Article | December 15, 2020
Just about every single day, somewhere in the world, a company falls victim to cyber attackers, even with millions spent on cybersecurity.
Every company is a target because they have data and there are too many doors, windows and entryways for cyber attackers to get in, whether on-premise or in the cloud. It is not a question of if, but when, the attackers will get in.
Prevention efforts are of course important, but since attackers will get in, equal attention must be on detection going forward. And the focus must be on early detection, otherwise, it will be too late.
My book, Next Level Cybersecurity, is based on intensive reviews of the world’s largest hacks and uncovers the signals of the attackers that companies are either missing or don’t know how to detect early, apart from all of the noise. So, the attackers are slipping by the cybersecurity, staying undetected and stealing data or committing other harm.
In the book I explain the Cyber Attack Chain. It is a simplified model that shows the steps that cyber attackers tend to follow in just about every single hack. There are five steps:
command and control; and
At each step, there will be signals of the attackers’ behavior and activity. But the signals in the intrusion, lateral movement and command and control steps provide the greatest value because they are timely.
The external reconnaissance step is very early and the signals may not materialize into an attack, while detecting signals in the execution step is too late because by this time the data theft or harm will have already occurred.
My research uncovered 15 major signals in the intrusion, lateral movement and command and control steps that should be the focus of detection.
My research of the world’s largest hacks reveals that if the company had detected signals of the attackers early, in the intrusion, lateral movement or command and control steps, they would have been able to stop the hack and prevent the loss or damage.
My book shows how to detect the signals in time, using a seven-step early detection method. One of the key steps in this method is to map relevant signals to the Crown Jewels (crucial data, IP or other assets). It is a great use case for machine learning and AI. There is a lot of noise, so machine learning and AI can help eliminate false positives and expose the attackers’ signals early to stop the hack.
There are two blind spots that just about every single company world-wide faces that cyber attackers will exploit, beginning in 2019, that companies must get on top of.
One blind spot is the cloud. There is a false sense of comfort and lack of attention to detection, thinking the cloud is safer because of the cloud provider’s cybersecurity or because the cloud provider has an out-of-the-box monitoring system. However, if the company fails to identify all Crown Jewels and map all relevant cyber attacker signals for the monitoring, the attackers will get in, remain undetected and steal data or commit other harm in the cloud.
The other blind spot is Internet of Things (IoT). IoT devices (e.g. smart TVs, webcams, routers, sensors, etc.), with 5G on the way, will be ubiquitous in companies world-wide. While IoT devices provide many benefits, they are a weak link in the chain due to poor built-in security and lack of monitoring. Cyber attackers will focus on IoT devices to make the intrusion, then pivot to get to the Crown Jewels. Detecting early signals of cyber attackers trying to exploit IoT devices will be critical.
Companies world-wide need to make cybersecurity a priority, starting in the board room and with the CEO. It all starts at the top. My intensive reviews of the world’s largest hacks reveal in each case a common theme: inadequate or missing CEO and board cybersecurity oversight.
Here are five key questions from my book that the CEO must take the lead on and together with the board ask of the management team to make sure the company will not become the next victim of cyber attackers and suffer significant financial and reputational harm:
Have we identified all of our Crown Jewels and are not missing any?
Do we know where all of the Crown Jewels are located?
Have we identified all of the ways cyber attackers could get to the Crown Jewels?
Have we mapped high probability signals of cyber attackers trying to get to the Crown Jewels with each Crown Jewel?
Are we sifting through all of the noise to detect signals early and reporting to the CEO and the board in a dashboard report for timely oversight?
If your answer is No to any of the questions or you are unsure, you have a gap or blind spot and are at risk, and you must follow up to get to a high confidence Yes answer.
In my book, Next Level Cybersecurity, I provide other key questions to ask and a practical seven-step method to take cybersecurity to the next level to stay one step ahead of the attackers. It is written in plain language for boards, executives and management, so everyone can get on the same page and together mitigate one of the most significant and disruptive risks faced today, cybersecurity.
Article | February 10, 2020
Researchers at security firms including Sentinel One and Drago’s have been mystified by a piece of code named Ekans or Snake, over the last month. Drago’s publically released its full report on Ekans Ransomware that has recently inflicted Industrial Control Systems and these are some of the most high-value systems that bridge the gap between digital and physical systems. In the history of hacking, only a few times a piece of malicious code has been marked attempting to intrude Industrial Control Systems. Ekans is supposed to be the first Ransomware with real primitive capability against the Industrial Control Systems, software, and hardware used in everything from oil refineries to power grids. Researchers say this ransomware holds the capability to attack ICS by Honeywell and GE as well.
Article | April 16, 2020
It has been more than a month since businesses around the world started to implement contingencies in response to the Coronavirus. The Cyber Threat Index Report by Imperva Research Labs tracks changes in traffic and attack trends across multiple industries and countries. This month’s edition looks at how COVID-19 is affecting all industries across the globe. Our researchers have found that while some sectors are experiencing a dip in the number of attacks, on the whole they remain consistent. As the chart below shows, certain sectors have experienced a significant increase in attacks over the past few months: attacks on gaming are up seven percent, food & beverages are up six percent, and financial services are up 3 percent.
Article | December 15, 2020
There are three significant and disruptive cybersecurity threats that are catching organizations of all types and sizes by surprise:
Cloud misconfigurations; and
Supply chain backdoors.
Let me explain with recent examples and guide you on what you can do to avoid making other’s mistakes and falling victim to the threats.
Let’s start with ransomware. It is one of the most disruptive risks facing your organization today. Why? Because it can literally bring your operations, no matter who you are, to a standstill and inflict significant cost, pain and suffering.
Just look at the recent example of one organization. It was infected with ransomware, and IT systems were shut down for several weeks, bringing operations to a standstill. It had to gradually re-start systems over several more weeks. It estimates it will cost around $95 million from lost sales, recovery and remediation, impacting profitability. Also, it announced it will not be able to attain its growth plans for the year.
Take another recent example. A three-hospital system was infected and IT systems were shut down and it could not accept any incoming patients for several days. It had to operate using paper, until gradually the IT systems were re-started over several days. Fortunately, in this case, the incoming patients turned away did not suffer any loss of life and were able to be diverted to other hospitals timely, but it could have been tragic.
No organization is immune to ransomware and it can rear its ugly head anytime and inflict severe pain.
There are many variants and each can be tweaked easily by the attackers to evade the defense. The Ryuk ransomware is an example of one that has already inflicted significant pain to hundreds of organizations this year in the U.S. and across the globe. Previously, the SamSam ransomware attacked a variety of organizations in the U.S. and Canada, and provided over $6 million in ransom payments and inflicted over $30 million in losses. Prior to that, NotPetya ransomware rapidly inflicted hundreds of organizations in various parts of the world, and caused over $10 billion in damages.
The attackers are seeing that with ransomware it is quicker and easier to make the intrusion, and encrypt some of the data than try to exfiltrate all of it. They are asking themselves, why take all the time and trouble to look for all of the data and try to steal it, when only some critical systems and data can be locked up, until a ransom is paid?
They are seeing that with ransomware there will be immediate adverse impact since the victim will not be able to access critical data and systems, and will not be able to operate. So, there is high probability the ransom will be paid to stop the pain and suffering, especially if the victim has cyber insurance in place. The organization is likely to use the insurance policy to pay the ransom, rather than continue to have its operations disrupted or shut down.
They are also seeing that while most organizations have put in place various controls to prevent and detect data theft, they have not placed an equal weight to preventing and detecting ransomware. Most organizations have a lot of data and given all of the data thefts that have occurred and continue to occur and reported in the press, the bias has been to focus on data theft. But ransomware risk cannot be ignored or approached less seriously.
Imagine that you are infected with ransomware and your people cannot access documents, files or systems, and operate. All critical files and systems are locked out from the ransomware encryption, and a ransom payment is demanded by the hacker for the keys to unlock the encryption. What if, it will take you days, weeks or months to recover? What impact would it have on your organization?
You may think that you will be able to recover quickly from back up files and systems, but are you sure? The new ransomware variants are devised to hunt down and delete or encrypt backup files and systems also, and in some cases, first, before encrypting rest of the files and systems.
The organization that was recently infected that estimates $95 million in financial impact from the ransomware thought it had the risk under control, until it was hit with the ransomware and realized it was not prepared to manage the risk.
Now, let’s move to the threat from cloud misconfigurations.
You are most probably in the cloud completely or partially. Whether you have completely outsourced your infrastructure and services to a cloud provider or are utilizing one partially, remember, ultimately, you own the cybersecurity and that you are responsible for security in the cloud, while the cloud provider is responsible for security of the cloud.
While the cloud provider will provide perimeter security, you are responsible for security of your data, IP and other assets in the cloud, and are equally susceptible to attackers in the cloud as you are on the premises. Even if any of the “big six” cloud providers, such as Amazon Web Services or Microsoft Azure or others, provide the cybersecurity, attackers can exploit weak links in the chain, break in and steal data or cause other harm.
A common weak link in the chain are misconfigurations of the various systems that the cloud provider makes available as part of its service. You are responsible for all of the configurations, not the cloud provider. So, if your team does not take the time to fully understand all of the configurations that are necessary and complete them timely, security holes will arise and remain open for the attackers to exploit.
Just look at the recent example of an organization that fell victim where the data of over 100 million customers was stolen. This organization was using one of the “big six” cloud providers, but missed making all of the necessary configurations. A former employee of the cloud provider, who was familiar with the systems and configurations, discovered a misconfiguration in a web application firewall and exploited it to break in. The attacker then was able to query a metadata service to obtain keys and tokens, which allowed the attacker to query and copy storage object data and eventually exfiltrate it.
This was a case where configuration errors in a web application firewall coupled with unrestricted metadata service access and other errors handed the attacker the keys to the kingdom for the theft of 100 million customers data.
Other common cloud misconfigurations that create opportunities for attackers to exploit include:
Unrestricted in bound access on uncommon ports
Unrestricted outbound access
Unrestricted access to non-http/https ports
Unrestricted metadata service requests
Inactivate monitoring of keys and tokens
You may think that you do not have any misconfigurations in your cloud environment, but how do you know? The organization that recently lost 100 million customers data thought it had strong security in its cloud infrastructure, until it was hit with the data theft and realized it was not prepared to manage the risk.
Now, let’s move to the threat from supply chain backdoors.
No matter what type of organization you are or your size, you most probably have a supply chain, comprised of independent contractors, vendors or partners. Each of these could be the weakest link in the chain.
In other words, the attackers may find that one of your suppliers may be easier to break into first because of weaker cybersecurity and may have privileged access to your organization, given their role and responsibilities. So why not first attack the weaker supplier, steal their privileged user credentials and use it to break into your organization and eventually attain the ultimate objective, steal data or commit other harm?
Or they may find that one of your suppliers has part of your data in order to provide the outsourced service, so they can steal the data simply by breaking into the supplier with the weaker cybersecurity, so no need to attack you directly.
There are many examples of supply chain risk, such as with a government agency, where the credentials of a background check vendor were first stolen to access the agency’s systems, then to move laterally and find other unprotected privileged users credentials to access databases and steal data of 21.5 million individuals, including fingerprints data of 5.6 million individuals.
But just look at the recent example of an organization that had outsourced billing and collections to a supplier. This is a case where the attackers did not have to attack directly. In this case, attackers broke into the supplier and injected malicious code into the payments webpages managed by the supplier and stole credit card, banking, medical and other personal information, such as social security numbers, of 11.9 million consumers. The attackers had access to the supplier’s system for eight months, during which it skimmed the data being input by consumers on the payments webpages.
So, while your cybersecurity may be in good shape, the weakest link in the chain may be one of your suppliers, who may unwittingly provide the attackers the backdoor into your organization or to your data or IP.
So, ransomware, cloud misconfigurations and supply chain backdoors are three significant and disruptive threats facing your organization today that you should mitigate.