out soon.
Using SecureX sign-on to streamline access to the Cisco Stack at Black Hat by Adi Sankar
From five years ago to now, Cisco has tremendously expanded our presence at Black Hat to include a multitude of products. Of course, sign-on was simple when it was just one product (Secure Malware Analytics) and one user to log in. When it came time to add a new technology to the stack it was added separately as a standalone product with its own method of logging in. As the number of products increased, so did the number of Cisco staff at the conference to support these products. This means sharing usernames and passwords became tedious and not to mention insecure, especially with 15 Cisco staff, plus partners, accessing the platforms.
The Cisco Secure stack at Black Hat includes SecureX, Umbrella, Malware Analytics, Secure Endpoint (iOS clarity), and Meraki. All of these technologies support using SAML SSO natively with SecureX sign-on. This means that each of our Cisco staff members can have an individual SecureX sign-on account to log into the various consoles. This results in better role-based access control, better audit logging and an overall better login experience. With SecureX sign-on we can log into all the products only having to type a password one time and approve one Cisco DUO Multi-Factor Authentication (MFA) push.
How does this magic work behind the scenes? It’s actually rather simple to configure SSO for each of the Cisco technologies, since they all support SecureX sign-on natively. First and foremost, you must set up a new SecureX org by creating a SecureX sign-on account, creating a new organization and integrating at least one Cisco technology. In this case I created a new SecureX organization for Black Hat and added the Secure Endpoint module, Umbrella Module, Meraki Systems Manager module and the Secure Malware Analytics module. Then from Administration à Users in SecureX, I sent an invite to the Cisco staffers that would be attending the conference, which contained a link to create their account and join the Blackhat SecureX organization. Next let’s take a look at the individual product configurations.
Meraki:
In the Meraki organization settings enable SecureX sign-on. Then under Organization à Administrators add a new user and specify SecureX sign-on as the authentication method. Meraki even lets you limit users to particular networks and set permission levels for those networks. Accepting the email invitation is easy since the user should already be logged into their SecureX sign-on account. Now, logging into Meraki only requires an email address and no password or additional DUO push.
Umbrella:
Under Admin à Authentication configure SecureX sign-on which requires a test login to ensure you can still login before using SSO for authentication to Umbrella. There is no need to configure MFA in Umbrella since SecureX sign-on comes with built in DUO MFA. Existing users and any new users added in Umbrella under Admin à Accounts will now be using SecureX sign-on to login to Umbrella. Logging into Umbrella is now a seamless launch from the SecureX dashboard or from the SecureX ribbon in any of the other consoles.
Secure Malware Analytics:
A Secure Malware Analytics organization admin can create new users in their Threat Grid tenant. This username is unique to Malware Analytics, but it can be connected to a SecureX sign-on account to take advantage of the seamless login flow. From the email invitation the user will create a password for their Malware Analytics user and accept the EULA. Then in the top right under My Malware Analytics Account, the user has an option to connect their SecureX sign-on account which is a one click process if already signed in with SecureX sign-on. Now when a user navigates to Malware Analytics login page, simply clicking “Login with SecureX Sign-On” will grant them access to the console.
Secure Endpoint:
The Secure Endpoint deployment at Blackhat is limited to IOS clarity through Meraki Systems Manager for the conference IOS devices. Most of the asset information we need about the iPhones/iPads is brought in through the SecureX Device Insights inventory. However, for initial configuration and to view device trajectory it is required to log into Secure Endpoint. A new Secure Endpoint account can be created under Accounts à Users and an invite is sent to corresponding email address. Accepting the invite is a smooth process since the user is already signed in with SecureX sign-on. Privileges for the user in the Endpoint console can be granted from within the user account.
Conclusion:
To sum it all up, SecureX sign-on is the standard for the Cisco stack moving forward. With a new SecureX organization instantiated using SecureX sign-on any new users to the Cisco stack at Black Hat will be using SecureX sign-on. SecureX sign-on has helped our user management be much more secure as we have expanded our presence at Black Hat. SecureX sign-on provides a unified login mechanism for all the products and modernized our login experience at the conference.
Malware Threat Intelligence made easy and available, with Cisco Secure Malware Analytics and SecureX by Ben Greenbaum
I’d gotten used to people’s reactions upon seeing SecureX in use for the first time. A few times at Black Hat, a small audience gathered just to watch us effortlessly correlate data from multiple threat intelligence repositories and several security sensor networks in just a few clicks in a single interface for rapid sequencing of events and an intuitive understanding of security events, situations, causes, and consequences. You’ve already read about a few of these instances above. Here is just one example of SecureX automatically putting together a chronological history of observed network events detected by products from two vendors (Cisco Umbrella and NetWitness) . The participation of NetWitness in this and all of our other investigations was made possible by our open architecture, available APIs and API specifications, and the creation of the NetWitness module described above.
In addition to the traffic and online activities of hundreds of user devices on the network, we were responsible for monitoring a handful of Black Hat-owned devices as well. Secure X Device Insights made it easy to access information about these assets, either en masse or as required during an ongoing investigation. iOS Clarity for Secure Endpoint and Meraki System Manager both contributed to this useful tool which adds business intelligence and asset context to SecureX’s native event and threat intelligence, for more complete and more actionable security intelligence overall.
SecureX is made possible by dozens of integrations, each bringing their own unique information and capabilities. This time though, for me, the star of the SecureX show was our malware analysis engine, Cisco Secure Malware Analytics (CSMA). Shortly before Black Hat Asia, the CSMA team released a new version of their SecureX module. SecureX can now query CSMA’s database of malware behavior and activity, including all relevant indicators and observables, as an automated part of the regular process of any investigation performed in SecureX Threat Response.
This capability is most useful in two scenarios:
1: determining if suspicious domains, IPs and files reported by any other technology had been observed in the analysis of any of the millions of publicly submitted file samples, or our own.
2: rapidly gathering additional context about files submitted to the analysis engine by the integrated products in the Black Hat NOC.
The first was a significant time saver in several investigations. In the example below, we received an alert about connections to a suspicious domain. In that scenario, our first course of action is to investigate the domain and any other observables reported with it (typically the internal and public IPs included in the alert). Due to the new CSMA module, we immediately discovered that the domain had a history of being contacted by a variety of malware samples, from multiple families, and that information, corroborated by automatically gathered reputation information from multiple sources about each of those files, gave us an immediate next direction to investigate as we hunted for evidence of those files being present in network traffic or of any traffic to other C&C resources known to be used by those families. From the first alert to having a robust, data-driven set of related signals to look for, took only minutes, including from SecureX partner Recorded Future, who donated a full threat intelligence license for the Black Hat NOC.
The other scenario, investigating files submitted for analysis, came up less frequently but when it did, the CSMA/SecureX integration was equally impressive. We could rapidly, nearly immediately, look for evidence of any of our analyzed samples in the environment across all other deployed SecureX-compatible technologies. That evidence was no longer limited to searching for the hash itself, but included any of the network resources or dropped payloads associated with the sample as well, easily identifying local targets who had not perhaps seen the exact variant submitted, but who had nonetheless been in contact with that sample’s Command and Control infrastructure or other related artifacts.
And of course, thanks to the presence of the ribbon in the CSMA UI, we could be even more efficient and do this with multiple samples at once.
SecureX greatly increased the efficiency of our small volunteer team, and certainly made it possible for us to investigate more alerts and events, and hunt for more threats, all more thoroughly, than we would have been able to without it. SecureX truly took this team to the next level, by augmenting and operationalizing the tools and the staff that we had at our disposal.
We look forward to seeing you at Black Hat USA in Las Vegas, 6-11 August 2022!
Acknowledgements: Special thanks to the Cisco Meraki and Cisco Secure Black Hat NOC team: Aditya Sankar, Aldous Yeung, Alejo Calaoagan, Ben Greenbaum, Christian Clasen, Felix H Y Lam, George Dorsey, Humphrey Cheung, Ian Redden, Jeffrey Chua, Jeffry Handal, Jonny Noble, Matt Vander Horst, Paul Fidler and Steven Fan.
Also, to our NOC partners NetWitness (especially David Glover), Palo Alto Networks (especially James Holland), Gigamon, IronNet (especially Bill Swearington), and the entire Black Hat / Informa Tech staff (especially Grifter ‘Neil Wyler’, Bart Stump, James Pope, Steve Fink and Steve Oldenbourg).
About Black Hat
For more than 20 years, Black Hat has provided attendees with the very latest in information security research, development, and trends. These high-profile global events and trainings are driven by the needs of the security community, striving to bring together the best minds in the industry. Black Hat inspires professionals at all career levels, encouraging growth and collaboration among academia, world-class researchers, and leaders in the public and private sectors. Black Hat Briefings and Trainings are held annually in the United States, Europe and Asia. More information is available at: blackhat.com. Black Hat is brought to you by Informa Tech.
In part one of this issue of our Black Hat Asia NOC blog, you will find:
Cisco Meraki was asked by Black Hat Events to be the Official Wired and Wireless Network Equipment, for Black Hat Asia 2022, in Singapore, 10-13 May 2022; in addition to providing the Mobile Device Management (since Black Hat USA 2021), Malware Analysis (since Black Hat USA 2016), & DNS (since Black Hat USA 2017) for the Network Operations Center. We were proud to collaborate with NOC partners Gigamon, IronNet, MyRepublic, NetWitness and Palo Alto Networks.
To accomplish this undertaking in a few weeks’ time, after the conference had a green light with the new COVID protocols, Cisco Meraki and Cisco Secure leadership gave their full support to send the necessary hardware, software licenses and staff to Singapore. Thirteen Cisco engineers deployed to the Marina Bay Sands Convention Center, from Singapore, Australia, United States and United Kingdom; with two additional remote Cisco engineers from the United States.
From attendee to press to volunteer – coming back to Black Hat as NOC volunteer by Humphrey Cheung
Loops in the networking world are usually considered a bad thing. Spanning tree loops and routing loops happen in an instant and can ruin your whole day, but over the 2nd week in May, I made a different kind of loop. Twenty years ago, I first attended the Black Hat and Defcon conventions – yay Caesars Palace and Alexis Park – a wide-eyed tech newbie who barely knew what WEP hacking, Driftnet image stealing and session hijacking meant. The community was amazing and the friendships and knowledge I gained, springboarded my IT career.
In 2005, I was lucky enough to become a Senior Editor at Tom’s Hardware Guide and attended Black Hat as accredited press from 2005 to 2008. From writing about the latest hardware zero-days to learning how to steal cookies from the master himself, Robert Graham, I can say, without any doubt, Black Hat and Defcon were my favorite events of the year.
Since 2016, I have been a Technical Solutions Architect at Cisco Meraki and have worked on insanely large Meraki installations – some with twenty thousand branches and more than a hundred thousand access points, so setting up the Black Hat network should be a piece of cake right? Heck no, this is unlike any network you’ve experienced!
As an attendee and press, I took the Black Hat network for granted. To take a phrase that we often hear about Cisco Meraki equipment, “it just works”. Back then, while I did see access points and switches around the show, I never really dived into how everything was set up.
A serious challenge was to secure the needed hardware and ship it in time for the conference, given the global supply chain issues. Special recognition to Jeffry Handal for locating the hardware and obtaining the approvals to donate to Black Hat Events. For Black Hat Asia, Cisco Meraki shipped:
Let’s start with availability. iPads and iPhones are scanning QR codes to register attendees. Badge printers need access to the registration system. Training rooms all have their separate wireless networks – after all, Black Hat attendees get a baptism by fire on network defense and attack. To top it all off, hundreds of attendees gulped down terabytes of data through the main conference wireless network.
All this connectivity was provided by Cisco Meraki access points, switches, security appliances, along with integrations into SecureX, Umbrella and other products. We fielded a literal army of engineers to stand up the network in less than two days… just in time for the training sessions on May 10 to 13th and throughout the Black Hat Briefings and Business Hall on May 12 and 13.
Let’s talk security and visibility. For a few days, the Black Hat network is probably one of the most hostile in the world. Attendees learn new exploits, download new tools and are encouraged to test them out. Being able to drill down on attendee connection details and traffic was instrumental on ensuring attendees didn’t get too crazy.
On the wireless front, we made extensive use of our Radio Profiles to reduce interference by tuning power and channel settings. We enabled band steering to get more clients on the 5GHz bands versus 2.4GHz and watched the Location Heatmap like a hawk looking for hotspots and dead areas. Handling the barrage of wireless change requests – enable or disabling this SSID, moving VLANs (Virtual Local Area Networks), enabling tunneling or NAT mode, – was a snap with the Meraki Dashboard.
While the Cisco Meraki Dashboard is extremely powerful, we happily supported exporting of logs and integration in major event collectors, such as the NetWitness SIEM and even the Palo Alto firewall. On Thursday morning, the NOC team found a potentially malicious Macbook Pro performing vulnerability scans against the Black Hat management network. It is a balance, as we must allow trainings and demos connect to malicious websites, download malware and execute. However, there is a Code of Conduct to which all attendees are expected to follow and is posted at Registration with a QR code.
The Cisco Meraki network was exporting syslog and other information to the Palo Alto firewall, and after correlating the data between the Palo Alto Dashboard and Cisco Meraki client details page, we tracked down the laptop to the Business Hall.
We briefed the NOC management, who confirmed the scanning was violation of the Code of Conduct, and the device was blocked in the Meraki Dashboard, with the instruction to come to the NOC.
The device name and location made it very easy to determine to whom it belonged in the conference attendees.
A delegation from the NOC went to the Business Hall, politely waited for the demo to finish at the booth and had a thoughtful conversation with the person about scanning the network.
Coming back to Black Hat as a NOC volunteer was an amazing experience. While it made for long days with little sleep, I really can’t think of a better way to give back to the conference that helped jumpstart my professional career.
Meraki MR, MS, MX and Systems Manager by Paul Fidler
With the invitation extended to Cisco Meraki to provide network access, both from a wired and wireless perspective, there was an opportunity to show the value of the Meraki platform integration capabilities of Access Points (AP), switches, security appliances and mobile device management.
The first amongst this was the use of the Meraki API. We were able to import the list of MAC addresses of the Meraki MRs, to ensure that the APs were named appropriately and tagged, using a single source of truth document shared with the NOC management and partners, with the ability to update en masse at any time.
On the first day of NOC setup, the Cisco team walked around the venue to discuss AP placements with the staff of the Marina Bay Sands. Whilst we had a simple Powerpoint showing approximate AP placements for the conference, it was noted that the venue team had an incredibly detailed floor plan of the venue. This was acquired in PDF and uploaded into the Meraki Dashboard; and with a little fine tuning, aligned perfectly with the Google Map.
Meraki APs were then placed physically in the venue meeting and training rooms, and very roughly on the floor plan. One of the team members then used a printout of the floor plan to mark accurately the placement of the APs. Having the APs named, as mentioned above, made this an easy task (walking around the venue notwithstanding!). This enabled accurate heatmap capability.
The Location Heatmap was a new capability for Black Hat NOC, and the client data visualized in NOC continued to be of great interest to the Black Hat management team, such as which training, briefing and sponsor booths drew the most interest.
The ability to use SSID Availability was incredibly useful. It allowed ALL of the access points to be placed within a single Meraki Network. Not only that, because of the training events happening during the week, as well as TWO dedicated SSIDs for the Registration and lead tracking iOS devices (more of which later), one for initial provisioning (which was later turned off), and one for certificated based authentication, for a very secure connection.
We were able to monitor the number of connected clients, network usage, the persons passing by the network and location analytics, throughout the conference days. We provided visibility access to the Black Hat NOC management and the technology partners (along with full API access), so they could integrate with the network platform.
Meraki alerts are exactly that: the ability to be alerted to something that happens in the Dashboard. Default behavior is to be emailed when something happens. Obviously, emails got lost in the noise, so a web hook was created in SecureX orchestration to be able to consume Meraki alerts and send it to Slack (the messaging platform within the Black Hat NOC), using the native template in the Meraki Dashboard. The first alert to be created was to be alerted if an AP went down. We were to be alerted after five minutes of an AP going down, which is the smallest amount of time available before being alerted.
The bot was ready; however, the APs stayed up the entire time!
Applying the lessons learned at Black Hat Europe 2021, for the initial configuration of the conference iOS devices, we set up the Registration iPads and lead retrieval iPhones with Umbrella, Secure Endpoint and WiFi config. Devices were, as in London, initially configured using Apple Configurator, to both supervise and enroll the devices into a new Meraki Systems Manager instance in the Dashboard.
However, Black Hat Asia 2022 offered us a unique opportunity to show off some of the more integrated functionality.
System Apps were hidden and various restrictions (disallow joining of unknown networks, disallow tethering to computers, etc.) were applied, as well as a standard WPA2 SSID for the devices that the device vendor had set up (we gave them the name of the SSID and Password).
We also stood up a new SSID and turned-on Sentry, which allows you to provision managed devices with, not only the SSID information, but also a dynamically generated certificate. The certificate authority and radius server needed to do this 802.1x is included in the Meraki Dashboard automatically! When the device attempts to authenticate to the network, if it doesn’t have the certificate, it doesn’t get access. This SSID, using SSID availability, was only available to the access points in the Registration area.
Using the Sentry allowed us to easily identify devices in the client list.
One of the alerts generated with SysLog by Meraki, and then viewable and correlated in the NetWitness SIEM, was a ‘De Auth’ event that came from an access point. Whilst we had the IP address of the device, making it easy to find, because the event was a de auth, meaning 802.1x, it narrowed down the devices to JUST the iPads and iPhones used for registration (as all other access points were using WPA2). This was further enhanced by seeing the certificate name used in the de-auth:
Along with the certificate name was the name of the AP: R**
One of the inherent problems with iOS device location is when devices are used indoors, as GPS signals just aren’t strong enough to penetrate modern buildings. However, because the accurate location of the Meraki access points was placed on the floor plan in the Dashboard, and because the Meraki Systems Manager iOS devices were in the same Dashboard organization as the access points, we got to see a much more accurate map of devices compared to Black Hat Europe 2021 in London.
When the conference Registration closed on the last day and the Business Hall Sponsors all returned their iPhones, we were able to remotely wipe all of the devices, removing all attendee data, prior to returning to the device contractor.
Meraki Scanning API Receiver by Christian Clasen
Leveraging the ubiquity of both WiFi and Bluetooth radios in mobile devices and laptops, Cisco Meraki’s wireless access points can detect and provide location analytics to report on user foot traffic behavior. This can be useful in retail scenarios where customers desire location and movement data to better understand the trends of engagement in their physical stores.
Meraki can aggregate real-time data of detected WiFi and Bluetooth devices and triangulate their location rather precisely when the floorplan and AP placement has been diligently designed and documented. At the Black Hat Asia conference, we made sure to properly map the AP locations carefully to ensure the highest accuracy possible.
This scanning data is available for clients whether they are associated with the access points or not. At the conference, we were able to get very detailed heatmaps and time-lapse animations representing the movement of attendees throughout the day. This data is valuable to conference organizers in determining the popularity of certain talks, and the attendance at things like keynote presentations and foot traffic at booths.
This was great for monitoring during the event, but the Dashboard would only provide 24-hours of scanning data, limiting what we could do when it came to long-term data analysis. Fortunately for us, Meraki offers an API service we can use to capture this treasure trove offline for further analysis. We only needed to build a receiver for it.
The Scanning API requires that the customer stand up infrastructure to store the data, and then register with the Meraki cloud using a verification code and secret. It is composed of two endpoints:
Returns the validator string in the response body
[GET] https://yourserver/
This endpoint is called by Meraki to validate the receiving server. It expects to receive a string that matches the validator defined in the Meraki Dashboard for the respective network.
Accepts an observation payload from the Meraki cloud
[POST] https://yourserver/
This endpoint is responsible for receiving the observation data provided by Meraki. The URL path should match that of the [GET] request, used for validation.
The response body will consist of an array of JSON objects containing the observations at an aggregate per network level. The JSON will be determined based on WiFi or BLE device observations as indicated in the type parameter.
What we needed was a simple technology stack that would contain (at minimum) a publicly accessible web server capable of TLS. In the end, the simplest implementation was a web server written using Python Flask, in a Docker container, deployed in AWS, connected through ngrok.
In fewer than 50 lines of Python, we could accept the inbound connection from Meraki and reply with the chosen verification code. We would then listen for the incoming POST data and dump it into a local data store for future analysis. Since this was to be a temporary solution (the duration of the four-day conference), the thought of registering a public domain and configuring TLS certificates wasn’t particularly appealing. An excellent solution for these types of API integrations is ngrok (https://ngrok.com/). And a handy Python wrapper was available for simple integration into the script (https://pyngrok.readthedocs.io/en/latest/index.html).
We wanted to easily re-use this stack next time around, so it only made sense to containerize it in Docker. This way, the whole thing could be stood up at the next conference, with one simple command. The image we ended up with would mount a local volume, so that the ingested data would remain persistent across container restarts.
Ngrok allowed us to create a secure tunnel from the container that could be connected in the cloud to a publicly resolvable domain with a trusted TLS certificate generated for us. Adding that URL to the Meraki Dashboard is all we needed to do start ingesting the massive treasure trove of location data from the Aps – nearly 1GB of JSON over 24 hours.
This “quick and dirty” solution illustrated the importance of interoperability and openness in the technology space when enabling security operations to gather and analyze the data they require to monitor and secure events like Black Hat, and their enterprise networks as well. It served us well during the conference and will certainly be used again going forward.
Check out part two of the blog, Black Hat Asia 2022 Continued: Cisco Secure Integrations, where we will discuss integrating NOC operations and making your Cisco Secure deployment more effective:
Acknowledgements: Special thanks to the Cisco Meraki and Cisco Secure Black Hat NOC team: Aditya Sankar, Aldous Yeung, Alejo Calaoagan, Ben Greenbaum, Christian Clasen, Felix H Y Lam, George Dorsey, Humphrey Cheung, Ian Redden, Jeffrey Chua, Jeffry Handal, Jonny Noble, Matt Vander Horst, Paul Fidler and Steven Fan.
Also, to our NOC partners NetWitness (especially David Glover), Palo Alto Networks (especially James Holland), Gigamon, IronNet (especially Bill Swearington), and the entire Black Hat / Informa Tech staff (especially Grifter ‘Neil Wyler’, Bart Stump, James Pope, Steve Fink and Steve Oldenbourg).
For more than 20 years, Black Hat has provided attendees with the very latest in information security research, development, and trends. These high-profile global events and trainings are driven by the needs of the security community, striving to bring together the best minds in the industry. Black Hat inspires professionals at all career levels, encouraging growth and collaboration among academia, world-class researchers, and leaders in the public and private sectors. Black Hat Briefings and Trainings are held annually in the United States, Europe and Asia. More information is available at: blackhat.com. Black Hat is brought to you by Informa Tech.
We’d love to hear what you think. Ask a Question, Comment Below, and Stay Connected with Cisco Secure on social!
Cisco Secure Social Channels
Authored by Jyothi Naveen and Kiran Raj
McAfee Labs have been observing a spike in phishing campaigns that utilize Microsoft office macro capabilities. These malicious documents reach victims via mass spam E-mail campaigns and generally invoke urgency, fear, or similar emotions, leading unsuspecting users to promptly open them. The purpose of these spam operations is to deliver malicious payloads to as many people as possible.
A recent spam campaign was using malicious word documents to download and execute the Ursnif trojan. Ursnif is a high-risk trojan designed to record various sensitive information. It typically archives this sensitive data and sends it back to a command-and-control server.
This blog describes how attackers use document properties and a few other techniques to download and execute the Ursnif trojan.
The malware arrives through a phishing email containing a Microsoft Word document as an attachment. When the document is opened and macros are enabled, Word downloads a DLL (Ursnif payload). The Ursnif payload is then executed using rundll32.exe
Macros are disabled by default and the malware authors are aware of this and hence present an image to entice the victims into enabling them.
Analyzing the sample statically with ‘oleId’ and ‘olevba’ indicates the suspicious vectors..
The VBA Macro is compatible with x32 and x64 architectures and is highly obfuscated as seen in Figure-5
To get a better understanding of the functionality, we have de-obfuscated the contents in the 2 figures shown below.
An interesting characteristic of this sample is that some of the strings like CLSID, URL for downloading Ursnif, and environment variables names are stored in custom document properties in reverse. As shown in Figure-7, VBA function “ActiveDocument.CustomDocumentProperties()” is used to retrieve the properties and uses “StrReverse” to reverse the contents.
We can see the document properties in Figure-8
The malicious macro retrieves hidden shellcode from a custom property named “Company” using the “cdec” function that converts the shellcode from string to decimal/hex value and executes it. The shellcode is shown below.
The shellcode is written to memory and the access protection is changed to PAGE_EXECUTE_READWRITE.
After adding the shellcode in memory, the environment variable containing the malicious URL of Ursnif payload is created. This Environment variable will be later used by the shellcode.
The shellcode is executed with the use of the SetTimer API. SetTimer creates a timer with the specified time-out value mentioned and notifies a function when the time is elapsed. The 4th parameter used to call SetTimer is the pointer to the shellcode in memory which will be invoked when the mentioned time is elapsed.
The shellcode downloads the file from the URL stored in the environmental variable and stores it as ” y9C4A.tmp.dll ” and executes it with rundll32.exe.
URL | hxxp://docmasterpassb.top/kdv/x7t1QUUADWPEIQyxM6DT3vtrornV4uJcP4GvD9vM/ |
CMD | rundll32 “C:\Users\user\AppData\Local\Temp\y9C4A.tmp.dll”,DllRegisterServer |
After successful execution of the shellcode, the environment variable is removed.
TYPE | VALUE | PRODUCT | DETECTION NAME |
Main Word Document | 6cf97570d317b42ef8bfd4ee4df21d217d5f27b73ff236049d70c37c5337909f | McAfee LiveSafe and Total Protection | X97M/Downloader.CJG |
Downloaded dll | 41ae907a2bb73794bb2cff40b429e62305847a3e1a95f188b596f1cf925c4547 | McAfee LiveSafe and Total Protection | Ursnif-FULJ |
URL to download dll | hxxp://docmasterpassb.top/kdv/x7t1QUUADWPEIQyxM6DT3vtrornV4uJcP4GvD9vM/ | WebAdvisor | Blocked |
Technique ID | Tactic | Technique Details | Description |
T1566.001 | Initial Access | Spear phishing Attachment | Manual execution by user |
T1059.005 | Execution | Visual Basic | Malicious VBA macros |
T1218.011 | Defense Evasion | Signed binary abuse | Rundll32.exe is used |
T1027 | Defense Evasion | Obfuscation techniques | VBA and powershell base64 executions |
T1086 | Execution | Powershell execution | PowerShell command abuse |
Macros are disabled by default in Microsoft Office applications, we suggest keeping it that way unless the document is received from a trusted source. The infection chain discussed in the blog is not limited to Word or Excel. Further threats may use other live-off-the-land tools to download its payloads.
McAfee customers are protected against the malicious files and sites detailed in this blog with McAfee LiveSafe/Total Protection and McAfee Web Advisor.
The post Phishing Campaigns featuring Ursnif Trojan on the Rise appeared first on McAfee Blog.
While biometric tools like facial ID and fingerprints have become more common when it comes to securing our data and devices, strong passwords still play an essential part in safeguarding our digital lives.
This can be frustrating at times, since many of us have more accounts and passwords than we can possibly remember. This can lead us to dangerous password practices, such as choosing short and familiar passwords, and repeating them across numerous accounts. But password safety doesn’t have to be so hard. Here are some essential tips for creating bulletproof passwords.
Every year surveys find that the most popular passwords are as simple as “1234567” and just “password.” This is great news for the cybercrooks, but really bad news for the safety of our personal and financial information.
When it comes to creating strong passwords, length and complexity matter because it makes them harder to guess, and harder to crack if the cybercriminal is using an algorithm to quickly process combinations. The alarming truth is that passwords that are just 7 characters long take less than a third of a second to crack using these “brute force attack” algorithms.
Tricks:
Passwords that include bits of personal information, such as your name, address, or pet’s name, make them easier to guess. This is especially true when we share a lot of personal information online. But you can use personal preferences that aren’t well known to create strong passphrases.
Tricks:
If you reuse passwords and someone guesses a password for one account, they can potentially use it to get into others. This practice has gotten even riskier over the last several years, due to the high number of corporate data breaches. With just one hack, cybercriminals can get their hands on thousands of passwords, which they can then use to try to access multiple accounts.
Tricks:
If just the thought of creating and managing complex passwords has you overwhelmed, outsource the work to a password manager! These are software programs that can create random and complex passwords for each of your accounts, and store them securely. This means you don’t have to remember your passwords – you can simply rely on the password manager to enter them when needed.
Tricks:
Now that you’ve made sure that your passwords are bulletproof, make sure you have comprehensive security software that can protect you from a wide variety of threats.
Tricks:
The post 5 Tips For Creating Bulletproof Passwords appeared first on McAfee Blog.
I am renowned for getting myself into big messes – particularly in the kitchen when I’m cooking up a storm. And I’m totally fine being alone: chopping, stirring and baking until it’s time to clean up! And that’s when the overwhelm hits – I know I should clean as I cook but I never do! So, what do I do? Rally the troops! Yes siree! There’s nothing like another set of eyes or hands to help one wade through the overwhelm – I’m sure that’s why I had 4 kids!!
Many people tell me that they feel a similar way about their online life. They know they need to be doing more to keep themselves safe, but they are completely overwhelmed at where to start. With so much of our lives lived online, it’s not uncommon for one person to have over a hundred online accounts across multiple devices which makes it very hard to keep track of logins, data breaches, or security software.
And research conducted by McAfee shows that consumers know they need to take steps to protect themselves with 74% of users concerned about keeping information private online and 57% keen to be in more control of their personal information. Not surprisingly, since the pandemic started 47% of online consumers feel unsafe compared to just 29% beforehand.
So, to try and make this very overwhelming task that bit easier, McAfee has developed a new tool that allows you to find your own Protection Score. Think of your Protection Score like your credit score or sleep score except this one is a measure of your security online. The higher the score, the safer you are online. And the best part about the score is that helps users identify exactly where they need to pinpoint their focus to ensure they are as safe as possible online. Think of it as a set of experienced hands to help you wade through the overwhelm.
In less than a minute, the McAfee Protection Score will provide you with a pretty clear understanding of how safe you are online. Participants are given a mark between 0 and 1000 that is based on several factors: whether you have online protection and whether your details have been leaked in a security breach. Now, don’t be alarmed if your score is low because here’s the best bit – you will receive a list of exactly what you need to do to improve it and protect yourself from online threats! Phew – my competitive type A personality wouldn’t have coped if I was unable to fix it!
Let me give you an example, when I signed up, I was alerted to the fact that my email address had been involved in a breach, yes – I’m very human! So, it helped me remedy this by taking me to the appropriate page where I could update my password, and then, bingo, my score (and online safety) improved!!
And just to ensure you remain committed, every time you venture back to the Protection Score page, your results and action plan will be there waiting for you to ensure you stay on track and most importantly, to cut through that overwhelm!
Now, in case you were wondering, McAfee’s Protection Score is a first for the cybersecurity industry but good news – they’ve promised it will continue evolving. They will continue to add more features and opportunities to personalize so you can ensure you are living life to the full online!!
So, if you’re feeling overwhelmed at exactly what you need to do to get your online safety under control then McAfee’s Protection Score is exactly what you need. In less than a minute you’ll be able to get a clear understanding of where your online security sits and a personalized action plan so you can start addressing it right away! How good is that?
Till Next Time,
Alex
The post How To Secure Your Online Life? Find Your Protection Score! appeared first on McAfee Blog.
The Domain Name System has provided the fundamental service of mapping internet names to addresses from almost the earliest days of the internet’s history. Billions of internet-connected devices use DNS continuously to look up Internet Protocol addresses of the named resources they want to connect to — for instance, a website such as blog.verisign.com. Once a device has the resource’s address, it can then communicate with the resource using the internet’s routing system.
Just as ensuring that DNS is secure, stable and resilient is a priority for Verisign, so is making sure that the routing system has these characteristics. Indeed, DNS itself depends on the internet’s routing system for its communications, so routing security is vital to DNS security too.
To better understand how these challenges can be met, it’s helpful to step back and remember what the internet is: a loosely interconnected network of networks that interact with each other at a multitude of locations, often across regions or countries.
Packets of data are transmitted within and between those networks, which utilize a collection of technical standards and rules called the IP suite. Every device that connects to the internet is uniquely identified by its IP address, which can take the form of either a 32-bit IPv4 address or a 128-bit IPv6 address. Similarly, every network that connects to the internet has an Autonomous System Number, which is used by routing protocols to identify the network within the global routing system.
The primary job of the routing system is to let networks know the available paths through the internet to specific destinations. Today, the system largely relies on a decentralized and implicit trust model — a hallmark of the internet’s design. No centralized authority dictates how or where networks interconnect globally, or which networks are authorized to assert reachability for an internet destination. Instead, networks share knowledge with each other about the available paths from devices to destination: They route “by rumor.”
Under the Border Gateway Protocol, the internet’s de-facto inter-domain routing protocol, local routing policies decide where and how internet traffic flows, but each network independently applies its own policies on what actions it takes, if any, with data that connects through its network.
BGP has scaled well over the past three decades because 1) it operates in a distributed manner, 2) it has no central point of control (nor failure), and 3) each network acts autonomously. While networks may base their routing policies on an array of pricing, performance and security characteristics, ultimately BGP can use any available path to reach a destination. Often, the choice of route may depend upon personal decisions by network administrators, as well as informal assessments of technical and even individual reliability.
Two prominent types of operational and security incidents occur in the routing system today: route hijacks and route leaks. Route hijacks reroute internet traffic to an unintended destination, while route leaks propagate routing information to an unintended audience. Both types of incidents can be accidental as well as malicious.
Preventing route hijacks and route leaks requires considerable coordination in the internet community, a concept that fundamentally goes against the BGP’s design tenets of distributed action and autonomous operations. A key characteristic of BGP is that any network can potentially announce reachability for any IP addresses to the entire world. That means that any network can potentially have a detrimental effect on the global reachability of any internet destination.
Fortunately, there is a solution already receiving considerable deployment momentum, the Resource Public Key Infrastructure. RPKI provides an internet number resource certification infrastructure, analogous to the traditional PKI for websites. RPKI enables number resource allocation authorities and networks to specify Route Origin Authorizations that are cryptographically verifiable. ROAs can then be used by relying parties to confirm the routing information shared with them is from the authorized origin.
RPKI is standards-based and appears to be gaining traction in improving BGP security. But it also brings new challenges.
Specifically, RPKI creates new external and third-party dependencies that, as adoption continues, ultimately replace the traditionally autonomous operation of the routing system with a more centralized model. If too tightly coupled to the routing system, these dependencies may impact the robustness and resilience of the internet itself. Also, because RPKI relies on DNS and DNS depends on the routing system, network operators need to be careful not to introduce tightly coupled circular dependencies.
Regional Internet Registries, the organizations responsible for top-level number resource allocation, can potentially have direct operational implications on the routing system. Unlike DNS, the global RPKI as deployed does not have a single root of trust. Instead, it has multiple trust anchors, one operated by each of the RIRs. RPKI therefore brings significant new security, stability and resiliency requirements to RIRs, updating their traditional role of simply allocating ASNs and IP addresses with new operational requirements for ensuring the availability, confidentiality, integrity, and stability of this number resource certification infrastructure.
As part of improving BGP security and encouraging adoption of RPKI, the routing community started the Mutually Agreed Norms for Routing Security initiative in 2014. Supported by the Internet Society, MANRS aims to reduce the most common routing system vulnerabilities by creating a culture of collective responsibility towards the security, stability and resiliency of the global routing system. MANRS is continuing to gain traction, guiding internet operators on what they can do to make the routing system more reliable.
Routing by rumor has served the internet well, and a decade ago it may have been ideal because it avoided systemic dependencies. However, the increasingly critical role of the internet and the evolving cyberthreat landscape require a better approach for protecting routing information and preventing route leaks and route hijacks. As network operators deploy RPKI with security, stability and resiliency, the billions of internet-connected devices that use DNS to look up IP addresses can then communicate with those resources through networks that not only share routing information with one another as they’ve traditionally done, but also do something more. They’ll make sure that the routing information they share and use is secure — and route without rumor.
The post Routing Without Rumor: Securing the Internet’s Routing System appeared first on Verisign Blog.
When Aussie school opened their doors this year, the lifespan of parents around the country drastically improved. The combination of homeschooling, working from home, and not going anywhere has completely drained many Aussie working parents, me included!! Many of us have been in survival mode – just focusing on the basics to get through!
Well, now we’re getting back to some sort of normal and we have a little more time to breathe, it’s time to focus on those overdue jobs and that includes doing an audit of your family’s online safety. Now, I know it might seem boring, but I promise you it’s worth the effort. So, I thought I’d share with you a checklist of what you need to do to ensure your family is as safe as possible when online. Let’s get started:
1. Passwords
Your first task is to ensure every family member has a different password for each of their online accounts. Yes, I know – that sounds completely overwhelming. But hear me out. If you have the same password for all your online accounts and you get hacked, then you could be in a world of pain – as the hacker now has access to all your online accounts!! So, this is very much worth sorting out.
Now, there are many ways of managing a long list of passwords. You could write them down in a special, secret book. You could call on your Mensa level memory and try to remember 50 plus passwords – unfortunately, that’s not me! So, let me give you the best solution – a password manager. Password Managers can both generate and remember super complex passwords that no human could even concoct. Check out McAfee’s True Key – it’s free and a complete no-brainer, my friends!
2. Software Updates
Before my life as Cybermum, I used to think software updates were a massive inconvenience. Something else to add to the never-ending list. But how wrong was I! A software update addresses security flaws or bugs in the current version of the app or program. Their goal is to protect the user. So, if you’re serious about protecting your family, these updates can’t be ignored. The easiest way to manage this is to set updates to be automatic, where possible. You can also do this with apps on your phone – for both Apple and Android devices.
3. Ensure Location Services Are Off
Most apps, networks, and devices have geotagging features which means your whereabouts can be widely communicated if your location’s services are turned on. And don’t forget that digital photos can also give away your location as they contain metadata which is information about the time, date, and GPS coordinates of where the pic was taken. So, your job here is simple – ensure all devices have geotagging turned off. And while you’re at it, ensure your kids understand why it’s critical to keep it that way! Nothing worse than pesky strangers knowing your whereabouts!
4. Security Software
Not having security software installed on your devices is no different from leaving your front door unlocked. It is essential. A top-shelf security software system will detect and shut down security attacks on your system. Many will also have a firewall that constantly filters the data that both enters and leaves your computer and will block and restrict your network from viruses and hackers. It will also keep an alert to malicious software and if detected will remove issues such as viruses, worms, and Trojans. It will also stay alert to spyware that you may unintentionally download onto your system and will block and delete it if found. See what I mean? It’s essential. Check out McAfee’s Total Protection which will give you peace of mind.
Unfortunately, there are no guarantees in life however there are definitely ways to minimize risk. Following the above 4 steps will have a significant positive impact on your family’s online safety and most importantly, means you can enjoy a little peace now the kids are back to school!
Till Next Time
Alex x
The post Kids Back To School – The Perfect Time to Audit Your Family’s Online Safety appeared first on McAfee Blog.
The internet is meant for all to enjoy. And that’s who we’re looking out for—you and everyone who wants to enjoy life online.
We believe it’s important that someone has your back like that, particularly where some of today’s hacks and attacks can leave people feeling a little uneasy from time to time. You’ve probably seen stories about data breaches at big companies pop up in your news feed. Or perhaps you or someone you know had their debit or credit card number hacked. Problems like these are out there, unfortunate thorns in the side of the internet we’ve come to love. Yet while these issues persist, there’s plenty you can do to avoid them.
That’s where we have your back—doing all we can to make life online enjoyable for everyone, with protection that helps people finally feel safe and stay that way.
The reality is that nobody wants to deal with hackers, malware, and other attacks crop up on the internet. And while it’s important to be aware of those things, we’d rather that you didn’t have to worry about them. Protection should come easy. Whether it’s keeping your banking, shopping, and streaming secure, along with your privacy and personal info too, protection should feel simple and tailored to you. That’s what we strive for.
So as you think about protecting your life online, take a moment to consider what you’re protecting. As you do, you’ll see that it means far more than protecting your computers, phones, and other devices. Ultimately, it’s about protecting you, and all the important things connected to you. You can think of it in three ways …
What’s among the top things people say they want to protect? Their photos. Not far behind photos are all manner of digital treasures that people like to keep close, which ranges anywhere from music they’ve downloaded to old voicemails of their children, nieces, and nephews that they’ve saved over the years. Without a doubt, we have plenty of things stored on our computers and phones that we simply couldn’t do without.
Protecting these things means protecting the devices you use to store and access them. Installing comprehensive online protection software like ours is the first step. In addition to award-winning antivirus software and firewall protection to help keep hackers at bay (and away from your photos and other precious files), it goes a step further.
Our new Online Protection Score shows you just how safe you are and guides you through simple steps that can seal up gaps and improve your protection overall. In all, it’s a personalized and simple way to make sure you’re protected as possible and continually make improvements as they’re needed. It’s a way of getting expert protection without being an expert.
There’s also the “Important Stuff” in life, like our financial records, tax returns, and all the banking that we do on our phones and computers. And let’s throw shopping into mix because shopping’s important too! You can protect the important things like this, which can help hackers out of your business.
For starters, you can protect your important files three ways with our online protection by using a combination of the McAfee® File Lock and Shredder features to manage your privacy:
You can lock down your privacy even further with a VPN that can shield you automatically from snooping attacks online, whether at home or when using public Wi-Fi. It creates an encrypted connection that works like a private tunnel that hides your IP address and the things you’re doing online from cybercrooks. It’s ideal for keeping your sensitive personal information like your financial data, passwords, and browsing history hidden from both hackers and websites.
And here’s another big help. A password manager. You likely have dozens of passwords, plus a few more that you’ve probably forgotten about. You can protect your passwords and the accounts associated with them with a password manager that creates and securely stores a strong, unique password for each of your accounts. Plus, you can use it to update those passwords on the regular. Few things make it tougher for hackers than strong, unique passwords that get changed often. In a time of data breaches and account theft, a password manager is a great call.
While it’s important to focus on protecting things like laptops, phones, photos, files, and data, you’re ultimately protecting something far greater You. Your privacy, your personal information, your accounts, all the things that taken together make you—you. The thing is that our lives are more fluid and mobile than ever before. One moment we’re banking on our laptop, the next we’re splitting the cost of dinner with a payment on our phone. The constant here is you. You’re at the center of all this activity regardless of the device you’re using. The same goes for your family and the people you care about.
That’s why we protect people, not just their devices.
McAfee Identity Protection Service monitors the dark web for your personal info such as emails and associated passwords, up to 60 different types of critical info. If we detect that your data was stolen, you’ll get immediate alerts on the devices of your choice and guidance on how to secure your info quickly and effectively. In all, you can keep tabs on your identity any time you’re connected to the internet, and if an issue crops up you can click, solve, and carry on.
Extended identity protection offers up the extra comfort of knowing that you have licensed recovery pros on the case if identity theft does happen to you. This includes monitoring and restoration services, along with identity theft insurance for lawyer fees, travel expenses, lost wages, and more.
While that’s just a few of the ways McAfee has your back, we hope it gives you a good sense of what online protection should do—how it should protect you and all the things connected to you. And on today’s internet, that’s quite a bit. There’s so much to experience online today, and we believe you should enjoy all of it, freely and with the confidence that comes from knowing you’re safe.
The post The Internet is for Everyone to Enjoy—We’re Helping See to It appeared first on McAfee Blog.
Did you just get word that your personal information may have been caught up in a data breach? If so, you can take steps to protect yourself from harm should your info get into the hands of a scammer or thief.
How does that information get collected in the first place? We share personal information with companies for multiple reasons simply by going about our day—to pay for takeout at our favorite restaurant, to check into a hotel, or to collect rewards at the local coffee shop. Of course, we use our credit and debit cards too, sometimes as part of an online account that tracks our purchase history.
In other words, we leave trails of data practically wherever we go these days, and that data is of high value to hackers. Thus, all those breaches we read about.
Whether it’s a major breach that exposes millions of records or one of many other smaller-scale breaches like the thousands that have struck healthcare providers, each one serves as a reminder that data breaches happen regularly and that we could find ourselves affected. Depending on the breach and the kind of information you’ve shared with the business or organization in question, information stolen in a breach could include:
What do crooks do with that data? Several things. Apart from using it themselves, they may sell that data to other criminals. Either way, this can lead to illicit use of credit and debit cards, draining of bank accounts, claiming tax refunds or medical expenses in the names of the victims, or, in extreme cases, assuming the identity of others altogether.
In all, data is a kind of currency in of itself because it has the potential to unlock several aspects of victim’s life, each with its own monetary value. It’s no wonder that big breaches like these have made the news over the years, with some of the notables including:
As mentioned, these are big breaches with big companies that we likely more than recognize. Yet smaller and mid-sized businesses are targets as well, with some 43% of data breaches involving companies of that size. Likewise, restaurants and retailers have seen their Point-of-Sale (POS) terminals compromised, right on down to neighborhood restaurants.
When a company experiences a data breach, customers need to realize that this could impact their online safety. If your favorite coffee shop’s customer database gets leaked, there’s a chance that your personal or financial information was exposed. However, this doesn’t mean that your online safety is doomed. If you think you were affected by a breach, you can take several steps to protect yourself from the potential side effects.
One of the most effective ways to determine whether someone is fraudulently using one or more of your accounts is to check your statements. If you see any charges that you did not make, report them to your bank or credit card company immediately. They have processes in place to handle fraud. While you’re with them, see if they offer alerts for strange purchases, transactions, or withdrawals.
Our credit monitoring service can help you keep an eye on this. It monitors changes to your credit score, report, and accounts with timely notifications and guidance so you can take action to tackle identity theft.
Breached and stolen information often ends up in dark web marketplaces where hackers, scammers, and thieves purchase it to commit yet more crime. Once it was difficult to know if your information was caught up in such marketplaces, yet now an identity monitoring service can do the detective work for you.
Our service monitors the dark web for your personal info, including email, government IDs, credit card and bank account info, and more. This can help keep your personal info safe with early alerts that show you if your data is found on the dark web, an average of 10 months ahead of similar services. From there, you’ll get guidance that you can act on, which can help protect your info and accounts from theft.
If you suspect that your data might have been compromised, place a fraud alert on your credit. This not only ensures that any new or recent requests undergo scrutiny, but also allows you to have extra copies of your credit report so you can check for suspicious activity. You can place one fraud alert with any of the three major credit reporting agencies (Equifax, Experian, TransUnion) and they will notify the other two. A fraud alert typically lasts for a year, although there are options for extending it as well.
Freezing your credit will make it highly difficult for criminals to take out loans or open new accounts in your name, as a freeze halts all requests to pull your credit—even legitimate ones. In this way, it’s a far stronger measure than placing a fraud alert. Note that if you plan to take out a loan, open a new credit card, or other activity that will prompt a credit report, you’ll need to take extra steps to see that through while the freeze is in place. (The organization you’re working with can assist with the specifics.) Unlike the fraud alert, you’ll need to contact each major credit reporting agency to put one in place. Also, a freeze lasts as long as you have it in place. You’ll have to remove it yourself, again with each agency.
You can centrally manage this process with our security freeze service, which stops companies from looking at your credit profile, and thus halts the application process for loans, credit cards, utilities, new bank accounts, and more. A security freeze won’t affect your credit score.
Ensure that your passwords are strong and unique. Many people utilize the same password or variations of it across all their accounts. Therefore, be sure to diversify your passcodes to ensure hackers cannot obtain access to all your accounts at once, should one password be compromised. You can also employ a password manager to keep track of your credentials, such as the one you’ll find in comprehensive online protection software.
If the unfortunate happens to you, an identity theft coverage & restoration service can help you get back on your feet. Ours offers $1 million in coverage for lawyer fees, travel expenses, and stolen funds reimbursement. It further provides support from a licensed recovery expert who can take the needed steps to repair your identity and credit. In all, it helps you recover the costs of identity theft along with the time and money it takes to recover from it.
You can take this step any time, even if you haven’t been caught up in a data breach. The fact is that data broker companies collect and sell thousands of pieces of information on millions and millions of people worldwide, part of a global economy estimated at $200 billion U.S. dollars a year. And they’ll sell it to anyone—from advertisers for their campaigns, to scammers who will use it for spammy emails, texts, and calls, and to thieves who use that information for identity theft.
Yet you can clean it up. Our personal data cleanup service can scan some of the riskiest data broker sites and show you which ones are selling your personal info. It also provides guidance on how you can remove your data from those sites and, with select products, even manage the removal for you.
Comprehensive online protection software will offer you the tools and services listed above, along with further features that can protect you online. That includes a VPN to keep your time online more private from online data collection while protecting it from thieves who’re out to steal credit card and account information. It also includes web browsing protection that can warn you of sketchy websites and malicious downloads that look to steal your information. In all, it’s thorough protection for your devices, privacy, and identity. And in a time of data breaches, that kind of protection has become essential.
The post How to Protect Yourself From Identity Theft After a Data Breach appeared first on McAfee Blog.
Something’s not right. Maybe your phone is losing its charge way too quickly. Or one day it suddenly starts turning itself off and on again. Perhaps it’s running hot, so hot it’s hard to hold. Likewise, you might see outgoing calls that you never dialed or strange spikes in your data usage. Signs like these could mean that your smartphone’s been hacked. Learn how to protect your smartphone with McAfee Mobile Security
Several signs of a potential smartphone hack can look like a technical issue, at least on the surface. Yet the fact is that these issues may be a symptom of a deeper problem, such as malware installed on your smartphone. Malware can eat up system resources or conflict with other apps and your operating system, all of which can cause your phone to act sluggish or erratically.
Yet, in a way, that’s good news. Because malware can run inefficiently on your phone and create hiccups both large and small, it can tip you off to its presence. And with all the important information we carry in the palms of our hands nowadays, that’s good news twice over. Knowing the signs, subtle or otherwise can alert you to an otherwise largely invisible problem.
Whether hackers physically sneak it onto your phone or by tricking you into installing it via a phony app, a sketchy website, or a phishing attack, hacking software can create problems for you in a couple of ways:
Some possible signs of hacking software on your phone include:
Maybe you’ve seen some of the signs we mentioned earlier. Is your device operating slower, are web pages and apps harder to load, or does your battery never seem to keep a charge? These are all signs that you could have malware running in the background, zapping your phone’s resources.
Like the performance issues above, malware or mining apps running in the background can burn extra computing power (and data). Aside from sapping performance, malware and mining apps can cause your phone to run hot or even overheat.
If you find apps you haven’t downloaded, or calls, texts, and emails that you didn’t send, that’s a red flag. A hacker may have hijacked your phone to send premium-rate calls or messages or to spread malware to your contacts. Similarly, if you see spikes in your data usage, that could be a sign of a hack as well.
Malware can also be behind spammy pop-ups, changes to your home screen, or bookmarks to suspicious websites. In fact, if you see any configuration changes you didn’t personally make, this is another big clue that your smartphone has been hacked.
While there are several ways a hacker can get into your phone and steal personal and critical information, here are a few tips to keep that from happening:
The post How To Tell If Your Smartphone Has Been Hacked appeared first on McAfee Blog.
For over a decade, the Internet Corporation for Assigned Names and Numbers (ICANN) and its multi-stakeholder community have engaged in an extended dialogue on the topic of DNS abuse, and the need to define, measure and mitigate DNS-related security threats. With increasing global reliance on the internet and DNS for communication, connectivity and commerce, the members of this community have important parts to play in identifying, reporting and mitigating illegal or harmful behavior, within their respective roles and capabilities.
As we consider the path forward on necessary and appropriate steps to improve mitigation of DNS abuse, it’s helpful to reflect briefly on the origins of this issue within ICANN, and to recognize the various and relevant community inputs to our ongoing work.
As a starting point, it’s important to understand ICANN’s central role in preserving the security, stability, resiliency and global interoperability of the internet’s unique identifier system, and also the limitations established within ICANN’s bylaws. ICANN’s primary mission is to ensure the stable and secure operation of the internet’s unique identifier systems, but as expressly stated in its bylaws, ICANN “shall not regulate (i.e., impose rules and restrictions on) services that use the internet’s unique identifiers or the content that such services carry or provide, outside the express scope of Section 1.1(a).” As such, ICANN’s role is important, but limited, when considering the full range of possible definitions of “DNS Abuse,” and developing a comprehensive understanding of security threat categories and the roles and responsibilities of various players in the internet infrastructure ecosystem is required.
In support of this important work, ICANN’s generic top-level domain (gTLD) contracted parties (registries and registrars) continue to engage with ICANN, and with other stakeholders and community interest groups, to address key factors related to effective and appropriate DNS security threat mitigation, including:
To better understand the various roles, responsibilities and processes, it’s important to first define illegal and abusive online activity. While perspectives may vary across our wide range of interest groups, the emerging consensus on definitions and terminology is that these activities can be categorized as DNS Security Threats, Infrastructure Abuse, Illegal Content, or Abusive Content, with ICANN’s remit generally limited to the first two categories.
Behavior within each of these categories constitutes abuse, and it is incumbent on members of the community to actively work to combat and mitigate these behaviors where they have the capability, expertise and responsibility to do so. We recognize the benefit of coordination with other entities, including ICANN within its bylaw-mandated remit, across their respective areas of responsibility.
The ICANN Organization has been actively involved in advancing work on DNS abuse, including the 2017 initiation of the Domain Abuse Activity Reporting (DAAR) system by the Office of the Chief Technology Officer. DAAR is a system for studying and reporting on domain name registration and security threats across top-level domain (TLD) registries, with an overarching purpose to develop a robust, reliable, and reproducible methodology for analyzing security threat activity, which the ICANN community may use to make informed policy decisions. The first DAAR reports were issued in January 2018 and they are updated monthly. Also in 2017, ICANN published its “Framework for Registry Operators to Address Security Threats,” which provides helpful guidance to registries seeking to improve their own DNS security posture.
The ICANN Organization also plays an important role in enforcing gTLD contract compliance and implementing policies developed by the community via its bottom-up, multi-stakeholder processes. For example, over the last several years, it has conducted registry and registrar audits of the anti-abuse provisions in the relevant agreements.
The ICANN Organization has also been a catalyst for increased community attention and action on DNS abuse, including initiating the DNS Security Facilitation Initiative Technical Study Group, which was formed to investigate mechanisms to strengthen collaboration and communication on security and stability issues related to the DNS. Over the last two years, there have also been multiple ICANN cross-community meeting sessions dedicated to the topic, including the most recent session hosted by the ICANN Board during its Annual General Meeting in October 2021. Also, in 2021, ICANN formalized its work on DNS abuse into a dedicated program within the ICANN Organization. These enforcement and compliance responsibilities are very important to ensure that all of ICANN’s contracted parties are living up to their obligations, and that any so-called “bad actors” are identified and remediated or de-accredited and removed from serving the gTLD registry or registrar markets.
The ICANN Organization continues to develop new initiatives to help mitigate DNS security threats, including: (1) expanding DAAR to integrate some country code TLDs, and to eventually include registrar-level reporting; (2) work on COVID domain names; (3) contributions to the development of a Domain Generating Algorithms Framework and facilitating waivers to allow registries and registrars to act on imminent security threats, including botnets at scale; and (4) plans for the ICANN Board to establish a DNS abuse caucus.
As early as 2009, the ICANN community began to identify the need for additional safeguards to help address DNS abuse and security threats, and those community inputs increased over time and have reached a crescendo over the last two years. In the early stages of this community dialogue, the ICANN Governmental Advisory Committee, via its Public Safety Working Group, identified the need for additional mechanisms to address “criminal activity in the registration of domain names.” In the context of renegotiation of the Registrar Accreditation Agreement between ICANN and accredited registrars, and the development of the New gTLD Base Registry Agreement, the GAC played an important and influential role in highlighting this need, providing formal advice to the ICANN Board, which resulted in new requirements for gTLD registry and registrar operators, and new contractual compliance requirements for ICANN.
Following the launch of the 2012 round of new gTLDs, and the finalization of the 2013 amendments to the RAA, several ICANN bylaw-mandated review teams engaged further on the issue of DNS Abuse. These included the Competition, Consumer Trust and Consumer Choice Review Team (CCT-RT), and the second Security, Stability and Resiliency Review Team (SSR2-RT). Both final reports identified and reinforced the need for additional tools to help measure and combat DNS abuse. Also, during this timeframe, the GAC, along with the At-Large Advisory Committee and the Security and Stability Advisory Committee, issued their own respective communiques and formal advice to the ICANN Board reiterating or reinforcing past statements, and providing support for recommendations in the various Review Team reports. Most recently, the SSAC issued SAC 115 titled “SSAC Report on an Interoperable Approach to Addressing Abuse Handling in the DNS.” These ICANN community group inputs have been instrumental in bringing additional focus and/or clarity to the topic of DNS abuse, and have encouraged ICANN and its gTLD registries and registrars to look for improved mechanisms to address the types of abuse within our respective remits.
During 2020 and 2021, ICANN’s gTLD contracted parties have been constructively engaged with other parts of the ICANN community, and with ICANN Org, to advance improved understanding on the topic of DNS security threats, and to identify new and improved mechanisms to enhance the security, stability and resiliency of the domain name registration and resolution systems. Collectively, the registries and registrars have engaged with nearly all groups represented in the ICANN community, and we have produced important documents related to DNS abuse definitions, registry actions, registrar abuse reporting, domain generating algorithms, and trusted notifiers. These all represent significant steps forward in framing the context of the roles, responsibilities and capabilities of ICANN’s gTLD contracted parties, and, consistent with our Letter of Intent commitments, Verisign has been an important contributor, along with our partners, in these Contracted Party House initiatives.
In addition, the gTLD contracted parties and ICANN Organization continue to engage constructively on a number of fronts, including upcoming work on standardized registry reporting, which will help result in better data on abuse mitigation practices that will help to inform community work, future reviews, and provide better visibility into the DNS security landscape.
It is important to note that groups outside of ICANN’s immediate multi-stakeholder community have contributed significantly to the topic of DNS abuse mitigation:
Internet & Jurisdiction Policy Network
The Internet & Jurisdiction Policy Network is a multi-stakeholder organization addressing the tension between the cross-border internet and national jurisdictions. Its secretariat facilitates a global policy process engaging over 400 key entities from governments, the world’s largest internet companies, technical operators, civil society groups, academia and international organizations from over 70 countries. The I&JP has been instrumental in developing multi-stakeholder inputs on issues such as trusted notifier, and Verisign has been a long-time contributor to that work since the I&JP’s founding in 2012.
DNS Abuse Institute
The DNS Abuse Institute was formed in 2021 to develop “outcomes-based initiatives that will create recommended practices, foster collaboration and develop industry-shared solutions to combat the five areas of DNS Abuse: malware, botnets, phishing, pharming, and related spam.” The Institute was created by Public Interest Registry, the registry operator for the .org TLD.
Global Cyber Alliance
The Global Cyber Alliance is a nonprofit organization dedicated to making the internet a safer place by reducing cyber risk. The GCA builds programs, tools and partnerships to sustain a trustworthy internet to enable social and economic progress for all.
ECO “topDNS” DNS Abuse Initiative
Eco is the largest association of the internet industry in Europe. Eco is a long-standing advocate of an “Internet with Responsibility” and of self-regulatory approaches, such as the DNS Abuse Framework. The eco “topDNS” initiative will help bring together stakeholders with an interest in combating and mitigating DNS security threats, and Verisign is a supporter of this new effort.
Other Community Groups
Verisign contributes to the anti-abuse, technical and policy communities: We continuously engage with ICANN and an array of other industry partners to help ensure the continued safe and secure operation of the DNS. For example, Verisign is actively engaged in anti-abuse, technical and policy communities such as the Anti-Phishing and Messaging, Malware and Mobile Anti-Abuse Working Groups, FIRST and the Internet Engineering Task Force.
As a leader in the domain name industry and DNS ecosystem, Verisign supports and has contributed to the cross-community efforts enumerated above. In addition, Verisign also engages directly by:
An important concept and approach for mitigating illegal and abusive activity online is the ability to engage with and rely upon third-party “trusted notifiers” to identify and report such incidents at the appropriate level in the DNS ecosystem. Verisign has supported and been engaged in the good work of the Internet & Jurisdiction Policy Network since its inception, and we’re encouraged by its recent progress on trusted notifier framing. As mentioned earlier, there are some key questions to be addressed as we consider the viability of engaging trusted notifiers or building trusting notifier entities, to help mitigate illegal and abusive online activity.
Verisign’s recent experience with the U.S. government (NTIA and FDA) in combating illegal online opioid sales has been very helpful in illuminating a possible approach for third-party trusted notifier engagement. As noted, we have also benefited from direct engagement with the Internet Watch Foundation and law enforcement in combating CSAM. These recent examples of third-party engagement have underscored the value of a well-formed and executed notification regime, supported by clear expectations, due diligence and due process.
Discussions around trusted notifiers and an appropriate framework for engagement are under way, and Verisign recently engaged with other registries and registrars to lead the development of such a framework for further discussion within the ICANN community. We have significant expertise and experience as an infrastructure provider within our areas of technical, legal and contractual responsibility, and we are aggressive in protecting our operations from bad actors. But in matters related to illegal or abusive content, we need and value contributions from third parties to appropriately identify such behavior when supported by necessary evidence and due diligence. Precisely how such third-party notifications can be formalized and supported at scale is an open question, but one that requires further exploration and work. Verisign is committed to continuing to contribute to these ongoing discussions as we work to mitigate illegal and abusive threats to the security, stability and resiliency of the internet.
Over the last several years, DNS abuse and DNS-related security threat mitigation has been a very important topic of discussion in and around the ICANN community. In cooperation with ICANN, contracted parties, and other groups within the ICANN community, the DNS ecosystem including Verisign has been constructively engaged in developing a common understanding and practical work to advance these efforts, with a goal of meaningfully reducing the level and impact of malicious activity in the DNS. In addition to its contractual compliance functions, ICANN’s contributions have been important in helping to advance this important work and it continues to have a critical coordination and facilitation function that brings the ICANN community together on this important topic. The ICANN community’s recent focus on DNS abuse has been helpful, significant progress has been made, and more work is needed to ensure continued progress in mitigating DNS security threats. As we look ahead to 2022, we are committed to collaborating constructively with ICANN and the ICANN community to deliver on these important goals.
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How does that information get collected in the first place? We share personal information with companies for multiple reasons simply by going about our day—to pay for takeout at our favorite restaurant, to check into a hotel, or to collect rewards at the local coffee shop. Of course, we use our credit and debit cards too, sometimes as part of an online account that tracks our purchase history.
In other words, we leave trails of data practically wherever we go these days, and that data is of high value to hackers. Thus, all those breaches we read about.
Whether it’s a major breach that exposes millions of records or one of many other smaller-scale breaches like the thousands that have struck healthcare providers, each one serves as a reminder that data breaches happen regularly and that we could find ourselves affected. Depending on the breach and the kind of information you’ve shared with the business or organization in question, information stolen in a breach could include:
What do crooks do with that data? Several things. Apart from using it themselves, they may sell that data to other criminals. Either way, this can lead to illicit use of credit and debit cards, draining of bank accounts, claiming tax refunds or medical expenses in the names of the victims, or, in extreme cases, assuming the identity of others altogether.
In all, data is a kind of currency in of itself because it has the potential to unlock several aspects of victim’s life, each with its own monetary value. It’s no wonder that big breaches like these have made the news over the years, with some of the notables including:
Facebook – 2019: Two sets of data exposed the records of more than 530 million users, including phone numbers, account names, and Facebook IDs.
Marriott International (Starwood) – 2018: Half a million guests had names, email and physical mailing addresses, phone numbers, passport numbers, Starwood Preferred Guest account information, dates of birth, and other information about their stays exposed.
Equifax – 2017: Some 147 million records that included names, addresses, dates of birth, driver’s license numbers, and Social Security Numbers were exposed, along with a relatively small subset of 200,000 victims having their credit card information exposed as well.
As mentioned, these are big breaches with big companies that we likely more than recognize. Yet smaller and mid-sized businesses are targets as well, with some 43% of data breaches involving companies of that size. Likewise, restaurants and retailers have seen their Point-of-Sale (POS) terminals compromised, right on down to neighborhood restaurants.
When a company experiences a data breach, customers need to realize that this could impact their online safety. If your favorite coffee shop’s customer database gets leaked, there’s a chance that your personal or financial information was exposed. However, this doesn’t mean that your online safety is doomed. If you think you were affected by a breach, there are multiple steps you can take to help protect yourself from the potential side effects.
One of the most effective ways to determine whether someone is fraudulently using one or more of your accounts is to check your statements. If you see any charges that you did not make, report them to your bank or credit card company immediately. They have processes in place to handle fraud. While you’re with them, see if they offer alerts for strange purchases, transactions, or withdrawals.
File a police report and a Federal Trade Commission (FTC) Identity Theft Report. This will help in case someone uses your Social Security number to commit fraud, since it will provide a legal record of the theft. The FTC can also assist by guiding you through the identity theft recovery process as well. Their site offers a step-by-step recovery plan that you can follow and track your progress as you go.
If you suspect that your data might have been compromised, place a fraud alert on your credit. This not only ensures that any new or recent requests undergo scrutiny, but also allows you to have extra copies of your credit report so you can check for suspicious activity. You can place one fraud alert with any of the three major credit reporting agencies (Equifax, Experian, TransUnion) and they will notify the other two. A fraud alert typically lasts for a year, although there are options for extending it as well.
Freezing your credit will make it highly difficult for criminals to take out loans or open new accounts in your name, as a freeze halts all requests to pull your credit—even legitimate ones. In this way, it’s a far stronger measure than placing a fraud alert. Note that if you plan to take out a loan, open a new credit card, or other activity that will prompt a credit report, you’ll need to take extra steps to see that through while the freeze is in place. (The organization you’re working with can assist with the specifics.) Unlike the fraud alert, you’ll need to contact each major credit reporting agency to put one in place. Also, a freeze lasts as long as you have it in place. You’ll have to remove it yourself, again with each agency.
Ensure that your passwords are strong and unique. Many people utilize the same password or variations of it across all their accounts. Therefore, be sure to diversify your passcodes to ensure hackers cannot obtain access to all your accounts at once, should one password be compromised. You can also employ a password manager to keep track of your credentials, such as one you’ll find in comprehensive online protection software.
A solution such as this will help you to monitor your accounts and alert you of any suspicious activity. Specifically, our own Identity Protection Service will monitor several types of personally identifiable information, alert you of potentially stolen personal info, and offer guided help to neutralize the threat. Also, it can help you steer clear of some types of theft with preventative guidance that can help keep theft from happening in the first place. With this set up on your computers and smartphone you can stay in the know and address issues immediately.
To use your credit card safely online to make purchases, add both a VPN and password manager into your toolbox of security solutions. A VPN keeps your shopping experience private, while a password manager helps you keep track of and protect all your online accounts. Again, you’ll find a VPN as part of comprehensive online protection software.
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