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Learn The Art of Breach Detection – Free Video 4

Learn The Art of Breach Detection

Do you want to learn the key secrets of Breach Detection? Then this free video is right for you:


Hackers will never stop their attack attempts, and organizations must be aware they could be breached any second! So, tune into this presentation to discover:
• How to best prepare against those attacks?
• What tools to leverage?
• How can your security team detect even the latest, more sophisticated foes and, most importantly, how can you respond to their attacks?

Join Dr. Erdal, corporate CISO at Comodo and president of the Global CISO Forum, to learn how you can master your breach detection learning from real-life examples.

For Breach Detection related blog posts click here 

History of data breaches – 1984 till today

Attacks on computers, as we see today, may have evolved in terms of the techniques and sophistication of the attack itself, but one thing that has not changed is the reason for the breaches—data. Data has always been the center of attraction for all the hackers, both past and present.

1984 – The TRW data breach

Looking into the past for data breaches, one cannot miss the incident that was one of the most critical at the time, in 1984, which exposed personal and financial information of about 90 million users. TRW (today known as Experian), at the time, was hosting one of the largest databases of confidential records of about 90 million users and their credit history.

TRW was responsible for providing information on users’ credit history, employment details, banking and loan details, and, most importantly, social security numbers. These were transmitted over a telephone line to their many subscribers, who were mostly banks and department stores in remote locations. The following screenshot shows some online news coverage that this incident received:


History of data breaches
History of data breaches
The history of data breaches Figure : Washington Post and NY Times coverage of the incident in 1984

Quite interestingly, the access to these databases was not so secured, and the subscribers could log in to the TRW database as needed to query the required information about a user. These details were confidential in nature, and only to be accessed by the bank officials or the department store operators. Even though the data accessed was read-only and no one could change any data, one could still expose it and misuse it, which is exactly what happened.

The password and the manual on how to operate the TRW system and access the database was leaked from a department store in one location, and, once the adversaries got hold of the login and access information, they posted it in bulletin boards, (something equivalent of today’s social media). Now, not only did the attackers have the login information, but also a whole profile of those who were connected and had access to the bulletin board.

Surprisingly, the incident was not detected by TRW officials for many months (it’s not clear how long). The breach was reported to TRW by an external party. As per the investigation reports at the time, it was believed that the database was accessed via the store line, and TRW had no clue about how many times it had been accessed.

Experts said during that time that a proper monitoring and detection could have flagged this activity (note that this is true even in today’s environment). Investigators at that time also suggested that, if TRW had implemented a system to call back the telephone number via which access was requested, and verified before the information was transmitted (today we can compare this with our two-factor authentication), and rotated the user password frequently in conjunction with a few other methods, the attack could have been averted.

The points that we need to focus on in this incident of 1984, and compare with today’s attack scenarios, are that the attack vectors, methods, and the mitigation that could have averted this, are quite unchanged. Firstly, one is that the attacker used some sort of social engineering to get hold of login credentials, which is still a very common method today.

Secondly, they had full and complete information about the TRW systems by getting access to the manual, which might have helped them stay undetected for a very long time. Thirdly, they targeted user data not to damage or tarnish the company. It’s the same as today, attackers get silent access to the systems with various methods, and try to stay undetected as long as possible, and make use of the stolen data.

1990s – Beginning of computer viruses and worms

At the beginning of the last decade of the 20th century, the world witnessed the start of a new challenging problem—computer viruses and worms. This changed the course of computer security in the years to come. In 1989, Robert Morris created a program to measure the size of the internet by counting the number of connected devices. He developed a program that would self-propagate using a vulnerability (we discussed this at the beginning of this chapter). But this incident did not get fixed or barred there, and there was more to come.

The early 90s saw the rise of another virus, which was dubbed the “Michelangelo virus, designed to attack DOS systems at the time and modify the boot sector of the disk to stay put. This virus infected any media that was attached to it, such as hard disks or floppy disks, during that time. The Michelangelo virus was designed to stay dormant all the time, except for a particular date, 6 March, which is when it would come alive and act. (It was this date because, the researchers believed, it is the birthday of the famous Renaissance artist Michelangelo, but it’s a mere coincidence.)

It was during these years that we saw the rise of antivirus companies too. Viruses and worms gave birth to a whole new industry, which became mainstream business in the computer security industry in the forthcoming years. The last decade of the 20th century continued to witness more viruses and worms, which moved into the new millennium with increased sophistication.

The years 2000-2010

This was the decade which saw the rise of computer attack sophistication and was much more targeted towards its motive and mission.

In early 2000s, the world was devastated with a new form of virus and the way it spread. The virus was dubbed the “ILOVEYOU” virus, which infected millions of computers, and caused the email systems across the world to collapse. The virus started spreading by email attachment with a VBScript code. Anyone who opened that file executed the VBScript.

The VBScript was designed to download another payload, which then created various persistence methods by including entries in a registry, and the malware started itself whenever the system was rebooted. This executable also installed other malware to steal passwords, and, at a later stage, sent all the captured password from the system to the attacker via email.

Another subroutine in the malware that helped it to spread across the world was designed in such a way that, the moment the malware was executed, it captured all the email addresses in the mail client address book and sent a copy of itself as an attachment with the subject like ILOVEYOU from the user’s address. All the unsuspecting users, thinking it came from a known source, did the same mistake and tried to open the attachment, repeating the whole process. In the days that followed, there were many other variants of this similar modus operandi.

This decade also saw the rise of worms, viruses, and attacks by exploitation of software, OS, and other system vulnerabilities. One of the famous was the SQL Slammer worm that eventually became the fastest spreading worm of that time; it was active for many years, causing massive internet disruption. This worm exploited a vulnerability in the Microsoft SQL Server.

This worm was so agile that it spread over close to 100,000 hosts (maybe even more; the exact count is not available) over the first hour of its infection. It used a buffer overflow bug in the SQL Server and Desktop Engine (MSDE) products. This worm generated random IP addresses and then tried to communicate to those IPs over a destination port UDP/1434 (SQL port).

Once it found the host, it exploited the vulnerable SQL server or the MSDE, and sent a copy of itself to the same host, thereby infecting the host. Once this new host was infected, it repeated the same process. Even though the patch to this bug was made available by Microsoft six months before the attack was launched, most of the systems over the internet were not patched. This indicates how important it is to keep the systems updated with the latest patches.

In November 2008, we witnessed yet another massive attack by another worm, which targeted Windows machines (ranging from Win 2000 to Win 7). This worm eventually impacted 10-15 million servers worldwide in over 190 countries, as a rough estimate. The worm impacted governments, military bases and fleets, corporate and home users, and, in fact, practically everyone in its path. Between November 2008 and April 2009, there were five variants that were found, Conficker ABCD, and E.

This worm not only created a massive infection around the globe, but it also created one of the biggest botnets of the era. Maybe the motive behind the worm was to create a large botnet to do more serious attacks, but nothing was made conclusive regarding the actual motive to generate an attack of this scale. This worm also used many new techniques that had never been used before this time.

This included methods to block disinfection, infections of USB and other removable devices to spread further, along with a few other propagation methods, including files shares, and admins shares. The most innovative was the method to “call home” to the botnet controller via a communication framework based on random domain generation algorithms, later famously known as DGA algorithms, and these became the norm for other malware infections and botnet commands and control infrastructure.

This method allowed the worm to generate hundreds and thousands of random domain names every day by a pre-determined algorithm and seed value (usually the date and time). The same algorithm was used proactively by the attacker to register one, or a few, of the domains from the random list for each day. This domain name was used by the malware on a particular day for command-and-control activities.

By the end of the decade, the industry was taken by surprise with the discovery of a major espionage activity by using a carefully and meticulously created malware, named Stuxnet. This was specially targeted towards a nuclear plant in Iran, with a single purpose of creating disruption in their nuclear programs. To a major extent, this attempt was successful in damaging the nuclear plant in target. This malware brought up some serious issues and concerns within the security fraternity regarding the safety of operational technologies controlling industrial systems, such as SCADA systems, and other similar ones.

In the days to come, the attack sophistication will not only increase but will also be highly targeted, as we have seen in the case of the Bangladesh bank heist where approximately $81 million was siphoned out of the bank in an extremely well-coordinated and planned activity.

How security helps to build trust

With the rise of technologies, most corporations and business houses are moving towards adapting newer and newer technologies to be in the race to keep their businesses ahead of the competition and enhancing customer experience. With this also comes the potential risk of cybersecurity.

Customers trust corporations and business houses with their data. Making sure that the data is secure is the sole responsibility of the corporations, governments, and businesses. If the data is breached, then the business loses trust from the customer and ultimately loses business and brand value.

It is extremely important for customer-facing businesses to maintain trust and progress towards digitization to ensure smooth business operations. As in today’s scenarios of mobile first approach, and IoT approach, connectivity is paramount to stay in business and give customers a richer experience. The only binding factor is trust. And trust can only be achieved by making sure that the data is secured, avoiding breach situations, and, if there is a breach, then recovering as quickly as possible from a breach situation without causing much impact to customers and their data. In other words: to minimize the impact.

Companies must build security into their products and services from the beginning. This will decrease the risk of compromise or any breach, thereby strengthening the trust factor. As no business today can run alone, they have to partner with third parties. It is the responsibility of both the company and the third party to ensure the safety and security of consumer data and intellectual properties. So, as the enhancement of technologies are important for businesses to become profitable and sustain growth, building a security-first culture is also paramount to maintain consumer trust.

Practical Cyber Threat Intelligence

Gather, Process, and Analyze Threat Actor Motives, Targets, and Attacks with Cyber Intelligence Practices

Easy to pronounce, write, say I am proud to announce my sixteenth book, which is called “Practical Cyber Threat Intelligence” and will be very soon released via BPB Publishing. I wanted to share this news with you…

BPB Online Promoting the book

When your business assets are threatened or exposed to cyber risk, you want a high-quality threat hunting team armed with cutting-edge threat intelligence to build the shield. Unfortunately, regardless of how effective your cyber defense solutions are, if you are unfamiliar with the tools, strategies, and procedures used by threat actors, you will be unable to stop them.

This book is intended to provide you with the practical exposure necessary to improve your cyber threat intelligence and hands-on experience with numerous CTI technologies. This book will teach you how to model threats by gathering adversarial data from various sources, pivoting on the adversarial data you have collected, developing the knowledge necessary to analyze them and discriminating between bad and good information.

The book develops and hones the analytical abilities necessary for extracting, comprehending, and analyzing threats comprehensively. The readers will understand the most common indicators of vulnerability that security professionals can use to determine hacking attacks or threats in their systems quickly. In addition, the reader will investigate and illustrate ways to forecast the scope of attacks and assess the potential harm they can cause.

Sponsored Link: 

Comodo Auto containment, to learn more click here 


  • Hands-on experience in developing a powerful and robust threat intelligence model.
  • Acquire the ability to gather, exploit, and leverage adversary data.
  • Recognize the difference between bad intelligence and good intelligence.
  • Creating heatmaps and various visualization reports for better insights.
  • Investigate the most typical indicators of security compromise.
  • Strengthen your analytical skills to understand complicated threat scenarios better.


The book is designed for aspiring Cyber Threat Analysts, Security Analysts, Cybersecurity specialists, Security Consultants, and Network Security Professionals who wish to acquire and hone their analytical abilities to identify and counter threats quickly.


  • Gain practical experience with cyber threat intelligence by using the book’s lab sections.
  • Improve your CTI skills by designing a threat intelligence system.
  • Assisting you in bridging the gap between cybersecurity teams.
  • Developing your knowledge of Cyber Intelligence tools and how to choose them.

To see my other books : Click Here


Threat Modeling – Analyzing Adversaries behavioral – Learning Cyber defense skills –   Malware analysis –  Identify common cyber threats –  Building Threat intelligence Model – Threat Intelligence

Cybersecurity – Attack and Defense Strategies

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Cybersecurity Attack and Defense Strategies v3
Cybersecurity Attack and Defense Strategies v3

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