Category Archives: Digital Security

Digital security is the process of protecting your online identity, data, and other assets from intruders, such as hackers, scammers, and fraudsters. It is essential for trust in the digital age, as well as for innovation, competitiveness, and growth. This field covers the economic and social aspects of cybersecurity, as opposed to purely technical aspects and those related to criminal law enforcement or national and international security.

In this category, you will find articles related to digital security that have a direct or indirect connection with the activities of Freemindtronic Andorra or that may interest the readers of the article published in this category. You will learn about the latest trends, challenges, and solutions in this field, as well as the best practices and recommendations from experts and organizations such as the OECD. You will also discover how to protect your personal data from being used and sold by companies without your consent.

Whether you are an individual, a business owner, or a policy maker, you will benefit from reading these articles and gaining more knowledge and awareness about this topic and its importance for your online safety and prosperity. Some of the topics that you will find in this category are:

  • How to prevent and respond to cyberattacks
  • How to use encryption and cryptography to secure your data
  • How to manage risks and vulnerabilities
  • How to comply with laws and regulations
  • How to foster a culture of security in your organization
  • How to educate yourself and others about this topic

We hope that you will enjoy reading these articles and that they will inspire you to take action to improve your security. If you have any questions or feedback, please feel free to contact us.

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What is Juice Jacking and How to Avoid It?

what is juice jacking and how to avoid it

Juice Jacking by Jacques gascuel This article will be updated with any new information on the topic, and readers are encouraged to leave comments or contact the author with any suggestions or additions.  

How to protect yourself from Juice Jacking”

Do you often use public USB chargers to recharge your smartphone or tablet? If so, you may be exposing your device to a cyberattack called Juice Jacking. In this article, we will explain what Juice Jacking is and how to protect yourself from it.

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Juice Jacking: How to Avoid This Cyberattack

Do you often use public USB chargers to recharge your smartphone or tablet? If so, you may be exposing your device to a cyberattack called Juice Jacking. This is a type of attack that can steal your data or infect your device when you use a public USB charger. In this article, we will explain what Juice Jacking is and how to protect yourself from it.

What is Juice Jacking?

Juice Jacking is an attack that hackers can perform. They put malware on the public charger’s USB port. When you plug your device into the charger, the malware can access your data or infect your device.

Juice Jacking can take two forms:

  • Data theft: the malware can copy your contacts, photos, messages, passwords or any other sensitive information stored on your device.
  • Malware installation: the malware can install a program that will do malicious things to your device.

The Lack of Awareness and Protection of Juice Jacking Among Users Worldwide

One of the reasons why juice jacking is a serious threat is that many people are unaware of it or do not take precautions when using public USB ports. According to a 2019 study by the University of Illinois at Urbana-Champaign, 64% of Americans use public USB ports to charge their devices, and 15% of them do not know what juice jacking is. The study also found that only 8% of the participants used a USB data blocker or a power-only cable to protect their devices from potential attacks. A similar situation exists in other countries, such as the United Kingdom and Australia. A 2020 study by Comparitech surveyed more than 2,000 people in the UK and found that 45% of them used public USB ports to charge their devices, and 50% of them had never heard of juice jacking. A 2019 study by Finder analyzed the behavior of more than 1,000 people in Australia and found that 41% of them used public USB ports at least once a month, and 21% of them did not know what juice jacking was. These studies show that there is a need for more education and awareness on the risks and prevention of juice jacking.

How to prevent Juice Jacking?

To prevent Juice Jacking, don’t use public USB chargers. Instead, you can use your own charger or a portable battery. However, if you have no choice but to use a public charger, you can take some precautions:

  • Use a USB data blocker. This is a device that blocks the data transfer between the charger and your device. It only allows the power to pass through.
  • Turn off your device before plugging it into the charger. This may reduce the risk of data theft or infection.
  • Use a VPN app on your device. This can encrypt your data and make it harder for hackers to access it.

How to protect yourself from Juice Jacking with EviCore NFC HSM and EviCypher Technology

Juice Jacking is a cyberattack that steals or modifies your data through malicious USB chargers. You need a secure and portable encryption solution to protect yourself from this threat. EviCore NFC HSM and EviCypher technology can help you.

EviCore NFC HSM is a contactless hardware security module (HSM). It stores your sensitive data and protects it with configurable multi-factor authentication. You can access your data with your smartphone via NFC (Near Field Communication).

EviCypher is a hardware encryption device that works with EviCore NFC HSM. It encrypts and decrypts your documents, emails and messages with your smartphone. You can use it with any messaging service and enjoy an advanced electronic signature system.

With EviCore NFC HSM and EviCypher, you can avoid hackers who use malicious USB chargers. Your data are safe and secure offline, without any server or database. To learn more about this innovative technology, visit the website EviCore NFC HSM by Freemindtronic.

EviCore NFC HSM and EviCypher are products and services from Freemindtronic. Freemindtronic is a company specialized in NFC security solutions. It offers the best encryption products on the market.

A more technical explanation by ethical hackers

The Juice Jacking is a cyberattack that exploits the vulnerability of the USB ports that are used for both charging and data transfer. Ethical hackers, who are security professionals who use their skills for good, have demonstrated how this attack works and how to prevent it.

One of the first demonstrations of Juice Jacking was made by researchers from the University of Michigan in 2011 at the DEF CON hacker convention. They set up an informative kiosk on Juice Jacking to raise awareness among visitors about the danger of plugging their devices into public charging stations. When a visitor plugged in their phone, the screen turned red and displayed a warning message: “You should not trust public kiosks with your smart phoneYou should not trust public kiosks with your smart phoneYou should not trust public kiosks with your smart phone”.

The researchers also showed how malicious actors could use the kiosk to steal data, track devices, or compromise them. They also provided information on how to compromise charging kiosks.

Another demonstration was made by security researchersecurity researcher Kyle Osborn in 2012. He published an attack framework called P2P-ADB that uses a USB On-The-Go cable to connect an attacker’s phone to a victim’s device. The framework includes examples and proofs of concept that would allow hackers to unlock locked phones, steal data from a phone, including authentication keys that would allow the attacker to access the owner’s Google account.

In 2013, security researchers from Georgia Tech published a proof of concept of a malicious tool called Mactans that uses the USB charging port of an Apple mobile device. They used low-cost hardware components to build a small malicious wall charger that can inject malware into an iPhone running

In 2014, security researchers Karsten Nohl and Jakob Lell from srlabs published their research on the BadUSB attack at the Black Hat USA conference . They showed how hackers can reprogram USB devices such as flash drives or cables to act as keyboards or network cards and send commands or data to a connected device.

These demonstrations show how Juice Jacking can be performed by skilled hackers who have access to the USB ports or cables in public places. They also show how users can protect themselves by using their own chargers or batteries, using data blockers, turning off their devices, or using VPN apps.

Some examples and testimonials

Juice Jacking is a serious threat for users of public USB chargers. It can compromise your data and your device’s security. Here are some examples and testimonials that illustrate the risks of Juice Jacking:

  • In 2011, at the DEF CON hacker convention, an informative kiosk on Juice Jacking was set up to raise awareness among visitors about the danger of plugging their devices into public charging stations . When a visitor plugged in their phone, the screen turned red and displayed a warning message: “You should not trust public kiosks with your smart phone” .
  • In 2013, security researchers from Georgia Tech presented a proof of concept of a malicious wall charger that could inject malware into an iPhone running the latest version of iOS while it was being charged. The malware bypasses all the built-in security measures in iOS and hides itself in the same way that Apple hides background processes in iOS .
  • In 2019, the Los Angeles County District Attorney warned travelers about Juice Jacking in airports. He advised travelers to use electrical outlets rather than USB ports to charge their devices.
  • In 2020, a French journalist testified that she was a victim of Juice Jacking during a trip to India. She said that her phone was infected by malware after plugging it into a USB port in a hotel. The malware sent her messages asking her to pay a ransom to get her data back.

To illustrate the phenomenon of Juice Jacking further, you can also check out these videos:

  • A video explanation from ZDNet that presents Juice Jacking and its consequences.
  • A video demonstration from ETX Studio that shows how to protect yourself from Juice Jacking with a USB data blocker.
  • A video information from Slate that explains why you should not be afraid of Juice Jacking and how it is unlikely to happen.

Some scientific and statistical sources

Juice Jacking is a topic that interests security researchers and public authorities. Here are some scientific and statistical sources that address Juice Jacking:

  • An academic paper published in 2011 by researchers from the University of Michigan that analyzes the risks associated with using public USB ports and proposes solutions to reduce them.
  • A technical report published in 2014 by researchers from Johns Hopkins University that describes a method to detect and prevent Juice Jacking on Android devices.
  • A study conducted in 2017 by Kaspersky Lab that reveals that 25% of French users have already used a public USB charger and that 12% of them have already suffered a loss or theft of data as a result of such use.

Conclusion

Juice Jacking is a cyberattack that targets users of public USB chargers. It can compromise your data and your device’s security. To avoid it, you should use your own charger or battery whenever possible. If you have to use a public charger, you should use a USB data blocker, turn off your device, or use a VPN app.

We hope this article helped you understand what Juice Jacking is and how to protect yourself from it.

Strong Passwords in the Quantum Computing Era

Strong Passwords in the Quantum Computing

Strong Passwords by Jacques gascuel This article will be updated with any new information on the topic, and readers are encouraged to leave comments or contact the author with any suggestions or additions.  

How to Protect Your Passwords from Quantum Computers Introduction

Do you know that quantum computers could break your passwords in seconds? This could expose your personal and financial data to hackers. To prevent this, you need to create strong passwords that can resist quantum attacks. In this article, you will learn how to do it easily and effectively.

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How to create strong passwords in the era of quantum computing?

Quantum computing is a technology that promises to revolutionize the field of computation by exploiting the properties of subatomic particles. It offers unprecedented possibilities for scientific research, artificial intelligence or cryptography. But it also represents a risk for the security of data and online communications. Indeed, quantum computers could be able to crack the secret codes that protect our passwords, our bank accounts or our private messages.

What is quantum computing? What is encryption? What is a brute force attack?How to protect ourselves from this threat? The answer is simple: create strong passwords and resist quantum attacks. But what is a strong password? And how to choose it? Here are some tips to help you strengthen your digital security in the era of quantum computing.

What is quantum computing and how does it work in video?

What is a strong password?

A strong password is a password that is hard to guess or crack by a hacker. It must be composed of at least 12 characters, mix uppercase and lowercase letters, numbers and symbols, and not contain dictionary words, proper names or personal data. For example, “P@ssw0rd123” is not a strong password, because it is too short, too simple and too common. On the other hand, “Qx7!tZ9#rGm4” is a strong password, because it is long, complex and random.

Why is a strong password important?

A strong password is important because it reduces the risk that your account will be hacked by a brute force attack. A brute force attack consists of testing all possible combinations of characters until finding the right password. The longer and more complex the password, the more possible combinations there are, and the more time and resources it takes to crack it.

For example, a password of 8 characters composed only of lowercase letters has about 200 billion (26^8) possible combinations. A classical computer can crack it in a few minutes. But a password of 20 characters composed of letters, numbers and symbols has about 10^39 (95^20) possible combinations. A classical computer would need 766 trillion years to crack it.

But what about quantum computers?

Quantum computers are able to perform calculations much faster and more powerful than classical computers thanks to their ability to manipulate qubits instead of bits. A qubit can take two states simultaneously (0 and 1), which allows it to explore multiple solutions at the same time. Thus, a quantum computer could theoretically crack a password by testing all possible combinations in parallel.

However, there are technical and practical limits to this ability. First, you need to have a quantum computer powerful and stable enough to perform this type of operation. However, current quantum computers are still very rudimentary and only have a limited number of qubits. Second, you need to know the type of encryption used to protect the password. However, there are encryption algorithms that are resistant to quantum attacks, such as symmetric encryption or elliptic curve encryption. Third, you need to have access to the system that stores the password. However, there are security measures that prevent unauthorized access, such as two-factor authentication or account locking after several unsuccessful attempts.

Thus, even if quantum computers represent a potential threat for the security of passwords, they are not yet able to crack them easily. Nevertheless, it is prudent to prepare for the advent of this technology by creating strong passwords and changing them regularly.

How to choose a strong password?

To choose a strong password, there are several methods. Here are some examples:

  • The Diceware method: it consists of randomly choosing several words from a predefined list and separating them by spaces or symbols. For example, “piano cat star 7 &”. This method allows you to create passwords that are easy to remember and hard to crack.
  • The XKCD method: it consists of choosing four random words and assembling them without space. For example, “correcthorsebatterystaple”. This method is inspired by a comic from the XKCD site that shows that this type of password is safer than a complex but short password.

The random generator method: it consists of using an online tool that creates a random password composed of letters, numbers and symbols. For example, “Qx7!tZ9#rGm4”. This is the method implemented in the evicore nfc and evicore hsm technology from Freemindtronic, which features a random password generator with Shannon entropy control. This technology also automatically calculates the number of bits of the generated password based on the type of printable ASCII 95 characters used. This method allows you to create very secure passwords but difficult or impossible to remember, which requires the use of a hardware or virtual password manager. Whatever the method chosen, it is important to follow some rules:

  • Do not use the same password for multiple accounts or services.
  • Do not write the password on a paper or store it on an insecure device.
  • Do not share the password with other people or communicate it by email or phone.
  • Do not use obvious clues or security questions to recover the password in case of forgetfulness.
  • Use a password manager to store and manage your passwords securely.

Tools for creating and protecting strong passwords

If you want to create and protect strong passwords in the age of quantum computing, you can use some of these online tools to help you:

  • Online password generator: A tool that creates a random and strong password composed of letters, numbers and symbols. For example, Mot de passe.xyz is a free and secure online password generator that lets you choose the length and types of characters for your password.
  • Password strength calculator: A tool that calculates the entropy (the number of bits) of a password based on its length and the number of possible characters. For example, Password Entropy Calculator is a free online tool that shows you how strong your password is and how long it would take to crack it.
  • Data breach checker: A tool that checks if your email or phone number has been exposed in a data breach. For example, Have I Been Pwned? is a free online service that lets you check if your personal information has been compromised by hackers.

Using these tools can help you create and protect strong passwords that are resistant to quantum attacks. However, you should also remember to use different passwords for different accounts, change them regularly, and use a password manager to store them safely.

In conclusion

Passwords are essential to protect our privacy and our data online. Faced with the potential threat of quantum computers, it is important to create strong passwords and resist quantum attacks. To do this, we need to choose passwords that are long and complex, change them regularly and manage them with caution. Thus, we will be able to enjoy the benefits of quantum computing without fearing for our digital security.

Kevin Mitnick’s Password Hacking with Hashtopolis

Kevin Mitnick and his Hashtopolis: The Ultimate Password Cracking Tool


password hacking with Hashtopolis by Jacques gascuel
This article will be updated with any new information on the topic, and readers are encouraged to leave comments or contact the author with any suggestions or additions.
Related topic : ******

How Kevin Mitnick hacked passwords with Hashtopolis

Learn about password hacking using Hashtopolis, a powerful tool that can crack any hash in minutes using multiple machines equipped with GPUs. Famous hacker Kevin Mitnick used it to demonstrate the tool’s capabilities. Discover the advantages and disadvantages of using such a tool, as well as ethical and legal implications of password hacking. Get tips on how to protect your online accounts with strong passwords. Keep reading to find out more!

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Password hacking tool: how it works and how to protect yourself

Password hacking is a practice that consists of finding the secret code that protects access to an account or a file. There are specialized tools to perform this operation, such as the one used by Mitnick Security Consulting. In this article, we will present the features of this tool, its advantages and disadvantages, as well as the ways to protect yourself from password hacking.

Introduction

Password hacking is a practice that consists of finding the secret code that protects access to an account or a file. It can be done for various purposes, such as testing the security of a system, recovering a forgotten password, or stealing personal or professional data.

There are specialized tools to perform password hacking, such as the one used by Mitnick Security Consulting. This company is led by Kevin Mitnick, a famous hacker who was arrested in 1995 for hacking dozens of computer systems, including those of the Pentagon, NASA and FBI. Today he has become a security expert and consultant who helps companies protect themselves from cyberattacks.

The main purpose of this article is to present the features, advantages and disadvantages of the password hacking tool used by Mitnick Security Consulting, as well as the ways to protect yourself from password hacking. We will first explain how the tool uses a large number of GPUs to speed up the hacking process. Then we will discuss the benefits and drawbacks of using such a tool in terms of energy consumption and privacy concerns. Next we will address the ethical and legal implications of password hacking. After that we will summarize some user reactions to password hacking. Finally we will provide some tips on how to protect your online accounts with strong passwords.

Features of the password hacking tool

The password hacking tool used by Mitnick Security Consulting uses a large number of GPUs to speed up the hacking process. According to the information shared by Mitnick, the tool uses 24 GPU 4090s and 6 GPU 2080s, all clustered and running with Hashtopolis. This allows the tool to hack passwords at an impressive speed, reaching 6.2 trillion per second for NTLM (New Technology LAN Manager).

Hashtopolis is an open source software that allows to distribute the password hacking work across multiple machines equipped with GPUs. It uses a web interface to manage the agents, tasks and passwords found. It supports several types of hashes, such as NTLM, MD5, SHA1, SHA256, SHA512, WPA/WPA2 and even BitLocker.

A hash is a mathematical function that transforms a password into a random string of characters. For example, the password “password” hashed with MD5 would be “5f4dcc3b5aa765d61d8327deb882cf99”. Hashing is used to store passwords securely without revealing them in plain text.

To crack a password, one has to find the original password that corresponds to a given hash. This can be done by using different methods, such as bruteforce, dictionary or mask.

Bruteforce is a method that tries all possible combinations of characters until finding the right one. For example, if the password is four digits long, it would try 0000, 0001, 0002… until 9999.

Dictionary is a method that tries words from a predefined list or a common language dictionary. For example, if the password is a word in English, it would try apple, banana, carrot… until finding the right one.

Mask is a method that tries combinations based on a known pattern or structure. For example, if the password is composed of two words separated by an underscore (_), it would try word_word, name_name… until finding the right one.

Advantages and disadvantages of the password hacking tool

The use of such a tool has advantages and disadvantages. On one hand, it allows the company to quickly test the security of the passwords used by its clients and detect vulnerabilities. This can help prevent unauthorized access and data breaches. It can also help users improve their password habits and choose stronger passwords.

On the other hand, it consumes a considerable amount of energy and generates heat. This can have a negative impact on the environment and increase the carbon footprint of the company. It can also raise privacy concerns, as the tool can be used for malicious purposes, such as hacking online accounts or sensitive data. This can result in identity theft, industrial espionage or sabotage.

It is important to note that even with such a powerful tool, there are limits to what can be achieved in terms of password hacking. Long and complex passwords, stored using secure hashing algorithms such as bcrypt or PBKDF2, can be very difficult to hack even with powerful tools. These algorithms use a large number of iterations to significantly slow down the hashing process, making brute force hacking much more difficult.

In addition to the number of iterations, these algorithms have other features that make them more resistant to GPU or specialized hardware attacks. Bcrypt uses an encryption function based on Blowfish, which is designed to be costly in memory and random access. This makes it difficult to parallelize bcrypt on multiple GPUs. PBKDF2 uses an internal hash function, such as SHA-256 or SHA-512, which can be optimized for GPUs, but which also requires a lot of calculations. This makes the cost of the attack proportional to the number of iterations. According to a 2015 study, it would take about 4 days to crack an 8-character alphanumeric password with bcrypt and 10 iterations, compared to about 5 hours with PBKDF2 and 10,000 iterations.

Ethical and legal implications of password hacking

The use of such a powerful password hacking tool raises ethical and legal questions. On one hand, it can serve to strengthen the security of computer systems by demonstrating their vulnerability and encouraging users to choose stronger passwords. This can be seen as a form of ethical hacking or penetration testing, which aims to improve the security of a system by finding and reporting its weaknesses.

On the other hand, it can be used for malicious purposes, such as hacking online accounts or sensitive data. This can be seen as a form of illegal hacking or cybercrime, which aims to harm or exploit a system by exploiting its weaknesses.

Therefore, some ethical and legal rules must be respected when using a password hacking tool. For example:

  • The tool should only be used with the consent and authorization of the owner or administrator of the system.
  • The tool should only be used for legitimate purposes, such as testing the security of passwords or recovering a forgotten password.
  • The tool should not be used to access or disclose confidential or personal information without permission.
  • The tool should not be used to cause damage or disruption to the system or its users.

To give you an idea of how long it would take to crack a password using high-performance GPUs, a machine equipped with eight RTX 4090 GPUs, the most powerful on the market today and very popular among gamers and creators, could go through all possible combinations of an 8-character password in just 48 minutes using brute force methods. For comparison, it would take about 3 hours and 20 minutes with eight RTX 3090 Ti GPUs.

User reactions to password hacking

Kevin Mitnick’s post sparked many positive comments from computer security experts, who praised the power and speed of his password hacking tool. Some even asked for technical details on how Hashtopolis works and what types of hashes it can crack.

For example, one comment said: “This is amazing! I would love to see how Hashtopolis works and what kind of hashes it can crack. Can you share some screenshots or videos of the tool in action?”

Another comment said: “Wow, this is impressive! I wonder how long it would take to crack a password with bcrypt or PBKDF2 using this tool. Do you have any benchmarks or comparisons?”

However, some negative comments from Internet users also expressed concerns about the environmental impact and privacy issues of password hacking.

For example, one comment said: “This is terrible! Do you realize how much electricity and heat this tool consumes? You are contributing to global warming and climate change with your irresponsible hacking. You should plant some trees or use renewable energy to offset your carbon footprint.”

Another comment said: “This is scary! How can we trust you with our passwords and data? You could hack into our accounts or steal our information without our consent. You are violating our privacy and security with your unethical hacking. You should respect the law and the rights of others.”

In conclusion

The new password hacking tool used by Mitnick Security Consulting is impressive in terms of power and speed. It can crack passwords at an astonishing rate, reaching 6.2 trillion per second for NTML. It uses Hashtopolis, an open source software that allows to distribute the password hacking work across multiple machines equipped with GPUs. It supports several types of hashes and methods to crack them.

However, the use of such a tool also raises concerns about energy and privacy. It consumes a considerable amount of electricity and generates heat, which can have a negative impact on the environment. It can also be used for malicious purposes, such as hacking online accounts or sensitive data, which can result in identity theft, industrial espionage or sabotage.

As Internet users, it is important to be aware of the risks associated with weak passwords and use secure methods to protect our online accounts. Some tips to do so are:

  • Use long and complex passwords that contain letters, numbers and symbols.
  • Use a password manager to store and generate secure passwords.
  • Use a random password generator or a secret phrase that is easy to remember but hard to guess.
  • Use multi-factor authentication that requires a code sent by SMS or email to access an account.

Password hacking is a practice that can have positive or negative consequences depending on how it is used. It is therefore necessary to be vigilant and adopt good practices to protect ourselves from hackers like Kevin Mitnick.

I hope this article has helped you understand how password hacking works and how to protect yourself from it. If you want to learn more about password hacking, you can check out these sources:

  • Cracking Passwords at 7.25 TRILLION Hashes per second?
  • How Secure Is My Password?
  • How To Create A Strong Password

Sources :

(1) hash – What is the specific reason to prefer bcrypt or PBKDF2 over …. https://security.stackexchange.com/questions/133239/what-is-the-specific-reason-to-prefer-bcrypt-or-pbkdf2-over-sha256-crypt-in-pass.

(2) Password Storage – OWASP Cheat Sheet Series. https://cheatsheetseries.owasp.org/cheatsheets/Password_Storage_Cheat_Sheet.html.

(3) Do any security experts recommend bcrypt for password storage?. https://security.stackexchange.com/questions/4781/do-any-security-experts-recommend-bcrypt-for-password-storage.

(4) Password Hashing: PBKDF2 (using sha512 x 1000) vs Bcrypt. https://stackoverflow.com/questions/4433216/password-hashing-pbkdf2-using-sha512-x-1000-vs-bcrypt.

KingsPawn A Spyware Targeting Civil Society

KingsPawn A Spyware

 

KingsPawn from QuaDream Spyware Threat

KingsPawn, a spyware developed and sold by QuaDream based on digital offensive technology to governments. Its spyware, named Reign, uses zero-click exploits to infiltrate the mobile devices of civil society victims. In this article you will learn how QuaDream works, who its Cyber victims and customers have been, and how to protect yourself from this type of dangerous spyware

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To learn more about the potential dangers of KingsPawn spyware, read “QuaDream: Spyware That Targets Civil Society.” Stay informed by browsing our constantly updated topics

How to Secure Your Data from QuaDream’s KingsPawn Spyware,” written by Jacques Gascuel, the innovator behind advanced sensitive data security and safety systems, provides priceless knowledge on the topic of data encryption and decryption. Are you prepared to enhance your comprehension of data protection?

QuaDream: KingsPawn spyware vendor shutting down in may 2023

QuaDream was a company that sold digital offensive technologies to governments. Its main product, Reign, was a spyware that used zero-click exploits to hack mobile devices. A few months after Pegasus, a similar spyware by NSO Group, Microsoft and Citizen Lab found QuaDream’s Reign / KingsPawn spyware and its victims worldwide.

However, in May 2023, QuaDream stopped its activitiesMay 2023, QuaDream stopped its activities, due to the Israeli government’s restrictions on its spyware export. QuaDream had developed other espionage technologies, such as ENDOFDAYS, that it sold to foreign governments, like Morocco, Saudi Arabia, Mexico, Ghana, Indonesia and Singapor.

QuaDream tried to sell its assets to other players, but the Israeli government blocked them It is unknown if the spyware KingsPawn is still active and used, or who controls it. Therefore, it is advised to be vigilant and protect your data with reliable security solutions.

How QuaDream’s Exploits KingsPawn her Spyware Work

According to Microsoft, QuaDream has an arsenal of exploits and malware that it calls KingsPawn. It includes a suspected exploit for iOS 14, named ENDOFDAYS, that seems to use invisible iCloud calendar invitations sent by the spyware operator to the victims. This exploit was deployed as a zero-day against iOS 14.4 and 14.4.2 versions, and maybe others.

The KingsPawn spyware is designed to exfiltrate data from the infected devices, such as contacts, messages, photos, videos, audio recordings, location data, browser information and app data. The malware communicates with command and control (C2) servers via encrypted protocols and uses evasion techniques to avoid detection.

How the KingsPawn spyware infects phones

The main infection vector of KingsPawn is the ENDOFDAYS exploit, which does not require any user interaction to execute. The spyware operator sends an invisible iCloud calendar invitation to the target’s phone number or email address. The invitation contains a malicious link that triggers the exploit when the phone processes the notification. The exploit then downloads and installs the KingsPawn malware on the device, without the user’s knowledge or consent.

The spyware operator can also use other methods to deliver the malicious link, such as phishing emails, SMS, social media messages, or fake websites. However, these methods require the user to click on the link, which reduces the chances of success.

KingsPawn Datasheet

The following table summarizes the main features and characteristics of the KingsPawn malware:

Feature Description
Name KingsPawn
Developer QuaDream
Platform iOS
Version 1.0
Size 2.5 MB
Permissions Full access to device data and functions
Capabilities Data exfiltration, audio recording, camera capture, location tracking, file search, keychain access, iCloud password generation, self-deletion
Communication Encrypted TCP and UDP protocols
C2 servers Multiple domains and IP addresses, some located in Israel, Bulgaria, Czech Republic, Hungary, Ghana, Mexico, Romania, Singapore, UAE, and Uzbekistan
Victims At least five civil society actors, including journalists, political opponents, and an NGO worker, in North America, Central Asia, Southeast Asia, Europe, and the Middle East
Customers Several governments, some with poor human rights records, such as Singapore, Saudi Arabia, Mexico, Ghana, Indonesia, and Morocco

How to Detect KingsPawn

KingsPawn is a stealthy and sophisticated malware that can evade most antivirus and security software. However, there are some signs and symptoms that can indicate a possible infection, such as:

  • Unusual battery drain or overheating of the device
  • Increased data usage or network activity
  • Unexpected pop-ups or notifications
  • Changes in device settings or behavior
  • Presence of unknown apps or files

If you notice any of these signs, you should scan your device with a reliable antivirus or security app, such as Malwarebytes or Norton. These apps can detect and remove KingsPawn and other malicious software from your device.

How to Protect Against KingsPawn

If you suspect that your device is infected by KingsPawn, you should take the following steps to remove it and protect your data:

  • Disconnect your device from the internet and any other networks
  • Backup your important data to a secure external storage
  • Perform a factory reset of your device to erase all data and settings
  • Restore your device from a clean backup or set it up as a new device
  • Update your device to the latest version of iOS and install security patches
  • Change your passwords and enable two-factor authentication for your online accounts
  • Avoid clicking on suspicious links or opening attachments from unknown sources
  • Use a reputable antivirus or security app to scan your device regularly

These steps will help you to get rid of KingsPawn and prevent it from infecting your device again. However, you should also be aware of the risks of using unsecured email services, such as iCloud web mail, which can be compromised by hackers or spyware. To protect your emails and other sensitive data, you should use a technology that encrypts your data with a hardware security module (HSM), such as EviCypher NFC HSM or DataShielder HSM PGP.

Who Are the Victims and Customers of QuaDream?

Citizen Lab, a research lab at the University of Toronto, identified at least five civil society victims of the spyware and exploits of QuaDream in North America, Central Asia, Southeast Asia, Europe and the Middle East. The victims include journalists, political opponents and a worker of a non-governmental organization (NGO). Citizen Lab did not reveal the names of the victims for security reasons, but one of them agreed to share his testimony anonymously:

I was shocked when I learned that my phone was infected by QuaDream. I had no idea tat they were targeting me. I work for a human rights NGO and I have been involved in several campaigns to denounce the abuses of authoritarian regimes. I fear that they have accessed my personal and professional data, and that they have compromised my contacts and sources.

Citizen Lab also detected QuaDream servers operated from Bulgaria, Czech Republic, Hungary, Ghana, Israel, Mexico, Romania, Singapore, United Arab Emirates (UAE) and Uzbekistan. These countries could be potential or current customers of QuaDream, which sells its Reign platform to governments for law enforcement purposes. Media reports indicate that QuaDream sold its products to Singapore, Saudi Arabia, Mexico and Ghana, and offered its services to Indonesia and Morocco.

What Is the Link Between QuaDream and InReach?

QuaDream had a partnership with a Cypriot company called InReach, with which it is currently in legal dispute. The two companies accused each other of fraud, theft of intellectual property and breach of contract. Several key people associated with both companies have previous links with another surveillance provider, Verint, as well as with Israeli intelligence agencies.

Microsoft and Citizen Lab shared information about QuaDream with their customers, industry partners and the public, to improve the collective knowledge of how PSOAs (private sector offensive actors) operate and how they facilitate the targeting and exploitation of civil society. Microsoft calls for stricter regulation of PSOAs and increased protection of human rights in cyberspace.

Conclusion

QuaDream is a new spyware vendor that poses a serious threat to civil society. Its spyware, named Reign, uses zero-click exploits to infiltrate the mobile devices of civil society victims. QuaDream has sold its products to several governments, some of which have a poor record of human rights. QuaDream is also involved in a legal dispute with another company, InReach, over the ownership of the spyware technology. The international community should be aware of the dangers of QuaDream and other PSOAs, and take action to prevent their abuse.

Phishing Cyber victims caught between the hammer and the anvil

Phishing: Cyber victims caught between the hammer and the anvil

Phishing Cyber Victims by Jacques Gascuel This article will be updated with any new information on the topic, and readers are encouraged to leave comments or contact the author with any suggestions or additions.

Phishing: how cyber-victims are caught between scam and blackmail

Have you ever received an email or a message that looked like an official communication from a trusted organization, such as your bank, your phone operator or your social network? Did it ask you to confirm your personal or financial information, to pay a fine or to update your software? If so, you may have been targeted by a phishing attack.

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Phishing is a fraudulent technique that aims to deceive internet users and to steal their information, money or identity. Phishing is a major threat for the security of individuals and organizations, as it can lead to financial losses, identity theft, extortion or malware infections. In this article, I will explain to you what phishing is, how to protect yourself from it, what to do if you fall victim to it and what are the current trends of this phenomenon.

What is phishing?

Phishing is a form of social engineering that exploits the human factor rather than the technical factor. In other words, phishing relies on manipulating people’s emotions, such as fear, curiosity or greed, rather than hacking their devices or systems.

Phishing usually involves sending emails or messages that mimic the appearance and content of official communications from legitimate organizations. These messages often contain a link or an attachment that directs the recipients to a fake website or a malicious file. The goal of phishing is to trick the recipients into revealing their personal, financial or confidential information, such as their passwords, their bank account numbers or their credit card details. Alternatively, phishing can also persuade the recipients to make fraudulent payments or to download malware on their devices.

Phishing can target anyone who uses the internet, whether they are individuals or organizations. However, some groups are more vulnerable than others, such as seniors, students or employees. According to a report by Verizon (https://enterprise.verizon.com/resources/reports/dbir/), phishing was involved in 36% of data breaches in 2020.

How to protect yourself from phishing?

To protect yourself from phishing, you need to be able to recognize the signs that can indicate that a message is fraudulent. Here are some examples of signs to watch out for:

  • Spelling or grammar mistakes in the message.
  • Suspicious addresses or links that do not match the supposed organization behind the message.
  • Urgent or unusual requests, such as confirming your bank details, paying a fine or updating your software.
  • Attachments or links that invite you to download or open a file.

If you receive a suspicious message, do not click on the links, do not open the attachments and do not reply to the message. Instead, check the source of the message by looking at the sender’s address, hovering over the links with your mouse to see their real destination or contacting directly the organization supposed to be behind the message by another means (phone, official website, etc.).

You can also use some tools and practices to enhance your security online, such as:

  • Installing an antivirus software and keeping it updated.
  • Using strong and unique passwords for each site and service you use.
  • Enabling two-factor authentication whenever possible.
  • Avoiding public Wi-Fi networks or using a VPN (Virtual Private Network) when accessing sensitive sites.
  • Educating yourself and others about cyber threats and how to prevent them.

What to do if you are a victim of phishing?

If you have clicked on a link, opened an attachment or disclosed personal or financial information following a fraudulent message, you may be a victim of phishing. In this case, it is important to act quickly to limit the consequences. Here are some tips to follow:

  • Change your passwords on all sites and services you use, especially those related to your bank accounts, your social networks or your email accounts.
  • Contact your bank or your phone operator to report the incident and block your cards or lines if necessary.
  • File a complaint with the competent authorities, such as the police, the FTC (Federal Trade Commission) or the IC3 (Internet Crime Complaint Center).
  • Report the fraudulent message to the concerned organizations, such as https://www.antiphishing.org/ or https://www.us-cert.gov/report-phishing. These sites also offer you information and services to help you cope with the consequences of phishing.

What is the new bill on justice and why is it raising concerns about privacy?

The bill on justice is a legislative project. It aims to modernize and simplify justice in France. It covers civil, criminal, administrative and digital justice. It also strengthens the investigation and prosecution of serious offenses, such as terrorism and organized crime.

One measure authorizes remote activation of phones by the police for some investigations. Article 3 “An unfailing commitment to better prevent radicalization and fight against terrorism” of the bill includes this measure. It modifies article 706-102-1 of the code of criminal procedure. This article defines how to activate remotely any electronic device that can emit, transmit, receive or store data.

This measure raises privacy concerns because it lets the police access personal or professional data in phones without the owners’ or possessors’ consent or knowledge. It also lets the police locate, record or capture sounds and images from phones without notification or justification. This measure may violate fundamental rights and freedoms, such as privacy, confidentiality, dignity, presumption of innocence and right to a fair trial.

What is remote activation of phones and how does it work?

Remote activation of phones by the police is an intelligence technique that allows law enforcement agencies to access data or record sounds and images from phones without the consent or knowledge of the phone users. This technique can be used for criminal investigations or national security purposes.

To remotely activate phones, law enforcement agencies need three factors: compatibility, connectivity, and security of the phones. They need to be compatible with the software or hardware that enables remote activation. They need to be connected to a network or a device that allows remote access. They need to have security flaws or vulnerabilities that can be exploited or bypassed.

Law enforcement agencies can remotely activate phones by three methods: exploiting vulnerabilities, installing malware, or using spyware on phones. Exploiting vulnerabilities means taking advantage of security flaws or weaknesses in the phone’s operating system, applications, or protocols. Installing malware means putting malicious software on the phone that can perform unauthorized actions or functions. Using spyware means employing software or hardware that can monitor or control the phone’s activity or data.

By remotely activating phones, law enforcement agencies can access data such as contacts, messages, photos, videos, location, browsing history, or passwords. They can also record sounds and images such as conversations, ambient noises, or camera shots. They can do this in real time or later by retrieving the data from the phone’s memory or storage.

What is the French bill on remote activation of phones by the police and what are its implications?

The French bill on remote activation of phones by the police is a legislative text that was promulgated on 25 May 2021. It is part of the justice orientation and programming bill for 2023-2027, which aims to modernize the justice system and reinforce its efficiency and independence.

The bill introduces a new article in the code of criminal procedure, which allows the judge of liberties and detention (at the request of the prosecutor) or the examining magistrate to order the remote activation of an electronic device without the knowledge or consent of its owner or possessor for the sole purpose of locating it in real time. This measure can be applied for crimes or misdemeanors punishable by at least five years’ imprisonment, a fairly broad criterion.

The bill also allows the judge of liberties and detention (at the request of the prosecutor) or the examining magistrate to order the remote activation of an electronic device without the knowledge or consent of its owner or possessor for the purpose of recording sounds and images from it. This measure can be applied only for crimes relating to organized crime and terrorism.

These measures cannot concern parliamentarians, journalists, lawyers, magistrates and doctors, nor the defendants when they are in the judge’s office or with their lawyer.

The bill also specifies that the remote activation of an electronic device must be done in a way that does not alter its functioning or data, and that the data collected must be destroyed within six months after their use.

The bill aims to provide law enforcement agencies with more tools and information to prevent, investigate and prosecute crimes, especially in cases where phones are encrypted, hidden or destroyed. It also aims to harmonize the French legislation with other countries that have used or considered this technique, such as the United States, Germany, Italy, Israel, Canada, China, France, and the United Kingdom.

However, the bill also raises ethical and social challenges, as it involves a trade-off between security and privacy, as well as between effectiveness and legitimacy. It may undermine the right to respect for private life and the right to a fair trial, which are guaranteed by the European Convention on Human Rights and the French Constitution. It may also expose law enforcement agencies to legal or technical challenges or dangers, such as encryption technologies that can prevent or hinder remote activation. It may also create distrust or resistance among phone users or providers, who may use encryption technologies or legal remedies to protect their data or communications.

The bill has been criticized by several actors, such as lawyers, human rights defenders, digital rights activists, journalists and academics. They have denounced its lack of proportionality, necessity and oversight. They have also questioned its effectiveness and legitimacy. They have called for its withdrawal or amendment.

The bill is still subject to constitutional review by the Constitutional Council before its final promulgation.

How did the Senate vote on the bill and where to find the official sources?

The Senate adopted this measure on October 20, 2021, with some amendments. The Senate voted in favor of this measure by 214 votes against 121. The Senate also added some safeguards to this measure, such as limiting its duration to four months renewable once and requiring prior authorization from an independent judge.

The National Assembly still has to examine the bill before adopting it definitively. The National Assembly may approve, reject or modify this measure. The final text may differ from the one that the Senate voted.

The examination of the bill by the National Assembly will start on December 6, 2021. You can follow the progress of the bill on the website of the National Assembly. You can also find the official text of the bill and the report of the Senate on their respective websites. You can also consult the website of the Ministry of Justice for more information on the bill and its objectives.

What are the benefits and risks of remote activation of phones?

This technique can affect citizens’ and suspects’ behavior in different ways.

On one hand, it can deter people from serious offenses. It exposes them to a higher risk of detection and identification. It reduces their incentives for criminal activities.

On the other hand, it can also make people more cautious or paranoid. It increases their uncertainty and fear. It leads them to avoid electronic devices, encrypt their communications, or use countermeasures such as jamming devices.

This technique can also impact public safety and security positively and negatively.

On one hand, it can improve the efficiency and effectiveness of law enforcement agencies. It provides them with more information and evidence. It helps them prevent, investigate and prosecute crimes.

On the other hand, it can also pose risks for human rights and civil liberties. It allows intrusive and covert surveillance. It violates privacy, confidentiality and dignity. It can also be subject to abuse, misuse or error by law enforcement agents or hackers.

Finally, it can create a feeling of insecurity and mistrust towards institutions, which can access personal or professional data in phones. It can also harm respect for presumption of innocence by placing permanent suspicion on people targeted by this technique. It can also infringe on protection of journalistic sources or right to information by discouraging whistleblowers or witnesses from speaking freely. It can finally encourage people concerned to adopt avoidance or circumvention strategies, such as changing phones regularly, using encrypted applications or switching to airplane mode.

These strategies can reduce the actual effectiveness of this technique for preventing terrorism and organized crime.

What are the arguments in favor of remote activation of phones?

Some people support this technique because they think it has several advantages for law enforcement and public security.

How can remote activation of phones violate privacy and data protection?

One of the main arguments against this technique is that it can violate privacy and data protection for individuals and groups. Privacy and data protection are fundamental rights recognized by international standards and laws. They ensure human dignity and autonomy.

Remote activation of phones violates privacy and data protection by letting law enforcement agencies access personal or professional data without the owners’ or possessors’ consent or knowledge. It also lets law enforcement agencies access sensitive or confidential data without notification or justification. It also lets law enforcement agencies access excessive or irrelevant data without limitation or proportionality.

For example, remote activation of phones could let the police access medical records, financial transactions, political opinions, religious beliefs, sexual preferences, or other intimate information on a device or a communication. It could also let the police access information that is not related to the investigation or that is out of scope on a device or a communication. It could also let the police access information that is not necessary or appropriate for the investigation or that is disproportionate to the seriousness of the offense on a device or a communication.

How can remote activation of phones improve access to justice and evidence?

Another argument in favor of this technique is that it can improve access to justice and evidence for law enforcement agencies and victims of crimes. Justice and evidence ensure the rule of law and the protection of rights.

Remote activation of phones improves access to justice and evidence by letting law enforcement agencies obtain information that is otherwise inaccessible or difficult to obtain. It also lets law enforcement agencies obtain information that is more reliable and accurate than other sources. It also lets law enforcement agencies obtain information that is timelier and more relevant than other sources.

For example, remote activation of phones could help the police access data that is encrypted or password-protected on a device or a communication. It could also help the police access data that is authentic and verifiable on a device or a communication. It could also help the police access data that is up-to-date and pertinent on a device or a communication.

What are the arguments against remote activation of phones?

Some people oppose this technique because they think it has several disadvantages for human rights and civil liberties.

How can remote activation of phones violate privacy and data protection?

One of the main arguments against this technique is that it can violate privacy and data protection for individuals and groups. Privacy and data protection are fundamental rights recognized by international standards and laws. They ensure human dignity and autonomy.

Remote activation of phones violates privacy and data protection by letting law enforcement agencies access personal or professional data without the owners’ or possessors’ consent or knowledge. It also lets law enforcement agencies access sensitive or confidential data without notification or justification. It also lets law enforcement agencies access excessive or irrelevant data without limitation or proportionality.

For example, remote activation of phones could let the police access medical records, financial transactions, political opinions, religious beliefs, sexual preferences, or other intimate information on a device or a communication. It could also let the police access information that is not related to the investigation or that is out of scope on a device or a communication. It could also let the police access information that is not necessary or appropriate for the investigation or that is disproportionate to the seriousness of the offense on a device or a communication.

How can remote activation of phones undermine the presumption of innocence and the right to a fair trial?

Another argument against this technique is that it can undermine the presumption of innocence and the right to a fair trial for individuals and groups. The presumption of innocence and the right to a fair trial are fundamental rights recognized by international standards and laws. They ensure justice and accountability.

Remote activation of phones undermines the presumption of innocence and the right to a fair trial by letting law enforcement agencies access data that they can use against individuals or groups without any legal basis or due process. It also lets law enforcement agencies access data that they can manipulate or falsify by law enforcement agents or hackers. It also lets law enforcement agencies access data that individuals or groups can challenge or contest.

For example, remote activation of phones could let the police access data that they can incriminate individuals or groups without any warrant or authorization from a judge. It could also let the police access data that they can alter or corrupt by law enforcement agents or hackers. It could also let the police access data that individuals or groups can dispute or refute.

How can remote activation of phones create a risk of abuse and misuse by the authorities?

Another argument against this technique is that it can create a risk of abuse and misuse by the authorities for individuals and groups. Abuse and misuse are illegal or unethical actions that violate rights and obligations. They damage trust and legitimacy.

Remote activation of phones creates a risk of abuse and misuse by the authorities by letting law enforcement agencies access data that they can use for purposes other than those authorized or intended. It also lets law enforcement agencies access data that they can share or disclose to third parties without any oversight or control. It also lets law enforcement agencies access data that they can retain or store for longer than necessary or permitted.

For example, remote activation of phones could let the police access data that they can use for political, personal, commercial, or other interests on a device or a communication. It could also let the police access data that they can transfer or leak to other agencies, organizations, media, or individuals on a device or a communication. It could also let the police access data that they can keep or archive for indefinite periods on a device or a communication.

What are the alternatives and safeguards for remote activation of phones?

Some people suggest that there are alternatives and safeguards for remote activation of phones that can balance security and privacy.

What are the existing legal tools to access phone data with judicial authorization?

One of the alternatives for remote activation of phones is to use existing legal tools to access phone data with judicial authorization. Judicial authorization is a legal requirement that ensures respect for rights and obligations. An independent and impartial judge grants it after evaluating the necessity and proportionality of the request.

Existing legal tools to access phone data with judicial authorization include search warrants, wiretaps, geolocation orders, data requisitions, and international cooperation agreements. These tools let law enforcement agencies obtain information from phones in a lawful and transparent manner. They also provide legal protection and recourse for individuals and groups.

For example, search warrants let law enforcement agencies physically seize phones and extract data from them with judicial authorization. Wiretaps let law enforcement agencies intercept calls and messages from phones with judicial authorization. Geolocation orders let law enforcement agencies track the location of phones with judicial authorization. Data requisitions let law enforcement agencies request data from phone operators or service providers with judicial authorization. International cooperation agreements let law enforcement agencies exchange data with foreign authorities with judicial authorization.

What are the principles and conditions for remote activation of phones according to the bill?

One of the safeguards for remote activation of phones is to follow the principles and conditions for remote activation of phones according to the bill. The bill on justice sets some rules and limits for this technique to prevent abuse and misuse.

The principles and conditions for remote activation of phones according to the bill include:

  • The technique can only be used for terrorism and organized crime investigations.
  • An independent judge who authorizes it must supervise the technique. The technique can only last for four months renewable once.
  • The technique must respect necessity, proportionality, subsidiarity, and legality.
  • Parliament and independent authorities must oversee and control the technique.
  • Experts and stakeholders must evaluate and review the technique.

These principles and conditions aim to ensure a reasonable and accountable use of this technique. They also aim to protect the rights and interests of individuals and groups.

What are the possible ways to limit or challenge remote activation of phones?

Another safeguard for remote activation of phones is to use possible ways to limit or challenge remote activation of phones by individuals or groups. These ways can help protect rights and interests, as well as ensure accountability and transparency.

Some of the possible ways to limit or challenge remote activation of phones are:

  • Using encryption technologies:

    Encryption technologies can make data on phones unreadable or inaccessible to law enforcement agencies, even if they remotely activate them. Encryption technologies can also protect communications from law enforcement agencies’ interception or recording. For example, using end-to-end encryption apps, such as Signal or WhatsApp, can prevent law enforcement agencies from accessing messages or calls on phones.

  • Using security features:

    Security features can prevent law enforcement agencies from installing or activating software or applications on phones that enable remote activation. Security features can also detect or remove software or applications that enable remote activation. For example, using antivirus software, firewalls, passwords, biometrics, or VPNs can prevent law enforcement agencies from accessing phones.

  • Using legal remedies:

    Legal remedies can let individuals or groups contest or oppose remote activation of phones by law enforcement agencies. Legal remedies can also let individuals or groups seek compensation or redress for damages caused by remote activation of phones. For example, using judicial review, administrative appeals, complaints, lawsuits, or human rights mechanisms can challenge law enforcement agencies’ actions or decisions regarding remote activation of phones.

How does this technique compare with other countries?

Law enforcement agencies in other countries, such as the United States, Germany, Italy, Israel, Canada, China, France, and the United Kingdom, have used or considered remote activation of phones by the police. This technique is not new or unique. However, the legal framework, the technical methods, and the ethical and social implications of this technique vary from country to country..

How does remote activation of phones by the police work in different countries?

Remote activation of phones by the police is an intelligence technique that varies from country to country. It depends on the legal framework, the technical methods and the ethical issues of each country. Here are some examples of how it works in different countries.

  • In the United States, this technique is known as “roving bugs” or “mobile device tracking”. The Foreign Intelligence Surveillance Act (FISA) authorizes it for national security purposes and Title III of the Omnibus Crime Control and Safe Streets Act for criminal investigations. It requires a court order based on probable cause and limited in scope and duration. It can locate or record sounds and images from phones. It can be done by installing malware or exploiting vulnerabilities on phones.
  • In Germany, this technique is known as “Quellen-TKÜ” or “source telecommunications surveillance”. The Code of Criminal Procedure and the Telecommunications Act regulate it for criminal investigations and the Federal Intelligence Service Act for national security purposes. It requires a court order based on reasonable suspicion and proportionality. It can intercept communications from phones. To do so, it installs software or uses spyware on phones.
  • In Italy, this technique is known as “Trojan horse” or “spyware”. The Code of Criminal Procedure and the Data Protection Code regulate it for criminal investigations. It requires a court order based on serious indications of guilt and necessity. It can access data or record sounds and images from phones. To do so, it installs software or uses spyware on phones.
  • In Israel, this technique is known as “IMSI catchers” or “stingrays”. The Wiretapping Law and the Privacy Protection Law regulate it for criminal investigations and the Security Service Law for national security purposes. It requires a court order based on reasonable grounds and proportionality. It can locate or intercept communications from phones. To do so, it uses devices that mimic cell towers and trick phones into connecting to them.
  • In Canada, this technique is known as “cell site simulators” or “IMSI catchers”. The Criminal Code and the Charter of Rights and Freedoms regulate it for criminal investigations. It requires a court order based on reasonable grounds and proportionality. It can locate or intercept communications from phones. To do so, it uses devices that mimic cell towers and trick phones into connecting to them.
  • In China, this technique is known as “network interception” or “remote control”. The Criminal Procedure Law and the Cybersecurity Law regulate it for criminal investigations and national security purposes. It does not require a court order but only an approval from a higher authority. It can access data or record sounds and images from phones. To do so, it installs software or uses spyware on phones.
  • In France, real-time geolocation is regulated by the Criminal Procedure Code and the Intelligence Law for criminal and national security investigations. Article 706-102-1 of the Criminal Procedure Code allows police officers and agents to use a technical device to access, record, store and transmit computer data without the consent of the persons concerned. This requires a court order based on serious reasons and proportionality. Article 230-32 of the Criminal Procedure Code states that “Any technical means for real-time location, throughout the national territory, of a person, without his consent, a vehicle or any other object, without the consent of its owner or possessor, may be used if this operation is required by necessity: “. This also requires a court order based on serious reasons and proportionality.
  • In the United Kingdom, this technique is known as “equipment interference” or “hacking”. The Investigatory Powers Act regulates it for criminal investigations and national security purposes. It requires a warrant based on necessity and proportionality. It can access data or record sounds and images from phones. To do so, it installs software or uses spyware on phones.

How does remote activation of phones by the police raise ethical and social challenges?

Remote activation of phones by the police raises ethical and social challenges in different contexts and situations because it involves a trade-off between security and privacy, as well as between effectiveness and legitimacy.

Security versus privacy

On one hand, remote activation of phones by the police can enhance security by providing law enforcement agencies with more information and evidence to prevent, investigate, and prosecute crimes. It can also deter criminals from using phones to plan or commit crimes.

On the other hand, remote activation of phones by the police can undermine privacy by letting law enforcement agencies access personal or professional data without consent or knowledge. It can also violate human rights and civil liberties by letting law enforcement agencies monitor or record sounds and images without notification or justification.

Effectiveness versus legitimacy

On one hand, remote activation of phones by the police can be effective by increasing the chances of finding relevant information or evidence on phones that may be encrypted, hidden, or destroyed. It can also be efficient by reducing the costs and risks of physical surveillance or interception.

On the other hand, remote activation of phones by the police can be illegitimate by violating the legal framework, the technical methods, or the oversight and control mechanisms that regulate this technique in each country. It can also be counterproductive by creating distrust or resistance among phone users or providers, who may use encryption technologies or legal remedies to protect their data or communications.

The ethical and social challenges of remote activation of phones by the police depend on the legal framework, the technical methods, and the oversight and control mechanisms that regulate this technique in each country. They also depend on the cultural and political values, the public opinion, and the media coverage that shape the perception and acceptance of this technique in each country.

Some of the ethical and social challenges of remote activation of phones by the police are how to :

  • balance security and privacy in the use of this technique?
  • ensure compliance with fundamental rights and freedoms in the use of this technique?
  • prevent abuse, misuse, or error in the use of this technique?
  • provide legal protection and recourse for individuals or groups affected by this technique?
  • ensure accountability and transparency in the use of this technique?
  • evaluate the effectiveness and legitimacy of this technique?
  • foster trust and cooperation between law enforcement agencies and phone users in the use of this technique?

What is the impact of encryption technologies on this technique?

Encryption technologies are methods or systems that make data unreadable or inaccessible to unauthorized parties. Encryption technologies can have a significant impact on remote activation of phones by the police, as they can make this technique more difficult, risky, or controversial.

How can encryption technologies make remote activation of phones by the police more difficult or impossible?

Encryption technologies can make remote activation of phones by the police more difficult or impossible by preventing law enforcement agencies from accessing data or communications on phones, even if they remotely activate them. Encryption technologies can also protect phones from malware or spyware that enable remote activation.

For example, end-to-end encryption, which some apps such as Signal or WhatsApp use, can prevent law enforcement agencies from intercepting or reading messages or calls on phones, as only the sender and the receiver have the keys to decrypt them. Device encryption, which some operating systems such as iOS or Android use, can prevent law enforcement agencies from extracting or viewing data on phones, as they require a password or a biometric authentication to unlock them.

How can encryption technologies make remote activation of phones by the police more risky or harmful?

Encryption technologies can make remote activation of phones by the police more risky or harmful by exposing law enforcement agencies to legal or technical challenges or dangers. Encryption technologies can also harm phone users by compromising their security or privacy.

For example, breaking encryption, which law enforcement agencies sometimes do to access data or communications on phones, can expose them to legal challenges, as it may violate laws or regulations that protect encryption or privacy. It can also expose them to technical dangers, as it may weaken the security of phones or networks and create vulnerabilities for hackers or criminals. Hacking encryption, which law enforcement agencies sometimes do to install malware or spyware on phones, can harm phone users by compromising their security or privacy, as it may allow unauthorized access to their data or functions.

How can encryption technologies make remote activation of phones by the police more controversial or unacceptable?

Encryption technologies can make remote activation of phones by the police more controversial or unacceptable by raising ethical and social issues or debates. Encryption technologies can also create conflicts or tensions between law enforcement agencies and phone users or providers.

For example, undermining encryption, which law enforcement agencies sometimes request to facilitate remote activation of phones, can raise ethical and social issues or debates, as it may affect human rights and civil liberties, such as privacy, confidentiality, dignity, presumption of innocence, and right to a fair trial. It can also create conflicts or tensions between law enforcement agencies and phone users or providers. They may have different interests or values regarding encryption and security.

How does EviCore NFC HSM technology developed by Freemindtronic offer a high level of protection for phone users?

Remote activation of phones by the police can be facilitated by exploiting security flaws, installing malware, or requesting backdoors in encryption technologies. However, some encryption technologies may be resistant to these measures and offer a higher level of protection for phone users. One of them is the EviCore NFC HSM technology developed by Freemindtronic.

This technology lets users create their own encryption keys in a random way and store them in a physical device that communicates with the phone via NFC (Near Field Communication). The device also lets users define their own trust criteria that must be met to use the keys or their segments. The encryption is done in Quantum-Safe AES-256 mode from either a device compatible with the EviCore NFC HSM technology or from an encrypted enclave in the phone created in the Key chain (Apple) or the Key store (Android) via the EviCore HSM OpenPGP technology. The encryption keys are segmented and superior to 256 bits. Moreover, they are physically externalized from computer systems. Everything is designed by Freemindtronic to effectively fight against espionage and corruption of telephone, computer, communication and information systems. Finally, without a server, without a database, even in air gap and airplane mode works EviCore NFC HSM or EviCore HSM OpenPGP technology. Everything is designed to work in volatile memory to leave no trace in telephone and computer systems.

This technology offers a high level of security and privacy for phone users who want to protect their data from unauthorized access, including by the police. It also offers a high level of performance and usability for phone users who want to encrypt or over-encrypt all types of messaging in the world, including SMS and MMS. It also works with other applications that use encryption, such as email, cloud storage or blockchain.

Furthermore, this technology is designed to be totally anonymous, autonomous, unconnected, without a database, without collecting any information of any kind on the identity of the user, nor on the hardware, nor on the terminals used. The technology is designed to be totally isolated and totally independent of the security of the terminal used whether it is connected or not. Freemindtronic does not keep the unique pairing keys for each NFC HSM device. And even if it did, the user at installation will automatically generate segmented complementary keys for encryption with administrator and user passwords. Each NFC device has a unique 128-bit signature dedicated to fighting against counterfeiting of NFC devices. It is also used as a key segment. The secret stored in eprom memories or in enclaves of the phone and/or computer can be individually secured by other segmented keys characterized by additional trust criteria such as a geozone, a random hexadecimal code via an existing or generated QR code or Bar Code via EviCore HSM. It is therefore physically impossible for Freemindtronic but under judicial assignment to decrypt data encrypted via EviCore HSM technologies even with a quantum computer.

In conclusion, remote activation of phones by the police is an intelligence technique. It aims to fight terrorism and crime by accessing data or sounds and images from phones without consent or knowledge. Law enforcement agencies in various countries have used or considered this technique. For example, France, the United States, Germany, Italy, Israel, Canada, China, and the United Kingdom. However, this technique raises technical, legal, ethical, and social challenges. They need to be addressed.

On the technical side, remote activation of phones by the police depends on three factors: compatibility, connectivity, and security of the phones. It can be done by three methods: exploiting vulnerabilities, installing malware, or using spyware on phones.For example, EviCore NFC HSM technology developed by Freemindtronic protects data and communications on phones from remote activation by the police. Encryption technologies can make this technique more difficult or impossible by preventing law enforcement agencies from accessing data or communications on phones, even if they remotely activate them.

On the legal side, remote activation of phones by the police requires a legal framework that regulates its use and scope. Laws or regulations can authorize it and specify the conditions and criteria for its application. Legal remedies can also challenge it and contest or oppose its validity or legality.

On the ethical side, remote activation of phones by the police involves a trade-off between security and privacy, as well as between effectiveness and legitimacy. It can enhance security by providing more information and evidence to law enforcement agencies to prevent, investigate, and prosecute crimes. It can also undermine privacy by letting law enforcement agencies access personal or professional data without notification or justification.

On the social side, remote activation of phones by the police raises issues or debates that affect human rights and civil liberties. For example, privacy, confidentiality, dignity, presumption of innocence, and right to a fair trial. It can also create conflicts or tensions between law enforcement agencies and phone users or providers, as they may have different interests or values regarding encryption and security.

Therefore, remote activation of phones by the police is a complex and controversial technique that requires a careful and balanced approach that respects the rights and interests of all parties involved. The French bill on remote activation of phones by the police and the EviCore NFC HSM Open PGP technology developed by Freemindtronic illustrate the complex and evolving relationship between intelligence and encryption in the digital age. They raise questions about finding a balance. It is between security and privacy, between public interest and individual rights, between innovation and regulation.

: According to Okta, privacy is the right to control how your information is viewed and used, while security is protection from threats or dangers (https://www.okta.com/identity-101/privacy-vs-security/).

: According to Carnegie Endowment for International Peace, finding a balance between security and privacy requires addressing technical, legal, and social questions (https://carnegieendowment.org/2019/09/10/moving-encryption-policy-conversation-forward-pub-79573).

: According to Springboard, finding a balance between innovation and regulation requires cooperation among stakeholders and respect for human rights (https://www.springboard.com/blog/cybersecurity/privacy-vs-security-how-to-balance-both/).

Phishing: Cyber victims caught between the hammer and the anvil

Responsibility for Phishing, SMiShing, typosquatting, ransomhack, spear phishing, sim swapping, vishing, email and web Spoofing cybervictims is engaged.

There can no longer be any doubt, the responsibility of the Internet user is legally engaged with almost no recourse for the victims to obtain any refund!

Note that we most often find the English term “phishing” which translates “phishing” into French, as well as for the typosquatting that comes from the English “typosquatting” or spear phishing targeted phishing via social engineering techniques or Spoofing technique of spotting.

Following the 2015/2366 directive of the European Parliament and the Council of 25 November 2015, Order No. 2017-1252 of 9 August 2017 makes amendments to Articles L133-16 and L.133-19 of the Monetary and Financial Code for victims of bank card phishing.

Article L133-16 of the Monetary and Financial Code (below) states: “As soon as he receives a payment instrument, the user of payment services takes all reasonable measures to preserve the security of his custom security devices. It uses the payment instrument in accordance with the conditions governing its issuance and use. »

https://www.legifrance.gouv.fr/affichCodeArticle.do?cidTexte=LEGITEXT000006072026&idArticle=LEGIARTI000020860774&dateTexte=&categorieLien=cid

Article L.133-19 of the Monetary and Financial Code (below) states in paragraph IV: “The payer bears all losses caused by unauthorized payment transactions if these losses result from fraudulent conduct on his part or if he did not intentionally or grossly negligently satisfy the obligations referred to in Articles L.133-16 and L.133-17 of the Monetary and Financial Code.”

https://www.legifrance.gouv.fr/affichCodeArticle.do?idArticle=LEGIARTI000020861589&cidTexte=LEGITEXT000006072026

The judgment of the Court of Cassation of 25 October 2017 and that of 28 March 2018 form a case law on the liability of the Internet user victim of phishing by telephone via identity theft and/or via a fake website and/or a fake email.

The judgment of October 25, 2017, (cases of 25.10.17, No. 16-11 644)

https://www.legifrance.gouv.fr/affichJuriJudi.do?idTexte=JURITEXT000035925298&fastReqId=1348908414&fastPos=5&oldAction=rechJuriJudi

Monde.fr press article: http://sosconso.blog.lemonde.fr/2017/10/26/elle-avoue-a-sa-banque-avoir-ete-victime-de-phishing

The judgment of March 28, 2018, (cases. of 28.3.18, No. 16-20 018)

https://www.legifrance.gouv.fr/affichJuriJudi.do?oldAction=rechJuriJudi&idTexte=JURITEXT000036780076&fastReqId=1780826332&fastPos=1

The cassation courts reinforce the obligation of caution of Internet users in the face of phishing attacks that can be telephone, via SMS or e-mail, relating to the use of its bank cards or confidential codes.

  • The March 28, 2018 ruling deepens the liability framework for the Internet user by stating that the failure, by gross negligence, to take any reasonable measures to preserve the safety of its personalised security devices.
  • The user of a payment service who discloses the personal data of this security device in response to an email that contains clues allowing a normally attentive user to doubt its provenance is held solely responsible
  • The bank is not required to inform its customers of the risks of phishing.

How do cybercriminals circumvent 3D Secure code authentication?

Step  1:    The cybercriminal must obtain from his next victim the identifiers and passwords of his phone operator.

What for? To enable the cybercriminal to set up telephone referrals of messages received in particular from his bank. It’s easier than stealing the phone. Hence the importance of regularly changing your passwords from your operator’s account. This point becomes more and more crucial since the smartphone is a mobile payment and/or access control terminal.

Step2:    The cybercriminal must now obtain all the information from the bank card. Several possibilities; or phishing by email, SMS, blackmail, phone by impersonation by an agent of the operator. The victim overconfidence gives him his information. She is not aware that the 3D Secure will also be sent to cybercriminals.

The cybercriminal only has to make the payment that he can validate himself instead of the victim.

The victim informed at the same time as the cybercriminal that there is a request to validate a purchase via his bank card thinks, since she has not validated the payment, that she is safe. She can object to her credit card. Only it’s already too late. The payment is irrevocable and the bank’s liability is cleared. This is the judgment of October 25, 2017.

In another case, the theft of the smartphone with the bank card may have the same result. In the same way when you pay physically with your bank card where you can see in clear the CCV or CVC composed of 3 to 4 digits used for payments on the internet.

It is advisable to use   Freemindtronic  Andorra  EviAlpha technologies for personal use and  EviToken  or  EviCypher  for professional use that allow, after you have physically removed the CCV or CVC code, to make payments on the internet safely. In case of bank card theft, the cybercriminal does not physically have access to the CCV or CVC, the protection with Fullsecure solutions is immediate. This solution is not dependent on the time factor associated with reporting loss or theft for use on the internet. In addition, this solution is capable of managing multiple bank cards and is compatible with any type of bank card internationally, at no additional cost or financial commitment.

There are CCVs or CVCs that change dynamically several times a day. A new security that has an additional annual cost. Used for physical payments, the CCV or CVC is visible. The cybercriminal has only a very short interval of time to rob his victims before the automatic change of the CCV or CVC. In case of theft of this type of bank card, the time depends on the time and date of the declaration of the theft as for other bank cards.

Sim swapping: What does the Monetary and Financial Code say about Secure?sim swapping 3D codes

According to Article L133-23 of the Monetary and Financial Code, it is up to the bank to provide proof of the registration of this type of authentication which makes it possible to presume that the payment has been validated by the rightful holder. Failing that, according to Article L133-18, the transaction is deemed “unauthorized”, the bank is obliged to repay.

The 3D Secure code was developed by Visa and MasterCard to combat the risks of Internet fraud. This code is therefore sent by visa or Master Card’s digital services and is not known to the user until it is received. In fact, it cannot communicate it to a cybercriminal unless the latter has stolen the smartphone, managed to make a copy of the SIM and the most common access to the customer’s accounts of the telephone operator to make a call return to obtain the 3D Secure Code.

What is vishing?

Vishing is a form of phishing that uses the phone as a means of deceiving victims. The term comes from the combination of “voice” and “phishing”. Vishing involves calling victims and pretending to be a trusted person or organization, such as a bank, a public service or a phone operator, and asking them for personal, financial or confidential information. For example, a scammer may claim that the victim’s bank card has been compromised and ask them to confirm their card number and PIN. Vishing can also be used to persuade victims to make fraudulent payments or to download malicious software on their phone.

Vishing is a growing threat, as it exploits the trust that people have in the phone and their lack of vigilance against unsolicited calls. Moreover, scammers use sophisticated techniques to make their calls more credible, such as spoofing, which consists of falsifying the phone number displayed on the recipient’s screen. To protect themselves from vishing, it is important to never disclose personal or financial information over the phone, to verify the identity of the caller by calling back the official number of the organization they claim to represent, and to report any suspicious call to the relevant authorities.

How phishing detection ?

The Internet user must become an expert in phishing detection and typosquatting in the face of the ingenuity of cybercriminals.

According to the case law, the Internet user must carry out a “watchful examination of the correspondent’s changing internet addresses or certain clues, such as misspellings…   which should provide clues  “of a sufficient nature to appeal to the Internetuser.”

However, the criteria adopted by the case law since 2015 are already obsolete because of the quality of counterfeiting of websites in perpetual increase, but not only.

Indeed, the only test to detect a“changing address”has become complex for #cybervictimes. These ingenious cyber criminals find many solutions to deceive their vigilance, especially by the use of special characters in the domain name.

Jurisprudential obsolescence in the face of the evolution of phishing by Unicode

Cyber criminals use special characters similar to the Latin alphabet, theunicode E100. They have more than 26 characters at their disposal  (Ḁ ḁ Ḃ ḃ Ḅ Ḇ ḇ Ḉ ḉ Ḋ ḋ ‘Ḏ ḏ Ḑ ḑ Ḓ ḓ Ḕ’, ‘Ḏ ḏ Ḑ ḑ Ḓ ḓ Ḕ’,  ‘Ṟ’, ṟ, ‘, ‘ Ṯ’, ṯ, Ṱ, ṱ’. All they have to do is buy a domain name similar to the original, and replace one of the characters with a unicode character, as similar as possible, with for example a dot below the character.

For example, we will use the websites of telephone operators and banks, just by replacing the letter “r” with“O”it can give this “f-ee.fr”orby replacing “b” with “ḅ” “ḅouyguestelecom.fr” or “ḅanquepopulaire.fr”.

A perverse new game that would be imposed by the jurisprudence that involves the Cyber-Victim to detect the hidden difference in the URL (address).

Are cyber criminals responding to my request? Indeed I had suggested to them in order to help the #cybervictimes to change their modus operandi to help them in the face of jurisprudence. “Please  don’t make any more spelling mistakes, and if it’s not grammatically correct, make sure that the simple review of the changing address is not obvious on the exam  alone.”

With the fake URL and once the counterfeit site is identical to the original, the trap is activated to capture future #cybervictimes.

Smishing (SMS Phishing)

A cybercriminal sends you an SMS (i.e. a text message) asking you to click on a link. If you click on the link in the message, you will be redirected to a fake website asking you to provide your information in a phishing form.

The cybercriminal attempts to obtain your sensitive information through a text message (i.e. SMS). They will ask you to provide personal information such as a social security number, credit card or health insurance information. He claims that you must give this information or something bad will happen to you (e.g. your electricity is cut off, your credit card is blocked or your online account is terminated). To learn more about Smishing, click HERE.

Typosquatting another form of phishing

Almost identical to phishing, fake site, fake URL, with the big difference that the cybercriminal bets on the typos of #cybervictimes when the user informs the internet address. Examples include “fri.fr” without (ee) or “bouyguetelecom.fr” without (s) or “banque-populaire.fr” with the addition of a hyphen or “free.com” by changing the extension (.fr).

A new playground for cyber criminals, a fake address bar on Android phones that use the Chrome browser.

Google Chrome on Android smartphone only shows the title of the site visited rather than displaying the full address bar with the URL. A new feature for user comfort to make more room for content to be played. This allows the cybercriminal to pass a phishing page as a legitimate web page.

Spoofing over domain name extension makes many cyber victims, especially for domains in .com. The cybercriminal buys a .co domain name with a name identical to that of a known site, an example “www.amazon.co”. The cyber victim receives an email that appears to be from the original site. She is invited to log in via a link to the “www.amazon.co” mirror site. She’s not going to be careful that she’s not on the original site with a .co extension instead of .com. It is therefore with confidence that the cyber victim will enter personal information, especially his login ID and password.

How will the case law evolve to determine the threshold that will qualify the Cyber victim as “negligent”?

Natural protection against phishing and typosquatting

There is a barrier to phishing when the domain name extension is proprietary. This is the case, for example, of the extension of the BNP Paribas bank with its own extension “.bnpparibas” of the website “www.mabanque.bnpparibas”. In this case, it is a cost of around $185,000 and a binding procedure to obtain fromICANN  its custom domain name extension that establishes a natural barrier against this type of attack. However, users of these sites still need to be informed of this distinction. Otherwise, the case law is unequivocal and will be imposed on cyber-victims. Indeed, it is difficult to explain that they did not see the different extension.

Learn more about custom extension

https://www.prodomaines.com/extension-personnalisee

Is the overall level of computing so linear among Internet users that they are all able to carry out such a review?

I doubt it very much.

In the same way, to think that only insiders are safe from phishing seems to me a very risky shortcut.

It is becoming more and more difficult for the Internet user to differentiate between the true and the false.

Shouldn’t case law or a revision of the law take into account the quality of the forger as for the currency, to exonerate the responsibility of the victim?

Instant transfer payment, a new eldorado of cybercriminals?!

What will cybercriminals imagine to create new victims following the new implementation initiated by the ECB with the instant transfer payment system, in less than 10 seconds, irrevocably, achievable with a simple telephone number?

How does it work? (Source the tribune)

It is a transfer in euros that is initiated from the website of his bank or his mobile banking application by choosing the instant mode. Simply enter the IBAN or, less tedious, its mobile phone number (converted to IBAN by the bank), or even scan a QR code to send the money. The account is credited in less than 10 seconds and payment confirmation is sent by SMS within 20 seconds. The transfer is irrevocable. The service is usable 24 hours a day, 365 days a year. A ceiling of 15,000 euros has been decided at European level (the Netherlands has abolished it).

I predict an increase in cybercrime on this new SEPA Express system, if the security system is not equal to or greater than that of bank cards!

Innovation goes further and further to allow the machine to gradually substitute for human physical consent since currents of thought believe that man is more failing than the machine.

To this day, we cannot assign a machine to court. In fact, no one is safe from being between the hammer and the anvil.

‘Ransomhack’: blackmail to non-compliance RGPD

Cyber criminals also use phishing to steal private data, known asransomhack. Taken hostage, this data is being blackmailed by using the new European regulations (RGPD) to put pressure on victims. The goal is to get the ransom faster. It is enough to threaten the victim to make public the data if the ransom is not paid, weighing the risk of strong criminal and civil penalties incurred in the event of non-reporting to the CNIL of the theft of data.

Once again the technique of hammer and anvil becomes a formidable weapon in the face of the fear of double punishment, victim and criminally and civilly litigant.

The phishing technique is no longer the preserve of cyber criminals: it may be more or less legal!

It is difficult to establish statistics, as victims do not file complaints. It is very likely that many of you will recognize yourself in this situation.

What for?

Despite the new provisions imposed by the RGDP, online sites selling goods and/or services have found a way to obtain their customers’ bank card information. However, there is no reason for the client to provide this type of information.

Only here, it takes on a legal appearance, to get this valuable information from bank cards. In principle, legally you have the right to request their removal.

Now that we’re done with the theory, let’s move on to practice

As we have seen before, giving the information of bank cards is under the full responsibility of the Internet user.

Similarly, it is common knowledge that cyber criminals regularly steal private data, including bank cards from the databases of merchant sites.

According to the principle of prudence established by the Court of Cassation, could it not be taken up against the victim? Could the Court not consider that there is no need to inform the Internet user that there is a risk that his credit card information will be derogating? That he is in fact the only one responsible for the information he transmits!

Why do online sales sites need this credit card information? What do they really do with it?

I believe that in terms of the RGPD, you would be entitled to ask the question.

There are many good reasons that will be invoked, but these are not for the customer but for the service provider, especially when the service provider has a recurring payment system in place.

This credit card information becomes valuable for the quality of the outstanding accountable or EENE. If you want to know more(https://comptabilite.ooreka.fr/astuce/voir/609429/effet-escompte-non-echu).

What to remember: The expected effect is passed on to another creditor or bank. The higher the quality of the debt, the less expensive the cost of the discount. Even if rates are low, it is a gain.

Another interest is the forgetting and withdrawal of small sums that often go under the radar of customers. Agreements are established that provide for automatic renewal and anniversary dates with a minimum period of time to report the contract.

New: drown the fish under the guise of updates to the terms and conditions of sale! The service contract for which you consented is unilaterally amended. The trick is the criterion of trust. You are made to accept new conditions that cancel the previous ones.

Let us go even further in the violation of the rules of law.

If you cannot be accepted for a new document, a principle of law that does not exist in contractual matters is used. Just as a contract cannot be changed unilaterally, either by adhesion or synallagmatically, without the consent of the co-contractor.

Silence is not worth acceptance!

However, many service companies send you emails informing you that if you do not respond within a certain period of time, the contract will be considered accepted. If you refuse, you lose the service for which the provider had committed. However, the commitment may also include back-doors such as the subject of an update of general terms of sale.

The hammer and anvil method is activated!

This is a form of blackmail that is illegal, done digitally but does not rank in cyber crimes.

What for?

A beginning of response trail, because they act overdrawn and they are legally registered in corporate registers but not cyber criminals in principle.

The deterrent force of a recourse by the Internet user!

They also have a master asset, the cost of a civil or criminal action procedure in relation to the small amounts involved. The cost of obtaining a court order, such as legal fees, legal fees, time spent and the uncertainty of obtaining redress, is enough to make any desire for prosecution give up.

Even if the civil and/or criminal dol can be qualified, no one will ever know that you are also the victim of phishing by deception of the co-contractor to obtain the information of bank cards or private data.

However, when you show the teeth against cybercriminals, they trade without resisting too much. It will also depend on who you are in the fuse position. Ane  against measure of the Internet user. This will also depend on the caller in the fuse position.

The balance of power through blackmail can be balanced. The risk of bad publicity on social networks, the CNIL Pro  or  Private,can have morecostly consequences than the sums incurred. In the same way if the Internet user has insurance that pays for legal and procedural costs. In this hypothesis the blackmail is reversed by the Internet user. The latter is no longer between the hammer and the anvil.

In the end, the amicable arrangement is better than a long trial. As a result, the risk of bad publicity on social networkscan have  more costly consequences than the sums incurred. In this case, this form of threat may allow the Internet user to no longer be between the hammer and the anvil.

What are the current trends of phishing?

Phishing is a constantly evolving phenomenon, which adapts to new technologies and new behaviors of internet users. According to the statistics provided by https://www.phishing.org/phishing-statistics/ or https://www.kaspersky.com/resource-center/threats/phishing-statistics-report, phishing increased significantly in 2020 and 2021, especially because of the Covid-19 pandemic that favored remote work and online shopping. Phishing accounts for about 80% of cyberattacks and affects both individuals and businesses.

Moreover, phishing diversifies and takes new forms, such as vishing, smishing or spear phishing. Vishing is a form of phishing that uses phone calls to trick victims. Smishing is a form of phishing that uses SMS or instant messages. Spear phishing is a form of phishing that targets specific individuals or organizations using personalized information. These new forms of phishing are harder to detect and prevent, as they exploit the trust and emotion of victims.

To conclude, phishing is a major risk for the security of internet users and organizations, which requires vigilance and prevention. By following the tips that I gave you in this article, you can protect yourself from phishing and reduce the chances of being a victim.

You want to know more about the deception of the co-contractor from a legal point of view.

https://www.superprof.fr/ressources/droit/droit-general/droit-des-obligations/faute-et-nullite-du-contrat.html

Having the freedom not to give credit card information outside of a single transaction and under the exclusive control and consent of the payer, should not be a right to defend. Freemindtronic technologies  such as  EviToken  or  EviCypher  with web browser extensions protect bank card information and counter phishing attacks. It is above all a tool to exercise this right to no longer give his credit card information on the internet to be saved.

To learn more about our credit card protection solutions, you can read the following articles on Linkedin:

Why are Freemindtronic’s #NFC Offline electronic safes already in compliance with the decree that will come into effect on 01/01/19?

https://www.linkedin.com/pulse/pourquoi-les-coffres-forts-%C3%A9lectroniques-nfc-offline-de-gascuel/

A new cloud-free individual security service with anti-phishing to protect all types of bank cards from start to finish

https://www.linkedin.com/pulse/un-nouveau-service-de-s%C3%A9curit%C3%A9-individual-without-cloud-with-gascuel/

https://www.linkedin.com/pulse/victimes-dhame%C3%A7onnage-impunity%C3%A9-of-cybercriminals-jacques-gascuel/

766 trillion years to find 20-character code like a randomly generated password

A server rack filled with multiple GPUs connected by yellow and black cables, illustrating the complexity and power needed to crack a 20-character code in 766 trillion years.

766 trillion years to find randomly generated 20-character code like randomly generated password

766 trillion years to find randomly generated 20-character code is the result of a simulator to find a 20-character generated by technology EviPass.

The age of the universe is estimated at only 14 billion years, this gives you an idea of comparison.

How did I find this result that you can control on your own?

We used the Password Strength Calculator developed by Bob Beeman [1] which was last updated on January 4, 2013.

This simulator is freely available on the www.bee-man.us website as well as the source code used.

Why We Chose Bob Beeman’s Simulator

In our quest to estimate the time it would take to crack a random 20-character code, we had several simulation tools at our disposal, including lastbit.com [2], password-checker.online-domain-tools.com [3], and ANSSI’s [4] simulator from ssi.gouv.fr. However, we ultimately opted for Mr. Bob BEEMAN’s simulator due to its transparent calculation method and its technical approach to brute force attacks.

Acknowledging Mr. Bob BEEMAN

Before delving into the details of our simulation, we must extend our gratitude to Mr. Bob BEEMAN for making his code freely accessible and copyable while upholding his copyrights, as explained on his website. We hope our research can contribute to his already impressive achievements, including a record-breaking 15-millisecond feat.

Reference to Ultra-Powerful Computers

To provide you with a comprehensive understanding of the state-of-the-art technology for brute force attacks in 2013, we examined Bob Beeman’s simulator’s reference to an ultra-powerful computer designed in 2012 specifically for password cracking.

Considering Computational Capacity

Bob Beeman’s simulator takes into account the computational capabilities of computers, including the 2012 design, for executing brute force attacks on passwords. It allows for adjustments in the “Values of Hacker: Axes/Second,” providing a valuable point of reference and comparison.

Staying with Default Parameters

For the sake of consistency, we maintained the default example provided by Bob Beeman, which assumed a rate of 60-109 (billion) attempts per second.

Radeon City: Revolutionizing Password Security

In this section, we’ll delve into the incredible story of Radeon City, a game-changing password-cracking cluster boasting 25 AMD Radeon graphics cards. Discover how it was built, what it can achieve, and why it’s reshaping the world of password security.

Building Radeon City

Jeremi Gosney, the visionary behind Radeon City and the CEO of Stricture Consulting Group, sought to create a powerhouse capable of cracking passwords with unprecedented speed and efficiency. His solution? Virtual OpenCL (VCL), a groundbreaking virtualization software.

Gosney assembled five servers, each armed with five AMD Radeon HD7970 graphics cards, interconnected through VCL. The cluster, aptly named Radeon City, was born at a cost of approximately $30,000 in 2012.

Unleashing Radeon City’s Power

Radeon City is a juggernaut, capable of generating an astounding 350 billion guesses per second when cracking NTLM cryptographic algorithm hashes. In just 5.5 hours, it can test every combination of eight-character passwords, including uppercase and lowercase letters, digits, and symbols.

But it doesn’t stop there. Radeon City can crack a range of cryptographic algorithms, from MD5 and SHA1 to SHA2 and even SHA3, at unprecedented speeds. It employs various attack types, including brute force, dictionary, rule-based, combinator, and hybrid attacks, using extensive wordlists and intricate rules.

Radeon City isn’t confined to offline attacks. It can also perform online attacks through distributed cracking, where passwords are guessed on live systems.

Why Radeon City is a Game-Changer

Radeon City marks a seismic shift in password security. It reveals the vulnerability of passwords protected by fast algorithms like NTLM and challenges the belief that longer, complex passwords equate to greater security. The key takeaway? Truly secure passwords are random strings absent from dictionaries.

Moreover, Radeon City advocates for slow and salted algorithms like Bcrypt, PBKDF2, or SHA512crypt, and underscores the importance of password management tools like EviPass.

Radeon City Specifications

Jeremi Gosney, a data security researcher, engineered a groundbreaking desktop rig that can swiftly dismantle older protocols. Leveraging the Open Computing Language (OpenCL) framework and Virtual OpenCL Open Cluster (VCL), Gosney deployed HashCat—a dedicated password-cracking program. The system comprises five quad-core servers, each housing 25 AMD Radeon GPUs, providing the immense computational power required for the task. These servers are interconnected with a 10 to 20 Gbps transfer rate facilitated by an Infiniband switch.

server filled with 25 AMD Radeon HD 7970 GPUs

Here’s a snapshot of Radeon City’s technical specifications:

  • Servers: 5
  • Graphics Cards: 25 AMD Radeon GPUs
  • Model: AMD Radeon HD7970
  • Memory: 3 GB GDDR5
  • Clock Speed: 925 MHz
  • Compute Units: 32
  • Stream Processors: 2048
  • Peak Performance: 3.79 TFLOPS
  • Virtualization Software: Virtual OpenCL (VCL)
  • Password-Cracking Software: ocl-Hashcat Plus
  • Cost: $30,000 (2012)

This powerhouse enables Radeon City to achieve unprecedented speeds in password cracking, making it a game-changer in the realm of data security.

Advantages and Disadvantages of Radeon City

Advantages:

  1. Power: Radeon City cracks passwords using both fast and slow algorithms.
  2. Flexibility: It executes a variety of attacks with extensive wordlists and complex rules.
  3. Innovation: Using virtualization technology, it overcomes hardware limitations.

Disadvantages:

  1. Cost: Building and operating Radeon City can be expensive, including high electricity costs.
  2. Noise: It generates significant noise, requiring specialized cooling and soundproofing.
  3. Ethical Considerations: While powerful, its capabilities raise ethical and legal questions about its potential misuse.

Simulation Parameters and Results

To calculate the estimated time required to find a 20-character code with 94 symbols, we used the formula:

a^b / (c * 2)

Where:

  • “a” represents the number of possible characters,
  • “b” denotes the number of characters in the password,
  • “c” indicates the number of hash calculations achievable per second.

By selecting 94 symbols, a password length of 20 characters, and a 50% probability of success compared to the theoretical result, our simulation yielded an astonishing result: 766.076,000,000,000,000 years or 766 trillion [5] years.

Understanding the Financial Implications

This simulation approach not only provides insights into the time required but also sheds light on the financial investments necessary to establish a computer system capable of cracking such a password.

Consider this: The reference computer, as configured by Gosney, relies on a pool of 25 virtual AMD GPUs to crack even robust passwords. Yet, a single unit of this type, priced at approximately $30,000 in 2012, can generate just 348 billion hashes of NTLM passwords per second. To achieve results within the realm of 766 trillion years, one would need to acquire multiple such machines.

Hence, to decipher only a 20-character password generated with EviPass technology, residing within an EviTag NFC HSM or EviCard NFC HSM device, an investment of nearly $25 billion would be required. A remarkable comparison, given that global military expenses were estimated at 1.7 billion dollars [6].

Beyond Brute Force

It’s important to note that this test focused solely on brute force attacks without taking into account the activation and utilization of additional countermeasures, such as physical blockchain and jamming, which will be explored in future articles.

A Point of Reference: ANSSI’s Simulator

To provide further context, we examined the ANSSI website [7], whose simulator is limited to 20 characters and 90 symbols. This simulator yielded a score of 130, the maximum attainable. This score places passwords of this nature on par with the smallest key size of the standard AES (128-bit) encryption algorithm. Notably, our password generators exceed this maximum, boasting 20 characters with 94 symbols [8].

Forming Your Own Opinion

The aim of this article is to empower you to form your own assessment of the resilience of our password generators against brute force attacks. While we are not the sole providers of powerful password generators, our test stands as a benchmark against other comparable implementations.

Ensuring Ongoing Security

Our embedded password generator undergoes regular updates to maintain its complexity and withstand the evolving landscape of brute force attacks. Our commitment is to enhance security without compromising user convenience—a complex yet vital undertaking.

Diverse Password Generation Options

Our password creation options offer versatility. Users can either select passwords from the pool of 95 available characters, opt for a semi-automatic generation followed by modification, or automate the process entirely according to default criteria, allowing passwords of up to 20 characters.

Adaptability to Website Constraints

For websites that impose restrictions on symbols or character limits, users can customize their password generation preferences, choosing between identifiers, letters, and/or numbers, with or without symbols.

Hexadecimal Generator for Added Utility

We’ve also introduced a hexadecimal generator to facilitate programming of digital codes. This feature proves invaluable in various domains, including electronics, electromechanics, and maintenance services, enabling the creation and modification of digital access codes with ease. Furthermore, codes can be securely shared with building residents through functions like “scrambling” or encryption via a QR Code, all made possible by EviCore technologies from Freemindtronic.

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